fish-shell/tests/invocation.sh
Fabian Homborg 8079345207 tests/invocation.sh: Use a formatting string with printf
Using printf like

    printf "The message"

is unsafe, because if the message contains any formatting characters,
they'll be interpreted.

In this case it's not all that important because the message contains
only filenames of our tests and static strings, but still.
2019-01-23 22:53:53 +01:00

324 lines
10 KiB
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Executable File

#!/bin/sh
##
# Test that the invocation of the fish executable works as we hope.
#
# We try to run the 'fish' binary with different command line switches.
# Each time we check against an output that we expect.
#
# We are testing fish's invocation itself, so this is not written in
# fish itself - if the invocation wasn't working, we'd never even
# be able to use this test to check that the invocation wasn't working.
#
# What we test...
#
# * The environment is cleaned so that (hopefully) differences in
# the host terminal, language or user settings do not affect the
# tests.
#
# * The files 'tests/invocation/*.invoke' contain the arguments that
# will be passed to the 'fish' command under test. The arguments
# may be split over multiple lines for clarity.
#
# * Before execution, if the file 'tests/invocation/<name>.config'
# exists, it will be copied as the 'config.fish' file in the
# configuration directory.
#
# * The stdout and stderr are captured into files and will be
# processed before comparison with the
# 'tests/invocation/<name>.(out|err)' files. A missing file is
# considered to be no output.
# Either file may be given a further suffix of '.<system name>'
# which will be used in preference to the default. This allows
# the expected output to change depending on the system being
# used - to allow for differences in behaviour.
# The '<system name>' can be found with 'uname -s'.
# This facility should be used sparingly as system differences
# will confuse users.
#
# * The file 'tests/invocation/<name>.grep' is used to select the
# sections of the file we are interested in within the stdout.
# Only the parts that match will be compared to the '*.out' file.
# This can be used to filter out changeable parts of the output
# leaving just the parts we are interested in.
#
# * The stderr output will have the 'RC: <return code>' appended
# if the command returned a non-zero value.
# The stderr output will have the 'XDG_CONFIG_HOME' location
# substituted, to allow error reports to be compared consistently.
#
# * If the processed output differs from the supplied output,
# the test will fail, and the differences will be shown on the
# console.
#
# * If anything fails, the return code for this script will be
# non-zero.
#
# With this, errors would be fatal.
# However, a return value of non-zero doesn't signal something that necessarily should be fatal.
# For instance, `tput` returns 1 if an attribute isn't defined.
# But we don't want it to kill our script, especially not without any indication.
#
# set -e
# The directory this script is in (as everything is relative to here)
here="$(cd "$(dirname "$0")" && pwd -P)"
cd "$here"
# The temporary directory to use
temp_dir="$here/../test"
# The fish binary we are testing - for manual testing, may be overridden
fish_exe="${fish_exe:-../test/root/bin/fish}"
fish_dir="$(dirname "${fish_exe}")"
fish_leaf="$(basename "${fish_exe}")"
# Which system are we on.
# fish has slightly different behaviour depending on the system it is
# running on (and the libraries that it is linked with), so for special
# cases, we'll use a suffixed file.
system_name="$(uname -s)"
# Check whether we have the 'colordiff' tool - if not, we'll revert to
# boring regular 'diff'.
if command -v colordiff >/dev/null 2>&1; then
difftool='colordiff'
else
difftool='diff'
fi
##
# Set variables to known values so that they will not affect the
# execution of the test.
clean_environment() {
# Reset the terminal variables to a known type.
export TERM=xterm
unset ITERM_PROFILE
# And the language as well, so that we do not see differences in
# output dur to the user's locale
export LANGUAGE=en_US:en
# Ensure that the fish environment we use is in a clean state
rm -rf "${temp_dir}/data" "${temp_dir}/home"
mkdir -p "${temp_dir}/data" "${temp_dir}/home" "${temp_dir}/home/fish"
export XDG_DATA_HOME="${temp_dir}/data"
export XDG_CONFIG_HOME="${temp_dir}/home"
}
##
# Fail completely :-(
fail() {
say "$term_red" "FAIL: $*" >&2
exit 1
}
##
# Coloured output
#
# Use like `say "$term_green" "message".
say() {
echo "$1$2$term_reset"
}
run_rc() {
# Write the return code on to the end of the stderr, so that it can be
# checked like anything else.
eval "$*" || echo "RC: $?" >&2
}
filter() {
# In some cases we want to check only a part of the output.
# For those we filter the output through grep'd matches.
if [ -f "$1" ] ; then
# grep '-o', '-E' and '-f' are supported by the tools in modern GNU
# environments, and on OS X.
grep -oE -f "$1"
else
cat
fi
}
##
# Actual testing of a .invoke file.
test_file() {
local file="$1"
local dir="$(dirname "$file")"
local base="$(basename "$file" .invoke)"
local test_config="${dir}/${base}.config"
local test_stdout="${dir}/${base}.tmp.out"
local test_stderr="${dir}/${base}.tmp.err"
local want_stdout="${dir}/${base}.out"
local grep_stdout="${dir}/${base}.grep"
local want_stderr="${dir}/${base}.err"
local empty="${dir}/${base}.empty"
local filter
local rc=0
local test_args_literal
local test_args
local out_status=0
local err_status=0
# Literal arguments, for printing
test_args_literal="$(cat "$file")"
# Read the test arguments, escaping things that might be processed by us
test_args="$(sed 's/\$/\$/' "$file" | tr '\n' ' ')"
# Select system-specific files if they are present.
system_specific=
if [ -f "${test_config}.${system_name}" ] ; then
test_config="${test_config}.${system_name}"
system_specific=true
fi
if [ -f "${want_stdout}.${system_name}" ] ; then
want_stdout="${want_stdout}.${system_name}"
system_specific=true
fi
if [ -f "${want_stderr}.${system_name}" ] ; then
want_stderr="${want_stderr}.${system_name}"
system_specific=true
fi
if [ -f "${grep_stdout}.${system_name}" ] ; then
grep_stdout="${grep_stdout}.${system_name}"
system_specific=true
fi
# Create an empty file so that we can compare against it if needed
touch "${empty}"
# If they supplied a configuration file, we create it here
if [ -f "$test_config" ] ; then
cat "$test_config" > "${temp_dir}/home/fish/config.fish"
else
rm -f "${temp_dir}/home/fish/config.fish"
fi
printf '%s' "Testing file $file ${system_specific:+($system_name specific) }... "
# The hoops we are jumping through here, with changing directory are
# so that we always execute fish as './fish', which means that any
# error messages will appear the same, even if the tested binary
# is not one that we built here.
# We disable the exit-on-error here, so that we can catch the return
# code.
set +e
run_rc "cd \"$fish_dir\" && \"./$fish_leaf\" $test_args" \
2> "$test_stderr" \
< /dev/null \
| filter "$grep_stdout" \
> "$test_stdout"
set -e
# If the wanted output files are not present, they are assumed empty.
if [ ! -f "$want_stdout" ] ; then
want_stdout="$empty"
fi
if [ ! -f "$want_stderr" ] ; then
want_stderr="$empty"
fi
# The standard error that we get will report errors using non-relative
# filenames, so we try to replace these with the variable names.
#
# However, fish will also have helpfully translated the home directory
# into '~/' in the error report. Consequently, we need to perform a
# small fix-up so that we can replace the string sanely.
xdg_config_in_home="${XDG_CONFIG_HOME#$HOME}"
if [ "${#xdg_config_in_home}" -lt "${#XDG_CONFIG_HOME}" ]; then
xdg_config_in_home="~$xdg_config_in_home"
fi
# 'sed -i' (inplace) has different syntax on BSD and GNU versions of
# the tool, so cannot be used here, hence we write to a separate file,
# and then move back.
sed "s,$xdg_config_in_home,\$XDG_CONFIG_HOME,g" "${test_stderr}" > "${test_stderr}.new"
mv -f "${test_stderr}.new" "${test_stderr}"
# Check the results
if ! diff "${test_stdout}" "${want_stdout}" >/dev/null 2>/dev/null ; then
out_status=1
fi
if ! diff "${test_stderr}" "${want_stderr}" >/dev/null 2>/dev/null ; then
err_status=1
fi
if [ "$out_status" = '0' ] && \
[ "$err_status" = '0' ] ; then
say "$term_green" "ok"
# clean up tmp files
rm -f "${test_stdout}" "${test_stderr}" "${empty}"
rc=0
else
say "$term_red" "fail"
say "$term_blue" "$test_args_literal" | sed 's/^/ /'
if [ "$out_status" != '0' ] ; then
say "$term_yellow" "Output differs for file $file. Diff follows:"
"$difftool" -u "${test_stdout}" "${want_stdout}"
fi
if [ "$err_status" != '0' ] ; then
say "$term_yellow" "Error output differs for file $file. Diff follows:"
"$difftool" -u "${test_stderr}" "${want_stderr}"
fi
rc=1
fi
return $rc
}
########################################################################
# Main harness
if [ ! -x "${fish_exe}" ] ; then
fail "Fish executable not found at '${fish_exe}'"
fi
clean_environment
# Terminal colouring
# Only do this after setting up $TERM.
term_red=""
term_green=""
term_yellow=""
term_blue=""
term_magenta=""
term_cyan=""
term_white=""
term_reset=""
# Some systems don't have tput. Disable coloring.
if command -v tput >/dev/null 2>&1; then
term_red="$(tput setaf 1)"
term_green="$(tput setaf 2)"
term_yellow="$(tput setaf 3)"
term_blue="$(tput setaf 4)"
term_magenta="$(tput setaf 5)"
term_cyan="$(tput setaf 6)"
term_white="$(tput setaf 7)"
term_reset="$(tput sgr0)"
fi
say "$term_cyan" "Testing shell invocation functionality"
passed=0
failed=0
for file in invocation/*.invoke; do
if ! test_file "$file" ; then
failed=$(( failed + 1 ))
else
passed=$(( passed + 1 ))
fi
done
echo "Encountered $failed errors in the invocation tests (out of $(( failed + passed )))."
if [ "$failed" != 0 ] ; then
exit 1
fi
exit 0