Table of contents
To download the latest version of libtorrent, clone the github repository.
The build systems supported "out of the box" in libtorrent are boost-build
cmake. If you still can't build after following these instructions, you can
usually get help in the #libtorrent
IRC channel on irc.freenode.net
.
Warning
A common mistake when building and linking against libtorrent is to build with one set of configuration options (#defines) and link against it using a different set of configuration options. Since libtorrent has some code in header files, that code will not be compatible with the built library if they see different configurations.
Always make sure that the same TORRENT_* and BOOST_* macros are defined
when you link against libtorrent as when you build it. The simplest way
to see the full list of macros defined is to build libtorrent with
-n -a
switches added to b2
command line, which output all compiler
switches.
Boost-build supports propagating configuration options to dependencies.
To build libtorrent from git you need to clone the libtorrent repository from github. Note that the git repository depends on other git repositories via submodules, which also need to be initialized and updated. If you downloaded a release tarball, you can skip this section.
git clone --recurse-submodules https://github.com/arvidn/libtorrent.git
The primary reason to use boost-build is that it will automatically build the dependent boost libraries with the correct compiler settings, in order to ensure that the build targets are link compatible (see boost guidelines for some details on this issue).
Since BBv2 will build the boost libraries for you, you need the full boost source package. Having boost installed via some package system is usually not enough (and even if it is enough, the necessary environment variables are usually not set by the package installer).
If you want to build against an installed copy of boost, you can skip directly to step 3 (assuming you also have boost build installed).
If you want to build against boost installed on your system, you can skip this strep. Just make sure to have BOOST_ROOT unset for the b2 invocation.
You'll find boost here.
Extract the archive to some directory where you want it. For the sake of this
guide, let's assume you extract the package to c:\boost_1_69_0
. You'll
need at least version 1.66 of the boost library in order to build libtorrent.
If you have installed boost-build
via a package manager, you can skip this
step. If not, you need to build boost build from the boost source package.
First you need to build b2
. You do this by opening a terminal (In windows,
run cmd
). Change directory to c:\boost_1_68_0\tools\build
. Then run the
script called bootstrap.bat
or bootstrap.sh
on a Unix system. This will
build b2
and place it in a directory src/engine/bin.<architecture>
.
Copy the b2.exe
(or b2
on a Unix system) to a place that's in you
shell's PATH
. On Linux systems a place commonly used may be
/usr/local/bin
or on Windows c:\windows
(you can also add directories
to the search paths by modifying the environment variable called PATH
).
Now you have b2
installed. b2
can be considered an interpreter
that the boost-build system is implemented on. So boost-build uses b2
.
So, to complete the installation you need to make two more things. You need to
set the environment variable BOOST_BUILD_PATH
. This is the path that tells
b2
where it can find boost-build, your configuration file and all the
toolsets (descriptions used by boost-build to know how to use different
compilers on different platforms). Assuming the boost install path above, set
it to c:\boost_1_68_0\tools\build
.
To set an environment variable in windows, type for example:
set BOOST_BUILD_PATH=c:\boost_1_68_0\tools\build\v2
In a terminal window.
The last thing to do is to configure which compiler(s) to use. Create a file
user-config.jam
in your home directory. Depending on your platform and which
compiler you're using, you should add a line for each compiler and compiler
version you have installed on your system that you want to be able to use with
BBv2. For example, if you're using Microsoft Visual Studio 14.2 (2019), just
add a line:
using msvc : 14.2 ;
If you use GCC, add the line:
using gcc ;
If you have more than one version of GCC installed, you can add the command line used to invoke g++ after the version number, like this:
using gcc : 6.0 : g++-6 ; using gcc : 7.0 : g++-7 ;
Another toolset worth mentioning is the darwin
toolset (for macOS).
From Tiger (10.4) macOS comes with both GCC 3.3 and GCC 4.0. Then you can
use the following toolsets:
using darwin : 3.3 : g++-3.3 ; using darwin : 4.0 : g++-4.0 ;
Note that the spaces around the semi-colons and colons are important!
Also see the official installation instructions.
When building libtorrent, boost is either picked up from system installed
locations or from a boost source package, if the BOOST_ROOT
environment
variable is set pointing to one. If you're building boost from source, set
BOOST_ROOT
to your boost directory, e.g. c:\boost_1_68_0
.
Then the only thing left is simply to invoke b2
. If you want to specify
a specific toolset to use (compiler) you can just add that to the command line.
For example:
b2 msvc-14.2 b2 gcc-7.0 b2 darwin-4.0
Note
If the environment variable BOOST_ROOT
is not set, the Jamfile will
attempt to link against "installed" boost libraries. i.e. assume the
headers and libraries are available in default search paths.
In this case it's critical that you build your project with the same version
of C++ and the same build flags as the system libraries were built with.
Note
Also see the Visual Studio versions.
To build different versions you can also just add the name of the build
variant. Some default build variants in BBv2 are release
, debug
,
profile
.
You can build libtorrent as a DLL too, by typing link=shared
, or
link=static
to build a static library.
If you want to explicitly say how to link against the runtime library, you
can set the runtime-link
feature on the command line, either to shared
or static
. Most operating systems will only allow linking shared against
the runtime, but on windows you can do both. Example:
b2 msvc-14.2 variant=release link=static runtime-link=static debug-symbols=on
Note
When building on windows, the path boost-build puts targets in may be too
long. If you get an error message like: "The input line is long", try to
pass --hash on the b2
command line.
Warning
If you link statically to the runtime library, you cannot build libtorrent as a shared library (DLL), since you will get separate heaps in the library and in the client application. It will result in crashes and possibly link errors.
Note
Some Linux systems requires linking against librt
in order to access
the POSIX clock functions. If you get an error complaining about a missing
symbol clock_gettime
, you have to give need-librt=yes
on the
b2 command line. This will make libtorrent link against librt
.
Note
When building on Solaris, you may have to specify stdlib=sun-stlport
on the b2 command line.
The build targets are put in a directory called bin, and under it they are sorted in directories depending on the toolset and build variant used.
To build the examples, just change directory to the examples directory and
invoke b2
from there. To build and run the tests, go to the test
directory and run b2
.
Note that if you're building on windows using the msvc
toolset, you cannot run it
from a cygwin terminal, you'll have to run it from a cmd
terminal. The same goes for
cygwin, if you're building with gcc in cygwin you'll have to run it from a cygwin terminal.
Also, make sure the paths are correct in the different environments. In cygwin, the paths
(BOOST_BUILD_PATH
and BOOST_ROOT
) should be in the typical Unix-format (e.g.
/cygdrive/c/boost_1_68_0
). In the windows environment, they should have the typical
windows format (c:/boost_1_68_0
).
Note
In Jamfiles, spaces are separators. It's typically easiest to avoid spaces in path names. If you want spaces in your paths, make sure to quote them with double quotes (").
The Jamfile
will define NDEBUG
when it's building a release build.
For more build configuration flags see Build configurations.
When enabling linking against openssl (by setting the crypto
feature to
openssl
) the Jamfile will look in some default directory for the openssl
headers and libraries. On macOS, it will look for the homebrew openssl package.
On Windows, it will look in C:\OpenSSL-Win32
, or C:\OpenSSL-Win64
if
compiling in 64-bit.
To customize the library path and include path for openssl, set the features
openssl-lib
and openssl-include
respectively.
The option to link with wolfSSL (by setting the crypto
feature to
wolfssl
), requires a custom build of wolfSSL using the following
options: --enable-asio --enable-sni --enable-nginx
.
To customize the library path and include path for wolfSSL, set the features
wolfssl-lib
and wolfssl-include
respectively.
Build features:
boost build feature | values |
---|---|
boost-link |
|
openssl-lib |
can be used to specify the directory where libssl and libcrypto are installed (or the windows counterparts). |
openssl-include |
can be used to specify the include directory where the openssl headers are installed. |
logging |
|
alert-msg |
|
dht |
|
asserts |
|
encryption |
|
mutable-torrents |
|
crypto |
|
openssl-version |
This can be used on windows to link against the special OpenSSL library names used on windows prior to OpenSSL 1.1.
|
link |
|
runtime-link |
|
variant |
|
invariant-checks |
This setting only affects debug builds (where
|
debug-symbols |
|
deprecated-functions |
|
i2p |
|
profile-calls |
|
utp-log |
|
picker-debugging |
|
extensions |
|
streaming |
|
super-seeding |
|
share-mode |
|
predictive-pieces |
|
fpic |
|
mmap-disk-io |
|
The variant
feature is implicit, which means you don't need to specify
the name of the feature, just the value.
When building the example client on windows, you need to build with
link=static
otherwise you may get unresolved external symbols for some
boost.program-options symbols.
For more information, see the Boost build v2 documentation, or more specifically the section on built-in features.
To install libtorrent run b2
with the install
target:
b2 install --prefix=/usr/local
Change the value of the --prefix
argument to install it in a different location.
First of all, you need to install cmake
. Additionally you need a build
system to actually schedule builds, for example ninja
.
Create a build directory for out-of-source build inside the libtorrent root directory:
mkdir build
and cd
there:
cd build
Run cmake
in the build directory, like this:
cmake -DCMAKE_BUILD_TYPE=Release -DCMAKE_CXX_STANDARD=14 -G Ninja ..
The CMAKE_CXX_STANDARD
has to be at least 14, but you may want to raise it
to 17
if your project use a newer version of the C++ standard.
Warning
The detection of boost sometimes fail in subtle ways. If you have the
BOOST_ROOT
environment variable set, it may find the pre-built system
libraries, but use the header files from your source package. To avoid this,
invoke cmake
with BOOST_ROOT
set to an empty string:
BOOST_ROOT="" cmake ...
.
Other build options are:
BUILD_SHARED_LIBS |
Defaults ON . Builds libtorrent as a shared
library. |
static_runtime |
Defaults OFF . Link libtorrent statically
against the runtime libraries. |
build_tests |
Defaults OFF . Also build the libtorrent
tests. |
build_examples |
Defaults OFF . Also build the examples in the
examples directory. |
build_tools |
Defaults OFF . Also build the tools in the
tools directory. |
python-bindings |
Defaults OFF . Also build the python bindings
in bindings/python directory. |
encryption |
Defaults ON . Support trackers and bittorrent
over TLS, and obfuscated bittorrent connections. |
Options are set on the cmake
command line with the -D
option or later on using ccmake
or cmake-gui
applications. cmake
run outputs a summary of all available options and their current values.
In the terminal, run:
ninja -j8
in the build directory the number after -j
specifies the number of parallel jobs to build in; you may omit this option to let ninja
use all your cores).
If you enabled test in the configuration step, to run them, run:
ctest -j8
You can download and install libtorrent using the vcpkg dependency manager:
git clone https://github.com/Microsoft/vcpkg.git cd vcpkg ./bootstrap-vcpkg.sh ./vcpkg integrate install ./vcpkg install libtorrent
The libtorrent port in vcpkg is kept up to date by Microsoft team members and community contributors. If the version is out of date, please create an issue or pull request on the vcpkg repository.
If you're building in MS Visual Studio, you may have to set the compiler options "force conformance in for loop scope", "treat wchar_t as built-in type" and "Enable Run-Time Type Info" to Yes.
By default libtorrent is built In debug mode, and will have pretty expensive invariant checks and asserts built into it. If you want to disable such checks (you want to do that in a release build) you can see the table below for which defines you can use to control the build. Make sure to define the same macros in your own code that compiles and links with libtorrent.
macro | description |
---|---|
NDEBUG |
If you define this macro, all asserts, invariant checks and general debug code will be removed. Since there is quite a lot of code in in header files in libtorrent, it may be important to define the symbol consistently across compilation units, including the clients files. Potential problems is different compilation units having different views of structs and class layouts and sizes. |
TORRENT_DISABLE_LOGGING |
This macro will disable support for logging alerts, like log_alert, torrent_log_alert and peer_log_alert. With this build flag, you cannot enable those alerts. |
TORRENT_DISABLE_ALERT_MSG |
Human readable messages returned from the alert
message() member functions will return
empty strings. |
TORRENT_DISABLE_SUPERSEEDING |
This macro will disable support for super seeding. The settings will exist, but will not have an effect, when this macro is defined. |
TORRENT_DISABLE_SHARE_MODE |
This macro will disable support for share-mode. i.e. the mode to maximize upload/download ratio for a torrent. |
TORRENT_DISABLE_MUTABLE_TORRENTS |
Disables mutable torrent support (BEP 38) |
TORRENT_DISABLE_STREAMING |
Disables set_piece_deadline() and associated functionality. |
TORRENT_DISABLE_PREDICTIVE_PIECES |
Disables settings_pack::predictive_piece_announce feature. |
TORRENT_LINKING_SHARED |
If this is defined when including the
libtorrent headers, the classes and functions
will be tagged with __declspec(dllimport)
on msvc and default visibility on GCC 4 and
later. Set this in your project if you're
linking against libtorrent as a shared library.
(This is set by the Jamfile when
link=shared is set). |
TORRENT_BUILDING_SHARED |
If this is defined, the functions and classes
in libtorrent are marked with
__declspec(dllexport) on msvc, or with
default visibility on GCC 4 and later. This
should be defined when building libtorrent as
a shared library. (This is set by the Jamfile
when link=shared is set). |
TORRENT_DISABLE_DHT |
If this is defined, the support for trackerless torrents will be disabled. |
TORRENT_DISABLE_ENCRYPTION |
This will disable any encryption support and
the dependencies of a crypto library.
Encryption support is the peer connection
encrypted supported by clients such as
uTorrent, Azureus and KTorrent.
If this is not defined, either
TORRENT_USE_LIBCRYPTO or
TORRENT_USE_LIBGCRYPT must be defined. |
TORRENT_DISABLE_EXTENSIONS |
When defined, libtorrent plugin support is disabled along with support for the extension handshake (BEP 10). |
TORRENT_USE_INVARIANT_CHECKS |
If defined to non-zero, this will enable internal invariant checks in libtorrent. The invariant checks can sometimes be quite expensive, they typically don't scale very well. |
TORRENT_EXPENSIVE_INVARIANT_CHECKS |
This will enable extra expensive invariant checks. Useful for finding particular bugs or for running before releases. |
TORRENT_NO_DEPRECATE |
This will exclude all deprecated functions from the header files and source files. |
TORRENT_PRODUCTION_ASSERTS |
Define to either 0 or 1. Enables assert logging in release builds. |
TORRENT_USE_ASSERTS |
Define as 0 to disable asserts unconditionally. |
TORRENT_USE_SYSTEM_ASSERTS |
Uses the libc assert macro rather then the custom one. |
TORRENT_HAVE_MMAP |
Define as 0 to disable mmap support. |
TORRENT_USE_OPENSSL |
Link against libssl for SSL support. Must
be combined with TORRENT_USE_LIBCRYPTO |
TORRENT_USE_GNUTLS |
Link against libgnutls for SSL support. |
TORRENT_USE_LIBCRYPTO |
Link against libcrypto for SHA-1 support
and other hashing algorithms. |
TORRENT_USE_LIBGCRYPT |
Link against libgcrypt for SHA-1 support
and other hashing algorithms. |
TORRENT_SSL_PEERS |
Define to enable support for SSL torrents, peers are connected over authenticated SSL streams. |
If you experience that libtorrent uses unreasonable amounts of CPU, it will
definitely help to define NDEBUG
, since it will remove the invariant checks
within the library.
To build openssl for windows with Visual Studio 7.1 (2003) execute the following commands in a command shell:
perl Configure VC-WIN32 --prefix="c:/openssl call ms\do_nasm call "C:\Program Files\Microsoft Visual Studio .NET 2003\vc7\bin\vcvars32.bat" nmake -f ms\nt.mak copy inc32\openssl "C:\Program Files\Microsoft Visual Studio .NET 2003\vc7\include\" copy out32\libeay32.lib "C:\Program Files\Microsoft Visual Studio .NET 2003\vc7\lib" copy out32\ssleay32.lib "C:\Program Files\Microsoft Visual Studio .NET 2003\vc7\lib"
This will also install the headers and library files in the visual studio directories to be picked up by libtorrent.
The following is a list of defines that libtorrent is built with: BOOST_ALL_NO_LIB
,
BOOST_ASIO_ENABLE_CANCELIO
, BOOST_ASIO_HAS_STD_CHRONO
,
BOOST_MULTI_INDEX_DISABLE_SERIALIZATION
, BOOST_NO_DEPRECATED
,
BOOST_SYSTEM_NO_DEPRECATED
Make sure you define the same at compile time for your code to avoid any runtime errors and other issues.
These might change in the future, so it's always best to verify these every time you
upgrade to a new version of libtorrent. The simplest way to see the full list of macros
defined is to build libtorrent with -n -a
switches added to b2
command line:
b2 -n -a toolset=msvc-14.2 link=static runtime-link=static boost-link=static variant=release
This will output all compiler switches, including defines (such as -DBOOST_ASIO_ENABLE_CANCELIO
).