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authorBin Meng <bmeng.cn@gmail.com>2015-05-07 21:34:12 +0800
committerSimon Glass <sjg@chromium.org>2015-06-04 02:39:38 -0600
commit1ae5b78c45dc8badf541ca07716a7e0d932deebf (patch)
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parentb28c1475691add24ecd220c69ccc469c77d9fc57 (diff)
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x86: Update README.x86 for QEMU support
Document how to build and test U-Boot with QEMU. Signed-off-by: Bin Meng <bmeng.cn@gmail.com> Acked-by: Simon Glass <sjg@chromium.org>
Diffstat (limited to 'doc')
-rw-r--r--doc/README.x8665
1 files changed, 48 insertions, 17 deletions
diff --git a/doc/README.x86 b/doc/README.x86
index ef13fb4..4a30f68 100644
--- a/doc/README.x86
+++ b/doc/README.x86
@@ -14,12 +14,13 @@ including supported boards, build instructions, todo list, etc.
Status
------
U-Boot supports running as a coreboot [1] payload on x86. So far only Link
-(Chromebook Pixel) has been tested, but it should work with minimal adjustments
-on other x86 boards since coreboot deals with most of the low-level details.
+(Chromebook Pixel) and QEMU [2] x86 targets have been tested, but it should
+work with minimal adjustments on other x86 boards since coreboot deals with
+most of the low-level details.
U-Boot also supports booting directly from x86 reset vector without coreboot,
-aka raw support or bare support. Currently Link, Intel Crown Bay, Intel
-Minnowboard Max and Intel Galileo support running U-Boot 'bare metal'.
+aka raw support or bare support. Currently Link, QEMU x86 targets and all
+Intel boards support running U-Boot 'bare metal'.
As for loading an OS, U-Boot supports directly booting a 32-bit or 64-bit
Linux kernel as part of a FIT image. It also supports a compressed zImage.
@@ -32,15 +33,15 @@ on other architectures, like below:
$ make coreboot-x86_defconfig
$ make all
-Note this default configuration will build a U-Boot payload for the Link board.
+Note this default configuration will build a U-Boot payload for the QEMU board.
To build a coreboot payload against another board, you can change the build
configuration during the 'make menuconfig' process.
x86 architecture --->
...
- (chromebook_link) Board configuration file
- (chromebook_link) Board Device Tree Source (dts) file
- (0x19200000) Board specific Cache-As-RAM (CAR) address
+ (qemu-x86) Board configuration file
+ (qemu-x86) Board Device Tree Source (dts) file
+ (0x01920000) Board specific Cache-As-RAM (CAR) address
(0x4000) Board specific Cache-As-RAM (CAR) size
Change the 'Board configuration file' and 'Board Device Tree Source (dts) file'
@@ -78,7 +79,7 @@ Find the following files:
* ./northbridge/intel/sandybridge/systemagent-r6.bin
The 3rd one should be renamed to mrc.bin.
-As for the video ROM, you can get it here [2].
+As for the video ROM, you can get it here [3].
Make sure all these binary blobs are put in the board directory.
Now you can build U-Boot and obtain u-boot.rom:
@@ -88,8 +89,8 @@ $ make all
Intel Crown Bay specific instructions:
-U-Boot support of Intel Crown Bay board [3] relies on a binary blob called
-Firmware Support Package [4] to perform all the necessary initialization steps
+U-Boot support of Intel Crown Bay board [4] relies on a binary blob called
+Firmware Support Package [5] to perform all the necessary initialization steps
as documented in the BIOS Writer Guide, including initialization of the CPU,
memory controller, chipset and certain bus interfaces.
@@ -178,6 +179,13 @@ Now you can build U-Boot and obtain u-boot.rom
$ make galileo_defconfig
$ make all
+QEMU x86 target instructions:
+
+To build u-boot.rom for QEMU x86 targets, just simply run
+
+$ make qemu-x86_defconfig
+$ make all
+
Test with coreboot
------------------
For testing U-Boot as the coreboot payload, there are things that need be paid
@@ -207,10 +215,33 @@ At present it seems that for Minnowboard Max, coreboot does not pass through
the video information correctly (it always says the resolution is 0x0). This
works correctly for link though.
+Test with QEMU
+--------------
+QEMU is a fancy emulator that can enable us to test U-Boot without access to
+a real x86 board. To launch QEMU with u-boot.rom, call QEMU as follows:
+
+$ qemu-system-i386 -nographic -bios path/to/u-boot.rom
+
+This will instantiate an emulated x86 board with i440FX and PIIX chipset. QEMU
+also supports emulating an x86 board with Q35 and ICH9 based chipset, which is
+also supported by U-Boot. To instantiate such a machine, call QEMU with:
+
+$ qemu-system-i386 -nographic -bios path/to/u-boot.rom -M q35
+
+Note by default QEMU instantiated boards only have 128 MiB system memory. But
+it is enough to have U-Boot boot and function correctly. You can increase the
+system memory by pass '-m' parameter to QEMU if you want more memory:
+
+$ qemu-system-i386 -nographic -bios path/to/u-boot.rom -m 1024
+
+This creates a board with 1 GiB system memory. Currently U-Boot for QEMU only
+supports 3 GiB maximum system memory and reserves the last 1 GiB address space
+for PCI device memory-mapped I/O and other stuff, so the maximum value of '-m'
+would be 3072.
CPU Microcode
-------------
-Modern CPUs usually require a special bit stream called microcode [5] to be
+Modern CPUs usually require a special bit stream called microcode [6] to be
loaded on the processor after power up in order to function properly. U-Boot
has already integrated these as hex dumps in the source tree.
@@ -227,7 +258,6 @@ arch/x86/dts/ for these device tree source files.
Useful Commands
---------------
-
In keeping with the U-Boot philosophy of providing functions to check and
adjust internal settings, there are several x86-specific commands that may be
useful:
@@ -314,7 +344,8 @@ TODO List
References
----------
[1] http://www.coreboot.org
-[2] http://www.coreboot.org/~stepan/pci8086,0166.rom
-[3] http://www.intel.com/content/www/us/en/embedded/design-tools/evaluation-platforms/atom-e660-eg20t-development-kit.html
-[4] http://www.intel.com/fsp
-[5] http://en.wikipedia.org/wiki/Microcode
+[2] http://www.qemu.org
+[3] http://www.coreboot.org/~stepan/pci8086,0166.rom
+[4] http://www.intel.com/content/www/us/en/embedded/design-tools/evaluation-platforms/atom-e660-eg20t-development-kit.html
+[5] http://www.intel.com/fsp
+[6] http://en.wikipedia.org/wiki/Microcode