while IFS= read -r pid ; do
# /proc/pid/cmdline is null separated.
- if full_command_no_argument=$(tr '\0' '\n' < /proc/"$pid"/cmdline 2>/dev/null | head -n1); then
+ if full_command_no_argument=$( (tr '\0' '\n' < /proc/"$pid"/cmdline) 2>/dev/null | head -n1); then
command_basename=$(basename "$full_command_no_argument")
if grep -q "$pattern" <<< "$command_basename"; then
echo "$pid"
echo
}
+# Return a space-separated string of online CPU IDs, based on
+# /sys/devices/system/cpu/online, or from 0 to nproc - 1 otherwise.
+function get_online_cpus()
+{
+ local cpus=()
+ local range_re
+ if [ -f /sys/devices/system/cpu/online ]; then
+ range_re='([0-9]+)-([0-9]+)'
+ while read -r range ; do
+ if [[ "${range}" =~ ${range_re} ]] ; then
+ mapfile -t -O "${#cpus[*]}" cpus <<< $(seq "${BASH_REMATCH[1]}" "${BASH_REMATCH[2]}")
+ else
+ cpus+=("${range}")
+ fi
+ done < <(tr ',' $'\n' < /sys/devices/system/cpu/online)
+ else
+ read -r -a cpus <<< $(seq 0 $(( $(conf_proc_count) - 1 )) )
+ fi
+ echo "${cpus[*]}"
+}
+
+# Helpers for get_possible_cpus.
+function get_possible_cpus_count_from_sysfs_possible_mask()
+{
+ local max_possible_cpu_id
+
+ # The Awk script extracts the highest CPU id from the possible CPU
+ # mask. Assuming a numerical order, a field separator '-' and a record
+ # separator ','. The last value parsed is the highest id.
+ if [ -f /sys/devices/system/cpu/possible ]; then
+ max_possible_cpu_id=$(awk -F '-' 'BEGIN { RS = ","} { last = $NF } END { printf("%d\n", last) }' \
+ /sys/devices/system/cpu/possible)
+ echo "$((max_possible_cpu_id+1))"
+ else
+ echo "0"
+ fi
+}
+
+# This is a fallback if the possible CPU mask is not available. This will not
+# take into account unplugged CPUs.
+function get_max_cpus_count_from_sysfs_cpu_directories()
+{
+ local max_possible_cpu_id=0
+ local current_cpu_id
+
+ for i in /sys/devices/system/cpu/cpu[0-9]*; do
+ current_cpu_id="${i#/sys/devices/system/cpu/cpu}"
+ if [ "$current_cpu_id" -gt "$max_possible_cpu_id" ]; then
+ max_possible_cpu_id="$current_cpu_id"
+ fi
+ done
+
+ echo "$((max_possible_cpu_id+1))"
+}
+
+# Return the number of possible CPUs.
+function get_possible_cpus_count()
+{
+ local possible_cpus_count
+ possible_cpus_count=$(get_possible_cpus_count_from_sysfs_possible_mask)
+
+ if [ "$possible_cpus_count" -eq "0" ]; then
+ local configured_cpus_count
+ configured_cpus_count=$(getconf _NPROCESSORS_CONF)
+ possible_cpus_count=$(get_max_cpus_count_from_sysfs_cpu_directories)
+ possible_cpus_count=$((configured_cpus_count > possible_cpus_count \
+ ? configured_cpus_count \
+ : possible_cpus_count))
+ fi
+
+ echo "$possible_cpus_count"
+}
+
+# Return the list of exposed CPU.
+#
+# NOTE! Use it like so:
+#
+# IFS=" " read -r -a VARIABLE <<< "$(get_exposed_cpus_list)"
+function get_exposed_cpus_list()
+{
+ local list=()
+
+ for i in /sys/devices/system/cpu/cpu[0-9]*; do
+ list+=("${i#/sys/devices/system/cpu/cpu}")
+ done
+
+ echo "${list[@]}"
+}
+
+# Return any available CPU found. Do not make assumption about the returned
+# value, e.g. that it could be 0.
+function get_any_available_cpu()
+{
+ for cpu in $(get_online_cpus); do
+ echo "${cpu}"
+ break;
+ done
+}
+
# Return the number of _configured_ CPUs.
function conf_proc_count()
{
if [ -z $(lttng_pgrep "$RELAYD_MATCH") ]; then
# shellcheck disable=SC2086
$DIR/../src/bin/lttng-relayd/$RELAYD_BIN $process_mode $opt 1> $OUTPUT_DEST 2> $ERROR_OUTPUT_DEST
- #$DIR/../src/bin/lttng-relayd/$RELAYD_BIN $opt -vvv >>/tmp/relayd.log 2>&1 &
+ #$DIR/../src/bin/lttng-relayd/$RELAYD_BIN $process_mode $opt -vvv >>/tmp/relayd.log 2>&1 &
if [ $? -eq 1 ]; then
if [ $withtap -eq "1" ]; then
fail "Start lttng-relayd (process mode: $process_mode opt: $opt)"
local sess_name="$1"
local event_name="$2"
local loglevel="$3"
+ local channel_name="$4"
+ local chan=()
+ if [ -n "${channel_name}" ] ; then
+ chan=('-c' "${channel_name}")
+ fi
_run_lttng_cmd "$OUTPUT_DEST" "$ERROR_OUTPUT_DEST" \
- enable-event "$event_name" -s $sess_name -u --loglevel $loglevel
+ enable-event "${chan[@]}" "$event_name" -s "${sess_name}" -u --loglevel="${loglevel}"
ok $? "Enable event $event_name with loglevel $loglevel"
}
local sess_name="$1"
local event_name="$2"
local loglevel="$3"
+ local channel_name="$4"
+ local chan=()
+ if [ -n "${channel_name}" ] ; then
+ chan=('-c' "${channel_name}")
+ fi
_run_lttng_cmd "$OUTPUT_DEST" "$ERROR_OUTPUT_DEST" \
- enable-event "$event_name" -s $sess_name -u --loglevel-only $loglevel
+ enable-event "${chan[@]}" "$event_name" -s "${sess_name}" -u --loglevel-only "${loglevel}"
ok $? "Enable event $event_name with loglevel-only $loglevel"
}
diag "Waiting for live trace at url: $url"
while [ $zero_client_match -eq 0 ]; do
zero_client_match=$($BABELTRACE_BIN -i lttng-live $url | grep "0 client(s) connected" | wc -l)
- sleep 0.5
+ sleep 0.1
done
pass "Waiting for live trace at url: $url"
}
diag "Waiting for live viewers on url: $url"
while [ $one_client_match -eq 0 ]; do
one_client_match=$($BABELTRACE_BIN -i lttng-live $url | grep "1 client(s) connected" | wc -l)
- sleep 0.5
+ sleep 0.1
done
pass "Waiting for live viewers on url: $url"
}