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This is a sloppy logic analyzer using GPIOs. It comes with a script to isolate a CPU for polling. While this is definitely not a production level analyzer, it can be a helpful first view when remote debugging. Read the documentation for details. Signed-off-by: Wolfram Sang <wsa+renesas@sang-engineering.com> Reviewed-by: Linus Walleij <linus.walleij@linaro.org> Link: https://lore.kernel.org/r/20240620094159.6785-2-wsa+renesas@sang-engineering.com [Bartosz: moved the Kconfig entry into a different category] Signed-off-by: Bartosz Golaszewski <bartosz.golaszewski@linaro.org>
247 lines
8.7 KiB
Bash
Executable File
247 lines
8.7 KiB
Bash
Executable File
#!/bin/sh -eu
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# SPDX-License-Identifier: GPL-2.0
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#
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# Helper script for the Linux Kernel GPIO sloppy logic analyzer
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#
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# Copyright (C) Wolfram Sang <wsa@sang-engineering.com>
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# Copyright (C) Renesas Electronics Corporation
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samplefreq=1000000
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numsamples=250000
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cpusetdefaultdir='/sys/fs/cgroup'
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cpusetprefix='cpuset.'
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debugdir='/sys/kernel/debug'
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ladirname='gpio-sloppy-logic-analyzer'
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outputdir="$PWD"
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neededcmds='taskset zip'
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max_chans=8
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duration=
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initcpu=
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listinstances=0
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lainstance=
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lasysfsdir=
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triggerdat=
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trigger_bindat=
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progname="${0##*/}"
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print_help()
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{
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cat << EOF
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$progname - helper script for the Linux Kernel Sloppy GPIO Logic Analyzer
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Available options:
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-c|--cpu <n>: which CPU to isolate for sampling. Only needed once. Default <1>.
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Remember that a more powerful CPU gives you higher sampling speeds.
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Also CPU0 is not recommended as it usually does extra bookkeeping.
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-d|--duration-us <SI-n>: number of microseconds to sample. Overrides -n, no default value.
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-h|--help: print this help
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-i|--instance <str>: name of the logic analyzer in case you have multiple instances. Default
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to first instance found
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-k|--kernel-debug-dir <str>: path to the kernel debugfs mountpoint. Default: <$debugdir>
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-l|--list-instances: list all available instances
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-n|--num_samples <SI-n>: number of samples to acquire. Default <$numsamples>
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-o|--output-dir <str>: directory to put the result files. Default: current dir
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-s|--sample_freq <SI-n>: desired sampling frequency. Might be capped if too large.
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Default: <1000000>
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-t|--trigger <str>: pattern to use as trigger. <str> consists of two-char pairs. First
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char is channel number starting at "1". Second char is trigger level:
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"L" - low; "H" - high; "R" - rising; "F" - falling
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These pairs can be combined with "+", so "1H+2F" triggers when probe 1
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is high while probe 2 has a falling edge. You can have multiple triggers
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combined with ",". So, "1H+2F,1H+2R" is like the example before but it
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waits for a rising edge on probe 2 while probe 1 is still high after the
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first trigger has been met.
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Trigger data will only be used for the next capture and then be erased.
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<SI-n> is an integer value where SI units "T", "G", "M", "K" are recognized, e.g. '1M500K' is 1500000.
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Examples:
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Samples $numsamples values at 1MHz with an already prepared CPU or automatically prepares CPU1 if needed,
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use the first logic analyzer instance found:
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'$progname'
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Samples 50us at 2MHz waiting for a falling edge on channel 2. CPU and instance as above:
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'$progname -d 50 -s 2M -t "2F"'
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Note that the process exits after checking all parameters but a sub-process still works in
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the background. The result is only available once the sub-process finishes.
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Result is a .sr file to be consumed with PulseView from the free Sigrok project. It is
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a zip file which also contains the binary sample data which may be consumed by others.
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The filename is the logic analyzer instance name plus a since-epoch timestamp.
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EOF
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}
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fail()
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{
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echo "$1"
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exit 1
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}
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parse_si()
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{
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conv_si="$(printf $1 | sed 's/[tT]+\?/*1000G+/g; s/[gG]+\?/*1000M+/g; s/[mM]+\?/*1000K+/g; s/[kK]+\?/*1000+/g; s/+$//')"
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si_val="$((conv_si))"
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}
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set_newmask()
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{
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for f in $(find "$1" -iname "$2"); do echo "$newmask" > "$f" 2>/dev/null || true; done
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}
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init_cpu()
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{
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isol_cpu="$1"
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[ -d "$lacpusetdir" ] || mkdir "$lacpusetdir"
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cur_cpu=$(cat "${lacpusetfile}cpus")
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[ "$cur_cpu" = "$isol_cpu" ] && return
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[ -z "$cur_cpu" ] || fail "CPU$isol_cpu requested but CPU$cur_cpu already isolated"
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echo "$isol_cpu" > "${lacpusetfile}cpus" || fail "Could not isolate CPU$isol_cpu. Does it exist?"
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echo 1 > "${lacpusetfile}cpu_exclusive"
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echo 0 > "${lacpusetfile}mems"
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oldmask=$(cat /proc/irq/default_smp_affinity)
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newmask=$(printf "%x" $((0x$oldmask & ~(1 << isol_cpu))))
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set_newmask '/proc/irq' '*smp_affinity'
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set_newmask '/sys/devices/virtual/workqueue/' 'cpumask'
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# Move tasks away from isolated CPU
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for p in $(ps -o pid | tail -n +2); do
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mask=$(taskset -p "$p") || continue
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# Ignore tasks with a custom mask, i.e. not equal $oldmask
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[ "${mask##*: }" = "$oldmask" ] || continue
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taskset -p "$newmask" "$p" || continue
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done 2>/dev/null >/dev/null
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# Big hammer! Working with 'rcu_momentary_dyntick_idle()' for a more fine-grained solution
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# still printed warnings. Same for re-enabling the stall detector after sampling.
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echo 1 > /sys/module/rcupdate/parameters/rcu_cpu_stall_suppress
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cpufreqgov="/sys/devices/system/cpu/cpu$isol_cpu/cpufreq/scaling_governor"
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[ -w "$cpufreqgov" ] && echo 'performance' > "$cpufreqgov" || true
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}
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parse_triggerdat()
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{
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oldifs="$IFS"
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IFS=','; for trig in $1; do
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mask=0; val1=0; val2=0
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IFS='+'; for elem in $trig; do
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chan=${elem%[lhfrLHFR]}
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mode=${elem#$chan}
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# Check if we could parse something and the channel number fits
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[ "$chan" != "$elem" ] && [ "$chan" -le $max_chans ] || fail "Trigger syntax error: $elem"
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bit=$((1 << (chan - 1)))
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mask=$((mask | bit))
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case $mode in
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[hH]) val1=$((val1 | bit)); val2=$((val2 | bit));;
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[fF]) val1=$((val1 | bit));;
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[rR]) val2=$((val2 | bit));;
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esac
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done
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trigger_bindat="$trigger_bindat$(printf '\\%o\\%o' $mask $val1)"
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[ $val1 -ne $val2 ] && trigger_bindat="$trigger_bindat$(printf '\\%o\\%o' $mask $val2)"
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done
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IFS="$oldifs"
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}
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do_capture()
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{
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taskset "$1" echo 1 > "$lasysfsdir"/capture || fail "Capture error! Check kernel log"
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srtmp=$(mktemp -d)
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echo 1 > "$srtmp"/version
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cp "$lasysfsdir"/sample_data "$srtmp"/logic-1-1
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cat > "$srtmp"/metadata << EOF
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[global]
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sigrok version=0.2.0
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[device 1]
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capturefile=logic-1
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total probes=$(wc -l < "$lasysfsdir"/meta_data)
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samplerate=${samplefreq}Hz
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unitsize=1
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EOF
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cat "$lasysfsdir"/meta_data >> "$srtmp"/metadata
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zipname="$outputdir/${lasysfsdir##*/}-$(date +%s).sr"
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zip -jq "$zipname" "$srtmp"/*
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rm -rf "$srtmp"
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delay_ack=$(cat "$lasysfsdir"/delay_ns_acquisition)
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[ "$delay_ack" -eq 0 ] && delay_ack=1
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echo "Logic analyzer done. Saved '$zipname'"
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echo "Max sample frequency this time: $((1000000000 / delay_ack))Hz."
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}
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rep=$(getopt -a -l cpu:,duration-us:,help,instance:,list-instances,kernel-debug-dir:,num_samples:,output-dir:,sample_freq:,trigger: -o c:d:hi:k:ln:o:s:t: -- "$@") || exit 1
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eval set -- "$rep"
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while true; do
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case "$1" in
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-c|--cpu) initcpu="$2"; shift;;
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-d|--duration-us) parse_si $2; duration=$si_val; shift;;
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-h|--help) print_help; exit 0;;
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-i|--instance) lainstance="$2"; shift;;
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-k|--kernel-debug-dir) debugdir="$2"; shift;;
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-l|--list-instances) listinstances=1;;
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-n|--num_samples) parse_si $2; numsamples=$si_val; shift;;
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-o|--output-dir) outputdir="$2"; shift;;
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-s|--sample_freq) parse_si $2; samplefreq=$si_val; shift;;
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-t|--trigger) triggerdat="$2"; shift;;
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--) break;;
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*) fail "error parsing command line: $*";;
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esac
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shift
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done
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for f in $neededcmds; do
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command -v "$f" >/dev/null || fail "Command '$f' not found"
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done
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# print cpuset mountpoint if any, errorcode > 0 if noprefix option was found
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cpusetdir=$(awk '$3 == "cgroup" && $4 ~ /cpuset/ { print $2; exit (match($4, /noprefix/) > 0) }' /proc/self/mounts) || cpusetprefix=''
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if [ -z "$cpusetdir" ]; then
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cpusetdir="$cpusetdefaultdir"
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[ -d $cpusetdir ] || mkdir $cpusetdir
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mount -t cgroup -o cpuset none $cpusetdir || fail "Couldn't mount cpusets. Not in kernel or already in use?"
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fi
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lacpusetdir="$cpusetdir/$ladirname"
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lacpusetfile="$lacpusetdir/$cpusetprefix"
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sysfsdir="$debugdir/$ladirname"
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[ "$samplefreq" -ne 0 ] || fail "Invalid sample frequency"
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[ -d "$sysfsdir" ] || fail "Could not find logic analyzer root dir '$sysfsdir'. Module loaded?"
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[ -x "$sysfsdir" ] || fail "Could not access logic analyzer root dir '$sysfsdir'. Need root?"
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[ $listinstances -gt 0 ] && find "$sysfsdir" -mindepth 1 -type d | sed 's|.*/||' && exit 0
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if [ -n "$lainstance" ]; then
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lasysfsdir="$sysfsdir/$lainstance"
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else
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lasysfsdir=$(find "$sysfsdir" -mindepth 1 -type d -print -quit)
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fi
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[ -d "$lasysfsdir" ] || fail "Logic analyzer directory '$lasysfsdir' not found!"
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[ -d "$outputdir" ] || fail "Output directory '$outputdir' not found!"
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[ -n "$initcpu" ] && init_cpu "$initcpu"
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[ -d "$lacpusetdir" ] || { echo "Auto-Isolating CPU1"; init_cpu 1; }
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ndelay=$((1000000000 / samplefreq))
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echo "$ndelay" > "$lasysfsdir"/delay_ns
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[ -n "$duration" ] && numsamples=$((samplefreq * duration / 1000000))
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echo $numsamples > "$lasysfsdir"/buf_size
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if [ -n "$triggerdat" ]; then
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parse_triggerdat "$triggerdat"
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printf "$trigger_bindat" > "$lasysfsdir"/trigger 2>/dev/null || fail "Trigger data '$triggerdat' rejected"
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fi
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workcpu=$(cat "${lacpusetfile}effective_cpus")
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[ -n "$workcpu" ] || fail "No isolated CPU found"
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cpumask=$(printf '%x' $((1 << workcpu)))
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instance=${lasysfsdir##*/}
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echo "Setting up '$instance': $numsamples samples at ${samplefreq}Hz with ${triggerdat:-no} trigger using CPU$workcpu"
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do_capture "$cpumask" &
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