tools/testing/selftests/powerpc/eeh/eeh-functions.sh - linux - Git at Google

 #!/bin/sh
 # SPDX-License-Identifier: GPL-2.0-only

 pe_ok() {
 	local dev="$1"
 	local path="/sys/bus/pci/devices/$dev/eeh_pe_state"

 	# if a driver doesn't support the error handling callbacks then the
 	# device is recovered by removing and re-probing it. This causes the
 	# sysfs directory to disappear so read the PE state once and squash
 	# any potential error messages
 	local eeh_state="$(cat $path 2>/dev/null)"
 	if [ -z "$eeh_state" ]; then
 		return 1;
 	fi

 	local fw_state="$(echo $eeh_state | cut -d' ' -f1)"
 	local sw_state="$(echo $eeh_state | cut -d' ' -f2)"

 	# If EEH_PE_ISOLATED or EEH_PE_RECOVERING are set then the PE is in an
 	# error state or being recovered. Either way, not ok.
 	if [ "$((sw_state & 0x3))" -ne 0 ] ; then
 		return 1
 	fi

 	# A functioning PE should have the EEH_STATE_MMIO_ACTIVE and
 	# EEH_STATE_DMA_ACTIVE flags set. For some goddamn stupid reason
 	# the platform backends set these when the PE is in reset. The
 	# RECOVERING check above should stop any false positives though.
 	if [ "$((fw_state & 0x18))" -ne "$((0x18))" ] ; then
 		return 1
 	fi

 	return 0;
 }

 eeh_supported() {
 	test -e /proc/powerpc/eeh && \
 	grep -q 'EEH Subsystem is enabled' /proc/powerpc/eeh
 }

 eeh_one_dev() {
 	local dev="$1"

 	# Using this function from the command line is sometimes useful for
 	# testing so check that the argument is a well-formed sysfs device
 	# name.
 	if ! test -e /sys/bus/pci/devices/$dev/ ; then
 		echo "Error: '$dev' must be a sysfs device name (DDDD:BB:DD.F)"
 		return 1;
 	fi

 	# Break it
 	echo $dev >/sys/kernel/debug/powerpc/eeh_dev_break

 	# Force an EEH device check. If the kernel has already
 	# noticed the EEH (due to a driver poll or whatever), this
 	# is a no-op.
 	echo $dev >/sys/kernel/debug/powerpc/eeh_dev_check

 	# Default to a 60s timeout when waiting for a device to recover. This
 	# is an arbitrary default which can be overridden by setting the
 	# EEH_MAX_WAIT environmental variable when required.

 	# The current record holder for longest recovery time is:
 	#  "Adaptec Series 8 12G SAS/PCIe 3" at 39 seconds
 	max_wait=${EEH_MAX_WAIT:=60}

 	for i in `seq 0 ${max_wait}` ; do
 		if pe_ok $dev ; then
 			break;
 		fi
 		echo "$dev, waited $i/${max_wait}"
 		sleep 1
 	done

 	if ! pe_ok $dev ; then
 		echo "$dev, Failed to recover!"
 		return 1;
 	fi

 	echo "$dev, Recovered after $i seconds"
 	return 0;
 }
	#!/bin/sh
	# SPDX-License-Identifier: GPL-2.0-only

	pe_ok() {
	local dev="$1"
	local path="/sys/bus/pci/devices/$dev/eeh_pe_state"

	# if a driver doesn't support the error handling callbacks then the
	# device is recovered by removing and re-probing it. This causes the
	# sysfs directory to disappear so read the PE state once and squash
	# any potential error messages
	local eeh_state="$(cat $path 2>/dev/null)"
	if [ -z "$eeh_state" ]; then
	return 1;
	fi

	local fw_state="$(echo $eeh_state \| cut -d' ' -f1)"
	local sw_state="$(echo $eeh_state \| cut -d' ' -f2)"

	# If EEH_PE_ISOLATED or EEH_PE_RECOVERING are set then the PE is in an
	# error state or being recovered. Either way, not ok.
	if [ "$((sw_state & 0x3))" -ne 0 ] ; then
	return 1
	fi

	# A functioning PE should have the EEH_STATE_MMIO_ACTIVE and
	# EEH_STATE_DMA_ACTIVE flags set. For some goddamn stupid reason
	# the platform backends set these when the PE is in reset. The
	# RECOVERING check above should stop any false positives though.
	if [ "$((fw_state & 0x18))" -ne "$((0x18))" ] ; then
	return 1
	fi

	return 0;
	}

	eeh_supported() {
	test -e /proc/powerpc/eeh && \
	grep -q 'EEH Subsystem is enabled' /proc/powerpc/eeh
	}

	eeh_one_dev() {
	local dev="$1"

	# Using this function from the command line is sometimes useful for
	# testing so check that the argument is a well-formed sysfs device
	# name.
	if ! test -e /sys/bus/pci/devices/$dev/ ; then
	echo "Error: '$dev' must be a sysfs device name (DDDD:BB:DD.F)"
	return 1;
	fi

	# Break it
	echo $dev >/sys/kernel/debug/powerpc/eeh_dev_break

	# Force an EEH device check. If the kernel has already
	# noticed the EEH (due to a driver poll or whatever), this
	# is a no-op.
	echo $dev >/sys/kernel/debug/powerpc/eeh_dev_check

	# Default to a 60s timeout when waiting for a device to recover. This
	# is an arbitrary default which can be overridden by setting the
	# EEH_MAX_WAIT environmental variable when required.

	# The current record holder for longest recovery time is:
	# "Adaptec Series 8 12G SAS/PCIe 3" at 39 seconds
	max_wait=${EEH_MAX_WAIT:=60}

	for i in `seq 0 ${max_wait}` ; do
	if pe_ok $dev ; then
	break;
	fi
	echo "$dev, waited $i/${max_wait}"
	sleep 1
	done

	if ! pe_ok $dev ; then
	echo "$dev, Failed to recover!"
	return 1;
	fi

	echo "$dev, Recovered after $i seconds"
	return 0;
	}