StackExchange / httpunit

httpUnit tests compliance of web and net servers with desired output.
https://godoc.org/github.com/StackExchange/httpunit
MIT License
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httpUnit

httpUnit tests web and net servers for basic functionality.

The tool can open an http/https connection and verify that the expected status code is received. It can also verify that the resulting HTML output contains a string or regular expression. It can direct the request to a particular IP address, ignoring DNS (similar to curl --resolve). The tool can also open a TCP connection and verify that the connection was completed. For https connections it will output various TLS-related information.

Tests can be input three ways:

When specifying a single test on the command line, the only tests performed are status code, and regex. If the URL does not contain a scheme ("https://", "http://"), "http://" is prefixed. The IP may be an empty string to indicate all IP addresses resolved to from the URL's hostname.

Usage:

httpUnit [flag] [-hiera="path/to/sets.json"] [-toml="/path/to/httpunit.toml"] [url] [ip] [code] [regex]

The flags are:

-filter=""
    if specified, only uses this IP address; may end with "." to
    filter by IPs that start with the filter
-no10=false
    no RFC1918 addresses
-timeout="3s"
    connection timeout
-tags=""
        if specified, only runs plans that are tagged with one of the
    tags specified. You can specify more than one tag, seperated by commas
-protos=""
    if specified, only runs plans where the URL contains the given
    protocol. Valid protocols are: http,https,tcp,tcp4,tcp6,udp,udp4,udp6,ip,ip4,ip6
    You can specify more than one protocol, seperated by commas
-header="X-Request-Guid"
    in more verbose mode, print this HTTP header
-v
    verbose output: show successes
-vv
    more verbose output: show -header, cert details

URLs

URLs may be specified with various protocols: http, https, tcp, udp, ip. "4" or "6" may be appended to tcp, udp, and ip (as per net/#Dial). tcp and udp must specify a port, or default to 0. http and https may specify a port to override the default.

TOML

The toml file has two sections: Plan is a list of test plans. IPs are a table of search and replace regexes.

Each [[plan]] lists:

The test plan is run once for each item in the ips list, or more if macros are in effect.

In the ips list, * will be substituted by all the A and AAAA records returned when DNS is performed on the hostname of the URL.

The [[IPs]] section is for defining macros. Here are some typical use-cases:

Specify a value n to mean "10.0.0.n". This may save you a lot of typing in a big configuration file:

'^(\d+)$' = ["10.0.0.$1"]

Similar to the previous example, but specify a base address:

BASEIP = ["10.0.0."]
'^(\d+)$' = ["BASEIP$1"]

Specify a value n to mean the 16th IP address in many CIDR bocks:

'^(\d+)$' = ["10.0.0.$1", "10.1.1.$1", "10.2.2.$1", "10.3.3.$1", "10.4.4.$1"]

Specify a value nINT to mean .n and .n+64, plus whatever DNS returns:

BASEIP = ["10.0.0."]
'^(\d+)$' = ["BASEIP$1", "BASEIP($1+64)", "*"]

Why we made this?

This tool makes it easy to do test-driven development on your web server.

Every request to our web server passes through three systems that are all complex and error prone: the firewall, the load balancer, and the web server itself. Even when running in a test environment with automated tools that generate the configurations we still needed a way to test our results.

Before this tool each change was followed by a few simple manual tests, often by manually typing curl commands. We missed a lot of errors.

With this tool, we now have hundreds of tests that we can run with a single command. The tests run in parallel therefore all the testing is done very quickly.

When we need to make a change we first add the test, then we proceed making the change until the test passes. This test-driven development has accumulated 200 tests that we run for any change, considerably more than we'd ever run manually. This improves confidence in our ability to make changes quickly.

While making unrelated changes we often run it in a loop to make sure we don't unintentionally break anything.

The command-line mode has been useful both in development of changes, and diagnosing outages.

A simple example file:

# Verify that this URL returns text that matches "some regex":
[[plan]]
  label = "api"
  url = "http://api.example.com/"
  text = "API for example.com"
  regex = "some regex"

# Verify that this URL returns a redirect. Send to both
# the IP address listed in DNS, plus 10.11.22.33 and 10.99.88.77.
[[plan]]
  label = "redirect"
  url = "https://example.com/redirect"
  ips = ["*", "10.11.22.33", "10.99.88.77"]
  code = 301

A more complex example file:

In this example we want an IP address to mean the IP address, but if we specify a single number (e.g. "16") we want that to expand to the .16 address of a few different CIDR blocks. We also want to be able to specify a number + INT (e.g. "16INT") to indicate a slightly different list.

[IPs]
  BASEIP = ["87.65.43."]
  '^(\d+)$' = ["*", "BASEIP$1", "BASEIP($1+64)", "1.2.3.$1"]
  '^(\d+)INT$' = ["10.0.1.$1", "10.0.2.$1", "BASEIP$1", "BASEIP($1+64)"]

[[plan]]
  label = "api"
  url = "http://api.example.com/"
  # This will generate the DNS A/AAAA records, 87.65.43.16, 87.65.43.80, 1.2.3.16 and 8.7.6.5:
  ips = ["16", "8.7.6.5"]
  text = "API for example.com"
  regex = "some regex"
  tags = ["apis","example.com"]

[[plan]]
  label = "redirect"
  url = "https://example.com/redirect"
  # This will generate the DNS A/AAAA records, 10.0.1.20, 10.0.2.20, 87.65.43.20, 87.65.43.84:
  ips = ["*", "20INT"]
  code = 301
  tags = ["redirect","example.com"]

[[plan]]
  label = "mail"
  url = "tcp://mail-host.com:25"