baybal · October 26, 2024 18:13 · baybal · May 26, 2024
diff --git a/aspm_dell9360.sh b/aspm_dell9360.sh
 #!/bin/bash
 # Copyright (c) 2010-2013 Luis R. Rodriguez <[email protected]>
 #
 # Permission to use, copy, modify, and/or distribute this software for any
 # purpose with or without fee is hereby granted, provided that the above
 # copyright notice and this permission notice appear in all copies.
 #
 # THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 # WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 # MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
 # ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 # WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 # ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
 # OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.


 # ASPM Tuning script
 #
 # This script lets you enable ASPM on your devices in case your BIOS
 # does not have it enabled for some reason. If your BIOS does not have
 # it enabled it is usually for a good reason so you should only use this if
 # you know what you are doing. Typically you would only need to enable
 # ASPM manually when doing development and using a card that typically
 # is not present on a laptop, or using the cardbus slot. The BIOS typically
 # disables ASPM for foreign cards and on the cardbus slot. Check also
 # if you may need to do other things than what is below on your vendor
 # documentation.
 #
 # To use this script You will need for now to at least query your device
 # PCI endpoint and root complex addresses using the convention output by
 # lspci: [<bus>]:[<slot>].[<func>]
 #
 # For example:
 #
 # 03:00.0 Network controller: Atheros Communications Inc. AR9300 Wireless LAN adaptor (rev 01
 # 00:1c.1 PCI bridge: Intel Corporation 82801H (ICH8 Family) PCI Express Port 2 (rev 03)
 #
 # The root complex for the endpoint can be found using lspci -t
 #
 # For more details refer to:
 #
 # http://wireless.kernel.org/en/users/Documentation/ASPM

 # You just need to modify these three values:

 ENDPOINT="00:1c.5"
 ROOT_COMPLEX="00:1c.4"

 # We'll only enable the last 2 bits by using a mask
 # of :3 to setpci, this will ensure we keep the existing
 # values on the byte.
 #
 # Hex  Binary  Meaning
 # -------------------------
 # 0    0b00    L0 only
 # 1    0b01    L0s only
 # 2    0b10    L1 only
 # 3    0b11    L1 and L0s
 ASPM_SETTING=3

 function aspm_setting_to_string()
 {
 	case $1 in
 	0)
 		echo -e "\t${BLUE}L0 only${NORMAL}, ${RED}ASPM disabled${NORMAL}"
 		;;
 	1)
 		;;
 	2)
 		echo -e "\t${GREEN}L1 only${NORMAL}"
 		;;
 	3)
 		echo -e "\t${GREEN}L1 and L0s${NORMAL}"
 		;;
 	*)
 		echo -e "\t${RED}Invalid${NORMAL}"
 		;;
 	esac
 }


 ###################################################################
 # Do not edit below here unless you are sending me a patch
 ###################################################################
 #
 # TODO: patches are welcomed to me until we submit to to
 #       PCI Utilities upstream.
 #
 # This can be improved by in this order:
 #
 #	* Accept arguments for endpoint and root complex address, and
 #	  desired ASPM settings
 #	* Look for your ASPM capabilities by quering your
 #	  LnkCap register first. Use these values to let you
 #	  select whether you want to enable only L1 or L1 & L0s
 #	* Searching for your root complex for you
 #	* Search for your PCI device by using the driver
 #	* Disable your driver and ask to reboot ?
 #	* Rewrite in C
 #	* Write ncurses interface [ wishlist ]
 #	* Write GTK/QT interface [ wishlist ]
 #	* Submit upstream as aspm.c to the PCI Utilities, which are
 #	  maintained by Martin Mares <[email protected]>

 # Pretty colors
 GREEN="\033[01;32m"
 YELLOW="\033[01;33m"
 NORMAL="\033[00m"
 BLUE="\033[34m"
 RED="\033[31m"
 PURPLE="\033[35m"
 CYAN="\033[36m"
 UNDERLINE="\033[02m"

 # we can surely read the spec to get a better value
 MAX_SEARCH=20
 SEARCH_COUNT=1
 ASPM_BYTE_ADDRESS="INVALID"

 ROOT_PRESENT=$(lspci | grep -c "$ROOT_COMPLEX")
 ENDPOINT_PRESENT=$(lspci | grep -c "$ENDPOINT")

 if [[ $(id -u) != 0 ]]; then
 	echo "This needs to be run as root"
 	exit 1
 fi

 if [[ $ROOT_PRESENT -eq 0 ]]; then
 	echo "Root complex $ROOT_COMPLEX is not present"
 	exit
 fi

 if [[ $ENDPOINT_PRESENT -eq 0 ]]; then
 	echo "Endpoint $ENDPOINT is not present"
 	exit
 fi

 # XXX: lspci -s some_device_not_existing does not return positive
 # if the device does not exist, fix this upstream
 function device_present()
 {

 	PRESENT=$(lspci | grep -c "$1")
 	COMPLAINT="${RED}not present${NORMAL}"

 	if [[ $PRESENT -eq 0 ]]; then
 		if [[ $2 != "present" ]]; then
 			COMPLAINT="${RED}disappeared${NORMAL}"
 		fi

 		echo -e "Device ${BLUE}${1}${NORMAL} $COMPLAINT" 
 		return 1
 	fi
 	return 0
 }

 function find_aspm_byte_address()
 {
 	device_present $ENDPOINT present
 	if [[ $? -ne 0 ]]; then
 		exit
 	fi

 	SEARCH=$(setpci -s $1 34.b)
 	# We know on the first search $SEARCH will not be
 	# 10 but this simplifies the implementation.
 	while [[ $SEARCH != 10 && $SEARCH_COUNT -le $MAX_SEARCH ]]; do
 		END_SEARCH=$(setpci -s $1 ${SEARCH}.b)

 		# Convert hex digits to uppercase for bc
 		SEARCH_UPPER=$(printf "%X" 0x${SEARCH})

 		if [[ $END_SEARCH = 10 ]]; then
 			ASPM_BYTE_ADDRESS=$(echo "obase=16; ibase=16; $SEARCH_UPPER + 10" | bc)
 			break
 		fi

 		SEARCH=$(echo "obase=16; ibase=16; $SEARCH_UPPER + 1" | bc)
 		SEARCH=$(setpci -s $1 ${SEARCH}.b)

 		let SEARCH_COUNT=$SEARCH_COUNT+1
 	done

 	if [[ $SEARCH_COUNT -ge $MAX_SEARCH ]]; then
 		echo -e "Long loop while looking for ASPM word for $1"
 		return 1
 	fi
 	return 0
 }

 function enable_aspm_byte()
 {
 	device_present $1 present
 	if [[ $? -ne 0 ]]; then
 		exit
 	fi

 	find_aspm_byte_address $1
 	if [[ $? -ne 0 ]]; then
 		return 1
 	fi

 	ASPM_BYTE_HEX=$(setpci -s $1 ${ASPM_BYTE_ADDRESS}.b)
 	ASPM_BYTE_HEX=$(printf "%X" 0x${ASPM_BYTE_HEX})
 	# setpci doesn't support a mask on the query yet, only on the set,
 	# so to verify a setting on a mask we have no other optoin but
 	# to do do this stuff ourselves.
 	DESIRED_ASPM_BYTE_HEX=$(printf "%X" $(( (0x${ASPM_BYTE_HEX} & ~0x7) |0x${ASPM_SETTING})))

 	if [[ $ASPM_BYTE_ADDRESS = "INVALID" ]]; then
 		echo -e "No ASPM byte could be found for $(lspci -s $1)"
 		return
 	fi

 	echo -e "$(lspci -s $1)"
 	echo -en "\t${YELLOW}0x${ASPM_BYTE_ADDRESS}${NORMAL} : ${CYAN}0x${ASPM_BYTE_HEX}${GREEN} --> ${BLUE}0x${DESIRED_ASPM_BYTE_HEX}${NORMAL} ... "

 	device_present $1 present
 	if [[ $? -ne 0 ]]; then
 		exit
 	fi

 	# Avoid setting if already set
 	if [[ $ASPM_BYTE_HEX = $DESIRED_ASPM_BYTE_HEX ]]; then
 		echo -e "[${GREEN}SUCESS${NORMAL}] (${GREEN}already set${NORMAL})"
 		aspm_setting_to_string $ASPM_SETTING
 		return 0
 	fi

 	# This only writes the last 3 bits
 	setpci -s $1 ${ASPM_BYTE_ADDRESS}.b=${ASPM_SETTING}:3

 	sleep 3

 	ACTUAL_ASPM_BYTE_HEX=$(setpci -s $1 ${ASPM_BYTE_ADDRESS}.b)
 	ACTUAL_ASPM_BYTE_HEX=$(printf "%X" 0x${ACTUAL_ASPM_BYTE_HEX})

 	# Do not retry this if it failed, if it failed to set.
 	# Likey if it failed its a good reason and you should look
 	# into that.
 	if [[ $ACTUAL_ASPM_BYTE_HEX != $DESIRED_ASPM_BYTE_HEX ]]; then
 		echo -e "\t[${RED}FAIL${NORMAL}] (0x${ACTUAL_ASPM_BYTE_HEX})"
 		return 1
 	fi

 	echo -e "\t[${GREEN}SUCCESS]${NORMAL}]"
 	aspm_setting_to_string $ASPM_SETTING

 	return 0
 }

 device_present $ENDPOINT not_sure
 if [[ $? -ne 0 ]]; then
 	exit
 fi

 echo -e "${CYAN}Root complex${NORMAL}:"
 ROOT_COMPLEX="00:1c.0"
 enable_aspm_byte $ROOT_COMPLEX
 ROOT_COMPLEX="00:1c.4"
 enable_aspm_byte $ROOT_COMPLEX
 ROOT_COMPLEX="00:1c.5"
 enable_aspm_byte $ROOT_COMPLEX
 ROOT_COMPLEX="00:1d.0"
 enable_aspm_byte $ROOT_COMPLEX
 echo

 echo -e "${CYAN}Endpoint${NORMAL}:"
 ENDPOINT="3a:00.0"
 enable_aspm_byte $ENDPOINT
 ENDPOINT="3b:00.0"
 enable_aspm_byte $ENDPOINT
 ENDPOINT="3c:00.0"
 enable_aspm_byte $ENDPOINT
 echo
	#!/bin/bash
	# Copyright (c) 2010-2013 Luis R. Rodriguez <[email protected]>
	#
	# Permission to use, copy, modify, and/or distribute this software for any
	# purpose with or without fee is hereby granted, provided that the above
	# copyright notice and this permission notice appear in all copies.
	#
	# THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
	# WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
	# MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
	# ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
	# WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
	# ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
	# OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.


	# ASPM Tuning script
	#
	# This script lets you enable ASPM on your devices in case your BIOS
	# does not have it enabled for some reason. If your BIOS does not have
	# it enabled it is usually for a good reason so you should only use this if
	# you know what you are doing. Typically you would only need to enable
	# ASPM manually when doing development and using a card that typically
	# is not present on a laptop, or using the cardbus slot. The BIOS typically
	# disables ASPM for foreign cards and on the cardbus slot. Check also
	# if you may need to do other things than what is below on your vendor
	# documentation.
	#
	# To use this script You will need for now to at least query your device
	# PCI endpoint and root complex addresses using the convention output by
	# lspci: [<bus>]:[<slot>].[<func>]
	#
	# For example:
	#
	# 03:00.0 Network controller: Atheros Communications Inc. AR9300 Wireless LAN adaptor (rev 01
	# 00:1c.1 PCI bridge: Intel Corporation 82801H (ICH8 Family) PCI Express Port 2 (rev 03)
	#
	# The root complex for the endpoint can be found using lspci -t
	#
	# For more details refer to:
	#
	# http://wireless.kernel.org/en/users/Documentation/ASPM

	# You just need to modify these three values:

	ENDPOINT="00:1c.5"
	ROOT_COMPLEX="00:1c.4"

	# We'll only enable the last 2 bits by using a mask
	# of :3 to setpci, this will ensure we keep the existing
	# values on the byte.
	#
	# Hex Binary Meaning
	# -------------------------
	# 0 0b00 L0 only
	# 1 0b01 L0s only
	# 2 0b10 L1 only
	# 3 0b11 L1 and L0s
	ASPM_SETTING=3

	function aspm_setting_to_string()
	{
	case $1 in
	0)
	echo -e "\t${BLUE}L0 only${NORMAL}, ${RED}ASPM disabled${NORMAL}"
	;;
	1)
	;;
	2)
	echo -e "\t${GREEN}L1 only${NORMAL}"
	;;
	3)
	echo -e "\t${GREEN}L1 and L0s${NORMAL}"
	;;
	*)
	echo -e "\t${RED}Invalid${NORMAL}"
	;;
	esac
	}


	###################################################################
	# Do not edit below here unless you are sending me a patch
	###################################################################
	#
	# TODO: patches are welcomed to me until we submit to to
	# PCI Utilities upstream.
	#
	# This can be improved by in this order:
	#
	# * Accept arguments for endpoint and root complex address, and
	# desired ASPM settings
	# * Look for your ASPM capabilities by quering your
	# LnkCap register first. Use these values to let you
	# select whether you want to enable only L1 or L1 & L0s
	# * Searching for your root complex for you
	# * Search for your PCI device by using the driver
	# * Disable your driver and ask to reboot ?
	# * Rewrite in C
	# * Write ncurses interface [ wishlist ]
	# * Write GTK/QT interface [ wishlist ]
	# * Submit upstream as aspm.c to the PCI Utilities, which are
	# maintained by Martin Mares <[email protected]>

	# Pretty colors
	GREEN="\033[01;32m"
	YELLOW="\033[01;33m"
	NORMAL="\033[00m"
	BLUE="\033[34m"
	RED="\033[31m"
	PURPLE="\033[35m"
	CYAN="\033[36m"
	UNDERLINE="\033[02m"

	# we can surely read the spec to get a better value
	MAX_SEARCH=20
	SEARCH_COUNT=1
	ASPM_BYTE_ADDRESS="INVALID"

	ROOT_PRESENT=$(lspci \| grep -c "$ROOT_COMPLEX")
	ENDPOINT_PRESENT=$(lspci \| grep -c "$ENDPOINT")

	if [[ $(id -u) != 0 ]]; then
	echo "This needs to be run as root"
	exit 1
	fi

	if [[ $ROOT_PRESENT -eq 0 ]]; then
	echo "Root complex $ROOT_COMPLEX is not present"
	exit
	fi

	if [[ $ENDPOINT_PRESENT -eq 0 ]]; then
	echo "Endpoint $ENDPOINT is not present"
	exit
	fi

	# XXX: lspci -s some_device_not_existing does not return positive
	# if the device does not exist, fix this upstream
	function device_present()
	{

	PRESENT=$(lspci \| grep -c "$1")
	COMPLAINT="${RED}not present${NORMAL}"

	if [[ $PRESENT -eq 0 ]]; then
	if [[ $2 != "present" ]]; then
	COMPLAINT="${RED}disappeared${NORMAL}"
	fi

	echo -e "Device ${BLUE}${1}${NORMAL} $COMPLAINT"
	return 1
	fi
	return 0
	}

	function find_aspm_byte_address()
	{
	device_present $ENDPOINT present
	if [[ $? -ne 0 ]]; then
	exit
	fi

	SEARCH=$(setpci -s $1 34.b)
	# We know on the first search $SEARCH will not be
	# 10 but this simplifies the implementation.
	while [[ $SEARCH != 10 && $SEARCH_COUNT -le $MAX_SEARCH ]]; do
	END_SEARCH=$(setpci -s $1 ${SEARCH}.b)

	# Convert hex digits to uppercase for bc
	SEARCH_UPPER=$(printf "%X" 0x${SEARCH})

	if [[ $END_SEARCH = 10 ]]; then
	ASPM_BYTE_ADDRESS=$(echo "obase=16; ibase=16; $SEARCH_UPPER + 10" \| bc)
	break
	fi

	SEARCH=$(echo "obase=16; ibase=16; $SEARCH_UPPER + 1" \| bc)
	SEARCH=$(setpci -s $1 ${SEARCH}.b)

	let SEARCH_COUNT=$SEARCH_COUNT+1
	done

	if [[ $SEARCH_COUNT -ge $MAX_SEARCH ]]; then
	echo -e "Long loop while looking for ASPM word for $1"
	return 1
	fi
	return 0
	}

	function enable_aspm_byte()
	{
	device_present $1 present
	if [[ $? -ne 0 ]]; then
	exit
	fi

	find_aspm_byte_address $1
	if [[ $? -ne 0 ]]; then
	return 1
	fi

	ASPM_BYTE_HEX=$(setpci -s $1 ${ASPM_BYTE_ADDRESS}.b)
	ASPM_BYTE_HEX=$(printf "%X" 0x${ASPM_BYTE_HEX})
	# setpci doesn't support a mask on the query yet, only on the set,
	# so to verify a setting on a mask we have no other optoin but
	# to do do this stuff ourselves.
	DESIRED_ASPM_BYTE_HEX=$(printf "%X" $(( (0x${ASPM_BYTE_HEX} & ~0x7) \|0x${ASPM_SETTING})))

	if [[ $ASPM_BYTE_ADDRESS = "INVALID" ]]; then
	echo -e "No ASPM byte could be found for $(lspci -s $1)"
	return
	fi

	echo -e "$(lspci -s $1)"
	echo -en "\t${YELLOW}0x${ASPM_BYTE_ADDRESS}${NORMAL} : ${CYAN}0x${ASPM_BYTE_HEX}${GREEN} --> ${BLUE}0x${DESIRED_ASPM_BYTE_HEX}${NORMAL} ... "

	device_present $1 present
	if [[ $? -ne 0 ]]; then
	exit
	fi

	# Avoid setting if already set
	if [[ $ASPM_BYTE_HEX = $DESIRED_ASPM_BYTE_HEX ]]; then
	echo -e "[${GREEN}SUCESS${NORMAL}] (${GREEN}already set${NORMAL})"
	aspm_setting_to_string $ASPM_SETTING
	return 0
	fi

	# This only writes the last 3 bits
	setpci -s $1 ${ASPM_BYTE_ADDRESS}.b=${ASPM_SETTING}:3

	sleep 3

	ACTUAL_ASPM_BYTE_HEX=$(setpci -s $1 ${ASPM_BYTE_ADDRESS}.b)
	ACTUAL_ASPM_BYTE_HEX=$(printf "%X" 0x${ACTUAL_ASPM_BYTE_HEX})

	# Do not retry this if it failed, if it failed to set.
	# Likey if it failed its a good reason and you should look
	# into that.
	if [[ $ACTUAL_ASPM_BYTE_HEX != $DESIRED_ASPM_BYTE_HEX ]]; then
	echo -e "\t[${RED}FAIL${NORMAL}] (0x${ACTUAL_ASPM_BYTE_HEX})"
	return 1
	fi

	echo -e "\t[${GREEN}SUCCESS]${NORMAL}]"
	aspm_setting_to_string $ASPM_SETTING

	return 0
	}

	device_present $ENDPOINT not_sure
	if [[ $? -ne 0 ]]; then
	exit
	fi

	echo -e "${CYAN}Root complex${NORMAL}:"
	ROOT_COMPLEX="00:1c.0"
	enable_aspm_byte $ROOT_COMPLEX
	ROOT_COMPLEX="00:1c.4"
	enable_aspm_byte $ROOT_COMPLEX
	ROOT_COMPLEX="00:1c.5"
	enable_aspm_byte $ROOT_COMPLEX
	ROOT_COMPLEX="00:1d.0"
	enable_aspm_byte $ROOT_COMPLEX
	echo

	echo -e "${CYAN}Endpoint${NORMAL}:"
	ENDPOINT="3a:00.0"
	enable_aspm_byte $ENDPOINT
	ENDPOINT="3b:00.0"
	enable_aspm_byte $ENDPOINT
	ENDPOINT="3c:00.0"
	enable_aspm_byte $ENDPOINT
	echo