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Packaging google-cloud-cpp

This document is intended for:

  • Package maintainers that need to understand how to compile google-cloud-cpp from source to create their packaging scripts.
  • Developers who may not be able to use a package manager and want to compile the google-cloud-cpp libraries from source, including their dependencies.
  • Developers who might like to install the google-cloud-cpp libraries in /usr/local or a similar directory.

This document does not cover all cases for building google-cloud-cpp. The following are out of scope:

  • Developers who prefer using a package manager such as vcpkg, or Conda, should follow the instructions for their package manager.
  • Developers wanting to use the libraries as part of a larger CMake or Bazel project should consult the quickstart guides for the library or libraries they want to use.
  • Developers wanting to compile the library just to run examples or tests should consult the building and installing section of the top-level README file.
  • Contributors and developers to google-cloud-cpp should consult the guide to set up a development workstation.

Getting the source code

There are two primary ways of obtaining google-cloud-cpp's source code. You can use git:

git clone https://github.com/googleapis/google-cloud-cpp.git $HOME/google-cloud-cpp

Or obtain the tarball release (see https://github.com/googleapis/google-cloud-cpp/releases for the latest release):

VERSION="vX.Y.Z"
mkdir -p $HOME/google-cloud-cpp
wget -q https://github.com/googleapis/google-cloud-cpp/archive/${VERSION}.tar.gz
tar -xf ${VERSION}.tar.gz -C $HOME/google-cloud-cpp --strip=1

Installing google-cloud-cpp with pre-existing dependencies

If all the dependencies of google-cloud-cpp are installed and provide CMake support files, then compiling and installing the libraries requires two commands:

cmake -H. -Bcmake-out -DBUILD_TESTING=OFF -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF
cmake --build cmake-out --target install

Unfortunately getting your system to this state may require multiple steps, the following sections describe how to install google-cloud-cpp on several platforms.

Common Configuration Variables for CMake

As is often the case, the CMake build can be configured using a number of options and command-line flags. A full treatment of these options is outside the scope of this document, but here are a few highlights:

  • Consider using -GNinja to switch the generator from make (or msbuild on Windows) to ninja. In our experience ninja takes better advantage of multicore machines. Be aware that ninja is often not installed in development workstations, but it is available through most package managers.
  • If you use the default generator, consider appending -- -j ${NCPU} to the build command, where NCPU is an environment variable set to the number of processors on your system. You can obtain this information using the nproc command on Linux, or sysctl -n hw.physicalcpu on macOS.
  • By default, CMake compiles the google-cloud-cpp as static libraries. The standard -DBUILD_SHARED_LIBS=ON option can be used to switch this to shared libraries. Having said this, on Windows there are known issues with DLLs and generated protos.
  • With the default configuration, our CMake scripts will only compile a small subset of the libraries. As the number of libraries grows, we did not want to impose longer build times on existing customers.
    • You can use the -DGOOGLE_CLOUD_CPP_ENABLE=... option to configure the set of libraries compiled and installed by CMake.
    • For example, passing -DGOOGLE_CLOUD_CPP_ENABLE=storage will only compile the storage library. The target for this library is google-cloud-cpp::storage.
    • The google/cloud/${library}/README.md files describe what services are supported by each library.
    • You can provide more than one library. For example, -DGOOGLE_CLOUD_CPP_ENABLE=pubsub,iam,speech will compile the pubsub, iam, and speech libraries.
    • The default is to compile bigtable, bigquery, iam, logging, pubsub, spanner, and storage.
    • You can use -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__ to compile all the GA libraries.
    • The storage library does not depend on gRPC or Protobuf. Customers only using this library can remove the build steps to compile these dependencies.

For more information about google-cloud-cpp configuration options, see the Compile time configuration guide.

Using google-cloud-cpp after it is installed

Once installed, follow any of the quickstart guides to use google-cloud-cpp in your CMake or Make-based project. If you are planning to use Bazel for your own project, there is no need to install google-cloud-cpp, we provide BUILD.bazel files for this purpose. The quickstart guides also cover this use-case.

Required Libraries

google-cloud-cpp directly depends on the following libraries:

Library Minimum version Description
Abseil 20200923, Patch 3 Abseil C++ common library (Requires >= 20210324.2 for pkg-config files to work correctly)
gRPC 1.35.x An RPC library and framework (not needed for Google Cloud Storage client)
libcurl 7.47.0 HTTP client library for the Google Cloud Storage client
crc32c 1.0.6 Hardware-accelerated CRC32C implementation
OpenSSL 1.0.2 Crypto functions for Google Cloud Storage authentication
nlohmann/json 3.4.0 JSON for Modern C++
protobuf v21.1 C++ Micro-generator support

Note that these libraries may also depend on other libraries. The following instructions include steps to install these indirect dependencies too.

Install Instructions per Platform

When possible, the instructions below prefer to use pre-packaged versions of these libraries and their dependencies. In some cases the packages do not exist, or the packaged versions are too old to support google-cloud-cpp. If this is the case, the instructions describe how you can manually download and install these dependencies.

Alpine (Stable)

Install the minimal development tools, libcurl, and OpenSSL:

apk update && \
    apk add bash ca-certificates ccache cmake curl git \
        gcc g++ make tar unzip zip zlib-dev

Alpine's version of pkg-config (https://github.com/pkgconf/pkgconf) is slow when handling .pc files with lots of Requires: deps, which happens with Abseil, so we use the normal pkg-config binary, which seems to not suffer from this bottleneck. For more details see pkgconf/pkgconf#229 and googleapis#7052.

mkdir -p $HOME/Downloads/pkg-config-cpp && cd $HOME/Downloads/pkg-config-cpp
curl -sSL https://pkgconfig.freedesktop.org/releases/pkg-config-0.29.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    ./configure --with-internal-glib && \
    make -j ${NCPU:-4} && \
sudo make install
export PKG_CONFIG_PATH=/usr/local/lib64/pkgconfig:/usr/local/lib/pkgconfig:/usr/lib64/pkgconfig

Dependencies

The versions of Abseil, Protobuf, gRPC, OpenSSL, and nlohmann-json included with Alpine >= 3.16 meet google-cloud-cpp's requirements. We can simply install the development packages

apk update && \
    apk add abseil-cpp-dev c-ares-dev curl-dev grpc-dev \
        protobuf-dev nlohmann-json openssl-dev re2-dev

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4}

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
Fedora (37)

Install the minimal development tools:

sudo dnf makecache && \
sudo dnf install -y ccache cmake curl findutils gcc-c++ git make ninja-build \
        openssl-devel patch unzip tar wget zip zlib-devel

Fedora 37 includes packages, with recent enough versions, for most of the direct dependencies of google-cloud-cpp.

sudo dnf makecache && \
sudo dnf install -y protobuf-compiler protobuf-devel grpc-cpp grpc-devel \
        libcurl-devel google-crc32c-devel

Patching pkg-config

If you are not planning to use pkg-config(1) you can skip these steps.

Fedora's version of pkg-config (https://github.com/pkgconf/pkgconf) is slow when handling .pc files with lots of Requires: deps, which happens with Abseil. If you plan to use pkg-config with any of the installed artifacts, you may want to use a recent version of the standard pkg-config binary. If not, sudo dnf install pkgconfig should work.

mkdir -p $HOME/Downloads/pkg-config-cpp && cd $HOME/Downloads/pkg-config-cpp
curl -sSL https://pkgconfig.freedesktop.org/releases/pkg-config-0.29.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    ./configure --with-internal-glib && \
    make -j ${NCPU:-4} && \
sudo make install && \
sudo ldconfig

The version of RE2 included with this distro hard-codes C++11 in its pkg-config file. This is fixed in later versions, and it is unnecessary as Fedora's compiler defaults to C++17. If you are not planning to use pkg-config(1) you can ignore this step. Alternatively, you can install RE2 and gRPC from source.

mkdir -p $HOME/Downloads/re2 && cd $HOME/Downloads/re2
sed -i 's/-std=c\+\+11 //' /usr/lib64/pkgconfig/re2.pc

The following steps will install libraries and tools in /usr/local. By default, pkg-config does not search in these directories.

export PKG_CONFIG_PATH=/usr/local/share/pkgconfig:/usr/lib64/pkgconfig

nlohmann_json library

The project depends on the nlohmann_json library. We use CMake to install it as this installs the necessary CMake configuration files. Note that this is a header-only library, and often installed manually. This leaves your environment without support for CMake pkg-config.

mkdir -p $HOME/Downloads/json && cd $HOME/Downloads/json
curl -sSL https://github.com/nlohmann/json/archive/v3.11.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DBUILD_SHARED_LIBS=yes \
      -DBUILD_TESTING=OFF \
      -DJSON_BuildTests=OFF \
      -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
openSUSE (Leap)

Install the minimal development tools, libcurl and OpenSSL. The gRPC Makefile uses which to determine whether the compiler is available. Install this command for the extremely rare case where it may be missing from your workstation or build server.

sudo zypper refresh && \
sudo zypper install --allow-downgrade -y automake ccache cmake curl \
        gcc gcc-c++ git gzip libcurl-devel libopenssl-devel \
        libtool make patch re2-devel tar wget which zlib zlib-devel-static

The following steps will install libraries and tools in /usr/local. openSUSE does not search for shared libraries in these directories by default, there are multiple ways to solve this problem, the following steps are one solution:

(echo "/usr/local/lib" ; echo "/usr/local/lib64") | \
sudo tee /etc/ld.so.conf.d/usrlocal.conf
export PKG_CONFIG_PATH=/usr/local/lib/pkgconfig:/usr/local/lib64/pkgconfig
export PATH=/usr/local/bin:${PATH}

Abseil

We need a recent version of Abseil.

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. We recommend that you switch the default configuration to pin Abseil's ABI to the version used at compile time. In this case, the compiler defaults to C++14. Therefore, we change absl/base/options.h to always use absl::any, absl::string_view, and absl::variant. See abseil/abseil-cpp#696 for more information.

mkdir -p $HOME/Downloads/abseil-cpp && cd $HOME/Downloads/abseil-cpp
curl -sSL https://github.com/abseil/abseil-cpp/archive/20230125.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    sed -i 's/^#define ABSL_OPTION_USE_\(.*\) 2/#define ABSL_OPTION_USE_\1 0/' "absl/base/options.h" && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DABSL_BUILD_TESTING=OFF \
      -DBUILD_SHARED_LIBS=yes \
      -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Protobuf

We need to install a version of Protobuf that is recent enough to support the Google Cloud Platform proto files:

mkdir -p $HOME/Downloads/protobuf && cd $HOME/Downloads/protobuf
curl -sSL https://github.com/protocolbuffers/protobuf/archive/v21.12.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -Dprotobuf_BUILD_TESTS=OFF \
        -Dprotobuf_ABSL_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

c-ares

Recent versions of gRPC require c-ares >= 1.11, while openSUSE/Leap distributes c-ares-1.9. Manually install a newer version:

mkdir -p $HOME/Downloads/c-ares && cd $HOME/Downloads/c-ares
curl -sSL https://github.com/c-ares/c-ares/archive/cares-1_14_0.tar.gz | \
    tar -xzf - --strip-components=1 && \
    ./buildconf && ./configure && make -j ${NCPU:-4} && \
sudo make install && \
sudo ldconfig

gRPC

We also need a version of gRPC that is recent enough to support the Google Cloud Platform proto files. We manually install it using:

mkdir -p $HOME/Downloads/grpc && cd $HOME/Downloads/grpc
curl -sSL https://github.com/grpc/grpc/archive/v1.52.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DgRPC_INSTALL=ON \
        -DgRPC_BUILD_TESTS=OFF \
        -DgRPC_ABSL_PROVIDER=package \
        -DgRPC_CARES_PROVIDER=package \
        -DgRPC_PROTOBUF_PROVIDER=package \
        -DgRPC_RE2_PROVIDER=package \
        -DgRPC_SSL_PROVIDER=package \
        -DgRPC_ZLIB_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

nlohmann_json library

The project depends on the nlohmann_json library. We use CMake to install it as this installs the necessary CMake configuration files. Note that this is a header-only library, and often installed manually. This leaves your environment without support for CMake pkg-config.

mkdir -p $HOME/Downloads/json && cd $HOME/Downloads/json
curl -sSL https://github.com/nlohmann/json/archive/v3.11.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DBUILD_SHARED_LIBS=yes \
      -DBUILD_TESTING=OFF \
      -DJSON_BuildTests=OFF \
      -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
Ubuntu (22.04 LTS - Jammy Jellyfish)

Install the minimal development tools, libcurl, OpenSSL and libc-ares:

export DEBIAN_FRONTEND=noninteractive
sudo apt-get update && \
sudo apt-get --no-install-recommends install -y apt-transport-https apt-utils \
        automake build-essential ccache cmake ca-certificates curl git \
        gcc g++ libc-ares-dev libc-ares2 libcurl4-openssl-dev libre2-dev \
        libssl-dev m4 make pkg-config tar wget zlib1g-dev

Abseil

We need a recent version of Abseil.

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. We recommend that you switch the default configuration to pin Abseil's ABI to the version used at compile time. In this case, the compiler defaults to C++17. Nevertheless, gRPC compiles with C++11 and depends on some of the Abseil polyfills, such as absl::string_view. Therefore, we pin Abseil's ABI to always use the polyfills. See abseil/abseil-cpp#696 for more information.

mkdir -p $HOME/Downloads/abseil-cpp && cd $HOME/Downloads/abseil-cpp
curl -sSL https://github.com/abseil/abseil-cpp/archive/20230125.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    sed -i 's/^#define ABSL_OPTION_USE_\(.*\) 2/#define ABSL_OPTION_USE_\1 0/' "absl/base/options.h" && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DABSL_BUILD_TESTING=OFF \
      -DBUILD_SHARED_LIBS=yes \
      -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Protobuf

We need to install a version of Protobuf that is recent enough to support the Google Cloud Platform proto files:

mkdir -p $HOME/Downloads/protobuf && cd $HOME/Downloads/protobuf
curl -sSL https://github.com/protocolbuffers/protobuf/archive/v21.12.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -Dprotobuf_BUILD_TESTS=OFF \
        -Dprotobuf_ABSL_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

gRPC

We also need a version of gRPC that is recent enough to support the Google Cloud Platform proto files. We install it using:

mkdir -p $HOME/Downloads/grpc && cd $HOME/Downloads/grpc
curl -sSL https://github.com/grpc/grpc/archive/v1.52.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DgRPC_INSTALL=ON \
        -DgRPC_BUILD_TESTS=OFF \
        -DgRPC_ABSL_PROVIDER=package \
        -DgRPC_CARES_PROVIDER=package \
        -DgRPC_PROTOBUF_PROVIDER=package \
        -DgRPC_RE2_PROVIDER=package \
        -DgRPC_SSL_PROVIDER=package \
        -DgRPC_ZLIB_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

nlohmann_json library

The project depends on the nlohmann_json library. We use CMake to install it as this installs the necessary CMake configuration files. Note that this is a header-only library, and often installed manually. This leaves your environment without support for CMake pkg-config.

mkdir -p $HOME/Downloads/json && cd $HOME/Downloads/json
curl -sSL https://github.com/nlohmann/json/archive/v3.11.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DBUILD_SHARED_LIBS=yes \
      -DBUILD_TESTING=OFF \
      -DJSON_BuildTests=OFF \
      -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
Ubuntu (20.04 LTS - Focal Fossa)

Install the minimal development tools, libcurl, OpenSSL and libc-ares:

export DEBIAN_FRONTEND=noninteractive
sudo apt-get update && \
sudo apt-get --no-install-recommends install -y apt-transport-https apt-utils \
        automake build-essential ccache cmake ca-certificates curl git \
        gcc g++ libc-ares-dev libc-ares2 libcurl4-openssl-dev \
        libssl-dev m4 make pkg-config tar wget zlib1g-dev

Abseil

We need a recent version of Abseil.

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. We recommend that you switch the default configuration to pin Abseil's ABI to the version used at compile time. In this case, the compiler defaults to C++14. Therefore, we change absl/base/options.h to always use absl::any, absl::string_view, and absl::variant. See abseil/abseil-cpp#696 for more information.

mkdir -p $HOME/Downloads/abseil-cpp && cd $HOME/Downloads/abseil-cpp
curl -sSL https://github.com/abseil/abseil-cpp/archive/20230125.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    sed -i 's/^#define ABSL_OPTION_USE_\(.*\) 2/#define ABSL_OPTION_USE_\1 0/' "absl/base/options.h" && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DABSL_BUILD_TESTING=OFF \
      -DBUILD_SHARED_LIBS=yes \
      -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Protobuf

We need to install a version of Protobuf that is recent enough to support the Google Cloud Platform proto files:

mkdir -p $HOME/Downloads/protobuf && cd $HOME/Downloads/protobuf
curl -sSL https://github.com/protocolbuffers/protobuf/archive/v21.12.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -Dprotobuf_BUILD_TESTS=OFF \
        -Dprotobuf_ABSL_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

RE2

The version of RE2 included with this distro hard-codes C++11 in its pkg-config file. You can skip this build and use the system's package if you are not planning to use pkg-config.

mkdir -p $HOME/Downloads/re2 && cd $HOME/Downloads/re2
curl -sSL https://github.com/google/re2/archive/2023-03-01.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=ON \
        -DRE2_BUILD_TESTING=OFF \
        -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

gRPC

We also need a version of gRPC that is recent enough to support the Google Cloud Platform proto files. We install it using:

mkdir -p $HOME/Downloads/grpc && cd $HOME/Downloads/grpc
curl -sSL https://github.com/grpc/grpc/archive/v1.52.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DgRPC_INSTALL=ON \
        -DgRPC_BUILD_TESTS=OFF \
        -DgRPC_ABSL_PROVIDER=package \
        -DgRPC_CARES_PROVIDER=package \
        -DgRPC_PROTOBUF_PROVIDER=package \
        -DgRPC_RE2_PROVIDER=package \
        -DgRPC_SSL_PROVIDER=package \
        -DgRPC_ZLIB_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

nlohmann_json library

The project depends on the nlohmann_json library. We use CMake to install it as this installs the necessary CMake configuration files. Note that this is a header-only library, and often installed manually. This leaves your environment without support for CMake pkg-config.

mkdir -p $HOME/Downloads/json && cd $HOME/Downloads/json
curl -sSL https://github.com/nlohmann/json/archive/v3.11.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DBUILD_SHARED_LIBS=yes \
      -DBUILD_TESTING=OFF \
      -DJSON_BuildTests=OFF \
      -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
Ubuntu (18.04 LTS - Bionic Beaver)

Install the minimal development tools, libcurl, OpenSSL and libc-ares:

sudo apt-get update && \
sudo apt-get --no-install-recommends install -y apt-transport-https apt-utils \
        automake build-essential ccache cmake ca-certificates curl git \
        gcc g++ libc-ares-dev libc-ares2 libcurl4-openssl-dev libssl-dev m4 \
        make pkg-config tar wget zlib1g-dev

Abseil

We need a recent version of Abseil.

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. We recommend that you switch the default configuration to pin Abseil's ABI to the version used at compile time. In this case, the compiler defaults to C++14. Therefore, we change absl/base/options.h to always use absl::any, absl::string_view, and absl::variant. See abseil/abseil-cpp#696 for more information.

mkdir -p $HOME/Downloads/abseil-cpp && cd $HOME/Downloads/abseil-cpp
curl -sSL https://github.com/abseil/abseil-cpp/archive/20230125.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    sed -i 's/^#define ABSL_OPTION_USE_\(.*\) 2/#define ABSL_OPTION_USE_\1 0/' "absl/base/options.h" && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DABSL_BUILD_TESTING=OFF \
      -DBUILD_SHARED_LIBS=yes \
      -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Protobuf

We need to install a version of Protobuf that is recent enough to support the Google Cloud Platform proto files:

mkdir -p $HOME/Downloads/protobuf && cd $HOME/Downloads/protobuf
curl -sSL https://github.com/protocolbuffers/protobuf/archive/v21.12.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -Dprotobuf_BUILD_TESTS=OFF \
        -Dprotobuf_ABSL_PROVIDER=package \
        -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

RE2

We need a newer version of RE2 than the system package provides.

mkdir -p $HOME/Downloads/re2 && cd $HOME/Downloads/re2
curl -sSL https://github.com/google/re2/archive/2023-03-01.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=ON \
        -DRE2_BUILD_TESTING=OFF \
        -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

gRPC

We also need a version of gRPC that is recent enough to support the Google Cloud Platform proto files. We install it using:

mkdir -p $HOME/Downloads/grpc && cd $HOME/Downloads/grpc
curl -sSL https://github.com/grpc/grpc/archive/v1.52.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DgRPC_INSTALL=ON \
        -DgRPC_BUILD_TESTS=OFF \
        -DgRPC_ABSL_PROVIDER=package \
        -DgRPC_CARES_PROVIDER=package \
        -DgRPC_PROTOBUF_PROVIDER=package \
        -DgRPC_RE2_PROVIDER=package \
        -DgRPC_SSL_PROVIDER=package \
        -DgRPC_ZLIB_PROVIDER=package \
        -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

nlohmann_json library

The project depends on the nlohmann_json library. We use CMake to install it as this installs the necessary CMake configuration files. Note that this is a header-only library, and often installed manually. This leaves your environment without support for CMake pkg-config.

mkdir -p $HOME/Downloads/json && cd $HOME/Downloads/json
curl -sSL https://github.com/nlohmann/json/archive/v3.11.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DBUILD_SHARED_LIBS=yes \
      -DBUILD_TESTING=OFF \
      -DJSON_BuildTests=OFF \
      -H. -Bcmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
Debian (11 - Bullseye)

Install the minimal development tools, libcurl, and OpenSSL:

sudo apt-get update && \
sudo apt-get --no-install-recommends install -y apt-transport-https apt-utils \
        automake build-essential ca-certificates ccache cmake curl git \
        gcc g++ libc-ares-dev libc-ares2 libcurl4-openssl-dev \
        libssl-dev m4 make ninja-build pkg-config tar wget zlib1g-dev

Abseil

Debian 11 ships with Abseil==20200923.3. Unfortunately, the current gRPC version needs Abseil >= 20210324.

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. We recommend that you switch the default configuration to pin Abseil's ABI to the version used at compile time. In this case, the compiler defaults to C++14. Therefore, we change absl/base/options.h to always use absl::any, absl::string_view, and absl::variant. See abseil/abseil-cpp#696 for more information.

mkdir -p $HOME/Downloads/abseil-cpp && cd $HOME/Downloads/abseil-cpp
curl -sSL https://github.com/abseil/abseil-cpp/archive/20230125.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    sed -i 's/^#define ABSL_OPTION_USE_\(.*\) 2/#define ABSL_OPTION_USE_\1 0/' "absl/base/options.h" && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DABSL_BUILD_TESTING=OFF \
      -DBUILD_SHARED_LIBS=yes \
      -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

nlohmann_json library

Debian 11 also ships with nlohmann-json==3.9.1, which is recent enough for our needs:

sudo apt-get update && \
sudo apt-get --no-install-recommends install -y nlohmann-json3-dev

Protobuf

Unless you are only using the Google Cloud Storage library the project needs Protobuf and gRPC. Unfortunately the version of Protobuf that ships with Debian 11 is not recent enough to support the protos published by Google Cloud. We need to build from source:

mkdir -p $HOME/Downloads/protobuf && cd $HOME/Downloads/protobuf
curl -sSL https://github.com/protocolbuffers/protobuf/archive/v21.12.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -Dprotobuf_BUILD_TESTS=OFF \
        -Dprotobuf_ABSL_PROVIDER=package \
        -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

RE2

The version of RE2 included with this distro hard-codes C++11 in its pkg-config file. You can skip this build and use the system's package if you are not planning to use pkg-config.

mkdir -p $HOME/Downloads/re2 && cd $HOME/Downloads/re2
curl -sSL https://github.com/google/re2/archive/2023-03-01.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=ON \
        -DRE2_BUILD_TESTING=OFF \
        -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

gRPC

Finally, we build gRPC from source:

mkdir -p $HOME/Downloads/grpc && cd $HOME/Downloads/grpc
curl -sSL https://github.com/grpc/grpc/archive/v1.52.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DgRPC_INSTALL=ON \
        -DgRPC_BUILD_TESTS=OFF \
        -DgRPC_ABSL_PROVIDER=package \
        -DgRPC_CARES_PROVIDER=package \
        -DgRPC_PROTOBUF_PROVIDER=package \
        -DgRPC_RE2_PROVIDER=package \
        -DgRPC_SSL_PROVIDER=package \
        -DgRPC_ZLIB_PROVIDER=package \
        -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
Debian (10 - Buster)

Install the minimal development tools, libcurl, and OpenSSL:

sudo apt-get update && \
sudo apt-get --no-install-recommends install -y apt-transport-https apt-utils \
        automake build-essential ca-certificates ccache cmake curl git \
        gcc g++ libc-ares-dev libc-ares2 libcurl4-openssl-dev \
        libssl-dev m4 make ninja-build pkg-config tar wget zlib1g-dev

Abseil

We need a recent version of Abseil.

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. We recommend that you switch the default configuration to pin Abseil's ABI to the version used at compile time. In this case, the compiler defaults to C++14. Therefore, we change absl/base/options.h to always use absl::any, absl::string_view, and absl::variant. See abseil/abseil-cpp#696 for more information.

mkdir -p $HOME/Downloads/abseil-cpp && cd $HOME/Downloads/abseil-cpp
curl -sSL https://github.com/abseil/abseil-cpp/archive/20230125.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    sed -i 's/^#define ABSL_OPTION_USE_\(.*\) 2/#define ABSL_OPTION_USE_\1 0/' "absl/base/options.h" && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DABSL_BUILD_TESTING=OFF \
      -DBUILD_SHARED_LIBS=yes \
      -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

nlohmann_json library

The project depends on the nlohmann_json library. We use CMake to install it as this installs the necessary CMake configuration files. Note that this is a header-only library, and often installed manually. This leaves your environment without support for CMake pkg-config.

mkdir -p $HOME/Downloads/json && cd $HOME/Downloads/json
curl -sSL https://github.com/nlohmann/json/archive/v3.11.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DBUILD_SHARED_LIBS=yes \
      -DBUILD_TESTING=OFF \
      -DJSON_BuildTests=OFF \
      -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Protobuf

Unless you are only using the Google Cloud Storage library the project needs Protobuf and gRPC. Unfortunately the version of Protobuf that ships with Debian 10 is not recent enough to support the protos published by Google Cloud. We need to build from source:

mkdir -p $HOME/Downloads/protobuf && cd $HOME/Downloads/protobuf
curl -sSL https://github.com/protocolbuffers/protobuf/archive/v21.12.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -Dprotobuf_BUILD_TESTS=OFF \
        -Dprotobuf_ABSL_PROVIDER=package \
        -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

RE2

The version of RE2 included with this distro hard-codes C++11 in its pkg-config file. You can skip this build and use the system's package if you are not planning to use pkg-config.

mkdir -p $HOME/Downloads/re2 && cd $HOME/Downloads/re2
curl -sSL https://github.com/google/re2/archive/2023-03-01.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=ON \
        -DRE2_BUILD_TESTING=OFF \
        -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

gRPC

Finally, we build gRPC from source:

mkdir -p $HOME/Downloads/grpc && cd $HOME/Downloads/grpc
curl -sSL https://github.com/grpc/grpc/archive/v1.52.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DgRPC_INSTALL=ON \
        -DgRPC_BUILD_TESTS=OFF \
        -DgRPC_ABSL_PROVIDER=package \
        -DgRPC_CARES_PROVIDER=package \
        -DgRPC_PROTOBUF_PROVIDER=package \
        -DgRPC_RE2_PROVIDER=package \
        -DgRPC_SSL_PROVIDER=package \
        -DgRPC_ZLIB_PROVIDER=package \
        -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
Rocky Linux (8)

Install the minimal development tools, libcurl, OpenSSL, and the c-ares library (required by gRPC):

sudo dnf makecache && \
sudo dnf update -y && \
sudo dnf install -y epel-release && \
sudo dnf makecache && \
sudo dnf install -y ccache cmake curl findutils gcc-c++ git make openssl-devel \
        patch zlib-devel libcurl-devel c-ares-devel tar wget which

Rocky Linux's version of pkg-config (https://github.com/pkgconf/pkgconf) is slow when handling .pc files with lots of Requires: deps, which happens with Abseil. If you plan to use pkg-config with any of the installed artifacts, you may want to use a recent version of the standard pkg-config binary. If not, sudo dnf install pkgconfig should work.

mkdir -p $HOME/Downloads/pkg-config-cpp && cd $HOME/Downloads/pkg-config-cpp
curl -sSL https://pkgconfig.freedesktop.org/releases/pkg-config-0.29.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    ./configure --with-internal-glib && \
    make -j ${NCPU:-4} && \
sudo make install && \
sudo ldconfig

The following steps will install libraries and tools in /usr/local. By default, Rocky Linux 8 does not search for shared libraries in these directories, there are multiple ways to solve this problem, the following steps are one solution:

(echo "/usr/local/lib" ; echo "/usr/local/lib64") | \
sudo tee /etc/ld.so.conf.d/usrlocal.conf
export PKG_CONFIG_PATH=/usr/local/lib/pkgconfig:/usr/local/lib64/pkgconfig:/usr/lib64/pkgconfig
export PATH=/usr/local/bin:${PATH}

Abseil

We need a recent version of Abseil.

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. We recommend that you switch the default configuration to pin Abseil's ABI to the version used at compile time. In this case, the compiler defaults to C++14. Therefore, we change absl/base/options.h to always use absl::any, absl::string_view, and absl::variant. See abseil/abseil-cpp#696 for more information.

mkdir -p $HOME/Downloads/abseil-cpp && cd $HOME/Downloads/abseil-cpp
curl -sSL https://github.com/abseil/abseil-cpp/archive/20230125.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    sed -i 's/^#define ABSL_OPTION_USE_\(.*\) 2/#define ABSL_OPTION_USE_\1 0/' "absl/base/options.h" && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DABSL_BUILD_TESTING=OFF \
      -DBUILD_SHARED_LIBS=yes \
      -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Protobuf

We need to install a version of Protobuf that is recent enough to support the Google Cloud Platform proto files:

mkdir -p $HOME/Downloads/protobuf && cd $HOME/Downloads/protobuf
curl -sSL https://github.com/protocolbuffers/protobuf/archive/v21.12.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -Dprotobuf_BUILD_TESTS=OFF \
        -Dprotobuf_ABSL_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

RE2

The version of RE2 included with this distro hard-codes C++11 in its pkg-config file. You can skip this build and use the system's package if you are not planning to use pkg-config.

mkdir -p $HOME/Downloads/re2 && cd $HOME/Downloads/re2
curl -sSL https://github.com/google/re2/archive/2023-03-01.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=ON \
        -DRE2_BUILD_TESTING=OFF \
        -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

gRPC

We also need a version of gRPC that is recent enough to support the Google Cloud Platform proto files. We manually install it using:

mkdir -p $HOME/Downloads/grpc && cd $HOME/Downloads/grpc
curl -sSL https://github.com/grpc/grpc/archive/v1.52.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DgRPC_INSTALL=ON \
        -DgRPC_BUILD_TESTS=OFF \
        -DgRPC_ABSL_PROVIDER=package \
        -DgRPC_CARES_PROVIDER=package \
        -DgRPC_PROTOBUF_PROVIDER=package \
        -DgRPC_RE2_PROVIDER=package \
        -DgRPC_SSL_PROVIDER=package \
        -DgRPC_ZLIB_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

nlohmann_json library

The project depends on the nlohmann_json library. We use CMake to install it as this installs the necessary CMake configuration files. Note that this is a header-only library, and often installed manually. This leaves your environment without support for CMake pkg-config.

mkdir -p $HOME/Downloads/json && cd $HOME/Downloads/json
curl -sSL https://github.com/nlohmann/json/archive/v3.11.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DBUILD_SHARED_LIBS=yes \
      -DBUILD_TESTING=OFF \
      -DJSON_BuildTests=OFF \
      -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
Rocky Linux (9)

Install the minimal development tools, libcurl, OpenSSL, and the c-ares library (required by gRPC):

sudo dnf makecache && \
sudo dnf update -y && \
sudo dnf install -y epel-release && \
sudo dnf makecache && \
sudo dnf install -y ccache cmake findutils gcc-c++ git make openssl-devel \
        patch zlib-devel libcurl-devel c-ares-devel tar wget which

Rocky Linux's version of pkg-config (https://github.com/pkgconf/pkgconf) is slow when handling .pc files with lots of Requires: deps, which happens with Abseil. If you plan to use pkg-config with any of the installed artifacts, you may want to use a recent version of the standard pkg-config binary. If not, sudo dnf install pkgconfig should work.

mkdir -p $HOME/Downloads/pkg-config-cpp && cd $HOME/Downloads/pkg-config-cpp
curl -sSL https://pkgconfig.freedesktop.org/releases/pkg-config-0.29.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    ./configure --with-internal-glib && \
    make -j ${NCPU:-4} && \
sudo make install && \
sudo ldconfig

The following steps will install libraries and tools in /usr/local. By default, Rocky Linux 9 does not search for shared libraries in these directories, there are multiple ways to solve this problem, the following steps are one solution:

(echo "/usr/local/lib" ; echo "/usr/local/lib64") | \
sudo tee /etc/ld.so.conf.d/usrlocal.conf
export PKG_CONFIG_PATH=/usr/local/lib/pkgconfig:/usr/local/lib64/pkgconfig:/usr/lib64/pkgconfig
export PATH=/usr/local/bin:${PATH}

Abseil

Rocky Linux 9 includes a package for Abseil, unfortunately, this package is incomplete, as it lacks the CMake support files for it. We need to compile Abseiil from source.

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. We recommend that you switch the default configuration to pin Abseil's ABI to the version used at compile time. In Rocky Linux 9 the compiler defaults to C++17. Therefore, we change absl/base/options.h to always use std::any, std::string_view, and std::variant. See abseil/abseil-cpp#696 for more information.

mkdir -p $HOME/Downloads/abseil-cpp && cd $HOME/Downloads/abseil-cpp
curl -sSL https://github.com/abseil/abseil-cpp/archive/20230125.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    sed -i 's/^#define ABSL_OPTION_USE_\(.*\) 2/#define ABSL_OPTION_USE_\1 1/' "absl/base/options.h" && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DABSL_BUILD_TESTING=OFF \
      -DBUILD_SHARED_LIBS=yes \
      -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Protobuf

Rocky Linux ships with Protobuf 3.14.x. Some of the libraries in google-cloud-cpp require Protobuf >= 3.15.8. For simplicity, we will just install Protobuf (and any downstream packages) from source.

mkdir -p $HOME/Downloads/protobuf && cd $HOME/Downloads/protobuf
curl -sSL https://github.com/protocolbuffers/protobuf/archive/v21.12.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -Dprotobuf_BUILD_TESTS=OFF \
        -Dprotobuf_ABSL_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

RE2

The version of RE2 included with this distro hard-codes C++11 in its pkg-config file. You can skip this build and use the system's package if you are not planning to use pkg-config.

mkdir -p $HOME/Downloads/re2 && cd $HOME/Downloads/re2
curl -sSL https://github.com/google/re2/archive/2023-03-01.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=ON \
        -DRE2_BUILD_TESTING=OFF \
        -H. -Bcmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

gRPC

We also need a version of gRPC that is recent enough to support the Google Cloud Platform proto files. Note that gRPC overrides the default C++ standard version to C++14, we need to configure it to use the platform's default. We manually install it using:

mkdir -p $HOME/Downloads/grpc && cd $HOME/Downloads/grpc
curl -sSL https://github.com/grpc/grpc/archive/v1.52.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_CXX_STANDARD=17 \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DgRPC_INSTALL=ON \
        -DgRPC_BUILD_TESTS=OFF \
        -DgRPC_ABSL_PROVIDER=package \
        -DgRPC_CARES_PROVIDER=package \
        -DgRPC_PROTOBUF_PROVIDER=package \
        -DgRPC_RE2_PROVIDER=package \
        -DgRPC_SSL_PROVIDER=package \
        -DgRPC_ZLIB_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

nlohmann_json library

The project depends on the nlohmann_json library. We use CMake to install it as this installs the necessary CMake configuration files. Note that this is a header-only library, and often installed manually. This leaves your environment without support for CMake pkg-config.

mkdir -p $HOME/Downloads/json && cd $HOME/Downloads/json
curl -sSL https://github.com/nlohmann/json/archive/v3.11.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DBUILD_SHARED_LIBS=yes \
      -DBUILD_TESTING=OFF \
      -DJSON_BuildTests=OFF \
      -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
CentOS (7)

First install the development tools and OpenSSL. The development tools distributed with CentOS 7 are too old to build the project. In these instructions, we use cmake3 and gcc-7 obtained from Software Collections.

sudo rpm -Uvh https://dl.fedoraproject.org/pub/epel/epel-release-latest-7.noarch.rpm
sudo yum install -y centos-release-scl yum-utils
sudo yum-config-manager --enable rhel-server-rhscl-7-rpms
sudo yum makecache && \
sudo yum install -y automake ccache cmake3 curl-devel devtoolset-7 gcc gcc-c++ \
        git libtool make openssl-devel patch re2-devel tar wget which zlib-devel
sudo ln -sf /usr/bin/cmake3 /usr/bin/cmake && sudo ln -sf /usr/bin/ctest3 /usr/bin/ctest

Start a bash shell with its environment configured to use the tools installed by devtoolset-7.

IMPORTANT: All the following commands should be run from this new shell.

scl enable devtoolset-7 bash

CentOS-7 ships with pkg-config 0.27.1, which has a bug that can make invocations take extremely long to complete. If you plan to use pkg-config with any of the installed artifacts, you'll want to upgrade it to something newer. If not, sudo yum install pkgconfig should work instead.

mkdir -p $HOME/Downloads/pkg-config-cpp && cd $HOME/Downloads/pkg-config-cpp
curl -sSL https://pkgconfig.freedesktop.org/releases/pkg-config-0.29.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    ./configure --with-internal-glib && \
    make -j ${NCPU:-4} && \
sudo make install && \
sudo ldconfig

The following steps will install libraries and tools in /usr/local. By default, CentOS-7 does not search for shared libraries in these directories, there are multiple ways to solve this problem, the following steps are one solution:

(echo "/usr/local/lib" ; echo "/usr/local/lib64") | \
sudo tee /etc/ld.so.conf.d/usrlocal.conf
export PKG_CONFIG_PATH=/usr/local/lib/pkgconfig:/usr/local/lib64/pkgconfig:/usr/lib64/pkgconfig
export PATH=/usr/local/bin:${PATH}

Abseil

We need a recent version of Abseil.

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. We recommend that you switch the default configuration to pin Abseil's ABI to the version used at compile time. In this case, the compiler defaults to C++14. Therefore, we change absl/base/options.h to always use absl::any, absl::string_view, and absl::variant. See abseil/abseil-cpp#696 for more information.

mkdir -p $HOME/Downloads/abseil-cpp && cd $HOME/Downloads/abseil-cpp
curl -sSL https://github.com/abseil/abseil-cpp/archive/20230125.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    sed -i 's/^#define ABSL_OPTION_USE_\(.*\) 2/#define ABSL_OPTION_USE_\1 0/' "absl/base/options.h" && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DABSL_BUILD_TESTING=OFF \
      -DBUILD_SHARED_LIBS=yes \
      -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Protobuf

We need to install a version of Protobuf that is recent enough to support the Google Cloud Platform proto files:

mkdir -p $HOME/Downloads/protobuf && cd $HOME/Downloads/protobuf
curl -sSL https://github.com/protocolbuffers/protobuf/archive/v21.12.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -Dprotobuf_BUILD_TESTS=OFF \
        -Dprotobuf_ABSL_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

c-ares

Recent versions of gRPC require c-ares >= 1.11, while CentOS-7 distributes c-ares-1.10. Manually install a newer version:

mkdir -p $HOME/Downloads/c-ares && cd $HOME/Downloads/c-ares
curl -sSL https://github.com/c-ares/c-ares/archive/cares-1_14_0.tar.gz | \
    tar -xzf - --strip-components=1 && \
    ./buildconf && ./configure && make -j ${NCPU:-4} && \
sudo make install && \
sudo ldconfig

gRPC

We also need a version of gRPC that is recent enough to support the Google Cloud Platform proto files. We manually install it using:

mkdir -p $HOME/Downloads/grpc && cd $HOME/Downloads/grpc
curl -sSL https://github.com/grpc/grpc/archive/v1.52.1.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DgRPC_INSTALL=ON \
        -DgRPC_BUILD_TESTS=OFF \
        -DgRPC_ABSL_PROVIDER=package \
        -DgRPC_CARES_PROVIDER=package \
        -DgRPC_PROTOBUF_PROVIDER=package \
        -DgRPC_RE2_PROVIDER=package \
        -DgRPC_SSL_PROVIDER=package \
        -DgRPC_ZLIB_PROVIDER=package \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

crc32c

The project depends on the Crc32c library, we need to compile this from source:

mkdir -p $HOME/Downloads/crc32c && cd $HOME/Downloads/crc32c
curl -sSL https://github.com/google/crc32c/archive/1.1.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
        -DCMAKE_BUILD_TYPE=Release \
        -DBUILD_SHARED_LIBS=yes \
        -DCRC32C_BUILD_TESTS=OFF \
        -DCRC32C_BUILD_BENCHMARKS=OFF \
        -DCRC32C_USE_GLOG=OFF \
        -S . -B cmake-out && \
    cmake --build cmake-out -- -j ${NCPU:-4} && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

nlohmann_json library

The project depends on the nlohmann_json library. We use CMake to install it as this installs the necessary CMake configuration files. Note that this is a header-only library, and often installed manually. This leaves your environment without support for CMake pkg-config.

mkdir -p $HOME/Downloads/json && cd $HOME/Downloads/json
curl -sSL https://github.com/nlohmann/json/archive/v3.11.2.tar.gz | \
    tar -xzf - --strip-components=1 && \
    cmake \
      -DCMAKE_BUILD_TYPE=Release \
      -DBUILD_SHARED_LIBS=yes \
      -DBUILD_TESTING=OFF \
      -DJSON_BuildTests=OFF \
      -S . -B cmake-out && \
sudo cmake --build cmake-out --target install -- -j ${NCPU:-4} && \
sudo ldconfig

Compile and install the main project

We can now compile and install google-cloud-cpp:

# Pick a location to install the artifacts, e.g., `/usr/local` or `/opt`
PREFIX="${HOME}/google-cloud-cpp-installed"
cmake -H. -Bcmake-out \
  -DCMAKE_INSTALL_PREFIX="${PREFIX}" \
  -DBUILD_TESTING=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE_EXAMPLES=OFF \
  -DGOOGLE_CLOUD_CPP_ENABLE=__ga_libraries__
cmake --build cmake-out -- -j "$(nproc)"
cmake --build cmake-out --target install
macOS

First install Xcode to get all the needed development tools. These instructions also use Homebrew to install the needed third-party dependencies.

If you don't already have Xcode installed:

xcode-select --install

Follow the instructions at https://brew.sh to install Homebrew. Then install the needed dependencies:

# Some additional build tools
brew install cmake ninja
# Installs google-cloud-cpp's needed deps
brew install abseil protobuf grpc nlohmann-json crc32c [email protected]

⚠️ By default, Abseil's ABI changes depending on whether it is used with C++ >= 17 enabled or not. Installing Abseil with the default configuration is error-prone, unless you can guarantee that all the code using Abseil (gRPC, google-cloud-cpp, your own code, etc.) is compiled with the same C++ version. Homebrew's version of Abseil is compiled with C++17 and requires that all dependencies are thus compiled. See abseil/abseil-cpp#696, and the homebrew formula for more information.

Now configure, build, and install the google-cloud-cpp libraries that you need. In this example, we install the storage and spanner libraries. Please see the Compile time configuration guide for more details about how to configure the google-cloud-cpp builds.

cmake -S . -B cmake-out \
  -GNinja \
  -DGOOGLE_CLOUD_CPP_ENABLE="storage;spanner" \
  -DCMAKE_CXX_STANDARD=17 \
  -DCMAKE_BUILD_TYPE=release \
  -DBUILD_TESTING=OFF \
  -DOPENSSL_ROOT_DIR="$(brew --prefix [email protected])" \
  -DCMAKE_INSTALL_PREFIX=/tmp/test-install
cmake --build cmake-out
cmake --build cmake-out --target install