This tutorial uses an example scenario to describe how to configure C++ toolchains for a project. It's based on an example C++ project that builds error-free using clang
.
In this tutorial, you will create a Starlark rule that provides additional configuration for the cc_toolchain
so that Bazel can build the application with clang
. The expected outcome is to run bazel build --config=clang_config //main:hello-world
on a Linux machine and build the C++ application. For additional details please visit C++ toolchain configuration
This tutorial assumes you are on Linux on which you have successfully built C++ applications - in other words, we assume that appropriate tooling and libraries have been installed. The tutorial uses clang version 9.0.1
which you can install on your system.
Set up your build environment as follows:
If you have not already done so, download and install Bazel 0.23 or later.
Download the example C++ project from GitHub and place it in an empty directory on your local machine.
Add the following cc_binary
target to the main/BUILD
file:
cc_binary( name = "hello-world", srcs = ["hello-world.cc"], )
Create a .bazelrc
file at the root of the workspace directory with the following contents to enable the use of the --config
flag:
# Use our custom-configured c++ toolchain. build:clang_config --crosstool_top=//toolchain:clang_suite # Use --cpu as a differentiator. build:clang_config --cpu=k8 # Use the default Bazel C++ toolchain to build the tools used during the # build. build:clang_config --host_crosstool_top=@bazel_tools//tools/cpp:toolchain
For an entry build:{config_name} --flag=value
, the command line flag --config={config_name}
will be associated with that particular flag. See documentation for the flags used: crosstool_top, cpu and host_crosstool_top.
What this means is that when we build our target with bazel build --config=clang_config //main:hello-world
Bazel will use our custom toolchain from the cc_toolchain_suite //toolchain:clang_suite
. The suite may list different toolchains for different CPUs, that's why we differentiate with the flag --cpu=k8
.
Since Bazel uses many internal tools written in C++ during the build, such as process-wrapper, we are specifying the pre-existing default C++ toolchain for the host platform, so that these tools are built using that toolchain instead of the one created in this tutorial.
To configure the C++ toolchain, repeatedly build the application and eliminate each error one by one as described below.
Note: This tutorial assumes you‘re using Bazel 0.23 or later. If you’re using an older release of Bazel, look for the “Configuring CROSSTOOL” tutorial. It also assumes clang version 9.0.1
, although the details should only change slightly between different versions of clang.
Run the build with the following command:
bazel build --config=clang_config //main:hello-world
Because you specified --crosstool_top=//toolchain:clang_suite
in the .bazelrc
file, Bazel throws the following error:
No such package `toolchain`: BUILD file not found on package path.
In the workspace directory, create the toolchain
directory for the package and an empty BUILD
file inside the toolchain
directory.
Run the build again. Because the toolchain
package does not yet define the clang_suite
target, Bazel throws the following error:
No such target '//toolchain:clang_suite': target 'clang_suite' not declared in package 'toolchain' defined by .../toolchain/BUILD
In the toolchain/BUILD
file, define an empty filegroup as follows:
package(default_visibility = ["//visibility:public"]) filegroup(name = "clang_suite")
Run the build again. Bazel throws the following error:
'//toolchain:clang_suite' does not have mandatory providers: 'ToolchainInfo'
Bazel discovered that the --crosstool_top
flag points to a rule that doesn't provide the necessary ToolchainInfo
provider. So we need to point --crosstool_top
to a rule that does provide ToolchainInfo
- that is the cc_toolchain_suite
rule. In the toolchain/BUILD
file, replace the empty filegroup with the following:
cc_toolchain_suite( name = "clang_suite", toolchains = { "k8": ":k8_toolchain", }, )
The toolchains
attribute automatically maps the --cpu
(and also --compiler
when specified) values to cc_toolchain
. You have not yet defined any cc_toolchain
targets and Bazel will complain about that shortly.
Run the build again. Bazel throws the following error:
Rule '//toolchain:k8_toolchain' does not exist
Now you need to define cc_toolchain
targets for every value in the cc_toolchain_suite.toolchains
attribute. Add the following to the toolchain/BUILD
file:
filegroup(name = "empty") cc_toolchain( name = "k8_toolchain", toolchain_identifier = "k8-toolchain", toolchain_config = ":k8_toolchain_config", all_files = ":empty", compiler_files = ":empty", dwp_files = ":empty", linker_files = ":empty", objcopy_files = ":empty", strip_files = ":empty", supports_param_files = 0, )
Run the build again. Bazel throws the following error:
Rule '//toolchain:k8_toolchain_config' does not exist
Let's add a “:k8_toolchain_config” target to the toolchain/BUILD
file:
filegroup(name = "k8_toolchain_config")
Run the build again. Bazel throws the following error:
'//toolchain:k8_toolchain_config' does not have mandatory providers: 'CcToolchainConfigInfo'
CcToolchainConfigInfo
is a provider that we use to configure our C++ toolchains. We are going to create a Starlark rule that will provide CcToolchainConfigInfo
. Create a toolchain/cc_toolchain_config.bzl
file with the following content:
def _impl(ctx): return cc_common.create_cc_toolchain_config_info( ctx = ctx, toolchain_identifier = "k8-toolchain", host_system_name = "local", target_system_name = "local", target_cpu = "k8", target_libc = "unknown", compiler = "clang", abi_version = "unknown", abi_libc_version = "unknown", ) cc_toolchain_config = rule( implementation = _impl, attrs = {}, provides = [CcToolchainConfigInfo], )
cc_common.create_cc_toolchain_config_info()
creates the needed provider CcToolchainConfigInfo
. Now let's declare a rule that will make use of the newly implemented cc_toolchain_config
rule. Add a load statement to toolchains/BUILD
:
load(":cc_toolchain_config.bzl", "cc_toolchain_config")
And replace the “k8_toolchain_config” filegroup with a declaration of a cc_toolchain_config
rule:
cc_toolchain_config(name = "k8_toolchain_config")
Run the build again. Bazel throws the following error:
.../BUILD:1:1: C++ compilation of rule '//:hello-world' failed (Exit 1) src/main/tools/linux-sandbox-pid1.cc:421: "execvp(toolchain/DUMMY_GCC_TOOL, 0x11f20e0)": No such file or directory Target //:hello-world failed to build`
At this point, Bazel has enough information to attempt building the code but it still does not know what tools to use to complete the required build actions. We will modify our Starlark rule implementation to tell Bazel what tools to use. For that, we'll need the tool_path() constructor from @bazel_tools//tools/cpp:cc_toolchain_config_lib.bzl
:
# toolchain/cc_toolchain_config.bzl: # NEW load("@bazel_tools//tools/cpp:cc_toolchain_config_lib.bzl", "tool_path") def _impl(ctx): tool_paths = [ # NEW tool_path( name = "gcc", path = "/usr/bin/clang", ), tool_path( name = "ld", path = "/usr/bin/ld", ), tool_path( name = "ar", path = "/usr/bin/ar", ), tool_path( name = "cpp", path = "/bin/false", ), tool_path( name = "gcov", path = "/bin/false", ), tool_path( name = "nm", path = "/bin/false", ), tool_path( name = "objdump", path = "/bin/false", ), tool_path( name = "strip", path = "/bin/false", ), ] return cc_common.create_cc_toolchain_config_info( ctx = ctx, toolchain_identifier = "local", host_system_name = "local", target_system_name = "local", target_cpu = "k8", target_libc = "unknown", compiler = "clang", abi_version = "unknown", abi_libc_version = "unknown", tool_paths = tool_paths, # NEW )
Make sure that /usr/bin/clang
and /usr/bin/ld
are the correct paths for your system.
Run the build again. Bazel throws the following error:
..../BUILD:3:1: undeclared inclusion(s) in rule '//main:hello-world': this rule is missing dependency declarations for the following files included by 'main/hello-world.cc': '/usr/include/c++/9/ctime' '/usr/include/x86_64-linux-gnu/c++/9/bits/c++config.h' '/usr/include/x86_64-linux-gnu/c++/9/bits/os_defines.h' ....
Bazel needs to know where to search for included headers. There are multiple ways to solve this like using the includes
attribute of cc_binary
, but here we will solve it at the toolchain level with the cxx_builtin_include_directories
parameter of cc_common.create_cc_toolchain_config_info
. Beware that if you are using a different version of clang
, the include path will be different. These paths may also be different depending on the distribution.
Modify the return value in toolchain/cc_toolchain_config.bzl
to look like this:
return cc_common.create_cc_toolchain_config_info( ctx = ctx, cxx_builtin_include_directories = [ # NEW "/usr/lib/llvm-9/lib/clang/9.0.1/include", "/usr/include", ], toolchain_identifier = "local", host_system_name = "local", target_system_name = "local", target_cpu = "k8", target_libc = "unknown", compiler = "clang", abi_version = "unknown", abi_libc_version = "unknown", tool_paths = tool_paths, )
Run the build command again, you will see an error like:
/usr/bin/ld: bazel-out/k8-fastbuild/bin/main/_objs/hello-world/hello-world.o: in function `print_localtime()': hello-world.cc:(.text+0x68): undefined reference to `std::cout'
The reason for this is because the linker is missing the C++ standard library and it can‘t find its symbols. There are many ways to solve this, like using the linkopts
attribute of cc_binary
. Here we will solve it making sure that any target using our toolchain doesn’t have to specify this flag. Copy the following code to cc_toolchain_config.bzl
.
# NEW load("@bazel_tools//tools/build_defs/cc:action_names.bzl", "ACTION_NAMES") # NEW load( "@bazel_tools//tools/cpp:cc_toolchain_config_lib.bzl", "feature", "flag_group", "flag_set", "tool_path", ) all_link_actions = [ # NEW ACTION_NAMES.cpp_link_executable, ACTION_NAMES.cpp_link_dynamic_library, ACTION_NAMES.cpp_link_nodeps_dynamic_library, ] def _impl(ctx): tool_paths = [ tool_path( name = "gcc", path = "/usr/bin/clang", ), tool_path( name = "ld", path = "/usr/bin/ld", ), tool_path( name = "ar", path = "/bin/false", ), tool_path( name = "cpp", path = "/bin/false", ), tool_path( name = "gcov", path = "/bin/false", ), tool_path( name = "nm", path = "/bin/false", ), tool_path( name = "objdump", path = "/bin/false", ), tool_path( name = "strip", path = "/bin/false", ), ] features = [ # NEW feature( name = "default_linker_flags", enabled = True, flag_sets = [ flag_set( actions = all_link_actions, flag_groups = ([ flag_group( flags = [ "-lstdc++", ], ), ]), ), ], ), ] return cc_common.create_cc_toolchain_config_info( ctx = ctx, features = features, # NEW cxx_builtin_include_directories = [ "/usr/lib/llvm-9/lib/clang/9.0.1/include", "/usr/include", ], toolchain_identifier = "local", host_system_name = "local", target_system_name = "local", target_cpu = "k8", target_libc = "unknown", compiler = "clang", abi_version = "unknown", abi_libc_version = "unknown", tool_paths = tool_paths, ) cc_toolchain_config = rule( implementation = _impl, attrs = {}, provides = [CcToolchainConfigInfo], )
If you run bazel build --config=clang_config //main:hello-world
, it should finally build.
In this tutorial you have learned how to configure a basic C++ toolchain. But toolchains are much more powerful than this simple example. You can visit C++ toolchain configuration to learn more about them.
The key take-aways are:
--crosstool_top
flag in the command line which should point to a cc_toolchain_suite
.bazelrc
filecc_toolchains
for different CPUs and compilers. You can use command line flags like --cpu
to differentiate.cc_toolchain
via target dependencies on attributes like compiler_files
. The tool_paths
would need to be changed as well.