# # 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/ . if [ ${BASH_VERSINFO[0]} -lt 4 ]; then echo "Error: The notmuch test suite requires a bash version >= 4.0" echo "due to use of associative arrays within the test suite." echo "Please try again with a newer bash (or help us fix the" echo "test suite to be more portable). Thanks." exit 1 fi # Make sure echo builtin does not expand backslash-escape sequences by default. shopt -u xpg_echo this_test=${0##*/} this_test=${this_test%.sh} this_test_bare=${this_test#T[0-9][0-9][0-9]-} # if --tee was passed, write the output not only to the terminal, but # additionally to the file test-results/$BASENAME.out, too. case "$GIT_TEST_TEE_STARTED, $* " in done,*) # do not redirect again ;; *' --tee '*|*' --va'*) mkdir -p test-results BASE=test-results/$this_test (GIT_TEST_TEE_STARTED=done ${SHELL-sh} "$0" "$@" 2>&1; echo $? > $BASE.exit) | tee $BASE.out test "$(cat $BASE.exit)" = 0 exit ;; esac # Save STDOUT to fd 6 and STDERR to fd 7. exec 6>&1 7>&2 # Make xtrace debugging (when used) use redirected STDERR, with verbose lead: BASH_XTRACEFD=7 export PS4='+(${BASH_SOURCE}:${LINENO}): ${FUNCNAME[0]:+${FUNCNAME[0]}(): }' # Keep the original TERM for say_color and test_emacs ORIGINAL_TERM=$TERM # dtach(1) provides more capable terminal environment to anything # that requires more than dumb terminal... [ x"${TERM:-dumb}" = xdumb ] && DTACH_TERM=vt100 || DTACH_TERM=$TERM # For repeatability, reset the environment to known value. LANG=C LC_ALL=C PAGER=cat TZ=UTC TERM=dumb export LANG LC_ALL PAGER TERM TZ GIT_TEST_CMP=${GIT_TEST_CMP:-diff -u} if [[ ( -n "$TEST_EMACS" && -z "$TEST_EMACSCLIENT" ) || \ ( -z "$TEST_EMACS" && -n "$TEST_EMACSCLIENT" ) ]]; then echo "error: must specify both or neither of TEST_EMACS and TEST_EMACSCLIENT" >&2 exit 1 fi TEST_EMACS=${TEST_EMACS:-${EMACS:-emacs}} TEST_EMACSCLIENT=${TEST_EMACSCLIENT:-emacsclient} TEST_CC=${TEST_CC:-cc} TEST_CFLAGS=${TEST_CFLAGS:-"-g -O0"} # Protect ourselves from common misconfiguration to export # CDPATH into the environment unset CDPATH unset GREP_OPTIONS # Convenience # # A regexp to match 5 and 40 hexdigits _x05='[0-9a-f][0-9a-f][0-9a-f][0-9a-f][0-9a-f]' _x40="$_x05$_x05$_x05$_x05$_x05$_x05$_x05$_x05" _x04='[0-9a-f][0-9a-f][0-9a-f][0-9a-f]' _x32="$_x04$_x04$_x04$_x04$_x04$_x04$_x04$_x04" # Each test should start with something like this, after copyright notices: # # test_description='Description of this test... # This test checks if command xyzzy does the right thing... # ' # . ./test-lib.sh || exit 1 [ "x$ORIGINAL_TERM" != "xdumb" ] && ( TERM=$ORIGINAL_TERM && export TERM && [ -t 1 ] && tput bold >/dev/null 2>&1 && tput setaf 1 >/dev/null 2>&1 && tput sgr0 >/dev/null 2>&1 ) && color=t while test "$#" -ne 0 do case "$1" in -d|--d|--de|--deb|--debu|--debug) debug=t; shift ;; -i|--i|--im|--imm|--imme|--immed|--immedi|--immedia|--immediat|--immediate) immediate=t; shift ;; -l|--l|--lo|--lon|--long|--long-|--long-t|--long-te|--long-tes|--long-test|--long-tests) GIT_TEST_LONG=t; export GIT_TEST_LONG; shift ;; -h|--h|--he|--hel|--help) help=t; shift ;; -v|--v|--ve|--ver|--verb|--verbo|--verbos|--verbose) verbose=t; shift ;; -q|--q|--qu|--qui|--quie|--quiet) quiet=t; shift ;; --with-dashes) with_dashes=t; shift ;; --no-color) color=; shift ;; --no-python) # noop now... shift ;; --va|--val|--valg|--valgr|--valgri|--valgrin|--valgrind) valgrind=t; verbose=t; shift ;; --tee) shift ;; # was handled already --root=*) root=$(expr "z$1" : 'z[^=]*=\(.*\)') shift ;; *) echo "error: unknown test option '$1'" >&2; exit 1 ;; esac done if test -n "$debug"; then print_subtest () { printf " %-4s" "[$((test_count - 1))]" } else print_subtest () { true } fi if test -n "$color"; then say_color () { ( TERM=$ORIGINAL_TERM export TERM case "$1" in error) tput bold; tput setaf 1;; # bold red skip) tput bold; tput setaf 2;; # bold green pass) tput setaf 2;; # green info) tput setaf 3;; # brown *) test -n "$quiet" && return;; esac shift printf " " printf "$@" tput sgr0 print_subtest ) } else say_color() { test -z "$1" && test -n "$quiet" && return shift printf " " printf "$@" print_subtest } fi error () { say_color error "error: $*\n" GIT_EXIT_OK=t exit 1 } say () { say_color info "$*" } test "${test_description}" != "" || error "Test script did not set test_description." if test "$help" = "t" then echo "Tests ${test_description}" exit 0 fi test_description_printed= print_test_description () { test -z "$test_description_printed" || return 0 echo echo $this_test: "Testing ${test_description}" test_description_printed=1 } if [ -z "$NOTMUCH_TEST_QUIET" ] then print_test_description fi test_failure=0 test_count=0 test_fixed=0 test_broken=0 test_success=0 _die_common () { code=$? trap - EXIT set +ex rm -rf "$TEST_TMPDIR" } die () { _die_common if test -n "$GIT_EXIT_OK" then exit $code else exec >&6 say_color error '%-6s' FATAL echo " $test_subtest_name" echo echo "Unexpected exit while executing $0. Exit code $code." exit 1 fi } die_signal () { _die_common echo >&6 "FATAL: $0: interrupted by signal" $((code - 128)) exit $code } GIT_EXIT_OK= # Note: TEST_TMPDIR *NOT* exported! TEST_TMPDIR=$(mktemp -d "${TMPDIR:-/tmp}/notmuch-test-$$.XXXXXX") trap 'die' EXIT trap 'die_signal' HUP INT TERM test_decode_color () { sed -e 's/.\[1m//g' \ -e 's/.\[31m//g' \ -e 's/.\[32m//g' \ -e 's/.\[33m//g' \ -e 's/.\[34m//g' \ -e 's/.\[35m//g' \ -e 's/.\[36m//g' \ -e 's/.\[m//g' } q_to_nul () { perl -pe 'y/Q/\000/' } q_to_cr () { tr Q '\015' } append_cr () { sed -e 's/$/Q/' | tr Q '\015' } remove_cr () { tr '\015' Q | sed -e 's/Q$//' } # Generate a new message in the mail directory, with a unique message # ID and subject. The message is not added to the index. # # After this function returns, the filename of the generated message # is available as $gen_msg_filename and the message ID is available as # $gen_msg_id . # # This function supports named parameters with the bash syntax for # assigning a value to an associative array ([name]=value). The # supported parameters are: # # [dir]=directory/of/choice # # Generate the message in directory 'directory/of/choice' within # the mail store. The directory will be created if necessary. # # [filename]=name # # Store the message in file 'name'. The default is to store it # in 'msg-', where is three-digit number of the # message. # # [body]=text # # Text to use as the body of the email message # # '[from]="Some User "' # '[to]="Some User "' # '[subject]="Subject of email message"' # '[date]="RFC 822 Date"' # # Values for email headers. If not provided, default values will # be generated instead. # # '[cc]="Some User "' # [reply-to]=some-address # [in-reply-to]= # [references]= # [content-type]=content-type-specification # '[header]=full header line, including keyword' # # Additional values for email headers. If these are not provided # then the relevant headers will simply not appear in the # message. # # '[id]=message-id' # # Controls the message-id of the created message. gen_msg_cnt=0 gen_msg_filename="" gen_msg_id="" generate_message () { # This is our (bash-specific) magic for doing named parameters local -A template="($@)" local additional_headers gen_msg_cnt=$((gen_msg_cnt + 1)) if [ -z "${template[filename]}" ]; then gen_msg_name="msg-$(printf "%03d" $gen_msg_cnt)" else gen_msg_name=${template[filename]} fi if [ -z "${template[id]}" ]; then gen_msg_id="${gen_msg_name%:2,*}@notmuch-test-suite" else gen_msg_id="${template[id]}" fi if [ -z "${template[dir]}" ]; then gen_msg_filename="${MAIL_DIR}/$gen_msg_name" else gen_msg_filename="${MAIL_DIR}/${template[dir]}/$gen_msg_name" mkdir -p "$(dirname "$gen_msg_filename")" fi if [ -z "${template[body]}" ]; then template[body]="This is just a test message (#${gen_msg_cnt})" fi if [ -z "${template[from]}" ]; then template[from]="Notmuch Test Suite " fi if [ -z "${template[to]}" ]; then template[to]="Notmuch Test Suite " fi if [ -z "${template[subject]}" ]; then if [ -n "$test_subtest_name" ]; then template[subject]="$test_subtest_name" else template[subject]="Test message #${gen_msg_cnt}" fi elif [ "${template[subject]}" = "@FORCE_EMPTY" ]; then template[subject]="" fi if [ -z "${template[date]}" ]; then # we use decreasing timestamps here for historical reasons; # the existing test suite when we converted to unique timestamps just # happened to have signicantly fewer failures with that choice. local date_secs=$((978709437 - gen_msg_cnt)) # printf %(..)T is bash 4.2+ feature. use perl fallback if needed... TZ=UTC printf -v template[date] "%(%a, %d %b %Y %T %z)T" $date_secs 2>/dev/null || template[date]=`perl -le 'use POSIX "strftime"; @time = gmtime '"$date_secs"'; print strftime "%a, %d %b %Y %T +0000", @time'` fi additional_headers="" if [ ! -z "${template[header]}" ]; then additional_headers="${template[header]} ${additional_headers}" fi if [ ! -z "${template[reply-to]}" ]; then additional_headers="Reply-To: ${template[reply-to]} ${additional_headers}" fi if [ ! -z "${template[in-reply-to]}" ]; then additional_headers="In-Reply-To: ${template[in-reply-to]} ${additional_headers}" fi if [ ! -z "${template[cc]}" ]; then additional_headers="Cc: ${template[cc]} ${additional_headers}" fi if [ ! -z "${template[bcc]}" ]; then additional_headers="Bcc: ${template[bcc]} ${additional_headers}" fi if [ ! -z "${template[references]}" ]; then additional_headers="References: ${template[references]} ${additional_headers}" fi if [ ! -z "${template[content-type]}" ]; then additional_headers="Content-Type: ${template[content-type]} ${additional_headers}" fi if [ ! -z "${template[content-transfer-encoding]}" ]; then additional_headers="Content-Transfer-Encoding: ${template[content-transfer-encoding]} ${additional_headers}" fi # Note that in the way we're setting it above and using it below, # `additional_headers' will also serve as the header / body separator # (empty line in between). cat <"$gen_msg_filename" From: ${template[from]} To: ${template[to]} Message-Id: <${gen_msg_id}> Subject: ${template[subject]} Date: ${template[date]} ${additional_headers} ${template[body]} EOF } # Generate a new message and add it to the database. # # All of the arguments and return values supported by generate_message # are also supported here, so see that function for details. add_message () { generate_message "$@" && notmuch new > /dev/null } # Deliver a message with emacs and add it to the database # # Uses emacs to generate and deliver a message to the mail store. # Accepts arbitrary extra emacs/elisp functions to modify the message # before sending, which is useful to doing things like attaching files # to the message and encrypting/signing. emacs_deliver_message () { local subject="$1" local body="$2" shift 2 # before we can send a message, we have to prepare the FCC maildir mkdir -p "$MAIL_DIR"/sent/{cur,new,tmp} # eval'ing smtp-dummy --background will set smtp_dummy_pid smtp_dummy_pid= eval `$TEST_DIRECTORY/smtp-dummy --background sent_message` test -n "$smtp_dummy_pid" || return 1 test_emacs \ "(let ((message-send-mail-function 'message-smtpmail-send-it) (mail-host-address \"example.com\") (smtpmail-smtp-server \"localhost\") (smtpmail-smtp-service \"25025\")) (notmuch-mua-mail) (message-goto-to) (insert \"test_suite@notmuchmail.org\nDate: 01 Jan 2000 12:00:00 -0000\") (message-goto-subject) (insert \"${subject}\") (message-goto-body) (insert \"${body}\") $@ (notmuch-mua-send-and-exit))" # In case message was sent properly, client waits for confirmation # before exiting and resuming control here; therefore making sure # that server exits by sending (KILL) signal to it is safe. kill -9 $smtp_dummy_pid notmuch new >/dev/null } # Pretend to deliver a message with emacs. Really save it to a file # and add it to the database # # Uses emacs to generate and deliver a message to the mail store. # Accepts arbitrary extra emacs/elisp functions to modify the message # before sending, which is useful to doing things like attaching files # to the message and encrypting/signing. emacs_fcc_message () { local subject="$1" local body="$2" shift 2 # before we can send a message, we have to prepare the FCC maildir mkdir -p "$MAIL_DIR"/sent/{cur,new,tmp} test_emacs \ "(let ((message-send-mail-function (lambda () t)) (mail-host-address \"example.com\")) (notmuch-mua-mail) (message-goto-to) (insert \"test_suite@notmuchmail.org\nDate: 01 Jan 2000 12:00:00 -0000\") (message-goto-subject) (insert \"${subject}\") (message-goto-body) (insert \"${body}\") $@ (notmuch-mua-send-and-exit))" || return 1 notmuch new >/dev/null } # Generate a corpus of email and add it to the database. # # This corpus is fixed, (it happens to be 50 messages from early in # the history of the notmuch mailing list), which allows for reliably # testing commands that need to operate on a not-totally-trivial # number of messages. add_email_corpus () { rm -rf ${MAIL_DIR} if [ -d $TEST_DIRECTORY/corpus.mail ]; then cp -a $TEST_DIRECTORY/corpus.mail ${MAIL_DIR} else cp -a $TEST_DIRECTORY/corpus ${MAIL_DIR} notmuch new >/dev/null cp -a ${MAIL_DIR} $TEST_DIRECTORY/corpus.mail fi } test_begin_subtest () { if [ -n "$inside_subtest" ]; then exec 1>&6 2>&7 # Restore stdout and stderr error "bug in test script: Missing test_expect_equal in ${BASH_SOURCE[1]}:${BASH_LINENO[0]}" fi test_subtest_name="$1" test_reset_state_ # Redirect test output to the previously prepared file descriptors # 3 and 4 (see below) if test "$verbose" != "t"; then exec 4>test.output 3>&4; fi exec >&3 2>&4 inside_subtest=t } # Pass test if two arguments match # # Note: Unlike all other test_expect_* functions, this function does # not accept a test name. Instead, the caller should call # test_begin_subtest before calling this function in order to set the # name. test_expect_equal () { exec 1>&6 2>&7 # Restore stdout and stderr inside_subtest= test "$#" = 3 && { prereq=$1; shift; } || prereq= test "$#" = 2 || error "bug in the test script: not 2 or 3 parameters to test_expect_equal" output="$1" expected="$2" if ! test_skip "$test_subtest_name" then if [ "$output" = "$expected" ]; then test_ok_ else testname=$this_test.$test_count echo "$expected" > $testname.expected echo "$output" > $testname.output test_failure_ "$(diff -u $testname.expected $testname.output)" fi fi } # Like test_expect_equal, but takes two filenames. test_expect_equal_file () { exec 1>&6 2>&7 # Restore stdout and stderr inside_subtest= test "$#" = 3 && { prereq=$1; shift; } || prereq= test "$#" = 2 || error "bug in the test script: not 2 or 3 parameters to test_expect_equal" file1="$1" basename1=`basename "$file1"` file2="$2" basename2=`basename "$file2"` if ! test_skip "$test_subtest_name" then if diff -q "$file1" "$file2" >/dev/null ; then test_ok_ else testname=$this_test.$test_count cp "$file1" "$testname.$basename1" cp "$file2" "$testname.$basename2" test_failure_ "$(diff -u "$testname.$basename1" "$testname.$basename2")" fi fi } # Like test_expect_equal, but arguments are JSON expressions to be # canonicalized before diff'ing. If an argument cannot be parsed, it # is used unchanged so that there's something to diff against. test_expect_equal_json () { # The test suite forces LC_ALL=C, but this causes Python 3 to # decode stdin as ASCII. We need to read JSON in UTF-8, so # override Python's stdio encoding defaults. output=$(echo "$1" | PYTHONIOENCODING=utf-8 $NOTMUCH_PYTHON -mjson.tool \ || echo "$1") expected=$(echo "$2" | PYTHONIOENCODING=utf-8 $NOTMUCH_PYTHON -mjson.tool \ || echo "$2") shift 2 test_expect_equal "$output" "$expected" "$@" } # Sort the top-level list of JSON data from stdin. test_sort_json () { PYTHONIOENCODING=utf-8 python -c \ "import sys, json; json.dump(sorted(json.load(sys.stdin)),sys.stdout)" } test_emacs_expect_t () { test "$#" = 2 && { prereq=$1; shift; } || prereq= test "$#" = 1 || error "bug in the test script: not 1 or 2 parameters to test_emacs_expect_t" # Run the test. if ! test_skip "$test_subtest_name" then test_emacs "(notmuch-test-run $1)" >/dev/null # Restore state after the test. exec 1>&6 2>&7 # Restore stdout and stderr inside_subtest= # Report success/failure. result=$(cat OUTPUT) if [ "$result" = t ] then test_ok_ else test_failure_ "${result}" fi else # Restore state after the (non) test. exec 1>&6 2>&7 # Restore stdout and stderr inside_subtest= fi } NOTMUCH_NEW () { notmuch new "${@}" | grep -v -E -e '^Processed [0-9]*( total)? file|Found [0-9]* total file' } notmuch_search_sanitize () { perl -pe 's/("?thread"?: ?)("?)................("?)/\1\2XXX\3/' } notmuch_search_files_sanitize() { sed -e "s,$MAIL_DIR,MAIL_DIR," } NOTMUCH_SHOW_FILENAME_SQUELCH='s,filename:.*/mail,filename:/XXX/mail,' notmuch_show_sanitize () { sed -e "$NOTMUCH_SHOW_FILENAME_SQUELCH" } notmuch_show_sanitize_all () { sed \ -e 's| filename:.*| filename:XXXXX|' \ -e 's| id:[^ ]* | id:XXXXX |' | \ notmuch_date_sanitize } notmuch_json_show_sanitize () { sed \ -e 's|"id": "[^"]*",|"id": "XXXXX",|g' \ -e 's|"Date": "Fri, 05 Jan 2001 [^"]*0000"|"Date": "GENERATED_DATE"|g' \ -e 's|"filename": "signature.asc",||g' \ -e 's|"filename": "/[^"]*",|"filename": "YYYYY",|g' \ -e 's|"timestamp": 97.......|"timestamp": 42|g' } notmuch_emacs_error_sanitize () { local command=$1 shift for file in "$@"; do echo "=== $file ===" cat "$file" done | sed \ -e 's/^\[.*\]$/[XXX]/' \ -e "s|^\(command: \)\{0,1\}/.*/$command|\1YYY/$command|" } notmuch_date_sanitize () { sed \ -e 's/^Date: Fri, 05 Jan 2001 .*0000/Date: GENERATED_DATE/' } # End of notmuch helper functions # 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_set_prereq () { satisfied="$satisfied$1 " } satisfied=" " test_have_prereq () { case $satisfied in *" $1 "*) : yes, have it ;; *) ! : nope ;; esac } declare -A test_missing_external_prereq_ declare -A test_subtest_missing_external_prereq_ # declare prerequisite for the given external binary test_declare_external_prereq () { binary="$1" test "$#" = 2 && name=$2 || name="$binary(1)" if ! hash $binary 2>/dev/null; then test_missing_external_prereq_["${binary}"]=t eval " $binary () { test_subtest_missing_external_prereq_[\"${name}\"]=t false }" fi } # Explicitly require external prerequisite. Useful when binary is # called indirectly (e.g. from emacs). # Returns success if dependency is available, failure otherwise. test_require_external_prereq () { binary="$1" if [[ ${test_missing_external_prereq_["${binary}"]} == t ]]; then # dependency is missing, call the replacement function to note it eval "$binary" else true fi } # You are not expected to call test_ok_ and test_failure_ directly, use # the text_expect_* functions instead. test_ok_ () { if test "$test_subtest_known_broken_" = "t"; then test_known_broken_ok_ return fi test_success=$(($test_success + 1)) if test -n "$NOTMUCH_TEST_QUIET"; then return 0 fi say_color pass "%-6s" "PASS" echo " $test_subtest_name" } test_failure_ () { if test "$test_subtest_known_broken_" = "t"; then test_known_broken_failure_ "$@" return fi test_failure=$(($test_failure + 1)) print_test_description test_failure_message_ "FAIL" "$test_subtest_name" "$@" test "$immediate" = "" || { GIT_EXIT_OK=t; exit 1; } return 1 } test_failure_message_ () { say_color error "%-6s" "$1" echo " $2" shift 2 echo "$@" | sed -e 's/^/ /' if test "$verbose" != "t"; then cat test.output; fi } test_known_broken_ok_ () { test_reset_state_ test_fixed=$(($test_fixed+1)) say_color pass "%-6s" "FIXED" echo " $test_subtest_name" } test_known_broken_failure_ () { test_reset_state_ test_broken=$(($test_broken+1)) test_failure_message_ "BROKEN" "$test_subtest_name" "$@" return 1 } test_debug () { test "$debug" = "" || eval "$1" } test_run_ () { test_cleanup=: if test "$verbose" != "t"; then exec 4>test.output 3>&4; fi eval >&3 2>&4 "$1" eval_ret=$? eval >&3 2>&4 "$test_cleanup" return 0 } test_skip () { test_count=$(($test_count+1)) to_skip= for skp in $NOTMUCH_SKIP_TESTS do case $this_test.$test_count in $skp) to_skip=t break esac case $this_test_bare.$test_count in $skp) to_skip=t break esac done if test -z "$to_skip" && test -n "$prereq" && ! test_have_prereq "$prereq" then to_skip=t fi case "$to_skip" in t) test_report_skip_ "$@" ;; *) test_check_missing_external_prereqs_ "$@" ;; esac } test_check_missing_external_prereqs_ () { if [[ ${#test_subtest_missing_external_prereq_[@]} != 0 ]]; then say_color skip >&1 "missing prerequisites: " echo ${!test_subtest_missing_external_prereq_[@]} >&1 test_report_skip_ "$@" else false fi } test_report_skip_ () { test_reset_state_ say_color skip >&3 "skipping test:" echo " $@" >&3 say_color skip "%-6s" "SKIP" echo " $1" } test_subtest_known_broken () { test_subtest_known_broken_=t } test_expect_success () { test "$#" = 3 && { prereq=$1; shift; } || prereq= test "$#" = 2 || error "bug in the test script: not 2 or 3 parameters to test-expect-success" test_subtest_name="$1" test_reset_state_ if ! test_skip "$@" then test_run_ "$2" run_ret="$?" # test_run_ may update missing external prerequisites test_check_missing_external_prereqs_ "$@" || if [ "$run_ret" = 0 -a "$eval_ret" = 0 ] then test_ok_ else test_failure_ "$2" fi fi } test_expect_code () { test "$#" = 4 && { prereq=$1; shift; } || prereq= test "$#" = 3 || error "bug in the test script: not 3 or 4 parameters to test-expect-code" test_subtest_name="$2" test_reset_state_ if ! test_skip "$@" then test_run_ "$3" run_ret="$?" # test_run_ may update missing external prerequisites, test_check_missing_external_prereqs_ "$@" || if [ "$run_ret" = 0 -a "$eval_ret" = "$1" ] then test_ok_ else test_failure_ "exit code $eval_ret, expected $1" "$3" fi fi } # test_external runs external test scripts that provide continuous # test output about their progress, and succeeds/fails on # zero/non-zero exit code. It outputs the test output on stdout even # in non-verbose mode, and announces the external script with "* run # : ..." before running it. When providing relative paths, keep in # mind that all scripts run in "trash directory". # Usage: test_external description command arguments... # Example: test_external 'Perl API' perl ../path/to/test.pl test_external () { test "$#" = 4 && { prereq=$1; shift; } || prereq= test "$#" = 3 || error >&6 "bug in the test script: not 3 or 4 parameters to test_external" test_subtest_name="$1" shift test_reset_state_ if ! test_skip "$test_subtest_name" "$@" then # Announce the script to reduce confusion about the # test output that follows. say_color "" " run $test_count: $descr ($*)" # Run command; redirect its stderr to &4 as in # test_run_, but keep its stdout on our stdout even in # non-verbose mode. "$@" 2>&4 if [ "$?" = 0 ] then test_ok_ else test_failure_ "$@" fi fi } # Like test_external, but in addition tests that the command generated # no output on stderr. test_external_without_stderr () { # The temporary file has no (and must have no) security # implications. tmp="$TMPDIR"; if [ -z "$tmp" ]; then tmp=/tmp; fi stderr="$tmp/git-external-stderr.$$.tmp" test_external "$@" 4> "$stderr" [ -f "$stderr" ] || error "Internal error: $stderr disappeared." test_subtest_name="no stderr: $1" shift if [ ! -s "$stderr" ]; then rm "$stderr" test_ok_ else if [ "$verbose" = t ]; then output=`echo; echo Stderr is:; cat "$stderr"` else output= fi # rm first in case test_failure exits. rm "$stderr" test_failure_ "$@" "$output" fi } # This is not among top-level (test_expect_success) # but is a prefix that can be used in the test script, like: # # test_expect_success 'complain and die' ' # do something && # do something else && # test_must_fail git checkout ../outerspace # ' # # Writing this as "! git checkout ../outerspace" is wrong, because # the failure could be due to a segv. We want a controlled failure. test_must_fail () { "$@" test $? -gt 0 -a $? -le 129 -o $? -gt 192 } # 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() { $GIT_TEST_CMP "$@" } # 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. test_when_finished () { test_cleanup="{ $* } && (exit \"\$eval_ret\"); eval_ret=\$?; $test_cleanup" } test_done () { GIT_EXIT_OK=t test_results_dir="$TEST_DIRECTORY/test-results" mkdir -p "$test_results_dir" test_results_path="$test_results_dir/$this_test" echo "total $test_count" >> $test_results_path echo "success $test_success" >> $test_results_path echo "fixed $test_fixed" >> $test_results_path echo "broken $test_broken" >> $test_results_path echo "failed $test_failure" >> $test_results_path echo "" >> $test_results_path [ -n "$EMACS_SERVER" ] && test_emacs '(kill-emacs)' if [ "$test_failure" = "0" ]; then if [ "$test_broken" = "0" ]; then rm -rf "$remove_tmp" fi exit 0 else exit 1 fi } emacs_generate_script () { # Construct a little test script here for the benefit of the user, # (who can easily run "run_emacs" to get the same emacs environment # for investigating any failures). cat <"$TMP_DIRECTORY/run_emacs" #!/bin/sh export PATH=$PATH export NOTMUCH_CONFIG=$NOTMUCH_CONFIG # Here's what we are using here: # # --quick Use minimal customization. This implies --no-init-file, # --no-site-file and (emacs 24) --no-site-lisp # # --directory Ensure that the local elisp sources are found # # --load Force loading of notmuch.el and test-lib.el exec ${TEST_EMACS} --quick \ --directory "$TEST_DIRECTORY/../emacs" --load notmuch.el \ --directory "$TEST_DIRECTORY" --load test-lib.el \ "\$@" EOF chmod a+x "$TMP_DIRECTORY/run_emacs" } test_emacs () { # test dependencies beforehand to avoid the waiting loop below missing_dependencies= test_require_external_prereq dtach || missing_dependencies=1 test_require_external_prereq emacs || missing_dependencies=1 test_require_external_prereq ${TEST_EMACSCLIENT} || missing_dependencies=1 test -z "$missing_dependencies" || return if [ -z "$EMACS_SERVER" ]; then emacs_tests="${this_test_bare}.el" if [ -f "$TEST_DIRECTORY/$emacs_tests" ]; then load_emacs_tests="--eval '(load \"$emacs_tests\")'" else load_emacs_tests= fi server_name="notmuch-test-suite-$$" # start a detached session with an emacs server # user's TERM (or 'vt100' in case user's TERM is unset, empty # or 'dumb') is given to dtach which assumes a minimally # VT100-compatible terminal -- and emacs inherits that TERM=$DTACH_TERM dtach -n "$TEST_TMPDIR/emacs-dtach-socket.$$" \ sh -c "stty rows 24 cols 80; exec '$TMP_DIRECTORY/run_emacs' \ --no-window-system \ $load_emacs_tests \ --eval '(setq server-name \"$server_name\")' \ --eval '(server-start)' \ --eval '(orphan-watchdog $$)'" || return EMACS_SERVER="$server_name" # wait until the emacs server is up until test_emacs '()' >/dev/null 2>/dev/null; do sleep 1 done fi # Clear test-output output file. Most Emacs tests end with a # call to (test-output). If the test code fails with an # exception before this call, the output file won't get # updated. Since we don't want to compare against an output # file from another test, so start out with an empty file. rm -f OUTPUT touch OUTPUT ${TEST_EMACSCLIENT} --socket-name="$EMACS_SERVER" --eval "(notmuch-test-progn $@)" } test_python() { export LD_LIBRARY_PATH=$TEST_DIRECTORY/../lib export PYTHONPATH=$TEST_DIRECTORY/../bindings/python (echo "import sys; _orig_stdout=sys.stdout; sys.stdout=open('OUTPUT', 'w')"; cat) \ | $NOTMUCH_PYTHON - } test_ruby() { export LD_LIBRARY_PATH=$TEST_DIRECTORY/../lib MAIL_DIR=$MAIL_DIR ruby -I $TEST_DIRECTORY/../bindings/ruby> OUTPUT } test_C () { exec_file="test${test_count}" test_file="${exec_file}.c" cat > ${test_file} export LD_LIBRARY_PATH=${TEST_DIRECTORY}/../lib ${TEST_CC} ${TEST_CFLAGS} -I${TEST_DIRECTORY}/../lib -o ${exec_file} ${test_file} -L${TEST_DIRECTORY}/../lib/ -lnotmuch -ltalloc echo "== stdout ==" > OUTPUT.stdout echo "== stderr ==" > OUTPUT.stderr ./${exec_file} "$@" 1>>OUTPUT.stdout 2>>OUTPUT.stderr sed "s,${PWD},CWD,g" OUTPUT.stdout OUTPUT.stderr > OUTPUT } # Creates a script that counts how much time it is executed and calls # notmuch. $notmuch_counter_command is set to the path to the # generated script. Use notmuch_counter_value() function to get the # current counter value. notmuch_counter_reset () { notmuch_counter_command="$TMP_DIRECTORY/notmuch_counter" if [ ! -x "$notmuch_counter_command" ]; then notmuch_counter_state_path="$TMP_DIRECTORY/notmuch_counter.state" cat >"$notmuch_counter_command" < "$notmuch_counter_state_path" exec notmuch "\$@" EOF chmod +x "$notmuch_counter_command" || return fi echo 0 > "$notmuch_counter_state_path" } # Returns the current notmuch counter value. notmuch_counter_value () { if [ -r "$notmuch_counter_state_path" ]; then read count < "$notmuch_counter_state_path" else count=0 fi echo $count } test_reset_state_ () { test -z "$test_init_done_" && test_init_ test_subtest_known_broken_= test_subtest_missing_external_prereq_=() } # called once before the first subtest test_init_ () { test_init_done_=t # skip all tests if there were external prerequisites missing during init test_check_missing_external_prereqs_ "all tests in $this_test" && test_done } . ./test-lib-common.sh || exit 1 emacs_generate_script # Use -P to resolve symlinks in our working directory so that the cwd # in subprocesses like git equals our $PWD (for pathname comparisons). cd -P "$test" || error "Cannot set up test environment" if test "$verbose" = "t" then exec 4>&2 3>&1 else exec 4>test.output 3>&4 fi for skp in $NOTMUCH_SKIP_TESTS do to_skip= for skp in $NOTMUCH_SKIP_TESTS do case "$this_test" in $skp) to_skip=t break esac case "$this_test_bare" in $skp) to_skip=t break esac done case "$to_skip" in t) say_color skip >&3 "skipping test $this_test altogether" say_color skip "skip all tests in $this_test" test_done esac done # Provide an implementation of the 'yes' utility yes () { if test $# = 0 then y=y else y="$*" fi while echo "$y" do : done } # Fix some commands on Windows case $(uname -s) in *MINGW*) # Windows has its own (incompatible) sort and find sort () { /usr/bin/sort "$@" } find () { /usr/bin/find "$@" } sum () { md5sum "$@" } # git sees Windows-style pwd pwd () { builtin pwd -W } # no POSIX permissions # backslashes in pathspec are converted to '/' # exec does not inherit the PID ;; *) test_set_prereq POSIXPERM test_set_prereq BSLASHPSPEC test_set_prereq EXECKEEPSPID ;; esac test -z "$NO_PERL" && test_set_prereq PERL test -z "$NO_PYTHON" && test_set_prereq PYTHON # test whether the filesystem supports symbolic links ln -s x y 2>/dev/null && test -h y 2>/dev/null && test_set_prereq SYMLINKS rm -f y # declare prerequisites for external binaries used in tests test_declare_external_prereq dtach test_declare_external_prereq emacs test_declare_external_prereq ${TEST_EMACSCLIENT} test_declare_external_prereq gdb test_declare_external_prereq gpg test_declare_external_prereq ${NOTMUCH_PYTHON}