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add test suite. See #197

Browse source 
This test suite is implemented using [bats](https://github.com/sstephenson/bats).

Not all features are tested. For instance ssl features and custom nginx config are missing. Probably others.

This test suite won't work with TravisCI. Too many evenings were wasted trying to overcome [issues](http://stackoverflow.com/questions/32846800/travis-fails-to-stop-docker-containers) that arises only on the TravisCI platform. However it runs on [CircleCI](https://circleci.com) which is also free for opensource projects.
This commit is contained in:
Thomas LEVEIL 2015-09-13 19:33:11 +00:00
parent 8c193ba7e1
commit 4bd30f5d2c
13 changed files with 1436 additions and 0 deletions
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21
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machine:
pre:
# install docker 1.7.1
- sudo curl -L -o /usr/bin/docker 'https://s3-external-1.amazonaws.com/circle-downloads/docker-1.7.1-circleci'; sudo chmod 0755 /usr/bin/docker; true
services:
- docker
dependencies:
override:
- sudo add-apt-repository ppa:duggan/bats --yes
- sudo apt-get update -qq
- sudo apt-get install -qq bats
- docker pull jwilder/docker-gen
- docker pull nginx
- docker pull python:3
- docker pull rancher/socat-docker
test:
override:
- docker build -t jwilder/nginx-proxy:bats .
- bats test

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Test suite
==========
This test suite is implemented on top of the [Bats](https://github.com/sstephenson/bats/blob/master/README.md) test framework.
It is intended to verify the correct behavior of the Docker image `jwilder/nginx-proxy:bats`.
Running the test suite
----------------------
Make sure you have Bats installed, then run:
docker build -t jwilder/nginx-proxy:bats .
bats test/

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#!/usr/bin/env bats
load test_helpers
function setup {
# make sure to stop any web container before each test so we don't
# have any unexpected contaiener running with VIRTUAL_HOST or VIRUTAL_PORT set
docker ps -q --filter "label=bats-type=web" | xargs -r docker stop >&2
}
@test "[$TEST_FILE] DEFAULT_HOST=web1.bats" {
SUT_CONTAINER=bats-nginx-proxy-${TEST_FILE}-1
# GIVEN a webserver with VIRTUAL_HOST set to web.bats
docker_clean bats-web
run docker run -d \
--label bats-type="web" \
--name bats-web \
-e VIRTUAL_HOST=web.bats \
--expose 80 \
-w /var/www \
python:3 \
python -m http.server 80
assert_success
# WHEN nginx-proxy runs with DEFAULT_HOST set to web.bats
run nginxproxy $SUT_CONTAINER -v /var/run/docker.sock:/tmp/docker.sock:ro -e DEFAULT_HOST=web.bats
assert_success
docker_wait_for_log $SUT_CONTAINER 3 "Watching docker events"
# THEN querying the proxy without Host header → 200
run curl_container $SUT_CONTAINER / --head
assert_output -l 0 $'HTTP/1.1 200 OK\r'
# THEN querying the proxy with any other Host header → 200
run curl_container $SUT_CONTAINER / --head --header "Host: something.I.just.made.up"
assert_output -l 0 $'HTTP/1.1 200 OK\r'
}

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#!/usr/bin/env bats
load test_helpers
@test "[$TEST_FILE] start 2 web containers" {
prepare_web_container bats-web1 81 -e VIRTUAL_HOST=web1.bats
prepare_web_container bats-web2 82 -e VIRTUAL_HOST=web2.bats
}
@test "[$TEST_FILE] -v /var/run/docker.sock:/tmp/docker.sock:ro" {
SUT_CONTAINER=bats-nginx-proxy-${TEST_FILE}-1
# WHEN nginx-proxy runs on our docker host using the default unix socket
run nginxproxy $SUT_CONTAINER -v /var/run/docker.sock:/tmp/docker.sock:ro
assert_success
docker_wait_for_log $SUT_CONTAINER 3 "Watching docker events"
# THEN
assert_nginxproxy_behaves $SUT_CONTAINER
}
@test "[$TEST_FILE] -v /var/run/docker.sock:/f00.sock:ro -e DOCKER_HOST=unix:///f00.sock" {
SUT_CONTAINER=bats-nginx-proxy-${TEST_FILE}-2
# WHEN nginx-proxy runs on our docker host using a custom unix socket
run nginxproxy $SUT_CONTAINER -v /var/run/docker.sock:/f00.sock:ro -e DOCKER_HOST=unix:///f00.sock
assert_success
docker_wait_for_log $SUT_CONTAINER 3 "Watching docker events"
# THEN
assert_nginxproxy_behaves $SUT_CONTAINER
}
@test "[$TEST_FILE] -e DOCKER_HOST=tcp://..." {
SUT_CONTAINER=bats-nginx-proxy-${TEST_FILE}-3
# GIVEN a container exposing our docker host over TCP
run docker_tcp bats-docker-tcp
assert_success
sleep 1s
# WHEN nginx-proxy runs on our docker host using tcp to connect to our docker host
run nginxproxy $SUT_CONTAINER -e DOCKER_HOST="tcp://bats-docker-tcp:2375" --link bats-docker-tcp:bats-docker-tcp
assert_success
docker_wait_for_log $SUT_CONTAINER 3 "Watching docker events"
# THEN
assert_nginxproxy_behaves $SUT_CONTAINER
}
@test "[$TEST_FILE] separated containers (nginx + docker-gen + nginx.tmpl)" {
docker_clean bats-nginx
docker_clean bats-docker-gen
# GIVEN a simple nginx container
run docker run -d \
--name bats-nginx \
-v /etc/nginx/conf.d/ \
-v /etc/nginx/certs/ \
nginx:latest
assert_success
run retry 5 1s curl --silent --fail -A "before-docker-gen" --head http://$(docker_ip bats-nginx)/
assert_output -l 0 $'HTTP/1.1 200 OK\r'
# WHEN docker-gen runs on our docker host
run docker run -d \
--name bats-docker-gen \
-v /var/run/docker.sock:/tmp/docker.sock:ro \
-v $BATS_TEST_DIRNAME/../nginx.tmpl:/etc/docker-gen/templates/nginx.tmpl:ro \
--volumes-from bats-nginx \
jwilder/docker-gen:latest \
-notify-sighup bats-nginx \
-watch \
-only-exposed \
/etc/docker-gen/templates/nginx.tmpl \
/etc/nginx/conf.d/default.conf
assert_success
docker_wait_for_log bats-docker-gen 6 "Watching docker events"
# Give some time to the docker-gen container to notify bats-nginx so it
# reloads its config
sleep 2s
run docker_running_state bats-nginx
assert_output "true" || {
docker logs bats-docker-gen
false
} >&2
# THEN
assert_nginxproxy_behaves bats-nginx
}
# $1 nginx-proxy container
function assert_nginxproxy_behaves {
local -r container=$1
# Querying the proxy without Host header → 503
run curl_container $container / --head
assert_output -l 0 $'HTTP/1.1 503 Service Temporarily Unavailable\r'
# Querying the proxy with Host header → 200
run curl_container $container /data --header "Host: web1.bats"
assert_output "answer from port 81"
run curl_container $container /data --header "Host: web2.bats"
assert_output "answer from port 82"
# Querying the proxy with unknown Host header → 503
run curl_container $container /data --header "Host: webFOO.bats" --head
assert_output -l 0 $'HTTP/1.1 503 Service Temporarily Unavailable\r'
}

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bats lib
========
found on https://github.com/sstephenson/bats/pull/110
When that pull request will be merged, that lib won't be necessary anymore.

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#
# batslib.bash
# ------------
#
# The Standard Library is a collection of test helpers intended to
# simplify testing. It contains the following types of test helpers.
#
# - Assertions are functions that perform a test and output relevant
# information on failure to help debugging. They return 1 on failure
# and 0 otherwise.
#
# All output is formatted for readability using the functions of
# `output.bash' and sent to the standard error.
#
source "${BATS_LIB}/batslib/output.bash"
########################################################################
# ASSERTIONS
########################################################################
# Fail and display a message. When no parameters are specified, the
# message is read from the standard input. Other functions use this to
# report failure.
#
# Globals:
# none
# Arguments:
# $@ - [=STDIN] message
# Returns:
# 1 - always
# Inputs:
# STDIN - [=$@] message
# Outputs:
# STDERR - message
fail() {
(( $# == 0 )) && batslib_err || batslib_err "$@"
return 1
}
# Fail and display details if the expression evaluates to false. Details
# include the expression, `$status' and `$output'.
#
# NOTE: The expression must be a simple command. Compound commands, such
# as `[[', can be used only when executed with `bash -c'.
#
# Globals:
# status
# output
# Arguments:
# $1 - expression
# Returns:
# 0 - expression evaluates to TRUE
# 1 - otherwise
# Outputs:
# STDERR - details, on failure
assert() {
if ! "$@"; then
{ local -ar single=(
'expression' "$*"
'status' "$status"
)
local -ar may_be_multi=(
'output' "$output"
)
local -ir width="$( batslib_get_max_single_line_key_width \
"${single[@]}" "${may_be_multi[@]}" )"
batslib_print_kv_single "$width" "${single[@]}"
batslib_print_kv_single_or_multi "$width" "${may_be_multi[@]}"
} | batslib_decorate 'assertion failed' \
| fail
fi
}
# Fail and display details if the expected and actual values do not
# equal. Details include both values.
#
# Globals:
# none
# Arguments:
# $1 - actual value
# $2 - expected value
# Returns:
# 0 - values equal
# 1 - otherwise
# Outputs:
# STDERR - details, on failure
assert_equal() {
if [[ $1 != "$2" ]]; then
batslib_print_kv_single_or_multi 8 \
'expected' "$2" \
'actual' "$1" \
| batslib_decorate 'values do not equal' \
| fail
fi
}
# Fail and display details if `$status' is not 0. Details include
# `$status' and `$output'.
#
# Globals:
# status
# output
# Arguments:
# none
# Returns:
# 0 - `$status' is 0
# 1 - otherwise
# Outputs:
# STDERR - details, on failure
assert_success() {
if (( status != 0 )); then
{ local -ir width=6
batslib_print_kv_single "$width" 'status' "$status"
batslib_print_kv_single_or_multi "$width" 'output' "$output"
} | batslib_decorate 'command failed' \
| fail
fi
}
# Fail and display details if `$status' is 0. Details include `$output'.
#
# Optionally, when the expected status is specified, fail when it does
# not equal `$status'. In this case, details include the expected and
# actual status, and `$output'.
#
# Globals:
# status
# output
# Arguments:
# $1 - [opt] expected status
# Returns:
# 0 - `$status' is not 0, or
# `$status' equals the expected status
# 1 - otherwise
# Outputs:
# STDERR - details, on failure
assert_failure() {
(( $# > 0 )) && local -r expected="$1"
if (( status == 0 )); then
batslib_print_kv_single_or_multi 6 'output' "$output" \
| batslib_decorate 'command succeeded, but it was expected to fail' \
| fail
elif (( $# > 0 )) && (( status != expected )); then
{ local -ir width=8
batslib_print_kv_single "$width" \
'expected' "$expected" \
'actual' "$status"
batslib_print_kv_single_or_multi "$width" \
'output' "$output"
} | batslib_decorate 'command failed as expected, but status differs' \
| fail
fi
}
# Fail and display details if the expected does not match the actual
# output or a fragment of it.
#
# By default, the entire output is matched. The assertion fails if the
# expected output does not equal `$output'. Details include both values.
#
# When `-l <index>' is used, only the <index>-th line is matched. The
# assertion fails if the expected line does not equal
# `${lines[<index>}'. Details include the compared lines and <index>.
#
# When `-l' is used without the <index> argument, the output is searched
# for the expected line. The expected line is matched against each line
# in `${lines[@]}'. If no match is found the assertion fails. Details
# include the expected line and `$output'.
#
# By default, literal matching is performed. Options `-p' and `-r'
# enable partial (i.e. substring) and extended regular expression
# matching, respectively. Specifying an invalid extended regular
# expression with `-r' displays an error.
#
# Options `-p' and `-r' are mutually exclusive. When used
# simultaneously, an error is displayed.
#
# Globals:
# output
# lines
# Options:
# -l <index> - match against the <index>-th element of `${lines[@]}'
# -l - search `${lines[@]}' for the expected line
# -p - partial matching
# -r - extended regular expression matching
# Arguments:
# $1 - expected output
# Returns:
# 0 - expected matches the actual output
# 1 - otherwise
# Outputs:
# STDERR - details, on failure
# error message, on error
assert_output() {
local -i is_match_line=0
local -i is_match_contained=0
local -i is_mode_partial=0
local -i is_mode_regex=0
# Handle options.
while (( $# > 0 )); do
case "$1" in
-l)
if (( $# > 2 )) && [[ $2 =~ ^([0-9]|[1-9][0-9]+)$ ]]; then
is_match_line=1
local -ri idx="$2"
shift
else
is_match_contained=1;
fi
shift
;;
-p) is_mode_partial=1; shift ;;
-r) is_mode_regex=1; shift ;;
--) break ;;
*) break ;;
esac
done
if (( is_match_line )) && (( is_match_contained )); then
echo "\`-l' and \`-l <index>' are mutually exclusive" \
| batslib_decorate 'ERROR: assert_output' \
| fail
return $?
fi
if (( is_mode_partial )) && (( is_mode_regex )); then
echo "\`-p' and \`-r' are mutually exclusive" \
| batslib_decorate 'ERROR: assert_output' \
| fail
return $?
fi
# Arguments.
local -r expected="$1"
if (( is_mode_regex == 1 )) && [[ '' =~ $expected ]] || (( $? == 2 )); then
echo "Invalid extended regular expression: \`$expected'" \
| batslib_decorate 'ERROR: assert_output' \
| fail
return $?
fi
# Matching.
if (( is_match_contained )); then
# Line contained in output.
if (( is_mode_regex )); then
local -i idx
for (( idx = 0; idx < ${#lines[@]}; ++idx )); do
[[ ${lines[$idx]} =~ $expected ]] && return 0
done
{ local -ar single=(
'regex' "$expected"
)
local -ar may_be_multi=(
'output' "$output"
)
local -ir width="$( batslib_get_max_single_line_key_width \
"${single[@]}" "${may_be_multi[@]}" )"
batslib_print_kv_single "$width" "${single[@]}"
batslib_print_kv_single_or_multi "$width" "${may_be_multi[@]}"
} | batslib_decorate 'no output line matches regular expression' \
| fail
elif (( is_mode_partial )); then
local -i idx
for (( idx = 0; idx < ${#lines[@]}; ++idx )); do
[[ ${lines[$idx]} == *"$expected"* ]] && return 0
done
{ local -ar single=(
'substring' "$expected"
)
local -ar may_be_multi=(
'output' "$output"
)
local -ir width="$( batslib_get_max_single_line_key_width \
"${single[@]}" "${may_be_multi[@]}" )"
batslib_print_kv_single "$width" "${single[@]}"
batslib_print_kv_single_or_multi "$width" "${may_be_multi[@]}"
} | batslib_decorate 'no output line contains substring' \
| fail
else
local -i idx
for (( idx = 0; idx < ${#lines[@]}; ++idx )); do
[[ ${lines[$idx]} == "$expected" ]] && return 0
done
{ local -ar single=(
'line' "$expected"
)
local -ar may_be_multi=(
'output' "$output"
)
local -ir width="$( batslib_get_max_single_line_key_width \
"${single[@]}" "${may_be_multi[@]}" )"
batslib_print_kv_single "$width" "${single[@]}"
batslib_print_kv_single_or_multi "$width" "${may_be_multi[@]}"
} | batslib_decorate 'output does not contain line' \
| fail
fi
elif (( is_match_line )); then
# Specific line.
if (( is_mode_regex )); then
if ! [[ ${lines[$idx]} =~ $expected ]]; then
batslib_print_kv_single 5 \
'index' "$idx" \
'regex' "$expected" \
'line' "${lines[$idx]}" \
| batslib_decorate 'regular expression does not match line' \
| fail
fi
elif (( is_mode_partial )); then
if [[ ${lines[$idx]} != *"$expected"* ]]; then
batslib_print_kv_single 9 \
'index' "$idx" \
'substring' "$expected" \
'line' "${lines[$idx]}" \
| batslib_decorate 'line does not contain substring' \
| fail
fi
else
if [[ ${lines[$idx]} != "$expected" ]]; then
batslib_print_kv_single 8 \
'index' "$idx" \
'expected' "$expected" \
'actual' "${lines[$idx]}" \
| batslib_decorate 'line differs' \
| fail
fi
fi
else
# Entire output.
if (( is_mode_regex )); then
if ! [[ $output =~ $expected ]]; then
batslib_print_kv_single_or_multi 6 \
'regex' "$expected" \
'output' "$output" \
| batslib_decorate 'regular expression does not match output' \
| fail
fi
elif (( is_mode_partial )); then
if [[ $output != *"$expected"* ]]; then
batslib_print_kv_single_or_multi 9 \
'substring' "$expected" \
'output' "$output" \
| batslib_decorate 'output does not contain substring' \
| fail
fi
else
if [[ $output != "$expected" ]]; then
batslib_print_kv_single_or_multi 8 \
'expected' "$expected" \
'actual' "$output" \
| batslib_decorate 'output differs' \
| fail
fi
fi
fi
}
# Fail and display details if the unexpected matches the actual output
# or a fragment of it.
#
# By default, the entire output is matched. The assertion fails if the
# unexpected output equals `$output'. Details include `$output'.
#
# When `-l <index>' is used, only the <index>-th line is matched. The
# assertion fails if the unexpected line equals `${lines[<index>}'.
# Details include the compared line and <index>.
#
# When `-l' is used without the <index> argument, the output is searched
# for the unexpected line. The unexpected line is matched against each
# line in `${lines[<index>]}'. If a match is found the assertion fails.
# Details include the unexpected line, the index where it was found and
# `$output' (with the unexpected line highlighted in it if `$output` is
# longer than one line).
#
# By default, literal matching is performed. Options `-p' and `-r'
# enable partial (i.e. substring) and extended regular expression
# matching, respectively. On failure, the substring or the regular
# expression is added to the details (if not already displayed).
# Specifying an invalid extended regular expression with `-r' displays
# an error.
#
# Options `-p' and `-r' are mutually exclusive. When used
# simultaneously, an error is displayed.
#
# Globals:
# output
# lines
# Options:
# -l <index> - match against the <index>-th element of `${lines[@]}'
# -l - search `${lines[@]}' for the unexpected line
# -p - partial matching
# -r - extended regular expression matching
# Arguments:
# $1 - unexpected output
# Returns:
# 0 - unexpected matches the actual output
# 1 - otherwise
# Outputs:
# STDERR - details, on failure
# error message, on error
refute_output() {
local -i is_match_line=0
local -i is_match_contained=0
local -i is_mode_partial=0
local -i is_mode_regex=0
# Handle options.
while (( $# > 0 )); do
case "$1" in
-l)
if (( $# > 2 )) && [[ $2 =~ ^([0-9]|[1-9][0-9]+)$ ]]; then
is_match_line=1
local -ri idx="$2"
shift
else
is_match_contained=1;
fi
shift
;;
-L) is_match_contained=1; shift ;;
-p) is_mode_partial=1; shift ;;
-r) is_mode_regex=1; shift ;;
--) break ;;
*) break ;;
esac
done
if (( is_match_line )) && (( is_match_contained )); then
echo "\`-l' and \`-l <index>' are mutually exclusive" \
| batslib_decorate 'ERROR: refute_output' \
| fail
return $?
fi
if (( is_mode_partial )) && (( is_mode_regex )); then
echo "\`-p' and \`-r' are mutually exclusive" \
| batslib_decorate 'ERROR: refute_output' \
| fail
return $?
fi
# Arguments.
local -r unexpected="$1"
if (( is_mode_regex == 1 )) && [[ '' =~ $unexpected ]] || (( $? == 2 )); then
echo "Invalid extended regular expression: \`$unexpected'" \
| batslib_decorate 'ERROR: refute_output' \
| fail
return $?
fi
# Matching.
if (( is_match_contained )); then
# Line contained in output.
if (( is_mode_regex )); then
local -i idx
for (( idx = 0; idx < ${#lines[@]}; ++idx )); do
if [[ ${lines[$idx]} =~ $unexpected ]]; then
{ local -ar single=(
'regex' "$unexpected"
'index' "$idx"
)
local -a may_be_multi=(
'output' "$output"
)
local -ir width="$( batslib_get_max_single_line_key_width \
"${single[@]}" "${may_be_multi[@]}" )"
batslib_print_kv_single "$width" "${single[@]}"
if batslib_is_single_line "${may_be_multi[1]}"; then
batslib_print_kv_single "$width" "${may_be_multi[@]}"
else
may_be_multi[1]="$( printf '%s' "${may_be_multi[1]}" \
| batslib_prefix \
| batslib_mark '>' "$idx" )"
batslib_print_kv_multi "${may_be_multi[@]}"
fi
} | batslib_decorate 'no line should match the regular expression' \
| fail
return $?
fi
done
elif (( is_mode_partial )); then
local -i idx
for (( idx = 0; idx < ${#lines[@]}; ++idx )); do
if [[ ${lines[$idx]} == *"$unexpected"* ]]; then
{ local -ar single=(
'substring' "$unexpected"
'index' "$idx"
)
local -a may_be_multi=(
'output' "$output"
)
local -ir width="$( batslib_get_max_single_line_key_width \
"${single[@]}" "${may_be_multi[@]}" )"
batslib_print_kv_single "$width" "${single[@]}"
if batslib_is_single_line "${may_be_multi[1]}"; then
batslib_print_kv_single "$width" "${may_be_multi[@]}"
else
may_be_multi[1]="$( printf '%s' "${may_be_multi[1]}" \
| batslib_prefix \
| batslib_mark '>' "$idx" )"
batslib_print_kv_multi "${may_be_multi[@]}"
fi
} | batslib_decorate 'no line should contain substring' \
| fail
return $?
fi
done
else
local -i idx
for (( idx = 0; idx < ${#lines[@]}; ++idx )); do
if [[ ${lines[$idx]} == "$unexpected" ]]; then
{ local -ar single=(
'line' "$unexpected"
'index' "$idx"
)
local -a may_be_multi=(
'output' "$output"
)
local -ir width="$( batslib_get_max_single_line_key_width \
"${single[@]}" "${may_be_multi[@]}" )"
batslib_print_kv_single "$width" "${single[@]}"
if batslib_is_single_line "${may_be_multi[1]}"; then
batslib_print_kv_single "$width" "${may_be_multi[@]}"
else
may_be_multi[1]="$( printf '%s' "${may_be_multi[1]}" \
| batslib_prefix \
| batslib_mark '>' "$idx" )"
batslib_print_kv_multi "${may_be_multi[@]}"
fi
} | batslib_decorate 'line should not be in output' \
| fail
return $?
fi
done
fi
elif (( is_match_line )); then
# Specific line.
if (( is_mode_regex )); then
if [[ ${lines[$idx]} =~ $unexpected ]] || (( $? == 0 )); then
batslib_print_kv_single 5 \
'index' "$idx" \
'regex' "$unexpected" \
'line' "${lines[$idx]}" \
| batslib_decorate 'regular expression should not match line' \
| fail
fi
elif (( is_mode_partial )); then
if [[ ${lines[$idx]} == *"$unexpected"* ]]; then
batslib_print_kv_single 9 \
'index' "$idx" \
'substring' "$unexpected" \
'line' "${lines[$idx]}" \
| batslib_decorate 'line should not contain substring' \
| fail
fi
else
if [[ ${lines[$idx]} == "$unexpected" ]]; then
batslib_print_kv_single 5 \
'index' "$idx" \
'line' "${lines[$idx]}" \
| batslib_decorate 'line should differ' \
| fail
fi
fi
else
# Entire output.
if (( is_mode_regex )); then
if [[ $output =~ $unexpected ]] || (( $? == 0 )); then
batslib_print_kv_single_or_multi 6 \
'regex' "$unexpected" \
'output' "$output" \
| batslib_decorate 'regular expression should not match output' \
| fail
fi
elif (( is_mode_partial )); then
if [[ $output == *"$unexpected"* ]]; then
batslib_print_kv_single_or_multi 9 \
'substring' "$unexpected" \
'output' "$output" \
| batslib_decorate 'output should not contain substring' \
| fail
fi
else
if [[ $output == "$unexpected" ]]; then
batslib_print_kv_single_or_multi 6 \
'output' "$output" \
| batslib_decorate 'output equals, but it was expected to differ' \
| fail
fi
fi
fi
}

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#
# output.bash
# -----------
#
# Private functions implementing output formatting. Used by public
# helper functions.
#
# Print a message to the standard error. When no parameters are
# specified, the message is read from the standard input.
#
# Globals:
# none
# Arguments:
# $@ - [=STDIN] message
# Returns:
# none
# Inputs:
# STDIN - [=$@] message
# Outputs:
# STDERR - message
batslib_err() {
{ if (( $# > 0 )); then
echo "$@"
else
cat -
fi
} >&2
}
# Count the number of lines in the given string.
#
# TODO(ztombol): Fix tests and remove this note after #93 is resolved!
# NOTE: Due to a bug in Bats, `batslib_count_lines "$output"' does not
# give the same result as `${#lines[@]}' when the output contains
# empty lines.
# See PR #93 (https://github.com/sstephenson/bats/pull/93).
#
# Globals:
# none
# Arguments:
# $1 - string
# Returns:
# none
# Outputs:
# STDOUT - number of lines
batslib_count_lines() {
local -i n_lines=0
local line
while IFS='' read -r line || [[ -n $line ]]; do
(( ++n_lines ))
done < <(printf '%s' "$1")
echo "$n_lines"
}
# Determine whether all strings are single-line.
#
# Globals:
# none
# Arguments:
# $@ - strings
# Returns:
# 0 - all strings are single-line
# 1 - otherwise
batslib_is_single_line() {
for string in "$@"; do
(( $(batslib_count_lines "$string") > 1 )) && return 1
done
return 0
}
# Determine the length of the longest key that has a single-line value.
#
# This function is useful in determining the correct width of the key
# column in two-column format when some keys may have multi-line values
# and thus should be excluded.
#
# Globals:
# none
# Arguments:
# $odd - key
# $even - value of the previous key
# Returns:
# none
# Outputs:
# STDOUT - length of longest key
batslib_get_max_single_line_key_width() {
local -i max_len=-1
while (( $# != 0 )); do
local -i key_len="${#1}"
batslib_is_single_line "$2" && (( key_len > max_len )) && max_len="$key_len"
shift 2
done
echo "$max_len"
}
# Print key-value pairs in two-column format.
#
# Keys are displayed in the first column, and their corresponding values
# in the second. To evenly line up values, the key column is fixed-width
# and its width is specified with the first parameter (possibly computed
# using `batslib_get_max_single_line_key_width').
#
# Globals:
# none
# Arguments:
# $1 - width of key column
# $even - key
# $odd - value of the previous key
# Returns:
# none
# Outputs:
# STDOUT - formatted key-value pairs
batslib_print_kv_single() {
local -ir col_width="$1"; shift
while (( $# != 0 )); do
printf '%-*s : %s\n' "$col_width" "$1" "$2"
shift 2
done
}
# Print key-value pairs in multi-line format.
#
# The key is displayed first with the number of lines of its
# corresponding value in parenthesis. Next, starting on the next line,
# the value is displayed. For better readability, it is recommended to
# indent values using `batslib_prefix'.
#
# Globals:
# none
# Arguments:
# $odd - key
# $even - value of the previous key
# Returns:
# none
# Outputs:
# STDOUT - formatted key-value pairs
batslib_print_kv_multi() {
while (( $# != 0 )); do
printf '%s (%d lines):\n' "$1" "$( batslib_count_lines "$2" )"
printf '%s\n' "$2"
shift 2
done
}
# Print all key-value pairs in either two-column or multi-line format
# depending on whether all values are single-line.
#
# If all values are single-line, print all pairs in two-column format
# with the specified key column width (identical to using
# `batslib_print_kv_single').
#
# Otherwise, print all pairs in multi-line format after indenting values
# with two spaces for readability (identical to using `batslib_prefix'
# and `batslib_print_kv_multi')
#
# Globals:
# none
# Arguments:
# $1 - width of key column (for two-column format)
# $even - key
# $odd - value of the previous key
# Returns:
# none
# Outputs:
# STDOUT - formatted key-value pairs
batslib_print_kv_single_or_multi() {
local -ir width="$1"; shift
local -a pairs=( "$@" )
local -a values=()
local -i i
for (( i=1; i < ${#pairs[@]}; i+=2 )); do
values+=( "${pairs[$i]}" )
done
if batslib_is_single_line "${values[@]}"; then
batslib_print_kv_single "$width" "${pairs[@]}"
else
local -i i
for (( i=1; i < ${#pairs[@]}; i+=2 )); do
pairs[$i]="$( batslib_prefix < <(printf '%s' "${pairs[$i]}") )"
done
batslib_print_kv_multi "${pairs[@]}"
fi
}
# Prefix each line read from the standard input with the given string.
#
# Globals:
# none
# Arguments:
# $1 - [= ] prefix string
# Returns:
# none
# Inputs:
# STDIN - lines
# Outputs:
# STDOUT - prefixed lines
batslib_prefix() {
local -r prefix="${1:- }"
local line
while IFS='' read -r line || [[ -n $line ]]; do
printf '%s%s\n' "$prefix" "$line"
done
}
# Mark select lines of the text read from the standard input by
# overwriting their beginning with the given string.
#
# Usually the input is indented by a few spaces using `batslib_prefix'
# first.
#
# Globals:
# none
# Arguments:
# $1 - marking string
# $@ - indices (zero-based) of lines to mark
# Returns:
# none
# Inputs:
# STDIN - lines
# Outputs:
# STDOUT - lines after marking
batslib_mark() {
local -r symbol="$1"; shift
# Sort line numbers.
set -- $( sort -nu <<< "$( printf '%d\n' "$@" )" )
local line
local -i idx=0
while IFS='' read -r line || [[ -n $line ]]; do
if (( ${1:--1} == idx )); then
printf '%s\n' "${symbol}${line:${#symbol}}"
shift
else
printf '%s\n' "$line"
fi
(( ++idx ))
done
}
# Enclose the input text in header and footer lines.
#
# The header contains the given string as title. The output is preceded
# and followed by an additional newline to make it stand out more.
#
# Globals:
# none
# Arguments:
# $1 - title
# Returns:
# none
# Inputs:
# STDIN - text
# Outputs:
# STDOUT - decorated text
batslib_decorate() {
echo
echo "-- $1 --"
cat -
echo '--'
echo
}

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## functions to help deal with docker
# Removes container $1
function docker_clean {
docker kill $1 &>/dev/null ||:
sleep .25s
docker rm -vf $1 &>/dev/null ||:
sleep .25s
}
# get the ip of docker container $1
function docker_ip {
docker inspect --format '{{ .NetworkSettings.IPAddress }}' $1
}
# get the running state of container $1
# → true/false
# fails if the container does not exist
function docker_running_state {
docker inspect -f {{.State.Running}} $1
}
# get the docker container $1 PID
function docker_pid {
docker inspect --format {{.State.Pid}} $1
}
# asserts logs from container $1 contains $2
function docker_assert_log {
local -r container=$1
shift
run docker logs $container
assert_output -p "$*"
}
# wait for container $2 to contain a given text in its log
# $1 container
# $2 timeout in second
# $* text to wait for
function docker_wait_for_log {
local -r container=$1
shift
local -ir timeout_sec=$1
shift
retry $(( $timeout_sec * 2 )) .5s docker_assert_log $container "$*"
}
# Create a docker container named $1 which exposes the docker host unix
# socket over tcp on port 2375.
#
# $1 container name
function docker_tcp {
local container_name="$1"
docker_clean $container_name
docker run -d \
--name $container_name \
--expose 2375 \
-v /var/run/docker.sock:/var/run/docker.sock \
rancher/socat-docker
docker -H tcp://$(docker_ip $container_name):2375 version
}

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## add the retry function to bats
# Retry a command $1 times until it succeeds. Wait $2 seconds between retries.
function retry {
local attempts=$1
shift
local delay=$1
shift
local i
for ((i=0; i < attempts; i++)); do
run "$@"
if [ "$status" -eq 0 ]; then
echo "$output"
return 0
fi
sleep $delay
done
echo "Command \"$@\" failed $attempts times. Status: $status. Output: $output" >&2
false
}

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#!/usr/bin/env bats
load test_helpers
SUT_CONTAINER=bats-nginx-proxy-${TEST_FILE}
function setup {
# make sure to stop any web container before each test so we don't
# have any unexpected contaiener running with VIRTUAL_HOST or VIRUTAL_PORT set
docker ps -q --filter "label=bats-type=web" | xargs -r docker stop >&2
}
@test "[$TEST_FILE] start a nginx-proxy container" {
run nginxproxy $SUT_CONTAINER -v /var/run/docker.sock:/tmp/docker.sock:ro
assert_success
docker_wait_for_log $SUT_CONTAINER 3 "Watching docker events"
}
@test "[$TEST_FILE] nginx-proxy forwards requests for 2 hosts" {
# WHEN a container runs a web server with VIRTUAL_HOST set for multiple hosts
docker_clean bats-multiple-hosts-1
run docker run -d \
--label bats-type="web" \
--name bats-multiple-hosts-1 \
-e VIRTUAL_HOST=multiple-hosts-1-A.bats,multiple-hosts-1-B.bats \
--expose 80 \
-w /data \
python:3 python -m http.server 80
assert_success
run retry 5 1s curl_container bats-multiple-hosts-1 / --head
assert_output -l 0 $'HTTP/1.0 200 OK\r'
# THEN querying the proxy without Host header → 503
run curl_container $SUT_CONTAINER / --head
assert_output -l 0 $'HTTP/1.1 503 Service Temporarily Unavailable\r'
# THEN querying the proxy with unknown Host header → 503
run curl_container $SUT_CONTAINER /data --header "Host: webFOO.bats" --head
assert_output -l 0 $'HTTP/1.1 503 Service Temporarily Unavailable\r'
# THEN
run curl_container $SUT_CONTAINER / --head --header 'Host: multiple-hosts-1-A.bats'
assert_output -l 0 $'HTTP/1.1 200 OK\r' || (echo $output; echo $status; false)
# THEN
run curl_container $SUT_CONTAINER / --head --header 'Host: multiple-hosts-1-B.bats'
assert_output -l 0 $'HTTP/1.1 200 OK\r'
}

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#!/usr/bin/env bats
load test_helpers
SUT_CONTAINER=bats-nginx-proxy-${TEST_FILE}
function setup {
# make sure to stop any web container before each test so we don't
# have any unexpected contaiener running with VIRTUAL_HOST or VIRUTAL_PORT set
docker ps -q --filter "label=bats-type=web" | xargs -r docker stop >&2
}
@test "[$TEST_FILE] start a nginx-proxy container" {
# GIVEN nginx-proxy
run nginxproxy $SUT_CONTAINER -v /var/run/docker.sock:/tmp/docker.sock:ro
assert_success
docker_wait_for_log $SUT_CONTAINER 3 "Watching docker events"
}
@test "[$TEST_FILE] nginx-proxy defaults to the service running on port 80" {
# WHEN
prepare_web_container bats-web-${TEST_FILE}-1 "80 90" -e VIRTUAL_HOST=web.bats
# THEN
assert_response_is_from_port 80
}
@test "[$TEST_FILE] VIRTUAL_PORT=90 while port 80 is also exposed" {
# GIVEN
prepare_web_container bats-web-${TEST_FILE}-2 "80 90" -e VIRTUAL_HOST=web.bats -e VIRTUAL_PORT=90
# THEN
assert_response_is_from_port 90
}
@test "[$TEST_FILE] single exposed port != 80" {
# GIVEN
prepare_web_container bats-web-${TEST_FILE}-3 1234 -e VIRTUAL_HOST=web.bats
# THEN
assert_response_is_from_port 1234
}
# assert querying nginx-proxy provides a response from the expected port of the web container
# $1 port we are expecting an response from
function assert_response_is_from_port {
local -r port=$1
run curl_container $SUT_CONTAINER /data --header "Host: web.bats"
assert_output "answer from port $port"
}

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# Test if requirements are met
(
type docker &>/dev/null || ( echo "docker is not available"; exit 1 )
type curl &>/dev/null || ( echo "curl is not available"; exit 1 )
)>&2
# set a few global variables
SUT_IMAGE=jwilder/nginx-proxy:bats
TEST_FILE=$(basename $BATS_TEST_FILENAME .bats)
# load the Bats stdlib (see https://github.com/sstephenson/bats/pull/110)
DIR=$( cd "$( dirname "${BASH_SOURCE[0]}" )" && pwd )
export BATS_LIB="${DIR}/lib/bats"
load "${BATS_LIB}/batslib.bash"
# load additional bats helpers
load ${DIR}/lib/helpers.bash
load ${DIR}/lib/docker_helpers.bash
# Define functions specific to our test suite
# run the SUT docker container
# and makes sure it remains started
# and displays the nginx-proxy start logs
#
# $1 container name
# $@ other options for the `docker run` command
function nginxproxy {
local -r container_name=$1
shift
docker_clean $container_name \
&& docker run -d \
--name $container_name \
"$@" \
$SUT_IMAGE \
&& wait_for_nginxproxy_container_to_start $container_name \
&& docker logs $container_name
}
# wait until the nginx-proxy container is ready to operate
#
# $1 container name
function wait_for_nginxproxy_container_to_start {
local -r container_name=$1
sleep .5s # give time to eventually fail to initialize
function is_running {
run docker_running_state $container_name
assert_output "true"
}
retry 3 1 is_running
}
# Send a HTTP request to container $1 for path $2 and
# Additional curl options can be passed as $@
#
# $1 container name
# $2 HTTP path to query
# $@ additional options to pass to the curl command
function curl_container {
local -r container=$1
local -r path=$2
shift 2
curl --silent \
--connect-timeout 5 \
--max-time 20 \
"$@" \
http://$(docker_ip $container)${path}
}
# start a container running (one or multiple) webservers listening on given ports
#
# $1 container name
# $2 container port(s). If multiple ports, provide them as a string: "80 90" with a space as a separator
# $@ `docker run` additional options
function prepare_web_container {
local -r container_name=$1
local -r ports=$2
shift 2
local -r options="$@"
local expose_option=""
for port in $ports; do
expose_option="${expose_option}--expose=$port "
done
( # used for debugging purpose. Will be display if test fails
echo "container_name: $container_name"
echo "ports: $ports"
echo "options: $options"
echo "expose_option: $expose_option"
)>&2
docker_clean $container_name
# GIVEN a container exposing 1 webserver on ports 1234
run docker run -d \
--label bats-type="web" \
--name $container_name \
$expose_option \
-w /var/www/ \
$options \
-e PYTHON_PORTS="$ports" \
python:3 sh -c "
for port in \$PYTHON_PORTS; do
echo starting a web server listening on port \$port;
mkdir /var/www/\$port
cd /var/www/\$port
echo \"answer from port \$port\" > data
python -m http.server \$port &
done
wait
"
assert_success
# THEN querying directly port works
for port in $ports; do
run retry 5 1s curl --silent --fail http://$(docker_ip $container_name):$port/data
assert_output "answer from port $port"
done
}

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#!/usr/bin/env bats
load test_helpers
SUT_CONTAINER=bats-nginx-proxy-${TEST_FILE}
function setup {
# make sure to stop any web container before each test so we don't
# have any unexpected contaiener running with VIRTUAL_HOST or VIRUTAL_PORT set
docker ps -q --filter "label=bats-type=web" | xargs -r docker stop >&2
}
@test "[$TEST_FILE] start a nginx-proxy container" {
# GIVEN
run nginxproxy $SUT_CONTAINER -v /var/run/docker.sock:/tmp/docker.sock:ro
assert_success
docker_wait_for_log $SUT_CONTAINER 3 "Watching docker events"
}
@test "[$TEST_FILE] VIRTUAL_HOST=*.wildcard.bats" {
# WHEN
prepare_web_container bats-wildcard-hosts-1 80 -e VIRTUAL_HOST=*.wildcard.bats
# THEN
assert_200 f00.wildcard.bats
assert_200 bar.wildcard.bats
assert_503 unexpected.host.bats
}
@test "[$TEST_FILE] VIRTUAL_HOST=wildcard.bats.*" {
# WHEN
prepare_web_container bats-wildcard-hosts-2 80 -e VIRTUAL_HOST=wildcard.bats.*
# THEN
assert_200 wildcard.bats.f00
assert_200 wildcard.bats.bar
assert_503 unexpected.host.bats
}
@test "[$TEST_FILE] VIRTUAL_HOST=~^foo\.bar\..*\.bats" {
# WHEN
prepare_web_container bats-wildcard-hosts-2 80 -e VIRTUAL_HOST=~^foo\.bar\..*\.bats
# THEN
assert_200 foo.bar.whatever.bats
assert_200 foo.bar.why.not.bats
assert_503 unexpected.host.bats
}
# assert that querying nginx-proxy with the given Host header produces a `HTTP 200` response
# $1 Host HTTP header to use when querying nginx-proxy
function assert_200 {
local -r host=$1
run curl_container $SUT_CONTAINER / --head --header "Host: $host"
assert_output -l 0 $'HTTP/1.1 200 OK\r'
}
# assert that querying nginx-proxy with the given Host header produces a `HTTP 503` response
# $1 Host HTTP header to use when querying nginx-proxy
function assert_503 {
local -r host=$1
run curl_container $SUT_CONTAINER / --head --header "Host: $host"
assert_output -l 0 $'HTTP/1.1 503 Service Temporarily Unavailable\r'
}