|Sergey Bronnikov 11708d6f00 lib: fix typos||1 week ago|
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|README.md||2 weeks ago|
|appveyor.pm||3 weeks ago|
|azure.pm||3 weeks ago|
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|convsrctest.pl||3 weeks ago|
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|directories.pm||3 weeks ago|
|disable-scan.pl||3 weeks ago|
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The Python-based test servers support both recent Python 2 and 3. You can figure out your default Python interpreter with python -V
Please install python-impacket in the correct Python environment. You can use pip or your OS' package manager to install 'impacket'.
On Debian/Ubuntu the package names are:
On FreeBSD the package names are:
On any system where pip is available:
You may also need to manually install the Python package 'six' as that may be a missing requirement for impacket on Python 3.
All test servers run on "random" port numbers. All tests should be written to use suitable variables instead of fixed port numbers so that test cases continue to work independent on what port numbers the test servers actually use.
FILEFORMAT for the port number variables.
The test suite runs stand-alone servers on random ports 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 listen port numbers for the test servers are picked randomly to allow users to run multiple test cases concurrently and to not collide with other existing services that might listen to ports on the machine.
The HTTP server supports listening on a Unix domain socket, the default location is 'http.sock'.
For HTTP/2 and HTTP/3 testing an installed
nghttpx is used. HTTP/3
tests check if nghttpx supports the protocol. To override the nghttpx
used, set the environment variable
NGHTTPX. The default can also be
changed by specifying
--with-test-nghttpx=<path> as argument to
./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
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
-s for shorter output, or pass test numbers to run specific tests only
./runtests.pl 3 4 to test 3 and 4 only). It also supports test case
ranges with 'to', as in
./runtests.pl 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.local (one per
line). The latter is meant for local temporary disables and will be ignored
Test cases mentioned in
DISABLED can still be run if
-f is provided.
-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
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 behavior 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.
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
-t option enables torture testing mode. It 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.
If a test case fails, you can conveniently get the script to invoke the
debugger (gdb) for you with the server running and the 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.
All logs are generated in the log/ subdirectory (it is emptied first in the runtests.pl script). They remain in there after a test run.
A curl build with
--enable-debug offers more verbose output in the logs.
This applies not only for test cases, but also when running it standalone
curl -v. While a curl debug built is
not suitable for production, it is often helpful in tracking down
Sometimes, one needs detailed logging of operations, but does not want to drown in output. The newly introduced connection filters allows one to dynamically increase log verbosity for a particular filter type. Example:
CURL_DEBUG=ssl curl -v https://curl.se
will make the
ssl connection filter log more details. One may do that for
every filter type and also use a combination of names, separated by
CURL_DEBUG=ssl,http/2 curl -v https://curl.se
The order of filter type names is not relevant. Names used here are case insensitive. Note that these names are implementation internals and subject to change.
Some, likely stable names are
http/2. For a current list,
one may search the sources for
struct Curl_cftype definitions and find
the names there. Also, some filters are only available with certain build
options, of course.
All test cases are put in the
data/ subdirectory. Each test is stored in
the file named according to the test number.
FILEFORMAT for a description of the test case file
gcc provides a tool that can determine the code coverage figures for the
test suite. To use it, configure curl with
-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 correctly.
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.
Test cases used to be numbered by category ranges, but the ranges filled
up. Subsets of tests can now be selected by passing keywords to the
runtests.pl script via the make
New tests are added by finding a free number in
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.
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
[num] is just a unique
identifier described above, and the XML-like file format of them is
described in the separate
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.
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.
Unit tests 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.