meta-google/recipes-google/ipmi/ipmi-fru-sh/lib.sh - openbmc/openbmc - Gitiles

 #!/bin/bash
 # Copyright 2021 Google LLC
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 [ -n "${ipmi_fru_init-}" ] && return

 IPMI_FRU_COMMON_HEADER_INTERNAL_OFFSET_IDX=1
 IPMI_FRU_COMMON_HEADER_CHASSIS_OFFSET_IDX=2
 IPMI_FRU_COMMON_HEADER_BOARD_OFFSET_IDX=3
 IPMI_FRU_COMMON_HEADER_PRODUCT_OFFSET_IDX=4
 IPMI_FRU_COMMON_HEADER_MULTI_RECORD_OFFSET_IDX=5
 IPMI_FRU_AREA_HEADER_SIZE_IDX=1
 IPMI_FRU_CHECKSUM_IDX=-1

 offset_1bw() {
   local addr="$1"
   local off="$2"
   local extra="${3-0}"
   echo w$((1+extra))@$addr $(( off & 0xff ))
 }

 offset_2bw() {
   local addr="$1"
   local off="$2"
   local extra="${3-0}"
   echo w$((2+extra))@$addr $(( (off >> 8) & 0xff )) $(( off & 0xff ))
 }

 of_name_to_eeproms() {
   local names
   if ! names="$(grep -xl "$1" /sys/bus/i2c/devices/*/of_node/name)"; then
     echo "Failed to find eeproms with of_name '$1'" >&2
     return 1
   fi
   echo "$names" | sed 's,/of_node/name$,/eeprom,'
 }

 of_name_to_eeprom() {
   local eeproms
   eeproms="$(of_name_to_eeproms "$1")" || return
   if (( "$(echo "$eeproms" | wc -l)" != 1 )); then
     echo "Got more than one eeprom for '$1':" $eeproms >&2
     return 1
   fi
   echo "$eeproms"
 }

 # Each element is a `filename`
 declare -A IPMI_FRU_EEPROM_FILE=()
 # Each element is a `bus` + `addr` + `offset_bytes_func`
 declare -A IPMI_FRU_EEPROM_BUSADDR=()

 ipmi_fru_device_alloc() {
   local fdn="$1"
   local idx="$2"

   local json
   json="$(busctl -j call xyz.openbmc_project.FruDevice \
     /xyz/openbmc_project/FruDevice/"$fdn" org.freedesktop.DBus.Properties \
     GetAll s xyz.openbmc_project.FruDevice)" || return 80

   local jqq='.data[0] | (.BUS.data | tostring) + " " + (.ADDRESS.data | tostring)'
   local busaddr
   busaddr=($(echo "$json" | jq -r "$jqq")) || return

   # FRU 0 is hardcoded and FruDevice does not report the correct bus for it
   # Hardcode a workaround for this specifically known bus
   if (( busaddr[0] == 0 && busaddr[1] == 0 )); then
     IPMI_FRU_EEPROM_FILE["$idx"]=/etc/fru/baseboard.fru.bin
   else
     local offset_bw=offset_2bw
     local last=0
     local rsp=0x100
     local start=$SECONDS
     # Query the FRU multiple times to ensure the return value is stabilized
     while (( last != rsp )); do
       # It shouldn't take > 0.1s to stabilize, limit instability
       if (( SECONDS - start >= 10 )); then
         echo "Timed out determining offset for ${busaddr[0]}@${busaddr[1]}" >&2
         return 1
       fi
       last=$rsp
       rsp=$(i2ctransfer -f -y ${busaddr[0]} $(offset_1bw ${busaddr[1]} 0) r1) || return
     done
     # FRUs never start with 0xff bytes, so we can figure out addressing mode
     if (( rsp != 0xff )); then
       offset_bw=offset_1bw
     fi
     IPMI_FRU_EEPROM_BUSADDR["$idx"]="${busaddr[*]} $offset_bw"
   fi
 }

 ipmi_fru_alloc() {
   local name="$1"
   local -n ret="$2"

   # Pick the first free index to return as the allocated entry
   for (( ret = 0; ret < "${#IPMI_FRU_EEPROM_FILE[@]}"; ++ret )); do
     [ -n "${IPMI_FRU_EEPROM_FILE[@]+1}" ] || \
       [ -n "${IPMI_FRU_EEPROM_BUSADDR[@]+1}" ]|| break
   done

   if [[ "$name" =~ ^of-name:(.*)$ || "$name" =~ ^([^:]*)$ ]]; then
     local ofn="${BASH_REMATCH[1]}"
     local file
     file="$(of_name_to_eeprom "$ofn")" || return
     IPMI_FRU_EEPROM_FILE["$ret"]="$file"
   elif [[ "$name" =~ ^frudev-name:(.*)$ ]]; then
     local fdn="${BASH_REMATCH[1]}"
     local start=$SECONDS
     local file
     while (( SECONDS - start < 300 )); do
       local rc=0
       ipmi_fru_device_alloc "$fdn" "$ret" || rc=$?
       (( rc == 0 )) && break
       # Immediately return any errors, 80 is special to signify retry
       (( rc != 80 )) && return $rc
       sleep 1
     done
   else
     echo "Invalid IPMI FRU eeprom specification: $name" >&2
     return 1
   fi
 }

 ipmi_fru_free() {
   unset 'IPMI_FRU_EEPROM_FILE[$1]'
   unset 'IPMI_FRU_EEPROM_BUSADDR[$1]'
 }

 checksum() {
   local -n checksum_arr="$1"
   local checksum=0
   for byte in "${checksum_arr[@]}"; do
     checksum=$((checksum + byte))
   done
   echo $((checksum & 0xff))
 }

 fix_checksum() {
   local -n fix_checksum_arr="$1"
   old_cksum=${fix_checksum_arr[$IPMI_FRU_CHECKSUM_IDX]}
   ((fix_checksum_arr[$IPMI_FRU_CHECKSUM_IDX]-=$(checksum fix_checksum_arr)))
   ((fix_checksum_arr[$IPMI_FRU_CHECKSUM_IDX]&=0xff))
   printf 'Corrected %s checksum from 0x%02X -> 0x%02X\n' \
     "$1" "${old_cksum}" "${fix_checksum_arr[$IPMI_FRU_CHECKSUM_IDX]}" >&2
 }

 read_bytes() {
   local busaddr=(${IPMI_FRU_EEPROM_BUSADDR["$1"]-})
   local file="${IPMI_FRU_EEPROM_FILE["$1"]-$1}"
   local offset="$2"
   local size="$3"

   if (( "${#busaddr[@]}" > 0)); then
     echo "Reading ${busaddr[*]} at $offset for $size" >&2
     i2ctransfer -f -y ${busaddr[0]} $(${busaddr[2]} ${busaddr[1]} $offset) r$size
   else
     echo "Reading $file at $offset for $size" >&2
     dd if="$file" bs=1 count="$size" skip="$offset" 2>/dev/null | \
       hexdump -v -e '1/1 "%d "'
   fi
 }

 write_bytes() {
   local busaddr=(${IPMI_FRU_EEPROM_BUSADDR["$1"]-})
   local file="${IPMI_FRU_EEPROM_FILE["$1"]-$1}"
   local offset="$2"
   local -n bytes_arr="$3"

   if (( "${#busaddr[@]}" > 0)); then
     echo "Writing ${busaddr[*]} at $offset for ${#bytes_arr[@]}" >&2
     i2ctransfer -f -y ${busaddr[0]} $(${busaddr[2]} ${busaddr[1]} $offset ${#bytes_arr[@]}) ${bytes_arr[@]}
   else
     local hexstr
     hexstr="$(printf '\\x%x' "${bytes_arr[@]}")" || return
     echo "Writing $file at $offset for ${#bytes_arr[@]}" >&2
     printf "$hexstr" | dd of="$file" bs=1 seek=$offset 2>/dev/null
   fi
 }

 read_header() {
   local eeprom="$1"
   local -n header_arr="$2"

   header_arr=($(read_bytes "$eeprom" 0 8)) || return
   echo "Checking $eeprom FRU Header version" >&2
   # FRU header is always version 1
   (( header_arr[0] == 1 )) || return
   echo "Checking $eeprom FRU Header checksum" >&2
   local sum
   sum="$(checksum header_arr)" || return
   # Checksums should be valid
   (( sum == 0 )) || return 10
 }

 read_area() {
   local eeprom="$1"
   local offset="$2"
   local -n area_arr="$3"
   local area_size="${4-0}"

   offset=$((offset*8))
   area_arr=($(read_bytes "$eeprom" "$offset" 8)) || return
   echo "Checking $eeprom $offset FRU Area version" >&2
   # FRU Area is always version 1
   (( area_arr[0] == 1 )) || return
   if (( area_size == 0 )); then
     area_size=${area_arr[$IPMI_FRU_AREA_HEADER_SIZE_IDX]}
   fi
   area_arr=($(read_bytes "$eeprom" "$offset" $((area_size*8)))) || return
   echo "Checking $eeprom $offset FRU Area checksum" >&2
   local sum
   sum="$(checksum area_arr)" || return
   # Checksums should be valid
   (( sum == 0 )) || return 10
 }

 ipmi_fru_init=1
 return 0 2>/dev/null
 echo "ipmi-fru is a library, not executed directly" >&2
 exit 1
	#!/bin/bash
	# Copyright 2021 Google LLC
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	[ -n "${ipmi_fru_init-}" ] && return

	IPMI_FRU_COMMON_HEADER_INTERNAL_OFFSET_IDX=1
	IPMI_FRU_COMMON_HEADER_CHASSIS_OFFSET_IDX=2
	IPMI_FRU_COMMON_HEADER_BOARD_OFFSET_IDX=3
	IPMI_FRU_COMMON_HEADER_PRODUCT_OFFSET_IDX=4
	IPMI_FRU_COMMON_HEADER_MULTI_RECORD_OFFSET_IDX=5
	IPMI_FRU_AREA_HEADER_SIZE_IDX=1
	IPMI_FRU_CHECKSUM_IDX=-1

	offset_1bw() {
	local addr="$1"
	local off="$2"
	local extra="${3-0}"
	echo w$((1+extra))@$addr $(( off & 0xff ))
	}

	offset_2bw() {
	local addr="$1"
	local off="$2"
	local extra="${3-0}"
	echo w$((2+extra))@$addr $(( (off >> 8) & 0xff )) $(( off & 0xff ))
	}

	of_name_to_eeproms() {
	local names
	if ! names="$(grep -xl "$1" /sys/bus/i2c/devices/*/of_node/name)"; then
	echo "Failed to find eeproms with of_name '$1'" >&2
	return 1
	fi
	echo "$names" \| sed 's,/of_node/name$,/eeprom,'
	}

	of_name_to_eeprom() {
	local eeproms
	eeproms="$(of_name_to_eeproms "$1")" \|\| return
	if (( "$(echo "$eeproms" \| wc -l)" != 1 )); then
	echo "Got more than one eeprom for '$1':" $eeproms >&2
	return 1
	fi
	echo "$eeproms"
	}

	# Each element is a `filename`
	declare -A IPMI_FRU_EEPROM_FILE=()
	# Each element is a `bus` + `addr` + `offset_bytes_func`
	declare -A IPMI_FRU_EEPROM_BUSADDR=()

	ipmi_fru_device_alloc() {
	local fdn="$1"
	local idx="$2"

	local json
	json="$(busctl -j call xyz.openbmc_project.FruDevice \
	/xyz/openbmc_project/FruDevice/"$fdn" org.freedesktop.DBus.Properties \
	GetAll s xyz.openbmc_project.FruDevice)" \|\| return 80

	local jqq='.data[0] \| (.BUS.data \| tostring) + " " + (.ADDRESS.data \| tostring)'
	local busaddr
	busaddr=($(echo "$json" \| jq -r "$jqq")) \|\| return

	# FRU 0 is hardcoded and FruDevice does not report the correct bus for it
	# Hardcode a workaround for this specifically known bus
	if (( busaddr[0] == 0 && busaddr[1] == 0 )); then
	IPMI_FRU_EEPROM_FILE["$idx"]=/etc/fru/baseboard.fru.bin
	else
	local offset_bw=offset_2bw
	local last=0
	local rsp=0x100
	local start=$SECONDS
	# Query the FRU multiple times to ensure the return value is stabilized
	while (( last != rsp )); do
	# It shouldn't take > 0.1s to stabilize, limit instability
	if (( SECONDS - start >= 10 )); then
	echo "Timed out determining offset for ${busaddr[0]}@${busaddr[1]}" >&2
	return 1
	fi
	last=$rsp
	rsp=$(i2ctransfer -f -y ${busaddr[0]} $(offset_1bw ${busaddr[1]} 0) r1) \|\| return
	done
	# FRUs never start with 0xff bytes, so we can figure out addressing mode
	if (( rsp != 0xff )); then
	offset_bw=offset_1bw
	fi
	IPMI_FRU_EEPROM_BUSADDR["$idx"]="${busaddr[*]} $offset_bw"
	fi
	}

	ipmi_fru_alloc() {
	local name="$1"
	local -n ret="$2"

	# Pick the first free index to return as the allocated entry
	for (( ret = 0; ret < "${#IPMI_FRU_EEPROM_FILE[@]}"; ++ret )); do
	[ -n "${IPMI_FRU_EEPROM_FILE[@]+1}" ] \|\| \
	[ -n "${IPMI_FRU_EEPROM_BUSADDR[@]+1}" ]\|\| break
	done

	if [[ "$name" =~ ^of-name:(.)$ \|\| "$name" =~ ^([^:])$ ]]; then
	local ofn="${BASH_REMATCH[1]}"
	local file
	file="$(of_name_to_eeprom "$ofn")" \|\| return
	IPMI_FRU_EEPROM_FILE["$ret"]="$file"
	elif [[ "$name" =~ ^frudev-name:(.*)$ ]]; then
	local fdn="${BASH_REMATCH[1]}"
	local start=$SECONDS
	local file
	while (( SECONDS - start < 300 )); do
	local rc=0
	ipmi_fru_device_alloc "$fdn" "$ret" \|\| rc=$?
	(( rc == 0 )) && break
	# Immediately return any errors, 80 is special to signify retry
	(( rc != 80 )) && return $rc
	sleep 1
	done
	else
	echo "Invalid IPMI FRU eeprom specification: $name" >&2
	return 1
	fi
	}

	ipmi_fru_free() {
	unset 'IPMI_FRU_EEPROM_FILE[$1]'
	unset 'IPMI_FRU_EEPROM_BUSADDR[$1]'
	}

	checksum() {
	local -n checksum_arr="$1"
	local checksum=0
	for byte in "${checksum_arr[@]}"; do
	checksum=$((checksum + byte))
	done
	echo $((checksum & 0xff))
	}

	fix_checksum() {
	local -n fix_checksum_arr="$1"
	old_cksum=${fix_checksum_arr[$IPMI_FRU_CHECKSUM_IDX]}
	((fix_checksum_arr[$IPMI_FRU_CHECKSUM_IDX]-=$(checksum fix_checksum_arr)))
	((fix_checksum_arr[$IPMI_FRU_CHECKSUM_IDX]&=0xff))
	printf 'Corrected %s checksum from 0x%02X -> 0x%02X\n' \
	"$1" "${old_cksum}" "${fix_checksum_arr[$IPMI_FRU_CHECKSUM_IDX]}" >&2
	}

	read_bytes() {
	local busaddr=(${IPMI_FRU_EEPROM_BUSADDR["$1"]-})
	local file="${IPMI_FRU_EEPROM_FILE["$1"]-$1}"
	local offset="$2"
	local size="$3"

	if (( "${#busaddr[@]}" > 0)); then
	echo "Reading ${busaddr[*]} at $offset for $size" >&2
	i2ctransfer -f -y ${busaddr[0]} $(${busaddr[2]} ${busaddr[1]} $offset) r$size
	else
	echo "Reading $file at $offset for $size" >&2
	dd if="$file" bs=1 count="$size" skip="$offset" 2>/dev/null \| \
	hexdump -v -e '1/1 "%d "'
	fi
	}

	write_bytes() {
	local busaddr=(${IPMI_FRU_EEPROM_BUSADDR["$1"]-})
	local file="${IPMI_FRU_EEPROM_FILE["$1"]-$1}"
	local offset="$2"
	local -n bytes_arr="$3"

	if (( "${#busaddr[@]}" > 0)); then
	echo "Writing ${busaddr[*]} at $offset for ${#bytes_arr[@]}" >&2
	i2ctransfer -f -y ${busaddr[0]} $(${busaddr[2]} ${busaddr[1]} $offset ${#bytes_arr[@]}) ${bytes_arr[@]}
	else
	local hexstr
	hexstr="$(printf '\\x%x' "${bytes_arr[@]}")" \|\| return
	echo "Writing $file at $offset for ${#bytes_arr[@]}" >&2
	printf "$hexstr" \| dd of="$file" bs=1 seek=$offset 2>/dev/null
	fi
	}

	read_header() {
	local eeprom="$1"
	local -n header_arr="$2"

	header_arr=($(read_bytes "$eeprom" 0 8)) \|\| return
	echo "Checking $eeprom FRU Header version" >&2
	# FRU header is always version 1
	(( header_arr[0] == 1 )) \|\| return
	echo "Checking $eeprom FRU Header checksum" >&2
	local sum
	sum="$(checksum header_arr)" \|\| return
	# Checksums should be valid
	(( sum == 0 )) \|\| return 10
	}

	read_area() {
	local eeprom="$1"
	local offset="$2"
	local -n area_arr="$3"
	local area_size="${4-0}"

	offset=$((offset*8))
	area_arr=($(read_bytes "$eeprom" "$offset" 8)) \|\| return
	echo "Checking $eeprom $offset FRU Area version" >&2
	# FRU Area is always version 1
	(( area_arr[0] == 1 )) \|\| return
	if (( area_size == 0 )); then
	area_size=${area_arr[$IPMI_FRU_AREA_HEADER_SIZE_IDX]}
	fi
	area_arr=($(read_bytes "$eeprom" "$offset" $((area_size*8)))) \|\| return
	echo "Checking $eeprom $offset FRU Area checksum" >&2
	local sum
	sum="$(checksum area_arr)" \|\| return
	# Checksums should be valid
	(( sum == 0 )) \|\| return 10
	}

	ipmi_fru_init=1
	return 0 2>/dev/null
	echo "ipmi-fru is a library, not executed directly" >&2
	exit 1