Warning: This project was an experiment and is no longer maintained. I suggest using a different library.
A C++ bencoding library supporting both decoding and encoding. It provides a simple API for decoding, encoding, and pretty-printing of bencoded data. It is also extensible so you can write your own manipulation of the decoded data.
#include "bencoding/bencoding.h"
// Decode data stored in a std::string.
auto decodedData = bencoding::decode(str);
// Decode data directly from a stream.
auto decodedData = bencoding::decode(stream);
// Encode the data into a std::string.
std::string encodedData = bencoding::encode(decodedData);
// Get a pretty representation of the decoded data.
std::string prettyRepr = bencoding::getPrettyRepr(decodedData);
The supported format is as defined in the BitTorrent specification.
The following software is required:
- A compiler supporting C++11, such as GCC >= 4.9.
- CMake to build and install the library.
Optional:
- Doxygen to generate API documentation.
- Google Test to build and run tests.
- LCOV to generate code coverage statistics.
-
Install the requirements above.
-
Clone this repository:
git clone https://github.com/s3rvac/cpp-bencoding
-
Create a
build
directory, enter it, runcmake ..
andmake
(possibly with additional parameters, see below):mkdir build cd build cmake .. make
You can pass additional parameters to the
cmake
call:-DWITH_COVERAGE=1
to build with code coverage support (requires LCOV, disabled by default).-DWITH_DOC=1
to build API documentation (requires Doxygen, disabled by default).-DWITH_TESTS=1
to build tests (requires Google Test, disabled by defauly).-DCMAKE_BUILD_TYPE=debug
to build the library with debugging information, which is useful during the development. By default, the library is built in therelease
mode.-DCMAKE_INSTALL_PREFIX:PATH=/usr
to set a custom installation path.
The
make
call supports standard parameters, such as:-j N
to build the library by usingN
processors.VERBOSE=1
to show verbose output when building the library.
-
Install the library:
make install
This will install the library into the selected installation path. If you did not specify the path when calling
cmake
, it will be installed to theinstall
directory.
-
Setup the build system of your project to include the path to the
install/include
directory above so you can include the library header files in the following way:#include "bencoding/bencoding.h"
The header file
bencoding.h
includes all the library header files. You may include just some of them if you want:#include "bencoding/Decoder.h" #include "bencoding/PrettyPrinter.h"
-
Use the functionality provided by the library. A simple example:
#include <iostream> #include <memory> #include "bencoding/bencoding.h" using namespace bencoding; int main() { try { // Read and decode input data from the standard input. std::shared_ptr<BItem> decodedData = decode(std::cin); // Print the decoded data in a readable way to the standard output. std::cout << getPrettyRepr(decodedData) << "\n"; return 0; } catch (const DecodingError &ex) { // There was an error during the decoding. std::cerr << "error: " << ex.what() << "\n"; return 1; } }
For a full example, see the
sample/decoder.cpp
file. -
Setup the build system of your project to link the
install/lib/libbencoding.a
library. For example, with GCC, you can either use-Linstall/lib -lbencoding
or link theinstall/lib/libbencoding.a
file directly.
A complete sample is available in the sample
directory. It is a standalone
decoder that decodes data from the given file or standard input, and prints
them in a pretty format to the standard output. The decoder is built and
installed alongside with the library. To run it, execute install/bin/decoder
after installation. Sample input files are in the sample/inputs
directory.
Input file (sample/inputs/sample1.torrent
):
d8:announce18:http://tracker.com10:created by14:KTorrent 2.1.413:creation datei1182163277e4:infod6:lengthi6e4:name8:file.txt12:piece lengthi32768e6:pieces12:binary dataee
Run:
$ install/bin/decoder sample/inputs/sample1.torrent
Output:
{
"announce": "http://tracker.com",
"created by": "KTorrent 2.1.4",
"creation date": 1182163277,
"info": {
"length": 6,
"name": "file.txt",
"piece length": 32768,
"pieces": "binary data"
}
}
For more examples, see the API documentation.
The latest API documentation is available here.
The API documentation can be generated by passing -DWITH_DOC=1
when running
cmake
(see the build instructions). When you run make
afterwards, the
documentation is generated in the HTML format. After make install
, it can be
viewed in your favorite web browser by opening install/doc/index.html
. You
need to have Doxygen installed to generate the API
documentation.
Over 99% of the library source code is covered by unit tests. To build them,
pass -DWITH_TESTS=1
when running cmake
. To run them after make install
,
execute install/bin/tester
. You need to have Google
Test installed to build and run the
tests.
The latest code coverage by tests is available here.
To generate code coverage, pass -DWITH_COVERAGE=1
when running cmake
. After
the library is built, run make coverage
from the build
directory to
generate the code coverage. It can be then viewed in a web browser by opening
coverage/index.html
. You need to have
LCOV installed to generate the
code coverage.
The BItemVisitor
class implements the Visitor design
pattern. You can create your own
subclass that manipulates the bencoded data in any way you want. Two examples
of using the BItemVisitor
class are the Encoder
and PrettyPrinter
classes. See my blog
post
or their source code for more details.
Any contributions are welcomed! Notes:
- Please, before sending a patch or a pull request, ensure that all the tests still pass.
- If you provide new functionality, please also provide tests for it.
Copyright (c) 2014 Petr Zemek ([email protected]) and contributors.
Distributed under the BSD 3-clause license. See the LICENSE
file for more
details.