// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! [Flexible target specification.](https://github.com/rust-lang/rfcs/pull/131) //! //! Rust targets a wide variety of usecases, and in the interest of flexibility, //! allows new target triples to be defined in configuration files. Most users //! will not need to care about these, but this is invaluable when porting Rust //! to a new platform, and allows for an unprecedented level of control over how //! the compiler works. //! //! # Using custom targets //! //! A target triple, as passed via `rustc --target=TRIPLE`, will first be //! compared against the list of built-in targets. This is to ease distributing //! rustc (no need for configuration files) and also to hold these built-in //! targets as immutable and sacred. If `TRIPLE` is not one of the built-in //! targets, rustc will check if a file named `TRIPLE` exists. If it does, it //! will be loaded as the target configuration. If the file does not exist, //! rustc will search each directory in the environment variable //! `RUST_TARGET_PATH` for a file named `TRIPLE.json`. The first one found will //! be loaded. If no file is found in any of those directories, a fatal error //! will be given. `RUST_TARGET_PATH` includes `/etc/rustc` as its last entry, //! to be searched by default. //! //! Projects defining their own targets should use //! `--target=path/to/my-awesome-platform.json` instead of adding to //! `RUST_TARGET_PATH`. //! //! # Defining a new target //! //! Targets are defined using [JSON](http://json.org/). The `Target` struct in //! this module defines the format the JSON file should take, though each //! underscore in the field names should be replaced with a hyphen (`-`) in the //! JSON file. Some fields are required in every target specification, such as //! `data-layout`, `llvm-target`, `target-endian`, `target-word-size`, and //! `arch`. In general, options passed to rustc with `-C` override the target's //! settings, though `target-feature` and `link-args` will *add* to the list //! specified by the target, rather than replace. use serialize::json::Json; use syntax::{diagnostic, abi}; use std::default::Default; use std::io::fs::PathExtensions; mod windows_base; mod linux_base; mod apple_base; mod apple_ios_base; mod freebsd_base; mod dragonfly_base; mod armv7_apple_ios; mod armv7s_apple_ios; mod i386_apple_ios; mod arm_linux_androideabi; mod arm_unknown_linux_gnueabi; mod arm_unknown_linux_gnueabihf; mod aarch64_apple_ios; mod aarch64_linux_android; mod aarch64_unknown_linux_gnu; mod i686_apple_darwin; mod i686_pc_windows_gnu; mod i686_unknown_dragonfly; mod i686_unknown_linux_gnu; mod mips_unknown_linux_gnu; mod mipsel_unknown_linux_gnu; mod powerpc_unknown_linux_gnu; mod x86_64_apple_darwin; mod x86_64_apple_ios; mod x86_64_pc_windows_gnu; mod x86_64_unknown_freebsd; mod x86_64_unknown_dragonfly; mod x86_64_unknown_linux_gnu; /// Everything `rustc` knows about how to compile for a specific target. /// /// Every field here must be specified, and has no default value. #[derive(Clone, Show)] pub struct Target { /// [Data layout](http://llvm.org/docs/LangRef.html#data-layout) to pass to LLVM. pub data_layout: String, /// Target triple to pass to LLVM. pub llvm_target: String, /// String to use as the `target_endian` `cfg` variable. pub target_endian: String, /// String to use as the `target_pointer_width` `cfg` variable. pub target_pointer_width: String, /// OS name to use for conditional compilation. pub target_os: String, /// Architecture to use for ABI considerations. Valid options: "x86", "x86_64", "arm", /// "aarch64", "mips", and "powerpc". "mips" includes "mipsel". pub arch: String, /// Optional settings with defaults. pub options: TargetOptions, } /// Optional aspects of a target specification. /// /// This has an implementation of `Default`, see each field for what the default is. In general, /// these try to take "minimal defaults" that don't assume anything about the runtime they run in. #[derive(Clone, Show)] pub struct TargetOptions { /// Linker to invoke. Defaults to "cc". pub linker: String, /// Linker arguments that are unconditionally passed *before* any user-defined libraries. pub pre_link_args: Vec, /// Linker arguments that are unconditionally passed *after* any user-defined libraries. pub post_link_args: Vec, /// Default CPU to pass to LLVM. Corresponds to `llc -mcpu=$cpu`. Defaults to "default". pub cpu: String, /// Default target features to pass to LLVM. These features will *always* be passed, and cannot /// be disabled even via `-C`. Corresponds to `llc -mattr=$features`. pub features: String, /// Whether dynamic linking is available on this target. Defaults to false. pub dynamic_linking: bool, /// Whether executables are available on this target. iOS, for example, only allows static /// libraries. Defaults to false. pub executables: bool, /// Whether LLVM's segmented stack prelude is supported by whatever runtime is available. /// Will emit stack checks and calls to __morestack. Defaults to false. pub morestack: bool, /// Relocation model to use in object file. Corresponds to `llc /// -relocation-model=$relocation_model`. Defaults to "pic". pub relocation_model: String, /// Code model to use. Corresponds to `llc -code-model=$code_model`. Defaults to "default". pub code_model: String, /// Do not emit code that uses the "red zone", if the ABI has one. Defaults to false. pub disable_redzone: bool, /// Eliminate frame pointers from stack frames if possible. Defaults to true. pub eliminate_frame_pointer: bool, /// Emit each function in its own section. Defaults to true. pub function_sections: bool, /// String to prepend to the name of every dynamic library. Defaults to "lib". pub dll_prefix: String, /// String to append to the name of every dynamic library. Defaults to ".so". pub dll_suffix: String, /// String to append to the name of every executable. pub exe_suffix: String, /// String to prepend to the name of every static library. Defaults to "lib". pub staticlib_prefix: String, /// String to append to the name of every static library. Defaults to ".a". pub staticlib_suffix: String, /// Whether the target toolchain is like OSX's. Only useful for compiling against iOS/OS X, in /// particular running dsymutil and some other stuff like `-dead_strip`. Defaults to false. pub is_like_osx: bool, /// Whether the target toolchain is like Windows'. Only useful for compiling against Windows, /// only realy used for figuring out how to find libraries, since Windows uses its own /// library naming convention. Defaults to false. pub is_like_windows: bool, /// Whether the linker support GNU-like arguments such as -O. Defaults to false. pub linker_is_gnu: bool, /// Whether the linker support rpaths or not. Defaults to false. pub has_rpath: bool, /// Whether to disable linking to compiler-rt. Defaults to false, as LLVM will emit references /// to the functions that compiler-rt provides. pub no_compiler_rt: bool, /// Dynamically linked executables can be compiled as position independent if the default /// relocation model of position independent code is not changed. This is a requirement to take /// advantage of ASLR, as otherwise the functions in the executable are not randomized and can /// be used during an exploit of a vulnerability in any code. pub position_independent_executables: bool, } impl Default for TargetOptions { /// Create a set of "sane defaults" for any target. This is still incomplete, and if used for /// compilation, will certainly not work. fn default() -> TargetOptions { TargetOptions { linker: "cc".to_string(), pre_link_args: Vec::new(), post_link_args: Vec::new(), cpu: "generic".to_string(), features: "".to_string(), dynamic_linking: false, executables: false, morestack: false, relocation_model: "pic".to_string(), code_model: "default".to_string(), disable_redzone: false, eliminate_frame_pointer: true, function_sections: true, dll_prefix: "lib".to_string(), dll_suffix: ".so".to_string(), exe_suffix: "".to_string(), staticlib_prefix: "lib".to_string(), staticlib_suffix: ".a".to_string(), is_like_osx: false, is_like_windows: false, linker_is_gnu: false, has_rpath: false, no_compiler_rt: false, position_independent_executables: false, } } } impl Target { /// Given a function ABI, turn "System" into the correct ABI for this target. pub fn adjust_abi(&self, abi: abi::Abi) -> abi::Abi { match abi { abi::System => { if self.options.is_like_windows && self.arch == "x86" { abi::Stdcall } else { abi::C } }, abi => abi } } /// Load a target descriptor from a JSON object. pub fn from_json(obj: Json) -> Target { // this is 1. ugly, 2. error prone. let handler = diagnostic::default_handler(diagnostic::Auto, None); let get_req_field = |&: name: &str| { match obj.find(name) .map(|s| s.as_string()) .and_then(|os| os.map(|s| s.to_string())) { Some(val) => val, None => handler.fatal(&format!("Field {} in target specification is required", name)[]) } }; let mut base = Target { data_layout: get_req_field("data-layout"), llvm_target: get_req_field("llvm-target"), target_endian: get_req_field("target-endian"), target_pointer_width: get_req_field("target-word-size"), arch: get_req_field("arch"), target_os: get_req_field("os"), options: Default::default(), }; macro_rules! key { ($key_name:ident) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[]).map(|o| o.as_string() .map(|s| base.options.$key_name = s.to_string())); } ); ($key_name:ident, bool) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[]) .map(|o| o.as_boolean() .map(|s| base.options.$key_name = s)); } ); ($key_name:ident, list) => ( { let name = (stringify!($key_name)).replace("_", "-"); obj.find(&name[]).map(|o| o.as_array() .map(|v| base.options.$key_name = v.iter() .map(|a| a.as_string().unwrap().to_string()).collect() ) ); } ); } key!(cpu); key!(linker); key!(relocation_model); key!(code_model); key!(dll_prefix); key!(dll_suffix); key!(exe_suffix); key!(staticlib_prefix); key!(staticlib_suffix); key!(features); key!(dynamic_linking, bool); key!(executables, bool); key!(morestack, bool); key!(disable_redzone, bool); key!(eliminate_frame_pointer, bool); key!(function_sections, bool); key!(is_like_osx, bool); key!(is_like_windows, bool); key!(linker_is_gnu, bool); key!(has_rpath, bool); key!(no_compiler_rt, bool); key!(pre_link_args, list); key!(post_link_args, list); base } /// Search RUST_TARGET_PATH for a JSON file specifying the given target triple. Note that it /// could also just be a bare filename already, so also check for that. If one of the hardcoded /// targets we know about, just return it directly. /// /// The error string could come from any of the APIs called, including filesystem access and /// JSON decoding. pub fn search(target: &str) -> Result { use std::os; use std::io::File; use std::path::Path; use serialize::json; fn load_file(path: &Path) -> Result { let mut f = try!(File::open(path).map_err(|e| format!("{:?}", e))); let obj = try!(json::from_reader(&mut f).map_err(|e| format!("{:?}", e))); Ok(Target::from_json(obj)) } // this would use a match if stringify! were allowed in pattern position macro_rules! load_specific { ( $($name:ident),+ ) => ( { let target = target.replace("-", "_"); if false { } $( else if target == stringify!($name) { let t = $name::target(); debug!("Got builtin target: {:?}", t); return Ok(t); } )* else if target == "x86_64-w64-mingw32" { let t = x86_64_pc_windows_gnu::target(); return Ok(t); } else if target == "i686-w64-mingw32" { let t = i686_pc_windows_gnu::target(); return Ok(t); } } ) } load_specific!( x86_64_unknown_linux_gnu, i686_unknown_linux_gnu, mips_unknown_linux_gnu, mipsel_unknown_linux_gnu, powerpc_unknown_linux_gnu, arm_linux_androideabi, arm_unknown_linux_gnueabi, arm_unknown_linux_gnueabihf, aarch64_unknown_linux_gnu, x86_64_unknown_freebsd, i686_unknown_dragonfly, x86_64_unknown_dragonfly, x86_64_apple_darwin, i686_apple_darwin, i386_apple_ios, x86_64_apple_ios, aarch64_apple_ios, aarch64_linux_android, armv7_apple_ios, armv7s_apple_ios, x86_64_pc_windows_gnu, i686_pc_windows_gnu ); let path = Path::new(target); if path.is_file() { return load_file(&path); } let path = { let mut target = target.to_string(); target.push_str(".json"); Path::new(target) }; let target_path = os::getenv("RUST_TARGET_PATH").unwrap_or(String::new()); let paths = os::split_paths(&target_path[]); // FIXME 16351: add a sane default search path? for dir in paths.iter() { let p = dir.join(path.clone()); if p.is_file() { return load_file(&p); } } Err(format!("Could not find specification for target {:?}", target)) } }