#!/bin/bash # retry based on # https://github.com/fernandoacorreia/azure-docker-registry/blob/master/tools/scripts/create-registry-server # under MIT license. function retry { local n=1 local max=$1 shift local delay=$1 shift local errtrace=0 if grep -q "errtrace" <<<"$SHELLOPTS"; then errtrace=1 set +E fi for ((i = 1; i <= $max; i++)); do if "$@"; then if test $errtrace -eq 1; then set -E fi return 0 else echo "Command failed. Attempt $i/$max:" sleep $delay fi done if test $errtrace -eq 1; then set -E fi return 1 } function retry_default { set +E ret=0 retry 5 1 "$@" || ret=1 set -E return $ret } function retry_long { retry 30 1 "$@" } function is_set { # Arguments: # $1 - string value to check its truthiness # # Return: # 0 - is truthy (backwards I know but allows syntax like `if is_set ` to work) # 1 - is not truthy local val=$(tr '[:upper:]' '[:lower:]' <<<"$1") case $val in 1 | t | true | y | yes) return 0 ;; *) return 1 ;; esac } function get_cert { local HOSTPORT=$1 local SERVER_NAME=$2 local CA_FILE=$3 local SNI_FLAG="" if [ -n "$SERVER_NAME" ]; then SNI_FLAG="-servername $SERVER_NAME" fi CERT=$(openssl s_client -connect $HOSTPORT $SNI_FLAG -showcerts /workdir/s1_envoy_dump.json echo "$output" | jq --raw-output '.configs[0].bootstrap.stats_flush_interval' } # snapshot_envoy_admin is meant to be used from a teardown scriptlet from the host. function snapshot_envoy_admin { local HOSTPORT=$1 local ENVOY_NAME=$2 local DC=${3:-primary} local OUTDIR="${LOG_DIR}/envoy-snapshots/${DC}/${ENVOY_NAME}" mkdir -p "${OUTDIR}" docker_wget "$DC" "http://${HOSTPORT}/config_dump" -q -O - >"${OUTDIR}/config_dump.json" docker_wget "$DC" "http://${HOSTPORT}/clusters?format=json" -q -O - >"${OUTDIR}/clusters.json" docker_wget "$DC" "http://${HOSTPORT}/stats" -q -O - >"${OUTDIR}/stats.txt" docker_wget "$DC" "http://${HOSTPORT}/stats/prometheus" -q -O - >"${OUTDIR}/stats_prometheus.txt" } function reset_envoy_metrics { local HOSTPORT=$1 curl -s -f -XPOST $HOSTPORT/reset_counters return $? } function get_all_envoy_metrics { local HOSTPORT=$1 curl -s -f $HOSTPORT/stats return $? } function get_envoy_metrics { local HOSTPORT=$1 local METRICS=$2 get_all_envoy_metrics $HOSTPORT | grep "$METRICS" } function get_upstream_endpoint { local HOSTPORT=$1 local CLUSTER_NAME=$2 run curl -s -f "http://${HOSTPORT}/clusters?format=json" [ "$status" -eq 0 ] echo "$output" | jq --raw-output " .cluster_statuses[] | select(.name|startswith(\"${CLUSTER_NAME}\"))" } function get_upstream_endpoint_in_status_count { local HOSTPORT=$1 local CLUSTER_NAME=$2 local HEALTH_STATUS=$3 run curl -s -f "http://${HOSTPORT}/clusters?format=json" [ "$status" -eq 0 ] echo "$output" | jq --raw-output " .cluster_statuses[] | select(.name|startswith(\"${CLUSTER_NAME}\")) | [.host_statuses[].health_status.eds_health_status] | [select(.[] == \"${HEALTH_STATUS}\")] | length" } function assert_upstream_has_endpoints_in_status_once { local HOSTPORT=$1 local CLUSTER_NAME=$2 local HEALTH_STATUS=$3 local EXPECT_COUNT=$4 GOT_COUNT=$(get_upstream_endpoint_in_status_count $HOSTPORT $CLUSTER_NAME $HEALTH_STATUS) [ "$GOT_COUNT" -eq $EXPECT_COUNT ] } function assert_upstream_missing { local HOSTPORT=$1 local CLUSTER_NAME=$2 run retry_default get_upstream_endpoint $HOSTPORT $CLUSTER_NAME echo "OUTPUT: $output $status" [ "" == "$output" ] } function assert_upstream_has_endpoints_in_status { local HOSTPORT=$1 local CLUSTER_NAME=$2 local HEALTH_STATUS=$3 local EXPECT_COUNT=$4 run retry_long assert_upstream_has_endpoints_in_status_once $HOSTPORT $CLUSTER_NAME $HEALTH_STATUS $EXPECT_COUNT [ "$status" -eq 0 ] } function assert_envoy_metric { set -eEuo pipefail local HOSTPORT=$1 local METRIC=$2 local EXPECT_COUNT=$3 METRICS=$(get_envoy_metrics $HOSTPORT "$METRIC") if [ -z "${METRICS}" ]; then echo "Metric not found" 1>&2 return 1 fi GOT_COUNT=$(awk -F: '{print $2}' <<<"$METRICS" | head -n 1 | tr -d ' ') if [ -z "$GOT_COUNT" ]; then echo "Couldn't parse metric count" 1>&2 return 1 fi if [ $EXPECT_COUNT -ne $GOT_COUNT ]; then echo "$METRIC - expected count: $EXPECT_COUNT, actual count: $GOT_COUNT" 1>&2 return 1 fi } function assert_envoy_metric_at_least { set -eEuo pipefail local HOSTPORT=$1 local METRIC=$2 local EXPECT_COUNT=$3 METRICS=$(get_envoy_metrics $HOSTPORT "$METRIC") if [ -z "${METRICS}" ]; then echo "Metric not found" 1>&2 return 1 fi GOT_COUNT=$(awk -F: '{print $2}' <<<"$METRICS" | head -n 1 | tr -d ' ') if [ -z "$GOT_COUNT" ]; then echo "Couldn't parse metric count" 1>&2 return 1 fi if [ $EXPECT_COUNT -gt $GOT_COUNT ]; then echo "$METRIC - expected >= count: $EXPECT_COUNT, actual count: $GOT_COUNT" 1>&2 return 1 fi } function assert_envoy_aggregate_metric_at_least { set -eEuo pipefail local HOSTPORT=$1 local METRIC=$2 local EXPECT_COUNT=$3 METRICS=$(get_envoy_metrics $HOSTPORT "$METRIC") if [ -z "${METRICS}" ]; then echo "Metric not found" 1>&2 return 1 fi GOT_COUNT=$(awk '{ sum += $2 } END { print sum }' <<<"$METRICS") if [ -z "$GOT_COUNT" ]; then echo "Couldn't parse metric count" 1>&2 return 1 fi if [ $EXPECT_COUNT -gt $GOT_COUNT ]; then echo "$METRIC - expected >= count: $EXPECT_COUNT, actual count: $GOT_COUNT" 1>&2 return 1 fi } function get_healthy_service_count { local SERVICE_NAME=$1 local DC=$2 local NS=$3 local AP=$4 local PEER_NAME=$5 run curl -s -f ${HEADERS} "consul-${DC}-client:8500/v1/health/connect/${SERVICE_NAME}?passing&ns=${NS}&partition=${AP}&peer=${PEER_NAME}" [ "$status" -eq 0 ] echo "$output" | jq --raw-output '. | length' } function assert_alive_wan_member_count { local DC=$1 local EXPECT_COUNT=$2 run retry_long assert_alive_wan_member_count_once $DC $EXPECT_COUNT [ "$status" -eq 0 ] } function assert_alive_wan_member_count_once { local DC=$1 local EXPECT_COUNT=$2 GOT_COUNT=$(get_alive_wan_member_count $DC) [ "$GOT_COUNT" -eq "$EXPECT_COUNT" ] } function get_alive_wan_member_count { local DC=$1 run retry_default curl -sL -f "consul-${DC}-server:8500/v1/agent/members?wan=1" [ "$status" -eq 0 ] # echo "$output" >&3 echo "$output" | jq '.[] | select(.Status == 1) | .Name' | wc -l } function assert_service_has_healthy_instances_once { local SERVICE_NAME=$1 local EXPECT_COUNT=$2 local DC=${3:-primary} local NS=${4:-} local AP=${5:-} local PEER_NAME=${6:-} GOT_COUNT=$(get_healthy_service_count "$SERVICE_NAME" "$DC" "$NS" "$AP" "$PEER_NAME") [ "$GOT_COUNT" -eq $EXPECT_COUNT ] } function assert_service_has_healthy_instances { local SERVICE_NAME=$1 local EXPECT_COUNT=$2 local DC=${3:-primary} local NS=${4:-} local AP=${5:-} local PEER_NAME=${6:-} run retry_long assert_service_has_healthy_instances_once "$SERVICE_NAME" "$EXPECT_COUNT" "$DC" "$NS" "$AP" "$PEER_NAME" [ "$status" -eq 0 ] } function check_intention { local SOURCE=$1 local DESTINATION=$2 curl -s -f "localhost:8500/v1/connect/intentions/check?source=${SOURCE}&destination=${DESTINATION}" | jq ".Allowed" } function assert_intention_allowed { local SOURCE=$1 local DESTINATION=$2 run check_intention "${SOURCE}" "${DESTINATION}" [ "$status" -eq 0 ] [ "$output" = "true" ] } function assert_intention_denied { local SOURCE=$1 local DESTINATION=$2 run check_intention "${SOURCE}" "${DESTINATION}" [ "$status" -eq 0 ] [ "$output" = "false" ] } function docker_consul { local DC=$1 shift 1 docker run -i --rm --network container:envoy_consul-${DC}_1 consul:local "$@" } function docker_consul_for_proxy_bootstrap { local DC=$1 shift 1 docker run -i --rm --network container:envoy_consul-${DC}_1 consul:local "$@" 2>/dev/null } function docker_wget { local DC=$1 shift 1 docker run --rm --network container:envoy_consul-${DC}_1 docker.mirror.hashicorp.services/alpine:3.9 wget "$@" } function docker_curl { local DC=$1 shift 1 docker run --rm --network container:envoy_consul-${DC}_1 --entrypoint curl consul:local "$@" } function docker_exec { if ! docker exec -i "$@"; then echo "Failed to execute: docker exec -i $@" 1>&2 return 1 fi } function docker_consul_exec { local DC=$1 shift 1 docker_exec envoy_consul-${DC}_1 "$@" } function kill_envoy { local BOOTSTRAP_NAME=$1 local DC=${2:-primary} pkill -TERM -f "envoy -c /workdir/$DC/envoy/${BOOTSTRAP_NAME}-bootstrap.json" } function must_match_in_statsd_logs { local DC=${2:-primary} run cat /workdir/${DC}/statsd/statsd.log echo "$output" COUNT=$(echo "$output" | grep -Ec $1) echo "COUNT of '$1' matches: $COUNT" [ "$status" == 0 ] [ "$COUNT" -gt "0" ] } function must_match_in_prometheus_response { run curl -f -s $1/metrics COUNT=$(echo "$output" | grep -Ec $2) echo "OUTPUT head -n 10" echo "$output" | head -n 10 echo "COUNT of '$2' matches: $COUNT" [ "$status" == 0 ] [ "$COUNT" -gt "0" ] } function must_match_in_stats_proxy_response { run curl -f -s $1/$2 COUNT=$(echo "$output" | grep -Ec $3) echo "OUTPUT head -n 10" echo "$output" | head -n 10 echo "COUNT of '$3' matches: $COUNT" [ "$status" == 0 ] [ "$COUNT" -gt "0" ] } # must_fail_tcp_connection checks that a request made through an upstream fails, # probably due to authz being denied if all other tests passed already. Although # we are using curl, this only works as expected for TCP upstreams as we are # checking TCP-level errors. HTTP upstreams will return a valid 503 generated by # Envoy rather than a connection-level error. function must_fail_tcp_connection { # Attempt to curl through upstream run curl --no-keepalive -s -v -f -d hello $1 echo "OUTPUT $output" # Should fail during handshake and return "got nothing" error [ "$status" == "52" ] # Verbose output should enclude empty reply echo "$output" | grep 'Empty reply from server' } function must_pass_tcp_connection { run curl --no-keepalive -s -f -d hello $1 echo "OUTPUT $output" [ "$status" == "0" ] [[ "$output" == *"hello"* ]] } # must_fail_http_connection see must_fail_tcp_connection but this expects Envoy # to generate a 503 response since the upstreams have refused connection. function must_fail_http_connection { # Attempt to curl through upstream run curl --no-keepalive -s -i -d hello "$1" echo "OUTPUT $output" [ "$status" == "0" ] local expect_response="${2:-403 Forbidden}" # Should fail request with 503 echo "$output" | grep "${expect_response}" } # must_pass_http_request allows you to craft a specific http request to assert # that envoy will NOT reject the request. Primarily of use for testing L7 # intentions. function must_pass_http_request { local METHOD=$1 local URL=$2 local DEBUG_HEADER_VALUE="${3:-""}" local extra_args if [[ -n "${DEBUG_HEADER_VALUE}" ]]; then extra_args="-H x-test-debug:${DEBUG_HEADER_VALUE}" fi case "$METHOD" in GET) ;; DELETE) extra_args="$extra_args -X${METHOD}" ;; PUT | POST) extra_args="$extra_args -d'{}' -X${METHOD}" ;; *) return 1 ;; esac run curl --no-keepalive -v -s -f $extra_args "$URL" [ "$status" == 0 ] } # must_fail_http_request allows you to craft a specific http request to assert # that envoy will reject the request. Primarily of use for testing L7 # intentions. function must_fail_http_request { local METHOD=$1 local URL=$2 local DEBUG_HEADER_VALUE="${3:-""}" local extra_args if [[ -n "${DEBUG_HEADER_VALUE}" ]]; then extra_args="-H x-test-debug:${DEBUG_HEADER_VALUE}" fi case "$METHOD" in HEAD) extra_args="$extra_args -I" ;; GET) ;; DELETE) extra_args="$extra_args -X${METHOD}" ;; PUT | POST) extra_args="$extra_args -d'{}' -X${METHOD}" ;; *) return 1 ;; esac # Attempt to curl through upstream run curl --no-keepalive -s -i $extra_args "$URL" echo "OUTPUT $output" echo "$output" | grep "403 Forbidden" } function gen_envoy_bootstrap { SERVICE=$1 ADMIN_PORT=$2 DC=${3:-primary} IS_GW=${4:-0} EXTRA_ENVOY_BS_ARGS="${5-}" PROXY_ID="$SERVICE" if ! is_set "$IS_GW"; then PROXY_ID="$SERVICE-sidecar-proxy" fi if output=$(docker_consul_for_proxy_bootstrap "$DC" connect envoy -bootstrap \ -proxy-id $PROXY_ID \ -envoy-version "$ENVOY_VERSION" \ -admin-bind 0.0.0.0:$ADMIN_PORT ${EXTRA_ENVOY_BS_ARGS} 2>&1); then # All OK, write config to file echo "$output" >workdir/${DC}/envoy/$SERVICE-bootstrap.json else status=$? # Command failed, instead of swallowing error (printed on stdout by docker # it seems) by writing it to file, echo it echo "$output" return $status fi } function read_config_entry { local KIND=$1 local NAME=$2 local DC=${3:-primary} docker_consul "$DC" config read -kind $KIND -name $NAME } function wait_for_namespace { local NS="${1}" local DC=${2:-primary} retry_default docker_curl "$DC" -sLf "http://127.0.0.1:8500/v1/namespace/${NS}" >/dev/null } function wait_for_config_entry { retry_default read_config_entry "$@" >/dev/null } function upsert_config_entry { local DC="$1" local BODY="$2" echo "$BODY" | docker_consul "$DC" config write - } function assert_config_entry_status { local TYPE="$1" local STATUS="$2" local REASON="$3" local DC="$4" local KIND="$5" local NAME="$6" local NS=${7:-} local AP=${8:-} local PEER=${9:-} status=$(curl -s -f "consul-${DC}-client:8500/v1/config/${KIND}/${NAME}?passing&ns=${NS}&partition=${AP}&peer=${PEER}" | jq ".Status.Conditions[] | select(.Type == \"$TYPE\" and .Status == \"$STATUS\" and .Reason == \"$REASON\")") [ -n "$status" ] } function delete_config_entry { local KIND=$1 local NAME=$2 retry_default curl -sL -XDELETE "http://127.0.0.1:8500/v1/config/${KIND}/${NAME}" } function register_services { local DC=${1:-primary} wait_for_leader "$DC" docker_consul_exec ${DC} sh -c "consul services register /workdir/${DC}/register/service_*.hcl" } # wait_for_leader waits until a leader is elected. # Its first argument must be the datacenter name. function wait_for_leader { retry_default docker_consul_exec "$1" sh -c '[[ $(curl --fail -sS http://127.0.0.1:8500/v1/status/leader) ]]' } function setup_upsert_l4_intention { local SOURCE=$1 local DESTINATION=$2 local ACTION=$3 retry_default docker_curl primary -sL -XPUT "http://127.0.0.1:8500/v1/connect/intentions/exact?source=${SOURCE}&destination=${DESTINATION}" \ -d"{\"Action\": \"${ACTION}\"}" >/dev/null } function upsert_l4_intention { local SOURCE=$1 local DESTINATION=$2 local ACTION=$3 retry_default curl -sL -XPUT "http://127.0.0.1:8500/v1/connect/intentions/exact?source=${SOURCE}&destination=${DESTINATION}" \ -d"{\"Action\": \"${ACTION}\"}" >/dev/null } function get_ca_root { curl -s -f "http://localhost:8500/v1/connect/ca/roots" | jq -r ".Roots[0].RootCert" } function wait_for_agent_service_register { local SERVICE_ID=$1 local DC=${2:-primary} retry_default docker_curl "$DC" -sLf "http://127.0.0.1:8500/v1/agent/service/${SERVICE_ID}" >/dev/null } function set_ttl_check_state { local CHECK_ID=$1 local CHECK_STATE=$2 local DC=${3:-primary} case "$CHECK_STATE" in pass) ;; warn) ;; fail) ;; *) echo "invalid ttl check state '${CHECK_STATE}'" >&2 return 1 ;; esac retry_default docker_curl "${DC}" -sL -XPUT "http://localhost:8500/v1/agent/check/warn/${CHECK_ID}" } function get_upstream_fortio_name { local HOST=$1 local PORT=$2 local PREFIX=$3 local DEBUG_HEADER_VALUE="${4:-""}" local extra_args if [[ -n "${DEBUG_HEADER_VALUE}" ]]; then extra_args="-H x-test-debug:${DEBUG_HEADER_VALUE}" fi # split proto if https:// is at the front of the host since the --resolve # string needs just a bare host. local PROTO="" local CA_FILE="" if [ "${HOST:0:8}" = "https://" ]; then HOST="${HOST:8}" PROTO="https://" extra_args="${extra_args} --cacert /workdir/test-sds-server/certs/ca-root.crt" fi # We use --resolve instead of setting a Host header since we need the right # name to be sent for SNI in some cases too. run retry_default curl -v -s -f --resolve "${HOST}:${PORT}:127.0.0.1" $extra_args \ "${PROTO}${HOST}:${PORT}${PREFIX}/debug?env=dump" # Useful Debugging but breaks the expectation that the value output is just # the grep output when things don't fail if [ "$status" != 0 ]; then echo "GOT FORTIO OUTPUT: $output" fi [ "$status" == 0 ] echo "$output" | grep -E "^FORTIO_NAME=" } function assert_expected_fortio_name { local EXPECT_NAME=$1 local HOST=${2:-"localhost"} local PORT=${3:-5000} local URL_PREFIX=${4:-""} local DEBUG_HEADER_VALUE="${5:-""}" run get_upstream_fortio_name ${HOST} ${PORT} "${URL_PREFIX}" "${DEBUG_HEADER_VALUE}" echo "GOT: $output" [ "$status" == 0 ] [ "$output" == "FORTIO_NAME=${EXPECT_NAME}" ] } function assert_expected_fortio_name_pattern { local EXPECT_NAME_PATTERN=$1 local HOST=${2:-"localhost"} local PORT=${3:-5000} local URL_PREFIX=${4:-""} local DEBUG_HEADER_VALUE="${5:-""}" GOT=$(get_upstream_fortio_name ${HOST} ${PORT} "${URL_PREFIX}" "${DEBUG_HEADER_VALUE}") if [[ "$GOT" =~ $EXPECT_NAME_PATTERN ]]; then : else echo "expected name pattern: $EXPECT_NAME_PATTERN, actual name: $GOT" 1>&2 return 1 fi } function get_upstream_fortio_host_header { local HOST=$1 local PORT=$2 local PREFIX=$3 local DEBUG_HEADER_VALUE="${4:-""}" local extra_args if [[ -n "${DEBUG_HEADER_VALUE}" ]]; then extra_args="-H x-test-debug:${DEBUG_HEADER_VALUE}" fi run retry_default curl -v -s -f -H"Host: ${HOST}" $extra_args \ "localhost:${PORT}${PREFIX}/debug" [ "$status" == 0 ] echo "$output" | grep -E "^Host: " } function assert_expected_fortio_host_header { local EXPECT_HOST=$1 local HOST=${2:-"localhost"} local PORT=${3:-5000} local URL_PREFIX=${4:-""} local DEBUG_HEADER_VALUE="${5:-""}" GOT=$(get_upstream_fortio_host_header ${HOST} ${PORT} "${URL_PREFIX}" "${DEBUG_HEADER_VALUE}") if [ "$GOT" != "Host: ${EXPECT_HOST}" ]; then echo "expected Host header: $EXPECT_HOST, actual Host header: $GOT" 1>&2 return 1 fi } function create_peering { local GENERATE_PEER=$1 local ESTABLISH_PEER=$2 run curl -sL -XPOST "http://consul-${GENERATE_PEER}-client:8500/v1/peering/token" -d"{ \"PeerName\" : \"${GENERATE_PEER}-to-${ESTABLISH_PEER}\" }" # echo "$output" >&3 [ "$status" == 0 ] local token token="$(echo "$output" | jq -r .PeeringToken)" [ -n "$token" ] run curl -sLv -XPOST "http://consul-${ESTABLISH_PEER}-client:8500/v1/peering/establish" -d"{ \"PeerName\" : \"${ESTABLISH_PEER}-to-${GENERATE_PEER}\", \"PeeringToken\" : \"${token}\" }" # echo "$output" >&3 [ "$status" == 0 ] sleep 1 run curl -s -f "http://consul-${GENERATE_PEER}-client:8500/v1/peering/${GENERATE_PEER}-to-${ESTABLISH_PEER}" state="$(echo "$output" | jq --raw-output .State)" if [ "$state" != "ACTIVE" ]; then echo "fail to peering: $output" return 1 fi } function assert_service_has_imported { local DC=${1:-primary} local SERVICE_NAME=$2 local PEER_NAME=$3 run curl -s -f "http://consul-${DC}-client:8500/v1/peering/${PEER_NAME}" [ "$status" == 0 ] echo "$output" | jq --raw-output '.StreamStatus.ImportedServices' | grep -e "${SERVICE_NAME}" if [ $? -ne 0 ]; then echo "Error finding service: ${SERVICE_NAME}" return 1 fi } function get_lambda_envoy_http_filter { local HOSTPORT=$1 local NAME_PREFIX=$2 run retry_default curl -s -f $HOSTPORT/config_dump [ "$status" -eq 0 ] # get the full http filter object so the individual fields can be validated. echo "$output" | jq --raw-output ".configs[2].dynamic_listeners[] | .active_state.listener.filter_chains[].filters[] | select(.name == \"envoy.filters.network.http_connection_manager\") | .typed_config.http_filters[] | select(.name == \"envoy.filters.http.aws_lambda\") | .typed_config" } function register_lambdas { local DC=${1:-primary} # register lambdas to the catalog for f in $(find workdir/${DC}/register -type f -name 'lambda_*.json'); do retry_default curl -sL -XPUT -d @${f} "http://localhost:8500/v1/catalog/register" >/dev/null && echo "Registered Lambda: $(jq -r .Service.Service $f)" done # write service-defaults config entries for lambdas for f in $(find workdir/${DC}/register -type f -name 'service_defaults_*.json'); do varsub ${f} AWS_LAMBDA_REGION AWS_LAMBDA_ARN retry_default curl -sL -XPUT -d @${f} "http://localhost:8500/v1/config" >/dev/null && echo "Wrote config: $(jq -r '.Kind + " / " + .Name' $f)" done } function assert_lambda_envoy_dynamic_cluster_exists { local HOSTPORT=$1 local NAME_PREFIX=$2 local BODY=$(get_envoy_dynamic_cluster_once $HOSTPORT $NAME_PREFIX) [ -n "$BODY" ] [ "$(echo $BODY | jq -r '.cluster.transport_socket.typed_config.sni')" == '*.amazonaws.com' ] } function assert_lambda_envoy_dynamic_http_filter_exists { local HOSTPORT=$1 local NAME_PREFIX=$2 local ARN=$3 local FILTER=$(get_lambda_envoy_http_filter $HOSTPORT $NAME_PREFIX) [ -n "$FILTER" ] [ "$(echo $FILTER | jq -r '.arn')" == "$ARN" ] } function varsub { local file=$1 shift for v in "$@"; do sed -i "s/\${$v}/${!v}/g" $file done } function get_url_header { local URL=$1 local HEADER=$2 run curl -s -f -X GET -I "${URL}" [ "$status" == 0 ] RESP=$(echo "$output" | tr -d '\r') RESP=$(echo "$RESP" | grep -E "^${HEADER}: ") RESP=$(echo "$RESP" | sed "s/^${HEADER}: //g") echo "$RESP" } function assert_url_header { local URL=$1 local HEADER=$2 local VALUE=$3 run get_url_header "$URL" "$HEADER" [ "$status" == 0 ] [ "$VALUE" = "$output" ] }