Creating conan packages to install dev tools
One of the most useful features of Conan is to package executables like compilers or build tools and distribute them in a controlled way to the team of developers. This way Conan helps not only with the graph of dependencies of the application itself, but also with all the ecosystem needed to generate the project, making it really easy to control everything involved in the deployed application.
Those tools need to run in the working machine (the build
machine) regardless of the host
platform
where the generated binaries will run. If those platforms are different, we are cross building software.
In this section we cope with the general scenario where a library requires other tools to compile that are also packaged with Conan. Read this section first, and get more information specific to cross compiling in the dedicated section of the docs: Cross building.
Note
Conan v1.24 introduced a new feature to declare a full profile for the build
and the host
machine,
it is the preferred way to deal with this scenario. Older versions should rely on the deprecated
settings os_build
and arch_build
. There is a small section below about those settings, for a full
explanation read the docs matching your Conan client.
A Conan package for a tool is like any other package with an executable. Here it is a recipe for packaging
the nasm
tool for building assembler:
import os
from conans import ConanFile, tools
from conans.errors import ConanInvalidConfiguration
class NasmConan(ConanFile):
name = "nasm"
version = "2.13.02"
license = "BSD-2-Clause"
url = "https://github.com/conan-io/conan-center-index"
settings = "os", "arch"
description="Nasm for windows. Useful as a build_require."
def configure(self):
if self.settings.os != "Windows":
raise ConanInvalidConfiguration("Only windows supported for nasm")
@property
def nasm_folder_name(self):
return "nasm-%s" % self.version
def build(self):
suffix = "win32" if self.settings.arch == "x86" else "win64"
nasm_zip_name = "%s-%s.zip" % (self.nasm_folder_name, suffix)
tools.download("http://www.nasm.us/pub/nasm/releasebuilds/"
"%s/%s/%s" % (self.version, suffix, nasm_zip_name), nasm_zip_name)
self.output.info("Downloading nasm: "
"http://www.nasm.us/pub/nasm/releasebuilds"
"/%s/%s/%s" % (self.version, suffix, nasm_zip_name))
tools.unzip(nasm_zip_name)
os.unlink(nasm_zip_name)
def package(self):
self.copy("*", src=self.nasm_folder_name, dst="bin", keep_path=True)
self.copy("license*", dst="", src=self.nasm_folder_name, keep_path=False, ignore_case=True)
def package_info(self):
self.env_info.PATH.append(os.path.join(self.package_folder, "bin"))
This recipe has nothing special: it doesn’t declare the compiler
and build_type
settings because it is downloading
already available binaries, and it is declaring the information for their consumers as usual in the package_info() method:
The cpp_info is not declared, so it will take its default values: the
bindirs
will point to thebin
folder where thenasm.exe
executable is packaged.In the env_info attribute, it is adding the
bin
folder to thePATH
environment variable.
This two simple declarations are enough to reuse this tool in the scenarios we are detailing below.
Using the tool packages in other recipes
Warning
This section refers to the experimental feature that is activated when using --profile:build
and --profile:host
in the command-line. It is currently under development, features can be added or removed in the following versions.
These kind of tools are not usually part of the application graph itself, they are needed only to build the library, so you should usually declare them as build requirements, in the recipe itself or in a profile.
For example, there are many recipes that can take advantage of the nasm
package we’ve seen above, like
flac or libx264
that are already available in ConanCenter. Those recipes will take advantage of nasm
being in the PATH to run some assembly optimizations.
class LibX264Conan(ConanFile):
name = "libx264"
...
build_requires = "nasm/2.13.02"
def build(self):
... # ``nasm.exe`` will be in the PATH here
def package_info(self):
self.cpp_info.libs = [...]
The consumer recipe needs only to declare the corresponding build_require
and Conan will take care
of adding the required paths to the corresponding environment variables:
conan create path/to/libx264 --profile:build=windows --profile:host=profile_host
Here we are telling Conan to create the package for the libx264
for the host
platform defined
in the profile profile_host
file and to use the profile windows
for all the build requirements
that are in the build
context. In other words: in this example we are running a Windows machine
and we need a version of nasm
compatible with this machine, so we are providing a windows
profile
for the build
context, and we are generating the library for the host
platform which is declared
in the profile_host
profile (read more about build requires context).
Using two profiles forces Conan to make this distinction between recipes in the build
context and those
in the host
context. It has several advantages:
Recipes for these tools are regular recipes, no need to adapt them (before 1.24 they require special settings and some package ID customization).
We provide a full profile for the
build
machine, so Conan is able to compile those build requirements from sources if they are not already available.Conan will add to the environment not only the path to the
bin
folder, but also it will populate theDYLD_LIBRARY_PATH
andLD_LIBRARY_PATH
variables that are needed to find the shared libraries that tool could need during runtime.
Using the tool packages in your system
A different scenario is when you want to use in your system the binaries generated by Conan, to achieve this objective you can use the virtualrunenv generator to get your environment populated with the required variables.
For example: Working in Windows with the nasm
package we’ve already defined:
Create a separate folder from your project, this folder will handle our global development environment.
$ mkdir my_cpp_environ $ cd my_cpp_environ
Create a conanfile.txt file:
[requires] nasm/2.13.02 # You can add more tools here [generators] virtualrunenv
Install them. Here it doesn’t matter if you use only the
host
profile or thebuild
one too because the environment that is going to be populated includes only the root of the graph and its dependencies, without any build requirement. In any case, theprofile:host
needed is the one corresponding to the Windows machine where we are running these tests.$ conan install . --profile:host=windows [--profile:build=windows]
Activate the virtual environment in your shell:
$ activate_run (my_cpp_environ)$
Check that the tools are in the path:
(my_cpp_environ)$ nasm --version > NASM version 2.13.02 compiled on Dec 18 2019
You can deactivate the virtual environment with the deactivate.bat script
(my_cpp_environ)$ deactivate_run