2ad219aa54
6 Commits
Author | SHA1 | Message | Date | |
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marius
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7f03dfc1a6 |
- Merge sys/sparc64/creator/creator_upa.c into sys/dev/fb/creator.c.
The separate bus front-end was inherited from the OpenBSD creator(4), which at that time had a mainbus(4) (for USI/II machines, which use an UPA interconnection bus as the nexus) and an upa(4) (for USIII machines, which use a subordinate/slave UPA bus hanging off from the Fireplane/Safari interconnection bus) front-end. With FreeBSD and newbus there is/will be no need to have two separate bus front-ends for these busses, so we can easily coallapse the shared front-end and the back-end into a single source file (note that the FreeBSD creator_upa.c was misnomer anyway; based on what it actually attached to that should have been creator_nexus.c), actually OpenBSD meanwhile also has moved to a shared front-end and a single source file. Due to the low-level console support creator.c also wasn't free from bus related things before. While at it, also split sys/sparc64/creator/creator.h into a sys/dev/fb/creatorreg.h that only contains register macros and move the structures to the top of sys/dev/fb/creator.c as suggested by style(9) so creator(4) is no longer scattered over two directories. - Use OF_decode_addr()/sparc64_fake_bustag() to obtain the bus tags and handles for the low-level console support instead of hardcoding support for AFB/FFB hanging off from nexus(4) only. This is part 2/4 of allowing creator(4) to work in USIII machines (which have a UPA bus hanging off from the Fireplane/Safari bus reflected by the nexus), which already makes it work as the low-level console there. - Allocate resources in the bus attach routine regardless of whether creator(4) is used as for the low-level console and thus the required bus tags and handles have been already obtained or not so the resources are marked as taken in the respective RMAN. - For both obtaining the bus tags and handles for the low-level console support as well as allocating the corresponding resources in the regular bus attach routine don't bother to get all for the maximum of 24 register banks but only (for) the two tag/handle pairs required for providing the video interface for syscons(4) support. If we can't allocate the rest of them just limit the memory range accessible via creator_fb_mmap() accordingly. - Sanity check the memory range spanned by the first and last resources and the resources in between as far as possible, as the XFree86/Xorg sunffb(4) expects to be able to access the whole region, even though the backing resources are actually non-continuous. Limit and check the memory range accessible via creator_fb_mmap() accordingly. - Reduce the size of buffers for OFW properties to what they actually need to hold. - Rename some tables to creator_<foo> for consistency. - Also for the sizes in the creator_fb_mmap() mapping table entries use macros for consistency, add macros for the remaining register banks for completeness. |
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marius
|
caf07ad5af |
- Declare lookup tables etc. const.
- Let creator_bitblt() return ENODEV as it's not implemented (missed in sys/dev/fb/creator.c rev. 1.6). - As a speed optimization inline the creator_ras_wait() etc. helper functions and also cache setting the font increment, font width and plane mask. [1] - I got the meaning of V_DISPLAY_BLANK wrong, it's blank like turn off and not blank like turn on and clear the screen. So move clearing the screen to creator_clear() were it hopefully belongs. - Properly implement V_DISPLAY_BLANK, V_DISPLAY_STAND_BY and V_DISPLAY_SUSPEND. This makes blank_saver.ko and green_saver.ko work. [1] - Change the order of operations in creator_fill_rect(), i.e. write y before x and cy before cx. This fixes drawing the top part of the border with Elite3D cards when switching from Xorg to a VTY. - Move setting the chip configuration we use and invalidating the cache variables to creator_set_mode() and set the V_ADP_MODECHANGE flag. This causes creator_set_mode() to be called when the X server shuts down which fixes the screen corruption caused most of the time by Xorg not restoring the original configuration present at startup. Inspired by/based on: Xorg [1] Approved by: re (scottl) |
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marius
|
23691de771 |
- In creator_configure() when probed for the high-level console return
the number of registered adapters instead of determining again whether stdout is a supported card (and which might have failed to attach and register). - Drop creator_set_mode() and move the relevant parts to creator_fill_rect() and creator_putc() respectively. This is a bit cleaner than having to make sure that creator_set_mode() was called before creator_fill_rect() or creator_putc() are used and matches better what Xorg does. - Fix a bug in the handling of the FBIOSCURSOR IOCTL; the code was meant to return ENODEV for all invocations expect when used to disable the cursor and not just when used for enabling the cursor. - In case the adapter is the OFW stdout move its OFW cursor to the start of the last line on halt so OFW output doesn't get intermixed with what FreeBSD left on the screen. With hindsight this is what the faking of a hardware cursor which was removed in the last revision really was about, i.e. to keep the OFW updated about the current cursor position. The new approach however is simpler while producing the same result and doesn't cause the first letter of the OFW output to be turned into a blank and a newline. - Add variable names to the prototypes of creator_cursor_*() which were added in the last revision and list them alphabetically in order to match the style of this file. |
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marius
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494f0cf7a2 |
o creator(4):
- Use register macros instead of magic values in the code. [1] - Check the return values of OF_getprop() and other stuff that actually can fail. - Let the unimplemented video driver methods return ENODEV rather than 0 so other code isn't tricked into thinking a certain operation was successfull. In case of e.g. the video driver creator_ioctl() this caused vidcontrol(1) to return random garbage information. Remove the TODO macros in the unimplemented video driver methods which did a printf("%s: unimplemented\n", __func__). Under certain circumstances these managed to invoke a printf() when a low-level console device wasn't attached, yet, causing a Fast Data Access MMU Miss. These macros were only really usefull for development anyway. - Set the struct video_adapter and struct video_info va_flags and vi_flags etc. as appropriate. - In creator_configure() don't rely on hitting the node which is the chosen console device first when searching the OFW tree for adapters compatible with this driver. Instead just check whether the chosen console device is a viable target for this driver. Targets that are not the console (including additional cards in multi-head configs) will be attached through creator_upa_attach(). I think this how the code in creator_configure() was actually meant to work. Honour the VIO_PROBE_ONLY flag and don't initialise and register the console device twice when creator_configure() is called a second time during sc_probe_unit(). Let creator_configure() return the number of the found adapters, i.e. 1 in case probing succeeds, as it's expected. The return values of video adapter configure functions however currently aren't checked so this doesn't make a difference at the moment. - In creator_upa_attach() don't rely on probing and attaching the adapter which is the console first, in case there are multiple adpaters and one of them is the console this could lead into using the video adapter unit 0 twice. - Make the check for DACs with inverted cursor control a bit more precise and actually honour that information when turning the cursor on or off. Add a helper function creator_cursor_enable() for this in order to keep code duplication low. [1] - Don't bother with faking a hardware cursor in case a device is the console. Apparently this was meant to start kernel output right after where the firmware left. In general this isn't worth the fuzz and also had no real effect as creator_set_mode() did clear the screen in any case, not just in case a device was not the console. - Implement creator_fill_rect() and use it to actually blank the display in creator_blank_display() when the mode is V_DISPLAY_BLANK, moving blanking the display out of creator_set_mode(). Use it also to implement creator_set_border() so the border can be re-drawn when switching to a VTY from X, exiting X, etc. (which leaves us with a black border most of the time). - Implement the video driver creator_ioctl(), moving the implementation of the IOCTL interface from the fbN CDEV version of creator_ioctl() into the video driver version and use the latter to implement the former. Use fb_commonioctl() to handle most of the FBIO IOCTLs. This gives programs like vidcontrol(1) which use the video driver creator_ioctl() a chance of working. Implement turning off the cursor via the FBIOSCURSOR IOCTL, which Xorg uses to in order to inform the OS that it's taking over the cursor. In creator_putm() check whether the cursor is enabled and (re-)install it if necessary, moving installing the cursor out of creator_init() and into a helper function creator_cursor_install(). This fixes the missing mouse pointer when switching to a VTY from X, exiting X, etc. - Some clean-up (remove unused/useless code, etc.). o sparc64/creator/creator_upa.c / sparc64/sparc64/sc_machdep.c: - Attach syscons(4) as an own pseudo-device on the nexus rather than directly in creator_upa_attach(), similiar to attaching syscons(4) as a pseudo-device on isa(4) on other archs. This makes it a whole lot easier to do the right thing in multi-head configs, especially with different types of graphics adapters. [2] - Set SC_AUTODETECT_KBD by default so USB keyboards work out of the box. [2] Based on/obtained from: Xorg 'ffb' driver [1] Based on/obtained from: FreeBSD/powerpc [2] |
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phk
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dfd1f7fd50 |
Do the dreaded s/dev_t/struct cdev */
Bump __FreeBSD_version accordingly. |
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jake
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99928843b9 |
Add a driver for creator upa frame buffers found in many sparc64 machines.
These are fixed resolution and operate only in pixel mode so they present a challenge to syscons (square peg, round hole, etc, etc). The driver provides a video driver interface for syscons and a separate character device for X to mmap. Wherever possible the creator's accelarated graphics functions are used so text mode is very fast. Based roughly on the openbsd driver. |