// Copyright 2018 The Bazel Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Runfiles lookup library for Bazel-built C++ binaries and tests. // // USAGE: // 1. Depend on this runfiles library from your build rule: // // cc_binary( // name = "my_binary", // ... // deps = ["@rules_cc//cc/private/toolchain/runfiles"], // ) // // 2. Include the runfiles library. // // #include "tools/cpp/runfiles/runfiles.h" // // using bazel::tools::cpp::runfiles::Runfiles; // // 3. Create a Runfiles object and use rlocation to look up runfile paths: // // int main(int argc, char** argv) { // std::string error; // std::unique_ptr runfiles( // Runfiles::Create(argv[0], &error)); // // // Important: // // If this is a test, use Runfiles::CreateForTest(&error). // // Otherwise, if you don't have the value for argv[0] for whatever // // reason, then use Runfiles::Create(&error). // // if (runfiles == nullptr) { // ... // error handling // } // std::string path = // runfiles->Rlocation("my_workspace/path/to/my/data.txt"); // ... // // The code above creates a Runfiles object and retrieves a runfile path. // // The Runfiles::Create function uses the runfiles manifest and the // runfiles directory from the RUNFILES_MANIFEST_FILE and RUNFILES_DIR // environment variables. If not present, the function looks for the // manifest and directory near argv[0], the path of the main program. // // To start child processes that also need runfiles, you need to set the right // environment variables for them: // // std::unique_ptr runfiles(Runfiles::Create(argv[0], &error)); // // std::string path = runfiles->Rlocation("path/to/binary")); // if (!path.empty()) { // ... // create "args" argument vector for execv // const auto envvars = runfiles->EnvVars(); // pid_t child = fork(); // if (child) { // int status; // waitpid(child, &status, 0); // } else { // for (const auto i : envvars) { // setenv(i.first.c_str(), i.second.c_str(), 1); // } // execv(args[0], args); // } #ifndef TOOLS_CPP_RUNFILES_RUNFILES_H_ #define TOOLS_CPP_RUNFILES_RUNFILES_H_ 1 #include #include #include #include #include namespace bazel { namespace tools { namespace cpp { namespace runfiles { class Runfiles { public: virtual ~Runfiles() {} // Returns a new `Runfiles` instance. // // Use this from within `cc_test` rules. // // Returns nullptr on error. If `error` is provided, the method prints an // error message into it. // // This method looks at the RUNFILES_MANIFEST_FILE and TEST_SRCDIR // environment variables. static Runfiles* CreateForTest(std::string* error = nullptr); // Returns a new `Runfiles` instance. // // Use this from `cc_binary` or `cc_library` rules. You may pass an empty // `argv0` if `argv[0]` from the `main` method is unknown. // // Returns nullptr on error. If `error` is provided, the method prints an // error message into it. // // This method looks at the RUNFILES_MANIFEST_FILE and RUNFILES_DIR // environment variables. If either is empty, the method looks for the // manifest or directory using the other environment variable, or using argv0 // (unless it's empty). static Runfiles* Create(const std::string& argv0, std::string* error = nullptr); // Returns a new `Runfiles` instance. // // Use this from any `cc_*` rule if you want to manually specify the paths to // the runfiles manifest and/or runfiles directory. You may pass an empty // `argv0` if `argv[0]` from the `main` method is unknown. // // This method is the same as `Create(argv0, error)`, except it uses // `runfiles_manifest_file` and `runfiles_dir` as the corresponding // environment variable values, instead of looking up the actual environment // variables. static Runfiles* Create(const std::string& argv0, const std::string& runfiles_manifest_file, const std::string& runfiles_dir, std::string* error = nullptr); // Returns the runtime path of a runfile. // // Runfiles are data-dependencies of Bazel-built binaries and tests. // // The returned path may not exist. The caller should verify the path's // existence. // // The function may return an empty string if it cannot find a runfile. // // Args: // path: runfiles-root-relative path of the runfile; must not be empty and // must not contain uplevel references. // Returns: // the path to the runfile, which the caller should check for existence, or // an empty string if the method doesn't know about this runfile std::string Rlocation(const std::string& path) const; // Returns environment variables for subprocesses. // // The caller should set the returned key-value pairs in the environment of // subprocesses, so that those subprocesses can also access runfiles (in case // they are also Bazel-built binaries). const std::vector >& EnvVars() const { return envvars_; } private: Runfiles(const std::map&& runfiles_map, const std::string&& directory, const std::vector >&& envvars) : runfiles_map_(std::move(runfiles_map)), directory_(std::move(directory)), envvars_(std::move(envvars)) {} Runfiles(const Runfiles&) = delete; Runfiles(Runfiles&&) = delete; Runfiles& operator=(const Runfiles&) = delete; Runfiles& operator=(Runfiles&&) = delete; const std::map runfiles_map_; const std::string directory_; const std::vector > envvars_; }; // The "testing" namespace contains functions that allow unit testing the code. // Do not use these outside of runfiles_test.cc, they are only part of the // public API for the benefit of the tests. // These functions and their interface may change without notice. namespace testing { // For testing only. // // Computes the path of the runfiles manifest and the runfiles directory. // // If the method finds both a valid manifest and valid directory according to // `is_runfiles_manifest` and `is_runfiles_directory`, then the method sets // the corresponding values to `out_manifest` and `out_directory` and returns // true. // // If the method only finds a valid manifest or a valid directory, but not // both, then it sets the corresponding output variable (`out_manifest` or // `out_directory`) to the value while clearing the other output variable. The // method still returns true in this case. // // If the method cannot find either a valid manifest or valid directory, it // clears both output variables and returns false. bool TestOnly_PathsFrom( const std::string& argv0, std::string runfiles_manifest_file, std::string runfiles_dir, std::function is_runfiles_manifest, std::function is_runfiles_directory, std::string* out_manifest, std::string* out_directory); // For testing only. // Returns true if `path` is an absolute Unix or Windows path. // For Windows paths, this function does not regard drive-less absolute paths // (i.e. absolute-on-current-drive, e.g. "\foo\bar") as absolute and returns // false for these. bool TestOnly_IsAbsolute(const std::string& path); } // namespace testing } // namespace runfiles } // namespace cpp } // namespace tools } // namespace bazel #endif // TOOLS_CPP_RUNFILES_RUNFILES_H_