u-boot/doc/usage/dfu.rst
Marek Vasut 60d904a494 dfu: mmc: Add support for exposing whole mmc device
Add support for exposing the whole mmc device by setting the 'size'
parameter to 0. This can be useful in case it is not clear what the
total device size is up front. Update the documentation accordingly.

Signed-off-by: Marek Vasut <marex@denx.de>
Reviewed-by: Mattijs Korpershoek <mkorpershoek@baylibre.com>
Reviewed-by: Lukasz Majewski <lukma@denx.de>
Link: https://lore.kernel.org/r/20231029223740.284149-1-marex@denx.de
Signed-off-by: Mattijs Korpershoek <mkorpershoek@baylibre.com>
2023-10-31 14:53:05 +01:00

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.. SPDX-License-Identifier: GPL-2.0+
Device Firmware Upgrade (DFU)
=============================
Overview
--------
The Device Firmware Upgrade (DFU) allows to download and upload firmware
to/from U-Boot connected over USB.
U-Boot follows the Universal Serial Bus Device Class Specification for
Device Firmware Upgrade Version 1.1 the USB forum (DFU v1.1 in www.usb.org).
U-Boot implements this DFU capability (CONFIG_DFU) with the command dfu
(cmd/dfu.c / CONFIG_CMD_DFU) based on:
- the DFU stack (common/dfu.c and common/spl/spl_dfu.c), based on the
USB DFU download gadget (drivers/usb/gadget/f_dfu.c)
- The access to mediums is done in DFU backends (driver/dfu)
Today the supported DFU backends are:
- MMC (RAW or FAT / EXT2 / EXT3 / EXT4 file system / SKIP / SCRIPT)
- NAND
- RAM
- SF (serial flash)
- MTD (all MTD device: NAND, SPI-NOR, SPI-NAND,...)
- virtual
These DFU backends are also used by
- the dfutftp (see README.dfutftp)
- the thordown command (cmd/thordown.c and gadget/f_thor.c)
The "virtual" backend is a generic DFU backend to support a board specific
target (for example OTP), only based on the weak functions:
- dfu_write_medium_virt
- dfu_get_medium_size_virt
- dfu_read_medium_virt
Configuration Options
---------------------
The following configuration option are relevant for device firmware upgrade:
* CONFIG_DFU
* CONFIG_DFU_OVER_USB
* CONFIG_DFU_MMC
* CONFIG_DFU_MTD
* CONFIG_DFU_NAND
* CONFIG_DFU_RAM
* CONFIG_DFU_SF
* CONFIG_DFU_SF_PART
* CONFIG_DFU_TIMEOUT
* CONFIG_DFU_VIRTUAL
* CONFIG_CMD_DFU
Environment variables
---------------------
The dfu command uses 3 environments variables:
dfu_alt_info
The DFU setting for the USB download gadget with a semicolon separated
string of information on each alternate::
dfu_alt_info="<alt1>;<alt2>;....;<altN>"
When several devices are used, the format is:
- <interface> <dev>'='alternate list (';' separated)
- each interface is separated by '&'::
dfu_alt_info=\
"<interface1> <dev1>=<alt1>;....;<altN>&"\
"<interface2> <dev2>=<altN+1>;....;<altM>&"\
...\
"<interfaceI> <devI>=<altY+1>;....;<altZ>&"
dfu_bufsiz
size of the DFU buffer, when absent, defaults to
CONFIG_SYS_DFU_DATA_BUF_SIZE (8 MiB by default)
dfu_hash_algo
name of the hash algorithm to use
Commands
--------
dfu <USB_controller> [<interface> <dev>] list
list the alternate device defined in *dfu_alt_info*
dfu <USB_controller> [<interface> <dev>] [<timeout>]
start the dfu stack on the USB instance with the selected medium
backend and use the *dfu_alt_info* variable to configure the
alternate setting and link each one with the medium
The dfu command continue until receive a ^C in console or
a DFU detach transaction from HOST. If CONFIG_DFU_TIMEOUT option
is enabled and <timeout> parameter is present in the command line,
the DFU operation will be aborted automatically after <timeout>
seconds of waiting remote to initiate DFU session.
The possible values of <interface> are (with <USB controller> = 0 in the dfu
command example)
mmc
for eMMC and SD card::
dfu 0 mmc <dev>
each element in *dfu_alt_info* being
* <name> raw <offset> <size> [mmcpart <num>] raw access to mmc device
* <name> part <dev> <part_id> [offset <byte>] raw access to partition
* <name> fat <dev> <part_id> file in FAT partition
* <name> ext4 <dev> <part_id> file in EXT4 partition
* <name> skip 0 0 ignore flashed data
* <name> script 0 0 execute commands in shell
with
offset
is the offset in the device (hexadecimal without "0x")
size
is the size of the access area (hexadecimal without "0x")
or 0 which means whole device
partid
being the GPT or DOS partition index,
num
being the eMMC hardware partition number.
A value of environment variable *dfu_alt_info* for eMMC could be::
u-boot raw 0x3e 0x800 mmcpart 1;bl2 raw 0x1e 0x1d mmcpart 1
A value of environment variable *dfu_alt_info* for SD card could be::
u-boot raw 0x80 0x800;uImage ext4 0 2
If don't want to flash given image file to storage, use "skip" type
entity.
- It can be used to protect flashing wrong image for the specific board.
- Especailly, this layout will be useful when thor protocol is used,
which performs flashing in batch mode, where more than one file is
processed.
For example, if one makes a single tar file with support for the two
boards with u-boot-<board1>.bin and u-boot-<board2>.bin files, one
can use it to flash a proper u-boot image on both without a failure::
u-boot-<board1>.bin raw 0x80 0x800; u-boot-<board2>.bin skip 0 0
When flashing new system image requires do some more complex things
than just writing data to the storage medium, one can use 'script'
type. Data written to such entity will be executed as a command list
in the u-boot's shell. This for example allows to re-create partition
layout and even set new *dfu_alt_info* for the newly created paritions.
Such script would look like::
setenv dfu_alt_info ...
setenv mbr_parts ...
mbr write ...
Please note that this means that user will be able to execute any
arbitrary commands just like in the u-boot's shell.
nand
raw slc nand device::
dfu 0 nand <dev>
each element in *dfu_alt_info* being either of
* <name> raw <offset> <size> raw access to nand device
* <name> part <dev_id> <part_id> raw access to partition
* <name> partubi <dev_id> <part_id> raw access to ubi partition
with
offset
is the offset in the nand device (hexadecimal without "0x")
size
is the size of the access area (hexadecimal without "0x")
dev_id
is the NAND device index (decimal only)
part_id
is the NAND partition index (decimal only)
ram
raw access to ram::
dfu 0 ram <dev>
dev
is not used for RAM target
each element in *dfu_alt_info* being::
<name> ram <offset> <size> raw access to ram
with
offset
is the offset in the ram device (hexadecimal without "0x")
size
is the size of the access area (hexadecimal without "0x")
sf
serial flash : NOR::
cmd: dfu 0 sf <dev>
each element in *dfu_alt_info* being either of:
* <name> raw <offset> <size> raw access to sf device
* <name> part <dev_id> <part_id> raw acces to partition
* <name> partubi <dev_id> <part_id> raw acces to ubi partition
with
offset
is the offset in the sf device (hexadecimal without "0x")
size
is the size of the access area (hexadecimal without "0x")
dev_id
is the sf device index (the device is "nor<dev_id>") (deximal only)
part_id
is the MTD partition index (decimal only)
mtd
all MTD device: NAND, SPI-NOR, SPI-NAND,...::
cmd: dfu 0 mtd <dev>
with
dev
the mtd identifier as defined in mtd command
(nand0, nor0, spi-nand0,...)
each element in *dfu_alt_info* being either of:
* <name> raw <offset> <size> for raw access to mtd device
* <name> part <part_id> for raw access to partition
* <name> partubi <part_id> for raw access to ubi partition
with
offset
is the offset in the mtd device (hexadecimal without "0x")
size
is the size of the access area (hexadecimal without "0x")
part_id
is the MTD partition index (decimal only)
virt
virtual flash back end for DFU
::
cmd: dfu 0 virt <dev>
each element in *dfu_alt_info* being:
* <name>
<interface> and <dev> are absent, the dfu command to use multiple devices::
cmd: dfu 0 list
cmd: dfu 0
*dfu_alt_info* variable provides the list of <interface> <dev> with
alternate list separated by '&' with the same format for each <alt>::
mmc <dev>=<alt1>;....;<altN>
nand <dev>=<alt1>;....;<altN>
ram <dev>=<alt1>;....;<altN>
sf <dev>=<alt1>;....;<altN>
mtd <dev>=<alt1>;....;<altN>
virt <dev>=<alt1>;....;<altN>
Callbacks
---------
The weak callback functions can be implemented to manage specific behavior
dfu_initiated_callback
called when the DFU transaction is started, used to initiase the device
dfu_flush_callback
called at the end of the DFU write after DFU manifestation, used to manage
the device when DFU transaction is closed
Host tools
----------
When U-Boot runs the dfu stack, the DFU host tools can be used
to send/receive firmwares on each configurated alternate.
For example dfu-util is a host side implementation of the DFU 1.1
specifications(http://dfu-util.sourceforge.net/) which works with U-Boot.
Usage
-----
Example 1: firmware located in eMMC or SD card, with:
- alternate 1 (alt=1) for SPL partition (GPT partition 1)
- alternate 2 (alt=2) for U-Boot partition (GPT partition 2)
The U-Boot configuration is::
U-Boot> env set dfu_alt_info "spl part 0 1;u-boot part 0 2"
U-Boot> dfu 0 mmc 0 list
DFU alt settings list:
dev: eMMC alt: 0 name: spl layout: RAW_ADDR
dev: eMMC alt: 1 name: u-boot layout: RAW_ADDR
Boot> dfu 0 mmc 0
On the Host side:
list the available alternate setting::
$> dfu-util -l
dfu-util 0.9
Copyright 2005-2009 Weston Schmidt, Harald Welte and OpenMoko Inc.
Copyright 2010-2016 Tormod Volden and Stefan Schmidt
This program is Free Software and has ABSOLUTELY NO WARRANTY
Please report bugs to http://sourceforge.net/p/dfu-util/tickets/
Found DFU: [0483:5720] ver=0200, devnum=45, cfg=1, intf=0, path="3-1.3.1", \
alt=1, name="u-boot", serial="003A00203438510D36383238"
Found DFU: [0483:5720] ver=0200, devnum=45, cfg=1, intf=0, path="3-1.3.1", \
alt=0, name="spl", serial="003A00203438510D36383238"
To download to U-Boot, use -D option
$> dfu-util -a 0 -D u-boot-spl.bin
$> dfu-util -a 1 -D u-boot.bin
To upload from U-Boot, use -U option
$> dfu-util -a 0 -U u-boot-spl.bin
$> dfu-util -a 1 -U u-boot.bin
To request a DFU detach and reset the USB connection:
$> dfu-util -a 0 -e -R
Example 2: firmware located in NOR (sf) and NAND, with:
- alternate 1 (alt=1) for SPL partition (NOR GPT partition 1)
- alternate 2 (alt=2) for U-Boot partition (NOR GPT partition 2)
- alternate 3 (alt=3) for U-Boot-env partition (NOR GPT partition 3)
- alternate 4 (alt=4) for UBI partition (NAND GPT partition 1)
::
U-Boot> env set dfu_alt_info \
"sf 0:0:10000000:0=spl part 0 1;u-boot part 0 2; \
u-boot-env part 0 3&nand 0=UBI partubi 0,1"
U-Boot> dfu 0 list
DFU alt settings list:
dev: SF alt: 0 name: spl layout: RAW_ADDR
dev: SF alt: 1 name: ssbl layout: RAW_ADDR
dev: SF alt: 2 name: u-boot-env layout: RAW_ADDR
dev: NAND alt: 3 name: UBI layout: RAW_ADDR
U-Boot> dfu 0
::
$> dfu-util -l
Found DFU: [0483:5720] ver=9999, devnum=96, cfg=1,\
intf=0, alt=3, name="UBI", serial="002700333338511934383330"
Found DFU: [0483:5720] ver=9999, devnum=96, cfg=1,\
intf=0, alt=2, name="u-boot-env", serial="002700333338511934383330"
Found DFU: [0483:5720] ver=9999, devnum=96, cfg=1,\
intf=0, alt=1, name="u-boot", serial="002700333338511934383330"
Found DFU: [0483:5720] ver=9999, devnum=96, cfg=1,\
intf=0, alt=0, name="spl", serial="002700333338511934383330"
Same example with MTD backend
::
U-Boot> env set dfu_alt_info \
"mtd nor0=spl part 1;u-boot part 2;u-boot-env part 3&"\
"mtd nand0=UBI partubi 1"
U-Boot> dfu 0 list
using id 'nor0,0'
using id 'nor0,1'
using id 'nor0,2'
using id 'nand0,0'
DFU alt settings list:
dev: MTD alt: 0 name: spl layout: RAW_ADDR
dev: MTD alt: 1 name: u-boot layout: RAW_ADDR
dev: MTD alt: 2 name: u-boot-env layout: RAW_ADDR
dev: MTD alt: 3 name: UBI layout: RAW_ADDR
Example 3
firmware located in SD Card (mmc) and virtual partition on OTP and PMIC not
volatile memory
- alternate 1 (alt=1) for scard
- alternate 2 (alt=2) for OTP (virtual)
- alternate 3 (alt=3) for PMIC NVM (virtual)
::
U-Boot> env set dfu_alt_info \
"mmc 0=sdcard raw 0 0x100000&"\
"virt 0=otp" \
"virt 1=pmic"
::
U-Boot> dfu 0 list
DFU alt settings list:
dev: eMMC alt: 0 name: sdcard layout: RAW_ADDR
dev: VIRT alt: 1 name: otp layout: RAW_ADDR
dev: VIRT alt: 2 name: pmic layout: RAW_ADDR