freebsd-dev/sys/dev/fb/machfb.c

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Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
/*-
* Copyright (c) 2002 Bang Jun-Young
* Copyright (c) 2005 Marius Strobl <marius@FreeBSD.org>
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* from: NetBSD: machfb.c,v 1.23 2005/03/07 21:45:24 martin Exp
*/
2009-04-14 19:11:02 +00:00
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
/*
2009-04-14 19:11:02 +00:00
* Driver for ATI Mach64 graphics chips. Some code is derived from the
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
* ATI Rage Pro and Derivatives Programmer's Guide.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/bus.h>
#include <sys/consio.h>
#include <sys/endian.h>
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
#include <sys/eventhandler.h>
#include <sys/fbio.h>
#include <sys/kernel.h>
#include <sys/module.h>
#include <sys/resource.h>
#include <vm/vm.h>
#include <vm/pmap.h>
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
#include <dev/ofw/ofw_bus.h>
#include <dev/ofw/openfirm.h>
#include <machine/bus.h>
#include <machine/bus_private.h>
#include <machine/ofw_machdep.h>
#include <machine/pmap.h>
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
#include <machine/resource.h>
#include <machine/sc_machdep.h>
#include <sys/rman.h>
#include <dev/fb/fbreg.h>
#include <dev/fb/gfb.h>
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
#include <dev/fb/machfbreg.h>
#include <dev/pci/pcivar.h>
#include <dev/pci/pcireg.h>
#include <dev/syscons/syscons.h>
/* #define MACHFB_DEBUG */
#define MACHFB_DRIVER_NAME "machfb"
#define MACH64_REG_OFF 0x7ffc00
#define MACH64_REG_SIZE 1024
struct machfb_softc {
video_adapter_t sc_va; /* must be first */
2009-04-14 19:11:02 +00:00
phandle_t sc_node;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
uint16_t sc_chip_id;
uint8_t sc_chip_rev;
struct resource *sc_memres;
struct resource *sc_vmemres;
bus_space_tag_t sc_memt;
bus_space_tag_t sc_regt;
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
bus_space_tag_t sc_vmemt;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
bus_space_handle_t sc_memh;
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
bus_space_handle_t sc_vmemh;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
bus_space_handle_t sc_regh;
u_long sc_mem;
u_long sc_vmem;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
u_int sc_height;
u_int sc_width;
u_int sc_depth;
u_int sc_xmargin;
u_int sc_ymargin;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
size_t sc_memsize;
u_int sc_memtype;
u_int sc_mem_freq;
u_int sc_ramdac_freq;
u_int sc_ref_freq;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
u_int sc_ref_div;
u_int sc_mclk_post_div;
u_int sc_mclk_fb_div;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
const u_char *sc_font;
u_int sc_cbwidth;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
vm_offset_t sc_curoff;
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
int sc_bg_cache;
int sc_fg_cache;
u_int sc_draw_cache;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
#define MACHFB_DRAW_CHAR (1 << 0)
#define MACHFB_DRAW_FILLRECT (1 << 1)
u_int sc_flags;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
#define MACHFB_CONSOLE (1 << 0)
#define MACHFB_CUREN (1 << 1)
#define MACHFB_DSP (1 << 2)
#define MACHFB_SWAP (1 << 3)
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
};
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
static const struct {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
uint16_t chip_id;
const char *name;
uint32_t ramdac_freq;
} machfb_info[] = {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
{ ATI_MACH64_CT, "ATI Mach64 CT", 135000 },
{ ATI_RAGE_PRO_AGP, "ATI 3D Rage Pro (AGP)", 230000 },
{ ATI_RAGE_PRO_AGP1X, "ATI 3D Rage Pro (AGP 1x)", 230000 },
{ ATI_RAGE_PRO_PCI_B, "ATI 3D Rage Pro Turbo", 230000 },
{ ATI_RAGE_XC_PCI66, "ATI Rage XL (PCI66)", 230000 },
{ ATI_RAGE_XL_AGP, "ATI Rage XL (AGP)", 230000 },
{ ATI_RAGE_XC_AGP, "ATI Rage XC (AGP)", 230000 },
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
{ ATI_RAGE_XL_PCI66, "ATI Rage XL (PCI66)", 230000 },
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
{ ATI_RAGE_PRO_PCI_P, "ATI 3D Rage Pro", 230000 },
{ ATI_RAGE_PRO_PCI_L, "ATI 3D Rage Pro (limited 3D)", 230000 },
{ ATI_RAGE_XL_PCI, "ATI Rage XL", 230000 },
{ ATI_RAGE_XC_PCI, "ATI Rage XC", 230000 },
{ ATI_RAGE_II, "ATI 3D Rage I/II", 135000 },
{ ATI_RAGE_IIP, "ATI 3D Rage II+", 200000 },
{ ATI_RAGE_IIC_PCI, "ATI 3D Rage IIC", 230000 },
{ ATI_RAGE_IIC_AGP_B, "ATI 3D Rage IIC (AGP)", 230000 },
{ ATI_RAGE_IIC_AGP_P, "ATI 3D Rage IIC (AGP)", 230000 },
{ ATI_RAGE_LT_PRO_AGP, "ATI 3D Rage LT Pro (AGP 133MHz)", 230000 },
{ ATI_RAGE_MOB_M3_PCI, "ATI Rage Mobility M3", 230000 },
{ ATI_RAGE_MOB_M3_AGP, "ATI Rage Mobility M3 (AGP)", 230000 },
{ ATI_RAGE_LT, "ATI 3D Rage LT", 230000 },
{ ATI_RAGE_LT_PRO_PCI, "ATI 3D Rage LT Pro", 230000 },
{ ATI_RAGE_MOBILITY, "ATI Rage Mobility", 230000 },
{ ATI_RAGE_L_MOBILITY, "ATI Rage L Mobility", 230000 },
{ ATI_RAGE_LT_PRO, "ATI 3D Rage LT Pro", 230000 },
{ ATI_RAGE_LT_PRO2, "ATI 3D Rage LT Pro", 230000 },
{ ATI_RAGE_MOB_M1_PCI, "ATI Rage Mobility M1 (PCI)", 230000 },
{ ATI_RAGE_L_MOB_M1_PCI, "ATI Rage L Mobility (PCI)", 230000 },
{ ATI_MACH64_VT, "ATI Mach64 VT", 170000 },
{ ATI_MACH64_VTB, "ATI Mach64 VTB", 200000 },
{ ATI_MACH64_VT4, "ATI Mach64 VT4", 230000 }
};
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
static const struct machfb_cmap {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
uint8_t red;
uint8_t green;
uint8_t blue;
} machfb_default_cmap[16] = {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
{0x00, 0x00, 0x00}, /* black */
{0x00, 0x00, 0xff}, /* blue */
{0x00, 0xff, 0x00}, /* green */
{0x00, 0xc0, 0xc0}, /* cyan */
{0xff, 0x00, 0x00}, /* red */
{0xc0, 0x00, 0xc0}, /* magenta */
{0xc0, 0xc0, 0x00}, /* brown */
{0xc0, 0xc0, 0xc0}, /* light grey */
{0x80, 0x80, 0x80}, /* dark grey */
{0x80, 0x80, 0xff}, /* light blue */
{0x80, 0xff, 0x80}, /* light green */
{0x80, 0xff, 0xff}, /* light cyan */
{0xff, 0x80, 0x80}, /* light red */
{0xff, 0x80, 0xff}, /* light magenta */
{0xff, 0xff, 0x80}, /* yellow */
{0xff, 0xff, 0xff} /* white */
};
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
#define MACHFB_CMAP_OFF 16
static const u_char machfb_mouse_pointer_bits[64][8] = {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
{ 0x00, 0x00, }, /* ............ */
{ 0x80, 0x00, }, /* *........... */
{ 0xc0, 0x00, }, /* **.......... */
{ 0xe0, 0x00, }, /* ***......... */
{ 0xf0, 0x00, }, /* ****........ */
{ 0xf8, 0x00, }, /* *****....... */
{ 0xfc, 0x00, }, /* ******...... */
{ 0xfe, 0x00, }, /* *******..... */
{ 0xff, 0x00, }, /* ********.... */
{ 0xff, 0x80, }, /* *********... */
{ 0xfc, 0xc0, }, /* ******..**.. */
{ 0xdc, 0x00, }, /* **.***...... */
{ 0x8e, 0x00, }, /* *...***..... */
{ 0x0e, 0x00, }, /* ....***..... */
{ 0x07, 0x00, }, /* .....***.... */
{ 0x04, 0x00, }, /* .....*...... */
{ 0x00, 0x00, }, /* ............ */
{ 0x00, 0x00, }, /* ............ */
{ 0x00, 0x00, }, /* ............ */
{ 0x00, 0x00, }, /* ............ */
{ 0x00, 0x00, }, /* ............ */
{ 0x00, 0x00, }, /* ............ */
};
/*
* Lookup table to perform a bit-swap of the mouse pointer bits,
* map set bits to CUR_CLR0 and unset bits to transparent.
*/
static const u_char machfb_mouse_pointer_lut[] = {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
0xaa, 0x2a, 0x8a, 0x0a, 0xa2, 0x22, 0x82, 0x02,
0xa8, 0x28, 0x88, 0x08, 0xa0, 0x20, 0x80, 0x00
};
static const char *const machfb_memtype_names[] = {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
"(N/A)", "DRAM", "EDO DRAM", "EDO DRAM", "SDRAM", "SGRAM", "WRAM",
"(unknown type)"
};
extern const struct gfb_font gallant12x22;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
static struct machfb_softc machfb_softc;
static struct bus_space_tag machfb_bst_store[1];
static device_probe_t machfb_pci_probe;
static device_attach_t machfb_pci_attach;
static device_detach_t machfb_pci_detach;
static device_method_t machfb_methods[] = {
/* Device interface */
DEVMETHOD(device_probe, machfb_pci_probe),
DEVMETHOD(device_attach, machfb_pci_attach),
DEVMETHOD(device_detach, machfb_pci_detach),
{ 0, 0 }
};
static driver_t machfb_pci_driver = {
MACHFB_DRIVER_NAME,
machfb_methods,
sizeof(struct machfb_softc),
};
static devclass_t machfb_devclass;
DRIVER_MODULE(machfb, pci, machfb_pci_driver, machfb_devclass, 0, 0);
MODULE_DEPEND(machfb, pci, 1, 1, 1);
static void machfb_cursor_enable(struct machfb_softc *, int);
static int machfb_cursor_install(struct machfb_softc *);
static int machfb_get_memsize(struct machfb_softc *);
static void machfb_reset_engine(struct machfb_softc *);
static void machfb_init_engine(struct machfb_softc *);
#if 0
static void machfb_adjust_frame(struct machfb_softc *, int, int);
#endif
static void machfb_shutdown_final(void *);
static void machfb_shutdown_reset(void *);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
static int machfb_configure(int);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
static vi_probe_t machfb_probe;
static vi_init_t machfb_init;
static vi_get_info_t machfb_get_info;
static vi_query_mode_t machfb_query_mode;
static vi_set_mode_t machfb_set_mode;
static vi_save_font_t machfb_save_font;
static vi_load_font_t machfb_load_font;
static vi_show_font_t machfb_show_font;
static vi_save_palette_t machfb_save_palette;
static vi_load_palette_t machfb_load_palette;
static vi_set_border_t machfb_set_border;
static vi_save_state_t machfb_save_state;
static vi_load_state_t machfb_load_state;
static vi_set_win_org_t machfb_set_win_org;
static vi_read_hw_cursor_t machfb_read_hw_cursor;
static vi_set_hw_cursor_t machfb_set_hw_cursor;
static vi_set_hw_cursor_shape_t machfb_set_hw_cursor_shape;
static vi_blank_display_t machfb_blank_display;
static vi_mmap_t machfb_mmap;
static vi_ioctl_t machfb_ioctl;
static vi_clear_t machfb_clear;
static vi_fill_rect_t machfb_fill_rect;
static vi_bitblt_t machfb_bitblt;
static vi_diag_t machfb_diag;
static vi_save_cursor_palette_t machfb_save_cursor_palette;
static vi_load_cursor_palette_t machfb_load_cursor_palette;
static vi_copy_t machfb_copy;
static vi_putp_t machfb_putp;
static vi_putc_t machfb_putc;
static vi_puts_t machfb_puts;
static vi_putm_t machfb_putm;
static video_switch_t machfbvidsw = {
.probe = machfb_probe,
.init = machfb_init,
.get_info = machfb_get_info,
.query_mode = machfb_query_mode,
.set_mode = machfb_set_mode,
.save_font = machfb_save_font,
.load_font = machfb_load_font,
.show_font = machfb_show_font,
.save_palette = machfb_save_palette,
.load_palette = machfb_load_palette,
.set_border = machfb_set_border,
.save_state = machfb_save_state,
.load_state = machfb_load_state,
.set_win_org = machfb_set_win_org,
.read_hw_cursor = machfb_read_hw_cursor,
.set_hw_cursor = machfb_set_hw_cursor,
.set_hw_cursor_shape = machfb_set_hw_cursor_shape,
.blank_display = machfb_blank_display,
.mmap = machfb_mmap,
.ioctl = machfb_ioctl,
.clear = machfb_clear,
.fill_rect = machfb_fill_rect,
.bitblt = machfb_bitblt,
.diag = machfb_diag,
.save_cursor_palette = machfb_save_cursor_palette,
.load_cursor_palette = machfb_load_cursor_palette,
.copy = machfb_copy,
.putp = machfb_putp,
.putc = machfb_putc,
.puts = machfb_puts,
.putm = machfb_putm
};
VIDEO_DRIVER(machfb, machfbvidsw, machfb_configure);
extern sc_rndr_sw_t txtrndrsw;
RENDERER(machfb, 0, txtrndrsw, gfb_set);
RENDERER_MODULE(machfb, gfb_set);
/*
* Inline functions for getting access to register aperture.
*/
static inline uint32_t regr(struct machfb_softc *, uint32_t);
static inline uint8_t regrb(struct machfb_softc *, uint32_t);
static inline void regw(struct machfb_softc *, uint32_t, uint32_t);
static inline void regwb(struct machfb_softc *, uint32_t, uint8_t);
static inline void regwb_pll(struct machfb_softc *, uint32_t, uint8_t);
static inline uint32_t
regr(struct machfb_softc *sc, uint32_t index)
{
return bus_space_read_4(sc->sc_regt, sc->sc_regh, index);
}
static inline uint8_t
regrb(struct machfb_softc *sc, uint32_t index)
{
return bus_space_read_1(sc->sc_regt, sc->sc_regh, index);
}
static inline void
regw(struct machfb_softc *sc, uint32_t index, uint32_t data)
{
bus_space_write_4(sc->sc_regt, sc->sc_regh, index, data);
bus_space_barrier(sc->sc_regt, sc->sc_regh, index, 4,
BUS_SPACE_BARRIER_WRITE);
}
static inline void
regwb(struct machfb_softc *sc, uint32_t index, uint8_t data)
{
bus_space_write_1(sc->sc_regt, sc->sc_regh, index, data);
bus_space_barrier(sc->sc_regt, sc->sc_regh, index, 1,
BUS_SPACE_BARRIER_WRITE);
}
static inline void
regwb_pll(struct machfb_softc *sc, uint32_t index, uint8_t data)
{
regwb(sc, CLOCK_CNTL + 1, (index << 2) | PLL_WR_EN);
regwb(sc, CLOCK_CNTL + 2, data);
regwb(sc, CLOCK_CNTL + 1, (index << 2) & ~PLL_WR_EN);
}
static inline void
wait_for_fifo(struct machfb_softc *sc, uint8_t v)
{
while ((regr(sc, FIFO_STAT) & 0xffff) > (0x8000 >> v))
;
}
static inline void
wait_for_idle(struct machfb_softc *sc)
{
wait_for_fifo(sc, 16);
while ((regr(sc, GUI_STAT) & 1) != 0)
;
}
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
/*
* Inline functions for setting the background and foreground colors.
*/
static inline void machfb_setbg(struct machfb_softc *sc, int bg);
static inline void machfb_setfg(struct machfb_softc *sc, int fg);
static inline void
machfb_setbg(struct machfb_softc *sc, int bg)
{
if (bg == sc->sc_bg_cache)
return;
sc->sc_bg_cache = bg;
wait_for_fifo(sc, 1);
regw(sc, DP_BKGD_CLR, bg + MACHFB_CMAP_OFF);
}
static inline void
machfb_setfg(struct machfb_softc *sc, int fg)
{
if (fg == sc->sc_fg_cache)
return;
sc->sc_fg_cache = fg;
wait_for_fifo(sc, 1);
regw(sc, DP_FRGD_CLR, fg + MACHFB_CMAP_OFF);
}
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
/*
* video driver interface
*/
static int
machfb_configure(int flags)
{
struct machfb_softc *sc;
phandle_t chosen, output;
ihandle_t stdout;
bus_addr_t addr;
uint32_t id;
int i, space;
/*
* For the high-level console probing return the number of
* registered adapters.
*/
if (!(flags & VIO_PROBE_ONLY)) {
for (i = 0; vid_find_adapter(MACHFB_DRIVER_NAME, i) >= 0; i++)
;
return (i);
}
/* Low-level console probing and initialization. */
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
sc = &machfb_softc;
if (sc->sc_va.va_flags & V_ADP_REGISTERED)
goto found;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
if ((chosen = OF_finddevice("/chosen")) == -1) /* Quis contra nos? */
return (0);
if (OF_getprop(chosen, "stdout", &stdout, sizeof(stdout)) == -1)
return (0);
if ((output = OF_instance_to_package(stdout)) == -1)
return (0);
if ((OF_getprop(output, "vendor-id", &id, sizeof(id)) == -1) ||
id != ATI_VENDOR)
return (0);
if (OF_getprop(output, "device-id", &id, sizeof(id)) == -1)
return (0);
for (i = 0; i < sizeof(machfb_info) / sizeof(machfb_info[0]); i++) {
if (id == machfb_info[i].chip_id) {
sc->sc_flags = MACHFB_CONSOLE;
sc->sc_node = output;
sc->sc_chip_id = id;
break;
}
}
if (!(sc->sc_flags & MACHFB_CONSOLE))
return (0);
if (OF_getprop(output, "revision-id", &sc->sc_chip_rev,
sizeof(sc->sc_chip_rev)) == -1)
return (0);
if (OF_decode_addr(output, 0, &space, &addr) != 0)
return (0);
sc->sc_memt = &machfb_bst_store[0];
sc->sc_memh = sparc64_fake_bustag(space, addr, sc->sc_memt);
sc->sc_regt = sc->sc_memt;
bus_space_subregion(sc->sc_regt, sc->sc_memh, MACH64_REG_OFF,
MACH64_REG_SIZE, &sc->sc_regh);
if (machfb_init(0, &sc->sc_va, 0) < 0)
return (0);
found:
/* Return number of found adapters. */
return (1);
}
static int
machfb_probe(int unit, video_adapter_t **adpp, void *arg, int flags)
{
return (0);
}
static int
machfb_init(int unit, video_adapter_t *adp, int flags)
{
struct machfb_softc *sc;
phandle_t options;
video_info_t *vi;
char buf[32];
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
int i;
uint8_t dac_mask, dac_rindex, dac_windex;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
sc = (struct machfb_softc *)adp;
vi = &adp->va_info;
if ((regr(sc, CONFIG_CHIP_ID) & 0xffff) != sc->sc_chip_id)
return (ENXIO);
sc->sc_ramdac_freq = 0;
for (i = 0; i < sizeof(machfb_info) / sizeof(machfb_info[0]); i++) {
if (sc->sc_chip_id == machfb_info[i].chip_id) {
sc->sc_ramdac_freq = machfb_info[i].ramdac_freq;
break;
}
}
if (sc->sc_ramdac_freq == 0)
return (ENXIO);
if (sc->sc_chip_id == ATI_RAGE_II && sc->sc_chip_rev & 0x07)
sc->sc_ramdac_freq = 170000;
vid_init_struct(adp, MACHFB_DRIVER_NAME, -1, unit);
2009-04-14 19:11:02 +00:00
if (OF_getprop(sc->sc_node, "height", &sc->sc_height,
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
sizeof(sc->sc_height)) == -1)
return (ENXIO);
if (OF_getprop(sc->sc_node, "width", &sc->sc_width,
sizeof(sc->sc_width)) == -1)
return (ENXIO);
if (OF_getprop(sc->sc_node, "depth", &sc->sc_depth,
sizeof(sc->sc_depth)) == -1)
return (ENXIO);
if ((options = OF_finddevice("/options")) == -1)
return (ENXIO);
if (OF_getprop(options, "screen-#rows", buf, sizeof(buf)) == -1)
return (ENXIO);
vi->vi_height = strtol(buf, NULL, 10);
if (OF_getprop(options, "screen-#columns", buf, sizeof(buf)) == -1)
return (ENXIO);
vi->vi_width = strtol(buf, NULL, 10);
vi->vi_cwidth = gallant12x22.width;
vi->vi_cheight = gallant12x22.height;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
vi->vi_flags = V_INFO_COLOR;
vi->vi_mem_model = V_INFO_MM_OTHER;
sc->sc_font = gallant12x22.data;
sc->sc_cbwidth = howmany(vi->vi_cwidth, NBBY); /* width in bytes */
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
sc->sc_xmargin = (sc->sc_width - (vi->vi_width * vi->vi_cwidth)) / 2;
sc->sc_ymargin = (sc->sc_height - (vi->vi_height * vi->vi_cheight)) / 2;
if (sc->sc_chip_id != ATI_MACH64_CT &&
!((sc->sc_chip_id == ATI_MACH64_VT ||
sc->sc_chip_id == ATI_RAGE_II) &&
(sc->sc_chip_rev & 0x07) == 0))
sc->sc_flags |= MACHFB_DSP;
sc->sc_memsize = machfb_get_memsize(sc);
if (sc->sc_memsize == 8192)
/* The last page is used as register aperture. */
sc->sc_memsize -= 4;
sc->sc_memtype = regr(sc, CONFIG_STAT0) & 0x07;
if ((sc->sc_chip_id >= ATI_RAGE_XC_PCI66 &&
sc->sc_chip_id <= ATI_RAGE_XL_PCI66) ||
(sc->sc_chip_id >= ATI_RAGE_XL_PCI &&
sc->sc_chip_id <= ATI_RAGE_XC_PCI))
sc->sc_ref_freq = 29498;
else
sc->sc_ref_freq = 14318;
regwb(sc, CLOCK_CNTL + 1, PLL_REF_DIV << 2);
sc->sc_ref_div = regrb(sc, CLOCK_CNTL + 2);
regwb(sc, CLOCK_CNTL + 1, MCLK_FB_DIV << 2);
sc->sc_mclk_fb_div = regrb(sc, CLOCK_CNTL + 2);
sc->sc_mem_freq = (2 * sc->sc_ref_freq * sc->sc_mclk_fb_div) /
(sc->sc_ref_div * 2);
sc->sc_mclk_post_div = (sc->sc_mclk_fb_div * 2 * sc->sc_ref_freq) /
(sc->sc_mem_freq * sc->sc_ref_div);
machfb_init_engine(sc);
#if 0
2009-04-14 19:11:02 +00:00
machfb_adjust_frame(0, 0);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
#endif
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
machfb_set_mode(adp, 0);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
/*
2009-04-14 19:11:02 +00:00
* Install our 16-color color map. This is done only once and with
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
* an offset of 16 on sparc64 as there the OBP driver expects white
* to be at index 0 and black at 255 (some versions also use 1 - 8
* for color text support or the full palette for the boot banner
* logo but no versions seems to use the ISO 6429-1983 color map).
* Otherwise the colors are inverted when back in the OFW.
*/
dac_rindex = regrb(sc, DAC_RINDEX);
dac_windex = regrb(sc, DAC_WINDEX);
dac_mask = regrb(sc, DAC_MASK);
regwb(sc, DAC_MASK, 0xff);
regwb(sc, DAC_WINDEX, MACHFB_CMAP_OFF);
for (i = 0; i < 16; i++) {
regwb(sc, DAC_DATA, machfb_default_cmap[i].red);
regwb(sc, DAC_DATA, machfb_default_cmap[i].green);
regwb(sc, DAC_DATA, machfb_default_cmap[i].blue);
}
regwb(sc, DAC_MASK, dac_mask);
regwb(sc, DAC_RINDEX, dac_rindex);
regwb(sc, DAC_WINDEX, dac_windex);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
machfb_blank_display(adp, V_DISPLAY_ON);
machfb_clear(adp);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
/*
* Setting V_ADP_MODECHANGE serves as hack so machfb_set_mode()
* (which will invalidate our caches) is called as a precaution
* when the X server shuts down.
*/
adp->va_flags |= V_ADP_COLOR | V_ADP_MODECHANGE | V_ADP_PALETTE |
V_ADP_BORDER | V_ADP_INITIALIZED;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
if (vid_register(adp) < 0)
return (ENXIO);
adp->va_flags |= V_ADP_REGISTERED;
return (0);
}
static int
machfb_get_info(video_adapter_t *adp, int mode, video_info_t *info)
{
bcopy(&adp->va_info, info, sizeof(*info));
return (0);
}
static int
machfb_query_mode(video_adapter_t *adp, video_info_t *info)
{
return (ENODEV);
}
static int
machfb_set_mode(video_adapter_t *adp, int mode)
{
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
struct machfb_softc *sc;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
sc = (struct machfb_softc *)adp;
sc->sc_bg_cache = -1;
sc->sc_fg_cache = -1;
sc->sc_draw_cache = 0;
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
return (0);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
static int
machfb_save_font(video_adapter_t *adp, int page, int size, int width,
u_char *data, int c, int count)
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
{
return (ENODEV);
}
static int
machfb_load_font(video_adapter_t *adp, int page, int size, int width,
u_char *data, int c, int count)
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
{
return (ENODEV);
}
static int
machfb_show_font(video_adapter_t *adp, int page)
{
return (ENODEV);
}
static int
machfb_save_palette(video_adapter_t *adp, u_char *palette)
{
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
struct machfb_softc *sc;
int i;
uint8_t dac_mask, dac_rindex, dac_windex;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
sc = (struct machfb_softc *)adp;
dac_rindex = regrb(sc, DAC_RINDEX);
dac_windex = regrb(sc, DAC_WINDEX);
dac_mask = regrb(sc, DAC_MASK);
regwb(sc, DAC_MASK, 0xff);
regwb(sc, DAC_RINDEX, 0x0);
for (i = 0; i < 256 * 3; i++)
palette[i] = regrb(sc, DAC_DATA);
regwb(sc, DAC_MASK, dac_mask);
regwb(sc, DAC_RINDEX, dac_rindex);
regwb(sc, DAC_WINDEX, dac_windex);
return (0);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
static int
machfb_load_palette(video_adapter_t *adp, u_char *palette)
{
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
struct machfb_softc *sc;
int i;
uint8_t dac_mask, dac_rindex, dac_windex;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
sc = (struct machfb_softc *)adp;
dac_rindex = regrb(sc, DAC_RINDEX);
dac_windex = regrb(sc, DAC_WINDEX);
dac_mask = regrb(sc, DAC_MASK);
regwb(sc, DAC_MASK, 0xff);
regwb(sc, DAC_WINDEX, 0x0);
for (i = 0; i < 256 * 3; i++)
regwb(sc, DAC_DATA, palette[i]);
regwb(sc, DAC_MASK, dac_mask);
regwb(sc, DAC_RINDEX, dac_rindex);
regwb(sc, DAC_WINDEX, dac_windex);
return (0);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
static int
machfb_set_border(video_adapter_t *adp, int border)
{
struct machfb_softc *sc;
sc = (struct machfb_softc *)adp;
machfb_fill_rect(adp, border, 0, 0, sc->sc_width, sc->sc_ymargin);
machfb_fill_rect(adp, border, 0, sc->sc_height - sc->sc_ymargin,
sc->sc_width, sc->sc_ymargin);
machfb_fill_rect(adp, border, 0, 0, sc->sc_xmargin, sc->sc_height);
machfb_fill_rect(adp, border, sc->sc_width - sc->sc_xmargin, 0,
sc->sc_xmargin, sc->sc_height);
return (0);
}
static int
machfb_save_state(video_adapter_t *adp, void *p, size_t size)
{
return (ENODEV);
}
static int
machfb_load_state(video_adapter_t *adp, void *p)
{
return (ENODEV);
}
static int
machfb_set_win_org(video_adapter_t *adp, off_t offset)
{
return (ENODEV);
}
static int
machfb_read_hw_cursor(video_adapter_t *adp, int *col, int *row)
{
*col = 0;
*row = 0;
return (0);
}
static int
machfb_set_hw_cursor(video_adapter_t *adp, int col, int row)
{
return (ENODEV);
}
static int
machfb_set_hw_cursor_shape(video_adapter_t *adp, int base, int height,
int celsize, int blink)
{
return (ENODEV);
}
static int
machfb_blank_display(video_adapter_t *adp, int mode)
{
struct machfb_softc *sc;
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
uint32_t crtc_gen_cntl;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
sc = (struct machfb_softc *)adp;
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
crtc_gen_cntl = (regr(sc, CRTC_GEN_CNTL) | CRTC_EXT_DISP_EN | CRTC_EN) &
~(CRTC_HSYNC_DIS | CRTC_VSYNC_DIS | CRTC_DISPLAY_DIS);
switch (mode) {
case V_DISPLAY_ON:
break;
case V_DISPLAY_BLANK:
crtc_gen_cntl |= CRTC_HSYNC_DIS | CRTC_VSYNC_DIS |
CRTC_DISPLAY_DIS;
break;
case V_DISPLAY_STAND_BY:
crtc_gen_cntl |= CRTC_HSYNC_DIS | CRTC_DISPLAY_DIS;
break;
case V_DISPLAY_SUSPEND:
crtc_gen_cntl |= CRTC_VSYNC_DIS | CRTC_DISPLAY_DIS;
break;
}
regw(sc, CRTC_GEN_CNTL, crtc_gen_cntl);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
return (0);
}
static int
machfb_mmap(video_adapter_t *adp, vm_ooffset_t offset, vm_paddr_t *paddr,
int prot, vm_memattr_t *memattr)
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
{
struct machfb_softc *sc;
video_info_t *vi;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
sc = (struct machfb_softc *)adp;
vi = &adp->va_info;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
/* BAR 2 - VGA memory */
if (sc->sc_vmem != 0 && offset >= sc->sc_vmem &&
offset < sc->sc_vmem + vi->vi_registers_size) {
*paddr = vi->vi_registers + offset - sc->sc_vmem;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
return (0);
}
/* BAR 0 - framebuffer */
if (offset >= sc->sc_mem &&
offset < sc->sc_mem + vi->vi_buffer_size) {
*paddr = vi->vi_buffer + offset - sc->sc_mem;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
return (0);
}
/* 'regular' framebuffer mmap()ing */
if (offset < adp->va_window_size) {
*paddr = vi->vi_window + offset;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
return (0);
}
return (EINVAL);
}
static int
machfb_ioctl(video_adapter_t *adp, u_long cmd, caddr_t data)
{
struct machfb_softc *sc;
struct fbcursor *fbc;
struct fbtype *fb;
sc = (struct machfb_softc *)adp;
switch (cmd) {
case FBIOGTYPE:
fb = (struct fbtype *)data;
fb->fb_type = FBTYPE_PCIMISC;
fb->fb_height = sc->sc_height;
fb->fb_width = sc->sc_width;
fb->fb_depth = sc->sc_depth;
if (sc->sc_depth <= 1 || sc->sc_depth > 8)
fb->fb_cmsize = 0;
else
fb->fb_cmsize = 1 << sc->sc_depth;
fb->fb_size = adp->va_buffer_size;
break;
case FBIOSCURSOR:
fbc = (struct fbcursor *)data;
if (fbc->set & FB_CUR_SETCUR && fbc->enable == 0) {
machfb_cursor_enable(sc, 0);
sc->sc_flags &= ~MACHFB_CUREN;
} else
return (ENODEV);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
break;
default:
return (fb_commonioctl(adp, cmd, data));
}
return (0);
}
static int
machfb_clear(video_adapter_t *adp)
{
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
struct machfb_softc *sc;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
sc = (struct machfb_softc *)adp;
machfb_fill_rect(adp, (SC_NORM_ATTR >> 4) & 0xf, 0, 0, sc->sc_width,
sc->sc_height);
return (0);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
static int
machfb_fill_rect(video_adapter_t *adp, int val, int x, int y, int cx, int cy)
{
struct machfb_softc *sc;
sc = (struct machfb_softc *)adp;
if (sc->sc_draw_cache != MACHFB_DRAW_FILLRECT) {
wait_for_fifo(sc, 7);
regw(sc, DP_WRITE_MASK, 0xff);
regw(sc, DP_PIX_WIDTH, DST_8BPP | SRC_8BPP | HOST_8BPP);
regw(sc, DP_SRC, FRGD_SRC_FRGD_CLR);
regw(sc, DP_MIX, MIX_SRC << 16);
regw(sc, CLR_CMP_CNTL, 0); /* no transparency */
regw(sc, SRC_CNTL, SRC_LINE_X_LEFT_TO_RIGHT);
regw(sc, DST_CNTL, DST_X_LEFT_TO_RIGHT | DST_Y_TOP_TO_BOTTOM);
sc->sc_draw_cache = MACHFB_DRAW_FILLRECT;
}
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
machfb_setfg(sc, val);
wait_for_fifo(sc, 4);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
regw(sc, SRC_Y_X, (x << 16) | y);
regw(sc, SRC_WIDTH1, cx);
regw(sc, DST_Y_X, (x << 16) | y);
regw(sc, DST_HEIGHT_WIDTH, (cx << 16) | cy);
return (0);
}
static int
machfb_bitblt(video_adapter_t *adp, ...)
{
return (ENODEV);
}
static int
machfb_diag(video_adapter_t *adp, int level)
{
video_info_t info;
fb_dump_adp_info(adp->va_name, adp, level);
machfb_get_info(adp, 0, &info);
fb_dump_mode_info(adp->va_name, adp, &info, level);
return (0);
}
static int
machfb_save_cursor_palette(video_adapter_t *adp, u_char *palette)
{
return (ENODEV);
}
static int
machfb_load_cursor_palette(video_adapter_t *adp, u_char *palette)
{
return (ENODEV);
}
static int
machfb_copy(video_adapter_t *adp, vm_offset_t src, vm_offset_t dst, int n)
{
return (ENODEV);
}
static int
machfb_putp(video_adapter_t *adp, vm_offset_t off, uint32_t p, uint32_t a,
int size, int bpp, int bit_ltor, int byte_ltor)
{
return (ENODEV);
}
static int
machfb_putc(video_adapter_t *adp, vm_offset_t off, uint8_t c, uint8_t a)
{
struct machfb_softc *sc;
const uint8_t *p;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
int i;
sc = (struct machfb_softc *)adp;
if (sc->sc_draw_cache != MACHFB_DRAW_CHAR) {
wait_for_fifo(sc, 8);
regw(sc, DP_WRITE_MASK, 0xff); /* XXX only good for 8 bit */
regw(sc, DP_PIX_WIDTH, DST_8BPP | SRC_1BPP | HOST_1BPP);
regw(sc, DP_SRC, MONO_SRC_HOST | BKGD_SRC_BKGD_CLR |
FRGD_SRC_FRGD_CLR);
regw(sc, DP_MIX ,((MIX_SRC & 0xffff) << 16) | MIX_SRC);
regw(sc, CLR_CMP_CNTL, 0); /* no transparency */
regw(sc, SRC_CNTL, SRC_LINE_X_LEFT_TO_RIGHT);
regw(sc, DST_CNTL, DST_Y_TOP_TO_BOTTOM | DST_X_LEFT_TO_RIGHT);
regw(sc, HOST_CNTL, HOST_BYTE_ALIGN);
sc->sc_draw_cache = MACHFB_DRAW_CHAR;
}
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
machfb_setbg(sc, (a >> 4) & 0xf);
machfb_setfg(sc, a & 0xf);
wait_for_fifo(sc, 4 + (adp->va_info.vi_cheight / sc->sc_cbwidth));
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
regw(sc, SRC_Y_X, 0);
regw(sc, SRC_WIDTH1, adp->va_info.vi_cwidth);
regw(sc, DST_Y_X, ((((off % adp->va_info.vi_width) *
adp->va_info.vi_cwidth) + sc->sc_xmargin) << 16) |
(((off / adp->va_info.vi_width) * adp->va_info.vi_cheight) +
sc->sc_ymargin));
regw(sc, DST_HEIGHT_WIDTH, (adp->va_info.vi_cwidth << 16) |
adp->va_info.vi_cheight);
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
p = sc->sc_font + (c * adp->va_info.vi_cheight * sc->sc_cbwidth);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
for (i = 0; i < adp->va_info.vi_cheight * sc->sc_cbwidth; i += 4)
regw(sc, HOST_DATA0 + i, (p[i + 3] << 24 | p[i + 2] << 16 |
p[i + 1] << 8 | p[i]));
return (0);
}
static int
machfb_puts(video_adapter_t *adp, vm_offset_t off, uint16_t *s, int len)
{
struct machfb_softc *sc;
int blanks, i, x1, x2, y1, y2;
uint8_t a, c, color1, color2;
sc = (struct machfb_softc *)adp;
#define MACHFB_BLANK machfb_fill_rect(adp, color1, x1, y1, \
blanks * adp->va_info.vi_cwidth, \
adp->va_info.vi_cheight)
blanks = color1 = x1 = y1 = 0;
for (i = 0; i < len; i++) {
/*
* Accelerate continuous blanks by drawing a respective
2009-04-14 19:11:02 +00:00
* rectangle instead. Drawing a rectangle of any size
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
* takes about the same number of operations as drawing
* a single character.
*/
c = s[i] & 0xff;
a = (s[i] & 0xff00) >> 8;
if (c == 0x00 || c == 0x20 || c == 0xdb || c == 0xff) {
color2 = (a >> (c == 0xdb ? 0 : 4) & 0xf);
2009-04-14 19:11:02 +00:00
x2 = (((off + i) % adp->va_info.vi_width) *
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
adp->va_info.vi_cwidth) + sc->sc_xmargin;
y2 = (((off + i) / adp->va_info.vi_width) *
adp->va_info.vi_cheight) + sc->sc_ymargin;
if (blanks == 0) {
color1 = color2;
x1 = x2;
y1 = y2;
blanks++;
} else if (color1 != color2 || y1 != y2) {
MACHFB_BLANK;
color1 = color2;
x1 = x2;
y1 = y2;
blanks = 1;
} else
blanks++;
} else {
if (blanks != 0) {
MACHFB_BLANK;
blanks = 0;
}
vidd_putc(adp, off + i, c, a);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
}
if (blanks != 0)
MACHFB_BLANK;
#undef MACHFB_BLANK
return (0);
}
static int
machfb_putm(video_adapter_t *adp, int x, int y, uint8_t *pixel_image,
uint32_t pixel_mask, int size, int width)
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
{
struct machfb_softc *sc;
int error;
sc = (struct machfb_softc *)adp;
if ((!(sc->sc_flags & MACHFB_CUREN)) &&
(error = machfb_cursor_install(sc)) < 0)
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return (error);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
else {
/*
* The hardware cursor always must be disabled when
* fiddling with its bits otherwise some artifacts
* may appear on the screen.
*/
machfb_cursor_enable(sc, 0);
}
regw(sc, CUR_HORZ_VERT_OFF, 0);
if ((regr(sc, GEN_TEST_CNTL) & CRTC_DBL_SCAN_EN) != 0)
y <<= 1;
regw(sc, CUR_HORZ_VERT_POSN, ((y + sc->sc_ymargin) << 16) |
(x + sc->sc_xmargin));
machfb_cursor_enable(sc, 1);
sc->sc_flags |= MACHFB_CUREN;
return (0);
}
/*
* PCI bus interface
*/
static int
machfb_pci_probe(device_t dev)
{
int i;
if (pci_get_class(dev) != PCIC_DISPLAY ||
pci_get_subclass(dev) != PCIS_DISPLAY_VGA)
return (ENXIO);
for (i = 0; i < sizeof(machfb_info) / sizeof(machfb_info[0]); i++) {
if (pci_get_device(dev) == machfb_info[i].chip_id) {
device_set_desc(dev, machfb_info[i].name);
return (BUS_PROBE_DEFAULT);
}
}
2009-04-14 19:11:02 +00:00
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
return (ENXIO);
}
static int
machfb_pci_attach(device_t dev)
{
struct machfb_softc *sc;
video_adapter_t *adp;
video_switch_t *sw;
video_info_t *vi;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
phandle_t node;
int error, i, rid;
uint32_t *p32, u32;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
uint8_t *p;
node = ofw_bus_get_node(dev);
if ((sc = (struct machfb_softc *)vid_get_adapter(vid_find_adapter(
MACHFB_DRIVER_NAME, 0))) != NULL && sc->sc_node == node) {
2009-04-14 19:11:02 +00:00
device_printf(dev, "console\n");
device_set_softc(dev, sc);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
} else {
sc = device_get_softc(dev);
sc->sc_node = node;
sc->sc_chip_id = pci_get_device(dev);
sc->sc_chip_rev = pci_get_revid(dev);
}
adp = &sc->sc_va;
vi = &adp->va_info;
2009-04-14 19:11:02 +00:00
rid = PCIR_BAR(0);
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
if ((sc->sc_memres = bus_alloc_resource_any(dev, SYS_RES_MEMORY, &rid,
RF_ACTIVE)) == NULL) {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
device_printf(dev, "cannot allocate memory resources\n");
return (ENXIO);
}
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
sc->sc_memt = rman_get_bustag(sc->sc_memres);
sc->sc_memh = rman_get_bushandle(sc->sc_memres);
sc->sc_mem = rman_get_start(sc->sc_memres);
vi->vi_buffer = sc->sc_memh;
vi->vi_buffer_size = rman_get_size(sc->sc_memres);
if (OF_getprop(sc->sc_node, "address", &u32, sizeof(u32)) > 0 &&
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
vtophys(u32) == sc->sc_memh)
adp->va_mem_base = u32;
else {
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
if (bus_space_map(sc->sc_memt, vi->vi_buffer,
vi->vi_buffer_size, BUS_SPACE_MAP_LINEAR,
&sc->sc_memh) != 0) {
device_printf(dev, "cannot map memory resources\n");
error = ENXIO;
goto fail_memres;
}
adp->va_mem_base =
(vm_offset_t)rman_get_virtual(sc->sc_memres);
}
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
adp->va_mem_size = vi->vi_buffer_size;
adp->va_buffer = adp->va_mem_base;
adp->va_buffer_size = adp->va_mem_size;
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
sc->sc_regt = sc->sc_memt;
if (bus_space_subregion(sc->sc_regt, sc->sc_memh, MACH64_REG_OFF,
MACH64_REG_SIZE, &sc->sc_regh) != 0) {
device_printf(dev, "cannot allocate register resources\n");
error = ENXIO;
goto fail_memmap;
}
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
/*
* Depending on the firmware version the VGA I/O and/or memory
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
* resources of the Mach64 chips come up disabled. These will be
* enabled by pci(4) when activating the resource in question but
* this doesn't necessarily mean that the resource is valid.
* Invalid resources seem to have in common that they start at
* address 0. We don't allocate the VGA memory in this case in
* order to avoid warnings in apb(4) and crashes when using this
* invalid resources. X.Org is aware of this and doesn't use the
* VGA memory resource in this case (but demands it if it's valid).
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
*/
rid = PCIR_BAR(2);
if (bus_get_resource_start(dev, SYS_RES_MEMORY, rid) != 0) {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
if ((sc->sc_vmemres = bus_alloc_resource_any(dev,
SYS_RES_MEMORY, &rid, RF_ACTIVE)) == NULL) {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
device_printf(dev,
"cannot allocate VGA memory resources\n");
error = ENXIO;
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
goto fail_memmap;
}
sc->sc_vmemt = rman_get_bustag(sc->sc_vmemres);
sc->sc_vmemh = rman_get_bushandle(sc->sc_vmemres);
sc->sc_vmem = rman_get_start(sc->sc_vmemres);
vi->vi_registers = sc->sc_vmemh;
vi->vi_registers_size = rman_get_size(sc->sc_vmemres);
if (bus_space_map(sc->sc_vmemt, vi->vi_registers,
vi->vi_registers_size, BUS_SPACE_MAP_LINEAR,
&sc->sc_vmemh) != 0) {
device_printf(dev,
"cannot map VGA memory resources\n");
error = ENXIO;
goto fail_vmemres;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
adp->va_registers =
(vm_offset_t)rman_get_virtual(sc->sc_vmemres);
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
adp->va_registers_size = vi->vi_registers_size;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
if (!(sc->sc_flags & MACHFB_CONSOLE)) {
if ((sw = vid_get_switch(MACHFB_DRIVER_NAME)) == NULL) {
device_printf(dev, "cannot get video switch\n");
error = ENODEV;
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
goto fail_vmemmap;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
/*
* During device configuration we don't necessarily probe
* the adapter which is the console first so we can't use
2009-04-14 19:11:02 +00:00
* the device unit number for the video adapter unit. The
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
* worst case would be that we use the video adapter unit
2009-04-14 19:11:02 +00:00
* 0 twice. As it doesn't really matter which unit number
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
* the corresponding video adapter has just use the next
* unused one.
*/
for (i = 0; i < devclass_get_maxunit(machfb_devclass); i++)
if (vid_find_adapter(MACHFB_DRIVER_NAME, i) < 0)
break;
if ((error = sw->init(i, adp, 0)) != 0) {
device_printf(dev, "cannot initialize adapter\n");
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
goto fail_vmemmap;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
}
/*
* Test whether the aperture is byte swapped or not, set
* va_window and va_window_size as appropriate. Note that
* the aperture could be mapped either big or little endian
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
* independently of the endianess of the host so this has
* to be a runtime test.
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
*/
p32 = (uint32_t *)adp->va_buffer;
u32 = *p32;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
p = (uint8_t *)adp->va_buffer;
*p32 = 0x12345678;
if (!(p[0] == 0x12 && p[1] == 0x34 && p[2] == 0x56 && p[3] == 0x78)) {
adp->va_window = adp->va_buffer + 0x800000;
adp->va_window_size = adp->va_buffer_size - 0x800000;
vi->vi_window = vi->vi_buffer + 0x800000;
vi->vi_window_size = vi->vi_buffer_size - 0x800000;
sc->sc_flags |= MACHFB_SWAP;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
} else {
adp->va_window = adp->va_buffer;
adp->va_window_size = adp->va_buffer_size;
vi->vi_window = vi->vi_buffer;
vi->vi_window_size = vi->vi_buffer_size;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
*p32 = u32;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
adp->va_window_gran = adp->va_window_size;
device_printf(dev,
"%d MB aperture at %p %sswapped\n",
(u_int)(adp->va_window_size / (1024 * 1024)),
(void *)adp->va_window, (sc->sc_flags & MACHFB_SWAP) ?
"" : "not ");
device_printf(dev,
"%ld KB %s %d.%d MHz, maximum RAMDAC clock %d MHz, %sDSP\n",
(u_long)sc->sc_memsize, machfb_memtype_names[sc->sc_memtype],
sc->sc_mem_freq / 1000, sc->sc_mem_freq % 1000,
sc->sc_ramdac_freq / 1000,
(sc->sc_flags & MACHFB_DSP) ? "" : "no ");
device_printf(dev, "resolution %dx%d at %d bpp\n",
sc->sc_width, sc->sc_height, sc->sc_depth);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
/*
* Allocate one page for the mouse pointer image at the end of
* the little endian aperture, right before the memory mapped
2009-04-14 19:11:02 +00:00
* registers that might also reside there. Must be done after
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
* sc_memsize was set and possibly adjusted to account for the
* memory mapped registers.
*/
sc->sc_curoff = (sc->sc_memsize * 1024) - PAGE_SIZE;
sc->sc_memsize -= PAGE_SIZE / 1024;
machfb_cursor_enable(sc, 0);
/* Initialize with an all transparent image. */
memset((void *)(adp->va_buffer + sc->sc_curoff), 0xaa, PAGE_SIZE);
/*
* Register a handler that performs some cosmetic surgery like
* turning off the mouse pointer on halt in preparation for
2009-04-14 19:11:02 +00:00
* handing the screen over to the OFW. Register another handler
* that turns off the CRTC when resetting, otherwise the OFW
* boot command issued by cpu_reset() just doesn't work.
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
*/
EVENTHANDLER_REGISTER(shutdown_final, machfb_shutdown_final, sc,
SHUTDOWN_PRI_DEFAULT);
EVENTHANDLER_REGISTER(shutdown_reset, machfb_shutdown_reset, sc,
SHUTDOWN_PRI_DEFAULT);
return (0);
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
fail_vmemmap:
if (adp->va_registers != 0)
bus_space_unmap(sc->sc_vmemt, sc->sc_vmemh,
vi->vi_registers_size);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
fail_vmemres:
2009-04-14 19:11:02 +00:00
if (sc->sc_vmemres != NULL)
bus_release_resource(dev, SYS_RES_MEMORY,
rman_get_rid(sc->sc_vmemres), sc->sc_vmemres);
Make sparc64 compatible with NEW_PCIB and enable it: - Implement bus_adjust_resource() methods as far as necessary and in non-PCI bridge drivers as far as feasible without rototilling them. - As NEW_PCIB does a layering violation by activating resources at layers above pci(4) without previously bubbling up their allocation there, move the assignment of bus tags and handles from the bus_alloc_resource() to the bus_activate_resource() methods like at least the other NEW_PCIB enabled architectures do. This is somewhat unfortunate as previously sparc64 (ab)used resource activation to indicate whether SYS_RES_MEMORY resources should be mapped into KVA, which is only necessary if their going to be accessed via the pointer returned from rman_get_virtual() but not for bus_space(9) as the later always uses physical access on sparc64. Besides wasting KVA if we always map in SYS_RES_MEMORY resources, a driver also may deliberately not map them in if the firmware already has done so, possibly in a special way. So in order to still allow a driver to decide whether a SYS_RES_MEMORY resource should be mapped into KVA we let it indicate that by calling bus_space_map(9) with BUS_SPACE_MAP_LINEAR as actually documented in the bus_space(9) page. This is implemented by allocating a separate bus tag per SYS_RES_MEMORY resource and passing the resource via the previously unused bus tag cookie so we later on can call rman_set_virtual() in sparc64_bus_mem_map(). As a side effect this now also allows to actually indicate that a SYS_RES_MEMORY resource should be mapped in as cacheable and/or read-only via BUS_SPACE_MAP_CACHEABLE and BUS_SPACE_MAP_READONLY respectively. - Do some minor cleanup like taking advantage of rman_init_from_resource(), factor out the common part of bus tag allocation into a newly added sparc64_alloc_bus_tag(), hook up some missing newbus methods and replace some homegrown versions with the generic counterparts etc. - While at it, let apb_attach() (which can't use the generic NEW_PCIB code as APB bridges just don't have the base and limit registers implemented) regarding the config space registers cached in pcib_softc and the SYSCTL reporting nodes set up.
2011-10-02 23:22:38 +00:00
fail_memmap:
bus_space_unmap(sc->sc_memt, sc->sc_memh, vi->vi_buffer_size);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
fail_memres:
bus_release_resource(dev, SYS_RES_MEMORY,
rman_get_rid(sc->sc_memres), sc->sc_memres);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
return (error);
}
static int
machfb_pci_detach(device_t dev)
{
return (EINVAL);
}
/*
* internal functions
*/
static void
machfb_cursor_enable(struct machfb_softc *sc, int onoff)
{
if (onoff)
regw(sc, GEN_TEST_CNTL,
regr(sc, GEN_TEST_CNTL) | HWCURSOR_ENABLE);
else
regw(sc, GEN_TEST_CNTL,
regr(sc, GEN_TEST_CNTL) &~ HWCURSOR_ENABLE);
}
static int
machfb_cursor_install(struct machfb_softc *sc)
{
uint16_t *p, v;
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
uint8_t fg;
int i, j;
if (sc->sc_curoff == 0)
return (ENODEV);
machfb_cursor_enable(sc, 0);
regw(sc, CUR_OFFSET, sc->sc_curoff >> 3);
fg = SC_NORM_ATTR & 0xf;
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
regw(sc, CUR_CLR0, machfb_default_cmap[fg].red << 24 |
machfb_default_cmap[fg].green << 16 |
machfb_default_cmap[fg].blue << 8);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
p = (uint16_t *)(sc->sc_va.va_buffer + sc->sc_curoff);
for (i = 0; i < 64; i++) {
for (j = 0; j < 8; j++) {
v = machfb_mouse_pointer_lut[
machfb_mouse_pointer_bits[i][j] >> 4] << 8 |
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
machfb_mouse_pointer_lut[
machfb_mouse_pointer_bits[i][j] & 0x0f];
if (sc->sc_flags & MACHFB_SWAP)
*(p++) = bswap16(v);
else
*(p++) = v;
}
}
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
return (0);
}
static int
machfb_get_memsize(struct machfb_softc *sc)
{
int tmp, memsize;
const int mem_tab[] = {
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
512, 1024, 2048, 4096, 6144, 8192, 12288, 16384
};
tmp = regr(sc, MEM_CNTL);
#ifdef MACHFB_DEBUG
printf("memcntl=0x%08x\n", tmp);
#endif
if (sc->sc_flags & MACHFB_DSP) {
tmp &= 0x0000000f;
if (tmp < 8)
memsize = (tmp + 1) * 512;
else if (tmp < 12)
memsize = (tmp - 3) * 1024;
else
memsize = (tmp - 7) * 2048;
} else
memsize = mem_tab[tmp & 0x07];
return (memsize);
}
static void
machfb_reset_engine(struct machfb_softc *sc)
{
/* Reset engine.*/
regw(sc, GEN_TEST_CNTL, regr(sc, GEN_TEST_CNTL) & ~GUI_ENGINE_ENABLE);
/* Enable engine. */
regw(sc, GEN_TEST_CNTL, regr(sc, GEN_TEST_CNTL) | GUI_ENGINE_ENABLE);
/*
* Ensure engine is not locked up by clearing any FIFO or
* host errors.
*/
regw(sc, BUS_CNTL, regr(sc, BUS_CNTL) | BUS_HOST_ERR_ACK |
BUS_FIFO_ERR_ACK);
}
static void
machfb_init_engine(struct machfb_softc *sc)
{
uint32_t pitch_value;
pitch_value = sc->sc_width;
if (sc->sc_depth == 24)
pitch_value *= 3;
machfb_reset_engine(sc);
wait_for_fifo(sc, 14);
regw(sc, CONTEXT_MASK, 0xffffffff);
regw(sc, DST_OFF_PITCH, (pitch_value / 8) << 22);
regw(sc, DST_Y_X, 0);
regw(sc, DST_HEIGHT, 0);
regw(sc, DST_BRES_ERR, 0);
regw(sc, DST_BRES_INC, 0);
regw(sc, DST_BRES_DEC, 0);
regw(sc, DST_CNTL, DST_LAST_PEL | DST_X_LEFT_TO_RIGHT |
DST_Y_TOP_TO_BOTTOM);
regw(sc, SRC_OFF_PITCH, (pitch_value / 8) << 22);
regw(sc, SRC_Y_X, 0);
regw(sc, SRC_HEIGHT1_WIDTH1, 1);
regw(sc, SRC_Y_X_START, 0);
regw(sc, SRC_HEIGHT2_WIDTH2, 1);
regw(sc, SRC_CNTL, SRC_LINE_X_LEFT_TO_RIGHT);
wait_for_fifo(sc, 13);
regw(sc, HOST_CNTL, 0);
regw(sc, PAT_REG0, 0);
regw(sc, PAT_REG1, 0);
regw(sc, PAT_CNTL, 0);
regw(sc, SC_LEFT, 0);
regw(sc, SC_TOP, 0);
regw(sc, SC_BOTTOM, sc->sc_height - 1);
regw(sc, SC_RIGHT, pitch_value - 1);
regw(sc, DP_BKGD_CLR, 0);
regw(sc, DP_FRGD_CLR, 0xffffffff);
regw(sc, DP_WRITE_MASK, 0xffffffff);
regw(sc, DP_MIX, (MIX_SRC << 16) | MIX_DST);
regw(sc, DP_SRC, FRGD_SRC_FRGD_CLR);
wait_for_fifo(sc, 3);
regw(sc, CLR_CMP_CLR, 0);
regw(sc, CLR_CMP_MASK, 0xffffffff);
regw(sc, CLR_CMP_CNTL, 0);
wait_for_fifo(sc, 2);
switch (sc->sc_depth) {
case 8:
regw(sc, DP_PIX_WIDTH, HOST_8BPP | SRC_8BPP | DST_8BPP);
regw(sc, DP_CHAIN_MASK, DP_CHAIN_8BPP);
regw(sc, DAC_CNTL, regr(sc, DAC_CNTL) | DAC_8BIT_EN);
break;
#if 0
case 32:
regw(sc, DP_PIX_WIDTH, HOST_32BPP | SRC_32BPP | DST_32BPP);
regw(sc, DP_CHAIN_MASK, DP_CHAIN_32BPP);
regw(sc, DAC_CNTL, regr(sc, DAC_CNTL) | DAC_8BIT_EN);
break;
#endif
}
- Declare lookup tables etc. const. [1] - Add a missing "ATI" in one of the device descriptions. - In machfb_init_engine() adjust a wait_for_fifo() call to the actual number of operations. - As a speed optimization cache setting the foreground and back- ground colors. - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to machfb_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Implement machfb_load_palette() and machfb_save_palette() and set the V_ADP_PALETTE flag. This makes fade_saver.ko work. [2] - Install our 16-color color map only once and with an offset of 16 as the OBP driver expects white to be at index 0 and black at 255. This fixes the inversion of the colors back at the boot prompt after shutting down FreeBSD. This will also be handy if we ever want to implement breaking into OFW. Unfortunately there doesn't seem to be a better way to achieve this as e.g. bypassing the color map isn't supported by all Mach64 chips. - Move invalidating the cache variables to machfb_set_mode() and set the V_ADP_MODECHANGE flag. This causes machfb_set_mode() to be called when the X server shuts down. This hopefully will fix the screen corruption happening occasionally when shutting down the X server and which is present until switching to another VTY. Inspired by: NetBSD [1] Based on: Xorg [2] Approved by: re (scottl)
2005-07-10 11:43:20 +00:00
wait_for_fifo(sc, 2);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
regw(sc, CRTC_INT_CNTL, regr(sc, CRTC_INT_CNTL) & ~0x20);
regw(sc, GUI_TRAJ_CNTL, DST_X_LEFT_TO_RIGHT | DST_Y_TOP_TO_BOTTOM);
wait_for_idle(sc);
}
#if 0
static void
machfb_adjust_frame(struct machfb_softc *sc, int x, int y)
{
int offset;
offset = ((x + y * sc->sc_width) * (sc->sc_depth >> 3)) >> 3;
regw(sc, CRTC_OFF_PITCH, (regr(sc, CRTC_OFF_PITCH) & 0xfff00000) |
2009-04-14 19:11:02 +00:00
offset);
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
#endif
static void
machfb_shutdown_final(void *v)
{
struct machfb_softc *sc = v;
machfb_cursor_enable(sc, 0);
/*
* In case this is the console set the cursor of the stdout
* instance to the start of the last line so OFW output ends
* up beneath what FreeBSD left on the screen.
*/
if (sc->sc_flags & MACHFB_CONSOLE) {
OF_interpret("stdout @ is my-self 0 to column#", 0);
OF_interpret("stdout @ is my-self #lines 1 - to line#", 0);
}
Add machfb(4), a driver for ATI Mach64 graphics chips intended for use with syscons(4) on sparc64. It's based on the respective NetBSD driver with some additional info (initialisation/hardware cursor) obtained from the Xorg 'ati' driver and some ideas taken from creator(4). ATI Mach64 chips ("ATI Rage") are quite common as low- end graphics chips in PCI-based sun4u machines and are used on-board in e.g. Blade 100 and a couple of OEM products. Most if not all of the Sun PGX add-on cards family (descriptions of the PGX32 are conflicting but most say it's a Rage Pro) are also based on these chips. Depending on the version of the OBP Mach64 cards destined for use in i386 machines also work in sun4u machines. The driver uses pixel mode with hardware acceleration as far as syscons(4) currently permits on sparc64 so text mode is already quite fast. The hardware cursor is used for the mouse pointer; for one because this is a "restriction" induced in syscons(4) on sparc64 by creator(4) and also because of issues with mapping the aperture when used as a low-level early during boot. Due to insufficiencies in the available documentation I didn't manage to get mode switch work properly (sync problems), yet. So for now this driver relies on the OBP having initialised a mode (as does creator(4)). On all of the tested machines is even true when using a serial console (and also not only when the OBP switched to a serial console because no keyboard is present). In general however the states the Mach64 chips are left in by the OBP vary a lot depending on the version of the OBP. This e.g. includes the aperture not being mapped in even when used as the console and the OBP just barfing when asked to map it. The latter is also the reason for the existence of this native driver in FreeBSD rather than taking an OFW frambuffer approach. Xorg is also happy to talk to these chips by mmap'ing them through this driver. For some hardware configs like on the Blade 100 a fix for the Xorg sparc64 MD bus code is however needed (added in version 6.8.2_2 of the xorg-server port). The video driver font loading and saving methods are not implemented, yet, as syscons(4) needs more work in that area to work viable on sparc64. With minor modifications machfb(4) would most likely also work on powerpc, when #ifdef'ing the OFW and possibly implementing mode setting probably also on the other archs. The latter is however not very practible at the moment as it would conflict with vga(4). Tested/developed with: Rage II+ add-on card on AX1105 and AXi board, AXe board (on-board Rage Pro) Additional testing by: marcel (Ultra 5 w/ on-board Rage Pro), scottl (Naturetech GENIALstation 777S w/ on-board Rage Mobility M1), Michiel Boland and Ilmar S. Habibulin (Blade 100 w/ on-board Rage XL)
2005-05-21 20:47:38 +00:00
}
static void
machfb_shutdown_reset(void *v)
{
struct machfb_softc *sc = v;
machfb_blank_display(&sc->sc_va, V_DISPLAY_STAND_BY);
}