freebsd-dev/sys/sparc64/isa/isa.c

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2001-11-09 20:21:21 +00:00
/*-
* Copyright (c) 1998 Doug Rabson
* Copyright (c) 2001 Thomas Moestl <tmm@FreeBSD.org>
* 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.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``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 OR CONTRIBUTORS 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: FreeBSD: src/sys/alpha/isa/isa.c,v 1.26 2001/07/11
*/
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
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#include <sys/param.h>
#include <sys/systm.h>
#include <sys/bus.h>
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#include <machine/bus.h>
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#include <sys/rman.h>
#include <isa/isareg.h>
#include <isa/isavar.h>
#include <isa/isa_common.h>
- Introduce an ofw_bus kobj-interface for retrieving the OFW node and a subset ("compatible", "device_type", "model" and "name") of the standard properties in drivers for devices on Open Firmware supported busses. The standard properties "reg", "interrupts" und "address" are not covered by this interface because they are only of interest in the respective bridge code. There's a remaining standard property "status" which is unclear how to support properly but which also isn't used in FreeBSD at present. This ofw_bus kobj-interface allows to replace the various (ebus_get_node(), ofw_pci_get_node(), etc.) and partially inconsistent (central_get_type() vs. sbus_get_device_type(), etc.) existing IVAR ones with a common one. This in turn allows to simplify and remove code-duplication in drivers for devices that can hang off of more than one OFW supported bus. - Convert the sparc64 Central, EBus, FHC, PCI and SBus bus drivers and the drivers for their children to use the ofw_bus kobj-interface. The IVAR- interfaces of the Central, EBus and FHC are entirely replaced by this. The PCI bus driver used its own kobj-interface and now also uses the ofw_bus one. The IVARs special to the SBus, e.g. for retrieving the burst size, remain. Beware: this causes an ABI-breakage for modules of drivers which used the IVAR-interfaces, i.e. esp(4), hme(4), isp(4) and uart(4), which need to be recompiled. The style-inconsistencies introduced in some of the bus drivers will be fixed by tmm@ in a generic clean-up of the respective drivers later (he requested to add the changes in the "new" style). - Convert the powerpc MacIO bus driver and the drivers for its children to use the ofw_bus kobj-interface. This invloves removing the IVARs related to the "reg" property which were unused and a leftover from the NetBSD origini of the code. There's no ABI-breakage caused by this because none of these driver are currently built as modules. There are other powerpc bus drivers which can be converted to the ofw_bus kobj-interface, e.g. the PCI bus driver, which should be done together with converting powerpc to use the OFW PCI code from sparc64. - Make the SBus and FHC front-end of zs(4) and the sparc64 eeprom(4) take advantage of the ofw_bus kobj-interface and simplify them a bit. Reviewed by: grehan, tmm Approved by: re (scottl) Discussed with: tmm Tested with: Sun AX1105, AXe, Ultra 2, Ultra 60; PPC cross-build on i386
2004-08-12 17:41:33 +00:00
#include <dev/ofw/ofw_bus.h>
#include <dev/ofw/openfirm.h>
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#include <machine/resource.h>
#include <dev/pci/pcireg.h>
#include <dev/pci/pcivar.h>
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#include <sparc64/pci/ofw_pci.h>
#include <sparc64/isa/ofw_isa.h>
/* There can be only one ISA bus, so it is safe to use globals. */
bus_space_tag_t isa_io_bt = NULL;
bus_space_handle_t isa_io_hdl;
bus_space_tag_t isa_mem_bt = NULL;
bus_space_handle_t isa_mem_hdl;
static u_int64_t isa_io_base;
static u_int64_t isa_io_limit;
static u_int64_t isa_mem_base;
static u_int64_t isa_mem_limit;
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device_t isa_bus_device;
static phandle_t isab_node;
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
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static struct isa_ranges *isab_ranges;
static int isab_nrange;
Add the new sparc64 OFW PCI framework, conditional on options OFW_NEWPCI for now. It introduces a OFW PCI bus driver and a generic OFW PCI-PCI bridge driver. By utilizing these, the PCI handling is much more elegant now. The advantages of the new approach are: - Device enumeration should hopefully be more like on Solaris now, so unit numbers should match what's printed on the box more closely. - Real interrupt routing is implemented now, so cardbus bridges etc. have at least a chance to work. - The quirk tables are gone and have been replaced by (hopefully sufficient) heuristics. - Much cleaner code. There was also a report that previously bogus interrupt assignments are fixed now, which can be attributed to the new heuristics. A pitfall, and the reason why this is not the default yet, is that it changes device enumeration, as mentioned above, which can make it necessary to change the system configuration if more than one unit of a device type is present (on a system with two hme cars, for example, it is possible that hme0 becomes hme1 and vice versa after enabling the option). Systems with multiple disk controllers may need to be booted into single user (and require manual specification of the root file system on boot) to adjust the fstab. Nevertheless, I would like to encourage users to use this option, so that it can be made the default soon. In detail, the changes are: - Introduce an OFW PCI bus driver; it inherits most methods from the generic PCI bus driver, but uses the firmware for enumeration, performs additional initialization for devices and firmware-specific interrupt routing. It also implements an OFW-specific method to allow child devices to get their firmware nodes. - Introduce an OFW PCI-PCI bridge driver; again, it inherits most of the generic PCI-PCI bridge driver; it has it's own method for interrupt routing, as well as some sparc64-specific methods (one to get the node again, and one to adjust the bridge bus range, since we need to reenumerate all PCI buses). - Convert the apb driver to the new way of handling things. - Provide a common framework for OFW bridge drivers, used be the two drivers above. - Provide a small common framework for interrupt routing (for all bridge types). - Convert the psycho driver to the new framework; this gets rid of a bunch of old kludges in pci_read_config(), and the whole preinitialization (ofw_pci_init()). - Convert the ISA MD part and the EBus driver to the new way interrupts and nodes are handled. - Introduce types for firmware interrupt properties. - Rename the old sparcbus_if to ofw_pci_if by repo copy (it is only required for PCI), and move it to a more correct location (new support methodsx were also added, and an old one was deprecated). - Fix a bunch of minor bugs, perform some cleanups. In some cases, I introduced some minor code duplication to keep the new code clean, in hopes that the old code will be unifdef'ed soon. Reviewed in part by: imp Tested by: jake, Marius Strobl <marius@alchemy.franken.de>, Sergey Mokryshev <mokr@mokr.net>, Chris Jackman <cjackNOSPAM@klatsch.org> Info on u30 firmware provided by: kris
2003-07-01 14:52:47 +00:00
static ofw_pci_intr_t isa_ino[8];
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
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static struct ofw_bus_iinfo isa_iinfo;
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/*
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
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* XXX: This is really partly PCI-specific, but unfortunately is
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* differently enough to have to duplicate it here...
*/
#define ISAB_RANGE_PHYS(r) \
(((u_int64_t)(r)->phys_mid << 32) | (u_int64_t)(r)->phys_lo)
#define ISAB_RANGE_SPACE(r) (((r)->phys_hi >> 24) & 0x03)
#define ISAR_SPACE_IO 0x01
#define ISAR_SPACE_MEM 0x02
#define INRANGE(x, start, end) ((x) >= (start) && (x) <= (end))
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
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static void isa_setup_children(device_t, phandle_t);
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intrmask_t
isa_irq_pending(void)
{
intrmask_t pending;
int i;
/* XXX: Is this correct? */
for (i = 7, pending = 0; i >= 0; i--) {
Add the new sparc64 OFW PCI framework, conditional on options OFW_NEWPCI for now. It introduces a OFW PCI bus driver and a generic OFW PCI-PCI bridge driver. By utilizing these, the PCI handling is much more elegant now. The advantages of the new approach are: - Device enumeration should hopefully be more like on Solaris now, so unit numbers should match what's printed on the box more closely. - Real interrupt routing is implemented now, so cardbus bridges etc. have at least a chance to work. - The quirk tables are gone and have been replaced by (hopefully sufficient) heuristics. - Much cleaner code. There was also a report that previously bogus interrupt assignments are fixed now, which can be attributed to the new heuristics. A pitfall, and the reason why this is not the default yet, is that it changes device enumeration, as mentioned above, which can make it necessary to change the system configuration if more than one unit of a device type is present (on a system with two hme cars, for example, it is possible that hme0 becomes hme1 and vice versa after enabling the option). Systems with multiple disk controllers may need to be booted into single user (and require manual specification of the root file system on boot) to adjust the fstab. Nevertheless, I would like to encourage users to use this option, so that it can be made the default soon. In detail, the changes are: - Introduce an OFW PCI bus driver; it inherits most methods from the generic PCI bus driver, but uses the firmware for enumeration, performs additional initialization for devices and firmware-specific interrupt routing. It also implements an OFW-specific method to allow child devices to get their firmware nodes. - Introduce an OFW PCI-PCI bridge driver; again, it inherits most of the generic PCI-PCI bridge driver; it has it's own method for interrupt routing, as well as some sparc64-specific methods (one to get the node again, and one to adjust the bridge bus range, since we need to reenumerate all PCI buses). - Convert the apb driver to the new way of handling things. - Provide a common framework for OFW bridge drivers, used be the two drivers above. - Provide a small common framework for interrupt routing (for all bridge types). - Convert the psycho driver to the new framework; this gets rid of a bunch of old kludges in pci_read_config(), and the whole preinitialization (ofw_pci_init()). - Convert the ISA MD part and the EBus driver to the new way interrupts and nodes are handled. - Introduce types for firmware interrupt properties. - Rename the old sparcbus_if to ofw_pci_if by repo copy (it is only required for PCI), and move it to a more correct location (new support methodsx were also added, and an old one was deprecated). - Fix a bunch of minor bugs, perform some cleanups. In some cases, I introduced some minor code duplication to keep the new code clean, in hopes that the old code will be unifdef'ed soon. Reviewed in part by: imp Tested by: jake, Marius Strobl <marius@alchemy.franken.de>, Sergey Mokryshev <mokr@mokr.net>, Chris Jackman <cjackNOSPAM@klatsch.org> Info on u30 firmware provided by: kris
2003-07-01 14:52:47 +00:00
pending <<= 1;
if (isa_ino[i] != PCI_INVALID_IRQ) {
pending |= (OFW_PCI_INTR_PENDING(isa_bus_device,
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isa_ino[i]) == 0) ? 0 : 1;
}
}
return (pending);
}
void
isa_init(device_t dev)
{
device_t bridge;
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
int i;
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/* The parent of the bus must be a PCI-ISA bridge. */
bridge = device_get_parent(dev);
- Introduce an ofw_bus kobj-interface for retrieving the OFW node and a subset ("compatible", "device_type", "model" and "name") of the standard properties in drivers for devices on Open Firmware supported busses. The standard properties "reg", "interrupts" und "address" are not covered by this interface because they are only of interest in the respective bridge code. There's a remaining standard property "status" which is unclear how to support properly but which also isn't used in FreeBSD at present. This ofw_bus kobj-interface allows to replace the various (ebus_get_node(), ofw_pci_get_node(), etc.) and partially inconsistent (central_get_type() vs. sbus_get_device_type(), etc.) existing IVAR ones with a common one. This in turn allows to simplify and remove code-duplication in drivers for devices that can hang off of more than one OFW supported bus. - Convert the sparc64 Central, EBus, FHC, PCI and SBus bus drivers and the drivers for their children to use the ofw_bus kobj-interface. The IVAR- interfaces of the Central, EBus and FHC are entirely replaced by this. The PCI bus driver used its own kobj-interface and now also uses the ofw_bus one. The IVARs special to the SBus, e.g. for retrieving the burst size, remain. Beware: this causes an ABI-breakage for modules of drivers which used the IVAR-interfaces, i.e. esp(4), hme(4), isp(4) and uart(4), which need to be recompiled. The style-inconsistencies introduced in some of the bus drivers will be fixed by tmm@ in a generic clean-up of the respective drivers later (he requested to add the changes in the "new" style). - Convert the powerpc MacIO bus driver and the drivers for its children to use the ofw_bus kobj-interface. This invloves removing the IVARs related to the "reg" property which were unused and a leftover from the NetBSD origini of the code. There's no ABI-breakage caused by this because none of these driver are currently built as modules. There are other powerpc bus drivers which can be converted to the ofw_bus kobj-interface, e.g. the PCI bus driver, which should be done together with converting powerpc to use the OFW PCI code from sparc64. - Make the SBus and FHC front-end of zs(4) and the sparc64 eeprom(4) take advantage of the ofw_bus kobj-interface and simplify them a bit. Reviewed by: grehan, tmm Approved by: re (scottl) Discussed with: tmm Tested with: Sun AX1105, AXe, Ultra 2, Ultra 60; PPC cross-build on i386
2004-08-12 17:41:33 +00:00
isab_node = ofw_bus_get_node(bridge);
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
isab_nrange = OF_getprop_alloc(isab_node, "ranges",
sizeof(*isab_ranges), (void **)&isab_ranges);
if (isab_nrange <= 0)
2001-11-09 20:21:21 +00:00
panic("isa_init: cannot get bridge range property");
Add the new sparc64 OFW PCI framework, conditional on options OFW_NEWPCI for now. It introduces a OFW PCI bus driver and a generic OFW PCI-PCI bridge driver. By utilizing these, the PCI handling is much more elegant now. The advantages of the new approach are: - Device enumeration should hopefully be more like on Solaris now, so unit numbers should match what's printed on the box more closely. - Real interrupt routing is implemented now, so cardbus bridges etc. have at least a chance to work. - The quirk tables are gone and have been replaced by (hopefully sufficient) heuristics. - Much cleaner code. There was also a report that previously bogus interrupt assignments are fixed now, which can be attributed to the new heuristics. A pitfall, and the reason why this is not the default yet, is that it changes device enumeration, as mentioned above, which can make it necessary to change the system configuration if more than one unit of a device type is present (on a system with two hme cars, for example, it is possible that hme0 becomes hme1 and vice versa after enabling the option). Systems with multiple disk controllers may need to be booted into single user (and require manual specification of the root file system on boot) to adjust the fstab. Nevertheless, I would like to encourage users to use this option, so that it can be made the default soon. In detail, the changes are: - Introduce an OFW PCI bus driver; it inherits most methods from the generic PCI bus driver, but uses the firmware for enumeration, performs additional initialization for devices and firmware-specific interrupt routing. It also implements an OFW-specific method to allow child devices to get their firmware nodes. - Introduce an OFW PCI-PCI bridge driver; again, it inherits most of the generic PCI-PCI bridge driver; it has it's own method for interrupt routing, as well as some sparc64-specific methods (one to get the node again, and one to adjust the bridge bus range, since we need to reenumerate all PCI buses). - Convert the apb driver to the new way of handling things. - Provide a common framework for OFW bridge drivers, used be the two drivers above. - Provide a small common framework for interrupt routing (for all bridge types). - Convert the psycho driver to the new framework; this gets rid of a bunch of old kludges in pci_read_config(), and the whole preinitialization (ofw_pci_init()). - Convert the ISA MD part and the EBus driver to the new way interrupts and nodes are handled. - Introduce types for firmware interrupt properties. - Rename the old sparcbus_if to ofw_pci_if by repo copy (it is only required for PCI), and move it to a more correct location (new support methodsx were also added, and an old one was deprecated). - Fix a bunch of minor bugs, perform some cleanups. In some cases, I introduced some minor code duplication to keep the new code clean, in hopes that the old code will be unifdef'ed soon. Reviewed in part by: imp Tested by: jake, Marius Strobl <marius@alchemy.franken.de>, Sergey Mokryshev <mokr@mokr.net>, Chris Jackman <cjackNOSPAM@klatsch.org> Info on u30 firmware provided by: kris
2003-07-01 14:52:47 +00:00
ofw_bus_setup_iinfo(isab_node, &isa_iinfo, sizeof(ofw_isa_intr_t));
/*
Add the new sparc64 OFW PCI framework, conditional on options OFW_NEWPCI for now. It introduces a OFW PCI bus driver and a generic OFW PCI-PCI bridge driver. By utilizing these, the PCI handling is much more elegant now. The advantages of the new approach are: - Device enumeration should hopefully be more like on Solaris now, so unit numbers should match what's printed on the box more closely. - Real interrupt routing is implemented now, so cardbus bridges etc. have at least a chance to work. - The quirk tables are gone and have been replaced by (hopefully sufficient) heuristics. - Much cleaner code. There was also a report that previously bogus interrupt assignments are fixed now, which can be attributed to the new heuristics. A pitfall, and the reason why this is not the default yet, is that it changes device enumeration, as mentioned above, which can make it necessary to change the system configuration if more than one unit of a device type is present (on a system with two hme cars, for example, it is possible that hme0 becomes hme1 and vice versa after enabling the option). Systems with multiple disk controllers may need to be booted into single user (and require manual specification of the root file system on boot) to adjust the fstab. Nevertheless, I would like to encourage users to use this option, so that it can be made the default soon. In detail, the changes are: - Introduce an OFW PCI bus driver; it inherits most methods from the generic PCI bus driver, but uses the firmware for enumeration, performs additional initialization for devices and firmware-specific interrupt routing. It also implements an OFW-specific method to allow child devices to get their firmware nodes. - Introduce an OFW PCI-PCI bridge driver; again, it inherits most of the generic PCI-PCI bridge driver; it has it's own method for interrupt routing, as well as some sparc64-specific methods (one to get the node again, and one to adjust the bridge bus range, since we need to reenumerate all PCI buses). - Convert the apb driver to the new way of handling things. - Provide a common framework for OFW bridge drivers, used be the two drivers above. - Provide a small common framework for interrupt routing (for all bridge types). - Convert the psycho driver to the new framework; this gets rid of a bunch of old kludges in pci_read_config(), and the whole preinitialization (ofw_pci_init()). - Convert the ISA MD part and the EBus driver to the new way interrupts and nodes are handled. - Introduce types for firmware interrupt properties. - Rename the old sparcbus_if to ofw_pci_if by repo copy (it is only required for PCI), and move it to a more correct location (new support methodsx were also added, and an old one was deprecated). - Fix a bunch of minor bugs, perform some cleanups. In some cases, I introduced some minor code duplication to keep the new code clean, in hopes that the old code will be unifdef'ed soon. Reviewed in part by: imp Tested by: jake, Marius Strobl <marius@alchemy.franken.de>, Sergey Mokryshev <mokr@mokr.net>, Chris Jackman <cjackNOSPAM@klatsch.org> Info on u30 firmware provided by: kris
2003-07-01 14:52:47 +00:00
* This is really a bad kludge; however, it is needed to provide
* isa_irq_pending(), which is unfortunately still used by some
* drivers.
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
* XXX: The only driver still using isa_irq_pending() is sio(4)
* which we don't use on sparc64. Should we just drop support
* for isa_irq_pending()?
*/
for (i = 0; i < 8; i++)
Add the new sparc64 OFW PCI framework, conditional on options OFW_NEWPCI for now. It introduces a OFW PCI bus driver and a generic OFW PCI-PCI bridge driver. By utilizing these, the PCI handling is much more elegant now. The advantages of the new approach are: - Device enumeration should hopefully be more like on Solaris now, so unit numbers should match what's printed on the box more closely. - Real interrupt routing is implemented now, so cardbus bridges etc. have at least a chance to work. - The quirk tables are gone and have been replaced by (hopefully sufficient) heuristics. - Much cleaner code. There was also a report that previously bogus interrupt assignments are fixed now, which can be attributed to the new heuristics. A pitfall, and the reason why this is not the default yet, is that it changes device enumeration, as mentioned above, which can make it necessary to change the system configuration if more than one unit of a device type is present (on a system with two hme cars, for example, it is possible that hme0 becomes hme1 and vice versa after enabling the option). Systems with multiple disk controllers may need to be booted into single user (and require manual specification of the root file system on boot) to adjust the fstab. Nevertheless, I would like to encourage users to use this option, so that it can be made the default soon. In detail, the changes are: - Introduce an OFW PCI bus driver; it inherits most methods from the generic PCI bus driver, but uses the firmware for enumeration, performs additional initialization for devices and firmware-specific interrupt routing. It also implements an OFW-specific method to allow child devices to get their firmware nodes. - Introduce an OFW PCI-PCI bridge driver; again, it inherits most of the generic PCI-PCI bridge driver; it has it's own method for interrupt routing, as well as some sparc64-specific methods (one to get the node again, and one to adjust the bridge bus range, since we need to reenumerate all PCI buses). - Convert the apb driver to the new way of handling things. - Provide a common framework for OFW bridge drivers, used be the two drivers above. - Provide a small common framework for interrupt routing (for all bridge types). - Convert the psycho driver to the new framework; this gets rid of a bunch of old kludges in pci_read_config(), and the whole preinitialization (ofw_pci_init()). - Convert the ISA MD part and the EBus driver to the new way interrupts and nodes are handled. - Introduce types for firmware interrupt properties. - Rename the old sparcbus_if to ofw_pci_if by repo copy (it is only required for PCI), and move it to a more correct location (new support methodsx were also added, and an old one was deprecated). - Fix a bunch of minor bugs, perform some cleanups. In some cases, I introduced some minor code duplication to keep the new code clean, in hopes that the old code will be unifdef'ed soon. Reviewed in part by: imp Tested by: jake, Marius Strobl <marius@alchemy.franken.de>, Sergey Mokryshev <mokr@mokr.net>, Chris Jackman <cjackNOSPAM@klatsch.org> Info on u30 firmware provided by: kris
2003-07-01 14:52:47 +00:00
isa_ino[i] = PCI_INVALID_IRQ;
2001-11-09 20:21:21 +00:00
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
isa_setup_children(dev, isab_node);
for (i = isab_nrange - 1; i >= 0; i--) {
switch(ISAB_RANGE_SPACE(&isab_ranges[i])) {
2001-11-09 20:21:21 +00:00
case ISAR_SPACE_IO:
/* This is probably always 0. */
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
isa_io_base = ISAB_RANGE_PHYS(&isab_ranges[i]);
isa_io_limit = isab_ranges[i].size;
Add the new sparc64 OFW PCI framework, conditional on options OFW_NEWPCI for now. It introduces a OFW PCI bus driver and a generic OFW PCI-PCI bridge driver. By utilizing these, the PCI handling is much more elegant now. The advantages of the new approach are: - Device enumeration should hopefully be more like on Solaris now, so unit numbers should match what's printed on the box more closely. - Real interrupt routing is implemented now, so cardbus bridges etc. have at least a chance to work. - The quirk tables are gone and have been replaced by (hopefully sufficient) heuristics. - Much cleaner code. There was also a report that previously bogus interrupt assignments are fixed now, which can be attributed to the new heuristics. A pitfall, and the reason why this is not the default yet, is that it changes device enumeration, as mentioned above, which can make it necessary to change the system configuration if more than one unit of a device type is present (on a system with two hme cars, for example, it is possible that hme0 becomes hme1 and vice versa after enabling the option). Systems with multiple disk controllers may need to be booted into single user (and require manual specification of the root file system on boot) to adjust the fstab. Nevertheless, I would like to encourage users to use this option, so that it can be made the default soon. In detail, the changes are: - Introduce an OFW PCI bus driver; it inherits most methods from the generic PCI bus driver, but uses the firmware for enumeration, performs additional initialization for devices and firmware-specific interrupt routing. It also implements an OFW-specific method to allow child devices to get their firmware nodes. - Introduce an OFW PCI-PCI bridge driver; again, it inherits most of the generic PCI-PCI bridge driver; it has it's own method for interrupt routing, as well as some sparc64-specific methods (one to get the node again, and one to adjust the bridge bus range, since we need to reenumerate all PCI buses). - Convert the apb driver to the new way of handling things. - Provide a common framework for OFW bridge drivers, used be the two drivers above. - Provide a small common framework for interrupt routing (for all bridge types). - Convert the psycho driver to the new framework; this gets rid of a bunch of old kludges in pci_read_config(), and the whole preinitialization (ofw_pci_init()). - Convert the ISA MD part and the EBus driver to the new way interrupts and nodes are handled. - Introduce types for firmware interrupt properties. - Rename the old sparcbus_if to ofw_pci_if by repo copy (it is only required for PCI), and move it to a more correct location (new support methodsx were also added, and an old one was deprecated). - Fix a bunch of minor bugs, perform some cleanups. In some cases, I introduced some minor code duplication to keep the new code clean, in hopes that the old code will be unifdef'ed soon. Reviewed in part by: imp Tested by: jake, Marius Strobl <marius@alchemy.franken.de>, Sergey Mokryshev <mokr@mokr.net>, Chris Jackman <cjackNOSPAM@klatsch.org> Info on u30 firmware provided by: kris
2003-07-01 14:52:47 +00:00
isa_io_hdl = OFW_PCI_GET_BUS_HANDLE(bridge,
SYS_RES_IOPORT, isa_io_base, &isa_io_bt);
2001-11-09 20:21:21 +00:00
break;
case ISAR_SPACE_MEM:
/* This is probably always 0. */
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
isa_mem_base = ISAB_RANGE_PHYS(&isab_ranges[i]);
isa_mem_limit = isab_ranges[i].size;
Add the new sparc64 OFW PCI framework, conditional on options OFW_NEWPCI for now. It introduces a OFW PCI bus driver and a generic OFW PCI-PCI bridge driver. By utilizing these, the PCI handling is much more elegant now. The advantages of the new approach are: - Device enumeration should hopefully be more like on Solaris now, so unit numbers should match what's printed on the box more closely. - Real interrupt routing is implemented now, so cardbus bridges etc. have at least a chance to work. - The quirk tables are gone and have been replaced by (hopefully sufficient) heuristics. - Much cleaner code. There was also a report that previously bogus interrupt assignments are fixed now, which can be attributed to the new heuristics. A pitfall, and the reason why this is not the default yet, is that it changes device enumeration, as mentioned above, which can make it necessary to change the system configuration if more than one unit of a device type is present (on a system with two hme cars, for example, it is possible that hme0 becomes hme1 and vice versa after enabling the option). Systems with multiple disk controllers may need to be booted into single user (and require manual specification of the root file system on boot) to adjust the fstab. Nevertheless, I would like to encourage users to use this option, so that it can be made the default soon. In detail, the changes are: - Introduce an OFW PCI bus driver; it inherits most methods from the generic PCI bus driver, but uses the firmware for enumeration, performs additional initialization for devices and firmware-specific interrupt routing. It also implements an OFW-specific method to allow child devices to get their firmware nodes. - Introduce an OFW PCI-PCI bridge driver; again, it inherits most of the generic PCI-PCI bridge driver; it has it's own method for interrupt routing, as well as some sparc64-specific methods (one to get the node again, and one to adjust the bridge bus range, since we need to reenumerate all PCI buses). - Convert the apb driver to the new way of handling things. - Provide a common framework for OFW bridge drivers, used be the two drivers above. - Provide a small common framework for interrupt routing (for all bridge types). - Convert the psycho driver to the new framework; this gets rid of a bunch of old kludges in pci_read_config(), and the whole preinitialization (ofw_pci_init()). - Convert the ISA MD part and the EBus driver to the new way interrupts and nodes are handled. - Introduce types for firmware interrupt properties. - Rename the old sparcbus_if to ofw_pci_if by repo copy (it is only required for PCI), and move it to a more correct location (new support methodsx were also added, and an old one was deprecated). - Fix a bunch of minor bugs, perform some cleanups. In some cases, I introduced some minor code duplication to keep the new code clean, in hopes that the old code will be unifdef'ed soon. Reviewed in part by: imp Tested by: jake, Marius Strobl <marius@alchemy.franken.de>, Sergey Mokryshev <mokr@mokr.net>, Chris Jackman <cjackNOSPAM@klatsch.org> Info on u30 firmware provided by: kris
2003-07-01 14:52:47 +00:00
isa_mem_hdl = OFW_PCI_GET_BUS_HANDLE(bridge,
SYS_RES_MEMORY, isa_mem_base, &isa_mem_bt);
2001-11-09 20:21:21 +00:00
break;
}
}
}
static struct {
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
const char *name;
uint32_t id;
} ofw_isa_pnp_map[] = {
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
{ "SUNW,lomh", 0x0000ae4e }, /* SUN0000 */
{ "dma", 0x0002d041 }, /* PNP0200 */
{ "floppy", 0x0007d041 }, /* PNP0700 */
{ "rtc", 0x000bd041 }, /* PNP0B00 */
{ "flashprom", 0x0100ae4e }, /* SUN0001 */
{ "parallel", 0x0104d041 }, /* PNP0401 */
{ "serial", 0x0105d041 }, /* PNP0501 */
{ "kb_ps2", 0x0303d041 }, /* PNP0303 */
{ "kdmouse", 0x030fd041 }, /* PNP0F03 */
{ "power", 0x0c0cd041 }, /* PNP0C0C */
{ NULL, 0x0 }
};
static void
isa_setup_children(device_t dev, phandle_t parent)
2001-11-09 20:21:21 +00:00
{
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
struct isa_regs *regs;
struct resource_list *rl;
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
device_t cdev;
u_int64_t end, start;
ofw_isa_intr_t *intrs, rintr;
phandle_t node;
uint32_t *drqs, *regidx;
int i, ndrq, nintr, nreg, nregidx, rid, rtype;
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
char *name;
/*
* Loop through children and fake up PnP devices for them.
* Their resources are added as fully mapped and specified because
* adjusting the resources and the resource list entries respectively
* in isa_alloc_resource() causes trouble with drivers which use
* rman_get_start(), pass-through or allocate and release resources
* multiple times, etc. Adjusting the resources might be better off
* in a bus_activate_resource method but the common ISA code doesn't
* allow for an isa_activate_resource().
*/
for (node = OF_child(parent); node != 0; node = OF_peer(node)) {
if ((OF_getprop_alloc(node, "name", 1, (void **)&name)) == -1)
continue;
2001-11-09 20:21:21 +00:00
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
/*
* Keyboard and mouse controllers hang off of the `8042'
* node but we have no real use for the `8042' itself.
*/
if (strcmp(name, "8042") == 0) {
isa_setup_children(dev, node);
free(name, M_OFWPROP);
continue;
}
for (i = 0; ofw_isa_pnp_map[i].name != NULL; i++)
if (strcmp(ofw_isa_pnp_map[i].name, name) == 0)
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
break;
if (ofw_isa_pnp_map[i].name == NULL) {
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
printf("isa_setup_children: no PnP map entry for node "
"0x%lx: %s\n", (unsigned long)node, name);
continue;
}
if ((cdev = BUS_ADD_CHILD(dev, ISA_ORDER_PNPBIOS, NULL, -1)) ==
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
NULL)
panic("isa_setup_children: BUS_ADD_CHILD failed");
isa_set_logicalid(cdev, ofw_isa_pnp_map[i].id);
isa_set_vendorid(cdev, ofw_isa_pnp_map[i].id);
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
rl = BUS_GET_RESOURCE_LIST(dev, cdev);
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
nreg = OF_getprop_alloc(node, "reg", sizeof(*regs),
(void **)&regs);
for (i = 0; i < nreg; i++) {
start = ISA_REG_PHYS(&regs[i]);
end = start + regs[i].size - 1;
rtype = ofw_isa_range_map(isab_ranges, isab_nrange,
&start, &end, NULL);
rid = 0;
while (resource_list_find(rl, rtype, rid) != NULL)
rid++;
bus_set_resource(cdev, rtype, rid, start,
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
end - start + 1);
}
if (nreg == -1 && parent != isab_node) {
/*
* The "reg" property still might be an index into
* the set of registers of the parent device like
* with the nodes hanging off of the `8042' node.
*/
nregidx = OF_getprop_alloc(node, "reg", sizeof(*regidx),
(void **)&regidx);
if (nregidx > 2)
panic("isa_setup_children: impossible number "
"of register indices");
if (nregidx != -1 && (nreg = OF_getprop_alloc(parent,
"reg", sizeof(*regs), (void **)&regs)) >= nregidx) {
for (i = 0; i < nregidx; i++) {
start = ISA_REG_PHYS(&regs[regidx[i]]);
end = start + regs[regidx[i]].size - 1;
rtype = ofw_isa_range_map(isab_ranges,
isab_nrange, &start, &end, NULL);
rid = 0;
while (resource_list_find(rl, rtype,
rid) != NULL)
rid++;
bus_set_resource(cdev, rtype, rid,
start, end - start + 1);
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
}
}
if (regidx != NULL)
free(regidx, M_OFWPROP);
}
if (regs != NULL)
free(regs, M_OFWPROP);
nintr = OF_getprop_alloc(node, "interrupts", sizeof(*intrs),
(void **)&intrs);
for (i = 0; i < nintr; i++) {
if (intrs[i] > 7)
panic("isa_setup_children: intr too large");
rintr = ofw_isa_route_intr(device_get_parent(dev), node,
&isa_iinfo, intrs[i]);
if (rintr == PCI_INVALID_IRQ)
panic("isa_setup_children: could not map ISA "
"interrupt %d", intrs[i]);
isa_ino[intrs[i]] = rintr;
bus_set_resource(cdev, SYS_RES_IRQ, i, rintr, 1);
}
if (intrs != NULL)
free(intrs, M_OFWPROP);
ndrq = OF_getprop_alloc(node, "dma-channel", sizeof(*drqs),
(void **)&drqs);
for (i = 0; i < ndrq; i++)
bus_set_resource(cdev, SYS_RES_DRQ, i, drqs[i], 1);
if (drqs != NULL)
free(drqs, M_OFWPROP);
/*
* Devices using DMA hang off of the `dma' node instead of
* directly from the ISA bridge node.
*/
if (strcmp(name, "dma") == 0)
isa_setup_children(dev, node);
free(name, M_OFWPROP);
2001-11-09 20:21:21 +00:00
}
}
struct resource *
isa_alloc_resource(device_t bus, device_t child, int type, int *rid,
u_long start, u_long end, u_long count, u_int flags)
{
/*
* Consider adding a resource definition.
2001-11-09 20:21:21 +00:00
*/
int passthrough = (device_get_parent(child) != bus);
int isdefault = (start == 0UL && end == ~0UL);
struct resource_list *rl;
2001-11-09 20:21:21 +00:00
struct resource_list_entry *rle;
u_long base, limit;
rl = BUS_GET_RESOURCE_LIST(bus, child);
2001-11-09 20:21:21 +00:00
if (!passthrough && !isdefault) {
rle = resource_list_find(rl, type, *rid);
if (!rle) {
if (*rid < 0)
return (NULL);
2001-11-09 20:21:21 +00:00
switch (type) {
case SYS_RES_IRQ:
if (*rid >= ISA_NIRQ)
return (NULL);
2001-11-09 20:21:21 +00:00
break;
case SYS_RES_DRQ:
if (*rid >= ISA_NDRQ)
return (NULL);
2001-11-09 20:21:21 +00:00
break;
case SYS_RES_MEMORY:
if (*rid >= ISA_NMEM)
return (NULL);
2001-11-09 20:21:21 +00:00
break;
case SYS_RES_IOPORT:
if (*rid >= ISA_NPORT)
return (NULL);
2001-11-09 20:21:21 +00:00
break;
default:
return (NULL);
2001-11-09 20:21:21 +00:00
}
resource_list_add(rl, type, *rid, start, end, count);
}
}
/*
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
* Sanity check if the resource in the respective entry is fully
* mapped and specified and its type allocable. A driver could
* have added an out of range resource on its own.
2001-11-09 20:21:21 +00:00
*/
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
if (!passthrough) {
if ((rle = resource_list_find(rl, type, *rid)) == NULL)
2001-11-09 20:21:21 +00:00
return (NULL);
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
base = limit = 0;
2001-11-09 20:21:21 +00:00
switch (type) {
case SYS_RES_MEMORY:
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
if (isa_mem_bt == NULL)
return (NULL);
base = isa_mem_base;
limit = base + isa_mem_limit;
break;
2001-11-09 20:21:21 +00:00
case SYS_RES_IOPORT:
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
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if (isa_io_bt == NULL)
return (NULL);
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
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base = isa_io_base;
limit = base + isa_io_limit;
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break;
case SYS_RES_IRQ:
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
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if (rle->start != rle->end || rle->start <= 7)
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return (NULL);
break;
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
case SYS_RES_DRQ:
break;
default:
return (NULL);
}
if (type == SYS_RES_MEMORY || type == SYS_RES_IOPORT) {
if (!INRANGE(rle->start, base, limit) ||
!INRANGE(rle->end, base, limit))
return (NULL);
2001-11-09 20:21:21 +00:00
}
}
o sparc64/isa/isa.c: - The claim in the commit log of rev. 1.11 of dev/uart/uart_cpu_sparc64.c etc. that UARTs are the only relevant ISA devices on sparc64 turned out to be false. While there are sparc64 models where UARTs are the only devices on the ISA bus there are in fact also low-cost models where all devices traditionally found on the EBus are hooked up to the ISA bus. There are also models that use a mix between EBus and ISA devices with things like an AT keyboard controller and other rather interesting devices that we might want to support in the futute hook up to the ISA bus. In order to not need to add sparc64 specific device_identify methods to all of the respective ISA drivers and also not add OFW specific code to the common ISA code make the sparc64 ISA bus code fake up PnP devices so most ISA drivers probe their devices without further changes. Unfortunately Sun doesn't adhere to the ISA bindings defined in IEEE 1275-1994 for the properties of most of the ISA devices which would allow to obtain the vendor and logical IDs from their properties. So we we just use a simple table which maps the name properties to PnP IDs. This could be done in a more sophisticated way but I courrently don't see the need for this. [1] - Add the children with fully mapped and specified resources (in the OFW sense) similar to what is done in the EBus code for the IRQ resources of the children as adjusting the resources and the resource list entries respectively in isa_alloc_resource() as done perviously causes trouble with drivers which use rman_get_start(), pass-through or allocate and release resources multiple times, etc. Adjusting the resources might be better off in a bus_activate_resource method but the common ISA code currently doesn't allow for an isa_activate_resource(). [2] With this change: - ppbus(4) and lpt(4) attach and work (modulo ECP mode, which requires real ISADMA code but it currently only consists of stubs on sparc64). - atkbdc(4) and atkbdc(4) attach, no further testing done. - fdc(4) itself attaches but causes a hang while attaching fd0 also when is DMA disabled, further work in fdc(4) is required here as e.g. fd0 uses the address of fd1 on sparc64 (not sure if sparc64 supports more than one floppy drive at all). All of these drivers previously caused panics in the sparc64 ISA code. - Minor changes, e.g. use __FBSDID, remove a dupe word in a comment and declare one global variable which isn't used outside of isa.c static. o dev/uart/uart_cpu_sparc64.c and modules/uart/Makefile: - Remove the code for registering the UARTs on the ISA bus from the sparc64 uart_cpu_identify() again and rely on probing them via PnP. Original idea by: tmm [1] No objections by: tmm [1], [2]
2004-11-17 14:44:10 +00:00
return (resource_list_alloc(rl, bus, child, type, rid, start, end,
count, flags));
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}
int
isa_release_resource(device_t bus, device_t child, int type, int rid,
struct resource *res)
{
return (bus_generic_rl_release_resource(bus, child, type, rid, res));
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}
int
isa_setup_intr(device_t dev, device_t child,
struct resource *irq, int flags,
driver_intr_t *intr, void *arg, void **cookiep)
{
/*
* Just pass through. This is going to be handled by either
* one of the parent PCI buses or the nexus device.
* The interrupt had been routed before it was added to the
* resource list of the child.
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*/
return (BUS_SETUP_INTR(device_get_parent(dev), child, irq, flags, intr,
arg, cookiep));
}
int
isa_teardown_intr(device_t dev, device_t child,
struct resource *irq, void *cookie)
{
return (BUS_TEARDOWN_INTR(device_get_parent(dev), child, irq, cookie));
}