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gerrit.nordix.org / oransc / nonrtric / b71c749ac798702410fd72a988adb690f6d804b3 / . / test / common / testcase_common.sh
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#!/bin/bash
# ============LICENSE_START===============================================
# Copyright (C) 2020-22023 Nordix Foundation. All rights reserved.
# ========================================================================
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# ============LICENSE_END=================================================
#
# This is a script that contains all the common functions needed for auto test.
# Specific test function are defined in scripts XXXX_functions.sh
. ../common/api_curl.sh
. ../common/testengine_config.sh
__print_args() {
echo "Args: remote|remote-remove docker|kube --env-file <environment-filename> [release] [auto-clean] [--stop-at-error] "
echo " [--ricsim-prefix <prefix> ] [--use-local-image <app-nam>+] [--use-snapshot-image <app-nam>+]"
echo " [--use-staging-image <app-nam>+] [--use-release-image <app-nam>+] [--use-external-image <app-nam>+] [--image-repo <repo-address>]"
echo " [--repo-policy local|remote] [--cluster-timeout <timeout-in seconds>] [--print-stats]"
echo " [--override <override-environment-filename>] [--pre-clean] [--gen-stats] [--delete-namespaces]"
echo " [--delete-containers] [--endpoint-stats] [--kubeconfig <config-file>] [--host-path-dir <local-host-dir>]"
echo " [--kubecontext <context-name>] [--docker-host <docker-host-url>] [--docker-proxy <host-or-ip>]"
echo " [--target-platform <platform> ]"
}
if [ $# -eq 1 ] && [ "$1" == "help" ]; then
if [ ! -z "$TC_ONELINE_DESCR" ]; then
echo "Test script description:"
echo $TC_ONELINE_DESCR
echo ""
fi
__print_args
echo ""
echo "remote - Use images from remote repositories. Can be overridden for individual images using the '--use_xxx' flags"
echo "remote-remove - Same as 'remote' but will also try to pull fresh images from remote repositories"
echo "docker - Test executed in docker environment"
echo "kube - Test executed in kubernetes environment - requires an already started kubernetes environment"
echo "--env-file <file> - The script will use the supplied file to read environment variables from"
echo "release - If this flag is given the script will use release version of the images"
echo "auto-clean - If the function 'auto_clean_containers' is present in the end of the test script then all containers will be stopped and removed. If 'auto-clean' is not given then the function has no effect."
echo "--stop-at-error - The script will stop when the first failed test or configuration"
echo "--ricsim-prefix - The a1 simulator will use the supplied string as container prefix instead of 'ricsim'"
echo "--use-local-image - The script will use local images for the supplied apps, space separated list of app short names"
echo "--use-snapshot-image - The script will use images from the nexus snapshot repo for the supplied apps, space separated list of app short names"
echo "--use-staging-image - The script will use images from the nexus staging repo for the supplied apps, space separated list of app short names"
echo "--use-release-image - The script will use images from the nexus release repo for the supplied apps, space separated list of app short names"
echo "--use-external-image - The script will use images from the external (non oran/onap) repo for the supplied apps, space separated list of app short names"
echo "--image-repo - Url to optional image repo. Only locally built images will be re-tagged and pushed to this repo"
echo "--repo-policy - Policy controlling which images to re-tag and push if param --image-repo is set. Default is 'local'"
echo "--cluster-timeout - Optional timeout for cluster where it takes time to obtain external ip/host-name. Timeout in seconds. "
echo "--print-stats - Print current test stats after each test."
echo "--override <file> - Override setting from the file supplied by --env-file"
echo "--pre-clean - Will clean kube resouces when running docker and vice versa"
echo "--gen-stats - Collect container/pod runtime statistics"
echo "--delete-namespaces - Delete kubernetes namespaces before starting tests - but only those created by the test scripts. Kube mode only. Ignored if running with pre-started apps."
echo "--delete-containers - Delete docker containers before starting tests - but only those created by the test scripts. Docker mode only."
echo "--endpoint-stats - Collect endpoint statistics"
echo "--kubeconfig - Configure kubectl to use cluster specific cluster config file"
echo "--host-path-dir - (Base-)path on local-hostmounted to all VMs (nodes), for hostpath volumes in kube"
echo "--kubecontext - Configure kubectl to use a certain context, e.g 'minikube'"
echo "--docker-host - Configure docker to use docker in e.g. a VM"
echo "--docker-proxy - Configure ip/host to docker when docker is running in a VM"
echo "--target-platform - Build and pull images for this target platform"
echo ""
echo "List of app short names supported: "$APP_SHORT_NAMES
exit 0
fi
AUTOTEST_HOME=$PWD
# Create a test case id, ATC (Auto Test Case), from the name of the test case script.
# FTC1.sh -> ATC == FTC1
ATC=$(basename "${BASH_SOURCE[$i+1]}" .sh)
#Create result file (containing '1' for error) for this test case
#Will be replaced with a file containing '0' if all test cases pass
echo "1" > "$PWD/.result$ATC.txt"
#Formatting for 'echo' cmd
BOLD="\033[1m"
EBOLD="\033[0m"
RED="\033[31m\033[1m"
ERED="\033[0m"
GREEN="\033[32m\033[1m"
EGREEN="\033[0m"
YELLOW="\033[33m\033[1m"
EYELLOW="\033[0m"
SAMELINE="\033[0K\r"
# Just resetting any previous echo formatting...
echo -ne $EBOLD
# default test environment variables
TEST_ENV_VAR_FILE=""
#Override env file, will be added on top of the above file
TEST_ENV_VAR_FILE_OVERRIDE=""
echo "Test case started as: ${BASH_SOURCE[$i+1]} "$@
# Var to hold 'auto' in case containers shall be stopped when test case ends
AUTO_CLEAN=""
# Var to indicate pre clean, if flag --pre-clean is set the script will clean kube resources when running docker and vice versa
PRE_CLEAN="0"
# Var to hold the app names to use local images for
USE_LOCAL_IMAGES=""
# Var to hold the app names to use remote snapshot images for
USE_SNAPSHOT_IMAGES=""
# Var to hold the app names to use remote staging images for
USE_STAGING_IMAGES=""
# Var to hold the app names to use remote release images for
USE_RELEASE_IMAGES=""
# Var to hold the app names to use external release images for
USE_EXTERNAL_IMAGES=""
# Use this var (STOP_AT_ERROR=1 in the test script) for debugging/trouble shooting to take all logs and exit at first FAIL test case
STOP_AT_ERROR=0
# The default value "DEV" indicate that development image tags (SNAPSHOT) and nexus repos (nexus port 10002) are used.
# The value "RELEASE" indicate that released image tag and nexus repos (nexus port) are used
# Applies only to images defined in the test-env files with image names and tags defined as XXXX_RELEASE
IMAGE_CATEGORY="DEV"
#Var to indicate docker-compose version, V1 or V2. V1 is not supported.
#V1 names replicated containers <proj-name>_<service-name>_<index>
#V2 names replicated containers <proj-name>-<service-name>-<index>
DOCKER_COMPOSE_VERSION="V2"
# Name of target platform, if set by start cmd
IMAGE_TARGET_PLATFORM=""
IMAGE_TARGET_PLATFORM_CMD_PARAM="" # Docker cmd param for setting target platform
IMAGE_TARGET_PLATFORM_IMG_TAG="" # Will be set to target platform if cmd parameter is set
IMAGE_TARGET_PLATFORM_IMG_TAG=$(docker info --format '{{json . }}' | jq -r .Architecture | sed 's/\//_/g')
# Function to indent cmd output with one space
indent1() { sed 's/^/ /'; }
# Function to indent cmd output with two spaces
indent2() { sed 's/^/ /'; }
# Set a description string for the test case
if [ -z "$TC_ONELINE_DESCR" ]; then
TC_ONELINE_DESCR="<no-description>"
echo "No test case description found, TC_ONELINE_DESCR should be set on in the test script , using "$TC_ONELINE_DESCR
fi
# Counter for test suites
if [ -f .tmp_tcsuite_ctr ]; then
tmpval=$(< .tmp_tcsuite_ctr)
((tmpval++))
echo $tmpval > .tmp_tcsuite_ctr
fi
# Create the logs dir if not already created in the current dir
if [ ! -d "logs" ]; then
mkdir logs
fi
TESTLOGS=$PWD/logs
# Create the tmp dir for temporary files that is not needed after the test
# hidden files for the test env is still stored in the current dir
# files in the ./tmp is moved to ./tmp/prev when a new test is started
if [ ! -d "tmp" ]; then
mkdir tmp
if [ $? -ne 0 ]; then
echo "Cannot create dir for temp files, $PWD/tmp"
echo "Exiting...."
exit 1
fi
fi
curdir=$PWD
cd tmp
if [ $? -ne 0 ]; then
echo "Cannot cd to $PWD/tmp"
echo "Exiting...."
exit 1
fi
TESTENV_TEMP_FILES=$PWD
if [ ! -d "prev" ]; then
mkdir prev
if [ $? -ne 0 ]; then
echo "Cannot create dir for previous temp files, $PWD/prev"
echo "Exiting...."
exit 1
fi
fi
TMPFILES=$(ls -A | grep -vw prev)
if [ ! -z "$TMPFILES" ]; then
cp -r $TMPFILES prev #Move all temp files to prev dir
if [ $? -ne 0 ]; then
echo "Cannot move temp files in $PWD to previous temp files in, $PWD/prev"
echo "Exiting...."
exit 1
fi
if [ $(pwd | xargs basename) == "tmp" ]; then #Check that current dir is tmp...for safety
rm -rf $TMPFILES # Remove all temp files
fi
fi
cd $curdir
if [ $? -ne 0 ]; then
echo "Cannot cd to $curdir"
echo "Exiting...."
exit 1
fi
# Create a http message log for this testcase
HTTPLOG=$PWD"/.httplog_"$ATC".txt"
echo "" > $HTTPLOG
# Create a log dir for the test case
mkdir -p $TESTLOGS/$ATC
# Save create for current logs
mkdir -p $TESTLOGS/$ATC/previous
rm $TESTLOGS/$ATC/previous/*.log &> /dev/null
rm $TESTLOGS/$ATC/previous/*.txt &> /dev/null
rm $TESTLOGS/$ATC/previous/*.json &> /dev/null
mv $TESTLOGS/$ATC/*.log $TESTLOGS/$ATC/previous &> /dev/null
mv $TESTLOGS/$ATC/*.txt $TESTLOGS/$ATC/previous &> /dev/null
mv $TESTLOGS/$ATC/*.txt $TESTLOGS/$ATC/previous &> /dev/null
# Clear the log dir for the test case
rm $TESTLOGS/$ATC/*.log &> /dev/null
rm $TESTLOGS/$ATC/*.txt &> /dev/null
rm $TESTLOGS/$ATC/*.json &> /dev/null
#Create result file in the log dir
echo "1" > "$TESTLOGS/$ATC/.result$ATC.txt"
# Log all output from the test case to a TC log
TCLOG=$TESTLOGS/$ATC/TC.log
exec &> >(tee ${TCLOG})
echo $(date) > $TESTLOGS/$ATC/endpoint_tc_start.log
echo "$TC_ONELINE_DESCR" > $TESTLOGS/$ATC/endpoint_tc_slogan.log
echo "Test failed" > $TESTLOGS/$ATC/endpoint_tc_end.log # Will be overwritten if test is ok
#Variables for counting tests as well as passed and failed tests
RES_TEST=0
RES_PASS=0
RES_FAIL=0
RES_CONF_FAIL=0
RES_DEVIATION=0
#Var to control if current stats shall be printed
PRINT_CURRENT_STATS=0
#Var to control if container/pod runtime statistics shall be collected
COLLECT_RUNTIME_STATS=0
COLLECT_RUNTIME_STATS_PID=0
#Var to control if endpoint statistics shall be collected
COLLECT_ENDPOINT_STATS=0
#Var to control if namespaces shall be delete before test setup
DELETE_KUBE_NAMESPACES=0
#Var to control if containers shall be delete before test setup
DELETE_CONTAINERS=0
#Var to configure kubectl from a config file or context
KUBECONF=""
#Localhost, may be set to another host/ip by cmd parameter
LOCALHOST_NAME="localhost"
#Resetting vars related to token/keys used by kubeproxy when istio is enabled
#The vars are populated if istio is used in the testcase
KUBE_PROXY_CURL_JWT=""
KUBE_PROXY_ISTIO_JWKS_KEYS=""
#Var pointing to dir mounted to each kubernetes node (master and workers)
#Persistent volumes using "hostpath" are allocated beneath the point.
#Typically it is a dir on local host mounted to each VM running the master and worker.
#So the intention is make this dir available so the PODs can be restarted on any
#node and still access the persistent data
#If not set from cmd line, the path is defaults to "/tmp"
HOST_PATH_BASE_DIR=""
#File to keep deviation messages
DEVIATION_FILE=".tmp_deviations"
rm $DEVIATION_FILE &> /dev/null
# Trap "command not found" and make the script fail
trap_fnc() {
if [ $? -eq 127 ]; then
echo -e $RED"Function not found, setting script to FAIL"$ERED
((RES_CONF_FAIL++))
__print_current_stats
fi
}
trap trap_fnc ERR
# Trap to kill subprocess for stats collection (if running)
trap_fnc2() {
if [ $COLLECT_RUNTIME_STATS_PID -ne 0 ]; then
kill $COLLECT_RUNTIME_STATS_PID
fi
}
trap trap_fnc2 EXIT
# Counter for tests
TEST_SEQUENCE_NR=1
# Function to log the start of a test case
__log_test_start() {
TIMESTAMP=$(date "+%Y-%m-%d %H:%M:%S")
echo -e $BOLD"TEST $TEST_SEQUENCE_NR - (${BASH_LINENO[1]}) - ${TIMESTAMP}: ${FUNCNAME[1]}" $@ $EBOLD
echo "TEST $TEST_SEQUENCE_NR - (${BASH_LINENO[1]}) - ${TIMESTAMP}: ${FUNCNAME[1]}" $@ >> $HTTPLOG
((RES_TEST++))
((TEST_SEQUENCE_NR++))
}
# Function to print current statistics
__print_current_stats() {
if [ $PRINT_CURRENT_STATS -ne 0 ]; then
echo " Current stats - exe-time, tests, passes, fails, conf fails, deviations: $(($SECONDS-$TCTEST_START)), $RES_TEST, $RES_PASS, $RES_FAIL, $RES_CONF_FAIL, $RES_DEVIATION"
fi
}
# General function to log a failed test case
__log_test_fail_general() {
echo -e $RED" FAIL."$1 $ERED
((RES_FAIL++))
__print_current_stats
__check_stop_at_error
}
# Function to log a test case failed due to incorrect response code
__log_test_fail_status_code() {
echo -e $RED" FAIL. Expected status "$1", got "$2 $3 $ERED
((RES_FAIL++))
__print_current_stats
__check_stop_at_error
}
# Function to log a test case failed due to incorrect response body
__log_test_fail_body() {
echo -e $RED" FAIL, returned body not correct"$ERED
((RES_FAIL++))
__print_current_stats
__check_stop_at_error
}
# Function to log a test case that is not supported
__log_test_fail_not_supported() {
echo -e $RED" FAIL, function not supported"$ERED
((RES_FAIL++))
__print_current_stats
__check_stop_at_error
}
# Function to log a test case that is not supported but will not fail
__log_test_info_not_supported() {
echo -e $YELLOW" INFO, function not supported"$YELLOW
__print_current_stats
}
# General function to log a passed test case
__log_test_pass() {
if [ $# -gt 0 ]; then
echo $@
fi
((RES_PASS++))
echo -e $GREEN" PASS"$EGREEN
__print_current_stats
}
#Counter for configurations
CONF_SEQUENCE_NR=1
# Function to log the start of a configuration setup
__log_conf_start() {
TIMESTAMP=$(date "+%Y-%m-%d %H:%M:%S")
echo -e $BOLD"CONF $CONF_SEQUENCE_NR - (${BASH_LINENO[1]}) - ${TIMESTAMP}: "${FUNCNAME[1]} $@ $EBOLD
echo "CONF $CONF_SEQUENCE_NR - (${BASH_LINENO[1]}) - ${TIMESTAMP}: "${FUNCNAME[1]} $@ >> $HTTPLOG
((CONF_SEQUENCE_NR++))
}
# Function to log a failed configuration setup
__log_conf_fail_general() {
echo -e $RED" FAIL."$1 $ERED
((RES_CONF_FAIL++))
__print_current_stats
__check_stop_at_error
}
# Function to log a failed configuration setup due to incorrect response code
__log_conf_fail_status_code() {
echo -e $RED" FAIL. Expected status "$1", got "$2 $3 $ERED
((RES_CONF_FAIL++))
__print_current_stats
__check_stop_at_error
}
# Function to log a failed configuration setup due to incorrect response body
__log_conf_fail_body() {
echo -e $RED" FAIL, returned body not correct"$ERED
((RES_CONF_FAIL++))
__print_current_stats
__check_stop_at_error
}
# Function to log a configuration that is not supported
__log_conf_fail_not_supported() {
echo -e $RED" FAIL, function not supported"$ERED$@
((RES_CONF_FAIL++))
__print_current_stats
__check_stop_at_error
}
# Function to log a passed configuration setup
__log_conf_ok() {
if [ $# -gt 0 ]; then
echo $@
fi
echo -e $GREEN" OK"$EGREEN
__print_current_stats
}
# Function to collect stats on endpoints
# args: <app-id> <end-point-no> <http-operation> <end-point-url> <http-status> [<count>]
__collect_endpoint_stats() {
if [ $COLLECT_ENDPOINT_STATS -eq 0 ]; then
return
fi
ENDPOINT_COUNT=1
if [ $# -gt 5 ]; then
ENDPOINT_COUNT=$6
fi
ENDPOINT_STAT_FILE=$TESTLOGS/$ATC/endpoint_$ATC_$1_$2".log"
ENDPOINT_POS=0
ENDPOINT_NEG=0
if [ -f $ENDPOINT_STAT_FILE ]; then
ENDPOINT_VAL=$(< $ENDPOINT_STAT_FILE)
ENDPOINT_POS=$(echo $ENDPOINT_VAL | cut -f4 -d ' ' | cut -f1 -d '/')
ENDPOINT_NEG=$(echo $ENDPOINT_VAL | cut -f5 -d ' ' | cut -f1 -d '/')
fi
if [ $5 -ge 200 ] && [ $5 -lt 300 ]; then
let ENDPOINT_POS=ENDPOINT_POS+$ENDPOINT_COUNT
else
let ENDPOINT_NEG=ENDPOINT_NEG+$ENDPOINT_COUNT
fi
printf '%-2s %-10s %-45s %-16s %-16s' "#" "$3" "$4" "$ENDPOINT_POS/$ENDPOINT_POS" "$ENDPOINT_NEG/$ENDPOINT_NEG" > $ENDPOINT_STAT_FILE
}
# Function to collect stats on endpoints
# args: <app-id> <image-info>
__collect_endpoint_stats_image_info() {
if [ $COLLECT_ENDPOINT_STATS -eq 0 ]; then
return
fi
ENDPOINT_STAT_FILE=$TESTLOGS/$ATC/imageinfo_$ATC_$1".log"
echo $A1PMS_IMAGE > $ENDPOINT_STAT_FILE
}
#Var for measuring execution time
TCTEST_START=$SECONDS
#Vars to hold the start time and timer text for a custom timer
TC_TIMER_STARTTIME=""
TC_TIMER_TIMER_TEXT=""
TC_TIMER_CURRENT_FAILS="" # Then number of failed test when timer starts.
# Compared with the current number of fails at timer stop
# to judge the measurement reliability
#File to save timer measurement results
TIMER_MEASUREMENTS=".timer_measurement.txt"
echo -e "Activity \t Duration \t Info" > $TIMER_MEASUREMENTS
# If this is set, some images (controlled by the parameter repo-policy) will be re-tagged and pushed to this repo before any
IMAGE_REPO_ADR=""
IMAGE_REPO_POLICY="local"
CLUSTER_TIME_OUT=0
echo "-------------------------------------------------------------------------------------------------"
echo "----------------------------------- Test case: "$ATC
echo "----------------------------------- Started: "$(date)
echo "-------------------------------------------------------------------------------------------------"
echo "-- Description: "$TC_ONELINE_DESCR
echo "-------------------------------------------------------------------------------------------------"
echo "----------------------------------- Test case setup -----------------------------------"
echo "Setting AUTOTEST_HOME="$AUTOTEST_HOME
START_ARG=$1
paramerror=0
paramerror_str=""
if [ $# -lt 1 ]; then
paramerror=1
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" != "remote" ] && [ "$1" != "remote-remove" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="First arg shall be 'remote' or 'remote-remove'"
fi
else
shift;
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" != "docker" ] && [ "$1" != "kube" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="Second arg shall be 'docker' or 'kube'"
fi
else
if [ $1 == "docker" ]; then
RUNMODE="DOCKER"
echo "Setting RUNMODE=DOCKER"
fi
if [ $1 == "kube" ]; then
RUNMODE="KUBE"
echo "Setting RUNMODE=KUBE"
fi
shift;
fi
fi
foundparm=0
while [ $paramerror -eq 0 ] && [ $foundparm -eq 0 ]; do
foundparm=1
if [ $paramerror -eq 0 ]; then
if [ "$1" == "release" ]; then
IMAGE_CATEGORY="RELEASE"
echo "Option set - Release image tags used for applicable images "
shift;
foundparm=0
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "auto-clean" ]; then
AUTO_CLEAN="auto"
echo "Option set - Auto clean at end of test script"
shift;
foundparm=0
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--stop-at-error" ]; then
STOP_AT_ERROR=1
echo "Option set - Stop at first error"
shift;
foundparm=0
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--ricsim-prefix" ]; then
shift;
TMP_RIC_SIM_PREFIX=$1 #RIC_SIM_PREFIX need to be updated after sourcing of the env file
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No prefix found for flag: '--ricsim-prefix'"
fi
else
echo "Option set - Overriding RIC_SIM_PREFIX with: "$1
shift;
foundparm=0
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--env-file" ]; then
shift;
TEST_ENV_VAR_FILE=$1
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No env file found for flag: '--env-file'"
fi
else
echo "Option set - Reading test env from: "$1
shift;
foundparm=0
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--use-local-image" ]; then
USE_LOCAL_IMAGES=""
shift
while [ $# -gt 0 ] && [[ "$1" != "--"* ]]; do
USE_LOCAL_IMAGES=$USE_LOCAL_IMAGES" "$1
if [[ "$AVAILABLE_IMAGES_OVERRIDE" != *"$1"* ]]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="App name $1 is not available for local override for flag: '--use-local-image'"
fi
fi
shift;
done
foundparm=0
if [ -z "$USE_LOCAL_IMAGES" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No app name found for flag: '--use-local-image'"
fi
else
echo "Option set - Overriding with local images for app(s):"$USE_LOCAL_IMAGES
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--use-snapshot-image" ]; then
USE_SNAPSHOT_IMAGES=""
shift
while [ $# -gt 0 ] && [[ "$1" != "--"* ]]; do
USE_SNAPSHOT_IMAGES=$USE_SNAPSHOT_IMAGES" "$1
if [[ "$AVAILABLE_IMAGES_OVERRIDE" != *"$1"* ]]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="App name $1 is not available for snapshot override for flag: '--use-snapshot-image'"
fi
fi
shift;
done
foundparm=0
if [ -z "$USE_SNAPSHOT_IMAGES" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No app name found for flag: '--use-snapshot-image'"
fi
else
echo "Option set - Overriding with snapshot images for app(s):"$USE_SNAPSHOT_IMAGES
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--use-staging-image" ]; then
USE_STAGING_IMAGES=""
shift
while [ $# -gt 0 ] && [[ "$1" != "--"* ]]; do
USE_STAGING_IMAGES=$USE_STAGING_IMAGES" "$1
if [[ "$AVAILABLE_IMAGES_OVERRIDE" != *"$1"* ]]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="App name $1 is not available for staging override for flag: '--use-staging-image'"
fi
fi
shift;
done
foundparm=0
if [ -z "$USE_STAGING_IMAGES" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No app name found for flag: '--use-staging-image'"
fi
else
echo "Option set - Overriding with staging images for app(s):"$USE_STAGING_IMAGES
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--use-release-image" ]; then
USE_RELEASE_IMAGES=""
shift
while [ $# -gt 0 ] && [[ "$1" != "--"* ]]; do
USE_RELEASE_IMAGES=$USE_RELEASE_IMAGES" "$1
if [[ "$AVAILABLE_IMAGES_OVERRIDE" != *"$1"* ]]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="App name $1 is not available for release override for flag: '--use-release-image'"
fi
fi
shift;
done
foundparm=0
if [ -z "$USE_RELEASE_IMAGES" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No app name found for flag: '--use-release-image'"
fi
else
echo "Option set - Overriding with release images for app(s):"$USE_RELEASE_IMAGES
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--use-external-image" ]; then
USE_EXTERNAL_IMAGES=""
shift
while [ $# -gt 0 ] && [[ "$1" != "--"* ]]; do
USE_EXTERNAL_IMAGES=$USE_EXTERNAL_IMAGES" "$1
if [[ "$AVAILABLE_IMAGES_OVERRIDE" != *"$1"* ]]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="App name $1 is not available for release override for flag: '--use-external-image'"
fi
fi
shift;
done
foundparm=0
if [ -z "$USE_EXTERNAL_IMAGES" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No app name found for flag: '--use-use-external-image'"
fi
else
echo "Option set - Overriding with external images for app(s):"$USE_EXTERNAL_IMAGES
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--image-repo" ]; then
shift;
IMAGE_REPO_ADR=$1
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No image repo url found for : '--image-repo'"
fi
else
echo "Option set - Image repo url: "$1
shift;
foundparm=0
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--repo-policy" ]; then
shift;
IMAGE_REPO_POLICY=$1
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No policy found for : '--repo-policy'"
fi
else
if [ "$1" == "local" ] || [ "$1" == "remote" ]; then
echo "Option set - Image repo policy: "$1
shift;
foundparm=0
else
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="Repo policy shall be 'local' or 'remote'"
fi
fi
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--cluster-timeout" ]; then
shift;
CLUSTER_TIME_OUT=$1
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No timeout value found for : '--cluster-timeout'"
fi
else
#Check if positive int
case ${CLUSTER_TIME_OUT#[+]} in
*[!0-9]* | '')
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="Value for '--cluster-timeout' not an int : "$CLUSTER_TIME_OUT
fi
;;
* ) ;; # Ok
esac
echo "Option set - Cluster timeout: "$1
shift;
foundparm=0
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--override" ]; then
shift;
TEST_ENV_VAR_FILE_OVERRIDE=$1
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No env file found for flag: '--override'"
fi
else
if [ ! -f $TEST_ENV_VAR_FILE_OVERRIDE ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="File for '--override' does not exist : "$TEST_ENV_VAR_FILE_OVERRIDE
fi
fi
echo "Option set - Override env from: "$1
shift;
foundparm=0
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--pre-clean" ]; then
PRE_CLEAN=1
echo "Option set - Pre-clean of kube/docker resouces"
shift;
foundparm=0
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--print-stats" ]; then
PRINT_CURRENT_STATS=1
echo "Option set - Print stats after every test-case and config"
shift;
foundparm=0
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--gen-stats" ]; then
COLLECT_RUNTIME_STATS=1
echo "Option set - Collect runtime statistics"
shift;
foundparm=0
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--delete-namespaces" ]; then
if [ $RUNMODE == "DOCKER" ]; then
DELETE_KUBE_NAMESPACES=0
echo "Option ignored - Delete namespaces (ignored when running docker)"
else
if [ -z "KUBE_PRESTARTED_IMAGES" ]; then
DELETE_KUBE_NAMESPACES=0
echo "Option ignored - Delete namespaces (ignored when using pre-started apps)"
else
DELETE_KUBE_NAMESPACES=1
echo "Option set - Delete namespaces"
fi
fi
shift;
foundparm=0
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--delete-containers" ]; then
if [ $RUNMODE == "DOCKER" ]; then
DELETE_CONTAINERS=1
echo "Option set - Delete containers started by previous test(s)"
else
echo "Option ignored - Delete containers (ignored when running kube)"
fi
shift;
foundparm=0
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--endpoint-stats" ]; then
COLLECT_ENDPOINT_STATS=1
echo "Option set - Collect endpoint statistics"
shift;
foundparm=0
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--kubeconfig" ]; then
shift;
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No path found for : '--kubeconfig'"
fi
else
if [ -f $1 ]; then
if [ ! -z "$KUBECONF" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="Only one of --kubeconfig/--kubecontext can be set"
fi
else
KUBECONF="--kubeconfig $1"
echo "Option set - Kubeconfig path: "$1
shift;
foundparm=0
fi
else
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="File $1 for --kubeconfig not found"
fi
fi
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--kubecontext" ]; then
shift;
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No context-name found for : '--kubecontext'"
fi
else
if [ ! -z "$KUBECONF" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="Only one of --kubeconfig or --kubecontext can be set"
fi
else
KUBECONF="--context $1"
echo "Option set - Kubecontext name: "$1
shift;
foundparm=0
fi
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--host-path-dir" ]; then
shift;
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No path found for : '--host-path-dir'"
fi
else
HOST_PATH_BASE_DIR=$1
echo "Option set - Host path for kube set to: "$1
shift
foundparm=0
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--docker-host" ]; then
shift;
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No url found for : '--docker-host'"
fi
else
export DOCKER_HOST="$1"
echo "Option set - DOCKER_HOST set to: "$1
shift
foundparm=0
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--docker-host" ]; then
shift;
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No url found for : '--docker-host'"
fi
else
export DOCKER_HOST="$1"
echo "Option set - DOCKER_HOST set to: "$1
shift
foundparm=0
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--docker-proxy" ]; then
shift;
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No ip/host found for : '--docker-proxy'"
fi
else
export LOCALHOST_NAME=$1
echo "Option set - docker proxy set to: "$1
shift
foundparm=0
fi
fi
fi
if [ $paramerror -eq 0 ]; then
if [ "$1" == "--target-platform" ]; then
shift;
if [ -z "$1" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="No platform string found for : '--target-platform'"
fi
else
if [ "$1" != "linux/amd64" ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="Only target platform 'linux/amd64' currently supported"
fi
else
export IMAGE_TARGET_PLATFORM=$1
export IMAGE_TARGET_PLATFORM_CMD_PARAM="--platform $1"
echo "Option set - Build and pull platform set to: "$1
IMAGE_TARGET_PLATFORM_IMG_TAG=$(echo "$1" | sed 's/\//_/g')
echo "Setting 'docker build' as alias for 'docker buildx'" | indent2
shift
foundparm=0
fi
fi
fi
fi
done
echo ""
#Still params left?
if [ $paramerror -eq 0 ] && [ $# -gt 0 ]; then
paramerror=1
if [ -z "$paramerror_str" ]; then
paramerror_str="Unknown parameter(s): "$@
fi
fi
if [ $paramerror -eq 1 ]; then
echo -e $RED"Incorrect arg list: "$paramerror_str$ERED
__print_args
exit 1
fi
LOCALHOST_HTTP="http://$LOCALHOST_NAME"
LOCALHOST_HTTPS="https://$LOCALHOST_NAME"
# sourcing the selected env variables for the test case
if [ -f "$TEST_ENV_VAR_FILE" ]; then
echo -e $BOLD"Sourcing env vars from: "$TEST_ENV_VAR_FILE$EBOLD
. $TEST_ENV_VAR_FILE
if [ ! -z "$TEST_ENV_VAR_FILE_OVERRIDE" ]; then
echo -e $BOLD"Sourcing override env vars from: "$TEST_ENV_VAR_FILE_OVERRIDE$EBOLD
. $TEST_ENV_VAR_FILE_OVERRIDE
fi
if [ -z "$TEST_ENV_PROFILE" ] || [ -z "$SUPPORTED_PROFILES" ]; then
echo -e $YELLOW"This test case may not work with selected test env file. TEST_ENV_PROFILE is missing in test_env file or SUPPORTED_PROFILES is missing in test case file"$EYELLOW
else
found_profile=0
for prof in $SUPPORTED_PROFILES; do
if [ "$TEST_ENV_PROFILE" == "$prof" ]; then
echo -e $GREEN"Test case supports the selected test env file"$EGREEN
found_profile=1
fi
done
if [ $found_profile -ne 1 ]; then
echo -e $RED"Test case does not support the selected test env file"$ERED
echo "Profile: "$TEST_ENV_PROFILE" Supported profiles: "$SUPPORTED_PROFILES
echo -e $RED"Exiting...."$ERED
exit 1
fi
fi
else
echo -e $RED"Selected env var file does not exist: "$TEST_ENV_VAR_FILE$ERED
echo " Select one of following env var file matching the intended target of the test"
echo " Restart the test using the flag '--env-file <path-to-env-file>"
ls $AUTOTEST_HOME/../common/test_env* | indent1
exit 1
fi
#This var need be preserved from the command line option, if set, when env var is sourced.
if [ ! -z "$TMP_RIC_SIM_PREFIX" ]; then
RIC_SIM_PREFIX=$TMP_RIC_SIM_PREFIX
fi
if [ -z "$PROJECT_IMAGES_APP_NAMES" ]; then
echo -e $RED"Var PROJECT_IMAGES_APP_NAMES must be defined in: "$TEST_ENV_VAR_FILE $ERED
exit 1
fi
if [[ $SUPPORTED_RUNMODES != *"$RUNMODE"* ]]; then
echo -e $RED"This test script does not support RUNMODE $RUNMODE"$ERED
echo "Supported RUNMODEs: "$SUPPORTED_RUNMODES
exit 1
fi
# Choose list of included apps depending on run-mode
if [ $RUNMODE == "KUBE" ]; then
INCLUDED_IMAGES=$KUBE_INCLUDED_IMAGES
else
INCLUDED_IMAGES=$DOCKER_INCLUDED_IMAGES
fi
echo ""
# auto adding system apps
__added_apps=""
echo -e $BOLD"Auto adding system apps"$EBOLD
if [ $RUNMODE == "KUBE" ]; then
INCLUDED_IMAGES=$INCLUDED_IMAGES" "$TESTENV_KUBE_SYSTEM_APPS
TMP_APPS=$TESTENV_KUBE_SYSTEM_APPS
else
INCLUDED_IMAGES=$INCLUDED_IMAGES" "$TESTENV_DOCKER_SYSTEM_APPS
TMP_APPS=$TESTENV_DOCKER_SYSTEM_APPS
fi
if [ ! -z "$TMP_APPS" ]; then
for iapp in "$TMP_APPS"; do
file_pointer=$(echo $iapp | tr '[:upper:]' '[:lower:]')
file_pointer="../common/"$file_pointer"_api_functions.sh"
padded_iapp=$iapp
while [ ${#padded_iapp} -lt 16 ]; do
padded_iapp=$padded_iapp" "
done
echo " Auto-adding system app $padded_iapp Sourcing $file_pointer"
. $file_pointer
if [ $? -ne 0 ]; then
echo " Include file $file_pointer contain errors. Exiting..."
exit 1
fi
__added_apps=" $iapp "$__added_apps
done
else
echo " None"
fi
if [ $RUNMODE == "KUBE" ]; then
TMP_APPS=$INCLUDED_IMAGES" "$KUBE_PRESTARTED_IMAGES
else
TMP_APPS=$INCLUDED_IMAGES
fi
echo -e $BOLD"Auto adding included apps"$EBOLD
for iapp in $TMP_APPS; do
if [[ "$__added_apps" != *"$iapp"* ]]; then
file_pointer=$(echo $iapp | tr '[:upper:]' '[:lower:]')
file_pointer="../common/"$file_pointer"_api_functions.sh"
padded_iapp=$iapp
while [ ${#padded_iapp} -lt 16 ]; do
padded_iapp=$padded_iapp" "
done
echo " Auto-adding included app $padded_iapp Sourcing $file_pointer"
if [ ! -f "$file_pointer" ]; then
echo " Include file $file_pointer for app $iapp does not exist"
exit 1
fi
. $file_pointer
if [ $? -ne 0 ]; then
echo " Include file $file_pointer contain errors. Exiting..."
exit 1
fi
fi
done
echo ""
echo -e $BOLD"Test environment info"$EBOLD
# Check needed installed sw
tmp=$(which bash)
if [ $? -ne 0 ] || [ -z "$tmp" ]; then
echo -e $RED"bash is required to run the test environment, pls install"$ERED
exit 1
fi
echo " bash is installed and using version:"
echo "$(bash --version)" | indent2
tmp=$(which python3)
if [ $? -ne 0 ] || [ -z "$tmp" ]; then
echo -e $RED"python3 is required to run the test environment, pls install"$ERED
exit 1
fi
echo " python3 is installed and using version: $(python3 --version)"
tmp=$(type jq)
if [ $? -ne 0 ]; then
echo -e $RED"command utility jq (cmd-line json processor) is not installed"$ERED
exit 1
fi
tmp=$(type envsubst)
if [ $? -ne 0 ]; then
echo -e $RED"command utility envsubst (env var substitution in files) is not installed"$ERED
exit 1
fi
tmp=$(which docker)
if [ $? -ne 0 ] || [ -z "$tmp" ]; then
echo -e $RED"docker is required to run the test environment, pls install"$ERED
exit 1
fi
echo " docker is installed and using versions:"
echo " $(docker version --format 'Client version {{.Client.Version}} Server version {{.Server.Version}}')"
if [ $RUNMODE == "DOCKER" ]; then
tmp=$(which docker-compose)
if [ $? -ne 0 ] || [ -z "$tmp" ]; then
echo -e $RED"docker-compose (v.2+) is required to run the test environment, pls install"$ERED
exit 1
else
tmp=$(docker-compose -v)
echo " docker-compose installed and using version $tmp"
if [[ "$tmp" == *'v2'* ]]; then
DOCKER_COMPOSE_VERSION="V2"
else
echo -e $RED"docker-compose version $tmp is not supported. Only version v2 is supported, pls install"$ERED
exit 1
fi
fi
fi
if [ $RUNMODE == "KUBE" ]; then
tmp=$(which kubectl)
if [ $? -ne 0 ] || [ -z tmp ]; then
echo -e $RED"kubectl is required to run the test environment in kubernetes mode, pls install"$ERED
exit 1
else
echo " kubectl is installed and using versions:"
echo $(kubectl $KUBECONF version --short=true) | indent2
res=$(kubectl $KUBECONF cluster-info 2>&1)
if [ $? -ne 0 ]; then
echo -e "$BOLD$RED############################################# $ERED$EBOLD"
echo -e $BOLD$RED"Command 'kubectl '$KUBECONF' cluster-info' returned error $ERED$EBOLD"
echo -e "$BOLD$RED############################################# $ERED$EBOLD"
echo " "
echo "kubectl response:"
echo $res
echo " "
echo "This script may have been started with user with no permission to run kubectl"
echo "Try running with 'sudo', set env KUBECONFIG or set '--kubeconfig' parameter"
echo "Do either 1, 2 or 3 "
echo " "
echo "1"
echo "Run with sudo"
echo -e $BOLD"sudo <test-script-and-parameters>"$EBOLD
echo " "
echo "2"
echo "Export KUBECONFIG and pass env to sudo - (replace user)"
echo -e $BOLD"export KUBECONFIG='/home/<user>/.kube/config'"$EBOLD
echo -e $BOLD"sudo -E <test-script-and-parameters>"$EBOLD
echo " "
echo "3"
echo "Set KUBECONFIG via script parameter"
echo -e $BOLD"sudo ... --kubeconfig /home/<user>/.kube/<config-file> ...."$EBOLD
echo "The config file need to downloaded from the cluster"
exit 1
fi
echo " Node(s) and container runtime config"
kubectl $KUBECONF get nodes -o wide | indent2
echo ""
if [ -z "$HOST_PATH_BASE_DIR" ]; then
HOST_PATH_BASE_DIR="/tmp"
echo " Persistent volumes will be mounted to $HOST_PATH_BASE_DIR on applicable node"
echo " No guarantee that persistent volume data is available on all nodes in the cluster"
else
echo "Persistent volumes will be mounted to base dir: $HOST_PATH_BASE_DIR"
echo "Assuming this dir is mounted from each node to a dir on the localhost or other"
echo "file system available to all nodes"
fi
fi
fi
echo ""
echo -e $BOLD"Checking configured image setting for this test case"$EBOLD
#Temp var to check for image variable name errors
IMAGE_ERR=0
#Create a file with image info for later printing as a table
image_list_file="./tmp/.image-list"
echo -e "Application\tApp short name\tImage\ttag\ttag-switch" > $image_list_file
# Check if image env var is set and if so export the env var with image to use (used by docker compose files)
# arg: <app-short-name> <target-variable-name> <image-variable-name> <image-tag-variable-name> <tag-suffix> <image name> <target-platform>
__check_and_create_image_var() {
if [ $# -ne 7 ]; then
echo "Expected arg: <app-short-name> <target-variable-name> <image-variable-name> <image-tag-variable-name> <tag-suffix> <image name> <target-platform>"
((IMAGE_ERR++))
return
fi
__check_included_image $1
if [ $? -ne 0 ]; then
echo -e "$6\t$1\t<image-excluded>\t<no-tag>" >> $image_list_file
# Image is excluded since the corresponding app is not used in this test
return
fi
tmp=${6}"\t"${1}"\t"
#Create var from the input var names
image="${!3}"
tmptag=$4"_"$5
tag="${!tmptag}"
if [ ! -z "$7" ]; then
tag=$tag-$7 # add platform to tag - for local images built by the test script
fi
optional_image_repo_target=""
if [ -z $image ]; then
__check_ignore_image $1
if [ $? -eq 0 ]; then
app_ds=$6
if [ -z "$6" ]; then
app_ds="<app ignored>"
fi
echo -e "$app_ds\t$1\t<image-ignored>\t<no-tag>" >> $image_list_file
# Image is ignored since the corresponding the images is not set in the env file
__remove_included_image $1 # Remove the image from the list of included images
return
fi
echo -e $RED"\$"$3" not set in $TEST_ENV_VAR_FILE"$ERED
((IMAGE_ERR++))
echo ""
tmp=$tmp"<no-image>\t"
else
optional_image_repo_target=$image
#Add repo depending on image type
if [ "$5" == "REMOTE_RELEASE" ]; then
image=$NEXUS_RELEASE_REPO$image
fi
if [ "$5" == "REMOTE" ]; then
image=$NEXUS_STAGING_REPO$image
fi
if [ "$5" == "REMOTE_SNAPSHOT" ]; then
image=$NEXUS_SNAPSHOT_REPO$image
fi
if [ "$5" == "REMOTE_PROXY" ]; then
image=$NEXUS_PROXY_REPO$image
fi
if [ "$5" == "REMOTE_RELEASE_ONAP" ]; then
image=$NEXUS_RELEASE_REPO_ONAP$image
fi
if [ "$5" == "REMOTE_RELEASE_ORAN" ]; then
image=$NEXUS_RELEASE_REPO_ORAN$image
fi
#No nexus repo added for local images, tag: LOCAL and other tags
tmp=$tmp$image"\t"
fi
if [ -z $tag ]; then
echo -e $RED"\$"$tmptag" not set in $TEST_ENV_VAR_FILE"$ERED
((IMAGE_ERR++))
echo ""
tmp=$tmp"<no-tag>\t"
else
tmp=$tmp$tag
fi
tmp=$tmp"\t"$5
echo -e "$tmp" >> $image_list_file
#Export the env var
export "${2}"=$image":"$tag #Note, this var may be set to the value of the target value below in __check_and_pull_image
remote_or_local_push=false
if [ ! -z "$IMAGE_REPO_ADR" ] && [[ $5 != *"PROXY"* ]]; then
if [ $5 == "LOCAL" ]; then
remote_or_local_push=true
fi
if [[ $5 == *"REMOTE"* ]]; then
if [ "$IMAGE_REPO_POLICY" == "remote" ]; then
remote_or_local_push=true
fi
fi
fi
if $remote_or_local_push; then # Only re-tag and push images according to policy, if repo is given
export "${2}_SOURCE"=$image":"$tag #Var to keep the actual source image
if [[ $optional_image_repo_target == *"/"* ]]; then # Replace all / with _ for images to push to external repo
optional_image_repo_target_tmp=${optional_image_repo_target//\//_}
optional_image_repo_target=$optional_image_repo_target_tmp
fi
export "${2}_TARGET"=$IMAGE_REPO_ADR"/"$optional_image_repo_target":"$tag #Create image + tag for optional image repo - pushed later if needed
else
export "${2}_SOURCE"=""
export "${2}_TARGET"=""
fi
}
# Check if app uses image included in this test run
# Returns 0 if image is included, 1 if not
__check_included_image() {
for im in $INCLUDED_IMAGES; do
if [ "$1" == "$im" ]; then
return 0
fi
done
return 1
}
# Check if app uses a project image
# Returns 0 if image is included, 1 if not
__check_project_image() {
for im in $PROJECT_IMAGES; do
if [ "$1" == "$im" ]; then
return 0
fi
done
return 1
}
# Check if app uses image built by the test script
# Returns 0 if image is included, 1 if not
__check_image_local_build() {
for im in $LOCAL_IMAGE_BUILD; do
if [ "$1" == "$im" ]; then
return 0
fi
done
return 1
}
# Check if app image is conditionally ignored in this test run
# Returns 0 if image is conditionally ignored, 1 if not
__check_ignore_image() {
for im in $CONDITIONALLY_IGNORED_IMAGES; do
if [ "$1" == "$im" ]; then
return 0
fi
done
return 1
}
# Removed image from included list of included images
# Used when an image is marked as conditionally ignored
__remove_included_image() {
tmp_img_rem_list=""
for im in $INCLUDED_IMAGES; do
if [ "$1" != "$im" ]; then
tmp_img_rem_list=$tmp_img_rem_list" "$im
fi
done
INCLUDED_IMAGES=$tmp_img_rem_list
return 0
}
# Check if app is included in the prestarted set of apps
# Returns 0 if image is included, 1 if not
__check_prestarted_image() {
for im in $KUBE_PRESTARTED_IMAGES; do
if [ "$1" == "$im" ]; then
return 0
fi
done
return 1
}
# Check if an app shall use a local image, based on the cmd parameters
__check_image_local_override() {
for im in $USE_LOCAL_IMAGES; do
if [ "$1" == "$im" ]; then
return 1
fi
done
return 0
}
# Check if app uses image override
# Returns the image/tag suffix LOCAL for local image or REMOTE/REMOTE_RELEASE/REMOTE_SNAPSHOT for staging/release/snapshot image
__check_image_override() {
for im in $ORAN_IMAGES_APP_NAMES; do
if [ "$1" == "$im" ]; then
echo "REMOTE_RELEASE_ORAN"
return 0
fi
done
for im in $ONAP_IMAGES_APP_NAMES; do
if [ "$1" == "$im" ]; then
echo "REMOTE_RELEASE_ONAP"
return 0
fi
done
found=0
for im in $PROJECT_IMAGES_APP_NAMES; do
if [ "$1" == "$im" ]; then
found=1
fi
done
if [ $found -eq 0 ]; then
echo "REMOTE_PROXY"
return 0
fi
suffix=""
if [ $IMAGE_CATEGORY == "RELEASE" ]; then
suffix="REMOTE_RELEASE"
fi
if [ $IMAGE_CATEGORY == "DEV" ]; then
suffix="REMOTE"
fi
CTR=0
for im in $USE_STAGING_IMAGES; do
if [ "$1" == "$im" ]; then
suffix="REMOTE"
((CTR++))
fi
done
for im in $USE_RELEASE_IMAGES; do
if [ "$1" == "$im" ]; then
suffix="REMOTE_RELEASE"
((CTR++))
fi
done
for im in $USE_SNAPSHOT_IMAGES; do
if [ "$1" == "$im" ]; then
suffix="REMOTE_SNAPSHOT"
((CTR++))
fi
done
for im in $USE_LOCAL_IMAGES; do
if [ "$1" == "$im" ]; then
suffix="LOCAL"
((CTR++))
fi
done
for im in $USE_EXTERNAL_IMAGES; do
if [ "$1" == "$im" ]; then
suffix="EXTERNAL"
((CTR++))
fi
done
echo $suffix
if [ $CTR -gt 1 ]; then
exit 1
fi
return 0
}
# Function to re-tag and image and push to another image repo
__retag_and_push_image() {
if [ ! -z "$IMAGE_REPO_ADR" ]; then
source_image="${!1}"
trg_var_name=$1_"TARGET" # This var is created in func __check_and_create_image_var
target_image="${!trg_var_name}"
if [ -z $target_image ]; then
return 0 # Image with no target shall not be pushed
fi
echo -ne " Attempt to re-tag image to: ${BOLD}${target_image}${EBOLD}${SAMELINE}"
tmp=$(docker image tag $source_image ${target_image} )
if [ $? -ne 0 ]; then
docker stop $tmp &> ./tmp/.dockererr
((IMAGE_ERR++))
echo ""
echo -e " Attempt to re-tag image to: ${BOLD}${target_image}${EBOLD} - ${RED}Failed${ERED}"
cat ./tmp/.dockererr
return 1
else
echo -e " Attempt to re-tag image to: ${BOLD}${target_image}${EBOLD} - ${GREEN}OK${EGREEN}"
fi
echo -ne " Attempt to push re-tagged image: ${BOLD}${target_image}${EBOLD}${SAMELINE}"
tmp=$(docker push ${target_image} )
if [ $? -ne 0 ]; then
docker stop $tmp &> ./tmp/.dockererr
((IMAGE_ERR++))
echo ""
echo -e " Attempt to push re-tagged image: ${BOLD}${target_image}${EBOLD} - ${RED}Failed${ERED}"
cat ./tmp/.dockererr
return 1
else
echo -e " Attempt to push re-tagged image: ${BOLD}${target_image}${EBOLD} - ${GREEN}OK${EGREEN}"
fi
export "${1}"=$target_image
fi
return 0
}
#Function to check if image exist and stop+remove the container+pull new images as needed
#args <script-start-arg> <descriptive-image-name> <container-base-name> <image-with-tag-var-name>
__check_and_pull_image() {
source_image="${!4}"
echo -e " Checking $BOLD$2$EBOLD container(s) with basename: $BOLD$3$EBOLD using image: $BOLD$source_image$EBOLD"
format_string="\"{{.Repository}}\\t{{.Tag}}\\t{{.CreatedSince}}\\t{{.Size}}\""
tmp_im=$(docker images --format $format_string $source_image)
if [ $1 == "local" ]; then
if [ -z "$tmp_im" ]; then
echo -e " "$2" (local image): \033[1m"$source_image"\033[0m $RED does not exist in local registry, need to be built (or manually pulled)"$ERED
((IMAGE_ERR++))
return 1
else
echo -e " "$2" (local image): \033[1m"$source_image"\033[0m "$GREEN"OK"$EGREEN
fi
elif [ $1 == "remote" ] || [ $1 == "remote-remove" ]; then
if [ $1 == "remote-remove" ]; then
if [ $RUNMODE == "DOCKER" ]; then
echo -ne " Attempt to stop and remove container(s), if running - ${SAMELINE}"
tmp=$(docker ps -aq --filter name=${3} --filter network=${DOCKER_SIM_NWNAME})
if [ $? -eq 0 ] && [ ! -z "$tmp" ]; then
docker stop -t 0 $tmp &> ./tmp/.dockererr
if [ $? -ne 0 ]; then
((IMAGE_ERR++))
echo ""
echo -e $RED" Container(s) could not be stopped - try manual stopping the container(s)"$ERED
cat ./tmp/.dockererr
return 1
fi
fi
echo -ne " Attempt to stop and remove container(s), if running - "$GREEN"stopped"$EGREEN"${SAMELINE}"
tmp=$(docker ps -aq --filter name=${3} --filter network=${DOCKER_SIM_NWNAME}) &> /dev/null
if [ $? -eq 0 ] && [ ! -z "$tmp" ]; then
docker rm -f $tmp &> ./tmp/.dockererr
if [ $? -ne 0 ]; then
((IMAGE_ERR++))
echo ""
echo -e $RED" Container(s) could not be removed - try manual removal of the container(s)"$ERED
cat ./tmp/.dockererr
return 1
fi
fi
echo -e " Attempt to stop and remove container(s), if running - "$GREEN"stopped removed"$EGREEN
tmp_im=""
else
tmp_im=""
fi
fi
if [ -z "$tmp_im" ]; then
echo -ne " Pulling image${SAMELINE}"
out=$(docker pull $IMAGE_TARGET_PLATFORM_CMD_PARAM $source_image)
if [ $? -ne 0 ]; then
echo ""
echo -e " Pulling image -$RED could not be pulled"$ERED
((IMAGE_ERR++))
echo $out > ./tmp/.dockererr
echo $out
return 1
fi
echo $out > ./tmp/.dockererr
if [[ $out == *"up to date"* ]]; then
echo -e " Pulling image -$GREEN Image is up to date $EGREEN"
elif [[ $out == *"Downloaded newer image"* ]]; then
echo -e " Pulling image -$GREEN Newer image pulled $EGREEN"
else
echo -e " Pulling image -$GREEN Pulled $EGREEN"
fi
else
echo -e " Pulling image -$GREEN OK $EGREEN(exists in local repository)"
fi
fi
__retag_and_push_image $4
return $?
}
setup_testenvironment() {
# Check that image env setting are available
echo ""
# Image var setup for all project images included in the test
for imagename in $APP_SHORT_NAMES; do
__check_included_image $imagename
incl=$?
__check_project_image $imagename
proj=$?
if [ $incl -eq 0 ]; then
if [ $proj -eq 0 ]; then
IMAGE_SUFFIX=$(__check_image_override $imagename)
if [ $? -ne 0 ]; then
echo -e $RED"Image setting from cmd line not consistent for $imagename."$ERED
((IMAGE_ERR++))
fi
else
IMAGE_SUFFIX="none"
fi
# A function name is created from the app short name
# for example app short name 'ICS' -> produce the function
# name __ICS_imagesetup
# This function is called and is expected to exist in the imported
# file for the ics test functions
# The resulting function impl will call '__check_and_create_image_var' function
# with appropriate parameters
# If the image suffix is none, then the component decides the suffix
function_pointer="__"$imagename"_imagesetup"
$function_pointer $IMAGE_SUFFIX
function_pointer="__"$imagename"_test_requirements"
$function_pointer
fi
done
#Errors in image setting - exit
if [ $IMAGE_ERR -ne 0 ]; then
exit 1
fi
#Print a tables of the image settings
echo -e $BOLD"Images configured for start arg: "$START_ARG $EBOLD
column -t -s $'\t' $image_list_file | indent1
echo ""
#Set the SIM_GROUP var
echo -e $BOLD"Setting var to main dir of all container/simulator scripts"$EBOLD
if [ -z "$SIM_GROUP" ]; then
SIM_GROUP=$AUTOTEST_HOME/../simulator-group
if [ ! -d $SIM_GROUP ]; then
echo "Trying to set env var SIM_GROUP to dir 'simulator-group' in the nontrtric repo, but failed."
echo -e $RED"Please set the SIM_GROUP manually in the applicable $TEST_ENV_VAR_FILE"$ERED
exit 1
else
echo " SIM_GROUP auto set to: " $SIM_GROUP
fi
elif [ $SIM_GROUP = *simulator_group ]; then
echo -e $RED"Env var SIM_GROUP does not seem to point to dir 'simulator-group' in the repo, check $TEST_ENV_VAR_FILE"$ERED
exit 1
else
echo " SIM_GROUP env var already set to: " $SIM_GROUP
fi
echo ""
#Temp var to check for image pull errors
IMAGE_ERR=0
# Delete namespaces
echo -e $BOLD"Deleting namespaces"$EBOLD
if [ "$DELETE_KUBE_NAMESPACES" -eq 1 ]; then
test_env_namespaces=$(kubectl $KUBECONF get ns --no-headers -o custom-columns=":metadata.name" -l autotest=engine) #Get list of ns created by the test env
if [ $? -ne 0 ]; then
echo " Cannot get list of namespaces...ignoring delete"
else
for test_env_ns in $test_env_namespaces; do
__kube_delete_namespace $test_env_ns
done
fi
else
echo " Namespace delete option not set or ignored"
fi
echo ""
# Delete containers
echo -e $BOLD"Deleting containers"$EBOLD
if [ "$DELETE_CONTAINERS" -eq 1 ]; then
echo " Stopping containers label 'nrttest_app'..."
docker stop $(docker ps -qa --filter "label=nrttest_app") 2> /dev/null
echo " Removing stopped containers..."
docker rm $(docker ps -qa --filter "label=nrttest_app") 2> /dev/null
else
echo " Contatiner delete option not set or ignored"
fi
echo ""
# The following sequence pull the configured images
echo -e $BOLD"Pulling configured images, if needed"$EBOLD
__exclude_check=0
if [ ! -z "$IMAGE_REPO_ADR" ] && [ $IMAGE_REPO_POLICY == "local" ]; then
echo -e $YELLOW" Excluding all remote image check/pull (unless local override) when running with image repo: $IMAGE_REPO_ADR and image policy: $IMAGE_REPO_POLICY"$EYELLOW
__exclude_check=1
fi
for imagename in $APP_SHORT_NAMES; do
__check_included_image $imagename
incl=$?
__check_project_image $imagename
proj=$?
if [ $incl -eq 0 ]; then
if [ $proj -eq 0 ]; then
START_ARG_MOD=$START_ARG
__check_image_local_override $imagename
if [ $? -eq 1 ]; then
START_ARG_MOD="local"
fi
else
START_ARG_MOD=$START_ARG
fi
__exclude_image_check=0
if [ $__exclude_check == 1 ] && [ "$START_ARG_MOD" != "local" ]; then
# For to handle locally built images, overriding remote images
__exclude_image_check=1
fi
if [ $__exclude_image_check == 0 ]; then
__check_image_local_build $imagename
#No pull of images built locally
if [ $? -ne 0 ]; then
# A function name is created from the app short name
# for example app short name 'HTTPPROXY' -> produce the function
# name __HTTPPROXY_imagesetup
# This function is called and is expected to exist in the imported
# file for the httpproxy test functions
# The resulting function impl will call '__check_and_pull_image' function
# with appropriate parameters
function_pointer="__"$imagename"_imagepull"
$function_pointer $START_ARG_MOD $START_ARG
fi
fi
else
echo -e $YELLOW" Excluding $imagename image from image check/pull"$EYELLOW
fi
done
#Errors in image setting - exit
if [ $IMAGE_ERR -ne 0 ]; then
echo ""
echo "#################################################################################################"
echo -e $RED"One or more images could not be pulled or containers using the images could not be stopped/removed"$ERED
echo -e $RED"Or local image, overriding remote image, does not exist"$ERED
if [ $IMAGE_CATEGORY == "DEV" ]; then
echo ""
echo -e $RED"Note that SNAPSHOT and staging images may be purged from nexus after a certain period."$ERED
echo -e $RED"In addition, the image may not have been updated in the current release so no SNAPSHOT or staging image exists"$ERED
echo -e $RED"In these cases, switch to use a released image instead, use the flag '--use-release-image <App-short-name>'"$ERED
echo -e $RED"Use the 'App-short-name' for the applicable image from the above table: 'Images configured for start arg'."$ERED
fi
echo "#################################################################################################"
echo ""
exit 1
fi
echo ""
echo -e $BOLD"Building images needed for test"$EBOLD
for imagename in $APP_SHORT_NAMES; do
cd $AUTOTEST_HOME #Always reset to orig dir
__check_image_local_build $imagename
if [ $? -eq 0 ]; then
__check_included_image $imagename
if [ $? -eq 0 ]; then
# A function name is created from the app short name
# for example app short name 'MR' -> produce the function
# name __MR_imagebuild
# This function is called and is expected to exist in the imported
# file for the mr test functions
# The resulting function impl shall build the imagee
function_pointer="__"$imagename"_imagebuild"
$function_pointer
else
echo -e $YELLOW" Excluding image for app $imagename from image build"$EYELLOW
fi
fi
done
cd $AUTOTEST_HOME # Just to make sure...
echo ""
# Create a table of the images used in the script - from local repo
echo -e $BOLD"Local docker registry images used in this test script"$EBOLD
docker_tmp_file=./tmp/.docker-images-table
format_string="{{.Repository}}\\t{{.Tag}}\\t{{.CreatedSince}}\\t{{.Size}}\\t{{.CreatedAt}}"
echo -e "Application\tRepository\tTag\tCreated since\tSize\tCreated at" > $docker_tmp_file
for imagename in $APP_SHORT_NAMES; do
__check_included_image $imagename
if [ $? -eq 0 ]; then
# Only print image data if image repo is null, or if image repo is set and image is local
print_image_data=0
if [ -z "$IMAGE_REPO_ADR" ]; then
print_image_data=1
else
__check_image_local_build $imagename
if [ $? -eq 0 ]; then
print_image_data=1
fi
fi
if [ $print_image_data -eq 1 ]; then
# A function name is created from the app short name
# for example app short name 'MR' -> produce the function
# name __MR_imagebuild
# This function is called and is expected to exist in the imported
# file for the mr test functions
# The resulting function impl shall build the imagee
function_pointer="__"$imagename"_image_data"
$function_pointer "$format_string" $docker_tmp_file
fi
fi
done
column -t -s $'\t' $docker_tmp_file | indent1
echo ""
if [ ! -z "$IMAGE_REPO_ADR" ]; then
# Create a table of the images used in the script - from remote repo
echo -e $BOLD"Remote repo images used in this test script"$EBOLD
echo -e $YELLOW"-- Note: These image will be pulled when the container starts. Images not managed by the test engine "$EYELLOW
echo -e $YELLOW"-- Note: Images with local override will however be re-tagged and managed by the test engine "$EYELLOW
docker_tmp_file=./tmp/.docker-images-table
format_string="{{.Repository}}\\t{{.Tag}}"
echo -e "Application\tRepository\tTag" > $docker_tmp_file
for imagename in $APP_SHORT_NAMES; do
__check_included_image $imagename
if [ $? -eq 0 ]; then
# Only print image data if image repo is null, or if image repo is set and image is local
__check_image_local_build $imagename
if [ $? -ne 0 ]; then
# A function name is created from the app short name
# for example app short name 'MR' -> produce the function
# name __MR_imagebuild
# This function is called and is expected to exist in the imported
# file for the mr test functions
# The resulting function impl shall build the imagee
function_pointer="__"$imagename"_image_data"
$function_pointer "$format_string" $docker_tmp_file
fi
fi
done
column -t -s $'\t' $docker_tmp_file | indent1
echo ""
fi
if [ $RUNMODE == "KUBE" ]; then
echo "================================================================================="
echo "================================================================================="
if [ -z "$IMAGE_REPO_ADR" ]; then
echo -e $YELLOW" The image pull policy is set to 'Never' - assuming a local image repo is available for all images"$EYELLOW
echo -e " This setting only works on single node clusters on the local machine"
echo -e " It does not work with multi-node clusters or remote clusters. "
export KUBE_IMAGE_PULL_POLICY="Never"
else
echo -e $YELLOW" The image pull policy is set to 'Always'"$EYELLOW
echo -e " This setting work on local clusters, multi-node clusters and remote cluster. "
echo -e " Only locally built images are managed. Remote images are always pulled from remote repos"
echo -e " Pulling remote snapshot or staging images my in some case result in pulling newer image versions outside the control of the test engine"
export KUBE_IMAGE_PULL_POLICY="Always"
fi
#CLUSTER_IP=$(kubectl $KUBECONF config view -o jsonpath={.clusters[0].cluster.server} | awk -F[/:] '{print $4}')
#echo -e $YELLOW" The cluster hostname/ip is: $CLUSTER_IP"$EYELLOW
echo "================================================================================="
echo "================================================================================="
echo ""
fi
echo -e $BOLD"======================================================="$EBOLD
echo -e $BOLD"== Common test setup completed - test script begins =="$EBOLD
echo -e $BOLD"======================================================="$EBOLD
echo ""
LOG_STAT_ARGS=""
for imagename in $APP_SHORT_NAMES; do
__check_included_image $imagename
retcode_i=$?
__check_prestarted_image $imagename
retcode_p=$?
if [ $retcode_i -eq 0 ] || [ $retcode_p -eq 0 ]; then
# A function name is created from the app short name
# for example app short name 'RICMSIM' -> produce the function
# name __RICSIM__initial_setup
# This function is called and is expected to exist in the imported
# file for the ricsim test functions
# The resulting function impl shall perform initial setup of port, host etc
function_pointer="__"$imagename"_initial_setup"
$function_pointer
function_pointer="__"$imagename"_statistics_setup"
LOG_STAT_ARGS=$LOG_STAT_ARGS" "$($function_pointer)
fi
done
if [ $COLLECT_RUNTIME_STATS -eq 1 ]; then
../common/genstat.sh $RUNMODE $SECONDS $TESTLOGS/$ATC/stat_data.csv $LOG_STAT_ARGS &
COLLECT_RUNTIME_STATS_PID=$!
fi
}
# Function to print the test result, shall be the last cmd in a test script
# args: -
# (Function for test scripts)
print_result() {
TCTEST_END=$SECONDS
duration=$((TCTEST_END-TCTEST_START))
echo "-------------------------------------------------------------------------------------------------"
echo "------------------------------------- Test case: "$ATC
echo "------------------------------------- Ended: "$(date)
echo "-------------------------------------------------------------------------------------------------"
echo "-- Description: "$TC_ONELINE_DESCR
echo "-- Execution time: " $duration " seconds"
echo "-- Used env file: "$TEST_ENV_VAR_FILE
echo "-------------------------------------------------------------------------------------------------"
echo "------------------------------------- RESULTS"
echo ""
if [ $RES_DEVIATION -gt 0 ]; then
echo "Test case deviations"
echo "===================================="
cat $DEVIATION_FILE
fi
echo ""
echo "Timer measurement in the test script"
echo "===================================="
column -t -s $'\t' $TIMER_MEASUREMENTS
if [ $RES_PASS != $RES_TEST ]; then
echo -e $RED"Measurement may not be reliable when there are failed test - failures may cause long measurement values due to timeouts etc."$ERED
fi
echo ""
if [ $COLLECT_RUNTIME_STATS -eq 1 ]; then
echo "Runtime statistics collected in file: "$TESTLOGS/$ATC/stat_data.csv
echo ""
fi
TMP_FLAG_FAIL_PASS=0
total=$((RES_PASS+RES_FAIL))
if [ $RES_TEST -eq 0 ]; then
TMP_FLAG_FAIL_PASS=1
echo -e "\033[1mNo tests seem to have been executed. Check the script....\033[0m"
echo -e "\033[31m\033[1m ___ ___ ___ ___ ___ _____ ___ _ ___ _ _ _ ___ ___ \033[0m"
echo -e "\033[31m\033[1m/ __|/ __| _ \_ _| _ \_ _| | __/_\ |_ _| | | | | | _ \ __|\033[0m"
echo -e "\033[31m\033[1m\__ \ (__| /| || _/ | | | _/ _ \ | || |_| |_| | / _| \033[0m"
echo -e "\033[31m\033[1m|___/\___|_|_\___|_| |_| |_/_/ \_\___|____\___/|_|_\___|\033[0m"
elif [ $total != $RES_TEST ]; then
TMP_FLAG_FAIL_PASS=1
echo -e "\033[1mTotal number of tests does not match the sum of passed and failed tests. Check the script....\033[0m"
echo -e "\033[31m\033[1m ___ ___ ___ ___ ___ _____ ___ _ ___ _ _ _ ___ ___ \033[0m"
echo -e "\033[31m\033[1m/ __|/ __| _ \_ _| _ \_ _| | __/_\ |_ _| | | | | | _ \ __|\033[0m"
echo -e "\033[31m\033[1m\__ \ (__| /| || _/ | | | _/ _ \ | || |_| |_| | / _| \033[0m"
echo -e "\033[31m\033[1m|___/\___|_|_\___|_| |_| |_/_/ \_\___|____\___/|_|_\___|\033[0m"
elif [ $RES_CONF_FAIL -ne 0 ]; then
TMP_FLAG_FAIL_PASS=1
echo -e "\033[1mOne or more configurations has failed. Check the script log....\033[0m"
echo -e "\033[31m\033[1m ___ ___ ___ ___ ___ _____ ___ _ ___ _ _ _ ___ ___ \033[0m"
echo -e "\033[31m\033[1m/ __|/ __| _ \_ _| _ \_ _| | __/_\ |_ _| | | | | | _ \ __|\033[0m"
echo -e "\033[31m\033[1m\__ \ (__| /| || _/ | | | _/ _ \ | || |_| |_| | / _| \033[0m"
echo -e "\033[31m\033[1m|___/\___|_|_\___|_| |_| |_/_/ \_\___|____\___/|_|_\___|\033[0m"
elif [ $RES_PASS = $RES_TEST ]; then
TMP_FLAG_FAIL_PASS=0
echo -e "All tests \033[32m\033[1mPASS\033[0m"
echo -e "\033[32m\033[1m ___ _ ___ ___ \033[0m"
echo -e "\033[32m\033[1m | _ \/_\ / __/ __| \033[0m"
echo -e "\033[32m\033[1m | _/ _ \\__ \__ \\ \033[0m"
echo -e "\033[32m\033[1m |_|/_/ \_\___/___/ \033[0m"
echo ""
# Update test suite counter
if [ -f .tmp_tcsuite_pass_ctr ]; then
tmpval=$(< .tmp_tcsuite_pass_ctr)
((tmpval++))
echo $tmpval > .tmp_tcsuite_pass_ctr
fi
if [ -f .tmp_tcsuite_pass ]; then
echo " - "$ATC " -- "$TC_ONELINE_DESCR" Execution time: "$duration" seconds" >> .tmp_tcsuite_pass
fi
#Create file with OK exit code
echo "0" > "$AUTOTEST_HOME/.result$ATC.txt"
echo "0" > "$TESTLOGS/$ATC/.result$ATC.txt"
echo $(date) > $TESTLOGS/$ATC/endpoint_tc_end.log
else
TMP_FLAG_FAIL_PASS=1
echo -e "One or more tests with status \033[31m\033[1mFAIL\033[0m "
echo -e "\033[31m\033[1m ___ _ ___ _ \033[0m"
echo -e "\033[31m\033[1m | __/_\ |_ _| | \033[0m"
echo -e "\033[31m\033[1m | _/ _ \ | || |__ \033[0m"
echo -e "\033[31m\033[1m |_/_/ \_\___|____|\033[0m"
echo ""
fi
if [ $TMP_FLAG_FAIL_PASS -ne 0 ]; then
# Update test suite counter
if [ -f .tmp_tcsuite_fail_ctr ]; then
tmpval=$(< .tmp_tcsuite_fail_ctr)
((tmpval++))
echo $tmpval > .tmp_tcsuite_fail_ctr
fi
if [ -f .tmp_tcsuite_fail ]; then
echo " - "$ATC " -- "$TC_ONELINE_DESCR" Execution time: "$duration" seconds" >> .tmp_tcsuite_fail
fi
fi
echo "++++ Number of tests: "$RES_TEST
echo "++++ Number of passed tests: "$RES_PASS
echo "++++ Number of failed tests: "$RES_FAIL
echo ""
echo "++++ Number of failed configs: "$RES_CONF_FAIL
echo ""
echo "++++ Number of test case deviations: "$RES_DEVIATION
echo ""
echo "------------------------------------- Test case complete ---------------------------------"
echo "-------------------------------------------------------------------------------------------------"
echo ""
}
#####################################################################
###### Functions for start, configuring, stoping, cleaning etc ######
#####################################################################
# Start timer for time measurement
# args: <timer message to print> - timer value and message will be printed both on screen
# and in the timer measurement report - if at least one "print_timer is called"
start_timer() {
echo -e $BOLD"INFO(${BASH_LINENO[0]}): "${FUNCNAME[0]}"," $@ $EBOLD
TC_TIMER_STARTTIME=$SECONDS
TC_TIMER_TIMER_TEXT="${@:1}"
if [ $# -ne 1 ]; then
__print_err "need 1 arg, <timer message to print>" $@
TC_TIMER_TIMER_TEXT=${FUNCNAME[0]}":"${BASH_LINENO[0]}
echo " Assigning timer name: "$TC_TIMER_TIMER_TEXT
fi
TC_TIMER_CURRENT_FAILS=$(($RES_FAIL+$RES_CONF_FAIL))
echo " Timer started: $(date)"
}
# Print the running timer the value of the time (in seconds)
# Timer value and message will be printed both on screen and in the timer measurement report
print_timer() {
echo -e $BOLD"INFO(${BASH_LINENO[0]}): "${FUNCNAME[0]}"," $TC_TIMER_TIMER_TEXT $EBOLD
if [ -z "$TC_TIMER_STARTTIME" ]; then
__print_err "timer not started" $@
return 1
fi
duration=$(($SECONDS-$TC_TIMER_STARTTIME))
if [ $duration -eq 0 ]; then
duration="<1 second"
else
duration=$duration" seconds"
fi
echo " Timer duration :" $duration
res="-"
if [ $(($RES_FAIL+$RES_CONF_FAIL)) -ne $TC_TIMER_CURRENT_FAILS ]; then
res="Failures occured during test - timer not reliabled"
fi
echo -e "$TC_TIMER_TIMER_TEXT \t $duration \t $res" >> $TIMER_MEASUREMENTS
}
# Print info about a deviations from intended tests
# Each deviation counted is also printed in the testreport
# args <deviation message to print>
deviation() {
echo -e $BOLD"DEVIATION(${BASH_LINENO[0]}): "${FUNCNAME[0]} $EBOLD
if [ $# -lt 1 ]; then
((RES_CONF_FAIL++))
__print_err "need 1 or more args, <deviation message to print>" $@
exit 1
fi
((RES_DEVIATION++))
echo -e $BOLD$YELLOW" Test case deviation: ${@:1}"$EYELLOW$EBOLD
echo "Line: ${BASH_LINENO[0]} - ${@:1}" >> $DEVIATION_FILE
__print_current_stats
echo ""
}
# Stop at first FAIL test case and take all logs - only for debugging/trouble shooting
__check_stop_at_error() {
if [ $STOP_AT_ERROR -eq 1 ]; then
echo -e $RED"Test script configured to stop at first FAIL, taking all logs and stops"$ERED
store_logs "STOP_AT_ERROR"
# Update test suite counter
if [ -f .tmp_tcsuite_fail_ctr ]; then
tmpval=$(< .tmp_tcsuite_fail_ctr)
((tmpval++))
echo $tmpval > .tmp_tcsuite_fail_ctr
fi
if [ -f .tmp_tcsuite_fail ]; then
echo " - "$ATC " -- "$TC_ONELINE_DESCR" Execution stopped due to error" >> .tmp_tcsuite_fail
fi
exit 1
fi
return 0
}
# Stop and remove all containers
# args: -
# (Not for test scripts)
__clean_containers() {
echo -e $BOLD"Docker clean and stopping and removing all running containers, by container name"$EBOLD
#Create empty file
running_contr_file="./tmp/running_contr.txt"
> $running_contr_file
# Get list of all containers started by the test script
for imagename in $APP_SHORT_NAMES; do
docker ps -a --filter "label=nrttest_app=$imagename" --filter "network=$DOCKER_SIM_NWNAME" --format ' {{.Label "nrttest_dp"}}\n{{.Label "nrttest_app"}}\n{{.Names}}' >> $running_contr_file
done
running_contr_file_empty="No docker containers running, started by previous test execution"
if [ -s $running_contr_file ]; then
running_contr_file_empty=""
fi
# Kill all containers started by the test env - to speed up shut down
docker kill $(docker ps -a --filter "label=nrttest_app" --format '{{.Names}}') &> /dev/null
tab_heading1="App display name"
tab_heading2="App short name"
tab_heading3="Container name"
tab_heading1_len=${#tab_heading1}
tab_heading2_len=${#tab_heading2}
tab_heading3_len=${#tab_heading3}
cntr=0
#Calc field lengths of each item in the list of containers
while read p; do
if (( $cntr % 3 == 0 ));then
if [ ${#p} -gt $tab_heading1_len ]; then
tab_heading1_len=${#p}
fi
fi
if (( $cntr % 3 == 1));then
if [ ${#p} -gt $tab_heading2_len ]; then
tab_heading2_len=${#p}
fi
fi
if (( $cntr % 3 == 2));then
if [ ${#p} -gt $tab_heading3_len ]; then
tab_heading3_len=${#p}
fi
fi
let cntr=cntr+1
done <$running_contr_file
let tab_heading1_len=tab_heading1_len+2
while (( ${#tab_heading1} < $tab_heading1_len)); do
tab_heading1="$tab_heading1"" "
done
let tab_heading2_len=tab_heading2_len+2
while (( ${#tab_heading2} < $tab_heading2_len)); do
tab_heading2="$tab_heading2"" "
done
let tab_heading3_len=tab_heading3_len+2
while (( ${#tab_heading3} < $tab_heading3_len)); do
tab_heading3="$tab_heading3"" "
done
if [ ! -z "$running_contr_file_empty" ]; then
echo $running_contr_file_empty | indent1
else
echo " $tab_heading1$tab_heading2$tab_heading3"" Actions"
cntr=0
while read p; do
if (( $cntr % 3 == 0 ));then
row=""
heading=$p
heading_len=$tab_heading1_len
fi
if (( $cntr % 3 == 1));then
heading=$p
heading_len=$tab_heading2_len
fi
if (( $cntr % 3 == 2));then
contr=$p
heading=$p
heading_len=$tab_heading3_len
fi
while (( ${#heading} < $heading_len)); do
heading="$heading"" "
done
row=$row$heading
if (( $cntr % 3 == 2));then
echo -ne $row$SAMELINE
echo -ne " $row ${GREEN}stopping...${EGREEN}${SAMELINE}"
docker stop $(docker ps -qa --filter name=${contr} --filter network=$DOCKER_SIM_NWNAME) &> /dev/null
echo -ne " $row ${GREEN}stopped removing...${EGREEN}${SAMELINE}"
docker rm --force $(docker ps -qa --filter name=${contr} --filter network=$DOCKER_SIM_NWNAME) &> /dev/null
echo -e " $row ${GREEN}stopped removed ${EGREEN}"
fi
let cntr=cntr+1
done <$running_contr_file
fi
echo ""
echo -e $BOLD" Removing docker network"$EBOLD
TMP=$(docker network ls -q --filter name=$DOCKER_SIM_NWNAME)
if [ "$TMP" == $DOCKER_SIM_NWNAME ]; then
docker network rm $DOCKER_SIM_NWNAME | indent2
if [ $? -ne 0 ]; then
echo -e $RED" Cannot remove docker network. Manually remove or disconnect containers from $DOCKER_SIM_NWNAME"$ERED
exit 1
fi
fi
echo -e "$GREEN Done$EGREEN"
echo -e $BOLD" Removing all unused docker neworks"$EBOLD
docker network prune --force | indent2
echo -e "$GREEN Done$EGREEN"
echo -e $BOLD" Removing all unused docker volumes"$EBOLD
docker volume prune --force | indent2
echo -e "$GREEN Done$EGREEN"
echo -e $BOLD" Removing all dangling/untagged docker images"$EBOLD
docker rmi --force $(docker images -q -f dangling=true) &> /dev/null
echo -e "$GREEN Done$EGREEN"
echo ""
CONTRS=$(docker ps | awk '$1 != "CONTAINER" { n++ }; END { print n+0 }')
if [ $? -eq 0 ]; then
if [ $CONTRS -ne 0 ]; then
echo -e $RED"Containers running, may cause distubance to the test case"$ERED
docker ps -a | indent1
echo ""
fi
fi
}
###################################
### Functions for kube management
###################################
# Get resource type for scaling
# args: <resource-name> <namespace>
__kube_get_resource_type() {
kubectl $KUBECONF get deployment $1 -n $2 1> /dev/null 2> ./tmp/kubeerr
if [ $? -eq 0 ]; then
echo "deployment"
return 0
fi
kubectl $KUBECONF get sts $1 -n $2 1> /dev/null 2> ./tmp/kubeerr
if [ $? -eq 0 ]; then
echo "sts"
return 0
fi
echo "unknown-resource-type"
return 1
}
# Scale a kube resource to a specific count
# args: <resource-type> <resource-name> <namespace> <target-count>
# (Not for test scripts)
__kube_scale() {
echo -ne " Setting $1 $2 replicas=$4 in namespace $3"$SAMELINE
kubectl $KUBECONF scale $1 $2 -n $3 --replicas=$4 1> /dev/null 2> ./tmp/kubeerr
if [ $? -ne 0 ]; then
echo -e " Setting $1 $2 replicas=$4 in namespace $3 $RED Failed $ERED"
((RES_CONF_FAIL++))
echo " Message: $(<./tmp/kubeerr)"
return 1
else
echo -e " Setting $1 $2 replicas=$4 in namespace $3 $GREEN OK $EGREEN"
fi
TSTART=$SECONDS
for i in {1..500}; do
count=$(kubectl $KUBECONF get $1/$2 -n $3 -o jsonpath='{.status.replicas}' 2> /dev/null)
retcode=$?
if [ -z "$count" ]; then
#No value is sometimes returned for some reason, in case the resource has replica 0
count=0
fi
if [ $retcode -ne 0 ]; then
echo -e "$RED Cannot fetch current replica count for $1 $2 in namespace $3 $ERED"
((RES_CONF_FAIL++))
return 1
fi
#echo ""
if [ $count -ne $4 ]; then
echo -ne " Waiting for $1 $2 replicas=$4 in namespace $3. Replicas=$count after $(($SECONDS-$TSTART)) seconds $SAMELINE"
sleep $i
else
echo -e " Waiting for $1 $2 replicas=$4 in namespace $3. Replicas=$count after $(($SECONDS-$TSTART)) seconds"
echo -e " Replicas=$4 after $(($SECONDS-$TSTART)) seconds $GREEN OK $EGREEN"
echo ""
return 0
fi
done
echo ""
echo -e "$RED Replica count did not reach target replicas=$4. Failed with replicas=$count $ERED"
((RES_CONF_FAIL++))
return 0
}
# Scale all kube resource sets to 0 in a namespace for resources having a certain lable and label-id
# This function does not wait for the resource to reach 0
# args: <namespace> <label-name> <label-id>
# (Not for test scripts)
__kube_scale_all_resources() {
namespace=$1
labelname=$2
labelid=$3
resources="deployment replicaset statefulset"
for restype in $resources; do
result=$(kubectl $KUBECONF get $restype -n $namespace -o jsonpath='{.items[?(@.metadata.labels.'$labelname'=="'$labelid'")].metadata.name}')
if [ $? -eq 0 ] && [ ! -z "$result" ]; then
for resid in $result; do
echo -ne " Ordered scaling $restype $resid in namespace $namespace with label $labelname=$labelid to 0"$SAMELINE
kubectl $KUBECONF scale $restype $resid -n $namespace --replicas=0 1> /dev/null 2> ./tmp/kubeerr
echo -e " Ordered scaling $restype $resid in namespace $namespace with label $labelname=$labelid to 0 $GREEN OK $EGREEN"
done
fi
done
}
# Scale all kube resource sets to 0 in a namespace for resources having a certain lable and an optional label-id
# This function do wait for the resource to reach 0
# args: <namespace> <label-name> [ <label-id> ]
# (Not for test scripts)
__kube_scale_and_wait_all_resources() {
namespace=$1
labelname=$2
labelid=$3
if [ -z "$3" ]; then
echo " Attempt to scale - deployment replicaset statefulset - in namespace $namespace with label $labelname"
else
echo " Attempt to scale - deployment replicaset statefulset - in namespace $namespace with label $labelname=$labelid"
fi
resources="deployment replicaset statefulset"
scaled_all=1
while [ $scaled_all -ne 0 ]; do
scaled_all=0
for restype in $resources; do
if [ -z "$3" ]; then
result=$(kubectl $KUBECONF get $restype -n $namespace -o jsonpath='{.items[?(@.metadata.labels.'$labelname')].metadata.name}')
else
result=$(kubectl $KUBECONF get $restype -n $namespace -o jsonpath='{.items[?(@.metadata.labels.'$labelname'=="'$labelid'")].metadata.name}')
fi
if [ $? -eq 0 ] && [ ! -z "$result" ]; then
for resid in $result; do
echo -e " Ordered scaling $restype $resid in namespace $namespace with label $labelname=$labelid to 0"
kubectl $KUBECONF scale $restype $resid -n $namespace --replicas=0 1> /dev/null 2> ./tmp/kubeerr
count=1
T_START=$SECONDS
while [ $count -ne 0 ]; do
count=$(kubectl $KUBECONF get $restype $resid -n $namespace -o jsonpath='{.status.replicas}' 2> /dev/null)
echo -ne " Scaling $restype $resid in namespace $namespace with label $labelname=$labelid to 0, current count=$count"$SAMELINE
if [ $? -eq 0 ] && [ ! -z "$count" ]; then
sleep 0.5
else
count=0
fi
duration=$(($SECONDS-$T_START))
if [ $duration -gt 100 ]; then
#Forcring count 0, to avoid hanging for failed scaling
scaled_all=1
count=0
fi
done
echo -e " Scaled $restype $resid in namespace $namespace with label $labelname=$labelid to 0, current count=$count $GREEN OK $EGREEN"
done
fi
done
done
}
# Remove all kube resources in a namespace for resources having a certain label and label-id
# This function wait until the resources are gone. Scaling to 0 must have been ordered previously
# args: <namespace> <label-name> <label-id>
# (Not for test scripts)
__kube_delete_all_resources() {
namespace=$1
labelname=$2
labelid=$3
resources="deployments replicaset statefulset services pods configmaps persistentvolumeclaims persistentvolumes serviceaccounts clusterrolebindings secrets authorizationpolicies requestauthentications"
deleted_resourcetypes=""
for restype in $resources; do
ns_flag="-n $namespace"
ns_text="in namespace $namespace"
if [ $restype == "persistentvolumes" ]; then
ns_flag=""
ns_text=""
fi
if [ $restype == "clusterrolebindings" ]; then
ns_flag=""
ns_text=""
fi
result=$(kubectl $KUBECONF get $restype $ns_flag -o jsonpath='{.items[?(@.metadata.labels.'$labelname'=="'$labelid'")].metadata.name}' 2> /dev/null)
if [ $? -eq 0 ] && [ ! -z "$result" ]; then
deleted_resourcetypes=$deleted_resourcetypes" "$restype
for resid in $result; do
if [ $restype == "replicaset" ] || [ $restype == "statefulset" ]; then
count=1
while [ $count -ne 0 ]; do
count=$(kubectl $KUBECONF get $restype $resid $ns_flag -o jsonpath='{.status.replicas}' 2> /dev/null)
echo -ne " Scaling $restype $resid $ns_text with label $labelname=$labelid to 0, current count=$count"$SAMELINE
if [ $? -eq 0 ] && [ ! -z "$count" ]; then
sleep 0.5
else
count=0
fi
done
echo -e " Scaled $restype $resid $ns_text with label $labelname=$labelid to 0, current count=$count $GREEN OK $EGREEN"
fi
echo -ne " Deleting $restype $resid $ns_text with label $labelname=$labelid "$SAMELINE
kubectl $KUBECONF delete --grace-period=1 $restype $resid $ns_flag 1> /dev/null 2> ./tmp/kubeerr
if [ $? -eq 0 ]; then
echo -e " Deleted $restype $resid $ns_text with label $labelname=$labelid $GREEN OK $EGREEN"
else
echo -e " Deleted $restype $resid $ns_text with label $labelname=$labelid $GREEN Does not exist - OK $EGREEN"
fi
#fi
done
fi
done
if [ ! -z "$deleted_resourcetypes" ]; then
for restype in $deleted_resources; do
ns_flag="-n $namespace"
ns_text="in namespace $namespace"
if [ $restype == "persistentvolumes" ]; then
ns_flag=""
ns_text=""
fi
echo -ne " Waiting for $restype $ns_text with label $labelname=$labelid to be deleted..."$SAMELINE
T_START=$SECONDS
result="dummy"
while [ ! -z "$result" ]; do
sleep 0.5
result=$(kubectl $KUBECONF get $restype $ns_flag -o jsonpath='{.items[?(@.metadata.labels.'$labelname'=="'$labelid'")].metadata.name}')
echo -ne " Waiting for $restype $ns_text with label $labelname=$labelid to be deleted...$(($SECONDS-$T_START)) seconds "$SAMELINE
if [ -z "$result" ]; then
echo -e " Waiting for $restype $ns_text with label $labelname=$labelid to be deleted...$(($SECONDS-$T_START)) seconds $GREEN OK $EGREEN"
elif [ $(($SECONDS-$T_START)) -gt 300 ]; then
echo -e " Waiting for $restype $ns_text with label $labelname=$labelid to be deleted...$(($SECONDS-$T_START)) seconds $RED Failed $ERED"
result=""
fi
done
done
fi
}
# Creates a namespace if it does not exists
# args: <namespace>
# (Not for test scripts)
__kube_create_namespace() {
#Check if test namespace exists, if not create it
kubectl $KUBECONF get namespace $1 1> /dev/null 2> ./tmp/kubeerr
if [ $? -ne 0 ]; then
echo -ne " Creating namespace "$1 $SAMELINE
kubectl $KUBECONF create namespace $1 1> /dev/null 2> ./tmp/kubeerr
if [ $? -ne 0 ]; then
echo -e " Creating namespace $1 $RED$BOLD FAILED $EBOLD$ERED"
((RES_CONF_FAIL++))
echo " Message: $(<./tmp/kubeerr)"
return 1
else
kubectl $KUBECONF label ns $1 autotest=engine > /dev/null
echo -e " Creating namespace $1 $GREEN$BOLD OK $EBOLD$EGREEN"
fi
else
echo -e " Creating namespace $1 $GREEN$BOLD Already exists, OK $EBOLD$EGREEN"
fi
return 0
}
# Removes a namespace if it exists
# args: <namespace>
# (Not for test scripts)
__kube_delete_namespace() {
#Check if test namespace exists, if so remove it
kubectl $KUBECONF get namespace $1 1> /dev/null 2> ./tmp/kubeerr
if [ $? -eq 0 ]; then
echo -ne " Removing namespace "$1 $SAMELINE
kubectl $KUBECONF delete namespace $1 1> /dev/null 2> ./tmp/kubeerr
if [ $? -ne 0 ]; then
echo -e " Removing namespace $1 $RED$BOLD FAILED $EBOLD$ERED"
((RES_CONF_FAIL++))
echo " Message: $(<./tmp/kubeerr)"
return 1
else
echo -e " Removing namespace $1 $GREEN$BOLD OK $EBOLD$EGREEN"
fi
else
echo -e " Namespace $1 $GREEN$BOLD does not exist, OK $EBOLD$EGREEN"
fi
return 0
}
# Removes and re-create a namespace
# args: <namespace>
# (Not for test scripts)
clean_and_create_namespace() {
__log_conf_start $@
if [ $# -ne 1 ]; then
__print_err "<namespace>" $@
return 1
fi
__kube_delete_namespace $1
if [ $? -ne 0 ]; then
return 1
fi
__kube_create_namespace $1
if [ $? -ne 0 ]; then
return 1
fi
}
# Add/remove label on non-namespaced kube object
# args: <api> <instance> <label>
# (Not for test scripts)
__kube_label_non_ns_instance() {
kubectl $KUBECONF label $1 $2 "$3" 1> /dev/null 2> ./tmp/kubeerr
return $?
}
# Add/remove label on namespaced kube object
# args: <api> <instance> <namespace> <label>
# (Not for test scripts)
__kube_label_ns_instance() {
kubectl $KUBECONF label $1 $2 -n $3 "$4" 1> /dev/null 2> ./tmp/kubeerr
return $?
}
# Find the host ip of an app (using the service resource)
# args: <app-name> <namespace>
# (Not for test scripts)
__kube_get_service_host() {
if [ $# -ne 2 ]; then
((RES_CONF_FAIL++))
__print_err "need 2 args, <app-name> <namespace>" $@
exit 1
fi
for timeout in {1..60}; do
host=$(kubectl $KUBECONF get svc $1 -n $2 -o jsonpath='{.spec.clusterIP}')
if [ $? -eq 0 ]; then
if [ ! -z "$host" ]; then
echo $host
return 0
fi
fi
sleep 0.5
done
((RES_CONF_FAIL++))
echo "host-not-found-fatal-error"
return 1
}
# Find the named port to an app (using the service resource)
# args: <app-name> <namespace> <port-name>
# (Not for test scripts)
__kube_get_service_port() {
if [ $# -ne 3 ]; then
((RES_CONF_FAIL++))
__print_err "need 3 args, <app-name> <namespace> <port-name>" $@
exit 1
fi
for timeout in {1..60}; do
port=$(kubectl $KUBECONF get svc $1 -n $2 -o jsonpath='{...ports[?(@.name=="'$3'")].port}')
if [ $? -eq 0 ]; then
if [ ! -z "$port" ]; then
echo $port
return 0
fi
fi
sleep 0.5
done
((RES_CONF_FAIL++))
echo "0"
return 1
}
# Find the named node port to an app (using the service resource)
# args: <app-name> <namespace> <port-name>
# (Not for test scripts)
__kube_get_service_nodeport() {
if [ $# -ne 3 ]; then
((RES_CONF_FAIL++))
__print_err "need 3 args, <app-name> <namespace> <port-name>" $@
exit 1
fi
for timeout in {1..60}; do
port=$(kubectl $KUBECONF get svc $1 -n $2 -o jsonpath='{...ports[?(@.name=="'$3'")].nodePort}')
if [ $? -eq 0 ]; then
if [ ! -z "$port" ]; then
echo $port
return 0
fi
fi
sleep 0.5
done
((RES_CONF_FAIL++))
echo "0"
return 1
}
# Create a kube resource from a yaml template
# args: <resource-type> <resource-name> <template-yaml> <output-yaml>
# (Not for test scripts)
__kube_create_instance() {
echo -ne " Creating $1 $2"$SAMELINE
envsubst < $3 > $4
kubectl $KUBECONF apply -f $4 1> /dev/null 2> ./tmp/kubeerr
if [ $? -ne 0 ]; then
((RES_CONF_FAIL++))
echo -e " Creating $1 $2 $RED Failed $ERED"
echo " Message: $(<./tmp/kubeerr)"
return 1
else
echo -e " Creating $1 $2 $GREEN OK $EGREEN"
fi
}
# Function to create a configmap in kubernetes
# args: <configmap-name> <namespace> <labelname> <labelid> <path-to-data-file> <path-to-output-yaml>
# (Not for test scripts)
__kube_create_configmap() {
echo -ne " Creating configmap $1 "$SAMELINE
envsubst < $5 > $5"_tmp"
cp $5"_tmp" $5 #Need to copy back to orig file name since create configmap neeed the original file name
kubectl $KUBECONF create configmap $1 -n $2 --from-file=$5 --dry-run=client -o yaml > $6
if [ $? -ne 0 ]; then
echo -e " Creating configmap $1 $RED Failed $ERED"
((RES_CONF_FAIL++))
return 1
fi
kubectl $KUBECONF apply -f $6 1> /dev/null 2> ./tmp/kubeerr
if [ $? -ne 0 ]; then
echo -e " Creating configmap $1 $RED Apply failed $ERED"
echo " Message: $(<./tmp/kubeerr)"
((RES_CONF_FAIL++))
return 1
fi
kubectl $KUBECONF label configmap $1 -n $2 $3"="$4 --overwrite 1> /dev/null 2> ./tmp/kubeerr
if [ $? -ne 0 ]; then
echo -e " Creating configmap $1 $RED Labeling failed $ERED"
echo " Message: $(<./tmp/kubeerr)"
((RES_CONF_FAIL++))
return 1
fi
# Log the resulting map
kubectl $KUBECONF get configmap $1 -n $2 -o yaml > $6
echo -e " Creating configmap $1 $GREEN OK $EGREEN"
return 0
}
# This function runs a kubectl cmd where a single output value is expected, for example get ip with jsonpath filter.
# The function retries up to the timeout given in the cmd flag '--cluster-timeout'
# args: <full kubectl cmd with parameters>
# (Not for test scripts)
__kube_cmd_with_timeout() {
TS_TMP=$(($SECONDS+$CLUSTER_TIME_OUT))
while true; do
kube_cmd_result=$($@)
if [ $? -ne 0 ]; then
kube_cmd_result=""
fi
if [ $SECONDS -ge $TS_TMP ] || [ ! -z "$kube_cmd_result" ] ; then
echo $kube_cmd_result
return 0
fi
sleep 1
done
}
# This function starts a pod that cleans a the contents of a path mounted as a pvc
# After this action the pod should terminate
# This should only be executed when the pod owning the pvc is not running
# args: <appname> <namespace> <pvc-name> <path-to remove>
# (Not for test scripts)
__kube_clean_pvc() {
#using env vars setup in pvccleaner_api_functions.sh
export PVC_CLEANER_NAMESPACE=$2
export PVC_CLEANER_CLAIMNAME=$3
export PVC_CLEANER_RM_PATH=$4
export PVC_CLEANER_APP_NAME
input_yaml=$SIM_GROUP"/"$PVC_CLEANER_COMPOSE_DIR"/"pvc-cleaner.yaml
output_yaml=$PWD/tmp/$2-pvc-cleaner.yaml
envsubst < $input_yaml > $output_yaml
kubectl $KUBECONF delete -f $output_yaml 1> /dev/null 2> /dev/null # Delete the previous terminated pod - if existing
__kube_create_instance pod $PVC_CLEANER_APP_NAME $input_yaml $output_yaml
if [ $? -ne 0 ]; then
echo $YELLOW" Could not clean pvc for app: $1 - persistent storage not clean - tests may not work"
return 1
fi
term_ts=$(($SECONDS+30))
while [ $term_ts -gt $SECONDS ]; do
pod_status=$(kubectl $KUBECONF get pod pvc-cleaner -n $PVC_CLEANER_NAMESPACE --no-headers -o custom-columns=":status.phase")
if [ "$pod_status" == "Succeeded" ]; then
return 0
fi
done
return 1
}
# This function scales or deletes all resources for app selected by the testcase.
# args: -
# (Not for test scripts)
__clean_kube() {
echo -e $BOLD"Initialize kube pods/statefulsets/replicaset to initial state"$EBOLD
# Scale prestarted or managed apps
for imagename in $APP_SHORT_NAMES; do
# A function name is created from the app short name
# for example app short name 'RICMSIM' -> produce the function
# name __RICSIM_kube_scale_zero or __RICSIM_kube_scale_zero_and_wait
# This function is called and is expected to exist in the imported
# file for the ricsim test functions
# The resulting function impl shall scale the resources to 0
# For pre-started apps, the function waits until the resources are 0
# For included (not prestated) apps, the scaling is just ordered
__check_prestarted_image $imagename
if [ $? -eq 0 ]; then
function_pointer="__"$imagename"_kube_scale_zero_and_wait"
echo -e " Scaling all kube resources for app $BOLD $imagename $EBOLD to 0"
$function_pointer
else
__check_included_image $imagename
if [ $? -eq 0 ]; then
function_pointer="__"$imagename"_kube_scale_zero"
echo -e " Scaling all kube resources for app $BOLD $imagename $EBOLD to 0"
$function_pointer
fi
fi
done
# Delete managed apps
for imagename in $APP_SHORT_NAMES; do
__check_included_image $imagename
if [ $? -eq 0 ]; then
__check_prestarted_image $imagename
if [ $? -ne 0 ]; then
# A function name is created from the app short name
# for example app short name 'RICMSIM' -> produce the function
# name __RICSIM__kube_delete_all
# This function is called and is expected to exist in the imported
# file for the ricsim test functions
# The resulting function impl shall delete all its resources
function_pointer="__"$imagename"_kube_delete_all"
echo -e " Deleting all kube resources for app $BOLD $imagename $EBOLD"
$function_pointer
fi
fi
done
# Remove istio label on namespaces
test_env_namespaces=$(kubectl $KUBECONF get ns --no-headers -o custom-columns=":metadata.name" -l autotest=engine -l istio-injection=enabled) #Get list of ns created by the test env
if [ $? -ne 0 ]; then
echo " Cannot get list of namespaces...continues.."
else
for test_env_ns in $test_env_namespaces; do
echo " Removing istio label on ns: "$test_env_ns
__kube_label_non_ns_instance ns $test_env_ns "istio-injection-"
done
fi
echo ""
}
# Function stop and remove all containers (docker) and services/deployments etc(kube)
# args: -
# Function for test script
clean_environment() {
if [ $RUNMODE == "KUBE" ]; then
__clean_kube
if [ $PRE_CLEAN -eq 1 ]; then
echo " Cleaning kubernetes resources to free up resources, may take time..."
../common/clean_kube.sh $KUBECONF 2>&1 > /dev/null
echo ""
fi
else
__clean_containers
if [ $PRE_CLEAN -eq 1 ]; then
echo " Cleaning docker resources to free up resources, may take time..."
../common/clean_docker.sh 2>&1 > /dev/null
echo ""
fi
fi
}
# Function stop and remove all containers (docker) and services/deployments etc(kube) in the end of the test script, if the arg 'auto-clean' is given at test script start
# args: -
# (Function for test scripts)
auto_clean_environment() {
echo
if [ "$AUTO_CLEAN" == "auto" ]; then
echo -e $BOLD"Initiating automatic cleaning of environment"$EBOLD
clean_environment
fi
}
# Function to sleep a test case for a numner of seconds. Prints the optional text args as info
# args: <sleep-time-in-sec> [any-text-in-quotes-to-be-printed]
# (Function for test scripts)
sleep_wait() {
echo -e $BOLD"INFO(${BASH_LINENO[0]}): "${FUNCNAME[0]}"," $@ $EBOLD
if [ $# -lt 1 ]; then
((RES_CONF_FAIL++))
__print_err "need at least one arg, <sleep-time-in-sec> [any-text-to-printed]" $@
exit 1
fi
#echo "---- Sleep for " $1 " seconds ---- "$2
start=$SECONDS
duration=$((SECONDS-start))
while [ $duration -lt $1 ]; do
echo -ne " Slept for ${duration} seconds${SAMELINE}"
sleep 1
duration=$((SECONDS-start))
done
echo -ne " Slept for ${duration} seconds${SAMELINE}"
echo ""
}
# Print error info for the call in the parent script (test case). Arg: <error-message-to-print>
# Not to be called from the test script itself.
__print_err() {
echo -e $RED ${FUNCNAME[1]} " "$1" " ${BASH_SOURCE[2]} " line" ${BASH_LINENO[1]} $ERED
if [ $# -gt 1 ]; then
echo -e $RED" Got: "${FUNCNAME[1]} ${@:2} $ERED
fi
((RES_CONF_FAIL++))
__check_stop_at_error
}
# Function to create the docker network for the test
# Not to be called from the test script itself.
__create_docker_network() {
tmp=$(docker network ls --format={{.Name}} --filter name=$DOCKER_SIM_NWNAME)
if [ $? -ne 0 ]; then
echo -e $RED" Could not check if docker network $DOCKER_SIM_NWNAME exists"$ERED
return 1
fi
if [ "$tmp" != $DOCKER_SIM_NWNAME ]; then
echo -e " Creating docker network:$BOLD $DOCKER_SIM_NWNAME $EBOLD"
docker network create $DOCKER_SIM_NWNAME | indent2
if [ $? -ne 0 ]; then
echo -e $RED" Could not create docker network $DOCKER_SIM_NWNAME"$ERED
return 1
else
echo -e "$GREEN Done$EGREEN"
fi
else
echo -e " Docker network $DOCKER_SIM_NWNAME already exists$GREEN OK $EGREEN"
fi
}
# Function to start container with docker-compose and wait until all are in state running.
# If the <docker-compose-file> is empty, the default 'docker-compose.yml' is assumed.
#args: <docker-compose-dir> <docker-compose-file> <docker-compose-arg>|NODOCKERARGS <count> <app-name>+
# (Not for test scripts)
__start_container() {
if [ $# -lt 5 ]; then
((RES_CONF_FAIL++))
__print_err "need 5 or more args, <docker-compose-dir> <docker-compose-file> <docker-compose-arg>|NODOCKERARGS <count> <app-name>+" $@
exit 1
fi
__create_docker_network
curdir=$PWD
cd $SIM_GROUP
compose_dir=$1
cd $1
shift
compose_file=$1
if [ -z "$compose_file" ]; then
compose_file="docker-compose.yml"
fi
shift
compose_args=$1
shift
appcount=$1
shift
envsubst < $compose_file > "gen_"$compose_file
compose_file="gen_"$compose_file
docker_compose_cmd="docker compose"
if [ "$compose_args" == "NODOCKERARGS" ]; then
$docker_compose_cmd -f $compose_file up -d &> .dockererr
if [ $? -ne 0 ]; then
echo -e $RED"Problem to launch container(s) with docker-compose"$ERED
cat .dockererr
echo -e $RED"Stopping script...."$ERED
exit 1
fi
else
$docker_compose_cmd -f $compose_file up -d $compose_args &> .dockererr
if [ $? -ne 0 ]; then
echo -e $RED"Problem to launch container(s) with docker-compose"$ERED
cat .dockererr
echo -e $RED"Stopping script...."$ERED
exit 1
fi
fi
cd $curdir
appindex=0
while [ $appindex -lt $appcount ]; do
appname=$1
shift
app_started=0
for i in {1..10}; do
if [ "$(docker inspect --format '{{ .State.Running }}' $appname)" == "true" ]; then
echo -e " Container $BOLD${appname}$EBOLD$GREEN running$EGREEN on$BOLD image $(docker inspect --format '{{ .Config.Image }}' ${appname}) $EBOLD"
app_started=1
break
else
sleep $i
fi
done
if [ $app_started -eq 0 ]; then
((RES_CONF_FAIL++))
echo ""
echo -e $RED" Container $BOLD${appname}$EBOLD could not be started"$ERED
echo -e $RED" Stopping script..."$ERED
exit 1
fi
let appindex=appindex+1
done
return 0
}
# Function to check if container/service is responding to http/https
# args: <container-name>|<service-name> url
# (Not for test scripts)
__check_service_start() {
if [ $# -ne 2 ]; then
((RES_CONF_FAIL++))
__print_err "need 2 args, <container-name>|<service-name> url" $@
return 1
fi
if [ $RUNMODE == "KUBE" ]; then
ENTITY="service/set/deployment"
else
ENTITY="container"
fi
appname=$1
url=$2
echo -ne " Container $BOLD${appname}$EBOLD starting${SAMELINE}"
a1pmsst=false
echo -ne " Waiting for ${ENTITY} ${appname} service status...${SAMELINE}"
TSTART=$SECONDS
loop_ctr=0
while (( $TSTART+600 > $SECONDS )); do
result="$(__do_curl -m 10 $url)"
if [ $? -eq 0 ]; then
if [ ${#result} -gt 15 ]; then
#If response is too long, truncate
result="...response text too long, omitted"
fi
echo -ne " Waiting for ${ENTITY} $BOLD${appname}$EBOLD service status on ${url}, result: $result${SAMELINE}"
echo -ne " The ${ENTITY} $BOLD${appname}$EBOLD$GREEN is alive$EGREEN, responds to service status:$GREEN $result $EGREEN on ${url} after $(($SECONDS-$TSTART)) seconds"
a1pmsst=true
break
else
TS_TMP=$SECONDS
TS_OFFSET=$loop_ctr
if (( $TS_OFFSET > 5 )); then
TS_OFFSET=5
fi
while [ $(($TS_TMP+$TS_OFFSET)) -gt $SECONDS ]; do
echo -ne " Waiting for ${ENTITY} ${appname} service status on ${url}...$(($SECONDS-$TSTART)) seconds, retrying in $(($TS_TMP+$TS_OFFSET-$SECONDS)) seconds ${SAMELINE}"
sleep 1
done
fi
let loop_ctr=loop_ctr+1
done
if [ "$a1pmsst" = "false" ]; then
((RES_CONF_FAIL++))
echo -e $RED" The ${ENTITY} ${appname} did not respond to service status on ${url} in $(($SECONDS-$TSTART)) seconds"$ERED
return 1
fi
echo ""
return 0
}
#################
### Log functions
#################
__check_container_logs() {
dispname=$1
appname=$2
logpath=$3
warning=$4
error=$5
echo -e $BOLD"Checking $dispname container $appname log ($logpath) for WARNINGs and ERRORs"$EBOLD
if [ $RUNMODE == "KUBE" ]; then
echo -e $YELLOW" Internal log for $dispname not checked in kube"$EYELLOW
return
fi
#tmp=$(docker ps | grep $appname)
tmp=$(docker ps -q --filter name=$appname) #get the container id
if [ -z "$tmp" ]; then #Only check logs for running A1PMS apps
echo " "$dispname" is not running, no check made"
return
fi
foundentries="$(docker exec -t $tmp grep $warning $logpath | wc -l)"
if [ $? -ne 0 ];then
echo " Problem to search $appname log $logpath"
else
if [ $foundentries -eq 0 ]; then
echo " No WARN entries found in $appname log $logpath"
else
echo -e " Found \033[1m"$foundentries"\033[0m WARN entries in $appname log $logpath"
fi
fi
foundentries="$(docker exec -t $tmp grep $error $logpath | wc -l)"
if [ $? -ne 0 ];then
echo " Problem to search $appname log $logpath"
else
if [ $foundentries -eq 0 ]; then
echo " No ERR entries found in $appname log $logpath"
else
echo -e $RED" Found \033[1m"$foundentries"\033[0m"$RED" ERR entries in $appname log $logpath"$ERED
fi
fi
echo ""
}
# Store all container logs and other logs in the log dir for the script
# Logs are stored with a prefix in case logs should be stored several times during a test
# args: <logfile-prefix>
# (Function for test scripts)
store_logs() {
if [ $# != 1 ]; then
((RES_CONF_FAIL++))
__print_err "need one arg, <file-prefix>" $@
exit 1
fi
echo -e $BOLD"Storing all docker/kube container logs and other test logs in $TESTLOGS/$ATC using prefix: "$1$EBOLD
docker stats --no-stream > $TESTLOGS/$ATC/$1_docker_stats.log 2>&1
docker ps -a > $TESTLOGS/$ATC/$1_docker_ps.log 2>&1
cp .httplog_${ATC}.txt $TESTLOGS/$ATC/$1_httplog_${ATC}.txt 2>&1
if [ $RUNMODE == "DOCKER" ]; then
# Store docker logs for all container
for imagename in $APP_SHORT_NAMES; do
__check_included_image $imagename
if [ $? -eq 0 ]; then
# A function name is created from the app short name
# for example app short name 'RICMSIM' -> produce the function
# name __RICSIM__store_docker_logs
# This function is called and is expected to exist in the imported
# file for the ricsim test functions
# The resulting function impl shall store the docker logs for each container
function_pointer="__"$imagename"_store_docker_logs"
$function_pointer "$TESTLOGS/$ATC/" $1
fi
done
fi
if [ $RUNMODE == "KUBE" ]; then
namespaces=$(kubectl $KUBECONF get namespaces -o jsonpath='{.items[?(@.metadata.name)].metadata.name}')
for nsid in $namespaces; do
pods=$(kubectl $KUBECONF get pods -n $nsid -o jsonpath='{.items[?(@.metadata.labels.autotest)].metadata.name}')
for podid in $pods; do
kubectl $KUBECONF logs -n $nsid $podid > $TESTLOGS/$ATC/$1_${podid}.log
done
done
fi
echo ""
}
###############
## Generic curl
###############
# Generic curl function, assumes all 200-codes are ok
# Used proxy, set
# args: <valid-curl-args-including full url>
# returns: <returned response (without respose code)> or "<no-response-from-server>" or "<not found, <http-code>>""
# returns: The return code is 0 for ok and 1 for not ok
__do_curl() {
echo ${FUNCNAME[1]} "line: "${BASH_LINENO[1]} >> $HTTPLOG
proxyflag=""
if [ ! -z "$KUBE_PROXY_PATH" ]; then
if [ $KUBE_PROXY_HTTPX == "http" ]; then
proxyflag=" --proxy $KUBE_PROXY_PATH"
else
proxyflag=" --proxy-insecure --proxy $KUBE_PROXY_PATH"
fi
fi
if [ ! -z "$KUBE_PROXY_CURL_JWT" ]; then
jwt="-H "\""Authorization: Bearer $KUBE_PROXY_CURL_JWT"\"
curlString="curl -skw %{http_code} $proxyflag $@"
echo " CMD: $curlString $jwt" >> $HTTPLOG
res=$($curlString -H "Authorization: Bearer $KUBE_PROXY_CURL_JWT")
retcode=$?
else
curlString="curl -skw %{http_code} $proxyflag $@"
echo " CMD: $curlString" >> $HTTPLOG
res=$($curlString)
retcode=$?
fi
echo " RESP: $res" >> $HTTPLOG
echo " RETCODE: $retcode" >> $HTTPLOG
if [ $retcode -ne 0 ]; then
echo "<no-response-from-server>"
return 1
fi
http_code="${res:${#res}-3}"
if [ ${#res} -eq 3 ]; then
if [ $http_code -lt 200 ] || [ $http_code -gt 299 ]; then
echo "<no-response-from-server>"
return 1
else
return 0
fi
else
if [ $http_code -lt 200 ] || [ $http_code -gt 299 ]; then
echo "<not found, resp:${http_code}>"
return 1
fi
if [ $# -eq 2 ]; then
echo "${res:0:${#res}-3}" | xargs
else
echo "${res:0:${#res}-3}"
fi
return 0
fi
}
# Generic curl function, assumes all 200-codes are ok
# Uses no proxy, even if it is set
# args: <valid-curl-args-including full url>
# returns: <returned response (without respose code)> or "<no-response-from-server>" or "<not found, <http-code>>""
# returns: The return code is 0 for ok and 1 for not ok
__do_curl_no_proxy() {
echo ${FUNCNAME[1]} "line: "${BASH_LINENO[1]} >> $HTTPLOG
curlString="curl -skw %{http_code} $@"
echo " CMD: $curlString" >> $HTTPLOG
res=$($curlString)
retcode=$?
echo " RESP: $res" >> $HTTPLOG
echo " RETCODE: $retcode" >> $HTTPLOG
if [ $retcode -ne 0 ]; then
echo "<no-response-from-server>"
return 1
fi
http_code="${res:${#res}-3}"
if [ ${#res} -eq 3 ]; then
if [ $http_code -lt 200 ] || [ $http_code -gt 299 ]; then
echo "<no-response-from-server>"
return 1
else
return 0
fi
else
if [ $http_code -lt 200 ] || [ $http_code -gt 299 ]; then
echo "<not found, resp:${http_code}>"
return 1
fi
if [ $# -eq 2 ]; then
echo "${res:0:${#res}-3}" | xargs
else
echo "${res:0:${#res}-3}"
fi
return 0
fi
}
#######################################
### Basic helper function for test cases
#######################################
# Test a simulator container variable value towards target value using an condition operator with an optional timeout.
# Arg: <simulator-name> <host> <variable-name> <condition-operator> <target-value> - This test is done
# immediately and sets pass or fail depending on the result of comparing variable and target using the operator.
# Arg: <simulator-name> <host> <variable-name> <condition-operator> <target-value> <timeout> - This test waits up to the timeout
# before setting pass or fail depending on the result of comparing variable and target using the operator.
# If the <variable-name> has the 'json:' prefix, the the variable will be used as url and the <target-value> will be compared towards the length of the json array in the response.
# Not to be called from test script.
__var_test() {
checkjsonarraycount=0
TIMESTAMP=$(date "+%Y-%m-%d %H:%M:%S")
if [ $# -eq 6 ]; then
if [[ $3 == "json:"* ]]; then
checkjsonarraycount=1
fi
echo -e $BOLD"TEST $TEST_SEQUENCE_NR - (${BASH_LINENO[1]}) - ${TIMESTAMP}: ${1}, ${3} ${4} ${5} within ${6} seconds"$EBOLD
echo "TEST $TEST_SEQUENCE_NR - (${BASH_LINENO[1]}) - ${TIMESTAMP}: ${1}, ${3} ${4} ${5} within ${6} seconds" >> $HTTPLOG
((RES_TEST++))
((TEST_SEQUENCE_NR++))
start=$SECONDS
ctr=0
for (( ; ; )); do
if [ $checkjsonarraycount -eq 0 ]; then
result="$(__do_curl $2$3)"
retcode=$?
result=${result//[[:blank:]]/} #Strip blanks
else
path=${3:5}
result="$(__do_curl $2$path)"
retcode=$?
echo "$result" > ./tmp/.tmp.curl.json
result=$(python3 ../common/count_json_elements.py "./tmp/.tmp.curl.json")
fi
duration=$((SECONDS-start))
echo -ne " Result=${result} after ${duration} seconds${SAMELINE}"
let ctr=ctr+1
if [ $retcode -ne 0 ]; then
if [ $duration -gt $6 ]; then
((RES_FAIL++))
echo -e $RED" FAIL${ERED} - ${3} ${4} ${5} not reached in ${6} seconds, result = ${result}"
__print_current_stats
__check_stop_at_error
return
fi
elif [ "$4" == "=" ] && [ "$result" -eq $5 ]; then
((RES_PASS++))
echo -e " Result=${result} after ${duration} seconds${SAMELINE}"
echo -e $GREEN" PASS${EGREEN} - Result=${result} after ${duration} seconds"
__print_current_stats
return
elif [ "$4" == ">" ] && [ "$result" -gt $5 ]; then
((RES_PASS++))
echo -e " Result=${result} after ${duration} seconds${SAMELINE}"
echo -e $GREEN" PASS${EGREEN} - Result=${result} after ${duration} seconds"
__print_current_stats
return
elif [ "$4" == "<" ] && [ "$result" -lt $5 ]; then
((RES_PASS++))
echo -e " Result=${result} after ${duration} seconds${SAMELINE}"
echo -e $GREEN" PASS${EGREEN} - Result=${result} after ${duration} seconds"
__print_current_stats
return
elif [ "$4" == ">=" ] && [ "$result" -ge $5 ]; then
((RES_PASS++))
echo -e " Result=${result} after ${duration} seconds${SAMELINE}"
echo -e $GREEN" PASS${EGREEN} - Result=${result} after ${duration} seconds"
__print_current_stats
return
elif [ "$4" == "contain_str" ] && [[ $result =~ $5 ]]; then
((RES_PASS++))
echo -e " Result=${result} after ${duration} seconds${SAMELINE}"
echo -e $GREEN" PASS${EGREEN} - Result=${result} after ${duration} seconds"
__print_current_stats
return
else
if [ $duration -gt $6 ]; then
((RES_FAIL++))
echo -e $RED" FAIL${ERED} - ${3} ${4} ${5} not reached in ${6} seconds, result = ${result}"
__print_current_stats
__check_stop_at_error
return
fi
fi
sleep 1
done
elif [ $# -eq 5 ]; then
if [[ $3 == "json:"* ]]; then
checkjsonarraycount=1
fi
echo -e $BOLD"TEST $TEST_SEQUENCE_NR - (${BASH_LINENO[1]}) - ${TIMESTAMP}: ${1}, ${3} ${4} ${5}"$EBOLD
echo "TEST $TEST_SEQUENCE_NR - (${BASH_LINENO[1]}) - ${TIMESTAMP}: ${1}, ${3} ${4} ${5}" >> $HTTPLOG
((RES_TEST++))
((TEST_SEQUENCE_NR++))
if [ $checkjsonarraycount -eq 0 ]; then
result="$(__do_curl $2$3)"
retcode=$?
result=${result//[[:blank:]]/} #Strip blanks
else
path=${3:5}
result="$(__do_curl $2$path)"
retcode=$?
echo "$result" > ./tmp/.tmp.curl.json
result=$(python3 ../common/count_json_elements.py "./tmp/.tmp.curl.json")
fi
if [ $retcode -ne 0 ]; then
((RES_FAIL++))
echo -e $RED" FAIL ${ERED}- ${3} ${4} ${5} not reached, result = ${result}"
__print_current_stats
__check_stop_at_error
elif [ "$4" == "=" ] && [ "$result" -eq $5 ]; then
((RES_PASS++))
echo -e $GREEN" PASS${EGREEN} - Result=${result}"
__print_current_stats
elif [ "$4" == ">" ] && [ "$result" -gt $5 ]; then
((RES_PASS++))
echo -e $GREEN" PASS${EGREEN} - Result=${result}"
__print_current_stats
elif [ "$4" == "<" ] && [ "$result" -lt $5 ]; then
((RES_PASS++))
echo -e $GREEN" PASS${EGREEN} - Result=${result}"
__print_current_stats
elif [ "$4" == ">=" ] && [ "$result" -ge $5 ]; then
((RES_PASS++))
echo -e $GREEN" PASS${EGREEN} - Result=${result}"
__print_current_stats
elif [ "$4" == "contain_str" ] && [[ $result =~ $5 ]]; then
((RES_PASS++))
echo -e $GREEN" PASS${EGREEN} - Result=${result}"
__print_current_stats
else
((RES_FAIL++))
echo -e $RED" FAIL${ERED} - ${3} ${4} ${5} not reached, result = ${result}"
__print_current_stats
__check_stop_at_error
fi
else
echo "Wrong args to __var_test, needs five or six args: <simulator-name> <host> <variable-name> <condition-operator> <target-value> [ <timeout> ]"
echo "Got:" $@
exit 1
fi
}