A C library for asynchronous DNS requests (grpc依赖)
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c-ares Unit Test Suite
======================
This directory holds unit tests for the c-ares library. To build the tests:
- Build the main c-ares library first, in the directory above this. To
enable tests of internal functions, configure the library build to expose
hidden symbols with `./configure --disable-symbol-hiding`.
- Generate a `configure` file by running `autoreconf -iv` (which requires
a local installation of
[autotools](https://www.gnu.org/software/automake/manual/html_node/Autotools-Introduction.html)).
- `./configure`
- `make`
- Run the tests with `./arestest`, or `./arestest -v` for extra debug info.
Points to note:
- The tests are written in C++11, and so need a C++ compiler that supports
this. To avoid adding this as a requirement for the library, the
configuration and build of the tests is independent from the library.
- The tests include some live queries, which will fail when run on a machine
without internet connectivity. To skip live tests, run with
`./arestest --gtest_filter=-*.Live*`.
- The tests include queries of a mock DNS server. This server listens on port
5300 by default, but the port can be changed with the `-p 5300` option to
`arestest`.
Test Types
----------
The test suite includes various different types of test.
- There are live tests (`ares-test-live.cc`), which assume that the
current machine has a valid DNS setup and connection to the
internet; these tests issue queries for real domains but don't
particularly check what gets returned. The tests will fail on
an offline machine.
- There are some mock tests (`ares-test-mock.cc`) that set up a fake DNS
server and inject its port into the c-ares library configuration.
These tests allow specific response messages to be crafted and
injected, and so are likely to be used for many more tests in
future.
- To make this generation/injection easier, the `dns-proto.h`
file includes C++ helper classes for building DNS packets.
- Other library entrypoints that don't require network activity
(e.g. `ares_parse_*_reply`) are tested directly.
- A couple of the tests use a helper method of the test fixture to
inject memory allocation failures, using a recent change to the
c-ares library that allows override of `malloc`/`free`.
- There are some tests of the internal entrypoints of the library
(`ares-test-internal.c`), but these are only enabled if the library
was configured with `--disable-symbol-hiding` and/or
`--enable-expose-statics`.
- There is also an entrypoint to allow Clang's
[libfuzzer](http://llvm.org/docs/LibFuzzer.html) to drive
the packet parsing code in `ares_parse_*_reply`, together with a
standalone wrapper for it (`./aresfuzz`) to allow use of command
line fuzzers (such as [afl-fuzz](http://lcamtuf.coredump.cx/afl/))
for further [fuzz testing](#fuzzing).
Code Coverage Information
-------------------------
To generate code coverage information:
- Configure both the library and the tests with `./configure
--enable-code-coverage` before building. This requires the relevant code
coverage tools ([gcov](https://gcc.gnu.org/onlinedocs/gcc/Gcov.html),
[lcov](http://ltp.sourceforge.net/coverage/lcov.php)) to be installed locally.
- Run the tests with `test/arestest`.
- Generate code coverage output with `make code-coverage-capture` in the
library directory (i.e. not in `test/`).
Fuzzing
-------
### libFuzzer
To fuzz the packet parsing code with libFuzzer, follow the main
[libFuzzer instructions](http://llvm.org/docs/LibFuzzer.html):
- Configure the c-ares library and test suite with a recent Clang and a sanitizer, for example:
```console
% export CFLAGS="-fsanitize=fuzzer-no-link,address"
% export CC=clang
% ./configure --disable-shared && make
```
- Link each of the fuzzer entrypoints in with `ares-fuzz.cc`:
```
% clang -I.. -c ares-test-fuzz.c
% clang -I.. -c ares-test-fuzz-name.c
% clang++ -fsanitize=fuzzer,address ares-test-fuzz.o ../.libs/libcares.a -o ares-libfuzzer
% clang++ -fsanitize=fuzzer,address ares-test-fuzz-name.o ../.libs/libcares.a -o ares-libfuzzer-name
```
- Run the fuzzer using the starting corpus with:
```console
% ./ares-libfuzzer fuzzinput/ # OR
% ./ares-libfuzzer-name fuzznames/
```
### AFL
To fuzz using AFL, follow the
[AFL quick start guide](http://lcamtuf.coredump.cx/afl/QuickStartGuide.txt):
- Download and build AFL.
- Configure the c-ares library and test tool to use AFL's compiler wrappers:
```console
% export CC=$AFLDIR/afl-gcc
% ./configure --disable-shared && make
% cd test && ./configure && make aresfuzz aresfuzzname
```
- Run the AFL fuzzer against the starting corpus:
```console
% mkdir fuzzoutput
% $AFLDIR/afl-fuzz -i fuzzinput -o fuzzoutput -- ./aresfuzz # OR
% $AFLDIR/afl-fuzz -i fuzznames -o fuzzoutput -- ./aresfuzzname
```
### AFL Persistent Mode
If a recent version of Clang is available, AFL can use its built-in compiler
instrumentation; this configuration also allows the use of a (much) faster
persistent mode, where multiple fuzz inputs are run for each process invocation.
- Download and build a recent AFL, and run `make` in the `llvm_mode`
subdirectory to ensure that `afl-clang-fast` gets built.
- Configure the c-ares library and test tool to use AFL's clang wrappers that
use compiler instrumentation:
```console
% export CC=$AFLDIR/afl-clang-fast
% ./configure --disable-shared && make
% cd test && ./configure && make aresfuzz
```
- Run the AFL fuzzer (in persistent mode) against the starting corpus:
```console
% mkdir fuzzoutput
% $AFLDIR/afl-fuzz -i fuzzinput -o fuzzoutput -- ./aresfuzz
```