License: see COPYING
Source code: https://github.com/libssh2/libssh2
Web site source code: https://github.com/libssh2/www
To build libssh2 you will need CMake v3.7 or later [1] and one of the following cryptography libraries:
- OpenSSL
- wolfSSL
- Libgcrypt
- WinCNG
- mbedTLS
If you are happy with the default options, make a new build directory, change to it, configure the build environment and build the project:
cmake -B bld
cmake --build bld
Use this with CMake 3.12.x or older:
mkdir bld
cd bld
cmake ..
cmake --build .
libssh2 will be built as a static library and will use any
cryptography library available. The library binary will be put in
bin/src
, with the examples in bin/example
and the tests in
bin/tests
.
You might want to customise the build options. You can pass the options to CMake on the command line:
cmake -D= ..
The following options are available:
-
LINT=ON
Enables running the source code linter when building. Can be
ON
orOFF
. Default:OFF
-
BUILD_STATIC_LIBS=OFF
Determines whether to build a libssh2 static library. Can be
ON
orOFF
. Default:ON
-
BUILD_SHARED_LIBS=OFF
Determines whether to build a libssh2 shared library (.dll/.so). Can be
ON
orOFF
. Default:ON
-
CRYPTO_BACKEND=
Chooses a specific cryptography library to use for cryptographic operations. Can be
OpenSSL
(https://www.openssl-library.org/),Libgcrypt
(https://www.gnupg.org/),WinCNG
(Windows Vista+),mbedTLS
(https://www.trustedfirmware.org/projects/mbed-tls/) or blank to use any library available.CMake will attempt to locate the libraries automatically. See [2] for more information.
-
ENABLE_ZLIB_COMPRESSION=ON
Use zlib (https://zlib.net/) for payload compression. Can be
ON
orOFF
. Default:OFF
-
ENABLE_DEBUG_LOGGING=ON
Enable the libssh2_trace() function for showing debug traces. Can be
ON
orOFF
. Default:OFF
in Release,ON
inDebug
-
CLEAR_MEMORY=OFF
Disable secure zero memory before freeing it (not recommended). Can be
ON
orOFF
. Default:ON
The previous examples used CMake to start the build using:
cmake --build .
Alternatively, once CMake has configured your project, you can use your own build tool, e.g GNU make, Visual Studio, etc., from that point onwards.
To test the build, run the appropriate test target for your build system. For example:
cmake --build . --target test
or
cmake --build . --target RUN_TESTS
If you are not using CMake for your own project, install libssh2
cmake <libssh2 source location>
cmake --build .
cmake --build . --target install
or
cmake --build . --target INSTALL
and then specify the install location to your project in the normal
way for your build environment. If you do not like the default install
location, add -DCMAKE_INSTALL_PREFIX=<chosen prefix>
when initially
configuring the project.
If your own project also uses CMake, you do not need to worry about setting it up with libssh2's location. Add the following lines and CMake will find libssh2 on your system, set up the necessary paths and link the library with your binary.
find_package(libssh2 REQUIRED CONFIG)
target_link_libraries(my_project_target libssh2::libssh2)
You still have to make libssh2 available on your system first. You can
install it in the traditional way shown above, but you do not have to.
Instead you can build it, which will export its location to the user
package registry [3] where find_package
will find it.
You can even combine the two steps using a so-called 'superbuild' project [4] that downloads, builds and exports libssh2, and then builds your project:
include(ExternalProject)
ExternalProject_Add(
libssh2
URL <libssh2 download location>
URL_HASH SHA256=<libssh2 archive SHA256>
INSTALL_COMMAND "")
ExternalProject_Add(
MyProject DEPENDS libssh2
SOURCE_DIR ${CMAKE_CURRENT_SOURCE_DIR}/src
INSTALL_COMMAND "")
[1] https://www.cmake.org/cmake/resources/software.html [2] https://www.cmake.org/cmake/help/v3.0/manual/cmake-packages.7.html [3] https://www.cmake.org/cmake/help/v3.0/manual/cmake-packages.7.html#package-registry [4] https://blog.kitware.com/wp-content/uploads/2016/01/kitware_quarterly1009.pdf