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#!/bin/bash
# SPDX-license-identifier: Apache-2.0
##############################################################################
# Copyright (c) 2018
# All rights reserved. This program and the accompanying materials
# are made available under the terms of the Apache License, Version 2.0
# which accompanies this distribution, and is available at
# http://www.apache.org/licenses/LICENSE-2.0
##############################################################################
set -o errexit
set -o nounset
set -o pipefail
FUNCTIONS_DIR="$(readlink -f "$(dirname "${BASH_SOURCE[0]}")")"
# Do not overwrite any user modifications to PATH when sourcing
# /etc/environment
USER_PATH=$PATH
source /etc/environment
PATH=$USER_PATH:$PATH
source $FUNCTIONS_DIR/_common_test.sh
function print_msg {
local msg=$1
local RED='\033[0;31m'
local NC='\033[0m'
echo -e "${RED} $msg ---------------------------------------${NC}"
}
function control_plane_ip {
kubectl get endpoints kubernetes -o jsonpath='{.subsets[].addresses[].ip}'
}
function ssh_cluster {
ssh -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null $(control_plane_ip) -- "$@"
}
function get_ovn_central_address {
#Reuse OVN_CENTRAL_ADDRESS if available (bypassable by --force flag)
if [[ "${1:-}" != "--force" ]] && [[ -n "${OVN_CENTRAL_ADDRESS:-}" ]]; then
echo "${OVN_CENTRAL_ADDRESS}"
return 0
fi
local remote_command="ip address show dev $OVN_CENTRAL_INTERFACE primary"
declare -a ansible_command=(ansible ovn-central[0] -i \
"${FUNCTIONS_DIR}/../hosting_providers/vagrant/inventory/hosts.ini")
declare -a filter=(awk -F '[ \t/]+' \
'BEGIN {r=1} {for (i=1; i<=NF; i++) if ($i == "inet") {print $(i+1); r=0}} END {exit r}')
local result
#Determine OVN_CENTRAL_INTERFACE address
if ! result="$("${ansible_command[@]}" -a "${remote_command}")"; then
echo "Ansible error for remote host ovn-central[0]" >&2
return 1
else
if [[ "${result}" != *CHANGED* ]]; then
echo "Failed to execute command on remote host ovn-central[0]" >&2
return 2
else
if ! result="$("${filter[@]}" <<< "${result}")"; then
echo "Failed to retrieve interface address from command output" >&2
return 3
else
echo "${result}:6641"
fi
fi
fi
}
function call_api {
#Runs curl with passed flags and provides
#additional error handling and debug information
#Function outputs server response body
#and performs validation of http_code
local status
local curl_response_file="$(mktemp -p /tmp)"
local curl_common_flags=(-s -w "%{http_code}" -o "${curl_response_file}")
local command=(curl "${curl_common_flags[@]}" "$@")
echo "[INFO] Running '${command[@]}'" >&2
if ! status="$("${command[@]}")"; then
echo "[ERROR] Internal curl error! '$status'" >&2
cat "${curl_response_file}"
rm "${curl_response_file}"
return 2
else
echo "[INFO] Server replied with status: ${status}" >&2
cat "${curl_response_file}"
rm "${curl_response_file}"
if [[ "${status:0:1}" =~ [45] ]]; then
return 1
else
return 0
fi
fi
}
function call_api_nox {
# this version doesn't exit the script if there's
# an error.
#Runs curl with passed flags and provides
#additional error handling and debug information
#Function outputs server response body
#and performs validation of http_code
local status
local curl_response_file="$(mktemp -p /tmp)"
local curl_common_flags=(-s -w "%{http_code}" -o "${curl_response_file}")
local command=(curl "${curl_common_flags[@]}" "$@")
echo "[INFO] Running '${command[@]}'" >&2
if ! status="$("${command[@]}")"; then
echo "[ERROR] Internal curl error! '$status'" >&2
cat "${curl_response_file}"
rm "${curl_response_file}"
else
echo "[INFO] Server replied with status: ${status}" >&2
if [[ "${status:0:1}" =~ [45] ]]; then
cat "${curl_response_file}"
else
cat "${curl_response_file}" | jq .
fi
rm "${curl_response_file}"
fi
}
function delete_resource {
#Issues DELETE http call to provided endpoint
#and further validates by following GET request
call_api -X DELETE "$1"
! call_api -X GET "$1" >/dev/null
}
# init_network() - This function creates the OVN resouces required by the test
function init_network {
local fname=$1
local router_name="ovn4nfv-master"
name=$(cat $fname | yq '.spec.name' | xargs)
subnet=$(cat $fname | yq '.spec.subnet' | xargs)
gateway=$(cat $fname | yq '.spec.gateway' | xargs)
ovn_central_address=$(get_ovn_central_address)
router_mac=$(printf '00:00:00:%02X:%02X:%02X' $((RANDOM%256)) $((RANDOM%256)) $((RANDOM%256)))
ovn-nbctl --may-exist --db tcp:$ovn_central_address ls-add $name -- set logical_switch $name other-config:subnet=$subnet external-ids:gateway_ip=$gateway
ovn-nbctl --may-exist --db tcp:$ovn_central_address lrp-add $router_name rtos-$name $router_mac $gateway
ovn-nbctl --may-exist --db tcp:$ovn_central_address lsp-add $name stor-$name -- set logical_switch_port stor-$name type=router options:router-port=rtos-$name addresses=\"$router_mac\"
}
# cleanup_network() - This function removes the OVN resources created for the test
function cleanup_network {
local fname=$1
name=$(cat $fname | yq '.spec.name' | xargs)
ovn_central_address=$(get_ovn_central_address)
for cmd in "ls-del $name" "lrp-del rtos-$name" "lsp-del stor-$name"; do
ovn-nbctl --if-exist --db tcp:$ovn_central_address $cmd
done
}
function _checks_args {
if [[ -z $1 ]]; then
echo "Missing CSAR ID argument"
exit 1
fi
if [[ -z $CSAR_DIR ]]; then
echo "CSAR_DIR global environment value is empty"
exit 1
fi
mkdir -p ${CSAR_DIR}/${1}
}
function _destroy {
local type=$1
local name=$2
echo "$(date +%H:%M:%S) - $name : Destroying $type"
kubectl delete $type $name --ignore-not-found=true --now
while kubectl get $type $name &>/dev/null; do
echo "$(date +%H:%M:%S) - $name : Destroying $type"
done
}
# destroy_deployment() - This function ensures that a specific deployment is
# destroyed in Kubernetes
function destroy_deployment {
local deployment_name=$1
_destroy "deployment" $deployment_name
}
function _recreate {
local type=$1
local name=$2
_destroy $type $name
kubectl create -f $name.yaml
}
# wait_deployment() - Wait process to Running status on the Deployment's pods
function wait_deployment {
local deployment_name=$1
status_phase=""
while [[ $status_phase != "Running" ]]; do
new_phase=$(kubectl get pods | grep $deployment_name | awk '{print $3}')
if [[ $new_phase != $status_phase ]]; then
echo "$(date +%H:%M:%S) - $deployment_name : $new_phase"
status_phase=$new_phase
fi
if [[ $new_phase == "Err"* ]]; then
exit 1
fi
done
}
# wait_for_pod() - Wait until first pod matched by kubectl filters is in running status
function wait_for_pod {
#Example usage:
# wait_for_pods example_pod
# wait_for_pods --namespace test different_pod
# wait_for_pods -n test -l app=plugin_test
status_phase=""
while [[ "$status_phase" != "Running" ]]; do
new_phase="$(kubectl get pods -o 'go-template={{ index .items 0 "status" "phase" }}' "$@" )"
if [[ "$new_phase" != "$status_phase" ]]; then
echo "$(date +%H:%M:%S) - Filter=[$*] : $new_phase"
status_phase="$new_phase"
fi
if [[ "$new_phase" == "Err"* ]]; then
exit 1
fi
done
}
# wait_for_deployment() - Wait until the deployment is ready
function wait_for_deployment {
#Example usage:
# wait_for_deployment $DEPLOYMENT_NAME $REPLICAS
# wait_for_deployment example_deployment 2
status="0/"
while [[ "$status" != $2* ]]; do
new_status=`kubectl get deployment -A | grep $1 | awk '{print $3}'`
if [[ "$new_status" != "$status" ]]; then
status="$new_status"
fi
pod_status=`kubectl get pods -A | grep $1 | awk '{print $4}'`
if [[ $pod_status =~ "Err" ]]; then
echo "Deployment $1 error"
exit 1
fi
done
}
# wait_for_deployment_status() - Wait until the deployment intent group is the specified status
function wait_for_deployment_status {
#Example usage:
# wait_for_deployment_status {base-url-orchestrator}/projects/{project-name}/composite-apps/{composite-app-name}/{composite-app-version}/deployment-intent-groups/{deployment-intent-group-name}/status Instantiated
if [ "$#" -ne 2 ]; then
echo "Usage: wait_for_deployment_status URL STATUS"
exit 1
fi
for try in {0..59}; do
sleep 1
new_phase="$(call_api $1 | jq -r .status)"
echo "$(date +%H:%M:%S) - Filter=[$*] : $new_phase"
if [[ "$new_phase" == "$2" ]]; then
return 0
fi
done
exit 1
}
function setup_type {
local type=$1
shift;
if ! $(kubectl version &>/dev/null); then
echo "This funtional test requires kubectl client"
exit 1
fi
for name in $@; do
_recreate $type $name
done
sleep 5
for name in $@; do
wait_deployment $name
done
}
function teardown_type {
local type=$1
shift;
for name in $@; do
_destroy $type $name
done
}
# setup() - Base testing setup shared among functional tests
function setup {
setup_type "deployment" $@
}
# teardown() - Base testing teardown function
function teardown {
teardown_type "deployment" $@
}
# check_ip_range() - Verifying IP address in address range
function check_ip_range {
local IP=$1
local MASK=$2
install_ipcalc
if [[ ! -e /usr/bin/ipcalc ]]; then
echo -e "Command 'ipcalc' not found"
return 0
fi
if [[ -z ${IP} ]] || [[ -z ${MASK} ]]; then
return 1
fi
min=`/usr/bin/ipcalc $MASK|awk '/HostMin:/{print $2}'`
max=`/usr/bin/ipcalc $MASK|awk '/HostMax:/{print $2}'`
MIN=`echo $min|awk -F"." '{printf"%.0f\n",$1*256*256*256+$2*256*256+$3*256+$4}'`
MAX=`echo $max|awk -F"." '{printf"%.0f\n",$1*256*256*256+$2*256*256+$3*256+$4}'`
IPvalue=`echo $IP|awk -F"." '{printf"%.0f\n",$1*256*256*256+$2*256*256+$3*256+$4}'`
if [[ "$IPvalue" -gt "$MIN" ]] && [[ "$IPvalue" -lt "$MAX" ]]; then
echo -e "$IP in ipset $MASK"
return 0
fi
echo -e "$IP not in ipset $MASK"
return 1
}
test_folder=${FUNCTIONS_DIR}
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