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The C based gRPC (C++, Python, Ruby, Objective-C, PHP, C#)
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257 lines
9.3 KiB
257 lines
9.3 KiB
gRPC C++ - Building from source |
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=========================== |
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This document has detailed instructions on how to build gRPC C++ from source. Note that it only covers the build of gRPC itself and is mostly meant for gRPC C++ contributors and/or power users. |
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Other should follow the user instructions. See the [How to use](https://github.com/grpc/grpc/tree/master/src/cpp#to-start-using-grpc-c) instructions for guidance on how to add gRPC as a dependency to a C++ application (there are several ways and system wide installation is often not the best choice). |
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# Pre-requisites |
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## Linux |
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```sh |
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$ [sudo] apt-get install build-essential autoconf libtool pkg-config |
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``` |
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If you plan to build using CMake |
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```sh |
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$ [sudo] apt-get install cmake |
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``` |
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If you are a contributor and plan to build and run tests, install the following as well: |
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```sh |
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$ # libgflags-dev is only required if building with make (deprecated) |
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$ [sudo] apt-get install libgflags-dev |
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$ # clang and LLVM C++ lib is only required for sanitizer builds |
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$ [sudo] apt-get install clang-5.0 libc++-dev |
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``` |
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## MacOS |
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On a Mac, you will first need to |
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install Xcode or |
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[Command Line Tools for Xcode](https://developer.apple.com/download/more/) |
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and then run the following command from a terminal: |
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```sh |
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$ [sudo] xcode-select --install |
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``` |
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To build gRPC from source, you may need to install the following |
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packages from [Homebrew](https://brew.sh): |
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```sh |
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$ brew install autoconf automake libtool shtool |
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``` |
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If you plan to build using CMake, follow the instructions from https://cmake.org/download/ |
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If you are a contributor and plan to build and run tests, install the following as well: |
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```sh |
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$ # gflags is only required if building with make (deprecated) |
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$ brew install gflags |
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``` |
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*Tip*: when building, |
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you *may* want to explicitly set the `LIBTOOL` and `LIBTOOLIZE` |
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environment variables when running `make` to ensure the version |
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installed by `brew` is being used: |
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```sh |
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$ LIBTOOL=glibtool LIBTOOLIZE=glibtoolize make |
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``` |
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## Windows |
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To prepare for cmake + Microsoft Visual C++ compiler build |
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- Install Visual Studio 2015 or 2017 (Visual C++ compiler will be used). |
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- Install [Git](https://git-scm.com/). |
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- Install [CMake](https://cmake.org/download/). |
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- Install [Active State Perl](https://www.activestate.com/activeperl/) (`choco install activeperl`) - *required by boringssl* |
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- Install [Go](https://golang.org/dl/) (`choco install golang`) - *required by boringssl* |
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- Install [nasm](https://www.nasm.us/) and add it to `PATH` (`choco install nasm`) - *required by boringssl* |
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- (Optional) Install [Ninja](https://ninja-build.org/) (`choco install ninja`) |
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# Clone the repository (including submodules) |
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Before building, you need to clone the gRPC github repository and download submodules containing source code |
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for gRPC's dependencies (that's done by the `submodule` command or `--recursive` flag). The following commands will clone the gRPC |
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repository at the latest stable version. |
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## Unix |
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```sh |
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$ git clone -b $(curl -L https://grpc.io/release) https://github.com/grpc/grpc |
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$ cd grpc |
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$ git submodule update --init |
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``` |
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## Windows |
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``` |
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> @rem You can also do just "git clone --recursive -b THE_BRANCH_YOU_WANT https://github.com/grpc/grpc" |
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> powershell git clone --recursive -b ((New-Object System.Net.WebClient).DownloadString(\"https://grpc.io/release\").Trim()) https://github.com/grpc/grpc |
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> cd grpc |
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> @rem To update submodules at later time, run "git submodule update --init" |
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``` |
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NOTE: The `bazel` build tool uses a different model for dependencies. You only need to worry about downloading submodules if you're building |
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with something else than `bazel` (e.g. `cmake`). |
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# Build from source |
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In the C++ world, there's no "standard" build system that would work for in all supported use cases and on all supported platforms. |
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Therefore, gRPC supports several major build systems, which should satisfy most users. Depending on your needs |
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we recommend building using `bazel` or `cmake`. |
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## Building with bazel (recommended) |
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Bazel is the primary build system for gRPC C++ and if you're comfortable with using bazel, we can certainly recommend it. |
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Using bazel will give you the best developer experience as well as faster and cleaner builds. |
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You'll need `bazel` version `1.0.0` or higher to build gRPC. |
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See [Installing Bazel](https://docs.bazel.build/versions/master/install.html) for instructions how to install bazel on your system. |
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We support building with `bazel` on Linux, MacOS and Windows. |
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From the grpc repository root |
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``` |
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# Build gRPC C++ |
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$ bazel build :all |
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``` |
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``` |
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# Run all the C/C++ tests |
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$ bazel test --config=dbg //test/... |
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``` |
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NOTE: If you are gRPC maintainer and you have access to our test cluster, you should use the our [gRPC's Remote Execution environment](tools/remote_build/README.md) |
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to get significant improvement to the build and test speed (and a bunch of other very useful features). |
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## Building with CMake |
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### Linux/Unix, Using Make |
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Run from grpc directory after cloning the repo with --recursive or updating submodules. |
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``` |
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$ mkdir -p cmake/build |
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$ cd cmake/build |
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$ cmake ../.. |
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$ make |
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``` |
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If you want to build shared libraries (`.so` files), run `cmake` with `-DBUILD_SHARED_LIBS=ON`. |
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### Windows, Using Visual Studio 2015 or 2017 |
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When using the "Visual Studio" generator, |
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cmake will generate a solution (`grpc.sln`) that contains a VS project for |
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every target defined in `CMakeLists.txt` (+ few extra convenience projects |
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added automatically by cmake). After opening the solution with Visual Studio |
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you will be able to browse and build the code. |
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``` |
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> @rem Run from grpc directory after cloning the repo with --recursive or updating submodules. |
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> md .build |
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> cd .build |
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> cmake .. -G "Visual Studio 14 2015" |
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> cmake --build . --config Release |
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``` |
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If you want to build DLLs, run `cmake` with `-DBUILD_SHARED_LIBS=ON`. |
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### Windows, Using Ninja (faster build). |
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Please note that when using Ninja, you will still need Visual C++ (part of Visual Studio) |
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installed to be able to compile the C/C++ sources. |
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``` |
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> @rem Run from grpc directory after cloning the repo with --recursive or updating submodules. |
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> md .build |
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> cd .build |
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> call "%VS140COMNTOOLS%..\..\VC\vcvarsall.bat" x64 |
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> cmake .. -GNinja -DCMAKE_BUILD_TYPE=Release |
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> cmake --build . |
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``` |
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If you want to build DLLs, run `cmake` with `-DBUILD_SHARED_LIBS=ON`. |
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### Dependency management |
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gRPC's CMake build system provides two modes for handling dependencies. |
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* module - build dependencies alongside gRPC. |
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* package - use external copies of dependencies that are already available |
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on your system. |
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This behavior is controlled by the `gRPC_<depname>_PROVIDER` CMake variables, |
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ie `gRPC_CARES_PROVIDER`. |
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### Install after build |
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Perform the following steps to install gRPC using CMake. |
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* Set `gRPC_INSTALL` to `ON` |
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* Build the `install` target |
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The install destination is controlled by the |
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[`CMAKE_INSTALL_PREFIX`](https://cmake.org/cmake/help/latest/variable/CMAKE_INSTALL_PREFIX.html) variable. |
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If you are running CMake v3.13 or newer you can build gRPC's dependencies |
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in "module" mode and install them alongside gRPC in a single step. |
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[Example](test/distrib/cpp/run_distrib_test_cmake_module_install.sh) |
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If you are using an older version of gRPC, you will need to select "package" |
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mode (rather than "module" mode) for the dependencies. |
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This means you will need to have external copies of these libraries available |
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on your system. |
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``` |
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$ cmake .. -DgRPC_CARES_PROVIDER=package \ |
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-DgRPC_PROTOBUF_PROVIDER=package \ |
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-DgRPC_SSL_PROVIDER=package \ |
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-DgRPC_ZLIB_PROVIDER=package |
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$ make |
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$ make install |
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``` |
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[Example](test/distrib/cpp/run_distrib_test_cmake.sh) |
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### Cross-compiling |
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You can use CMake to cross-compile gRPC for another architecture. In order to |
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do so, you will first need to build `protoc` and `grpc_cpp_plugin` |
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for the host architecture. These tools are used during the build of gRPC, so |
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we need copies of executables that can be run natively. |
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You will likely need to install the toolchain for the platform you are |
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targeting for your cross-compile. Once you have done so, you can write a |
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toolchain file to tell CMake where to find the compilers and system tools |
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that will be used for this build. |
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This toolchain file is specified to CMake by setting the `CMAKE_TOOLCHAIN_FILE` |
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variable. |
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``` |
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$ cmake .. -DCMAKE_TOOLCHAIN_FILE=path/to/file |
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$ make |
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``` |
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[Cross-compile example](test/distrib/cpp/run_distrib_test_raspberry_pi.sh) |
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## Building with make on UNIX systems (deprecated) |
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NOTE: `make` used to be gRPC's default build system, but we're no longer recommending it. You should use `bazel` or `cmake` instead. The `Makefile` is only intended for internal usage and is not meant for public consumption. |
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From the grpc repository root |
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```sh |
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$ make |
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``` |
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NOTE: if you get an error on linux such as 'aclocal-1.15: command not found', which can happen if you ran 'make' before installing the pre-reqs, try the following: |
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```sh |
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$ git clean -f -d -x && git submodule foreach --recursive git clean -f -d -x |
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$ [sudo] apt-get install build-essential autoconf libtool pkg-config |
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$ make |
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``` |
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### A note on `protoc` |
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By default gRPC uses [protocol buffers](https://github.com/google/protobuf), |
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you will need the `protoc` compiler to generate stub server and client code. |
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If you compile gRPC from source, as described below, the Makefile will |
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automatically try compiling the `protoc` in third_party if you cloned the |
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repository recursively and it detects that you do not already have 'protoc' compiler |
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installed.
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