Infrastructure Projects
The wiki is being retired!
Documentation is now handled by the same processes we use for code: Add something to the Documentation/ directory in the coreboot repo, and it will be rendered to https://doc.coreboot.org/. Contributions welcome!
This page collects a list of projects to improve the infrastructure of coreboot v4. Infrastructure means those parts of the code that aren't chipset or mainboard specific, but are used by all of them. The idea is to consolidate a list of things "to do" with their status and responsible developers.
In progress
Low/High Tables
SeaBIOS requires a copy of various BIOS tables outside the fseg as it overwrites that segment. Generally clean out the table generation code.
Status: Upstream, implemented on some boards. There are problems on some chipsets/boards because of incorrect CONFIG_VIDEO_MB handling. The might be other issues, too (not clear, yet).
Vendor/chipset | Tested | Comments |
---|---|---|
amd/amdfam10 | ? | — |
amd/amdht | ? | — |
amd/amdk8 | ? | — |
amd/amdmct | ? | — |
amd/gx1 | ? | — |
amd/gx2 | ? | — |
amd/lx | ? | — |
intel/e7501 | ? | — |
intel/e7520 | ? | — |
intel/e7525 | ? | — |
intel/i3100 | ? | — |
intel/i440bx | ? | — |
intel/i82810 | ? | — |
intel/i82830 | ? | — |
intel/i855 | ? | — |
intel/i945 | Y | Tested on Kontron 986LCD-M and Roda RK886EX |
via/cn400 | ? | — |
via/cn700 | Y | Tested on VIA pc2500e. |
via/cx700 | ? | — |
via/vt8601 | ? | — |
via/vt8623 | ? | — |
via/vx800 | ? | — |
Developers: Stefan
Remove .c includes
Currently we include lots of code in the romstage using the preprocessor. This makes it harder to support new boards (where chipset components are supported already) and maintenance in general. So we should get rid of it where possible, using the linker for CAR boards and the build system for the remaining non-CAR boards appropriately.
Status: CAR boards only for now, to keep the project manageable. i945 is modified already, and boards based on it have only one or two remaining source files they include. Interacts with the next project "Move configuration to Kconfig", which ensures that code still sees all configuration when it is compiled separately.
Developers: Patrick, Uwe
Move configuration to Kconfig
Many boards have lots of #define VAR somevalue
statements in their romstage.c which define how certain component drivers are compiled. With Kconfig, there's a better place to store them. This project is about moving all configuration values out of romstage.c (and other places if appropriate) and into Kconfig. util/lint/lint-001-no-global-config-in-romstage
helps figuring out what remains to be done.
Status: Intel and VIA based boards should be mostly configuration free, AMD boards still have defines in their romstage. AMD/AGESA Boards have platform_cfg.h for which a solution should be found.
Developers: Patrick, Uwe
Unify ACPI
- Figure out generic ACPI code and deduplicate it.
- Fix issues like http://www.coreboot.org/pipermail/coreboot/2011-May/065179.html
Done:
- Every ACPI board has its own routines to compile the ACPI sources. Unify that.
CMOS handling
The subprojects are ordered in a way that minimizes lost work.
Done: Simplify get_option
Replace get_option(VALstart, VALlen, default)
with a macro that hides start/len in something like get_option(VAL, default)
CMOS defaults
CMOS defaults are kept in src/mainboard/*/*/cmos.default and stored in CBFS. Provide an alternative implementation of get_option and/or cmos_read (likely the latter) that is used for !USE_OPTION_TABLE, and provides cmos.default data (or 0 for everything if absent). Check that the default values for failing get_option() calls that are scattered across the tree remain the same, then drop them.
CMOS defaults at build time
Create a #define file (similar to config.h or build.h) and allow to resolve get_option at build time in the !USE_OPTION_TABLE case (will require some advanced macro magic)
Implement a new cmos.layout format
The current layout is simple to parse, but not so simple to maintain or extend. Create a format that combines the various fields into a single representation, eg.
400/8 century enum { 0x19="1900", 0x20="2000", 0x21="2100" } default=2000
408/512 some_string string
984/16 checksum checksum 392 983
Implement an include statement
That way, we can have global fields (RTC, century byte), per chipset component fields (defined by northbrigde/southbridge/superio), per mainboard fields at their appropriate places.
Value overrides
A chipset might provide options (eg. SATA/IDE) that a board might override (eg. because it doesn't provide IDE even if the chipset would support it). Allow the mainboard to override config options. This wouldn't just set a new default, but drop the option from CMOS entirely, hardcoding the value in the build. Some autogenerated #ifdef/#define magic might help there.
Provide update paths and avoid conflicts in addressing
One way to go at this: Add smarts to flashrom: When running from coreboot, it has current cmos.layout and the table, as well as the new cmos.layout (and the new defaults). Take new defaults, fill up with current settings, and write the result to CMOS. This provides automatic values for new configuration options.
Checksums
The CMOS checksum situation is still muddied. coreboot master now uses the PCBIOS encoding scheme, which has one advantage (compatibility with Linux's /dev/nvram driver) and two disadvantages:
- a pruned CMOS is a valid configuration
- a vendor BIOS CMOS configuration is considered valid even though it's all crap from a coreboot perspective.
If we continue to care about /dev/nvram, the location of the checksum is for all intents and purposes fixed (to what vendor BIOSes do), so we could as well drop it from our configuration and hardcode it.
Global variables
- Make use of global variables where appropriate.
Done:
- Provide v3 style global variables framework
More ideas
Unify UMA / onboard video code and config
Unify CONFIG_VIDEO_MB, CONFIG_GFXUMA, and similar options and make all code honor them.
Add / Unify / Test kconfig compile-time options and runtime CMOS options in coreboot
Some coreboot options are compile-time configurable only at the moment (via kconfig), but should also be runtime-configurable via CMOS/NVRAM options. We should fix this.
- Make all options (where it makes sense) run-time configurable via CMOS options, in addition to having sane compile-time defaults configured via kconfig.
- This includes many options which are northbridge-specific, many southbridge-specific, and some board-specific ones.
- Example options: Enable/disable IDE channel(s) / SATA / USB / SCSI / etc., enable/disable UDMA on older boards, amount of memory used for IGP/UMA, choice between IDE or NAND flash (on CS5536 boards), IDE 40/80 pin cable selection (VT8237R boards for example), and many more.
- Some of these options are already handled in the code via CMOS options, some are compile-time only so far, so do not yet exist at all.
Kconfig TODO
Notes / Style guide:
- Any bool variables that are (re-)defined to 'y' in Kconfig files can be simplified by using select FOO instead of the usual paragraph, as long as they're defined globally as default n boolean elsewhere.
- Use bool instead of boolean.
- Use default n instead of default false.
Various post-conversion things to consider:
- Consider ways to move crt0-y and ldscript-y out of $(src)/arch/i386/Makefile.inc where appropriate (ie. component specific)
- Make various CONFIG_* variable which were in each board's Kconfig file global or per-chipset options (instead of per-board). Examples:
- UDELAY_TSC, TSC_X86RDTSC_CALIBRATE_WITH_TIMER2 (also check UDELAY_IO, APIC, etc.)
- ...
Stuff to port from v3 to v4:
- All boards that are in v3 but not in v4 (especially Geode LX stuff. Also check amd/model_gx*).
- Some remaining useful Kconfig options.
Clean up Assembler / Linker mess
- Drop / combine / normalize .ld/.lb/.lds linker scripts.
- Move them to a common place.
- Drop / combine / normalize .inc / .S files.
Geode issues
- Fix / Unify vsmsetup.c.
- Fix CS5535/CS5536/GX2/LX "chipsetinit" issue.
- Convert openvsa from MASM to something gnu as can use ( Or use JWasm as intermediate solution (it can compile MASM code) http://www.japheth.de/JWasm.html )
Stack and Suspend/Resume
- Use CONFIG_RAMBASE + HIGH_MEMORY_SAFE instead of 0x40000 for stack.
Fix Suspend/Resume on AMD64
- Use cbmem in romstage on the AMD64 board(s) that have suspend/resume.
Clear phases in romstage
- Split up the code (esp. in romstage) into more sensibly separated phases.
- Maybe use v3 for inspiration where the lines can be drawn.
Refactor SMBUS code
We have tons of duplication in the smbus/spd related functions and #defines. Every chipset (and sometimes board) does the same with the exception of the 2 or 3 boards that multiplex spd roms.
- Deduplicate SMBUS related defines, they're virtually everywhere (and all the same)
- Deduplicate the lowlevel functions - they should really be the same (except for some style differences)
- Deduplicate the non-multiplexing highlevel functions. Mark them weak, so multiplexing boards can simply provide their own variant, which override the weak functions automatically
Move all registers/chip definitions in XML format for all tools
For easy creating definitions of new chips, or editing old register definitions, improve readability support, and add support for humanless parsing the logs we decide move all data for msrtool, inteltool, superiotool, etc in XML-based format. See here: XML
Device dependency engine
We have a couple of places where we want to disable (or otherwise reconfigure) a device if another one is active: SATA and IDE covering the same ports, integrated graphics / plugin video cards, ... Right now, such things are done "somewhere", usually far away from any meaningful context. This idea isn't as actionable as the others as it's still missing even a sketch of a design.
- Find a good place (or multiple places) where such device decisions can be made
- Refactor the code to make use of it
Clean out duplicates
Tools like http://duplo.giants.ch/ or http://pmd.sourceforge.net/cpd.html might be able to help finding duplicates that can be factored out.
CONFIG_MAX_PHYSICAL_CPUS
CONFIG_MAX_PHYSICAL_CPUS should be dropped. It's set for all boards, but it's only really used by AMD K8 and newer systems (and not on Intel based systems at all). In the AMD code it is used wrongly:
- for determining which SPD offsets to include
- to determine APIC IDs
- possibly some more things
Finished
Finished projects are on a separate page now