# Common definitions for rhizome test suites. # Copyright 2012 The Serval Project, Inc. # # 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, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. # Some useful regular expressions. These must work for grep(1) (as basic # expressions) and also in sed(1). rexp_service='[A-Za-z0-9_]\+' rexp_manifestid='[0-9a-fA-F]\{64\}' rexp_bundlekey='[0-9a-fA-F]\{128\}' rexp_bundlesecret="$rexp_bundlekey" rexp_filehash='[0-9a-fA-F]\{128\}' rexp_filesize='[0-9]\{1,\}' rexp_version='[0-9]\{1,\}' rexp_date='[0-9]\{1,\}' assert_manifest_complete() { local manifest="$1" tfw_cat -v "$manifest" assertGrep "$manifest" "^service=$rexp_service\$" assertGrep "$manifest" "^id=$rexp_manifestid\$" assertGrep "$manifest" "^BK=$rexp_bundlekey\$" assertGrep "$manifest" "^date=$rexp_date\$" assertGrep "$manifest" "^version=$rexp_version\$" assertGrep "$manifest" "^filesize=$rexp_filesize\$" if $GREP -q '^filesize=0$' "$manifest"; then assertGrep --matches=0 "$manifest" "^filehash=" else assertGrep "$manifest" "^filehash=$rexp_filehash\$" fi if $GREP -q '^service=file$' "$manifest"; then assertGrep "$manifest" "^name=" fi } assert_rhizome_list() { assertStdoutLineCount --stderr '==' $(($# + 2)) assertStdoutIs --stderr --line=1 -e '11\n' assertStdoutIs --stderr --line=2 -e 'service:id:version:date:.inserttime:.selfsigned:filesize:filehash:sender:recipient:name\n' local filename local re__inserttime="$rexp_date" for filename; do re__selfsigned=1 case "$filename" in *!) filename="${filename%!}"; re__selfsigned=0;; esac unpack_manifest_for_grep "$filename" assertStdoutGrep --stderr --matches=1 "^$re_service:$re_manifestid:$re_version:$re_date:$re__inserttime:$re__selfsigned:$re_filesize:$re_filehash:$re_sender:$re_recipient:$re_name\$" done } assert_stdout_add_file() { [ $# -ge 1 ] || error "missing filename arg" local filename="${1}" shift unpack_manifest_for_grep "$filename" opt_name=false if replayStdout | $GREP -q '^service:file$'; then opt_name=true fi fieldnames='service|manifestid|secret|filesize|filehash|name' for arg; do case "$arg" in !+($fieldnames)) fieldname="${arg#!}" eval opt_$fieldname=false ;; +($fieldnames)=*) value="${arg#*=}" fieldname="${arg%%=*}" assertStdoutGrep --matches=1 "^$fieldname:$value\$" ;; *) error "unsupported argument: $arg" ;; esac done ${opt_service:-true} && assertStdoutGrep --matches=1 "^service:$re_service\$" ${opt_manifestid:-true} && assertStdoutGrep --matches=1 "^manifestid:$re_manifestid\$" ${opt_secret:-true} && assertStdoutGrep --matches=1 "^secret:$re_secret\$" ${opt_filesize:-true} && assertStdoutGrep --matches=1 "^filesize:$re_filesize\$" if replayStdout | $GREP -q '^filesize:0$'; then assertStdoutGrep --matches=0 "^filehash:" else ${opt_filehash:-true} && assertStdoutGrep --matches=1 "^filehash:$re_filehash\$" fi } assert_stdout_import_bundle() { # Output of "import bundle" is the same as "add file" but without the secret. assert_stdout_add_file "$@" '!secret' } unpack_manifest_for_grep() { local filename="$1" re_service="$rexp_service" re_manifestid="$rexp_manifestid" re_version="$rexp_version" re_date="$rexp_date" re_secret="$rexp_bundlesecret" re_name=$(escape_grep_basic "${filename##*/}") local filesize=$($SED -n -e '/^filesize=/s///p' "$filename.manifest" 2>/dev/null) if [ "$filesize" = 0 ]; then re_filesize=0 re_filehash= re_name="\($re_name\)\{0,1\}" else re_filesize=$(( $(cat "$filename" | wc -c) + 0 )) compute_filehash re_filehash "$filename" fi # If there is a manifest file that looks like it matches this payload # file, then use its file hash to check the rhizome list '' output. local filehash=$($SED -n -e '/^filehash=/s///p' "$filename.manifest" 2>/dev/null) if [ "$filehash" = "$re_filehash" ]; then re_manifestid=$($SED -n -e '/^id=/s///p' "$filename.manifest") re_version=$($SED -n -e '/^version=/s///p' "$filename.manifest") re_date=$($SED -n -e '/^date=/s///p' "$filename.manifest") re_service=$($SED -n -e '/^service=/s///p' "$filename.manifest") re_service=$(escape_grep_basic "$re_service") re_sender=$($SED -n -e '/^sender=/s///p' "$filename.manifest") re_recipient=$($SED -n -e '/^recipient=/s///p' "$filename.manifest") case "$re_service" in file) re_name=$($SED -n -e '/^name=/s///p' "$filename.manifest") re_name=$(escape_grep_basic "$re_name") ;; *) re_name= ;; esac fi } assert_manifest_newer() { local manifest1="$1" local manifest2="$2" # The new manifest must have a higher version than the original. extract_manifest_version oldversion "$manifest1" extract_manifest_version newversion "$manifest2" assert [ $newversion -gt $oldversion ] # The new manifest must have a different filehash from the original. extract_manifest_filehash oldfilehash "$manifest1" extract_manifest_filehash newfilehash "$manifest2" assert [ $oldfilehash != $newfilehash ] } strip_signatures() { for file; do cat -v "$file" | $SED -e '/^^@/,$d' >"tmp.$file" && mv -f "tmp.$file" "$file" done } extract_stdout_secret() { extract_stdout_keyvalue "$1" secret "$rexp_bundlesecret" } extract_stdout_BK() { extract_stdout_keyvalue "$1" BK "$rexp_bundlekey" } extract_manifest() { local _var="$1" local _manifestfile="$2" local _label="$3" local _rexp="$4" local _value=$($SED -n -e "/^$_label=$_rexp\$/s/^$_label=//p" "$_manifestfile") assert --message="$_manifestfile contains valid '$_label=' line" \ --dump-on-fail="$_manifestfile" \ [ -n "$_value" ] [ -n "$_var" ] && eval $_var="$_value" } extract_manifest_service() { extract_manifest "$1" "$2" service "$rexp_service" } extract_manifest_id() { extract_manifest "$1" "$2" id "$rexp_manifestid" } extract_manifest_BK() { extract_manifest "$1" "$2" BK "$rexp_bundlekey" } extract_manifest_filesize() { extract_manifest "$1" "$2" filesize "$rexp_filesize" } extract_manifest_filehash() { extract_manifest "$1" "$2" filehash "$rexp_filehash" } extract_manifest_name() { extract_manifest "$1" "$2" name ".*" } extract_manifest_version() { extract_manifest "$1" "$2" version "$rexp_version" } compute_filehash() { local _var="$1" local _file="$2" local _hash=$($servald rhizome hash file "$_file") || error "$servald failed to compute file hash" [ -z "${_hash//[0-9a-fA-F]/}" ] || error "file hash contains non-hex: $_hash" [ "${#_hash}" -eq 128 ] || error "file hash incorrect length: $_hash" [ -n "$_var" ] && eval $_var="$_hash" } rhizome_http_server_started() { local logvar=LOG${1#+} $GREP 'RHIZOME HTTP SERVER,.*START.*port=[0-9]' "${!logvar}" } get_rhizome_server_port() { local _var="$1" local _logvar=LOG${2#+} local _port=$($SED -n -e '/.*RHIZOME HTTP SERVER.*START/{s/.*port=\([0-9]\{1,\}\).*/\1/p;q}' "${!_logvar}") assert --message="instance $2 Rhizome HTTP server port number is known" [ -n "$_port" ] if [ -n "$_var" ]; then eval "$_var=\$_port" tfw_log "$_var=$_port" fi return 0 }