Edited test readme for accuracy and depth

Removed some erroneous instructions, and added information about
different test suites.

Signed-off-by: Cole Lightfighter <cole@onicsla.bz>
This commit is contained in:
Cole Lightfighter 2017-10-01 12:11:59 -06:00
parent c300ae56ca
commit ff7745bb87
1 changed files with 82 additions and 143 deletions

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# Crypto tests # Running all tests
## Running crypto Perl tests To run all tests, run:
Crypto tests require the Math::GMP Perl library, make sure it is installed on you system before running the tests.
Installing dependencies (using cpan):
```
cpan
cpan> install Math::BigInt::GMP
cpan> install Digest::Keccak
```
Running tests:
```
TESTPATH=/path/to/monero/tests
cd $TESTPATH
perl -I $TESTPATH cryptotest.pl
```
Important: must include test path for perl to import cryptolib.pl
## Writing new crypto tests
[TODO]
# Core tests
## Running core tests
Monero uses the Google C++ Testing Framework (`gtest`) to write unit, integration and functional tests for core and other features of the project.
`gtest` runs on top of cmake, and you can run all tests by:
``` ```
cd /path/to/monero cd /path/to/monero
@ -40,138 +9,108 @@ make [-jn] debug-test # where n is number of compiler processes
To test a release build, replace `debug-test` with `release-test` in the previous command. To test a release build, replace `debug-test` with `release-test` in the previous command.
One can also run individual test suites by building monero, then running `ctest` in test suite folders. # Core tests
Run only the hash tests: Core tests take longer than any other Monero tests, due to the high amount of computational work involved in validating core components.
Tests are located in `tests/core_tests/`, and follow a straightforward naming convention. Most cases cover core functionality (`block_reward.cpp`, `chaingen.cpp`, `rct.cpp`, etc.), while some cover basic security tests (`double_spend.cpp` & `integer_overflow.cpp`).
To run only Monero's core tests (after building):
```
cd build/debug/tests/core
ctest
```
To run the same tests on a release build, replace `debug` with `release`.
# Crypto Tests
Crypto tests are located under the `tests/crypto` directory.
- `crypto-tests.h` contains test harness headers
- `main.cpp` implements the driver for the crypto tests
Tests correspond to components under `src/crypto/`. A quick comparison reveals the pattern, and new tests should continue the naming convention.
To run only Monero's crypto tests (after building):
```
cd build/debug/tests/crypto
ctest
```
To run the same tests on a release build, replace `debug` with `release`.
# Daemon tests
[TODO]
# Functional tests
[TODO]
# Fuzz tests
Fuzz tests are written using American Fuzzy Lop (AFL), and located under the `tests/fuzz` directory.
An additional helper utility is provided `contrib/fuzz_testing/fuzz.sh`. AFL must be installed, and some additional setup may be necessary for the script to run properly.
# Hash tests
Hash tests exist under `tests/hash`, and include a set of target hashes in text files.
To run only Monero's hash tests (after building):
``` ```
cd /path/to/monero
make [-j#] debug
cd build/debug/tests/hash cd build/debug/tests/hash
ctest ctest
``` ```
To run the same tests on a release build, replace `debug` with `release` in previous commands. To run the same tests on a release build, replace `debug` with `release`.
## Writing new tests # Libwallet API tests
Based on local tests and Google's guide on creating [simple tests with gtest](https://github.com/google/googletest/blob/master/googletest/docs/Primer.md#simple-tests) [TODO]
Tests consist of a test harness (defined with the TEST() macro), and the test body consisting of gtest assertions. # Net Load tests
Example of a test harness: [TODO]
# Performance tests
Performance tests are located in `tests/performance_tests`, and test features for performance metrics on the host machine.
To run only Monero's performance tests (after building):
``` ```
TEST(test_case_name, test_name) { cd build/debug/tests/performance_tests
... test body ... ./performance_tests
}
``` ```
As an example in Monero's [crypto unit test](./unit_tests/crypto.cpp): If the `performance_tests` binary does not exist, try running `make` in the `build/debug/tests/performance_tests` directory.
To run the same tests on a release build, replace `debug` with `release`.
# Unit tests
Unit tests are defined under the `tests/unit_tests` directory. Independent components are tested individually to ensure they work properly on their own.
To run only Monero's unit tests (after building):
``` ```
TEST(Crypto, Ostream) cd build/debug/tests/unit_tests
{ ctest
EXPECT_TRUE(is_formatted<crypto::hash8>());
EXPECT_TRUE(is_formatted<crypto::hash>());
EXPECT_TRUE(is_formatted<crypto::public_key>());
EXPECT_TRUE(is_formatted<crypto::secret_key>());
EXPECT_TRUE(is_formatted<crypto::signature>());
EXPECT_TRUE(is_formatted<crypto::key_derivation>());
EXPECT_TRUE(is_formatted<crypto::key_image>());
}
``` ```
The assertions inside the test harness are a bit complex, but fairly straightforward. To run the same tests on a release build, replace `debug` with `release`.
- `is_formatted<T>()` is a polymorphic function that accepts the various types of structs defined in [crypto/hash.h](../src/crypto/hash.h). # Writing new tests
Just above the test harness, we have the definition for `is_formatted`: ## Test hygiene
``` When writing new tests, please implement all functions in `.cpp` or `.c` files, and only put function headers in `.h` files. This will help keep the fairly complex test suites somewhat sane going forward.
template<typename T>
bool is_formatted()
{
T value{};
static_assert(alignof(T) == 1, "T must have 1 byte alignment");
static_assert(sizeof(T) <= sizeof(source), "T is too large for source");
static_assert(sizeof(T) * 2 <= sizeof(expected), "T is too large for destination");
std::memcpy(std::addressof(value), source, sizeof(T));
std::stringstream out;
out << "BEGIN" << value << "END";
return out.str() == "BEGIN<" + std::string{expected, sizeof(T) * 2} + ">END";
}
```
`T value {}` produces the data member of the struct (`hash8` has `char data[8]`), which runs a number of tests to ensure well structured hash data.
Let's write a new test for the keccak function:
```
bool keccak_harness()
{
size_t inlen = sizeof(source);
int mdlen = (int)sizeof(md);
int ret = keccak(source, inlen, md, mdlen);
if (md[0] != 0x00)
{
return true;
}
else if (!ret)
{
return true;
}
else
{
return false;
}
}
```
This is a basic test that ensures `keccak()` returns successfully when given proper input. It reuses the `source` array for input, and a new byte array `md` for storing the hash digest. Full source is in the [crypto unit test](./unit_tests/crypto.cpp).
Now let's create a new test harness:
```
TEST(Crypto, Keccak)
{
# ...
EXPECT_TRUE(keccak_harness());
}
```
This creates a new test under the `Crypto` test case named `Keccak`. The harness includes one assertion `EXPECT_TRUE(keccak_harness())`, which invokes `keccak_harness()`. More complex logic can be added to test various functionality of the `Keccak` library.
To run the new test:
```
cd /path/to/monero
make -jn debug # if no debug build exists
cd build/debug/tests/unit_test
make -jn
make -jn test
```
# Fuzz tests
## Running fuzz tests
```
cd /path/to/monero
make [-jn] fuzz # where n is number of compiler processes
```
or
```
cd path/to/monero
./contrib/fuzz_testing/fuzz.sh
```
## Writing fuzz tests ## Writing fuzz tests