// Copyright 2014 Google Inc. 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. // The Blueprint bootstrapping mechanism is intended to enable building a source // tree using a Blueprint-based build system that is embedded (as source) in // that source tree. The only prerequisites for performing such a build are: // // 1. A Ninja binary // 2. A script interpreter (e.g. Bash or Python) // 3. A Go toolchain // // The Primary Builder // // As part of the bootstrapping process, a binary called the "primary builder" // is created. This primary builder is the binary that includes both the core // Blueprint library and the build logic specific to the source tree. It is // used to generate the Ninja file that describes how to build the entire source // tree. // // The primary builder must be a pure Go (i.e. no cgo) module built with the // module type 'bootstrap_go_binary'. It should have the 'primaryBuilder' // module property set to true in its Blueprints file. If more than one module // sets primaryBuilder to true the build will fail. // // The primary builder main function should look something like: // // package main // // import ( // "flag" // "github.com/google/blueprint" // "github.com/google/blueprint/bootstrap" // "path/filepath" // // "my/custom/build/logic" // ) // // func main() { // // The primary builder should use the global flag set because the // // bootstrap package registers its own flags there. // flag.Parse() // // // The top-level Blueprints file is passed as the first argument. // srcDir := filepath.Dir(flag.Arg(0)) // // // Create the build context. // ctx := blueprint.NewContext() // // // Register custom module types // ctx.RegisterModuleType("foo", logic.FooModule) // ctx.RegisterModuleType("bar", logic.BarModule) // // // Register custom singletons // ctx.RegisterSingleton("baz", logic.NewBazSingleton()) // // // Create and initialize the custom Config object. // config := logic.NewConfig(srcDir) // // // This call never returns // bootstrap.Main(ctx, config) // } // // Required Source Files // // There are three files that must be included in the source tree to facilitate // the build bootstrapping: // // 1. The top-level Blueprints file // 2. The bootstrap Ninja file template // 3. The bootstrap script // // The top-level Blueprints file describes how the entire source tree should be // built. It must have a 'subdirs' assignment that includes both the core // Blueprint library and the custom build logic for the source tree. It should // also include (either directly or through a subdirs entry) describe all the // modules to be built in the source tree. // // The bootstrap Ninja file template describes the build actions necessary to // build the primary builder for the source tree. This template contains a set // of placeholder Ninja variable values that get filled in by the bootstrap // script to create a usable Ninja file. It can be created by running the // minibp binary that gets created as part of the standalone Blueprint build. // Passing minibp the path to the top-level Blueprints file will cause it to // create a bootstrap Ninja file template named 'build.ninja.in'. // // The bootstrap script is a small script (or theoretically a compiled binary) // that is included in the source tree to begin the bootstrapping process. It // is responsible for filling in the bootstrap Ninja file template with some // basic information about the Go build environemnt and the path to the root // source directory. It does this by performing a simple string substitution on // the template file to produce a usable build.ninja file. // // The Bootstrapping Process // // A bootstrap-enabled build directory has two states, each with a corresponding // Ninja file. The states are referred to as the "bootstrap" state and the // "main" state. Changing the directory to a particular state means replacing // the build.ninja file with one that will perform the build actions for the // state. // // The bootstrapping process begins with the user running the bootstrap script // to initialize a new build directory. The script is run from the build // directory, and when run with no arguments it copies the source bootstrap // Ninja file into the build directory as "build.ninja". It also performs a set // of string substitutions on the file to configure it for the user's build // environment. Specifically, the following strings are substituted in the file: // // @@SrcDir@@ - The path to the root source directory (either // absolute or relative to the build dir) // @@GoRoot@@ - The path to the root directory of the Go toolchain // @@GoCompile@@ - The path to the Go compiler (6g or compile) // @@GoLink@@ - The path to the Go linker (6l or link) // @@Bootstrap@@ - The path to the bootstrap script // @@BootstrapManifest@@ - The path to the source bootstrap Ninja file // // Once the script completes the build directory is initialized in the bootstrap // build state. In this state, running Ninja may perform the following build // actions. Each one but the last can be skipped if its output is determined to // be up-to-date. // // - Build the minibp binary // - Run minibp to generate .bootstrap/bootstrap.ninja.in // - Build the primary builder binary // - Run the primary builder to generate .bootstrap/main.ninja.in // - Run the bootstrap script to "copy" .bootstrap/main.ninja.in to build.ninja // // The last of these build actions results in transitioning the build directory // to the main build state. // // The main state (potentially) performs the following actions: // - Copy .bootstrap/bootstrap.ninja.in to the source bootstrap Ninja location // - Run the bootstrap script to "copy" the source bootstrap Ninja file to // build.ninja // - Build all the non-bootstrap modules defined in Blueprints files // // Updating the Bootstrap Ninja File Template // // The main purpose of the bootstrap state is to generate the Ninja file for the // main state. The one additional thing it does is generate a new bootstrap // Ninja file template at .bootstrap/bootstrap.ninja.in. When generating this // file, minibp will compare the new bootstrap Ninja file contents with the // original (in the source tree). If the contents match, the new file will be // created with a timestamp that matches that of the original, indicating that // the original file in the source tree is up-to-date. // // This is done so that in the main state if the bootstrap Ninja file template // in the source tree is out of date it can be automatically updated. Note, // however, that we can't have the main state generate the new bootstrap Ninja // file template contents itself, because it may be using an older minibp. // Recall that minibp is only built during the bootstrap state (to break a // circular dependence), so if a new bootstrap Ninja file template were // generated then it could replace a new file (from an updated source tree) with // one generated using an old minibp. // // This scheme ensures that updates to the source tree are always incorporated // into the build process and that changes that require a new bootstrap Ninja // file template automatically update the template in the source tree. package bootstrap