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Merge pull request #246 from thomasleveil/fix/197

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add test suite. See #197
This commit is contained in:
Jason Wilder 2015-10-08 22:01:15 -06:00
parent a81bb961e4 92be4b6d54
commit 289a519dce
13 changed files with 1416 additions and 0 deletions
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21
circle.yml Normal file
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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/README.md Normal file
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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
prepare_web_container bats-web 80 -e VIRTUAL_HOST=web.bats
# 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 --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, the `test/lib/bats` 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 a container to produce 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
local -ir timeout_sec=$2
shift 2
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
prepare_web_container bats-multiple-hosts-1 80 -e VIRTUAL_HOST=multiple-hosts-1-A.bats,multiple-hosts-1-B.bats
# 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 /data --header 'Host: multiple-hosts-1-A.bats'
assert_output "answer from port 80"
# THEN
run curl_container $SUT_CONTAINER /data --header 'Host: multiple-hosts-1-B.bats'
assert_output "answer from port 80"
}

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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'
}