nim-eth/tests/fuzzing/readme.md

# Fuzzing
## tldr:
* [Install afl](#Install-afl).
* Create a testcase.
* Run: `nim fuzz.nims afl testfolder/testcase.nim`

Or

* [Install libFuzzer](#Install-libFuzzer) (comes with LLVM).
* Create a testcase.
* Run: `nim fuzz.nims libFuzzer testfolder/testcase.nim`

## Fuzzing Helpers
There are two convenience templates which will help you set up a quick fuzzing
test.

These are the mandatory `test` block and the optional `init` block.

Example usage:
```nim
test:
  var rlp = rlpFromBytes(@payload.toRange)
  discard rlp.inspect()
```

Any unhandled `Exception` will result in a failure of the testcase. If certain
`Exception`s are to be allowed to occur within the test, they should be caught.

E.g.:
```nim
test:
  try:
    var rlp = rlpFromBytes(@payload.toRange)
    discard rlp.inspect()
  except RlpError:
    debug "Inspect failed", err = getCurrentExceptionMsg()
```

## Supported Fuzzers
The two templates can prepare the code for both
[afl](http://lcamtuf.coredump.cx/afl/) and
[libFuzzer](http://llvm.org/docs/LibFuzzer.html).

You will need to install first the fuzzer you want to use.
### Install afl
```sh
# Ubuntu / Debian
sudo apt-get install afl

# Fedora
dnf install american-fuzzy-lop
# for usage with clang & clang-fast you will have to install
# american-fuzzy-lop-clang or american-fuzzy-lop-clang-fast

# Arch Linux
pacman -S afl

# NixOS
nix-env -i afl

```

### Install libFuzzer

LibFuzzer is part of llvm and will be installed together with llvm-libs in
recent versions. Installing clang should install llvm-libs.
```sh
# Ubuntu / Debian
sudo apt-get install clang

# Fedora
dnf install clang

# Arch Linux
pacman -S clang

# NixOS
nix-env -iA nixos.clang_7 nixos.llvm_7
```

## Compiling & Starting the Fuzzer
### Scripted helper
There is a nimscript helper to compile & start the fuzzer:
```sh
# for afl
nim fuzz.nims afl testcase.nim

# for libFuzzer
nim fuzz.nims libFuzzer testcase.nim
```
### Manually with afl
#### Compiling
With gcc:
```sh
nim c -d:standalone -d:release -d:chronicles_log_level=fatal -d:noSignalHandler --cc=gcc --gcc.exe=afl-gcc --gcc.linkerexe=afl-gcc testcase.nim
```
The `standalone` define is specifically required for the `init` and `test`
templates.

You typically want to fuzz in `-d:release` and probably also want to lower down
the logging. But this is not strictly necessary.

There is also a nimscript task in `config.nims` for this:
```
nim c build_afl testcase.nim
```

With clang:
```sh
# afl-clang
nim c -d:standalone -d:noSignalHandler --cc=clang --clang.exe=afl-clang --clang.linkerexe=afl-clang ftestcase.nim
# afl-clang-fast
nim c -d:standalone -d:noSignalHandler --cc=clang --clang.exe=afl-clang-fast --clang.linkerexe=afl-clang-fast testcase.nim
```

#### Starting the Fuzzer

To start the fuzzer:
```sh
afl-fuzz -i input -o results -- ./testcase
```

To rerun it without losing previous results/corpus:
```sh
afl-fuzz -i - -o results -- ./testcase
```

To run several parallel fuzzing sessions:
```sh
# Start master fuzzer
afl-fuzz -i input -o results -M fuzzer01 -- ./testcase
# Start slaves (usually 1 per core available)
afl-fuzz -i input -o results -S fuzzer02 -- ./testcase
afl-fuzz -i input -o results -S fuzzer03 -- ./testcase
# add more if needed
```

When compiled with `-d:standalone` the resulting application can also be run
manually by providing it input data, e.g.:
```sh
cat testfile | ./testcase
```

### Manually with libFuzzer
#### Compiling
```sh
nim c -d:release -d:chronicles_log_level=fatal --noMain --cc=clang --passC="-fsanitize=fuzzer" --passL="-fsanitize=fuzzer" testcase.nim
```
You typically want to fuzz in `-d:release` and probably also want to lower down
the logging. But this is not strictly necessary.

There is also a nimscript task in `config.nims` for compiling:
```
nim c build_libFuzzer testcase.nim
```

#### Starting the Fuzzer
Starting the fuzzer is as simple as running the compiled program:
```sh
./testcase corpus_dir -runs=1000000
```

To see the available options:
```sh
./testcase test=1
```

Parallel fuzzing on 8 cores:
```sh
./fuzz-libfuzzer -jobs=8 -workers=8
```

You can also use the application to verify a specific test case:
```sh
./testcase input_file
```

## Additional notes
The `init` template, when used with **afl**, is only cosmetic. It will be
run before each test block, compared to libFuzzer, where it will be run only
once.

In case of using afl with `alf-clang-fast` you can make use of `aflInit()` and
`aflLoop()` calls.

`aflInit()` will allow using what is called deferred instrumentation. Basically,
the forking of the process will only happen after this call, where normally it
is done right before `main()`.

`aflLoop(cint)` will allow for (experimental) persistant mode. This is more
comparable with libFuzzer.

These calls are enabled with `-d:clangfast`.
Add readme file 2019-10-08 14:42:24 +00:00			`# Fuzzing`
			`## tldr:`
			`* [Install afl](#Install-afl).`
			`* Create a testcase.`
			* Run: `nim fuzz.nims afl testfolder/testcase.nim`

			`Or`

			`* [Install libFuzzer](#Install-libFuzzer) (comes with LLVM).`
			`* Create a testcase.`
			* Run: `nim fuzz.nims libFuzzer testfolder/testcase.nim`

			`## Fuzzing Helpers`
			`There are two convenience templates which will help you set up a quick fuzzing`
			`test.`

			These are the mandatory `test` block and the optional `init` block.

			`Example usage:`
			```nim
			`test:`
			`var rlp = rlpFromBytes(@payload.toRange)`
			`discard rlp.inspect()`
			```

			Any unhandled `Exception` will result in a failure of the testcase. If certain
			`Exception`s are to be allowed to occur within the test, they should be caught.

			`E.g.:`
			```nim
			`test:`
			`try:`
			`var rlp = rlpFromBytes(@payload.toRange)`
			`discard rlp.inspect()`
			`except RlpError:`
			`debug "Inspect failed", err = getCurrentExceptionMsg()`
			```

			`## Supported Fuzzers`
			`The two templates can prepare the code for both`
			`[afl](http://lcamtuf.coredump.cx/afl/) and`
			`[libFuzzer](http://llvm.org/docs/LibFuzzer.html).`

			`You will need to install first the fuzzer you want to use.`
			`### Install afl`
			```sh
			`# Ubuntu / Debian`
			`sudo apt-get install afl`

			`# Fedora`
			`dnf install american-fuzzy-lop`
			`# for usage with clang & clang-fast you will have to install`
			`# american-fuzzy-lop-clang or american-fuzzy-lop-clang-fast`

			`# Arch Linux`
			`pacman -S afl`

			`# NixOS`
			`nix-env -i afl`

			```

			`### Install libFuzzer`

			`LibFuzzer is part of llvm and will be installed together with llvm-libs in`
			`recent versions. Installing clang should install llvm-libs.`
			```sh
			`# Ubuntu / Debian`
			`sudo apt-get install clang`

			`# Fedora`
			`dnf install clang`

			`# Arch Linux`
			`pacman -S clang`

			`# NixOS`
			`nix-env -iA nixos.clang_7 nixos.llvm_7`
			```

			`## Compiling & Starting the Fuzzer`
			`### Scripted helper`
			`There is a nimscript helper to compile & start the fuzzer:`
			```sh
			`# for afl`
			`nim fuzz.nims afl testcase.nim`

			`# for libFuzzer`
			`nim fuzz.nims libFuzzer testcase.nim`
			```
			`### Manually with afl`
			`#### Compiling`
			`With gcc:`
			```sh
			`nim c -d:standalone -d:release -d:chronicles_log_level=fatal -d:noSignalHandler --cc=gcc --gcc.exe=afl-gcc --gcc.linkerexe=afl-gcc testcase.nim`
			```
			The `standalone` define is specifically required for the `init` and `test`
			`templates.`

			You typically want to fuzz in `-d:release` and probably also want to lower down
			`the logging. But this is not strictly necessary.`

			There is also a nimscript task in `config.nims` for this:
			```
			`nim c build_afl testcase.nim`
			```

			`With clang:`
			```sh
			`# afl-clang`
			`nim c -d:standalone -d:noSignalHandler --cc=clang --clang.exe=afl-clang --clang.linkerexe=afl-clang ftestcase.nim`
			`# afl-clang-fast`
			`nim c -d:standalone -d:noSignalHandler --cc=clang --clang.exe=afl-clang-fast --clang.linkerexe=afl-clang-fast testcase.nim`
			```

			`#### Starting the Fuzzer`

			`To start the fuzzer:`
			```sh
			`afl-fuzz -i input -o results -- ./testcase`
			```

			`To rerun it without losing previous results/corpus:`
			```sh
			`afl-fuzz -i - -o results -- ./testcase`
			```

			`To run several parallel fuzzing sessions:`
			```sh
			`# Start master fuzzer`
			`afl-fuzz -i input -o results -M fuzzer01 -- ./testcase`
			`# Start slaves (usually 1 per core available)`
			`afl-fuzz -i input -o results -S fuzzer02 -- ./testcase`
			`afl-fuzz -i input -o results -S fuzzer03 -- ./testcase`
			`# add more if needed`
			```

			When compiled with `-d:standalone` the resulting application can also be run
			`manually by providing it input data, e.g.:`
			```sh
			`cat testfile \| ./testcase`
			```

			`### Manually with libFuzzer`
			`#### Compiling`
			```sh
			`nim c -d:release -d:chronicles_log_level=fatal --noMain --cc=clang --passC="-fsanitize=fuzzer" --passL="-fsanitize=fuzzer" testcase.nim`
			```
			You typically want to fuzz in `-d:release` and probably also want to lower down
			`the logging. But this is not strictly necessary.`

			There is also a nimscript task in `config.nims` for compiling:
			```
			`nim c build_libFuzzer testcase.nim`
			```

			`#### Starting the Fuzzer`
			`Starting the fuzzer is as simple as running the compiled program:`
			```sh
			`./testcase corpus_dir -runs=1000000`
			```

			`To see the available options:`
			```sh
			`./testcase test=1`
			```

			`Parallel fuzzing on 8 cores:`
			```sh
			`./fuzz-libfuzzer -jobs=8 -workers=8`
			```

			`You can also use the application to verify a specific test case:`
			```sh
			`./testcase input_file`
			```

			`## Additional notes`
			The `init` template, when used with afl, is only cosmetic. It will be
			`run before each test block, compared to libFuzzer, where it will be run only`
			`once.`

			In case of using afl with `alf-clang-fast` you can make use of `aflInit()` and
			`aflLoop()` calls.

			`aflInit()` will allow using what is called deferred instrumentation. Basically,
			`the forking of the process will only happen after this call, where normally it`
			is done right before `main()`.

			`aflLoop(cint)` will allow for (experimental) persistant mode. This is more
			`comparable with libFuzzer.`

			These calls are enabled with `-d:clangfast`.