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Tom Rini83d290c2018-05-06 17:58:06 -04001# SPDX-License-Identifier: GPL-2.0+
Bin Meng5dad97e2014-12-17 15:50:48 +08002#
3# Copyright (C) 2014, Simon Glass <sjg@chromium.org>
4# Copyright (C) 2014, Bin Meng <bmeng.cn@gmail.com>
Bin Meng5dad97e2014-12-17 15:50:48 +08005
6U-Boot on x86
7=============
8
9This document describes the information about U-Boot running on x86 targets,
10including supported boards, build instructions, todo list, etc.
11
12Status
13------
14U-Boot supports running as a coreboot [1] payload on x86. So far only Link
Bin Meng1ae5b782015-05-07 21:34:12 +080015(Chromebook Pixel) and QEMU [2] x86 targets have been tested, but it should
16work with minimal adjustments on other x86 boards since coreboot deals with
17most of the low-level details.
Bin Meng5dad97e2014-12-17 15:50:48 +080018
Andy Shevchenko495f3772017-07-06 14:41:53 +030019U-Boot is a main bootloader on Intel Edison board.
20
Stoppa, Igor28a85362015-08-13 16:43:35 +030021U-Boot also supports booting directly from x86 reset vector, without coreboot.
22In this case, known as bare mode, from the fact that it runs on the
Simon Glassf21069f2016-03-11 22:07:33 -070023'bare metal', U-Boot acts like a BIOS replacement. The following platforms
24are supported:
25
Bin Mengeda995a2016-05-07 07:46:36 -070026 - Bayley Bay CRB
Bin Mengeb457872017-08-15 22:42:02 -070027 - Cherry Hill CRB
Bin Mengeda995a2016-05-07 07:46:36 -070028 - Congatec QEVAL 2.0 & conga-QA3/E3845
Simon Glassf21069f2016-03-11 22:07:33 -070029 - Cougar Canyon 2 CRB
30 - Crown Bay CRB
31 - Galileo
32 - Link (Chromebook Pixel)
33 - Minnowboard MAX
34 - Samus (Chromebook Pixel 2015)
Bin Meng6feb2ff2018-10-13 20:52:03 -070035 - QEMU x86 (32-bit & 64-bit)
Bin Meng5dad97e2014-12-17 15:50:48 +080036
Simon Glass3a1a18f2015-01-27 22:13:47 -070037As for loading an OS, U-Boot supports directly booting a 32-bit or 64-bit
38Linux kernel as part of a FIT image. It also supports a compressed zImage.
Bin Meng3619e942015-10-07 20:19:20 -070039U-Boot supports loading an x86 VxWorks kernel. Please check README.vxworks
40for more details.
Bin Meng5dad97e2014-12-17 15:50:48 +080041
Stoppa, Igor28a85362015-08-13 16:43:35 +030042Build Instructions for U-Boot as coreboot payload
43-------------------------------------------------
Bin Meng5dad97e2014-12-17 15:50:48 +080044Building U-Boot as a coreboot payload is just like building U-Boot for targets
45on other architectures, like below:
46
Simon Glassd5032392018-04-12 14:04:40 -060047$ make coreboot_defconfig
Bin Meng5dad97e2014-12-17 15:50:48 +080048$ make all
49
Andy Shevchenko495f3772017-07-06 14:41:53 +030050Build Instructions for U-Boot as main bootloader
51------------------------------------------------
52
53Intel Edison instructions:
54
55Simple you can build U-Boot and obtain u-boot.bin
56
57$ make edison_defconfig
58$ make all
59
Stoppa, Igor28a85362015-08-13 16:43:35 +030060Build Instructions for U-Boot as BIOS replacement (bare mode)
61-------------------------------------------------------------
Simon Glass3a1a18f2015-01-27 22:13:47 -070062Building a ROM version of U-Boot (hereafter referred to as u-boot.rom) is a
Bin Meng5dad97e2014-12-17 15:50:48 +080063little bit tricky, as generally it requires several binary blobs which are not
64shipped in the U-Boot source tree. Due to this reason, the u-boot.rom build is
65not turned on by default in the U-Boot source tree. Firstly, you need turn it
Heinrich Schuchardt871aa412017-10-16 18:08:38 +000066on by enabling the ROM build either via an environment variable
Bin Meng5dad97e2014-12-17 15:50:48 +080067
Heinrich Schuchardt871aa412017-10-16 18:08:38 +000068 $ export BUILD_ROM=y
Simon Glasseea0f112015-01-27 22:13:32 -070069
Heinrich Schuchardt871aa412017-10-16 18:08:38 +000070or via configuration
71
72 CONFIG_BUILD_ROM=y
73
74Both tell the Makefile to build u-boot.rom as a target.
Bin Meng5dad97e2014-12-17 15:50:48 +080075
Stoppa, Igor28a85362015-08-13 16:43:35 +030076---
77
78Chromebook Link specific instructions for bare mode:
Bin Meng5dad97e2014-12-17 15:50:48 +080079
80First, you need the following binary blobs:
81
82* descriptor.bin - Intel flash descriptor
83* me.bin - Intel Management Engine
84* mrc.bin - Memory Reference Code, which sets up SDRAM
85* video ROM - sets up the display
86
87You can get these binary blobs by:
88
89$ git clone http://review.coreboot.org/p/blobs.git
90$ cd blobs
91
92Find the following files:
93
94* ./mainboard/google/link/descriptor.bin
95* ./mainboard/google/link/me.bin
Simon Glass8712af92015-04-19 22:05:37 -060096* ./northbridge/intel/sandybridge/systemagent-r6.bin
Bin Meng5dad97e2014-12-17 15:50:48 +080097
98The 3rd one should be renamed to mrc.bin.
Bin Meng786a08e2015-07-06 16:31:33 +080099As for the video ROM, you can get it here [3] and rename it to vga.bin.
Bin Meng5dad97e2014-12-17 15:50:48 +0800100Make sure all these binary blobs are put in the board directory.
101
102Now you can build U-Boot and obtain u-boot.rom:
103
104$ make chromebook_link_defconfig
105$ make all
106
Stoppa, Igor28a85362015-08-13 16:43:35 +0300107---
108
Simon Glass374e78e2016-03-16 07:44:43 -0600109Chromebook Samus (2015 Pixel) instructions for bare mode:
110
111First, you need the following binary blobs:
112
113* descriptor.bin - Intel flash descriptor
114* me.bin - Intel Management Engine
115* mrc.bin - Memory Reference Code, which sets up SDRAM
116* refcode.elf - Additional Reference code
117* vga.bin - video ROM, which sets up the display
118
119If you have a samus you can obtain them from your flash, for example, in
120developer mode on the Chromebook (use Ctrl-Alt-F2 to obtain a terminal and
121log in as 'root'):
122
123 cd /tmp
124 flashrom -w samus.bin
125 scp samus.bin username@ip_address:/path/to/somewhere
126
127If not see the coreboot tree [4] where you can use:
128
129 bash crosfirmware.sh samus
130
131to get the image. There is also an 'extract_blobs.sh' scripts that you can use
132on the 'coreboot-Google_Samus.*' file to short-circuit some of the below.
133
134Then 'ifdtool -x samus.bin' on your development machine will produce:
135
136 flashregion_0_flashdescriptor.bin
137 flashregion_1_bios.bin
138 flashregion_2_intel_me.bin
139
140Rename flashregion_0_flashdescriptor.bin to descriptor.bin
141Rename flashregion_2_intel_me.bin to me.bin
142You can ignore flashregion_1_bios.bin - it is not used.
143
144To get the rest, use 'cbfstool samus.bin print':
145
146samus.bin: 8192 kB, bootblocksize 2864, romsize 8388608, offset 0x700000
147alignment: 64 bytes, architecture: x86
148
149Name Offset Type Size
150cmos_layout.bin 0x700000 cmos_layout 1164
151pci8086,0406.rom 0x7004c0 optionrom 65536
152spd.bin 0x710500 (unknown) 4096
153cpu_microcode_blob.bin 0x711540 microcode 70720
154fallback/romstage 0x722a00 stage 54210
155fallback/ramstage 0x72fe00 stage 96382
156config 0x7476c0 raw 6075
157fallback/vboot 0x748ec0 stage 15980
158fallback/refcode 0x74cd80 stage 75578
159fallback/payload 0x75f500 payload 62878
160u-boot.dtb 0x76eb00 (unknown) 5318
161(empty) 0x770000 null 196504
162mrc.bin 0x79ffc0 (unknown) 222876
163(empty) 0x7d66c0 null 167320
164
165You can extract what you need:
166
167 cbfstool samus.bin extract -n pci8086,0406.rom -f vga.bin
168 cbfstool samus.bin extract -n fallback/refcode -f refcode.rmod
169 cbfstool samus.bin extract -n mrc.bin -f mrc.bin
170 cbfstool samus.bin extract -n fallback/refcode -f refcode.bin -U
171
172Note that the -U flag is only supported by the latest cbfstool. It unpacks
173and decompresses the stage to produce a coreboot rmodule. This is a simple
174representation of an ELF file. You need the patch "Support decoding a stage
175with compression".
176
177Put all 5 files into board/google/chromebook_samus.
178
179Now you can build U-Boot and obtain u-boot.rom:
180
181$ make chromebook_link_defconfig
182$ make all
183
184If you are using em100, then this command will flash write -Boot:
185
186 em100 -s -d filename.rom -c W25Q64CV -r
187
188---
189
Stoppa, Igor28a85362015-08-13 16:43:35 +0300190Intel Crown Bay specific instructions for bare mode:
Bin Meng5dad97e2014-12-17 15:50:48 +0800191
Bin Meng1ae5b782015-05-07 21:34:12 +0800192U-Boot support of Intel Crown Bay board [4] relies on a binary blob called
193Firmware Support Package [5] to perform all the necessary initialization steps
Bin Meng5dad97e2014-12-17 15:50:48 +0800194as documented in the BIOS Writer Guide, including initialization of the CPU,
195memory controller, chipset and certain bus interfaces.
196
197Download the Intel FSP for Atom E6xx series and Platform Controller Hub EG20T,
198install it on your host and locate the FSP binary blob. Note this platform
199also requires a Chipset Micro Code (CMC) state machine binary to be present in
200the SPI flash where u-boot.rom resides, and this CMC binary blob can be found
201in this FSP package too.
202
203* ./FSP/QUEENSBAY_FSP_GOLD_001_20-DECEMBER-2013.fd
204* ./Microcode/C0_22211.BIN
205
206Rename the first one to fsp.bin and second one to cmc.bin and put them in the
207board directory.
208
Bin Meng83d97122015-03-05 11:21:03 +0800209Note the FSP release version 001 has a bug which could cause random endless
210loop during the FspInit call. This bug was published by Intel although Intel
211did not describe any details. We need manually apply the patch to the FSP
212binary using any hex editor (eg: bvi). Go to the offset 0x1fcd8 of the FSP
213binary, change the following five bytes values from orginally E8 42 FF FF FF
214to B8 00 80 0B 00.
215
Bin Meng7aaff9b2015-07-06 16:31:35 +0800216As for the video ROM, you need manually extract it from the Intel provided
217BIOS for Crown Bay here [6], using the AMI MMTool [7]. Check PCI option ROM
218ID 8086:4108, extract and save it as vga.bin in the board directory.
219
Bin Meng617b8672015-01-06 22:14:24 +0800220Now you can build U-Boot and obtain u-boot.rom
Bin Meng5dad97e2014-12-17 15:50:48 +0800221
222$ make crownbay_defconfig
223$ make all
224
Stoppa, Igor28a85362015-08-13 16:43:35 +0300225---
226
Bin Menga2e3b052016-02-17 00:16:25 -0800227Intel Cougar Canyon 2 specific instructions for bare mode:
228
229This uses Intel FSP for 3rd generation Intel Core and Intel Celeron processors
230with mobile Intel HM76 and QM77 chipsets platform. Download it from Intel FSP
231website and put the .fd file (CHIEFRIVER_FSP_GOLD_001_09-OCTOBER-2013.fd at the
232time of writing) in the board directory and rename it to fsp.bin.
233
234Now build U-Boot and obtain u-boot.rom
235
236$ make cougarcanyon2_defconfig
237$ make all
238
239The board has two 8MB SPI flashes mounted, which are called SPI-0 and SPI-1 in
240the board manual. The SPI-0 flash should have flash descriptor plus ME firmware
241and SPI-1 flash is used to store U-Boot. For convenience, the complete 8MB SPI-0
242flash image is included in the FSP package (named Rom00_8M_MB_PPT.bin). Program
243this image to the SPI-0 flash according to the board manual just once and we are
Bin Mengfb05f0b2018-06-03 19:04:17 -0700244all set. For programming U-Boot we just need to program SPI-1 flash. Since the
245default u-boot.rom image for this board is set to 2MB, it should be programmed
246to the last 2MB of the 8MB chip, address range [600000, 7FFFFF].
Bin Menga2e3b052016-02-17 00:16:25 -0800247
248---
249
Bin Meng03bfc782016-02-17 00:47:04 -0800250Intel Bay Trail based board instructions for bare mode:
Simon Glass3a1a18f2015-01-27 22:13:47 -0700251
252This uses as FSP as with Crown Bay, except it is for the Atom E3800 series.
Bin Meng03bfc782016-02-17 00:47:04 -0800253Two boards that use this configuration are Bayley Bay and Minnowboard MAX.
Simon Glass3a1a18f2015-01-27 22:13:47 -0700254Download this and get the .fd file (BAYTRAIL_FSP_GOLD_003_16-SEP-2014.fd at
Bin Meng03bfc782016-02-17 00:47:04 -0800255the time of writing). Put it in the corresponding board directory and rename
256it to fsp.bin.
Simon Glass3a1a18f2015-01-27 22:13:47 -0700257
258Obtain the VGA RAM (Vga.dat at the time of writing) and put it into the same
Bin Meng03bfc782016-02-17 00:47:04 -0800259board directory as vga.bin.
Simon Glass3a1a18f2015-01-27 22:13:47 -0700260
Bin Meng03bfc782016-02-17 00:47:04 -0800261You still need two more binary blobs. For Bayley Bay, they can be extracted
262from the sample SPI image provided in the FSP (SPI.bin at the time of writing).
263
264 $ ./tools/ifdtool -x BayleyBay/SPI.bin
265 $ cp flashregion_0_flashdescriptor.bin board/intel/bayleybay/descriptor.bin
266 $ cp flashregion_2_intel_me.bin board/intel/bayleybay/me.bin
267
268For Minnowboard MAX, we can reuse the same ME firmware above, but for flash
269descriptor, we need get that somewhere else, as the one above does not seem to
270work, probably because it is not designed for the Minnowboard MAX. Now download
271the original firmware image for this board from:
Simon Glass68522482015-04-25 11:46:43 -0600272
273http://firmware.intel.com/sites/default/files/2014-WW42.4-MinnowBoardMax.73-64-bit.bin_Release.zip
274
275Unzip it:
276
277 $ unzip 2014-WW42.4-MinnowBoardMax.73-64-bit.bin_Release.zip
Simon Glass3a1a18f2015-01-27 22:13:47 -0700278
279Use ifdtool in the U-Boot tools directory to extract the images from that
280file, for example:
281
Simon Glass68522482015-04-25 11:46:43 -0600282 $ ./tools/ifdtool -x MNW2MAX1.X64.0073.R02.1409160934.bin
283
284This will provide the descriptor file - copy this into the correct place:
285
286 $ cp flashregion_0_flashdescriptor.bin board/intel/minnowmax/descriptor.bin
287
Simon Glass3a1a18f2015-01-27 22:13:47 -0700288Now you can build U-Boot and obtain u-boot.rom
Bin Meng03bfc782016-02-17 00:47:04 -0800289Note: below are examples/information for Minnowboard MAX.
Simon Glass3a1a18f2015-01-27 22:13:47 -0700290
291$ make minnowmax_defconfig
292$ make all
293
Simon Glassdf898672015-07-03 18:28:28 -0600294Checksums are as follows (but note that newer versions will invalidate this):
295
296$ md5sum -b board/intel/minnowmax/*.bin
297ffda9a3b94df5b74323afb328d51e6b4 board/intel/minnowmax/descriptor.bin
29869f65b9a580246291d20d08cbef9d7c5 board/intel/minnowmax/fsp.bin
299894a97d371544ec21de9c3e8e1716c4b board/intel/minnowmax/me.bin
300a2588537da387da592a27219d56e9962 board/intel/minnowmax/vga.bin
301
Simon Glass537ccba2015-07-03 18:28:24 -0600302The ROM image is broken up into these parts:
303
304Offset Description Controlling config
305------------------------------------------------------------
306000000 descriptor.bin Hard-coded to 0 in ifdtool
307001000 me.bin Set by the descriptor
308500000 <spare>
Bin Meng91fc5bf2016-05-11 07:44:55 -07003096ef000 Environment CONFIG_ENV_OFFSET
Bin Meng638a0582015-10-11 21:37:44 -07003106f0000 MRC cache CONFIG_ENABLE_MRC_CACHE
Simon Glass537ccba2015-07-03 18:28:24 -0600311700000 u-boot-dtb.bin CONFIG_SYS_TEXT_BASE
Bin Meng917d3562017-10-07 02:43:52 -07003127b0000 vga.bin CONFIG_VGA_BIOS_ADDR
Simon Glass537ccba2015-07-03 18:28:24 -06003137c0000 fsp.bin CONFIG_FSP_ADDR
3147f8000 <spare> (depends on size of fsp.bin)
Simon Glass537ccba2015-07-03 18:28:24 -06003157ff800 U-Boot 16-bit boot CONFIG_SYS_X86_START16
316
317Overall ROM image size is controlled by CONFIG_ROM_SIZE.
318
Stefan Roese5d98c5e2016-07-13 08:23:40 +0200319Note that the debug version of the FSP is bigger in size. If this version
320is used, CONFIG_FSP_ADDR needs to be configured to 0xfffb0000 instead of
321the default value 0xfffc0000.
322
Stoppa, Igor28a85362015-08-13 16:43:35 +0300323---
Simon Glass537ccba2015-07-03 18:28:24 -0600324
Bin Mengeb457872017-08-15 22:42:02 -0700325Intel Cherry Hill specific instructions for bare mode:
326
327This uses Intel FSP for Braswell platform. Download it from Intel FSP website,
328put the .fd file to the board directory and rename it to fsp.bin.
329
330Extract descriptor.bin and me.bin from the original BIOS on the board using
331ifdtool and put them to the board directory as well.
332
333Note the FSP package for Braswell does not ship a traditional legacy VGA BIOS
334image for the integrated graphics device. Instead a new binary called Video
335BIOS Table (VBT) is shipped. Put it to the board directory and rename it to
336vbt.bin if you want graphics support in U-Boot.
337
338Now you can build U-Boot and obtain u-boot.rom
339
340$ make cherryhill_defconfig
341$ make all
342
343An important note for programming u-boot.rom to the on-board SPI flash is that
344you need make sure the SPI flash's 'quad enable' bit in its status register
345matches the settings in the descriptor.bin, otherwise the board won't boot.
346
347For the on-board SPI flash MX25U6435F, this can be done by writing 0x40 to the
348status register by DediProg in: Config > Modify Status Register > Write Status
349Register(s) > Register1 Value(Hex). This is is a one-time change. Once set, it
350persists in SPI flash part regardless of the u-boot.rom image burned.
351
352---
353
Stoppa, Igor28a85362015-08-13 16:43:35 +0300354Intel Galileo instructions for bare mode:
Bin Meng67582c02015-02-04 16:26:14 +0800355
356Only one binary blob is needed for Remote Management Unit (RMU) within Intel
357Quark SoC. Not like FSP, U-Boot does not call into the binary. The binary is
358needed by the Quark SoC itself.
359
360You can get the binary blob from Quark Board Support Package from Intel website:
361
362* ./QuarkSocPkg/QuarkNorthCluster/Binary/QuarkMicrocode/RMU.bin
363
364Rename the file and put it to the board directory by:
365
366 $ cp RMU.bin board/intel/galileo/rmu.bin
367
368Now you can build U-Boot and obtain u-boot.rom
369
370$ make galileo_defconfig
371$ make all
Simon Glass3a1a18f2015-01-27 22:13:47 -0700372
Bin Meng03bfc782016-02-17 00:47:04 -0800373---
374
375QEMU x86 target instructions for bare mode:
Bin Meng1ae5b782015-05-07 21:34:12 +0800376
377To build u-boot.rom for QEMU x86 targets, just simply run
378
Bin Meng6feb2ff2018-10-13 20:52:03 -0700379$ make qemu-x86_defconfig (for 32-bit)
380or
381$ make qemu-x86_64_defconfig (for 64-bit)
Bin Meng1ae5b782015-05-07 21:34:12 +0800382$ make all
383
Bin Meng683b09d2015-06-03 09:20:04 +0800384Note this default configuration will build a U-Boot for the QEMU x86 i440FX
385board. To build a U-Boot against QEMU x86 Q35 board, you can change the build
386configuration during the 'make menuconfig' process like below:
387
388Device Tree Control --->
389 ...
390 (qemu-x86_q35) Default Device Tree for DT control
391
Bin Meng617b8672015-01-06 22:14:24 +0800392Test with coreboot
393------------------
394For testing U-Boot as the coreboot payload, there are things that need be paid
395attention to. coreboot supports loading an ELF executable and a 32-bit plain
396binary, as well as other supported payloads. With the default configuration,
397U-Boot is set up to use a separate Device Tree Blob (dtb). As of today, the
398generated u-boot-dtb.bin needs to be packaged by the cbfstool utility (a tool
399provided by coreboot) manually as coreboot's 'make menuconfig' does not provide
400this capability yet. The command is as follows:
401
402# in the coreboot root directory
403$ ./build/util/cbfstool/cbfstool build/coreboot.rom add-flat-binary \
Bin Meng330728d2015-08-13 00:29:07 -0700404 -f u-boot-dtb.bin -n fallback/payload -c lzma -l 0x1110000 -e 0x1110000
Bin Meng617b8672015-01-06 22:14:24 +0800405
Bin Meng330728d2015-08-13 00:29:07 -0700406Make sure 0x1110000 matches CONFIG_SYS_TEXT_BASE, which is the symbol address
407of _x86boot_start (in arch/x86/cpu/start.S).
Bin Meng617b8672015-01-06 22:14:24 +0800408
409If you want to use ELF as the coreboot payload, change U-Boot configuration to
Simon Glasseea0f112015-01-27 22:13:32 -0700410use CONFIG_OF_EMBED instead of CONFIG_OF_SEPARATE.
Bin Meng617b8672015-01-06 22:14:24 +0800411
Simon Glass3a1a18f2015-01-27 22:13:47 -0700412To enable video you must enable these options in coreboot:
413
414 - Set framebuffer graphics resolution (1280x1024 32k-color (1:5:5))
415 - Keep VESA framebuffer
416
417At present it seems that for Minnowboard Max, coreboot does not pass through
418the video information correctly (it always says the resolution is 0x0). This
419works correctly for link though.
420
Stoppa, Igor28a85362015-08-13 16:43:35 +0300421Test with QEMU for bare mode
422----------------------------
Bin Meng1ae5b782015-05-07 21:34:12 +0800423QEMU is a fancy emulator that can enable us to test U-Boot without access to
Bin Meng9c4f5412015-05-11 07:36:30 +0800424a real x86 board. Please make sure your QEMU version is 2.3.0 or above test
425U-Boot. To launch QEMU with u-boot.rom, call QEMU as follows:
Bin Meng1ae5b782015-05-07 21:34:12 +0800426
427$ qemu-system-i386 -nographic -bios path/to/u-boot.rom
428
429This will instantiate an emulated x86 board with i440FX and PIIX chipset. QEMU
430also supports emulating an x86 board with Q35 and ICH9 based chipset, which is
431also supported by U-Boot. To instantiate such a machine, call QEMU with:
432
433$ qemu-system-i386 -nographic -bios path/to/u-boot.rom -M q35
434
435Note by default QEMU instantiated boards only have 128 MiB system memory. But
436it is enough to have U-Boot boot and function correctly. You can increase the
437system memory by pass '-m' parameter to QEMU if you want more memory:
438
439$ qemu-system-i386 -nographic -bios path/to/u-boot.rom -m 1024
440
441This creates a board with 1 GiB system memory. Currently U-Boot for QEMU only
442supports 3 GiB maximum system memory and reserves the last 1 GiB address space
443for PCI device memory-mapped I/O and other stuff, so the maximum value of '-m'
444would be 3072.
Simon Glass3a1a18f2015-01-27 22:13:47 -0700445
Bin Meng9c4f5412015-05-11 07:36:30 +0800446QEMU emulates a graphic card which U-Boot supports. Removing '-nographic' will
447show QEMU's VGA console window. Note this will disable QEMU's serial output.
448If you want to check both consoles, use '-serial stdio'.
449
Bin Menga2eb65f2015-07-27 19:16:08 +0800450Multicore is also supported by QEMU via '-smp n' where n is the number of cores
Miao Yan5c2ed612016-01-07 01:32:06 -0800451to instantiate. Note, the maximum supported CPU number in QEMU is 255.
452
Bin Mengeda995a2016-05-07 07:46:36 -0700453The fw_cfg interface in QEMU also provides information about kernel data,
454initrd, command-line arguments and more. U-Boot supports directly accessing
455these informtion from fw_cfg interface, which saves the time of loading them
456from hard disk or network again, through emulated devices. To use it , simply
457providing them in QEMU command line:
Miao Yan5c2ed612016-01-07 01:32:06 -0800458
459$ qemu-system-i386 -nographic -bios path/to/u-boot.rom -m 1024 -kernel /path/to/bzImage
460 -append 'root=/dev/ram console=ttyS0' -initrd /path/to/initrd -smp 8
461
462Note: -initrd and -smp are both optional
463
Bin Mengeda995a2016-05-07 07:46:36 -0700464Then start QEMU, in U-Boot command line use the following U-Boot command to
465setup kernel:
Miao Yan5c2ed612016-01-07 01:32:06 -0800466
467 => qfw
468qfw - QEMU firmware interface
469
470Usage:
471qfw <command>
472 - list : print firmware(s) currently loaded
473 - cpus : print online cpu number
474 - load <kernel addr> <initrd addr> : load kernel and initrd (if any) and setup for zboot
475
476=> qfw load
477loading kernel to address 01000000 size 5d9d30 initrd 04000000 size 1b1ab50
478
Bin Mengeda995a2016-05-07 07:46:36 -0700479Here the kernel (bzImage) is loaded to 01000000 and initrd is to 04000000. Then,
480'zboot' can be used to boot the kernel:
Miao Yan5c2ed612016-01-07 01:32:06 -0800481
Bin Meng10491c82016-10-09 04:14:14 -0700482=> zboot 01000000 - 04000000 1b1ab50
Bin Menga2eb65f2015-07-27 19:16:08 +0800483
Bin Meng6feb2ff2018-10-13 20:52:03 -0700484To run 64-bit U-Boot, qemu-system-x86_64 should be used instead, e.g.:
485$ qemu-system-x86_64 -nographic -bios path/to/u-boot.rom
486
487A specific CPU can be specified via the '-cpu' parameter but please make
488sure the specified CPU supports 64-bit like '-cpu core2duo'. Conversely
489'-cpu pentium' won't work for obvious reasons that the processor only
490supports 32-bit.
491
492Note 64-bit support is very preliminary at this point. Lots of features
493are missing in the 64-bit world. One notable feature is the VGA console
494support which is currently missing, so that you must specify '-nographic'
495to get 64-bit U-Boot up and running.
496
Andy Shevchenko495f3772017-07-06 14:41:53 +0300497Updating U-Boot on Edison
498-------------------------
499By default Intel Edison boards are shipped with preinstalled heavily
500patched U-Boot v2014.04. Though it supports DFU which we may be able to
501use.
502
5031. Prepare u-boot.bin as described in chapter above. You still need one
504more step (if and only if you have original U-Boot), i.e. run the
505following command:
506
507$ truncate -s %4096 u-boot.bin
508
5092. Run your board and interrupt booting to U-Boot console. In the console
510call:
511
512 => run do_force_flash_os
513
5143. Wait for few seconds, it will prepare environment variable and runs
515DFU. Run DFU command from the host system:
516
517$ dfu-util -v -d 8087:0a99 --alt u-boot0 -D u-boot.bin
518
5194. Return to U-Boot console and following hint. i.e. push Ctrl+C, and
520reset the board:
521
522 => reset
523
Bin Meng5dad97e2014-12-17 15:50:48 +0800524CPU Microcode
525-------------
Bin Meng7aaff9b2015-07-06 16:31:35 +0800526Modern CPUs usually require a special bit stream called microcode [8] to be
Bin Meng5dad97e2014-12-17 15:50:48 +0800527loaded on the processor after power up in order to function properly. U-Boot
528has already integrated these as hex dumps in the source tree.
529
Bin Meng1281a1f2015-06-23 12:18:53 +0800530SMP Support
531-----------
532On a multicore system, U-Boot is executed on the bootstrap processor (BSP).
533Additional application processors (AP) can be brought up by U-Boot. In order to
534have an SMP kernel to discover all of the available processors, U-Boot needs to
535prepare configuration tables which contain the multi-CPUs information before
536loading the OS kernel. Currently U-Boot supports generating two types of tables
Bin Meng7aaff9b2015-07-06 16:31:35 +0800537for SMP, called Simple Firmware Interface (SFI) [9] and Multi-Processor (MP)
538[10] tables. The writing of these two tables are controlled by two Kconfig
539options GENERATE_SFI_TABLE and GENERATE_MP_TABLE.
Bin Meng1281a1f2015-06-23 12:18:53 +0800540
Bin Meng5dad97e2014-12-17 15:50:48 +0800541Driver Model
542------------
Simon Glassf21069f2016-03-11 22:07:33 -0700543x86 has been converted to use driver model for serial, GPIO, SPI, SPI flash,
544keyboard, real-time clock, USB. Video is in progress.
Bin Meng5dad97e2014-12-17 15:50:48 +0800545
546Device Tree
547-----------
548x86 uses device tree to configure the board thus requires CONFIG_OF_CONTROL to
Bin Meng617b8672015-01-06 22:14:24 +0800549be turned on. Not every device on the board is configured via device tree, but
Bin Meng5dad97e2014-12-17 15:50:48 +0800550more and more devices will be added as time goes by. Check out the directory
551arch/x86/dts/ for these device tree source files.
552
Simon Glasscb3b2e62015-01-01 16:18:15 -0700553Useful Commands
554---------------
Simon Glasscb3b2e62015-01-01 16:18:15 -0700555In keeping with the U-Boot philosophy of providing functions to check and
556adjust internal settings, there are several x86-specific commands that may be
557useful:
558
Bin Meng62716eb2015-10-10 01:47:58 -0700559fsp - Display information about Intel Firmware Support Package (FSP).
560 This is only available on platforms which use FSP, mostly Atom.
Simon Glasscb3b2e62015-01-01 16:18:15 -0700561iod - Display I/O memory
562iow - Write I/O memory
563mtrr - List and set the Memory Type Range Registers (MTRR). These are used to
564 tell the CPU whether memory is cacheable and if so the cache write
565 mode to use. U-Boot sets up some reasonable values but you can
566 adjust then with this command.
567
Simon Glass7bea5272015-07-27 15:47:31 -0600568Booting Ubuntu
569--------------
570As an example of how to set up your boot flow with U-Boot, here are
571instructions for starting Ubuntu from U-Boot. These instructions have been
Bin Mengeda995a2016-05-07 07:46:36 -0700572tested on Minnowboard MAX with a SATA drive but are equally applicable on
573other platforms and other media. There are really only four steps and it's a
Simon Glass7bea5272015-07-27 15:47:31 -0600574very simple script, but a more detailed explanation is provided here for
575completeness.
576
577Note: It is possible to set up U-Boot to boot automatically using syslinux.
578It could also use the grub.cfg file (/efi/ubuntu/grub.cfg) to obtain the
579GUID. If you figure these out, please post patches to this README.
580
Bin Mengeda995a2016-05-07 07:46:36 -0700581Firstly, you will need Ubuntu installed on an available disk. It should be
Simon Glass7bea5272015-07-27 15:47:31 -0600582possible to make U-Boot start a USB start-up disk but for now let's assume
583that you used another boot loader to install Ubuntu.
584
585Use the U-Boot command line to find the UUID of the partition you want to
586boot. For example our disk is SCSI device 0:
587
588=> part list scsi 0
589
590Partition Map for SCSI device 0 -- Partition Type: EFI
591
592 Part Start LBA End LBA Name
593 Attributes
594 Type GUID
595 Partition GUID
596 1 0x00000800 0x001007ff ""
597 attrs: 0x0000000000000000
598 type: c12a7328-f81f-11d2-ba4b-00a0c93ec93b
599 guid: 9d02e8e4-4d59-408f-a9b0-fd497bc9291c
600 2 0x00100800 0x037d8fff ""
601 attrs: 0x0000000000000000
602 type: 0fc63daf-8483-4772-8e79-3d69d8477de4
603 guid: 965c59ee-1822-4326-90d2-b02446050059
604 3 0x037d9000 0x03ba27ff ""
605 attrs: 0x0000000000000000
606 type: 0657fd6d-a4ab-43c4-84e5-0933c84b4f4f
607 guid: 2c4282bd-1e82-4bcf-a5ff-51dedbf39f17
608 =>
609
610This shows that your SCSI disk has three partitions. The really long hex
611strings are called Globally Unique Identifiers (GUIDs). You can look up the
612'type' ones here [11]. On this disk the first partition is for EFI and is in
613VFAT format (DOS/Windows):
614
615 => fatls scsi 0:1
616 efi/
617
618 0 file(s), 1 dir(s)
619
620
621Partition 2 is 'Linux filesystem data' so that will be our root disk. It is
622in ext2 format:
623
624 => ext2ls scsi 0:2
625 <DIR> 4096 .
626 <DIR> 4096 ..
627 <DIR> 16384 lost+found
628 <DIR> 4096 boot
629 <DIR> 12288 etc
630 <DIR> 4096 media
631 <DIR> 4096 bin
632 <DIR> 4096 dev
633 <DIR> 4096 home
634 <DIR> 4096 lib
635 <DIR> 4096 lib64
636 <DIR> 4096 mnt
637 <DIR> 4096 opt
638 <DIR> 4096 proc
639 <DIR> 4096 root
640 <DIR> 4096 run
641 <DIR> 12288 sbin
642 <DIR> 4096 srv
643 <DIR> 4096 sys
644 <DIR> 4096 tmp
645 <DIR> 4096 usr
646 <DIR> 4096 var
647 <SYM> 33 initrd.img
648 <SYM> 30 vmlinuz
649 <DIR> 4096 cdrom
650 <SYM> 33 initrd.img.old
651 =>
652
653and if you look in the /boot directory you will see the kernel:
654
655 => ext2ls scsi 0:2 /boot
656 <DIR> 4096 .
657 <DIR> 4096 ..
658 <DIR> 4096 efi
659 <DIR> 4096 grub
660 3381262 System.map-3.13.0-32-generic
661 1162712 abi-3.13.0-32-generic
662 165611 config-3.13.0-32-generic
663 176500 memtest86+.bin
664 178176 memtest86+.elf
665 178680 memtest86+_multiboot.bin
666 5798112 vmlinuz-3.13.0-32-generic
667 165762 config-3.13.0-58-generic
668 1165129 abi-3.13.0-58-generic
669 5823136 vmlinuz-3.13.0-58-generic
670 19215259 initrd.img-3.13.0-58-generic
671 3391763 System.map-3.13.0-58-generic
672 5825048 vmlinuz-3.13.0-58-generic.efi.signed
673 28304443 initrd.img-3.13.0-32-generic
674 =>
675
676The 'vmlinuz' files contain a packaged Linux kernel. The format is a kind of
677self-extracting compressed file mixed with some 'setup' configuration data.
678Despite its size (uncompressed it is >10MB) this only includes a basic set of
679device drivers, enough to boot on most hardware types.
680
681The 'initrd' files contain a RAM disk. This is something that can be loaded
682into RAM and will appear to Linux like a disk. Ubuntu uses this to hold lots
683of drivers for whatever hardware you might have. It is loaded before the
684real root disk is accessed.
685
686The numbers after the end of each file are the version. Here it is Linux
687version 3.13. You can find the source code for this in the Linux tree with
688the tag v3.13. The '.0' allows for additional Linux releases to fix problems,
689but normally this is not needed. The '-58' is used by Ubuntu. Each time they
690release a new kernel they increment this number. New Ubuntu versions might
691include kernel patches to fix reported bugs. Stable kernels can exist for
692some years so this number can get quite high.
693
694The '.efi.signed' kernel is signed for EFI's secure boot. U-Boot has its own
695secure boot mechanism - see [12] [13] and cannot read .efi files at present.
696
697To boot Ubuntu from U-Boot the steps are as follows:
698
6991. Set up the boot arguments. Use the GUID for the partition you want to
700boot:
701
702 => setenv bootargs root=/dev/disk/by-partuuid/965c59ee-1822-4326-90d2-b02446050059 ro
703
704Here root= tells Linux the location of its root disk. The disk is specified
705by its GUID, using '/dev/disk/by-partuuid/', a Linux path to a 'directory'
706containing all the GUIDs Linux has found. When it starts up, there will be a
707file in that directory with this name in it. It is also possible to use a
708device name here, see later.
709
7102. Load the kernel. Since it is an ext2/4 filesystem we can do:
711
712 => ext2load scsi 0:2 03000000 /boot/vmlinuz-3.13.0-58-generic
713
714The address 30000000 is arbitrary, but there seem to be problems with using
715small addresses (sometimes Linux cannot find the ramdisk). This is 48MB into
716the start of RAM (which is at 0 on x86).
717
7183. Load the ramdisk (to 64MB):
719
720 => ext2load scsi 0:2 04000000 /boot/initrd.img-3.13.0-58-generic
721
7224. Start up the kernel. We need to know the size of the ramdisk, but can use
723a variable for that. U-Boot sets 'filesize' to the size of the last file it
724loaded.
725
726 => zboot 03000000 0 04000000 ${filesize}
727
728Type 'help zboot' if you want to see what the arguments are. U-Boot on x86 is
729quite verbose when it boots a kernel. You should see these messages from
730U-Boot:
731
732 Valid Boot Flag
733 Setup Size = 0x00004400
734 Magic signature found
735 Using boot protocol version 2.0c
736 Linux kernel version 3.13.0-58-generic (buildd@allspice) #97-Ubuntu SMP Wed Jul 8 02:56:15 UTC 2015
737 Building boot_params at 0x00090000
738 Loading bzImage at address 100000 (5805728 bytes)
739 Magic signature found
740 Initial RAM disk at linear address 0x04000000, size 19215259 bytes
Bin Mengeda995a2016-05-07 07:46:36 -0700741 Kernel command line: "root=/dev/disk/by-partuuid/965c59ee-1822-4326-90d2-b02446050059 ro"
Simon Glass7bea5272015-07-27 15:47:31 -0600742
743 Starting kernel ...
744
745U-Boot prints out some bootstage timing. This is more useful if you put the
746above commands into a script since then it will be faster.
747
748 Timer summary in microseconds:
749 Mark Elapsed Stage
750 0 0 reset
751 241,535 241,535 board_init_r
752 2,421,611 2,180,076 id=64
753 2,421,790 179 id=65
754 2,428,215 6,425 main_loop
755 48,860,584 46,432,369 start_kernel
756
757 Accumulated time:
758 240,329 ahci
759 1,422,704 vesa display
760
Bin Mengeda995a2016-05-07 07:46:36 -0700761Now the kernel actually starts: (if you want to examine kernel boot up message
762on the serial console, append "console=ttyS0,115200" to the kernel command line)
Simon Glass7bea5272015-07-27 15:47:31 -0600763
764 [ 0.000000] Initializing cgroup subsys cpuset
765 [ 0.000000] Initializing cgroup subsys cpu
766 [ 0.000000] Initializing cgroup subsys cpuacct
767 [ 0.000000] Linux version 3.13.0-58-generic (buildd@allspice) (gcc version 4.8.2 (Ubuntu 4.8.2-19ubuntu1) ) #97-Ubuntu SMP Wed Jul 8 02:56:15 UTC 2015 (Ubuntu 3.13.0-58.97-generic 3.13.11-ckt22)
Bin Mengeda995a2016-05-07 07:46:36 -0700768 [ 0.000000] Command line: root=/dev/disk/by-partuuid/965c59ee-1822-4326-90d2-b02446050059 ro console=ttyS0,115200
Simon Glass7bea5272015-07-27 15:47:31 -0600769
770It continues for a long time. Along the way you will see it pick up your
771ramdisk:
772
773 [ 0.000000] RAMDISK: [mem 0x04000000-0x05253fff]
774...
775 [ 0.788540] Trying to unpack rootfs image as initramfs...
776 [ 1.540111] Freeing initrd memory: 18768K (ffff880004000000 - ffff880005254000)
777...
778
779Later it actually starts using it:
780
781 Begin: Running /scripts/local-premount ... done.
782
783You should also see your boot disk turn up:
784
785 [ 4.357243] scsi 1:0:0:0: Direct-Access ATA ADATA SP310 5.2 PQ: 0 ANSI: 5
786 [ 4.366860] sd 1:0:0:0: [sda] 62533296 512-byte logical blocks: (32.0 GB/29.8 GiB)
787 [ 4.375677] sd 1:0:0:0: Attached scsi generic sg0 type 0
788 [ 4.381859] sd 1:0:0:0: [sda] Write Protect is off
789 [ 4.387452] sd 1:0:0:0: [sda] Write cache: enabled, read cache: enabled, doesn't support DPO or FUA
790 [ 4.399535] sda: sda1 sda2 sda3
791
792Linux has found the three partitions (sda1-3). Mercifully it doesn't print out
793the GUIDs. In step 1 above we could have used:
794
795 setenv bootargs root=/dev/sda2 ro
796
797instead of the GUID. However if you add another drive to your board the
798numbering may change whereas the GUIDs will not. So if your boot partition
799becomes sdb2, it will still boot. For embedded systems where you just want to
800boot the first disk, you have that option.
801
802The last thing you will see on the console is mention of plymouth (which
803displays the Ubuntu start-up screen) and a lot of 'Starting' messages:
804
805 * Starting Mount filesystems on boot [ OK ]
806
807After a pause you should see a login screen on your display and you are done.
808
809If you want to put this in a script you can use something like this:
810
811 setenv bootargs root=UUID=b2aaf743-0418-4d90-94cc-3e6108d7d968 ro
812 setenv boot zboot 03000000 0 04000000 \${filesize}
813 setenv bootcmd "ext2load scsi 0:2 03000000 /boot/vmlinuz-3.13.0-58-generic; ext2load scsi 0:2 04000000 /boot/initrd.img-3.13.0-58-generic; run boot"
814 saveenv
815
816The \ is to tell the shell not to evaluate ${filesize} as part of the setenv
817command.
818
Simon Glass7bea5272015-07-27 15:47:31 -0600819You can also bake this behaviour into your build by hard-coding the
820environment variables if you add this to minnowmax.h:
821
Simon Glass7bea5272015-07-27 15:47:31 -0600822#undef CONFIG_BOOTCOMMAND
Simon Glass7bea5272015-07-27 15:47:31 -0600823#define CONFIG_BOOTCOMMAND \
824 "ext2load scsi 0:2 03000000 /boot/vmlinuz-3.13.0-58-generic; " \
825 "ext2load scsi 0:2 04000000 /boot/initrd.img-3.13.0-58-generic; " \
826 "run boot"
827
828#undef CONFIG_EXTRA_ENV_SETTINGS
829#define CONFIG_EXTRA_ENV_SETTINGS "boot=zboot 03000000 0 04000000 ${filesize}"
830
Sam Protsenko5abc1a42017-08-14 20:22:17 +0300831and change CONFIG_BOOTARGS value in configs/minnowmax_defconfig to:
832
833CONFIG_BOOTARGS="root=/dev/sda2 ro"
834
Bin Meng2e9ae222016-02-28 23:54:52 -0800835Test with SeaBIOS
836-----------------
837SeaBIOS [14] is an open source implementation of a 16-bit x86 BIOS. It can run
838in an emulator or natively on x86 hardware with the use of U-Boot. With its
839help, we can boot some OSes that require 16-bit BIOS services like Windows/DOS.
840
841As U-Boot, we have to manually create a table where SeaBIOS gets various system
842information (eg: E820) from. The table unfortunately has to follow the coreboot
843table format as SeaBIOS currently supports booting as a coreboot payload.
844
845To support loading SeaBIOS, U-Boot should be built with CONFIG_SEABIOS on.
846Booting SeaBIOS is done via U-Boot's bootelf command, like below:
847
848 => tftp bios.bin.elf;bootelf
849 Using e1000#0 device
850 TFTP from server 10.10.0.100; our IP address is 10.10.0.108
851 ...
852 Bytes transferred = 122124 (1dd0c hex)
853 ## Starting application at 0x000ff06e ...
854 SeaBIOS (version rel-1.9.0)
855 ...
856
857bios.bin.elf is the SeaBIOS image built from SeaBIOS source tree.
858Make sure it is built as follows:
859
860 $ make menuconfig
861
862Inside the "General Features" menu, select "Build for coreboot" as the
863"Build Target". Inside the "Debugging" menu, turn on "Serial port debugging"
864so that we can see something as soon as SeaBIOS boots. Leave other options
865as in their default state. Then,
866
867 $ make
868 ...
869 Total size: 121888 Fixed: 66496 Free: 9184 (used 93.0% of 128KiB rom)
870 Creating out/bios.bin.elf
871
872Currently this is tested on QEMU x86 target with U-Boot chain-loading SeaBIOS
873to install/boot a Windows XP OS (below for example command to install Windows).
874
875 # Create a 10G disk.img as the virtual hard disk
876 $ qemu-img create -f qcow2 disk.img 10G
877
878 # Install a Windows XP OS from an ISO image 'winxp.iso'
879 $ qemu-system-i386 -serial stdio -bios u-boot.rom -hda disk.img -cdrom winxp.iso -smp 2 -m 512
880
881 # Boot a Windows XP OS installed on the virutal hard disk
882 $ qemu-system-i386 -serial stdio -bios u-boot.rom -hda disk.img -smp 2 -m 512
883
884This is also tested on Intel Crown Bay board with a PCIe graphics card, booting
885SeaBIOS then chain-loading a GRUB on a USB drive, then Linux kernel finally.
886
Bin Meng5a6a2c72016-05-11 07:45:06 -0700887If you are using Intel Integrated Graphics Device (IGD) as the primary display
888device on your board, SeaBIOS needs to be patched manually to get its VGA ROM
889loaded and run by SeaBIOS. SeaBIOS locates VGA ROM via the PCI expansion ROM
890register, but IGD device does not have its VGA ROM mapped by this register.
891Its VGA ROM is packaged as part of u-boot.rom at a configurable flash address
892which is unknown to SeaBIOS. An example patch is needed for SeaBIOS below:
893
894diff --git a/src/optionroms.c b/src/optionroms.c
895index 65f7fe0..c7b6f5e 100644
896--- a/src/optionroms.c
897+++ b/src/optionroms.c
898@@ -324,6 +324,8 @@ init_pcirom(struct pci_device *pci, int isvga, u64 *sources)
899 rom = deploy_romfile(file);
900 else if (RunPCIroms > 1 || (RunPCIroms == 1 && isvga))
901 rom = map_pcirom(pci);
902+ if (pci->bdf == pci_to_bdf(0, 2, 0))
903+ rom = (struct rom_header *)0xfff90000;
904 if (! rom)
905 // No ROM present.
906 return;
907
908Note: the patch above expects IGD device is at PCI b.d.f 0.2.0 and its VGA ROM
909is at 0xfff90000 which corresponds to CONFIG_VGA_BIOS_ADDR on Minnowboard MAX.
910Change these two accordingly if this is not the case on your board.
Simon Glass7bea5272015-07-27 15:47:31 -0600911
Simon Glass00bdd952015-01-27 22:13:46 -0700912Development Flow
913----------------
Simon Glass00bdd952015-01-27 22:13:46 -0700914These notes are for those who want to port U-Boot to a new x86 platform.
915
916Since x86 CPUs boot from SPI flash, a SPI flash emulator is a good investment.
917The Dediprog em100 can be used on Linux. The em100 tool is available here:
918
919 http://review.coreboot.org/p/em100.git
920
921On Minnowboard Max the following command line can be used:
922
923 sudo em100 -s -p LOW -d u-boot.rom -c W25Q64DW -r
924
925A suitable clip for connecting over the SPI flash chip is here:
926
927 http://www.dediprog.com/pd/programmer-accessories/EM-TC-8
928
929This allows you to override the SPI flash contents for development purposes.
930Typically you can write to the em100 in around 1200ms, considerably faster
931than programming the real flash device each time. The only important
932limitation of the em100 is that it only supports SPI bus speeds up to 20MHz.
933This means that images must be set to boot with that speed. This is an
934Intel-specific feature - e.g. tools/ifttool has an option to set the SPI
935speed in the SPI descriptor region.
936
937If your chip/board uses an Intel Firmware Support Package (FSP) it is fairly
938easy to fit it in. You can follow the Minnowboard Max implementation, for
939example. Hopefully you will just need to create new files similar to those
940in arch/x86/cpu/baytrail which provide Bay Trail support.
941
942If you are not using an FSP you have more freedom and more responsibility.
943The ivybridge support works this way, although it still uses a ROM for
944graphics and still has binary blobs containing Intel code. You should aim to
945support all important peripherals on your platform including video and storage.
946Use the device tree for configuration where possible.
947
948For the microcode you can create a suitable device tree file using the
949microcode tool:
950
Simon Glass03e3c312015-08-15 14:37:48 -0600951 ./tools/microcode-tool -d microcode.dat -m <model> create
Simon Glass00bdd952015-01-27 22:13:46 -0700952
953or if you only have header files and not the full Intel microcode.dat database:
954
955 ./tools/microcode-tool -H BAY_TRAIL_FSP_KIT/Microcode/M0130673322.h \
956 -H BAY_TRAIL_FSP_KIT/Microcode/M0130679901.h \
Simon Glass03e3c312015-08-15 14:37:48 -0600957 -m all create
Simon Glass00bdd952015-01-27 22:13:46 -0700958
959These are written to arch/x86/dts/microcode/ by default.
960
961Note that it is possible to just add the micrcode for your CPU if you know its
962model. U-Boot prints this information when it starts
963
964 CPU: x86_64, vendor Intel, device 30673h
965
966so here we can use the M0130673322 file.
967
968If you platform can display POST codes on two little 7-segment displays on
969the board, then you can use post_code() calls from C or assembler to monitor
970boot progress. This can be good for debugging.
971
972If not, you can try to get serial working as early as possible. The early
Stefan Roesed5211972016-01-19 14:24:12 +0100973debug serial port may be useful here. See setup_internal_uart() for an example.
Simon Glass00bdd952015-01-27 22:13:46 -0700974
Bin Meng12c75102015-08-02 20:33:35 -0700975During the U-Boot porting, one of the important steps is to write correct PIRQ
976routing information in the board device tree. Without it, device drivers in the
977Linux kernel won't function correctly due to interrupt is not working. Please
Bin Meng2e9ae222016-02-28 23:54:52 -0800978refer to U-Boot doc [15] for the device tree bindings of Intel interrupt router.
Bin Meng12c75102015-08-02 20:33:35 -0700979Here we have more details on the intel,pirq-routing property below.
980
981 intel,pirq-routing = <
982 PCI_BDF(0, 2, 0) INTA PIRQA
983 ...
984 >;
985
986As you see each entry has 3 cells. For the first one, we need describe all pci
987devices mounted on the board. For SoC devices, normally there is a chapter on
988the chipset datasheet which lists all the available PCI devices. For example on
989Bay Trail, this is chapter 4.3 (PCI configuration space). For the second one, we
990can get the interrupt pin either from datasheet or hardware via U-Boot shell.
991The reliable source is the hardware as sometimes chipset datasheet is not 100%
992up-to-date. Type 'pci header' plus the device's pci bus/device/function number
993from U-Boot shell below.
994
995 => pci header 0.1e.1
996 vendor ID = 0x8086
997 device ID = 0x0f08
998 ...
999 interrupt line = 0x09
1000 interrupt pin = 0x04
1001 ...
1002
1003It shows this PCI device is using INTD pin as it reports 4 in the interrupt pin
1004register. Repeat this until you get interrupt pins for all the devices. The last
1005cell is the PIRQ line which a particular interrupt pin is mapped to. On Intel
1006chipset, the power-up default mapping is INTA/B/C/D maps to PIRQA/B/C/D. This
1007can be changed by registers in LPC bridge. So far Intel FSP does not touch those
1008registers so we can write down the PIRQ according to the default mapping rule.
1009
1010Once we get the PIRQ routing information in the device tree, the interrupt
1011allocation and assignment will be done by U-Boot automatically. Now you can
1012enable CONFIG_GENERATE_PIRQ_TABLE for testing Linux kernel using i8259 PIC and
1013CONFIG_GENERATE_MP_TABLE for testing Linux kernel using local APIC and I/O APIC.
1014
Simon Glass590870e2015-08-13 10:36:17 -06001015This script might be useful. If you feed it the output of 'pci long' from
1016U-Boot then it will generate a device tree fragment with the interrupt
1017configuration for each device (note it needs gawk 4.0.0):
1018
1019 $ cat console_output |awk '/PCI/ {device=$4} /interrupt line/ {line=$4} \
1020 /interrupt pin/ {pin = $4; if (pin != "0x00" && pin != "0xff") \
1021 {patsplit(device, bdf, "[0-9a-f]+"); \
1022 printf "PCI_BDF(%d, %d, %d) INT%c PIRQ%c\n", strtonum("0x" bdf[1]), \
1023 strtonum("0x" bdf[2]), bdf[3], strtonum(pin) + 64, 64 + strtonum(pin)}}'
1024
1025Example output:
1026 PCI_BDF(0, 2, 0) INTA PIRQA
1027 PCI_BDF(0, 3, 0) INTA PIRQA
1028...
1029
Bin Meng448719c2015-09-09 23:20:29 -07001030Porting Hints
1031-------------
1032
1033Quark-specific considerations:
1034
1035To port U-Boot to other boards based on the Intel Quark SoC, a few things need
1036to be taken care of. The first important part is the Memory Reference Code (MRC)
1037parameters. Quark MRC supports memory-down configuration only. All these MRC
1038parameters are supplied via the board device tree. To get started, first copy
1039the MRC section of arch/x86/dts/galileo.dts to your board's device tree, then
1040change these values by consulting board manuals or your hardware vendor.
1041Available MRC parameter values are listed in include/dt-bindings/mrc/quark.h.
1042The other tricky part is with PCIe. Quark SoC integrates two PCIe root ports,
1043but by default they are held in reset after power on. In U-Boot, PCIe
1044initialization is properly handled as per Quark's firmware writer guide.
1045In your board support codes, you need provide two routines to aid PCIe
1046initialization, which are board_assert_perst() and board_deassert_perst().
1047The two routines need implement a board-specific mechanism to assert/deassert
1048PCIe PERST# pin. Care must be taken that in those routines that any APIs that
1049may trigger PCI enumeration process are strictly forbidden, as any access to
1050PCIe root port's configuration registers will cause system hang while it is
1051held in reset. For more details, check how they are implemented by the Intel
1052Galileo board support codes in board/intel/galileo/galileo.c.
1053
Simon Glasse28fcb22016-03-06 19:28:17 -07001054coreboot:
1055
1056See scripts/coreboot.sed which can assist with porting coreboot code into
1057U-Boot drivers. It will not resolve all build errors, but will perform common
1058transformations. Remember to add attribution to coreboot for new files added
1059to U-Boot. This should go at the top of each file and list the coreboot
1060filename where the code originated.
1061
Bin Mengefd4be42016-05-11 07:45:12 -07001062Debugging ACPI issues with Windows:
1063
1064Windows might cache system information and only detect ACPI changes if you
1065modify the ACPI table versions. So tweak them liberally when debugging ACPI
1066issues with Windows.
1067
Bin Meng49d929b2016-05-07 07:46:37 -07001068ACPI Support Status
1069-------------------
1070Advanced Configuration and Power Interface (ACPI) [16] aims to establish
1071industry-standard interfaces enabling OS-directed configuration, power
1072management, and thermal management of mobile, desktop, and server platforms.
1073
1074Linux can boot without ACPI with "acpi=off" command line parameter, but
1075with ACPI the kernel gains the capabilities to handle power management.
1076For Windows, ACPI is a must-have firmware feature since Windows Vista.
1077CONFIG_GENERATE_ACPI_TABLE is the config option to turn on ACPI support in
1078U-Boot. This requires Intel ACPI compiler to be installed on your host to
1079compile ACPI DSDT table written in ASL format to AML format. You can get
1080the compiler via "apt-get install iasl" if you are on Ubuntu or download
1081the source from [17] to compile one by yourself.
1082
Bin Meng13c9d842017-04-21 07:24:49 -07001083Current ACPI support in U-Boot is basically complete. More optional features
1084can be added in the future. The status as of today is:
Bin Meng49d929b2016-05-07 07:46:37 -07001085
1086 * Support generating RSDT, XSDT, FACS, FADT, MADT, MCFG tables.
1087 * Support one static DSDT table only, compiled by Intel ACPI compiler.
Bin Meng13c9d842017-04-21 07:24:49 -07001088 * Support S0/S3/S4/S5, reboot and shutdown from OS.
Bin Meng49d929b2016-05-07 07:46:37 -07001089 * Support booting a pre-installed Ubuntu distribution via 'zboot' command.
Bin Meng206a3a42016-05-11 07:45:08 -07001090 * Support installing and booting Ubuntu 14.04 (or above) from U-Boot with
1091 the help of SeaBIOS using legacy interface (non-UEFI mode).
1092 * Support installing and booting Windows 8.1/10 from U-Boot with the help
1093 of SeaBIOS using legacy interface (non-UEFI mode).
Bin Meng49d929b2016-05-07 07:46:37 -07001094 * Support ACPI interrupts with SCI only.
1095
Bin Meng49d929b2016-05-07 07:46:37 -07001096Features that are optional:
Bin Meng49d929b2016-05-07 07:46:37 -07001097 * Dynamic AML bytecodes insertion at run-time. We may need this to support
1098 SSDT table generation and DSDT fix up.
1099 * SMI support. Since U-Boot is a modern bootloader, we don't want to bring
1100 those legacy stuff into U-Boot. ACPI spec allows a system that does not
1101 support SMI (a legacy-free system).
1102
Bin Menge6ddb6b2016-05-25 19:19:12 -07001103ACPI was initially enabled on BayTrail based boards. Testing was done by booting
Bin Meng206a3a42016-05-11 07:45:08 -07001104a pre-installed Ubuntu 14.04 from a SATA drive. Installing Ubuntu 14.04 and
1105Windows 8.1/10 to a SATA drive and booting from there is also tested. Most
1106devices seem to work correctly and the board can respond a reboot/shutdown
1107command from the OS.
Simon Glasse28fcb22016-03-06 19:28:17 -07001108
Bin Menge6ddb6b2016-05-25 19:19:12 -07001109For other platform boards, ACPI support status can be checked by examining their
1110board defconfig files to see if CONFIG_GENERATE_ACPI_TABLE is set to y.
1111
Bin Meng13c9d842017-04-21 07:24:49 -07001112The S3 sleeping state is a low wake latency sleeping state defined by ACPI
1113spec where all system context is lost except system memory. To test S3 resume
1114with a Linux kernel, simply run "echo mem > /sys/power/state" and kernel will
1115put the board to S3 state where the power is off. So when the power button is
1116pressed again, U-Boot runs as it does in cold boot and detects the sleeping
1117state via ACPI register to see if it is S3, if yes it means we are waking up.
1118U-Boot is responsible for restoring the machine state as it is before sleep.
1119When everything is done, U-Boot finds out the wakeup vector provided by OSes
1120and jump there. To determine whether ACPI S3 resume is supported, check to
1121see if CONFIG_HAVE_ACPI_RESUME is set for that specific board.
1122
1123Note for testing S3 resume with Windows, correct graphics driver must be
1124installed for your platform, otherwise you won't find "Sleep" option in
1125the "Power" submenu from the Windows start menu.
1126
Simon Glass007adbc22016-07-17 01:23:45 -06001127EFI Support
1128-----------
1129U-Boot supports booting as a 32-bit or 64-bit EFI payload, e.g. with UEFI.
Bin Meng9efeb3f2018-06-12 08:36:13 -07001130This is enabled with CONFIG_EFI_STUB to boot from both 32-bit and 64-bit
1131UEFI BIOS. U-Boot can also run as an EFI application, with CONFIG_EFI_APP.
Bin Meng73149162018-06-27 20:38:05 -07001132The CONFIG_EFI_LOADER option, where U-Boot provides an EFI environment to
Bin Meng9efeb3f2018-06-12 08:36:13 -07001133the kernel (i.e. replaces UEFI completely but provides the same EFI run-time
Bin Meng73149162018-06-27 20:38:05 -07001134services) is supported too. For example, we can even use 'bootefi' command
1135to load a 'u-boot-payload.efi', see below test logs on QEMU.
1136
1137 => load ide 0 3000000 u-boot-payload.efi
1138 489787 bytes read in 138 ms (3.4 MiB/s)
1139 => bootefi 3000000
1140 Scanning disk ide.blk#0...
1141 Found 2 disks
1142 WARNING: booting without device tree
1143 ## Starting EFI application at 03000000 ...
1144 U-Boot EFI Payload
1145
1146
1147 U-Boot 2018.07-rc2 (Jun 23 2018 - 17:12:58 +0800)
1148
1149 CPU: x86_64, vendor AMD, device 663h
1150 DRAM: 2 GiB
1151 MMC:
1152 Video: 1024x768x32
1153 Model: EFI x86 Payload
1154 Net: e1000: 52:54:00:12:34:56
1155
1156 Warning: e1000#0 using MAC address from ROM
1157 eth0: e1000#0
1158 No controllers found
1159 Hit any key to stop autoboot: 0
Simon Glass007adbc22016-07-17 01:23:45 -06001160
Bin Meng9efeb3f2018-06-12 08:36:13 -07001161See README.u-boot_on_efi and README.uefi for details of EFI support in U-Boot.
Simon Glass007adbc22016-07-17 01:23:45 -06001162
Bin Meng5dad97e2014-12-17 15:50:48 +08001163TODO List
1164---------
Bin Meng5dad97e2014-12-17 15:50:48 +08001165- Audio
1166- Chrome OS verified boot
Bin Meng5dad97e2014-12-17 15:50:48 +08001167
1168References
1169----------
1170[1] http://www.coreboot.org
Bin Meng1ae5b782015-05-07 21:34:12 +08001171[2] http://www.qemu.org
1172[3] http://www.coreboot.org/~stepan/pci8086,0166.rom
1173[4] http://www.intel.com/content/www/us/en/embedded/design-tools/evaluation-platforms/atom-e660-eg20t-development-kit.html
1174[5] http://www.intel.com/fsp
Bin Meng7aaff9b2015-07-06 16:31:35 +08001175[6] http://www.intel.com/content/www/us/en/secure/intelligent-systems/privileged/e6xx-35-b1-cmc22211.html
1176[7] http://www.ami.com/products/bios-uefi-tools-and-utilities/bios-uefi-utilities/
1177[8] http://en.wikipedia.org/wiki/Microcode
1178[9] http://simplefirmware.org
1179[10] http://www.intel.com/design/archives/processors/pro/docs/242016.htm
Simon Glass7bea5272015-07-27 15:47:31 -06001180[11] https://en.wikipedia.org/wiki/GUID_Partition_Table
1181[12] http://events.linuxfoundation.org/sites/events/files/slides/chromeos_and_diy_vboot_0.pdf
1182[13] http://events.linuxfoundation.org/sites/events/files/slides/elce-2014.pdf
Bin Meng2e9ae222016-02-28 23:54:52 -08001183[14] http://www.seabios.org/SeaBIOS
1184[15] doc/device-tree-bindings/misc/intel,irq-router.txt
Bin Meng49d929b2016-05-07 07:46:37 -07001185[16] http://www.acpi.info
1186[17] https://www.acpica.org/downloads