# Library of functions shared by all tests scripts, included by # test-lib.sh. # # Copyright (c) 2005 Junio C Hamano # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see http://www.gnu.org/licenses/ . # The semantics of the editor variables are that of invoking # sh -c "$EDITOR \"$@\"" files ... # # If our trash directory contains shell metacharacters, they will be # interpreted if we just set $EDITOR directly, so do a little dance with # environment variables to work around this. # # In particular, quoting isn't enough, as the path may contain the same quote # that we're using. test_set_editor () { FAKE_EDITOR="$1" export FAKE_EDITOR EDITOR='"$FAKE_EDITOR"' export EDITOR } test_set_index_version () { GIT_INDEX_VERSION="$1" export GIT_INDEX_VERSION } test_decode_color () { awk ' function name(n) { if (n == 0) return "RESET"; if (n == 1) return "BOLD"; if (n == 2) return "FAINT"; if (n == 3) return "ITALIC"; if (n == 7) return "REVERSE"; if (n == 30) return "BLACK"; if (n == 31) return "RED"; if (n == 32) return "GREEN"; if (n == 33) return "YELLOW"; if (n == 34) return "BLUE"; if (n == 35) return "MAGENTA"; if (n == 36) return "CYAN"; if (n == 37) return "WHITE"; if (n == 40) return "BLACK"; if (n == 41) return "BRED"; if (n == 42) return "BGREEN"; if (n == 43) return "BYELLOW"; if (n == 44) return "BBLUE"; if (n == 45) return "BMAGENTA"; if (n == 46) return "BCYAN"; if (n == 47) return "BWHITE"; } { while (match($0, /\033\[[0-9;]*m/) != 0) { printf "%s<", substr($0, 1, RSTART-1); codes = substr($0, RSTART+2, RLENGTH-3); if (length(codes) == 0) printf "%s", name(0) else { n = split(codes, ary, ";"); sep = ""; for (i = 1; i <= n; i++) { printf "%s%s", sep, name(ary[i]); sep = ";" } } printf ">"; $0 = substr($0, RSTART + RLENGTH, length($0) - RSTART - RLENGTH + 1); } print } ' } lf_to_nul () { perl -pe 'y/\012/\000/' } nul_to_q () { perl -pe 'y/\000/Q/' } q_to_nul () { perl -pe 'y/Q/\000/' } q_to_cr () { tr Q '\015' } q_to_tab () { tr Q '\011' } qz_to_tab_space () { tr QZ '\011\040' } append_cr () { sed -e 's/$/Q/' | tr Q '\015' } remove_cr () { tr '\015' Q | sed -e 's/Q$//' } # Generate an output of $1 bytes of all zeroes (NULs, not ASCII zeroes). # If $1 is 'infinity', output forever or until the receiving pipe stops reading, # whichever comes first. generate_zero_bytes () { test-tool genzeros "$@" } # In some bourne shell implementations, the "unset" builtin returns # nonzero status when a variable to be unset was not set in the first # place. # # Use sane_unset when that should not be considered an error. sane_unset () { unset "$@" return 0 } test_tick () { if test -z "${test_tick+set}" then test_tick=1112911993 else test_tick=$(($test_tick + 60)) fi GIT_COMMITTER_DATE="$test_tick -0700" GIT_AUTHOR_DATE="$test_tick -0700" export GIT_COMMITTER_DATE GIT_AUTHOR_DATE } # Stop execution and start a shell. This is useful for debugging tests. # # Be sure to remove all invocations of this command before submitting. test_pause () { "$SHELL_PATH" <&6 >&5 2>&7 } # Wrap git with a debugger. Adding this to a command can make it easier # to understand what is going on in a failing test. # # Examples: # debug git checkout master # debug --debugger=nemiver git $ARGS # debug -d "valgrind --tool=memcheck --track-origins=yes" git $ARGS debug () { case "$1" in -d) GIT_DEBUGGER="$2" && shift 2 ;; --debugger=*) GIT_DEBUGGER="${1#*=}" && shift 1 ;; *) GIT_DEBUGGER=1 ;; esac && GIT_DEBUGGER="${GIT_DEBUGGER}" "$@" <&6 >&5 2>&7 } # Call test_commit with the arguments # [-C ] [ [ []]]" # # This will commit a file with the given contents and the given commit # message, and tag the resulting commit with the given tag name. # # , , and all default to . # # If the first argument is "-C", the second argument is used as a path for # the git invocations. test_commit () { notick= && signoff= && indir= && while test $# != 0 do case "$1" in --notick) notick=yes ;; --signoff) signoff="$1" ;; -C) indir="$2" shift ;; *) break ;; esac shift done && indir=${indir:+"$indir"/} && file=${2:-"$1.t"} && echo "${3-$1}" > "$indir$file" && git ${indir:+ -C "$indir"} add "$file" && if test -z "$notick" then test_tick fi && git ${indir:+ -C "$indir"} commit $signoff -m "$1" && git ${indir:+ -C "$indir"} tag "${4:-$1}" } # Call test_merge with the arguments " ", where # can be a tag pointing to the commit-to-merge. test_merge () { label="$1" && shift && test_tick && git merge -m "$label" "$@" && git tag "$label" } # Efficiently create commits, each with a unique number (from 1 to # by default) in the commit message. # # Usage: test_commit_bulk [options] # -C : # Run all git commands in directory # --ref=: # ref on which to create commits (default: HEAD) # --start=: # number commit messages from (default: 1) # --message=: # use as the commit mesasge (default: "commit %s") # --filename=: # modify in each commit (default: %s.t) # --contents=: # place in each file (default: "content %s") # --id=: # shorthand to use and %s in message, filename, and contents # # The message, filename, and contents strings are evaluated by printf, with the # first "%s" replaced by the current commit number. So you can do: # # test_commit_bulk --filename=file --contents="modification %s" # # to have every commit touch the same file, but with unique content. # test_commit_bulk () { tmpfile=.bulk-commit.input indir=. ref=HEAD n=1 message='commit %s' filename='%s.t' contents='content %s' while test $# -gt 0 do case "$1" in -C) indir=$2 shift ;; --ref=*) ref=${1#--*=} ;; --start=*) n=${1#--*=} ;; --message=*) message=${1#--*=} ;; --filename=*) filename=${1#--*=} ;; --contents=*) contents=${1#--*=} ;; --id=*) message="${1#--*=} %s" filename="${1#--*=}-%s.t" contents="${1#--*=} %s" ;; -*) BUG "invalid test_commit_bulk option: $1" ;; *) break ;; esac shift done total=$1 add_from= if git -C "$indir" rev-parse --quiet --verify "$ref" then add_from=t fi while test "$total" -gt 0 do test_tick && echo "commit $ref" printf 'author %s <%s> %s\n' \ "$GIT_AUTHOR_NAME" \ "$GIT_AUTHOR_EMAIL" \ "$GIT_AUTHOR_DATE" printf 'committer %s <%s> %s\n' \ "$GIT_COMMITTER_NAME" \ "$GIT_COMMITTER_EMAIL" \ "$GIT_COMMITTER_DATE" echo "data <"$tmpfile" git -C "$indir" \ -c fastimport.unpacklimit=0 \ fast-import <"$tmpfile" || return 1 # This will be left in place on failure, which may aid debugging. rm -f "$tmpfile" # If we updated HEAD, then be nice and update the index and working # tree, too. if test "$ref" = "HEAD" then git -C "$indir" checkout -f HEAD || return 1 fi } # This function helps systems where core.filemode=false is set. # Use it instead of plain 'chmod +x' to set or unset the executable bit # of a file in the working directory and add it to the index. test_chmod () { chmod "$@" && git update-index --add "--chmod=$@" } # Get the modebits from a file. test_modebits () { ls -l "$1" | sed -e 's|^\(..........\).*|\1|' } # Unset a configuration variable, but don't fail if it doesn't exist. test_unconfig () { config_dir= if test "$1" = -C then shift config_dir=$1 shift fi git ${config_dir:+-C "$config_dir"} config --unset-all "$@" config_status=$? case "$config_status" in 5) # ok, nothing to unset config_status=0 ;; esac return $config_status } # Set git config, automatically unsetting it after the test is over. test_config () { config_dir= if test "$1" = -C then shift config_dir=$1 shift fi test_when_finished "test_unconfig ${config_dir:+-C '$config_dir'} '$1'" && git ${config_dir:+-C "$config_dir"} config "$@" } test_config_global () { test_when_finished "test_unconfig --global '$1'" && git config --global "$@" } write_script () { { echo "#!${2-"$SHELL_PATH"}" && cat } >"$1" && chmod +x "$1" } # Use test_set_prereq to tell that a particular prerequisite is available. # The prerequisite can later be checked for in two ways: # # - Explicitly using test_have_prereq. # # - Implicitly by specifying the prerequisite tag in the calls to # test_expect_{success,failure,code}. # # The single parameter is the prerequisite tag (a simple word, in all # capital letters by convention). test_unset_prereq () { ! test_have_prereq "$1" || satisfied_prereq="${satisfied_prereq% $1 *} ${satisfied_prereq#* $1 }" } test_set_prereq () { if test -n "$GIT_TEST_FAIL_PREREQS_INTERNAL" then case "$1" in # The "!" case is handled below with # test_unset_prereq() !*) ;; # (Temporary?) whitelist of things we can't easily # pretend not to support SYMLINKS) ;; # Inspecting whether GIT_TEST_FAIL_PREREQS is on # should be unaffected. FAIL_PREREQS) ;; *) return esac fi case "$1" in !*) test_unset_prereq "${1#!}" ;; *) satisfied_prereq="$satisfied_prereq$1 " ;; esac } satisfied_prereq=" " lazily_testable_prereq= lazily_tested_prereq= # Usage: test_lazy_prereq PREREQ 'script' test_lazy_prereq () { lazily_testable_prereq="$lazily_testable_prereq$1 " eval test_prereq_lazily_$1=\$2 } test_run_lazy_prereq_ () { script=' mkdir -p "$TRASH_DIRECTORY/prereq-test-dir" && ( cd "$TRASH_DIRECTORY/prereq-test-dir" &&'"$2"' )' say >&3 "checking prerequisite: $1" say >&3 "$script" test_eval_ "$script" eval_ret=$? rm -rf "$TRASH_DIRECTORY/prereq-test-dir" if test "$eval_ret" = 0; then say >&3 "prerequisite $1 ok" else say >&3 "prerequisite $1 not satisfied" fi return $eval_ret } test_have_prereq () { # prerequisites can be concatenated with ',' save_IFS=$IFS IFS=, set -- $* IFS=$save_IFS total_prereq=0 ok_prereq=0 missing_prereq= for prerequisite do case "$prerequisite" in !*) negative_prereq=t prerequisite=${prerequisite#!} ;; *) negative_prereq= esac case " $lazily_tested_prereq " in *" $prerequisite "*) ;; *) case " $lazily_testable_prereq " in *" $prerequisite "*) eval "script=\$test_prereq_lazily_$prerequisite" && if test_run_lazy_prereq_ "$prerequisite" "$script" then test_set_prereq $prerequisite fi lazily_tested_prereq="$lazily_tested_prereq$prerequisite " esac ;; esac total_prereq=$(($total_prereq + 1)) case "$satisfied_prereq" in *" $prerequisite "*) satisfied_this_prereq=t ;; *) satisfied_this_prereq= esac case "$satisfied_this_prereq,$negative_prereq" in t,|,t) ok_prereq=$(($ok_prereq + 1)) ;; *) # Keep a list of missing prerequisites; restore # the negative marker if necessary. prerequisite=${negative_prereq:+!}$prerequisite if test -z "$missing_prereq" then missing_prereq=$prerequisite else missing_prereq="$prerequisite,$missing_prereq" fi esac done test $total_prereq = $ok_prereq } test_declared_prereq () { case ",$test_prereq," in *,$1,*) return 0 ;; esac return 1 } test_verify_prereq () { test -z "$test_prereq" || expr >/dev/null "$test_prereq" : '[A-Z0-9_,!]*$' || BUG "'$test_prereq' does not look like a prereq" } test_expect_failure () { test_start_ test "$#" = 3 && { test_prereq=$1; shift; } || test_prereq= test "$#" = 2 || BUG "not 2 or 3 parameters to test-expect-failure" test_verify_prereq export test_prereq if ! test_skip "$@" then say >&3 "checking known breakage of $TEST_NUMBER.$test_count '$1': $2" if test_run_ "$2" expecting_failure then test_known_broken_ok_ "$1" else test_known_broken_failure_ "$1" fi fi test_finish_ } test_expect_success () { test_start_ test "$#" = 3 && { test_prereq=$1; shift; } || test_prereq= test "$#" = 2 || BUG "not 2 or 3 parameters to test-expect-success" test_verify_prereq export test_prereq if ! test_skip "$@" then say >&3 "expecting success of $TEST_NUMBER.$test_count '$1': $2" if test_run_ "$2" then test_ok_ "$1" else test_failure_ "$@" fi fi test_finish_ } # test_external runs external test scripts that provide continuous # test output about their progress, and succeeds/fails on # zero/non-zero exit code. It outputs the test output on stdout even # in non-verbose mode, and announces the external script with "# run # : ..." before running it. When providing relative paths, keep in # mind that all scripts run in "trash directory". # Usage: test_external description command arguments... # Example: test_external 'Perl API' perl ../path/to/test.pl test_external () { test "$#" = 4 && { test_prereq=$1; shift; } || test_prereq= test "$#" = 3 || BUG "not 3 or 4 parameters to test_external" descr="$1" shift test_verify_prereq export test_prereq if ! test_skip "$descr" "$@" then # Announce the script to reduce confusion about the # test output that follows. say_color "" "# run $test_count: $descr ($*)" # Export TEST_DIRECTORY, TRASH_DIRECTORY and GIT_TEST_LONG # to be able to use them in script export TEST_DIRECTORY TRASH_DIRECTORY GIT_TEST_LONG # Run command; redirect its stderr to &4 as in # test_run_, but keep its stdout on our stdout even in # non-verbose mode. "$@" 2>&4 if test "$?" = 0 then if test $test_external_has_tap -eq 0; then test_ok_ "$descr" else say_color "" "# test_external test $descr was ok" test_success=$(($test_success + 1)) fi else if test $test_external_has_tap -eq 0; then test_failure_ "$descr" "$@" else say_color error "# test_external test $descr failed: $@" test_failure=$(($test_failure + 1)) fi fi fi } # Like test_external, but in addition tests that the command generated # no output on stderr. test_external_without_stderr () { # The temporary file has no (and must have no) security # implications. tmp=${TMPDIR:-/tmp} stderr="$tmp/git-external-stderr.$$.tmp" test_external "$@" 4> "$stderr" test -f "$stderr" || error "Internal error: $stderr disappeared." descr="no stderr: $1" shift say >&3 "# expecting no stderr from previous command" if test ! -s "$stderr" then rm "$stderr" if test $test_external_has_tap -eq 0; then test_ok_ "$descr" else say_color "" "# test_external_without_stderr test $descr was ok" test_success=$(($test_success + 1)) fi else if test "$verbose" = t then output=$(echo; echo "# Stderr is:"; cat "$stderr") else output= fi # rm first in case test_failure exits. rm "$stderr" if test $test_external_has_tap -eq 0; then test_failure_ "$descr" "$@" "$output" else say_color error "# test_external_without_stderr test $descr failed: $@: $output" test_failure=$(($test_failure + 1)) fi fi } # debugging-friendly alternatives to "test [-f|-d|-e]" # The commands test the existence or non-existence of $1. $2 can be # given to provide a more precise diagnosis. test_path_is_file () { if ! test -f "$1" then echo "File $1 doesn't exist. $2" false fi } test_path_is_dir () { if ! test -d "$1" then echo "Directory $1 doesn't exist. $2" false fi } test_path_exists () { if ! test -e "$1" then echo "Path $1 doesn't exist. $2" false fi } # Check if the directory exists and is empty as expected, barf otherwise. test_dir_is_empty () { test_path_is_dir "$1" && if test -n "$(ls -a1 "$1" | egrep -v '^\.\.?$')" then echo "Directory '$1' is not empty, it contains:" ls -la "$1" return 1 fi } # Check if the file exists and has a size greater than zero test_file_not_empty () { if ! test -s "$1" then echo "'$1' is not a non-empty file." false fi } test_path_is_missing () { if test -e "$1" then echo "Path exists:" ls -ld "$1" if test $# -ge 1 then echo "$*" fi false fi } # test_line_count checks that a file has the number of lines it # ought to. For example: # # test_expect_success 'produce exactly one line of output' ' # do something >output && # test_line_count = 1 output # ' # # is like "test $(wc -l [,<...>]: # Don't treat an exit caused by the given signal as error. # Multiple signals can be specified as a comma separated list. # Currently recognized signal names are: sigpipe, success. # (Don't use 'success', use 'test_might_fail' instead.) test_must_fail () { case "$1" in ok=*) _test_ok=${1#ok=} shift ;; *) _test_ok= ;; esac "$@" 2>&7 exit_code=$? if test $exit_code -eq 0 && ! list_contains "$_test_ok" success then echo >&4 "test_must_fail: command succeeded: $*" return 1 elif test_match_signal 13 $exit_code && list_contains "$_test_ok" sigpipe then return 0 elif test $exit_code -gt 129 && test $exit_code -le 192 then echo >&4 "test_must_fail: died by signal $(($exit_code - 128)): $*" return 1 elif test $exit_code -eq 127 then echo >&4 "test_must_fail: command not found: $*" return 1 elif test $exit_code -eq 126 then echo >&4 "test_must_fail: valgrind error: $*" return 1 fi return 0 } 7>&2 2>&4 # Similar to test_must_fail, but tolerates success, too. This is # meant to be used in contexts like: # # test_expect_success 'some command works without configuration' ' # test_might_fail git config --unset all.configuration && # do something # ' # # Writing "git config --unset all.configuration || :" would be wrong, # because we want to notice if it fails due to segv. # # Accepts the same options as test_must_fail. test_might_fail () { test_must_fail ok=success "$@" 2>&7 } 7>&2 2>&4 # Similar to test_must_fail and test_might_fail, but check that a # given command exited with a given exit code. Meant to be used as: # # test_expect_success 'Merge with d/f conflicts' ' # test_expect_code 1 git merge "merge msg" B master # ' test_expect_code () { want_code=$1 shift "$@" 2>&7 exit_code=$? if test $exit_code = $want_code then return 0 fi echo >&4 "test_expect_code: command exited with $exit_code, we wanted $want_code $*" return 1 } 7>&2 2>&4 # test_cmp is a helper function to compare actual and expected output. # You can use it like: # # test_expect_success 'foo works' ' # echo expected >expected && # foo >actual && # test_cmp expected actual # ' # # This could be written as either "cmp" or "diff -u", but: # - cmp's output is not nearly as easy to read as diff -u # - not all diff versions understand "-u" test_cmp() { eval "$GIT_TEST_CMP" '"$@"' } # Check that the given config key has the expected value. # # test_cmp_config [-C ] # [...] # # for example to check that the value of core.bar is foo # # test_cmp_config foo core.bar # test_cmp_config() { local GD && if test "$1" = "-C" then shift && GD="-C $1" && shift fi && printf "%s\n" "$1" >expect.config && shift && git $GD config "$@" >actual.config && test_cmp expect.config actual.config } # test_cmp_bin - helper to compare binary files test_cmp_bin() { cmp "$@" } # Use this instead of test_cmp to compare files that contain expected and # actual output from git commands that can be translated. When running # under GIT_TEST_GETTEXT_POISON this pretends that the command produced expected # results. test_i18ncmp () { ! test_have_prereq C_LOCALE_OUTPUT || test_cmp "$@" } # Use this instead of "grep expected-string actual" to see if the # output from a git command that can be translated either contains an # expected string, or does not contain an unwanted one. When running # under GIT_TEST_GETTEXT_POISON this pretends that the command produced expected # results. test_i18ngrep () { eval "last_arg=\${$#}" test -f "$last_arg" || BUG "test_i18ngrep requires a file to read as the last parameter" if test $# -lt 2 || { test "x!" = "x$1" && test $# -lt 3 ; } then BUG "too few parameters to test_i18ngrep" fi if test_have_prereq !C_LOCALE_OUTPUT then # pretend success return 0 fi if test "x!" = "x$1" then shift ! grep "$@" && return 0 echo >&4 "error: '! grep $@' did find a match in:" else grep "$@" && return 0 echo >&4 "error: 'grep $@' didn't find a match in:" fi if test -s "$last_arg" then cat >&4 "$last_arg" else echo >&4 "" fi return 1 } # Call any command "$@" but be more verbose about its # failure. This is handy for commands like "test" which do # not output anything when they fail. verbose () { "$@" && return 0 echo >&4 "command failed: $(git rev-parse --sq-quote "$@")" return 1 } # Check if the file expected to be empty is indeed empty, and barfs # otherwise. test_must_be_empty () { test_path_is_file "$1" && if test -s "$1" then echo "'$1' is not empty, it contains:" cat "$1" return 1 fi } # Tests that its two parameters refer to the same revision, or if '!' is # provided first, that its other two parameters refer to different # revisions. test_cmp_rev () { local op='=' wrong_result=different if test $# -ge 1 && test "x$1" = 'x!' then op='!=' wrong_result='the same' shift fi if test $# != 2 then error "bug in the test script: test_cmp_rev requires two revisions, but got $#" else local r1 r2 r1=$(git rev-parse --verify "$1") && r2=$(git rev-parse --verify "$2") || return 1 if ! test "$r1" "$op" "$r2" then cat >&4 <<-EOF error: two revisions point to $wrong_result objects: '$1': $r1 '$2': $r2 EOF return 1 fi fi } # Compare paths respecting core.ignoreCase test_cmp_fspath () { if test "x$1" = "x$2" then return 0 fi if test true != "$(git config --get --type=bool core.ignorecase)" then return 1 fi test "x$(echo "$1" | tr A-Z a-z)" = "x$(echo "$2" | tr A-Z a-z)" } # Print a sequence of integers in increasing order, either with # two arguments (start and end): # # test_seq 1 5 -- outputs 1 2 3 4 5 one line at a time # # or with one argument (end), in which case it starts counting # from 1. test_seq () { case $# in 1) set 1 "$@" ;; 2) ;; *) BUG "not 1 or 2 parameters to test_seq" ;; esac test_seq_counter__=$1 while test "$test_seq_counter__" -le "$2" do echo "$test_seq_counter__" test_seq_counter__=$(( $test_seq_counter__ + 1 )) done } # This function can be used to schedule some commands to be run # unconditionally at the end of the test to restore sanity: # # test_expect_success 'test core.capslock' ' # git config core.capslock true && # test_when_finished "git config --unset core.capslock" && # hello world # ' # # That would be roughly equivalent to # # test_expect_success 'test core.capslock' ' # git config core.capslock true && # hello world # git config --unset core.capslock # ' # # except that the greeting and config --unset must both succeed for # the test to pass. # # Note that under --immediate mode, no clean-up is done to help diagnose # what went wrong. test_when_finished () { # We cannot detect when we are in a subshell in general, but by # doing so on Bash is better than nothing (the test will # silently pass on other shells). test "${BASH_SUBSHELL-0}" = 0 || BUG "test_when_finished does nothing in a subshell" test_cleanup="{ $* } && (exit \"\$eval_ret\"); eval_ret=\$?; $test_cleanup" } # This function can be used to schedule some commands to be run # unconditionally at the end of the test script, e.g. to stop a daemon: # # test_expect_success 'test git daemon' ' # git daemon & # daemon_pid=$! && # test_atexit 'kill $daemon_pid' && # hello world # ' # # The commands will be executed before the trash directory is removed, # i.e. the atexit commands will still be able to access any pidfiles or # socket files. # # Note that these commands will be run even when a test script run # with '--immediate' fails. Be careful with your atexit commands to # minimize any changes to the failed state. test_atexit () { # We cannot detect when we are in a subshell in general, but by # doing so on Bash is better than nothing (the test will # silently pass on other shells). test "${BASH_SUBSHELL-0}" = 0 || error "bug in test script: test_atexit does nothing in a subshell" test_atexit_cleanup="{ $* } && (exit \"\$eval_ret\"); eval_ret=\$?; $test_atexit_cleanup" } # Most tests can use the created repository, but some may need to create more. # Usage: test_create_repo test_create_repo () { test "$#" = 1 || BUG "not 1 parameter to test-create-repo" repo="$1" mkdir -p "$repo" ( cd "$repo" || error "Cannot setup test environment" "${GIT_TEST_INSTALLED:-$GIT_EXEC_PATH}/git$X" init \ "--template=$GIT_BUILD_DIR/templates/blt/" >&3 2>&4 || error "cannot run git init -- have you built things yet?" mv .git/hooks .git/hooks-disabled ) || exit } # This function helps on symlink challenged file systems when it is not # important that the file system entry is a symbolic link. # Use test_ln_s_add instead of "ln -s x y && git add y" to add a # symbolic link entry y to the index. test_ln_s_add () { if test_have_prereq SYMLINKS then ln -s "$1" "$2" && git update-index --add "$2" else printf '%s' "$1" >"$2" && ln_s_obj=$(git hash-object -w "$2") && git update-index --add --cacheinfo 120000 $ln_s_obj "$2" && # pick up stat info from the file git update-index "$2" fi } # This function writes out its parameters, one per line test_write_lines () { printf "%s\n" "$@" } perl () { command "$PERL_PATH" "$@" 2>&7 } 7>&2 2>&4 # Given the name of an environment variable with a bool value, normalize # its value to a 0 (true) or 1 (false or empty string) return code. # # test_bool_env GIT_TEST_HTTPD # # Return with code corresponding to the given default value if the variable # is unset. # Abort the test script if either the value of the variable or the default # are not valid bool values. test_bool_env () { if test $# != 2 then BUG "test_bool_env requires two parameters (variable name and default value)" fi git env--helper --type=bool --default="$2" --exit-code "$1" ret=$? case $ret in 0|1) # unset or valid bool value ;; *) # invalid bool value or something unexpected error >&7 "test_bool_env requires bool values both for \$$1 and for the default fallback" ;; esac return $ret } # Exit the test suite, either by skipping all remaining tests or by # exiting with an error. If our prerequisite variable $1 falls back # on a default assume we were opportunistically trying to set up some # tests and we skip. If it is explicitly "true", then we report a failure. # # The error/skip message should be given by $2. # test_skip_or_die () { if ! test_bool_env "$1" false then skip_all=$2 test_done fi error "$2" } # The following mingw_* functions obey POSIX shell syntax, but are actually # bash scripts, and are meant to be used only with bash on Windows. # A test_cmp function that treats LF and CRLF equal and avoids to fork # diff when possible. mingw_test_cmp () { # Read text into shell variables and compare them. If the results # are different, use regular diff to report the difference. local test_cmp_a= test_cmp_b= # When text came from stdin (one argument is '-') we must feed it # to diff. local stdin_for_diff= # Since it is difficult to detect the difference between an # empty input file and a failure to read the files, we go straight # to diff if one of the inputs is empty. if test -s "$1" && test -s "$2" then # regular case: both files non-empty mingw_read_file_strip_cr_ test_cmp_a <"$1" mingw_read_file_strip_cr_ test_cmp_b <"$2" elif test -s "$1" && test "$2" = - then # read 2nd file from stdin mingw_read_file_strip_cr_ test_cmp_a <"$1" mingw_read_file_strip_cr_ test_cmp_b stdin_for_diff='<<<"$test_cmp_b"' elif test "$1" = - && test -s "$2" then # read 1st file from stdin mingw_read_file_strip_cr_ test_cmp_a mingw_read_file_strip_cr_ test_cmp_b <"$2" stdin_for_diff='<<<"$test_cmp_a"' fi test -n "$test_cmp_a" && test -n "$test_cmp_b" && test "$test_cmp_a" = "$test_cmp_b" || eval "diff -u \"\$@\" $stdin_for_diff" } # $1 is the name of the shell variable to fill in mingw_read_file_strip_cr_ () { # Read line-wise using LF as the line separator # and use IFS to strip CR. local line while : do if IFS=$'\r' read -r -d $'\n' line then # good line=$line$'\n' else # we get here at EOF, but also if the last line # was not terminated by LF; in the latter case, # some text was read if test -z "$line" then # EOF, really break fi fi eval "$1=\$$1\$line" done } # Like "env FOO=BAR some-program", but run inside a subshell, which means # it also works for shell functions (though those functions cannot impact # the environment outside of the test_env invocation). test_env () { ( while test $# -gt 0 do case "$1" in *=*) eval "${1%%=*}=\${1#*=}" eval "export ${1%%=*}" shift ;; *) "$@" 2>&7 exit ;; esac done ) } 7>&2 2>&4 # Returns true if the numeric exit code in "$2" represents the expected signal # in "$1". Signals should be given numerically. test_match_signal () { if test "$2" = "$((128 + $1))" then # POSIX return 0 elif test "$2" = "$((256 + $1))" then # ksh return 0 fi return 1 } # Read up to "$1" bytes (or to EOF) from stdin and write them to stdout. test_copy_bytes () { perl -e ' my $len = $ARGV[1]; while ($len > 0) { my $s; my $nread = sysread(STDIN, $s, $len); die "cannot read: $!" unless defined($nread); last unless $nread; print $s; $len -= $nread; } ' - "$1" } # run "$@" inside a non-git directory nongit () { test -d non-repo || mkdir non-repo || return 1 ( GIT_CEILING_DIRECTORIES=$(pwd) && export GIT_CEILING_DIRECTORIES && cd non-repo && "$@" 2>&7 ) } 7>&2 2>&4 # convert function arguments or stdin (if not arguments given) to pktline # representation. If multiple arguments are given, they are separated by # whitespace and put in a single packet. Note that data containing NULs must be # given on stdin, and that empty input becomes an empty packet, not a flush # packet (for that you can just print 0000 yourself). packetize() { if test $# -gt 0 then packet="$*" printf '%04x%s' "$((4 + ${#packet}))" "$packet" else perl -e ' my $packet = do { local $/; }; printf "%04x%s", 4 + length($packet), $packet; ' fi } # Parse the input as a series of pktlines, writing the result to stdout. # Sideband markers are removed automatically, and the output is routed to # stderr if appropriate. # # NUL bytes are converted to "\\0" for ease of parsing with text tools. depacketize () { perl -e ' while (read(STDIN, $len, 4) == 4) { if ($len eq "0000") { print "FLUSH\n"; } else { read(STDIN, $buf, hex($len) - 4); $buf =~ s/\0/\\0/g; if ($buf =~ s/^[\x2\x3]//) { print STDERR $buf; } else { $buf =~ s/^\x1//; print $buf; } } } ' } # Converts base-16 data into base-8. The output is given as a sequence of # escaped octals, suitable for consumption by 'printf'. hex2oct () { perl -ne 'printf "\\%03o", hex for /../g' } # Set the hash algorithm in use to $1. Only useful when testing the testsuite. test_set_hash () { test_hash_algo="$1" } # Detect the hash algorithm in use. test_detect_hash () { test_hash_algo="${GIT_TEST_DEFAULT_HASH:-sha1}" } # Load common hash metadata and common placeholder object IDs for use with # test_oid. test_oid_init () { test -n "$test_hash_algo" || test_detect_hash && test_oid_cache <"$TEST_DIRECTORY/oid-info/hash-info" && test_oid_cache <"$TEST_DIRECTORY/oid-info/oid" } # Load key-value pairs from stdin suitable for use with test_oid. Blank lines # and lines starting with "#" are ignored. Keys must be shell identifier # characters. # # Examples: # rawsz sha1:20 # rawsz sha256:32 test_oid_cache () { local tag rest k v && { test -n "$test_hash_algo" || test_detect_hash; } && while read tag rest do case $tag in \#*) continue;; ?*) # non-empty ;; *) # blank line continue;; esac && k="${rest%:*}" && v="${rest#*:}" && if ! expr "$k" : '[a-z0-9][a-z0-9]*$' >/dev/null then BUG 'bad hash algorithm' fi && eval "test_oid_${k}_$tag=\"\$v\"" done } # Look up a per-hash value based on a key ($1). The value must have been loaded # by test_oid_init or test_oid_cache. test_oid () { local algo="${test_hash_algo}" && case "$1" in --hash=*) algo="${1#--hash=}" && shift;; *) ;; esac && local var="test_oid_${algo}_$1" && # If the variable is unset, we must be missing an entry for this # key-hash pair, so exit with an error. if eval "test -z \"\${$var+set}\"" then BUG "undefined key '$1'" fi && eval "printf '%s' \"\${$var}\"" } # Insert a slash into an object ID so it can be used to reference a location # under ".git/objects". For example, "deadbeef..." becomes "de/adbeef..". test_oid_to_path () { local basename=${1#??} echo "${1%$basename}/$basename" } # Choose a port number based on the test script's number and store it in # the given variable name, unless that variable already contains a number. test_set_port () { local var=$1 port if test $# -ne 1 || test -z "$var" then BUG "test_set_port requires a variable name" fi eval port=\$$var case "$port" in "") # No port is set in the given env var, use the test # number as port number instead. # Remove not only the leading 't', but all leading zeros # as well, so the arithmetic below won't (mis)interpret # a test number like '0123' as an octal value. port=${this_test#${this_test%%[1-9]*}} if test "${port:-0}" -lt 1024 then # root-only port, use a larger one instead. port=$(($port + 10000)) fi ;; *[!0-9]*|0*) error >&7 "invalid port number: $port" ;; *) # The user has specified the port. ;; esac # Make sure that parallel '--stress' test jobs get different # ports. port=$(($port + ${GIT_TEST_STRESS_JOB_NR:-0})) eval $var=$port } # Compare a file containing rev-list bitmap traversal output to its non-bitmap # counterpart. You can't just use test_cmp for this, because the two produce # subtly different output: # # - regular output is in traversal order, whereas bitmap is split by type, # with non-packed objects at the end # # - regular output has a space and the pathname appended to non-commit # objects; bitmap output omits this # # This function normalizes and compares the two. The second file should # always be the bitmap output. test_bitmap_traversal () { if test "$1" = "--no-confirm-bitmaps" then shift elif cmp "$1" "$2" then echo >&2 "identical raw outputs; are you sure bitmaps were used?" return 1 fi && cut -d' ' -f1 "$1" | sort >"$1.normalized" && sort "$2" >"$2.normalized" && test_cmp "$1.normalized" "$2.normalized" && rm -f "$1.normalized" "$2.normalized" } # Tests for the hidden file attribute on Windows test_path_is_hidden () { test_have_prereq MINGW || BUG "test_path_is_hidden can only be used on Windows" # Use the output of `attrib`, ignore the absolute path case "$("$SYSTEMROOT"/system32/attrib "$1")" in *H*?:*) return 0;; esac return 1 }