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mirror of https://github.com/deajan/obackup.git synced 2024-12-25 06:53:41 +01:00

Added basic shunit2 tests

This commit is contained in:
deajan 2016-08-18 14:19:52 +02:00
parent bda19b3822
commit 6cbb732d7c
13 changed files with 2328 additions and 38 deletions

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@ -80,10 +80,10 @@ SQL_USER=root
## Enabling the following option will save all databases on local or remote given SQL instance except the ones specified in the exclude list. ## Enabling the following option will save all databases on local or remote given SQL instance except the ones specified in the exclude list.
## Every found database will be backed up as separate backup task. ## Every found database will be backed up as separate backup task.
DATABASES_ALL=yes DATABASES_ALL=no
DATABASES_ALL_EXCLUDE_LIST="test;mysql" DATABASES_ALL_EXCLUDE_LIST="test;information_schema"
## Alternatively, if DATABASES_ALL=no, you can specify a list of databases to backup separated by spaces. ## Alternatively, if DATABASES_ALL=no, you can specify a list of databases to backup separated by spaces.
#DATABASES_LIST="somedatabase" DATABASES_LIST="mysql"
## Max backup execution time per Database task. Soft max exec time generates a warning only. Hard max exec time generates a warning and stops current backup task. ## Max backup execution time per Database task. Soft max exec time generates a warning only. Hard max exec time generates a warning and stops current backup task.
## If a task gets stopped, next one in the task list gets executed. Time is specified in seconds. ## If a task gets stopped, next one in the task list gets executed. Time is specified in seconds.
@ -102,9 +102,9 @@ COMPRESSION_LEVEL=3
## You can exclude directories from the avove backup task creation, ex: avoid backing up "/home/dir2" by adding it to RECURSIVE_EXCLUDE_LIST. ## You can exclude directories from the avove backup task creation, ex: avoid backing up "/home/dir2" by adding it to RECURSIVE_EXCLUDE_LIST.
## Directories backup list. List of semicolon separated directories that will be backed up. ## Directories backup list. List of semicolon separated directories that will be backed up.
DIRECTORY_LIST="/opt/testData" DIRECTORY_LIST="/opt/obackup/testData"
RECURSIVE_DIRECTORY_LIST="/opt/testDataRecursive" RECURSIVE_DIRECTORY_LIST="/opt/obackup/testDataRecursive"
RECURSIVE_EXCLUDE_LIST="/opt/testDataRecursive/Excluded" RECURSIVE_EXCLUDE_LIST="/opt/obackup/testDataRecursive/Excluded"
## Rsync exclude / include order (the option set here will be set first, eg: include will make include then exclude patterns) ## Rsync exclude / include order (the option set here will be set first, eg: include will make include then exclude patterns)
RSYNC_PATTERN_FIRST=include RSYNC_PATTERN_FIRST=include

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@ -80,10 +80,10 @@ SQL_USER=root
## Enabling the following option will save all databases on local or remote given SQL instance except the ones specified in the exclude list. ## Enabling the following option will save all databases on local or remote given SQL instance except the ones specified in the exclude list.
## Every found database will be backed up as separate backup task. ## Every found database will be backed up as separate backup task.
DATABASES_ALL=yes DATABASES_ALL=no
DATABASES_ALL_EXCLUDE_LIST="test;mysql" DATABASES_ALL_EXCLUDE_LIST="test"
## Alternatively, if DATABASES_ALL=no, you can specify a list of databases to backup separated by spaces. ## Alternatively, if DATABASES_ALL=no, you can specify a list of databases to backup separated by spaces.
#DATABASES_LIST="somedatabase" DATABASES_LIST="mysql;information_schema"
## Max backup execution time per Database task. Soft max exec time generates a warning only. Hard max exec time generates a warning and stops current backup task. ## Max backup execution time per Database task. Soft max exec time generates a warning only. Hard max exec time generates a warning and stops current backup task.
## If a task gets stopped, next one in the task list gets executed. Time is specified in seconds. ## If a task gets stopped, next one in the task list gets executed. Time is specified in seconds.
@ -102,9 +102,9 @@ COMPRESSION_LEVEL=3
## You can exclude directories from the avove backup task creation, ex: avoid backing up "/home/dir2" by adding it to RECURSIVE_EXCLUDE_LIST. ## You can exclude directories from the avove backup task creation, ex: avoid backing up "/home/dir2" by adding it to RECURSIVE_EXCLUDE_LIST.
## Directories backup list. List of semicolon separated directories that will be backed up. ## Directories backup list. List of semicolon separated directories that will be backed up.
DIRECTORY_LIST="/opt/testData" DIRECTORY_LIST="/opt/obackup/testData"
RECURSIVE_DIRECTORY_LIST="/opt/testDataRecursive" RECURSIVE_DIRECTORY_LIST="/opt/obackup/testDataRecursive"
RECURSIVE_EXCLUDE_LIST="/opt/testDataRecursive/Excluded" RECURSIVE_EXCLUDE_LIST="/opt/obackup/testDataRecursive/Excluded"
## Rsync exclude / include order (the option set here will be set first, eg: include will make include then exclude patterns) ## Rsync exclude / include order (the option set here will be set first, eg: include will make include then exclude patterns)
RSYNC_PATTERN_FIRST=include RSYNC_PATTERN_FIRST=include

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@ -80,10 +80,10 @@ SQL_USER=root
## Enabling the following option will save all databases on local or remote given SQL instance except the ones specified in the exclude list. ## Enabling the following option will save all databases on local or remote given SQL instance except the ones specified in the exclude list.
## Every found database will be backed up as separate backup task. ## Every found database will be backed up as separate backup task.
DATABASES_ALL=yes DATABASES_ALL=no
DATABASES_ALL_EXCLUDE_LIST="test;mysql" DATABASES_ALL_EXCLUDE_LIST="test"
## Alternatively, if DATABASES_ALL=no, you can specify a list of databases to backup separated by spaces. ## Alternatively, if DATABASES_ALL=no, you can specify a list of databases to backup separated by spaces.
#DATABASES_LIST="somedatabase" DATABASES_LIST="mysql;information_schema"
## Max backup execution time per Database task. Soft max exec time generates a warning only. Hard max exec time generates a warning and stops current backup task. ## Max backup execution time per Database task. Soft max exec time generates a warning only. Hard max exec time generates a warning and stops current backup task.
## If a task gets stopped, next one in the task list gets executed. Time is specified in seconds. ## If a task gets stopped, next one in the task list gets executed. Time is specified in seconds.
@ -102,9 +102,9 @@ COMPRESSION_LEVEL=3
## You can exclude directories from the avove backup task creation, ex: avoid backing up "/home/dir2" by adding it to RECURSIVE_EXCLUDE_LIST. ## You can exclude directories from the avove backup task creation, ex: avoid backing up "/home/dir2" by adding it to RECURSIVE_EXCLUDE_LIST.
## Directories backup list. List of semicolon separated directories that will be backed up. ## Directories backup list. List of semicolon separated directories that will be backed up.
DIRECTORY_LIST="/opt/testData" DIRECTORY_LIST="/opt/obackup/testData"
RECURSIVE_DIRECTORY_LIST="/opt/testDataRecursive" RECURSIVE_DIRECTORY_LIST="/opt/obackup/testDataRecursive"
RECURSIVE_EXCLUDE_LIST="/opt/testDataRecursive/Excluded" RECURSIVE_EXCLUDE_LIST="/opt/obackup/testDataRecursive/Excluded"
## Rsync exclude / include order (the option set here will be set first, eg: include will make include then exclude patterns) ## Rsync exclude / include order (the option set here will be set first, eg: include will make include then exclude patterns)
RSYNC_PATTERN_FIRST=include RSYNC_PATTERN_FIRST=include

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@ -1,20 +0,0 @@
#!/usr/bin/env bash
NON_RECURSIVE_DIR="/opt/testData"
RECURSIVE_DIR="/opt/testDataRecursive"
mkdir -p $SIMPLE_LIST
mkdir -p $RECURSIVE_LIST/Excluded
mkdir -p $RECURSIVE_LIST/a
mkdir -p $RECURSIVE_LIST/b
mkdir -p "$RECURSIVE_LIST/c d"
mkdir -p "$RECURSIVE_LIST/e
touch $SIMPLE_LIST/file_1
touch $RECURSIVE_LIST/file_2
touch $RECURSIVE_LIST/Excluded/file_3
touch $RECURSIVE_LIST/a/file_4
touch $RECURSIVE_LIST/b/file_5
touch "$RECURSIVE_LIST/c d/file_6"
touch $RECURSIVE_LIST/e/file_7

151
dev/tests/run_tests.sh Executable file
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@ -0,0 +1,151 @@
#!/usr/bin/env bash
# Stupid and very basic tests v0.0000001-alpha-dev-pre-everything
DEV_DIR="/home/git/obackup/dev"
SOURCE_DIR="/opt/obackup"
TARGET_DIR="/home/storage/backup"
TARGET_DIR_SQL_LOCAL="/home/storage/backup/sql"
TARGET_DIR_FILE_LOCAL="/home/storage/backup/files"
TARGET_DIR_SQL_PULL="/home/storage/backup/sql-pull"
TARGET_DIR_FILE_PULL="/home/storage/backup/files-pull"
TARGET_DIR_SQL_PUSH="/home/storage/backup/sql-push"
TARGET_DIR_FILE_PUSH="/home/storage/backup/files-push"
SIMPLE_DIR="/testData"
RECURSIVE_DIR="/testDataRecursive"
function oneTimeSetUp () {
source "$DEV_DIR/ofunctions.sh"
sed -i 's/^IS_STABLE=no/IS_STABLE=yes/' "$DEV_DIR/n_obackup.sh"
mkdir -p $SOURCE_DIR$SIMPLE_DIR
mkdir -p $SOURCE_DIR$RECURSIVE_DIR/Excluded
mkdir -p $SOURCE_DIR$RECURSIVE_DIR/a
mkdir -p $SOURCE_DIR$RECURSIVE_DIR/b
mkdir -p "$SOURCE_DIR$RECURSIVE_DIR/c d"
mkdir -p $SOURCE_DIR$RECURSIVE_DIR/e
touch $SOURCE_DIR$SIMPLE_DIR/file_1
touch $SOURCE_DIR$RECURSIVE_DIR/file_2
touch $SOURCE_DIR$RECURSIVE_DIR/Excluded/file_3
touch $SOURCE_DIR$RECURSIVE_DIR/a/file_4
touch $SOURCE_DIR$RECURSIVE_DIR/b/file_5
touch "$SOURCE_DIR$RECURSIVE_DIR/c d/file_6"
touch $SOURCE_DIR$RECURSIVE_DIR/e/file_7
# Big file
dd if=/dev/urandom of=$SOURCE_DIR$RECURSIVE_DIR/e/file_8 bs=1M count=2
}
function oneTimeTearDown () {
sed -i 's/^IS_STABLE=yes/IS_STABLE=no/' "$DEV_DIR/n_obackup.sh"
rm -rf $TARGET_DIR
}
function test_FirstLocalRun () {
# Basic return code tests. Need to go deep into file presence testing
cd "$DEV_DIR"
./n_obackup.sh tests/conf/local.conf > /dev/null
assertEquals "Return code" "0" $?
}
function test_SecondLocalRun () {
# Only tests presence of rotated files
cd "$DEV_DIR"
./n_obackup.sh tests/conf/local.conf > /dev/null
assertEquals "Return code" "0" $?
[ -f "$TARGET_DIR_SQL_LOCAL/mysql.sql.xz.obackup.1" ]
assertEquals "SQL rotated file" "0" $?
[ -d "$TARGET_DIR_FILE_LOCAL/$(dirname $SOURCE_DIR).obackup.1" ]
assertEquals "Files rotated file" "0" $?
}
function test_FirstPullRun () {
# Basic return code tests. Need to go deep into file presence testing
cd "$DEV_DIR"
./n_obackup.sh tests/conf/pull.conf > /dev/null
assertEquals "Return code" "0" $?
}
function test_SecondPullRun () {
# Only tests presence of rotated files
cd "$DEV_DIR"
./n_obackup.sh tests/conf/pull.conf > /dev/null
assertEquals "Return code" "0" $?
[ -f "$TARGET_DIR_SQL_PULL/mysql.sql.xz.obackup.1" ]
assertEquals "SQL rotated file" "0" $?
[ -d "$TARGET_DIR_FILE_PULL/$(dirname $SOURCE_DIR).obackup.1" ]
assertEquals "Files rotated file" "0" $?
}
function test_FirstPushRun () {
# Basic return code tests. Need to go deep into file presence testing
cd "$DEV_DIR"
./n_obackup.sh tests/conf/push.conf > /dev/null
assertEquals "Return code" "0" $?
}
function test_SecondPushRun () {
# Only tests presence of rotated files
cd "$DEV_DIR"
./n_obackup.sh tests/conf/push.conf > /dev/null
assertEquals "Return code" "0" $?
[ -f "$TARGET_DIR_SQL_PUSH/mysql.sql.xz.obackup.1" ]
assertEquals "SQL rotated file" "0" $?
[ -d "$TARGET_DIR_FILE_PUSH/$(dirname $SOURCE_DIR).obackup.1" ]
assertEquals "Files rotated file" "0" $?
}
function test_WaitForTaskCompletion () {
# Tests if wait for task completion works correctly
sleep 20 &
pids="$!"
sleep 25 &
pids="$pids;$!"
WaitForTaskCompletion $pids 0 0 ${FUNCNAME[0]} false true 0
assertEquals "WaitForTaskCompletion test 1" "0" $?
sleep 20 &
pids="$!"
sleep 25 &
pids="$pids;$!"
WaitForTaskCompletion $pids 10 0 ${FUNCNAME[0]} false true 0
assertEquals "WaitForTaskCompletion test 2" "0" $?
sleep 20 &
pids="$!"
sleep 25 &
pids="$pids;$!"
WaitForTaskCompletion $pids 0 10 ${FUNCNAME[0]} false true 0
assertEquals "WaitForTaskCompletion test 3" "2" $?
sleep 20 &
pids="$!"
sleep 25 &
pids="$pids;$!"
WaitForTaskCompletion $pids 0 22 ${FUNCNAME[0]} false true 0
assertEquals "WaitForTaskCompletion test 4" "1" $?
}
. ./shunit2/shunit2

1067
dev/tests/shunit2/shunit2 Executable file

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124
dev/tests/shunit2/shunit2_test.sh Executable file
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@ -0,0 +1,124 @@
#! /bin/sh
# $Id$
# vim:et:ft=sh:sts=2:sw=2
#
# Copyright 2008 Kate Ward. All Rights Reserved.
# Released under the LGPL (GNU Lesser General Public License)
# Author: kate.ward@forestent.com (Kate Ward)
#
# shUnit2 unit test suite runner.
#
# This script runs all the unit tests that can be found, and generates a nice
# report of the tests.
MY_NAME=`basename $0`
MY_PATH=`dirname $0`
PREFIX='shunit2_test_'
SHELLS='/bin/sh /bin/bash /bin/dash /bin/ksh /bin/pdksh /bin/zsh'
TESTS=''
for test in ${PREFIX}[a-z]*.sh; do
TESTS="${TESTS} ${test}"
done
# load common unit test functions
. ../lib/versions
. ./shunit2_test_helpers
usage()
{
echo "usage: ${MY_NAME} [-e key=val ...] [-s shell(s)] [-t test(s)]"
}
env=''
# process command line flags
while getopts 'e:hs:t:' opt; do
case ${opt} in
e) # set an environment variable
key=`expr "${OPTARG}" : '\([^=]*\)='`
val=`expr "${OPTARG}" : '[^=]*=\(.*\)'`
if [ -z "${key}" -o -z "${val}" ]; then
usage
exit 1
fi
eval "${key}='${val}'"
export ${key}
env="${env:+${env} }${key}"
;;
h) usage; exit 0 ;; # output help
s) shells=${OPTARG} ;; # list of shells to run
t) tests=${OPTARG} ;; # list of tests to run
*) usage; exit 1 ;;
esac
done
shift `expr ${OPTIND} - 1`
# fill shells and/or tests
shells=${shells:-${SHELLS}}
tests=${tests:-${TESTS}}
# error checking
if [ -z "${tests}" ]; then
th_error 'no tests found to run; exiting'
exit 1
fi
cat <<EOF
#------------------------------------------------------------------------------
# System data
#
# test run info
shells: ${shells}
tests: ${tests}
EOF
for key in ${env}; do
eval "echo \"${key}=\$${key}\""
done
echo
# output system data
echo "# system info"
echo "$ date"
date
echo
echo "$ uname -mprsv"
uname -mprsv
#
# run tests
#
for shell in ${shells}; do
echo
# check for existance of shell
if [ ! -x ${shell} ]; then
th_warn "unable to run tests with the ${shell} shell"
continue
fi
cat <<EOF
#------------------------------------------------------------------------------
# Running the test suite with ${shell}
#
EOF
SHUNIT_SHELL=${shell} # pass shell onto tests
shell_name=`basename ${shell}`
shell_version=`versions_shellVersion "${shell}"`
echo "shell name: ${shell_name}"
echo "shell version: ${shell_version}"
# execute the tests
for suite in ${tests}; do
suiteName=`expr "${suite}" : "${PREFIX}\(.*\).sh"`
echo
echo "--- Executing the '${suiteName}' test suite ---"
( exec ${shell} ./${suite} 2>&1; )
done
done

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@ -0,0 +1,206 @@
#! /bin/sh
# $Id$
# vim:et:ft=sh:sts=2:sw=2
#
# Copyright 2008 Kate Ward. All Rights Reserved.
# Released under the LGPL (GNU Lesser General Public License)
#
# Author: kate.ward@forestent.com (Kate Ward)
#
# shUnit2 unit test for assert functions
# load test helpers
. ./shunit2_test_helpers
#------------------------------------------------------------------------------
# suite tests
#
commonEqualsSame()
{
fn=$1
( ${fn} 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'equal' $? "${stdoutF}" "${stderrF}"
( ${fn} "${MSG}" 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'equal; with msg' $? "${stdoutF}" "${stderrF}"
( ${fn} 'abc def' 'abc def' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'equal with spaces' $? "${stdoutF}" "${stderrF}"
( ${fn} 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'not equal' $? "${stdoutF}" "${stderrF}"
( ${fn} '' '' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'null values' $? "${stdoutF}" "${stderrF}"
( ${fn} arg1 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too few arguments' $? "${stdoutF}" "${stderrF}"
( ${fn} arg1 arg2 arg3 arg4 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too many arguments' $? "${stdoutF}" "${stderrF}"
}
commonNotEqualsSame()
{
fn=$1
( ${fn} 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'not same' $? "${stdoutF}" "${stderrF}"
( ${fn} "${MSG}" 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'not same, with msg' $? "${stdoutF}" "${stderrF}"
( ${fn} 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'same' $? "${stdoutF}" "${stderrF}"
( ${fn} '' '' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'null values' $? "${stdoutF}" "${stderrF}"
( ${fn} arg1 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too few arguments' $? "${stdoutF}" "${stderrF}"
( ${fn} arg1 arg2 arg3 arg4 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too many arguments' $? "${stdoutF}" "${stderrF}"
}
testAssertEquals()
{
commonEqualsSame 'assertEquals'
}
testAssertNotEquals()
{
commonNotEqualsSame 'assertNotEquals'
}
testAssertSame()
{
commonEqualsSame 'assertSame'
}
testAssertNotSame()
{
commonNotEqualsSame 'assertNotSame'
}
testAssertNull()
{
( assertNull '' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'null' $? "${stdoutF}" "${stderrF}"
( assertNull "${MSG}" '' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'null, with msg' $? "${stdoutF}" "${stderrF}"
( assertNull 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'not null' $? "${stdoutF}" "${stderrF}"
( assertNull >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too few arguments' $? "${stdoutF}" "${stderrF}"
( assertNull arg1 arg2 arg3 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too many arguments' $? "${stdoutF}" "${stderrF}"
}
testAssertNotNull()
{
( assertNotNull 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'not null' $? "${stdoutF}" "${stderrF}"
( assertNotNull "${MSG}" 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'not null, with msg' $? "${stdoutF}" "${stderrF}"
( assertNotNull 'x"b' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'not null, with double-quote' $? \
"${stdoutF}" "${stderrF}"
( assertNotNull "x'b" >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'not null, with single-quote' $? \
"${stdoutF}" "${stderrF}"
( assertNotNull 'x$b' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'not null, with dollar' $? \
"${stdoutF}" "${stderrF}"
( assertNotNull 'x`b' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'not null, with backtick' $? \
"${stdoutF}" "${stderrF}"
( assertNotNull '' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'null' $? "${stdoutF}" "${stderrF}"
# there is no test for too few arguments as $1 might actually be null
( assertNotNull arg1 arg2 arg3 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too many arguments' $? "${stdoutF}" "${stderrF}"
}
testAssertTrue()
{
( assertTrue 0 >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'true' $? "${stdoutF}" "${stderrF}"
( assertTrue "${MSG}" 0 >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'true, with msg' $? "${stdoutF}" "${stderrF}"
( assertTrue '[ 0 -eq 0 ]' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'true condition' $? "${stdoutF}" "${stderrF}"
( assertTrue 1 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'false' $? "${stdoutF}" "${stderrF}"
( assertTrue '[ 0 -eq 1 ]' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'false condition' $? "${stdoutF}" "${stderrF}"
( assertTrue '' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'null' $? "${stdoutF}" "${stderrF}"
( assertTrue >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too few arguments' $? "${stdoutF}" "${stderrF}"
( assertTrue arg1 arg2 arg3 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too many arguments' $? "${stdoutF}" "${stderrF}"
}
testAssertFalse()
{
( assertFalse 1 >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'false' $? "${stdoutF}" "${stderrF}"
( assertFalse "${MSG}" 1 >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'false, with msg' $? "${stdoutF}" "${stderrF}"
( assertFalse '[ 0 -eq 1 ]' >"${stdoutF}" 2>"${stderrF}" )
th_assertTrueWithNoOutput 'false condition' $? "${stdoutF}" "${stderrF}"
( assertFalse 0 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'true' $? "${stdoutF}" "${stderrF}"
( assertFalse '[ 0 -eq 0 ]' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'true condition' $? "${stdoutF}" "${stderrF}"
( assertFalse '' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'true condition' $? "${stdoutF}" "${stderrF}"
( assertFalse >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too few arguments' $? "${stdoutF}" "${stderrF}"
( assertFalse arg1 arg2 arg3 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too many arguments' $? "${stdoutF}" "${stderrF}"
}
#------------------------------------------------------------------------------
# suite functions
#
oneTimeSetUp()
{
th_oneTimeSetUp
MSG='This is a test message'
}
# load and run shUnit2
[ -n "${ZSH_VERSION:-}" ] && SHUNIT_PARENT=$0
. ${TH_SHUNIT}

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@ -0,0 +1,86 @@
#! /bin/sh
# $Id$
# vim:et:ft=sh:sts=2:sw=2
#
# Copyright 2008 Kate Ward. All Rights Reserved.
# Released under the LGPL (GNU Lesser General Public License)
#
# Author: kate.ward@forestent.com (Kate Ward)
#
# shUnit2 unit test for failure functions
# load common unit-test functions
. ./shunit2_test_helpers
#-----------------------------------------------------------------------------
# suite tests
#
testFail()
{
( fail >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'fail' $? "${stdoutF}" "${stderrF}"
( fail "${MSG}" >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'fail with msg' $? "${stdoutF}" "${stderrF}"
( fail arg1 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'too many arguments' $? "${stdoutF}" "${stderrF}"
}
testFailNotEquals()
{
( failNotEquals 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'same' $? "${stdoutF}" "${stderrF}"
( failNotEquals "${MSG}" 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'same with msg' $? "${stdoutF}" "${stderrF}"
( failNotEquals 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'not same' $? "${stdoutF}" "${stderrF}"
( failNotEquals '' '' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'null values' $? "${stdoutF}" "${stderrF}"
( failNotEquals >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too few arguments' $? "${stdoutF}" "${stderrF}"
( failNotEquals arg1 arg2 arg3 arg4 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too many arguments' $? "${stdoutF}" "${stderrF}"
}
testFailSame()
{
( failSame 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'same' $? "${stdoutF}" "${stderrF}"
( failSame "${MSG}" 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'same with msg' $? "${stdoutF}" "${stderrF}"
( failSame 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'not same' $? "${stdoutF}" "${stderrF}"
( failSame '' '' >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithOutput 'null values' $? "${stdoutF}" "${stderrF}"
( failSame >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too few arguments' $? "${stdoutF}" "${stderrF}"
( failSame arg1 arg2 arg3 arg4 >"${stdoutF}" 2>"${stderrF}" )
th_assertFalseWithError 'too many arguments' $? "${stdoutF}" "${stderrF}"
}
#-----------------------------------------------------------------------------
# suite functions
#
oneTimeSetUp()
{
th_oneTimeSetUp
MSG='This is a test message'
}
# load and run shUnit2
[ -n "${ZSH_VERSION:-}" ] && SHUNIT_PARENT=$0
. ${TH_SHUNIT}

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@ -0,0 +1,229 @@
# $Id$
# vim:et:ft=sh:sts=2:sw=2
#
# Copyright 2008 Kate Ward. All Rights Reserved.
# Released under the LGPL (GNU Lesser General Public License)
#
# Author: kate.ward@forestent.com (Kate Ward)
#
# shUnit2 unit test common functions
# treat unset variables as an error when performing parameter expansion
set -u
# set shwordsplit for zsh
[ -n "${ZSH_VERSION:-}" ] && setopt shwordsplit
#
# constants
#
# path to shUnit2 library. can be overridden by setting SHUNIT_INC
TH_SHUNIT=${SHUNIT_INC:-./shunit2}
# configure debugging. set the DEBUG environment variable to any
# non-empty value to enable debug output, or TRACE to enable trace
# output.
TRACE=${TRACE:+'th_trace '}
[ -n "${TRACE}" ] && DEBUG=1
[ -z "${TRACE}" ] && TRACE=':'
DEBUG=${DEBUG:+'th_debug '}
[ -z "${DEBUG}" ] && DEBUG=':'
#
# variables
#
th_RANDOM=0
#
# functions
#
# message functions
th_trace() { echo "${MY_NAME}:TRACE $@" >&2; }
th_debug() { echo "${MY_NAME}:DEBUG $@" >&2; }
th_info() { echo "${MY_NAME}:INFO $@" >&2; }
th_warn() { echo "${MY_NAME}:WARN $@" >&2; }
th_error() { echo "${MY_NAME}:ERROR $@" >&2; }
th_fatal() { echo "${MY_NAME}:FATAL $@" >&2; }
# output subtest name
th_subtest() { echo " $@" >&2; }
th_oneTimeSetUp()
{
# these files will be cleaned up automatically by shUnit2
stdoutF="${SHUNIT_TMPDIR}/stdout"
stderrF="${SHUNIT_TMPDIR}/stderr"
returnF="${SHUNIT_TMPDIR}/return"
expectedF="${SHUNIT_TMPDIR}/expected"
}
# generate a random number
th_generateRandom()
{
tfgr_random=${th_RANDOM}
while [ "${tfgr_random}" = "${th_RANDOM}" ]; do
if [ -n "${RANDOM:-}" ]; then
# $RANDOM works
tfgr_random=${RANDOM}${RANDOM}${RANDOM}$$
elif [ -r '/dev/urandom' ]; then
tfgr_random=`od -vAn -N4 -tu4 </dev/urandom |sed 's/^[^0-9]*//'`
else
tfgr_date=`date '+%H%M%S'`
tfgr_random=`expr ${tfgr_date} \* $$`
unset tfgr_date
fi
[ "${tfgr_random}" = "${th_RANDOM}" ] && sleep 1
done
th_RANDOM=${tfgr_random}
unset tfgr_random
}
# this section returns the data section from the specified section of a file. a
# datasection is defined by a [header], one or more lines of data, and then a
# blank line.
th_getDataSect()
{
th_sgrep "\\[$1\\]" "$2" |sed '1d'
}
# this function greps a section from a file. a section is defined as a group of
# lines preceeded and followed by blank lines.
th_sgrep()
{
th_pattern_=$1
shift
sed -e '/./{H;$!d;}' -e "x;/${th_pattern_}/"'!d;' $@ |sed '1d'
unset th_pattern_
}
# Custom assert that checks for true return value (0), and no output to STDOUT
# or STDERR. If a non-zero return value is encountered, the output of STDERR
# will be output.
#
# Args:
# th_test_: string: name of the subtest
# th_rtrn_: integer: the return value of the subtest performed
# th_stdout_: string: filename where stdout was redirected to
# th_stderr_: string: filename where stderr was redirected to
th_assertTrueWithNoOutput()
{
th_test_=$1
th_rtrn_=$2
th_stdout_=$3
th_stderr_=$4
assertTrue "${th_test_}; expected return value of zero" ${th_rtrn_}
[ ${th_rtrn_} -ne ${SHUNIT_TRUE} ] && cat "${th_stderr_}"
assertFalse "${th_test_}; expected no output to STDOUT" \
"[ -s '${th_stdout_}' ]"
assertFalse "${th_test_}; expected no output to STDERR" \
"[ -s '${th_stderr_}' ]"
unset th_test_ th_rtrn_ th_stdout_ th_stderr_
}
# Custom assert that checks for non-zero return value, output to STDOUT, but no
# output to STDERR.
#
# Args:
# th_test_: string: name of the subtest
# th_rtrn_: integer: the return value of the subtest performed
# th_stdout_: string: filename where stdout was redirected to
# th_stderr_: string: filename where stderr was redirected to
th_assertFalseWithOutput()
{
th_test_=$1
th_rtrn_=$2
th_stdout_=$3
th_stderr_=$4
assertFalse "${th_test_}; expected non-zero return value" ${th_rtrn_}
assertTrue "${th_test_}; expected output to STDOUT" \
"[ -s '${th_stdout_}' ]"
assertFalse "${th_test_}; expected no output to STDERR" \
"[ -s '${th_stderr_}' ]"
[ -s "${th_stdout_}" -a ! -s "${th_stderr_}" ] || \
_th_showOutput ${SHUNIT_FALSE} "${th_stdout_}" "${th_stderr_}"
unset th_test_ th_rtrn_ th_stdout_ th_stderr_
}
# Custom assert that checks for non-zero return value, no output to STDOUT, but
# output to STDERR.
#
# Args:
# th_test_: string: name of the subtest
# th_rtrn_: integer: the return value of the subtest performed
# th_stdout_: string: filename where stdout was redirected to
# th_stderr_: string: filename where stderr was redirected to
th_assertFalseWithError()
{
th_test_=$1
th_rtrn_=$2
th_stdout_=$3
th_stderr_=$4
assertFalse "${th_test_}; expected non-zero return value" ${th_rtrn_}
assertFalse "${th_test_}; expected no output to STDOUT" \
"[ -s '${th_stdout_}' ]"
assertTrue "${th_test_}; expected output to STDERR" \
"[ -s '${th_stderr_}' ]"
[ ! -s "${th_stdout_}" -a -s "${th_stderr_}" ] || \
_th_showOutput ${SHUNIT_FALSE} "${th_stdout_}" "${th_stderr_}"
unset th_test_ th_rtrn_ th_stdout_ th_stderr_
}
# Some shells, zsh on Solaris in particular, return immediately from a sub-shell
# when a non-zero return value is encountered. To properly catch these values,
# they are either written to disk, or recognized as an error the file is empty.
th_clearReturn() { cp /dev/null "${returnF}"; }
th_queryReturn()
{
if [ -s "${returnF}" ]; then
th_return=`cat "${returnF}"`
else
th_return=${SHUNIT_ERROR}
fi
}
# Providing external and internal calls to the showOutput helper function.
th_showOutput() { _th_showOutput $@; }
_th_showOutput()
{
_th_return_=$1
_th_stdout_=$2
_th_stderr_=$3
isSkipping
if [ $? -eq ${SHUNIT_FALSE} -a ${_th_return_} != ${SHUNIT_TRUE} ]; then
if [ -n "${_th_stdout_}" -a -s "${_th_stdout_}" ]; then
echo '>>> STDOUT' >&2
cat "${_th_stdout_}" >&2
fi
if [ -n "${_th_stderr_}" -a -s "${_th_stderr_}" ]; then
echo '>>> STDERR' >&2
cat "${_th_stderr_}" >&2
fi
if [ -n "${_th_stdout_}" -o -n "${_th_stderr_}" ]; then
echo '<<< end output' >&2
fi
fi
unset _th_return_ _th_stdout_ _th_stderr_
}
#
# main
#
${TRACE} 'trace output enabled'
${DEBUG} 'debug output enabled'

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@ -0,0 +1,246 @@
#! /bin/sh
# $Id$
# vim:et:ft=sh:sts=2:sw=2
#
# Copyright 2008 Kate Ward. All Rights Reserved.
# Released under the LGPL (GNU Lesser General Public License)
# Author: kate.ward@forestent.com (Kate Ward)
#
# shUnit2 unit test for macros.
# load test helpers
. ./shunit2_test_helpers
#------------------------------------------------------------------------------
# suite tests
#
testAssertEquals()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_ASSERT_EQUALS_} 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_EQUALS_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_ASSERT_EQUALS_} '"some msg"' 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_EQUALS_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testAssertNotEquals()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_ASSERT_NOT_EQUALS_} 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_NOT_EQUALS_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_ASSERT_NOT_EQUALS_} '"some msg"' 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_NOT_EQUALS_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testSame()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_ASSERT_SAME_} 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_SAME_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_ASSERT_SAME_} '"some msg"' 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_SAME_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testNotSame()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_ASSERT_NOT_SAME_} 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_NOT_SAME_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_ASSERT_NOT_SAME_} '"some msg"' 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_NOT_SAME_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testNull()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_ASSERT_NULL_} 'x' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_NULL_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_ASSERT_NULL_} '"some msg"' 'x' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_NULL_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testNotNull()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_ASSERT_NOT_NULL_} '' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_NOT_NULL_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_ASSERT_NOT_NULL_} '"some msg"' '""' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_NOT_NULL_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stdoutF}" "${stderrF}" >&2
}
testAssertTrue()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_ASSERT_TRUE_} ${SHUNIT_FALSE} >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_TRUE_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_ASSERT_TRUE_} '"some msg"' ${SHUNIT_FALSE} >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_TRUE_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testAssertFalse()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_ASSERT_FALSE_} ${SHUNIT_TRUE} >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_FALSE_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_ASSERT_FALSE_} '"some msg"' ${SHUNIT_TRUE} >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_ASSERT_FALSE_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testFail()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_FAIL_} >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_FAIL_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_FAIL_} '"some msg"' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_FAIL_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testFailNotEquals()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_FAIL_NOT_EQUALS_} 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_FAIL_NOT_EQUALS_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_FAIL_NOT_EQUALS_} '"some msg"' 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_FAIL_NOT_EQUALS_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testFailSame()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_FAIL_SAME_} 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_FAIL_SAME_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_FAIL_SAME_} '"some msg"' 'x' 'x' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_FAIL_SAME_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testFailNotSame()
{
# start skipping if LINENO not available
[ -z "${LINENO:-}" ] && startSkipping
( ${_FAIL_NOT_SAME_} 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_FAIL_NOT_SAME_ failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
( ${_FAIL_NOT_SAME_} '"some msg"' 'x' 'y' >"${stdoutF}" 2>"${stderrF}" )
grep '^ASSERT:\[[0-9]*\] *' "${stdoutF}" >/dev/null
rtrn=$?
assertTrue '_FAIL_NOT_SAME_ w/ msg failure' ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
#------------------------------------------------------------------------------
# suite functions
#
oneTimeSetUp()
{
th_oneTimeSetUp
}
# load and run shUnit2
[ -n "${ZSH_VERSION:-}" ] && SHUNIT_PARENT=$0
. ${TH_SHUNIT}

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#! /bin/sh
# $Id$
# vim:et:ft=sh:sts=2:sw=2
#
# Copyright 2008 Kate Ward. All Rights Reserved.
# Released under the LGPL (GNU Lesser General Public License)
#
# Author: kate.ward@forestent.com (Kate Ward)
#
# shUnit2 unit tests of miscellaneous things
# load test helpers
. ./shunit2_test_helpers
#------------------------------------------------------------------------------
# suite tests
#
# Note: the test script is prefixed with '#' chars so that shUnit2 does not
# incorrectly interpret the embedded functions as real functions.
testUnboundVariable()
{
unittestF="${SHUNIT_TMPDIR}/unittest"
sed 's/^#//' >"${unittestF}" <<EOF
## treat unset variables as an error when performing parameter expansion
#set -u
#
#boom() { x=\$1; } # this function goes boom if no parameters are passed!
#test_boom()
#{
# assertEquals 1 1
# boom # No parameter given
# assertEquals 0 \$?
#}
#. ${TH_SHUNIT}
EOF
( exec ${SHUNIT_SHELL:-sh} "${unittestF}" >"${stdoutF}" 2>"${stderrF}" )
assertFalse 'expected a non-zero exit value' $?
grep '^ASSERT:Unknown failure' "${stdoutF}" >/dev/null
assertTrue 'assert message was not generated' $?
grep '^Ran [0-9]* test' "${stdoutF}" >/dev/null
assertTrue 'test count message was not generated' $?
grep '^FAILED' "${stdoutF}" >/dev/null
assertTrue 'failure message was not generated' $?
}
testIssue7()
{
( assertEquals 'Some message.' 1 2 >"${stdoutF}" 2>"${stderrF}" )
diff "${stdoutF}" - >/dev/null <<EOF
ASSERT:Some message. expected:<1> but was:<2>
EOF
rtrn=$?
assertEquals ${SHUNIT_TRUE} ${rtrn}
[ ${rtrn} -ne ${SHUNIT_TRUE} ] && cat "${stderrF}" >&2
}
testPrepForSourcing()
{
assertEquals '/abc' `_shunit_prepForSourcing '/abc'`
assertEquals './abc' `_shunit_prepForSourcing './abc'`
assertEquals './abc' `_shunit_prepForSourcing 'abc'`
}
testEscapeCharInStr()
{
actual=`_shunit_escapeCharInStr '\' ''`
assertEquals '' "${actual}"
assertEquals 'abc\\' `_shunit_escapeCharInStr '\' 'abc\'`
assertEquals 'abc\\def' `_shunit_escapeCharInStr '\' 'abc\def'`
assertEquals '\\def' `_shunit_escapeCharInStr '\' '\def'`
actual=`_shunit_escapeCharInStr '"' ''`
assertEquals '' "${actual}"
assertEquals 'abc\"' `_shunit_escapeCharInStr '"' 'abc"'`
assertEquals 'abc\"def' `_shunit_escapeCharInStr '"' 'abc"def'`
assertEquals '\"def' `_shunit_escapeCharInStr '"' '"def'`
actual=`_shunit_escapeCharInStr '$' ''`
assertEquals '' "${actual}"
assertEquals 'abc\$' `_shunit_escapeCharInStr '$' 'abc$'`
assertEquals 'abc\$def' `_shunit_escapeCharInStr '$' 'abc$def'`
assertEquals '\$def' `_shunit_escapeCharInStr '$' '$def'`
# actual=`_shunit_escapeCharInStr "'" ''`
# assertEquals '' "${actual}"
# assertEquals "abc\\'" `_shunit_escapeCharInStr "'" "abc'"`
# assertEquals "abc\\'def" `_shunit_escapeCharInStr "'" "abc'def"`
# assertEquals "\\'def" `_shunit_escapeCharInStr "'" "'def"`
# # must put the backtick in a variable so the shell doesn't misinterpret it
# # while inside a backticked sequence (e.g. `echo '`'` would fail).
# backtick='`'
# actual=`_shunit_escapeCharInStr ${backtick} ''`
# assertEquals '' "${actual}"
# assertEquals '\`abc' \
# `_shunit_escapeCharInStr "${backtick}" ${backtick}'abc'`
# assertEquals 'abc\`' \
# `_shunit_escapeCharInStr "${backtick}" 'abc'${backtick}`
# assertEquals 'abc\`def' \
# `_shunit_escapeCharInStr "${backtick}" 'abc'${backtick}'def'`
}
testEscapeCharInStr_specialChars()
{
# make sure our forward slash doesn't upset sed
assertEquals '/' `_shunit_escapeCharInStr '\' '/'`
# some shells escape these differently
#assertEquals '\\a' `_shunit_escapeCharInStr '\' '\a'`
#assertEquals '\\b' `_shunit_escapeCharInStr '\' '\b'`
}
# Test the various ways of declaring functions.
#
# Prefixing (then stripping) with comment symbol so these functions aren't
# treated as real functions by shUnit2.
testExtractTestFunctions()
{
f="${SHUNIT_TMPDIR}/extract_test_functions"
sed 's/^#//' <<EOF >"${f}"
#testABC() { echo 'ABC'; }
#test_def() {
# echo 'def'
#}
#testG3 ()
#{
# echo 'G3'
#}
#function test4() { echo '4'; }
# test5() { echo '5'; }
#some_test_function() { echo 'some func'; }
#func_with_test_vars() {
# testVariable=1234
#}
EOF
actual=`_shunit_extractTestFunctions "${f}"`
assertEquals 'testABC test_def testG3 test4 test5' "${actual}"
}
#------------------------------------------------------------------------------
# suite functions
#
setUp()
{
for f in ${expectedF} ${stdoutF} ${stderrF}; do
cp /dev/null ${f}
done
}
oneTimeSetUp()
{
th_oneTimeSetUp
}
# load and run shUnit2
[ -n "${ZSH_VERSION:-}" ] && SHUNIT_PARENT=$0
. ${TH_SHUNIT}

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#! /bin/sh
# $Id$
# vim:et:ft=sh:sts=2:sw=2
#
# Copyright 2010 Kate Ward. All Rights Reserved.
# Released under the LGPL (GNU Lesser General Public License)
# Author: kate.ward@forestent.com (Kate Ward)
#
# shUnit2 unit test for standalone operation.
#
# This unit test is purely to test that calling shunit2 directly, while passing
# the name of a unit test script, works. When run, this script determines if it
# is running as a standalone program, and calls main() if it is.
ARGV0=`basename "$0"`
# load test helpers
. ./shunit2_test_helpers
#------------------------------------------------------------------------------
# suite tests
#
testStandalone()
{
assertTrue ${SHUNIT_TRUE}
}
#------------------------------------------------------------------------------
# main
#
main()
{
${TH_SHUNIT} "${ARGV0}"
}
# are we running as a standalone?
if [ "${ARGV0}" = 'shunit2_test_standalone.sh' ]; then
if [ $# -gt 0 ]; then main "$@"; else main; fi
fi