configs/home/.zsh-distrobox/themes/spaceship-prompt/async.zsh

670 lines
19 KiB
Bash
Raw Permalink Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

#!/usr/bin/env zsh
#
# zsh-async
#
# version: v1.8.5
# author: Mathias Fredriksson
# url: https://github.com/mafredri/zsh-async
#
typeset -g ASYNC_VERSION=1.8.5
# Produce debug output from zsh-async when set to 1.
typeset -g ASYNC_DEBUG=${ASYNC_DEBUG:-0}
# Execute commands that can manipulate the environment inside the async worker. Return output via callback.
_async_eval() {
local ASYNC_JOB_NAME
# Rename job to _async_eval and redirect all eval output to cat running
# in _async_job. Here, stdout and stderr are not separated for
# simplicity, this could be improved in the future.
{
eval "$@"
} &> >(ASYNC_JOB_NAME=[async/eval] _async_job 'cat')
}
# Wrapper for jobs executed by the async worker, gives output in parseable format with execution time
_async_job() {
# Disable xtrace as it would mangle the output.
setopt localoptions noxtrace
# Store start time for job.
float -F duration=$EPOCHREALTIME
# Run the command and capture both stdout (`eval`) and stderr (`cat`) in
# separate subshells. When the command is complete, we grab write lock
# (mutex token) and output everything except stderr inside the command
# block, after the command block has completed, the stdin for `cat` is
# closed, causing stderr to be appended with a $'\0' at the end to mark the
# end of output from this job.
local jobname=${ASYNC_JOB_NAME:-$1} out
out="$(
local stdout stderr ret tok
{
stdout=$(eval "$@")
ret=$?
duration=$(( EPOCHREALTIME - duration )) # Calculate duration.
print -r -n - $'\0'${(q)jobname} $ret ${(q)stdout} $duration
} 2> >(stderr=$(cat) && print -r -n - " "${(q)stderr}$'\0')
)"
if [[ $out != $'\0'*$'\0' ]]; then
# Corrupted output (aborted job?), skipping.
return
fi
# Grab mutex lock, stalls until token is available.
read -r -k 1 -p tok || return 1
# Return output (<job_name> <return_code> <stdout> <duration> <stderr>).
print -r -n - "$out"
# Unlock mutex by inserting a token.
print -n -p $tok
}
# The background worker manages all tasks and runs them without interfering with other processes
_async_worker() {
# Reset all options to defaults inside async worker.
emulate -R zsh
# Make sure monitor is unset to avoid printing the
# pids of child processes.
unsetopt monitor
# Redirect stderr to `/dev/null` in case unforseen errors produced by the
# worker. For example: `fork failed: resource temporarily unavailable`.
# Some older versions of zsh might also print malloc errors (know to happen
# on at least zsh 5.0.2 and 5.0.8) likely due to kill signals.
exec 2>/dev/null
# When a zpty is deleted (using -d) all the zpty instances created before
# the one being deleted receive a SIGHUP, unless we catch it, the async
# worker would simply exit (stop working) even though visible in the list
# of zpty's (zpty -L). This has been fixed around the time of Zsh 5.4
# (not released).
if ! is-at-least 5.4.1; then
TRAPHUP() {
return 0 # Return 0, indicating signal was handled.
}
fi
local -A storage
local unique=0
local notify_parent=0
local parent_pid=0
local coproc_pid=0
local processing=0
local -a zsh_hooks zsh_hook_functions
zsh_hooks=(chpwd periodic precmd preexec zshexit zshaddhistory)
zsh_hook_functions=(${^zsh_hooks}_functions)
unfunction $zsh_hooks &>/dev/null # Deactivate all zsh hooks inside the worker.
unset $zsh_hook_functions # And hooks with registered functions.
unset zsh_hooks zsh_hook_functions # Cleanup.
close_idle_coproc() {
local -a pids
pids=(${${(v)jobstates##*:*:}%\=*})
# If coproc (cat) is the only child running, we close it to avoid
# leaving it running indefinitely and cluttering the process tree.
if (( ! processing )) && [[ $#pids = 1 ]] && [[ $coproc_pid = $pids[1] ]]; then
coproc :
coproc_pid=0
fi
}
child_exit() {
close_idle_coproc
# On older version of zsh (pre 5.2) we notify the parent through a
# SIGWINCH signal because `zpty` did not return a file descriptor (fd)
# prior to that.
if (( notify_parent )); then
# We use SIGWINCH for compatibility with older versions of zsh
# (pre 5.1.1) where other signals (INFO, ALRM, USR1, etc.) could
# cause a deadlock in the shell under certain circumstances.
kill -WINCH $parent_pid
fi
}
# Register a SIGCHLD trap to handle the completion of child processes.
trap child_exit CHLD
# Process option parameters passed to worker.
while getopts "np:uz" opt; do
case $opt in
n) notify_parent=1;;
p) parent_pid=$OPTARG;;
u) unique=1;;
z) notify_parent=0;; # Uses ZLE watcher instead.
esac
done
# Terminate all running jobs, note that this function does not
# reinstall the child trap.
terminate_jobs() {
trap - CHLD # Ignore child exits during kill.
coproc : # Quit coproc.
coproc_pid=0 # Reset pid.
if is-at-least 5.4.1; then
trap '' HUP # Catch the HUP sent to this process.
kill -HUP -$$ # Send to entire process group.
trap - HUP # Disable HUP trap.
else
# We already handle HUP for Zsh < 5.4.1.
kill -HUP -$$ # Send to entire process group.
fi
}
killjobs() {
local tok
local -a pids
pids=(${${(v)jobstates##*:*:}%\=*})
# No need to send SIGHUP if no jobs are running.
(( $#pids == 0 )) && continue
(( $#pids == 1 )) && [[ $coproc_pid = $pids[1] ]] && continue
# Grab lock to prevent half-written output in case a child
# process is in the middle of writing to stdin during kill.
(( coproc_pid )) && read -r -k 1 -p tok
terminate_jobs
trap child_exit CHLD # Reinstall child trap.
}
local request do_eval=0
local -a cmd
while :; do
# Wait for jobs sent by async_job.
read -r -d $'\0' request || {
# Unknown error occurred while reading from stdin, the zpty
# worker is likely in a broken state, so we shut down.
terminate_jobs
# Stdin is broken and in case this was an unintended
# crash, we try to report it as a last hurrah.
print -r -n $'\0'"'[async]'" $(( 127 + 3 )) "''" 0 "'$0:$LINENO: zpty fd died, exiting'"$'\0'
# We use `return` to abort here because using `exit` may
# result in an infinite loop that never exits and, as a
# result, high CPU utilization.
return $(( 127 + 1 ))
}
# We need to clean the input here because sometimes when a zpty
# has died and been respawned, messages will be prefixed with a
# carraige return (\r, or \C-M).
request=${request#$'\C-M'}
# Check for non-job commands sent to worker
case $request in
_killjobs) killjobs; continue;;
_async_eval*) do_eval=1;;
esac
# Parse the request using shell parsing (z) to allow commands
# to be parsed from single strings and multi-args alike.
cmd=("${(z)request}")
# Name of the job (first argument).
local job=$cmd[1]
# Check if a worker should perform unique jobs, unless
# this is an eval since they run synchronously.
if (( !do_eval )) && (( unique )); then
# Check if a previous job is still running, if yes,
# skip this job and let the previous one finish.
for pid in ${${(v)jobstates##*:*:}%\=*}; do
if [[ ${storage[$job]} == $pid ]]; then
continue 2
fi
done
fi
# Guard against closing coproc from trap before command has started.
processing=1
# Because we close the coproc after the last job has completed, we must
# recreate it when there are no other jobs running.
if (( ! coproc_pid )); then
# Use coproc as a mutex for synchronized output between children.
coproc cat
coproc_pid="$!"
# Insert token into coproc
print -n -p "t"
fi
if (( do_eval )); then
shift cmd # Strip _async_eval from cmd.
_async_eval $cmd
else
# Run job in background, completed jobs are printed to stdout.
_async_job $cmd &
# Store pid because zsh job manager is extremely unflexible (show jobname as non-unique '$job')...
storage[$job]="$!"
fi
processing=0 # Disable guard.
if (( do_eval )); then
do_eval=0
# When there are no active jobs we can't rely on the CHLD trap to
# manage the coproc lifetime.
close_idle_coproc
fi
done
}
#
# Get results from finished jobs and pass it to the to callback function. This is the only way to reliably return the
# job name, return code, output and execution time and with minimal effort.
#
# If the async process buffer becomes corrupt, the callback will be invoked with the first argument being `[async]` (job
# name), non-zero return code and fifth argument describing the error (stderr).
#
# usage:
# async_process_results <worker_name> <callback_function>
#
# callback_function is called with the following parameters:
# $1 = job name, e.g. the function passed to async_job
# $2 = return code
# $3 = resulting stdout from execution
# $4 = execution time, floating point e.g. 2.05 seconds
# $5 = resulting stderr from execution
# $6 = has next result in buffer (0 = buffer empty, 1 = yes)
#
async_process_results() {
setopt localoptions unset noshwordsplit noksharrays noposixidentifiers noposixstrings
local worker=$1
local callback=$2
local caller=$3
local -a items
local null=$'\0' data
integer -l len pos num_processed has_next
typeset -gA ASYNC_PROCESS_BUFFER
# Read output from zpty and parse it if available.
while zpty -r -t $worker data 2>/dev/null; do
ASYNC_PROCESS_BUFFER[$worker]+=$data
len=${#ASYNC_PROCESS_BUFFER[$worker]}
pos=${ASYNC_PROCESS_BUFFER[$worker][(i)$null]} # Get index of NULL-character (delimiter).
# Keep going until we find a NULL-character.
if (( ! len )) || (( pos > len )); then
continue
fi
while (( pos <= len )); do
# Take the content from the beginning, until the NULL-character and
# perform shell parsing (z) and unquoting (Q) as an array (@).
items=("${(@Q)${(z)ASYNC_PROCESS_BUFFER[$worker][1,$pos-1]}}")
# Remove the extracted items from the buffer.
ASYNC_PROCESS_BUFFER[$worker]=${ASYNC_PROCESS_BUFFER[$worker][$pos+1,$len]}
len=${#ASYNC_PROCESS_BUFFER[$worker]}
if (( len > 1 )); then
pos=${ASYNC_PROCESS_BUFFER[$worker][(i)$null]} # Get index of NULL-character (delimiter).
fi
has_next=$(( len != 0 ))
if (( $#items == 5 )); then
items+=($has_next)
$callback "${(@)items}" # Send all parsed items to the callback.
(( num_processed++ ))
elif [[ -z $items ]]; then
# Empty items occur between results due to double-null ($'\0\0')
# caused by commands being both pre and suffixed with null.
else
# In case of corrupt data, invoke callback with *async* as job
# name, non-zero exit status and an error message on stderr.
$callback "[async]" 1 "" 0 "$0:$LINENO: error: bad format, got ${#items} items (${(q)items})" $has_next
fi
done
done
(( num_processed )) && return 0
# Avoid printing exit value when `setopt printexitvalue` is active.`
[[ $caller = trap || $caller = watcher ]] && return 0
# No results were processed
return 1
}
# Watch worker for output
_async_zle_watcher() {
setopt localoptions noshwordsplit
typeset -gA ASYNC_PTYS ASYNC_CALLBACKS
local worker=$ASYNC_PTYS[$1]
local callback=$ASYNC_CALLBACKS[$worker]
if [[ -n $2 ]]; then
# from man zshzle(1):
# `hup' for a disconnect, `nval' for a closed or otherwise
# invalid descriptor, or `err' for any other condition.
# Systems that support only the `select' system call always use
# `err'.
# this has the side effect to unregister the broken file descriptor
async_stop_worker $worker
if [[ -n $callback ]]; then
$callback '[async]' 2 "" 0 "$0:$LINENO: error: fd for $worker failed: zle -F $1 returned error $2" 0
fi
return
fi;
if [[ -n $callback ]]; then
async_process_results $worker $callback watcher
fi
}
_async_send_job() {
setopt localoptions noshwordsplit noksharrays noposixidentifiers noposixstrings
local caller=$1
local worker=$2
shift 2
zpty -t $worker &>/dev/null || {
typeset -gA ASYNC_CALLBACKS
local callback=$ASYNC_CALLBACKS[$worker]
if [[ -n $callback ]]; then
$callback '[async]' 3 "" 0 "$0:$LINENO: error: no such worker: $worker" 0
else
print -u2 "$caller: no such async worker: $worker"
fi
return 1
}
zpty -w $worker "$@"$'\0'
}
#
# Start a new asynchronous job on specified worker, assumes the worker is running.
#
# usage:
# async_job <worker_name> <my_function> [<function_params>]
#
async_job() {
setopt localoptions noshwordsplit noksharrays noposixidentifiers noposixstrings
local worker=$1; shift
local -a cmd
cmd=("$@")
if (( $#cmd > 1 )); then
cmd=(${(q)cmd}) # Quote special characters in multi argument commands.
fi
_async_send_job $0 $worker "$cmd"
}
#
# Evaluate a command (like async_job) inside the async worker, then worker environment can be manipulated. For example,
# issuing a cd command will change the PWD of the worker which will then be inherited by all future async jobs.
#
# Output will be returned via callback, job name will be [async/eval].
#
# usage:
# async_worker_eval <worker_name> <my_function> [<function_params>]
#
async_worker_eval() {
setopt localoptions noshwordsplit noksharrays noposixidentifiers noposixstrings
local worker=$1; shift
local -a cmd
cmd=("$@")
if (( $#cmd > 1 )); then
cmd=(${(q)cmd}) # Quote special characters in multi argument commands.
fi
# Quote the cmd in case RC_EXPAND_PARAM is set.
_async_send_job $0 $worker "_async_eval $cmd"
}
# This function traps notification signals and calls all registered callbacks
_async_notify_trap() {
setopt localoptions noshwordsplit
local k
for k in ${(k)ASYNC_CALLBACKS}; do
async_process_results $k ${ASYNC_CALLBACKS[$k]} trap
done
}
#
# Register a callback for completed jobs. As soon as a job is finnished, async_process_results will be called with the
# specified callback function. This requires that a worker is initialized with the -n (notify) option.
#
# usage:
# async_register_callback <worker_name> <callback_function>
#
async_register_callback() {
setopt localoptions noshwordsplit nolocaltraps
typeset -gA ASYNC_PTYS ASYNC_CALLBACKS
local worker=$1; shift
ASYNC_CALLBACKS[$worker]="$*"
# Enable trap when the ZLE watcher is unavailable, allows
# workers to notify (via -n) when a job is done.
if [[ ! -o interactive ]] || [[ ! -o zle ]]; then
trap '_async_notify_trap' WINCH
elif [[ -o interactive ]] && [[ -o zle ]]; then
local fd w
for fd w in ${(@kv)ASYNC_PTYS}; do
if [[ $w == $worker ]]; then
zle -F $fd _async_zle_watcher # Register the ZLE handler.
break
fi
done
fi
}
#
# Unregister the callback for a specific worker.
#
# usage:
# async_unregister_callback <worker_name>
#
async_unregister_callback() {
typeset -gA ASYNC_CALLBACKS
unset "ASYNC_CALLBACKS[$1]"
}
#
# Flush all current jobs running on a worker. This will terminate any and all running processes under the worker, use
# with caution.
#
# usage:
# async_flush_jobs <worker_name>
#
async_flush_jobs() {
setopt localoptions noshwordsplit
local worker=$1; shift
# Check if the worker exists
zpty -t $worker &>/dev/null || return 1
# Send kill command to worker
async_job $worker "_killjobs"
# Clear the zpty buffer.
local junk
if zpty -r -t $worker junk '*'; then
(( ASYNC_DEBUG )) && print -n "async_flush_jobs $worker: ${(V)junk}"
while zpty -r -t $worker junk '*'; do
(( ASYNC_DEBUG )) && print -n "${(V)junk}"
done
(( ASYNC_DEBUG )) && print
fi
# Finally, clear the process buffer in case of partially parsed responses.
typeset -gA ASYNC_PROCESS_BUFFER
unset "ASYNC_PROCESS_BUFFER[$worker]"
}
#
# Start a new async worker with optional parameters, a worker can be told to only run unique tasks and to notify a
# process when tasks are complete.
#
# usage:
# async_start_worker <worker_name> [-u] [-n] [-p <pid>]
#
# opts:
# -u unique (only unique job names can run)
# -n notify through SIGWINCH signal
# -p pid to notify (defaults to current pid)
#
async_start_worker() {
setopt localoptions noshwordsplit noclobber
local worker=$1; shift
local -a args
args=("$@")
zpty -t $worker &>/dev/null && return
typeset -gA ASYNC_PTYS
typeset -h REPLY
typeset has_xtrace=0
if [[ -o interactive ]] && [[ -o zle ]]; then
# Inform the worker to ignore the notify flag and that we're
# using a ZLE watcher instead.
args+=(-z)
if (( ! ASYNC_ZPTY_RETURNS_FD )); then
# When zpty doesn't return a file descriptor (on older versions of zsh)
# we try to guess it anyway.
integer -l zptyfd
exec {zptyfd}>&1 # Open a new file descriptor (above 10).
exec {zptyfd}>&- # Close it so it's free to be used by zpty.
fi
fi
# Workaround for stderr in the main shell sometimes (incorrectly) being
# reassigned to /dev/null by the reassignment done inside the async
# worker.
# See https://github.com/mafredri/zsh-async/issues/35.
integer errfd=-1
# Redirect of errfd is broken on zsh 5.0.2.
if is-at-least 5.0.8; then
exec {errfd}>&2
fi
# Make sure async worker is started without xtrace
# (the trace output interferes with the worker).
[[ -o xtrace ]] && {
has_xtrace=1
unsetopt xtrace
}
if (( errfd != -1 )); then
zpty -b $worker _async_worker -p $$ $args 2>&$errfd
else
zpty -b $worker _async_worker -p $$ $args
fi
local ret=$?
# Re-enable it if it was enabled, for debugging.
(( has_xtrace )) && setopt xtrace
(( errfd != -1 )) && exec {errfd}>& -
if (( ret )); then
async_stop_worker $worker
return 1
fi
if ! is-at-least 5.0.8; then
# For ZSH versions older than 5.0.8 we delay a bit to give
# time for the worker to start before issuing commands,
# otherwise it will not be ready to receive them.
sleep 0.001
fi
if [[ -o interactive ]] && [[ -o zle ]]; then
if (( ! ASYNC_ZPTY_RETURNS_FD )); then
REPLY=$zptyfd # Use the guessed value for the file desciptor.
fi
ASYNC_PTYS[$REPLY]=$worker # Map the file desciptor to the worker.
fi
}
#
# Stop one or multiple workers that are running, all unfetched and incomplete work will be lost.
#
# usage:
# async_stop_worker <worker_name_1> [<worker_name_2>]
#
async_stop_worker() {
setopt localoptions noshwordsplit
local ret=0 worker k v
for worker in $@; do
# Find and unregister the zle handler for the worker
for k v in ${(@kv)ASYNC_PTYS}; do
if [[ $v == $worker ]]; then
zle -F $k
unset "ASYNC_PTYS[$k]"
fi
done
async_unregister_callback $worker
zpty -d $worker 2>/dev/null || ret=$?
# Clear any partial buffers.
typeset -gA ASYNC_PROCESS_BUFFER
unset "ASYNC_PROCESS_BUFFER[$worker]"
done
return $ret
}
#
# Initialize the required modules for zsh-async. To be called before using the zsh-async library.
#
# usage:
# async_init
#
async_init() {
(( ASYNC_INIT_DONE )) && return
typeset -g ASYNC_INIT_DONE=1
zmodload zsh/zpty
zmodload zsh/datetime
# Load is-at-least for reliable version check.
autoload -Uz is-at-least
# Check if zsh/zpty returns a file descriptor or not,
# shell must also be interactive with zle enabled.
typeset -g ASYNC_ZPTY_RETURNS_FD=0
[[ -o interactive ]] && [[ -o zle ]] && {
typeset -h REPLY
zpty _async_test :
(( REPLY )) && ASYNC_ZPTY_RETURNS_FD=1
zpty -d _async_test
}
}
async() {
async_init
}
async "$@"