#!/bin/bash # Copyright 2020 Google LLC # Copyright 2020 Quanta Computer Inc. # # 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. source /usr/libexec/gbs-gpio-common.sh WD1RCR_ADDR=0xf080103c CORSTC_ADDR=0xf080105c BOARD_VER="" # Set by check_board_ver pe_eeprom_addr=( 50 54 ) SERVICE_NAME="xyz.openbmc_project.Inventory.Manager" INTERFACE_NAME="xyz.openbmc_project.Inventory.Item" PE_PRESENT_OBJPATH=("/xyz/openbmc_project/inventory/system/chassis/entity/pe_slot0_prsnt" "/xyz/openbmc_project/inventory/system/chassis/entity/pe_slot1_prsnt") SATA0_PRESENT_OBJPATH="/xyz/openbmc_project/inventory/system/chassis/entity/sata0_prsnt" set_gpio_persistence() { reg_val=$(devmem ${WD1RCR_ADDR} 32) # Clear bit 16-23 to perserve all GPIO states across warm resets reg_val=$(printf "0x%08x" $((reg_val & ~0xff0000))) echo "Setting WD1RCR_ADDR to ${reg_val}" devmem "${WD1RCR_ADDR}" 32 "${reg_val}" reg_val=$(devmem ${CORSTC_ADDR} 32) # Clear bit 16-23 of CORSTC reg_val=$(printf "0x%08x" $((reg_val & ~0xff0000))) echo "Setting CORSTC_ADDR to ${reg_val}" devmem "${CORSTC_ADDR}" 32 "${reg_val}" } get_board_rev_id() { echo $(get_gpio_value 'BMC_BRD_REV_ID7')\ $(get_gpio_value 'BMC_BRD_REV_ID6')\ $(get_gpio_value 'BMC_BRD_REV_ID5')\ $(get_gpio_value 'BMC_BRD_REV_ID4')\ $(get_gpio_value 'BMC_BRD_REV_ID3')\ $(get_gpio_value 'BMC_BRD_REV_ID2')\ $(get_gpio_value 'BMC_BRD_REV_ID1')\ $(get_gpio_value 'BMC_BRD_REV_ID0')\ | sed 's/ //g' > ~/board_rev_id.txt } get_board_sku_id() { echo $(get_gpio_value 'BMC_BRD_SKU_ID3')\ $(get_gpio_value 'BMC_BRD_SKU_ID2')\ $(get_gpio_value 'BMC_BRD_SKU_ID1')\ $(get_gpio_value 'BMC_BRD_SKU_ID0')\ | sed 's/ //g' > ~/board_sku_id.txt } get_hsbp_board_rev_id() { echo $(get_gpio_value 'HSBP_BRD_REV_ID3')\ $(get_gpio_value 'HSBP_BRD_REV_ID2')\ $(get_gpio_value 'HSBP_BRD_REV_ID1')\ $(get_gpio_value 'HSBP_BRD_REV_ID0')\ | sed 's/ //g' > ~/hsbp_board_rev_id.txt } get_fan_board_rev_id() { echo $(get_gpio_value 'FAN_BRD_REV_ID1')\ $(get_gpio_value 'FAN_BRD_REV_ID0')\ | sed 's/ //g' > ~/fan_board_rev_id.txt } check_board_ver() { # Sets BOARD_VER to either "PREPVT" or "PVT" # # BOARD_REV_ID[7:6] = # 0x00 - EVT # 0x01 - DVT # 0x10 - PVT # 0x11 - MP rev7_val=$(get_gpio_value 'BMC_BRD_REV_ID7') if (( rev7_val == 0 )); then echo "EVT/DVT rev!" BOARD_VER="PREPVT" else echo "PVT/MP rev!" BOARD_VER="PVT" fi } check_board_sku() { sku1_val=$(get_gpio_value 'BMC_BRD_SKU_ID1') if (( sku1_val == 1 )); then echo "GBS SKU!" BOARD_SKU="GBS" else echo "Other SKU!" BOARD_SKU="TBD" fi } set_uart_en_low() { # GPIO76 UART_EN polarity inverted between DVT/PVT # Pin direction was set high in the kernel. set_gpio_direction 'FM_BMC_CPU_UART_EN' low } set_hdd_prsnt() { # On PVT need to forward SATA0_PRSNT_N to HDD_PRSNT_N # The signal is safe to set on DVT boards so just set universally. mapper wait ${SATA0_PRESENT_OBJPATH} sata_prsnt_n="$(busctl get-property $SERVICE_NAME ${SATA0_PRESENT_OBJPATH} \ $INTERFACE_NAME Present)" # sata_prsnt_n is active low => value "true" means low if [[ ${sata_prsnt_n} == "b true" ]]; then set_gpio_direction 'HDD_PRSNT_N' low else set_gpio_direction 'HDD_PRSNT_N' high fi } KERNEL_FIU_ID="c0000000.spi" KERNEL_SYSFS_FIU="/sys/bus/platform/drivers/NPCM-FIU" # the node of FIU is spi for kernel 5.10, but # for less than or equal kernel 5.4, the node # is fiu shopt -s nullglob for fiu in "$KERNEL_SYSFS_FIU"/*.fiu; do KERNEL_FIU_ID="c0000000.fiu" break done bind_host_mtd() { set_gpio_direction 'SPI_SW_SELECT' high if [[ -d ${KERNEL_SYSFS_FIU}/${KERNEL_FIU_ID} ]]; then echo "${KERNEL_FIU_ID}" > "${KERNEL_SYSFS_FIU}"/unbind fi echo "${KERNEL_FIU_ID}" > "${KERNEL_SYSFS_FIU}"/bind } unbind_host_mtd() { if [[ -d ${KERNEL_SYSFS_FIU}/${KERNEL_FIU_ID} ]]; then echo "${KERNEL_FIU_ID}" > "${KERNEL_SYSFS_FIU}"/unbind fi set_gpio_direction 'SPI_SW_SELECT' low } trap unbind_host_mtd EXIT SIGHUP SIGINT SIGTERM # Taken from /run/initramfs/update # Given label name, return mtd node. e.g. `findmtd bmc` returns 'mtd0' findmtd() { m=$(grep -xl "$1" /sys/class/mtd/*/name) m=${m%/name} m=${m##*/} echo $m } verify_host_bios() { echo "BIOS verification start!" # placeholder for verifying host BIOS. For now time BIOS read # with dd bind_host_mtd || { echo "Failed to bind FIU driver for host MTD"; return 1; } pnor_mtd=$(findmtd pnor) [[ -z "${pnor_mtd}" ]] && { echo "Failed to find host MTD partition!"; return 1; } # Test timing by computing SHA256SUM. sha256sum /dev/${pnor_mtd}ro echo "BIOS verification complete!" unbind_host_mtd } parse_pe_fru() { pe_fruid=3 for i in {1..2}; do mapper wait ${PE_PRESENT_OBJPATH[$(($i-1))]} pe_prsnt_n="$(busctl get-property $SERVICE_NAME ${PE_PRESENT_OBJPATH[$(($i-1))]} \ $INTERFACE_NAME Present)" if [[ ${pe_prsnt_n} == "b false" ]]; then pe_fruid=$(($pe_fruid+1)) continue fi # Output is the i2c bus number for the PCIE cards on PE0/PE1 # i2c-0 -> i2c mux (addr: 0x71) -> PE0/PE1 # PE0: channel 0 # PE1: channel 1 pe_fru_bus="$(ls -al /sys/bus/i2c/drivers/pca954x/0-0071/ | grep channel \ | awk -F "/" '{print $(NF)}' | awk -F "-" '{print $2}' | sed -n "${i}p")" # If the PE FRU EEPROM syspath does not exist, create it ("24c02" is the # EEPROM part number) and perform a phosphor-read-eeprom for ((j=0; j < ${#pe_eeprom_addr[@]}; j++)); do i2cget -f -y $pe_fru_bus "0x${pe_eeprom_addr[$j]}" 0x01 > /dev/null 2>&1 if [ $? -eq 0 ]; then if [ ! -f "/sys/bus/i2c/devices/$pe_fru_bus-00${pe_eeprom_addr[$j]}/eeprom" ]; then echo 24c02 "0x${pe_eeprom_addr[$j]}" > "/sys/bus/i2c/devices/i2c-$pe_fru_bus/new_device" fi pe_fru_bus="/sys/bus/i2c/devices/$pe_fru_bus-00${pe_eeprom_addr[$j]}/eeprom" phosphor-read-eeprom --eeprom $pe_fru_bus --fruid $pe_fruid break fi done pe_fruid=$(($pe_fruid+1)) done } check_power_status() { res0="$(busctl get-property -j xyz.openbmc_project.State.Chassis \ /xyz/openbmc_project/state/chassis0 xyz.openbmc_project.State.Chassis \ CurrentPowerState | jq -r '.["data"]')" echo $res0 } clk_buf_bus_switch="11-0076" clk_buf_driver="/sys/bus/i2c/drivers/pca954x/" bind_clk_buf_switch() { echo "Re-bind i2c bus 11 clk_buf_switch" echo "${clk_buf_bus_switch}" > "${clk_buf_driver}"/bind } main() { get_board_rev_id get_board_sku_id get_hsbp_board_rev_id get_fan_board_rev_id check_board_ver if [[ "${BOARD_VER}" == "PREPVT" ]]; then set_uart_en_low fi check_board_sku if [[ $(check_power_status) != \ 'xyz.openbmc_project.State.Chassis.PowerState.On' ]]; then verify_host_bios echo "Release host from reset!" >&2 set_gpio_direction 'RST_BMC_RSMRST_N' high set_gpio_direction 'RST_KBRST_BMC_CPLD_N' high # TODO: remove the hack once kernel driver is ready # Set the GPIO states to preserve across reboots set_gpio_persistence echo "Starting host power!" >&2 busctl set-property xyz.openbmc_project.State.Host \ /xyz/openbmc_project/state/host0 \ xyz.openbmc_project.State.Host \ RequestedHostTransition s \ xyz.openbmc_project.State.Host.Transition.On sleep 1 bind_clk_buf_switch else echo "Host is already running, doing nothing!" >&2 fi set_hdd_prsnt parse_pe_fru } # Exit without running main() if sourced return 0 2>/dev/null main "$@"