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- The curl Test Suite
- 1. Running
- 1.1 Requires to run
- 1.2 Port numbers used by test servers
- 1.3 Test servers
- 1.4 Run
- 1.5 Shell startup scripts
- 1.6 Memory test
- 1.7 Debug
- 1.8 Logs
- 1.9 Test input files
- 1.10 Code coverage
- 1.11 Remote testing
- 2. Numbering
- 2.1 Test case numbering
- 3. Write tests
- 3.1 test data
- 3.2 curl tests
- 3.3 libcurl tests
- 3.4 unit tests
- 4. TODO
- 4.1 More protocols
- 4.2 SOCKS auth
- ==============================================================================
- 1. Running
- 1.1 Requires to run
- perl (and a unix-style shell)
- python (and a unix-style shell)
- diff (when a test fails, a diff is shown)
- stunnel (for HTTPS and FTPS tests)
- OpenSSH or SunSSH (for SCP, SFTP and SOCKS4/5 tests)
- nghttpx (for HTTP/2 tests)
- nroff (for --manual tests)
- 1.2 Port numbers used by test servers
- - TCP/8990 for HTTP
- - TCP/8991 for HTTPS
- - TCP/8992 for FTP
- - TCP/8993 for FTPS
- - TCP/8994 for HTTP IPv6
- - TCP/8995 for FTP (2)
- - TCP/8996 for FTP IPv6
- - UDP/8997 for TFTP
- - UDP/8998 for TFTP IPv6
- - TCP/8999 for SCP/SFTP
- - TCP/9000 for SOCKS
- - TCP/9001 for POP3
- - TCP/9002 for POP3 IPv6
- - TCP/9003 for IMAP
- - TCP/9004 for IMAP IPv6
- - TCP/9005 for SMTP
- - TCP/9006 for SMTP IPv6
- - TCP/9007 for RTSP
- - TCP/9008 for RTSP IPv6
- - TCP/9009 for GOPHER
- - TCP/9010 for GOPHER IPv6
- - TCP/9011 for HTTPS server with TLS-SRP support
- - TCP/9012 for HTTPS IPv6 server with TLS-SRP support
- - TCP/9013 for HTTP proxy server for CONNECT
- - TCP/9014 for HTTP pipelining server
- - TCP/9015 for HTTP/2 server
- - TCP/9016 for DICT server
- - TCP/9017 for SMB server
- - TCP/9018 for SMBS server (reserved)
- - TCP/9019 for TELNET server with negotiation support
- 1.3 Test servers
- The test suite runs simple FTP, POP3, IMAP, SMTP, HTTP and TFTP stand-alone
- servers on the ports listed above to which it makes requests. For SSL tests,
- it runs stunnel to handle encryption to the regular servers. For SSH, it
- runs a standard OpenSSH server. For SOCKS4/5 tests SSH is used to perform
- the SOCKS functionality and requires a SSH client and server.
- The base port number (8990), which all the individual port numbers are
- indexed from, can be set explicitly using runtests.pl' -b option to allow
- running more than one instance of the test suite simultaneously on one
- machine, or just move the servers in case you have local services on any of
- those ports.
- The HTTP server supports listening on a Unix domain socket, the default
- location is 'http.sock'.
- 1.4 Run
- './configure && make && make test'. This builds the test suite support code
- and invokes the 'runtests.pl' perl script to run all the tests. Edit the top
- variables of that script in case you have some specific needs, or run the
- script manually (after the support code has been built).
- The script breaks on the first test that doesn't do OK. Use -a to prevent
- the script from aborting on the first error. Run the script with -v for more
- verbose output. Use -d to run the test servers with debug output enabled as
- well. Specifying -k keeps all the log files generated by the test intact.
- Use -s for shorter output, or pass test numbers to run specific tests only
- (like "./runtests.pl 3 4" to test 3 and 4 only). It also supports test case
- ranges with 'to', as in "./runtests 3 to 9" which runs the seven tests from
- 3 to 9. Any test numbers starting with ! are disabled, as are any test
- numbers found in the files data/DISABLED or data/DISABLED.local (one per
- line). The latter is meant for local temporary disables and will be ignored
- by git.
- When -s is not present, each successful test will display on one line the
- test number and description and on the next line a set of flags, the test
- result, current test sequence, total number of tests to be run and an
- estimated amount of time to complete the test run. The flags consist of
- these letters describing what is checked in this test:
- s stdout
- d data
- u upload
- p protocol
- o output
- e exit code
- m memory
- v valgrind
- 1.5 Shell startup scripts
- Tests which use the ssh test server, SCP/SFTP/SOCKS tests, might be badly
- influenced by the output of system wide or user specific shell startup
- scripts, .bashrc, .profile, /etc/csh.cshrc, .login, /etc/bashrc, etc. which
- output text messages or escape sequences on user login. When these shell
- startup messages or escape sequences are output they might corrupt the
- expected stream of data which flows to the sftp-server or from the ssh
- client which can result in bad test behaviour or even prevent the test
- server from running.
- If the test suite ssh or sftp server fails to start up and logs the message
- 'Received message too long' then you are certainly suffering the unwanted
- output of a shell startup script. Locate, cleanup or adjust the shell
- script.
- 1.6 Memory test
- The test script will check that all allocated memory is freed properly IF
- curl has been built with the CURLDEBUG define set. The script will
- automatically detect if that is the case, and it will use the
- 'memanalyze.pl' script to analyze the memory debugging output.
- Also, if you run tests on a machine where valgrind is found, the script will
- use valgrind to run the test with (unless you use -n) to further verify
- correctness.
- runtests.pl's -t option will enable torture testing mode, which runs each
- test many times and makes each different memory allocation fail on each
- successive run. This tests the out of memory error handling code to ensure
- that memory leaks do not occur even in those situations. It can help to
- compile curl with CPPFLAGS=-DMEMDEBUG_LOG_SYNC when using this option, to
- ensure that the memory log file is properly written even if curl crashes.
- 1.7 Debug
- If a test case fails, you can conveniently get the script to invoke the
- debugger (gdb) for you with the server running and the exact same command
- line parameters that failed. Just invoke 'runtests.pl <test number> -g' and
- then just type 'run' in the debugger to perform the command through the
- debugger.
- 1.8 Logs
- All logs are generated in the log/ subdirectory (it is emptied first in the
- runtests.pl script). Use runtests.pl -k to force it to keep the temporary
- files after the test run since successful runs will clean it up otherwise.
- 1.9 Test input files
- All test cases are put in the data/ subdirectory. Each test is stored in the
- file named according to the test number.
- See FILEFORMAT for the description of the test case files.
- 1.10 Code coverage
- gcc provides a tool that can determine the code coverage figures for
- the test suite. To use it, configure curl with
- CFLAGS='-fprofile-arcs -ftest-coverage -g -O0'. Make sure you run the normal
- and torture tests to get more full coverage, i.e. do:
- make test
- make test-torture
- The graphical tool ggcov can be used to browse the source and create
- coverage reports on *NIX hosts:
- ggcov -r lib src
- The text mode tool gcov may also be used, but it doesn't handle object files
- in more than one directory very well.
- 1.11 Remote testing
- The runtests.pl script provides some hooks to allow curl to be tested on a
- machine where perl can not be run. The test framework in this case runs on
- a workstation where perl is available, while curl itself is run on a remote
- system using ssh or some other remote execution method. See the comments at
- the beginning of runtests.pl for details.
- 2. Numbering
- 2.1 Test case numbering
- 1 - 99 HTTP
- 100 - 199 FTP
- 200 - 299 FILE
- 300 - 399 HTTPS
- 400 - 499 FTPS
- 500 - 599 libcurl source code tests, not using the curl command tool
- 600 - 699 SCP/SFTP
- 700 - 799 SOCKS4 (even numbers) and SOCK5 (odd numbers)
- 800 - 849 IMAP
- 850 - 899 POP3
- 900 - 999 SMTP
- 1000 - 1299 miscellaneous
- 1300 - 1399 unit tests
- 1400 - 1499 miscellaneous
- 1500 - 1599 libcurl source code tests, not using the curl command tool
- (same as 5xx)
- 1600 - 1699 unit tests
- 2000 - x multiple sequential protocols per test case
- There's nothing in the system that *requires* us to keep within these number
- series.
- 3. Write tests
- Here's a quick description on writing test cases. We basically have three
- kinds of tests: the ones that test the curl tool, the ones that build small
- applications and test libcurl directly and the unit tests that test
- individual (possibly internal) functions.
- 3.1 test data
- Each test has a master file that controls all the test data. What to read,
- what the protocol exchange should look like, what exit code to expect and
- what command line arguments to use etc.
- These files are tests/data/test[num] where [num] is described in section 2
- of this document, and the XML-like file format of them is described in the
- separate tests/FILEFORMAT document.
- 3.2 curl tests
- A test case that runs the curl tool and verifies that it gets the correct
- data, it sends the correct data, it uses the correct protocol primitives
- etc.
- 3.3 libcurl tests
- The libcurl tests are identical to the curl ones, except that they use a
- specific and dedicated custom-built program to run instead of "curl". This
- tool is built from source code placed in tests/libtest and if you want to
- make a new libcurl test that is where you add your code.
- 3.4 unit tests
- Unit tests are tests in the 13xx sequence and they are placed in tests/unit.
- There's a tests/unit/README describing the specific set of checks and macros
- that may be used when writing tests that verify behaviors of specific
- individual functions.
- The unit tests depend on curl being built with debug enabled.
- 4. TODO
- 4.1 More protocols
- Add tests for TELNET, LDAP, DICT...
- 4.2 SOCKS auth
- SOCKS4/5 test deficiencies - no proxy authentication tests as SSH (the
- test mechanism) doesn't support them
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