mirror of
https://github.com/AsahiLinux/u-boot
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a09852d862
Emulate Secure World's FF-A ABIs and allow testing U-Boot FF-A support Features of the sandbox FF-A support: - Introduce an FF-A emulator - Introduce an FF-A device driver for FF-A comms with emulated Secure World - Provides test methods allowing to read the status of the inspected ABIs The sandbox FF-A emulator supports only 64-bit direct messaging. Signed-off-by: Abdellatif El Khlifi <abdellatif.elkhlifi@arm.com> Reviewed-by: Simon Glass <sjg@chromium.org> Cc: Tom Rini <trini@konsulko.com> Cc: Ilias Apalodimas <ilias.apalodimas@linaro.org> Cc: Jens Wiklander <jens.wiklander@linaro.org> Cc: Heinrich Schuchardt <xypron.glpk@gmx.de>
624 lines
21 KiB
ReStructuredText
624 lines
21 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0+ */
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.. Copyright (c) 2014 The Chromium OS Authors.
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.. sectionauthor:: Simon Glass <sjg@chromium.org>
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Sandbox
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=======
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Native Execution of U-Boot
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--------------------------
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The 'sandbox' architecture is designed to allow U-Boot to run under Linux on
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almost any hardware. To achieve this it builds U-Boot (so far as possible)
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as a normal C application with a main() and normal C libraries.
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All of U-Boot's architecture-specific code therefore cannot be built as part
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of the sandbox U-Boot. The purpose of running U-Boot under Linux is to test
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all the generic code, not specific to any one architecture. The idea is to
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create unit tests which we can run to test this upper level code.
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Sandbox allows development of many types of new features in a traditional way,
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rather than needing to test each iteration on real hardware. Many U-Boot
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features were developed on sandbox, including the core driver model, most
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uclasses, verified boot, bloblist, logging and dozens of others. Sandbox has
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enabled many large-scale code refactors as well.
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CONFIG_SANDBOX is defined when building a native board.
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The board name is 'sandbox' but the vendor name is unset, so there is a
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single board in board/sandbox.
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CONFIG_SANDBOX_BIG_ENDIAN should be defined when running on big-endian
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machines.
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There are two versions of the sandbox: One using 32-bit-wide integers, and one
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using 64-bit-wide integers. The 32-bit version can be build and run on either
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32 or 64-bit hosts by either selecting or deselecting CONFIG_SANDBOX_32BIT; by
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default, the sandbox it built for a 32-bit host. The sandbox using 64-bit-wide
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integers can only be built on 64-bit hosts.
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Note that standalone/API support is not available at present.
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Prerequisites
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-------------
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Install the dependencies noted in :doc:`../../build/gcc`.
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Basic Operation
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---------------
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To run sandbox U-Boot use something like::
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make sandbox_defconfig all
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./u-boot
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Note: If you get errors about 'sdl-config: Command not found' you may need to
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install libsdl2.0-dev or similar to get SDL support. Alternatively you can
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build sandbox without SDL (i.e. no display/keyboard support) by disabling
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CONFIG_SANDBOX_SDL in the .config file.
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U-Boot will start on your computer, showing a sandbox emulation of the serial
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console::
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U-Boot 2014.04 (Mar 20 2014 - 19:06:00)
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DRAM: 128 MiB
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Using default environment
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In: serial
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Out: lcd
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Err: lcd
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=>
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You can issue commands as your would normally. If the command you want is
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not supported you can add it to include/configs/sandbox.h.
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To exit, type 'poweroff' or press Ctrl-C.
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Console / LCD support
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---------------------
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Assuming that CONFIG_SANDBOX_SDL is enabled when building, you can run the
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sandbox with LCD and keyboard emulation, using something like::
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./u-boot -d u-boot.dtb -l
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This will start U-Boot with a window showing the contents of the LCD. If
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that window has the focus then you will be able to type commands as you
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would on the console. You can adjust the display settings in the device
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tree file - see arch/sandbox/dts/sandbox.dts.
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Command-line Options
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--------------------
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Various options are available, mostly for test purposes. Use -h to see
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available options. Some of these are described below:
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-t, --terminal <arg>
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The terminal is normally in what is called 'raw-with-sigs' mode. This means
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that you can use arrow keys for command editing and history, but if you
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press Ctrl-C, U-Boot will exit instead of handling this as a keypress.
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Other options are 'raw' (so Ctrl-C is handled within U-Boot) and 'cooked'
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(where the terminal is in cooked mode and cursor keys will not work, Ctrl-C
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will exit).
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-l
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Show the LCD emulation window.
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-d <device_tree>
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A device tree binary file can be provided with -d. If you edit the source
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(it is stored at arch/sandbox/dts/sandbox.dts) you must rebuild U-Boot to
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recreate the binary file.
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-D
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To use the default device tree, use -D.
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-T
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To use the test device tree, use -T.
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-c [<cmd>;]<cmd>
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To execute commands directly, use the -c option. You can specify a single
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command, or multiple commands separated by a semicolon, as is normal in
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U-Boot. Be careful with quoting as the shell will normally process and
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swallow quotes. When -c is used, U-Boot exits after the command is complete,
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but you can force it to go to interactive mode instead with -i.
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-i
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Go to interactive mode after executing the commands specified by -c.
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Environment Variables
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---------------------
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UBOOT_SB_TIME_OFFSET
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This environment variable stores the offset of the emulated real time clock
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to the host's real time clock in seconds. The offset defaults to zero.
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Memory Emulation
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----------------
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Memory emulation is supported, with the size set by CONFIG_SANDBOX_RAM_SIZE_MB.
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The -m option can be used to read memory from a file on start-up and write
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it when shutting down. This allows preserving of memory contents across
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test runs. You can tell U-Boot to remove the memory file after it is read
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(on start-up) with the --rm_memory option.
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To access U-Boot's emulated memory within the code, use map_sysmem(). This
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function is used throughout U-Boot to ensure that emulated memory is used
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rather than the U-Boot application memory. This provides memory starting
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at 0 and extending to the size of the emulation.
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Storing State
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-------------
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With sandbox you can write drivers which emulate the operation of drivers on
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real devices. Some of these drivers may want to record state which is
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preserved across U-Boot runs. This is particularly useful for testing. For
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example, the contents of a SPI flash chip should not disappear just because
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U-Boot exits.
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State is stored in a device tree file in a simple format which is driver-
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specific. You then use the -s option to specify the state file. Use -r to
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make U-Boot read the state on start-up (otherwise it starts empty) and -w
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to write it on exit (otherwise the stored state is left unchanged and any
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changes U-Boot made will be lost). You can also use -n to tell U-Boot to
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ignore any problems with missing state. This is useful when first running
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since the state file will be empty.
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The device tree file has one node for each driver - the driver can store
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whatever properties it likes in there. See 'Writing Sandbox Drivers' below
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for more details on how to get drivers to read and write their state.
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Running and Booting
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-------------------
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Since there is no machine architecture, sandbox U-Boot cannot actually boot
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a kernel, but it does support the bootm command. Filesystems, memory
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commands, hashing, FIT images, verified boot and many other features are
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supported.
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When 'bootm' runs a kernel, sandbox will exit, as U-Boot does on a real
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machine. Of course in this case, no kernel is run.
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It is also possible to tell U-Boot that it has jumped from a temporary
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previous U-Boot binary, with the -j option. That binary is automatically
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removed by the U-Boot that gets the -j option. This allows you to write
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tests which emulate the action of chain-loading U-Boot, typically used in
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a situation where a second 'updatable' U-Boot is stored on your board. It
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is very risky to overwrite or upgrade the only U-Boot on a board, since a
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power or other failure will brick the board and require return to the
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manufacturer in the case of a consumer device.
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Supported Drivers
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-----------------
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U-Boot sandbox supports these emulations:
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- Arm FF-A
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- Block devices
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- Chrome OS EC
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- GPIO
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- Host filesystem (access files on the host from within U-Boot)
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- I2C
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- Keyboard (Chrome OS)
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- LCD
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- Network
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- Serial (for console only)
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- Sound (incomplete - see sandbox_sdl_sound_init() for details)
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- SPI
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- SPI flash
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- TPM (Trusted Platform Module)
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A wide range of commands are implemented. Filesystems which use a block
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device are supported.
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Also sandbox supports driver model (CONFIG_DM) and associated commands.
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Sandbox Variants
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----------------
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There are unfortunately quite a few variants at present:
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sandbox:
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should be used for most tests
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sandbox64:
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special build that forces a 64-bit host
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sandbox_flattree:
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builds with dev_read\_...() functions defined as inline.
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We need this build so that we can test those inline functions, and we
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cannot build with both the inline functions and the non-inline functions
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since they are named the same.
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sandbox_spl:
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builds sandbox with SPL support, so you can run spl/u-boot-spl
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and it will start up and then load ./u-boot. It is also possible to
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run ./u-boot directly.
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Of these sandbox_spl can probably be removed since it is a superset of sandbox.
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Most of the config options should be identical between these variants.
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Linux RAW Networking Bridge
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---------------------------
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The sandbox_eth_raw driver bridges traffic between the bottom of the network
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stack and the RAW sockets API in Linux. This allows much of the U-Boot network
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functionality to be tested in sandbox against real network traffic.
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For Ethernet network adapters, the bridge utilizes the RAW AF_PACKET API. This
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is needed to get access to the lowest level of the network stack in Linux. This
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means that all of the Ethernet frame is included. This allows the U-Boot network
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stack to be fully used. In other words, nothing about the Linux network stack is
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involved in forming the packets that end up on the wire. To receive the
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responses to packets sent from U-Boot the network interface has to be set to
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promiscuous mode so that the network card won't filter out packets not destined
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for its configured (on Linux) MAC address.
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The RAW sockets Ethernet API requires elevated privileges in Linux. You can
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either run as root, or you can add the capability needed like so::
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sudo /sbin/setcap "CAP_NET_RAW+ep" /path/to/u-boot
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The default device tree for sandbox includes an entry for eth0 on the sandbox
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host machine whose alias is "eth1". The following are a few examples of network
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operations being tested on the eth0 interface.
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.. code-block:: none
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sudo /path/to/u-boot -D
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DHCP
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....
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setenv autoload no
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setenv ethrotate no
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setenv ethact eth1
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dhcp
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PING
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....
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setenv autoload no
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setenv ethrotate no
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setenv ethact eth1
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dhcp
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ping $gatewayip
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TFTP
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....
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setenv autoload no
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setenv ethrotate no
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setenv ethact eth1
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dhcp
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setenv serverip WWW.XXX.YYY.ZZZ
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tftpboot u-boot.bin
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The bridge also supports (to a lesser extent) the localhost interface, 'lo'.
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The 'lo' interface cannot use the RAW AF_PACKET API because the lo interface
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doesn't support Ethernet-level traffic. It is a higher-level interface that is
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expected only to be used at the AF_INET level of the API. As such, the most raw
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we can get on that interface is the RAW AF_INET API on UDP. This allows us to
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set the IP_HDRINCL option to include everything except the Ethernet header in
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the packets we send and receive.
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Because only UDP is supported, ICMP traffic will not work, so expect that ping
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commands will time out.
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The default device tree for sandbox includes an entry for lo on the sandbox
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host machine whose alias is "eth5". The following is an example of a network
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operation being tested on the lo interface.
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.. code-block:: none
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TFTP
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....
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setenv ethrotate no
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setenv ethact eth5
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tftpboot u-boot.bin
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SPI Emulation
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-------------
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Sandbox supports SPI and SPI flash emulation.
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The device can be enabled via a device tree, for example::
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spi@0 {
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#address-cells = <1>;
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#size-cells = <0>;
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reg = <0 1>;
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compatible = "sandbox,spi";
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cs-gpios = <0>, <&gpio_a 0>;
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spi.bin@0 {
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reg = <0>;
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compatible = "spansion,m25p16", "jedec,spi-nor";
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spi-max-frequency = <40000000>;
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sandbox,filename = "spi.bin";
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};
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};
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The file must be created in advance::
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$ dd if=/dev/zero of=spi.bin bs=1M count=2
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$ u-boot -T
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Here, you can use "-T" or "-D" option to specify test.dtb or u-boot.dtb,
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respectively, or "-d <file>" for your own dtb.
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With this setup you can issue SPI flash commands as normal::
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=>sf probe
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SF: Detected M25P16 with page size 64 KiB, total 2 MiB
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=>sf read 0 0 10000
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SF: 65536 bytes @ 0x0 Read: OK
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Since this is a full SPI emulation (rather than just flash), you can
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also use low-level SPI commands::
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=>sspi 0:0 32 9f
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FF202015
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This is issuing a READ_ID command and getting back 20 (ST Micro) part
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0x2015 (the M25P16).
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.. _sandbox_blk:
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Block Device Emulation
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----------------------
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U-Boot can use raw disk images for block device emulation. To e.g. list
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the contents of the root directory on the second partion of the image
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"disk.raw", you can use the following commands::
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=>host bind 0 ./disk.raw
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=>ls host 0:2
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The device can be marked removeable with 'host bind -r'.
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A disk image can be created using the following commands::
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$> truncate -s 1200M ./disk.raw
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$> /usr/sbin/sgdisk --new=1:0:+64M --typecode=1:EF00 --new=2:0:0 --typecode=2:8300 disk.raw
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$> lodev=`sudo losetup -P -f --show ./disk.raw`
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$> sudo mkfs.vfat -n EFI -v ${lodev}p1
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$> sudo mkfs.ext4 -L ROOT -v ${lodev}p2
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or utilize the device described in test/py/make_test_disk.py::
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#!/usr/bin/python
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import make_test_disk
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make_test_disk.makeDisk()
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For more technical details, see :doc:`block_impl`.
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Writing Sandbox Drivers
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-----------------------
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Generally you should put your driver in a file containing the word 'sandbox'
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and put it in the same directory as other drivers of its type. You can then
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implement the same hooks as the other drivers.
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To access U-Boot's emulated memory, use map_sysmem() as mentioned above.
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If your driver needs to store configuration or state (such as SPI flash
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contents or emulated chip registers), you can use the device tree as
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described above. Define handlers for this with the SANDBOX_STATE_IO macro.
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See arch/sandbox/include/asm/state.h for documentation. In short you provide
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a node name, compatible string and functions to read and write the state.
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Since writing the state can expand the device tree, you may need to use
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state_setprop() which does this automatically and avoids running out of
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space. See existing code for examples.
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VPL (Verifying Program Loader)
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------------------------------
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Sandbox provides an example build of vpl called `sandbox_vpl`. This can be run
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using::
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/path/to/sandbox_vpl/tpl/u-boot-tpl -D
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It starts up TPL (first-stage init), then VPL, then runs SPL and finally U-Boot
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proper, following the normal flow for a verified boot. At present, no
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verification is actually implemented.
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Debugging the init sequence
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---------------------------
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If you get a failure in the initcall sequence, like this::
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initcall sequence 0000560775957c80 failed at call 0000000000048134 (err=-96)
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Then you use can use grep to see which init call failed, e.g.::
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$ grep 0000000000048134 u-boot.map
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stdio_add_devices
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Of course another option is to run it with a debugger such as gdb::
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$ gdb u-boot
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...
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(gdb) br initcall.h:41
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Breakpoint 1 at 0x4db9d: initcall.h:41. (2 locations)
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Note that two locations are reported, since this function is used in both
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board_init_f() and board_init_r().
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.. code-block:: none
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(gdb) r
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Starting program: /tmp/b/sandbox/u-boot
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[Thread debugging using libthread_db enabled]
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Using host libthread_db library "/lib/x86_64-linux-gnu/libthread_db.so.1".
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U-Boot 2018.09-00264-ge0c2ba9814-dirty (Sep 22 2018 - 12:21:46 -0600)
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DRAM: 128 MiB
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MMC:
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Breakpoint 1, initcall_run_list (init_sequence=0x5555559619e0 <init_sequence_f>)
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at /scratch/sglass/cosarm/src/third_party/u-boot/files/include/initcall.h:41
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41 printf("initcall sequence %p failed at call %p (err=%d)\n",
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(gdb) print *init_fnc_ptr
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$1 = (const init_fnc_t) 0x55555559c114 <stdio_add_devices>
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(gdb)
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This approach can be used on normal boards as well as sandbox.
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For debugging with GDB or LLDB, it is preferable to reduce the compiler
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optimization level (CONFIG_CC_OPTIMIZE_FOR_DEBUG=y) and to disable Link Time
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Optimization (CONFIG_LTO=n).
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SDL_CONFIG
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----------
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If sdl-config is on a different path from the default, set the SDL_CONFIG
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environment variable to the correct pathname before building U-Boot.
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Using valgrind / memcheck
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-------------------------
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It is possible to run U-Boot under valgrind to check memory allocations::
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valgrind ./u-boot
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However, this does not give very useful results. The sandbox allocates a memory
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pool via mmap(). U-Boot's internal malloc() and free() work on this memory pool.
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Custom allocators and deallocators are invisible to valgrind by default. To
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expose U-Boot's malloc() and free() to valgrind, enable ``CONFIG_VALGRIND``.
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Enabling this option will inject placeholder assembler code which valgrind
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interprets. This is used to annotate sections of memory as safe or unsafe, and
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to inform valgrind about malloc()s and free()s. There are currently no standard
|
|
placeholder assembly sequences for RISC-V, so this option cannot be enabled on
|
|
that architecture.
|
|
|
|
Malloc's bookkeeping information is marked as unsafe by default. However, this
|
|
will generate many false positives when malloc itself accesses this information.
|
|
These warnings can be suppressed with::
|
|
|
|
valgrind --suppressions=scripts/u-boot.supp ./u-boot
|
|
|
|
Additionally, you may experience false positives if U-Boot is using a smaller
|
|
pointer size than your host architecture. This is because the pointers used by
|
|
U-Boot will only contain 32 bits of addressing information. When interpreted as
|
|
64-bit pointers, valgrind will think that they are not initialized properly. To
|
|
fix this, enable ``CONFIG_SANDBOX64`` (such as via ``sandbox64_defconfig``)
|
|
when running on a 64-bit host.
|
|
|
|
Additional options
|
|
^^^^^^^^^^^^^^^^^^
|
|
|
|
The following valgrind options are useful in addition to the above examples:
|
|
|
|
``--trace-childen=yes``
|
|
tells valgrind to keep tracking subprocesses, such
|
|
as when U-Boot jumps from TPL to SPL, or from SPL to U-Boot proper.
|
|
|
|
``--track-origins=yes``
|
|
will (for a small overhead) tell valgrind to keep
|
|
track of who allocated some troublesome memory.
|
|
|
|
``--error-limit``
|
|
will enable printing more than 1000 errors in a single session.
|
|
|
|
``--vgdb=yes --vgdb-error=0``
|
|
will let you use GDB to attach like::
|
|
|
|
gdb -ex "target remote | vgdb" u-boot
|
|
|
|
This is very helpful for inspecting the program state when there is
|
|
an error.
|
|
|
|
The following U-Boot option are also helpful:
|
|
|
|
``-Tc 'ut all'``
|
|
lets U-Boot run unit tests automatically. Note
|
|
that not all unit tests will succeed in the default configuration.
|
|
|
|
``-t cooked``
|
|
will keep the console in a sane state if you
|
|
terminate it early (instead of having to run tset).
|
|
|
|
Future work
|
|
^^^^^^^^^^^
|
|
|
|
The biggest limitation to the current approach is that supressions don't
|
|
"un-taint" uninitialized memory accesses. Currently, dlmalloc's bookkeeping
|
|
information is marked as a "red zone." This means that all reads to that zone
|
|
are marked as illegal by valgrind. This is fine for regular code, but dlmalloc
|
|
really does need to access this area, so we suppress its violations. However, if
|
|
dlmalloc then passes a result calculated from a "tainted" access, that result is
|
|
still tainted. So the first accessor will raise a warning. This means that every
|
|
construct like
|
|
|
|
.. code-block::
|
|
|
|
foo = malloc(sizeof(*foo));
|
|
if (!foo)
|
|
return -ENOMEM;
|
|
|
|
will raise a warning when we check the result of malloc. Whoops.
|
|
|
|
There are at least four possible ways to address this:
|
|
|
|
* Don't mark dlmalloc bookkeeping information as a red zone. This is the
|
|
simplest solution, but reduces the power of valgrind immensely, since we can
|
|
no longer determine that (e.g.) access past the end of an array is undefined.
|
|
* Implement red zones properly. This would involve growing every allocation by a
|
|
fixed amount (16 bytes or so) and then using that extra space for a real red
|
|
zone that neither regular code nor dlmalloc needs to access. Unfortunately,
|
|
this would probably some fairly intensive surgery to dlmalloc to add/remove
|
|
the offset appropriately.
|
|
* Mark bookkeeping information as valid before we use it in dlmalloc, and then
|
|
mark it invalid before returning. This would be the most correct, but it would
|
|
be very tricky to implement since there are so many code paths to mark. I
|
|
think it would be the most effort out of the three options here.
|
|
* Use the host malloc and free instead of U-Boot's custom allocator. This will
|
|
eliminate the need to annotate dlmalloc. However, using a different allocator
|
|
for sandbox will mean that bugs in dlmalloc will only be tested when running
|
|
on read (or emulated) hardware.
|
|
|
|
Until one of the above options are implemented, it will remain difficult
|
|
to sift through the massive amount of spurious warnings.
|
|
|
|
Testing
|
|
-------
|
|
|
|
U-Boot sandbox can be used to run various tests, mostly in the test/
|
|
directory.
|
|
|
|
See :doc:`../../develop/tests_sandbox` for more information and
|
|
:doc:`../../develop/testing` for information about testing generally.
|
|
|
|
|
|
Memory Map
|
|
----------
|
|
|
|
Sandbox has its own emulated memory starting at 0. Here are some of the things
|
|
that are mapped into that memory:
|
|
|
|
======= ======================== ===============================
|
|
Addr Config Usage
|
|
======= ======================== ===============================
|
|
0 CONFIG_SYS_FDT_LOAD_ADDR Device tree
|
|
c000 CONFIG_BLOBLIST_ADDR Blob list
|
|
10000 CFG_MALLOC_F_ADDR Early memory allocation
|
|
f0000 CONFIG_PRE_CON_BUF_ADDR Pre-console buffer
|
|
100000 CONFIG_TRACE_EARLY_ADDR Early trace buffer (if enabled). Also used
|
|
as the SPL load buffer in spl_test_load().
|
|
200000 CONFIG_TEXT_BASE Load buffer for U-Boot (sandbox_spl only)
|
|
======= ======================== ===============================
|