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This is selected sections of the current manual for fmc-bus, as developed outside of the kernel before submission. Like the other patches in this set, it corresponds to commit ab23167f of the repository at ohwr.org Signed-off-by: Alessandro Rubini <rubini@gnudd.com> Acked-by: Juan David Gonzalez Cobas <dcobas@cern.ch> Acked-by: Emilio G. Cota <cota@braap.org> Acked-by: Samuel Iglesias Gonsalvez <siglesias@igalia.com> Acked-by: Rob Landley <rob@landley.net> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
169 lines
7.7 KiB
Plaintext
169 lines
7.7 KiB
Plaintext
FMC Identification
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******************
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The FMC standard requires every compliant mezzanine to carry
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identification information in an I2C EEPROM. The information must be
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laid out according to the "IPMI Platform Management FRU Information",
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where IPMI is a lie I'd better not expand, and FRU means "Field
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Replaceable Unit".
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The FRU information is an intricate unreadable binary blob that must
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live at offset 0 of the EEPROM, and typically extends for a few hundred
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bytes. The standard allows the application to use all the remaining
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storage area of the EEPROM as it wants.
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This chapter explains how to create your own EEPROM image and how to
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write it in your mezzanine, as well as how devices and drivers are
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paired at run time. EEPROM programming uses tools that are part of this
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package and SDB (part of the fpga-config-space package).
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The first sections are only interesting for manufacturers who need to
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write the EEPROM. If you are just a software developer writing an FMC
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device or driver, you may jump straight to *note SDB Support::.
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Building the FRU Structure
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==========================
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If you want to know the internals of the FRU structure and despair, you
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can retrieve the document from
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`http://download.intel.com/design/servers/ipmi/FRU1011.pdf' . The
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standard is awful and difficult without reason, so we only support the
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minimum mandatory subset - we create a simple structure and parse it
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back at run time, but we are not able to either generate or parse more
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arcane features like non-english languages and 6-bit text. If you need
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more items of the FRU standard for your boards, please submit patches.
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This package includes the Python script that Matthieu Cattin wrote to
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generate the FRU binary blob, based on an helper libipmi by Manohar
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Vanga and Matthieu himself. I changed the test script to receive
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parameters from the command line or from the environment (the command
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line takes precedence)
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To make a long story short, in order to build a standard-compliant
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binary file to be burned in your EEPROM, you need the following items:
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Environment Opt Official Name Default
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---------------------------------------------------------------------
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FRU_VENDOR -v "Board Manufacturer" fmc-example
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FRU_NAME -n "Board Product Name" mezzanine
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FRU_SERIAL -s `Board Serial Number" 0001
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FRU_PART -p "Board Part Number" sample-part
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FRU_OUTPUT -o not applicable /dev/stdout
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The "Official Name" above is what you find in the FRU official
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documentation, chapter 11, page 7 ("Board Info Area Format"). The
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output option is used to save the generated binary to a specific file
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name instead of stdout.
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You can pass the items to the FRU generator either in the environment
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or on the command line. This package has currently no support for
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specifying power consumption or such stuff, but I plan to add it as
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soon as I find some time for that.
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FIXME: consumption etc for FRU are here or in PTS?
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The following example creates a binary image for a specific board:
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./tools/fru-generator -v CERN -n FmcAdc100m14b4cha \
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-s HCCFFIA___-CR000003 -p EDA-02063-V5-0 > eeprom.bin
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The following example shows a script that builds several binary EEPROM
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images for a series of boards, changing the serial number for each of
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them. The script uses a mix of environment variables and command line
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options, and uses the same string patterns shown above.
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#!/bin/sh
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export FRU_VENDOR="CERN"
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export FRU_NAME="FmcAdc100m14b4cha"
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export FRU_PART="EDA-02063-V5-0"
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serial="HCCFFIA___-CR"
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for number in $(seq 1 50); do
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# build number-string "ns"
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ns="$(printf %06d $number)"
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./fru-generator -s "${serial}${ns}" > eeprom-${ns}.bin
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done
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Using SDB-FS in the EEPROM
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==========================
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If you want to use SDB as a filesystem in the EEPROM device within the
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mezzanine, you should create one such filesystem using gensdbfs, from
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the fpga-config-space package on OHWR.
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By using an SBD filesystem you can cluster several files in a single
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EEPROM, so both the host system and a soft-core running in the FPGA (if
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any) can access extra production-time information.
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We chose to use SDB as a storage filesystem because the format is very
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simple, and both the host system and the soft-core will likely already
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include support code for such format. The SDB library offered by the
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fpga-config-space is less than 1kB under LM32, so it proves quite up to
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the task.
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The SDB entry point (which acts as a directory listing) cannot live at
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offset zero in the flash device, because the FRU information must live
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there. To avoid wasting precious storage space while still allowing
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for more-than-minimal FRU structures, the fmc.ko will look for the SDB
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record at address 256, 512 and 1024.
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In order to generate the complete EEPROM image you'll need a
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configuration file for gensdbfs: you tell the program where to place
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the sdb entry point, and you must force the FRU data file to be placed
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at the beginning of the storage device. If needed, you can also place
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other files at a special offset (we sometimes do it for backward
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compatibility with drivers we wrote before implementing SDB for flash
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memory).
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The directory tools/sdbfs of this package includes a well-commented
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example that you may want to use as a starting point (the comments are
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in the file called -SDB-CONFIG-). Reading documentation for gensdbfs
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is a suggested first step anyways.
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This package (generic FMC bus support) only accesses two files in the
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EEPROM: the FRU information, at offset zero, with a suggested filename
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of IPMI-FRU and the short name for the mezzanine, in a file called
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name. The IPMI-FRU name is not mandatory, but a strongly suggested
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choice; the name filename is mandatory, because this is the preferred
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short name used by the FMC core. For example, a name of "fdelay" may
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supplement a Product Name like "FmcDelay1ns4cha" - exactly as
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demonstrated in `tools/sdbfs'.
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Note: SDB access to flash memory is not yet supported, so the short
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name currently in use is just the "Product Name" FRU string.
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The example in tools/sdbfs includes an extra file, that is needed by
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the fine-delay driver, and must live at a known address of 0x1800. By
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running gensdbfs on that directory you can output your binary EEPROM
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image (here below spusa$ is the shell prompt):
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spusa$ ../fru-generator -v CERN -n FmcDelay1ns4cha -s proto-0 \
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-p EDA-02267-V3 > IPMI-FRU
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spusa$ ls -l
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total 16
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-rw-rw-r-- 1 rubini staff 975 Nov 19 18:08 --SDB-CONFIG--
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-rw-rw-r-- 1 rubini staff 216 Nov 19 18:13 IPMI-FRU
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-rw-rw-r-- 1 rubini staff 11 Nov 19 18:04 fd-calib
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-rw-rw-r-- 1 rubini staff 7 Nov 19 18:04 name
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spusa$ sudo gensdbfs . /lib/firmware/fdelay-eeprom.bin
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spusa$ sdb-read -l -e 0x100 /lib/firmware/fdelay-eeprom.bin
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/home/rubini/wip/sdbfs/userspace/sdb-read: listing format is to be defined
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46696c6544617461:2e202020 00000100-000018ff .
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46696c6544617461:6e616d65 00000200-00000206 name
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46696c6544617461:66642d63 00001800-000018ff fd-calib
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46696c6544617461:49504d49 00000000-000000d7 IPMI-FRU
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spusa$ ../fru-dump /lib/firmware/fdelay-eeprom.bin
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/lib/firmware/fdelay-eeprom.bin: manufacturer: CERN
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/lib/firmware/fdelay-eeprom.bin: product-name: FmcDelay1ns4cha
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/lib/firmware/fdelay-eeprom.bin: serial-number: proto-0
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/lib/firmware/fdelay-eeprom.bin: part-number: EDA-02267-V3
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As expected, the output file is both a proper sdbfs object and an IPMI
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FRU information blob. The fd-calib file lives at offset 0x1800 and is
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over-allocated to 256 bytes, according to the configuration file for
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gensdbfs.
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