//! A build dependency for Cargo libraries to find system artifacts through the //! `pkg-config` utility. //! //! This library will shell out to `pkg-config` as part of build scripts and //! probe the system to determine how to link to a specified library. The //! `Config` structure serves as a method of configuring how `pkg-config` is //! invoked in a builder style. //! //! A number of environment variables are available to globally configure how //! this crate will invoke `pkg-config`: //! //! * `PKG_CONFIG_ALLOW_CROSS` - if this variable is not set, then `pkg-config` //! will automatically be disabled for all cross compiles. //! * `FOO_NO_PKG_CONFIG` - if set, this will disable running `pkg-config` when //! probing for the library named `foo`. //! //! There are also a number of environment variables which can configure how a //! library is linked to (dynamically vs statically). These variables control //! whether the `--static` flag is passed. Note that this behavior can be //! overridden by configuring explicitly on `Config`. The variables are checked //! in the following order: //! //! * `FOO_STATIC` - pass `--static` for the library `foo` //! * `FOO_DYNAMIC` - do not pass `--static` for the library `foo` //! * `PKG_CONFIG_ALL_STATIC` - pass `--static` for all libraries //! * `PKG_CONFIG_ALL_DYNAMIC` - do not pass `--static` for all libraries //! //! After running `pkg-config` all appropriate Cargo metadata will be printed on //! stdout if the search was successful. //! //! # Example //! //! Find the system library named `foo`, with minimum version 1.2.3: //! //! ```no_run //! extern crate pkg_config; //! //! fn main() { //! pkg_config::Config::new().atleast_version("1.2.3").probe("foo").unwrap(); //! } //! ``` //! //! Find the system library named `foo`, with no version requirement (not //! recommended): //! //! ```no_run //! extern crate pkg_config; //! //! fn main() { //! pkg_config::probe_library("foo").unwrap(); //! } //! ``` //! //! Configure how library `foo` is linked to. //! //! ```no_run //! extern crate pkg_config; //! //! fn main() { //! pkg_config::Config::new().atleast_version("1.2.3").statik(true).probe("foo").unwrap(); //! } //! ``` #![doc(html_root_url = "https://docs.rs/pkg-config/0.3")] #[allow(unused_imports)] // Required for Rust <1.23 use std::ascii::AsciiExt; use std::collections::HashMap; use std::env; use std::error; use std::ffi::{OsStr, OsString}; use std::fmt; use std::io; use std::path::{PathBuf, Path}; use std::process::{Command, Output}; use std::str; pub fn target_supported() -> bool { let target = env::var("TARGET").unwrap_or_else(|_| String::new()); let host = env::var("HOST").unwrap_or_else(|_| String::new()); // Only use pkg-config in host == target situations by default (allowing an // override). (host == target || env::var_os("PKG_CONFIG_ALLOW_CROSS").is_some()) } #[derive(Clone, Default)] pub struct Config { statik: Option, atleast_version: Option, extra_args: Vec, cargo_metadata: bool, env_metadata: bool, print_system_libs: bool, } #[derive(Debug)] pub struct Library { pub libs: Vec, pub link_paths: Vec, pub frameworks: Vec, pub framework_paths: Vec, pub include_paths: Vec, pub defines: HashMap>, pub version: String, _priv: (), } /// Represents all reasons `pkg-config` might not succeed or be run at all. pub enum Error { /// Aborted because of `*_NO_PKG_CONFIG` environment variable. /// /// Contains the name of the responsible environment variable. EnvNoPkgConfig(String), /// Cross compilation detected. /// /// Override with `PKG_CONFIG_ALLOW_CROSS=1`. CrossCompilation, /// Failed to run `pkg-config`. /// /// Contains the command and the cause. Command { command: String, cause: io::Error }, /// `pkg-config` did not exit sucessfully. /// /// Contains the command and output. Failure { command: String, output: Output }, #[doc(hidden)] // please don't match on this, we're likely to add more variants over time __Nonexhaustive, } impl error::Error for Error { fn description(&self) -> &str { match *self { Error::EnvNoPkgConfig(_) => "pkg-config requested to be aborted", Error::CrossCompilation => { "pkg-config doesn't handle cross compilation. \ Use PKG_CONFIG_ALLOW_CROSS=1 to override" } Error::Command { .. } => "failed to run pkg-config", Error::Failure { .. } => "pkg-config did not exit sucessfully", Error::__Nonexhaustive => panic!(), } } fn cause(&self) -> Option<&error::Error> { match *self { Error::Command { ref cause, .. } => Some(cause), _ => None, } } } // Workaround for temporary lack of impl Debug for Output in stable std struct OutputDebugger<'a>(&'a Output); // Lifted from 1.7 std impl<'a> fmt::Debug for OutputDebugger<'a> { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let stdout_utf8 = str::from_utf8(&self.0.stdout); let stdout_debug: &fmt::Debug = match stdout_utf8 { Ok(ref str) => str, Err(_) => &self.0.stdout }; let stderr_utf8 = str::from_utf8(&self.0.stderr); let stderr_debug: &fmt::Debug = match stderr_utf8 { Ok(ref str) => str, Err(_) => &self.0.stderr }; fmt.debug_struct("Output") .field("status", &self.0.status) .field("stdout", stdout_debug) .field("stderr", stderr_debug) .finish() } } // Workaround for temporary lack of impl Debug for Output in stable std, continued impl fmt::Debug for Error { fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> { match *self { Error::EnvNoPkgConfig(ref name) => { f.debug_tuple("EnvNoPkgConfig") .field(name) .finish() } Error::CrossCompilation => write!(f, "CrossCompilation"), Error::Command { ref command, ref cause } => { f.debug_struct("Command") .field("command", command) .field("cause", cause) .finish() } Error::Failure { ref command, ref output } => { f.debug_struct("Failure") .field("command", command) .field("output", &OutputDebugger(output)) .finish() } Error::__Nonexhaustive => panic!(), } } } impl fmt::Display for Error { fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> { match *self { Error::EnvNoPkgConfig(ref name) => { write!(f, "Aborted because {} is set", name) } Error::CrossCompilation => { write!(f, "Cross compilation detected. \ Use PKG_CONFIG_ALLOW_CROSS=1 to override") } Error::Command { ref command, ref cause } => { write!(f, "Failed to run `{}`: {}", command, cause) } Error::Failure { ref command, ref output } => { let stdout = str::from_utf8(&output.stdout).unwrap(); let stderr = str::from_utf8(&output.stderr).unwrap(); write!(f, "`{}` did not exit successfully: {}", command, output.status)?; if !stdout.is_empty() { write!(f, "\n--- stdout\n{}", stdout)?; } if !stderr.is_empty() { write!(f, "\n--- stderr\n{}", stderr)?; } Ok(()) } Error::__Nonexhaustive => panic!(), } } } /// Deprecated in favor of the probe_library function #[doc(hidden)] pub fn find_library(name: &str) -> Result { probe_library(name).map_err(|e| e.to_string()) } /// Simple shortcut for using all default options for finding a library. pub fn probe_library(name: &str) -> Result { Config::new().probe(name) } /// Run `pkg-config` to get the value of a variable from a package using /// --variable. pub fn get_variable(package: &str, variable: &str) -> Result { let arg = format!("--variable={}", variable); let cfg = Config::new(); let out = run(cfg.command(package, &[&arg]))?; Ok(str::from_utf8(&out).unwrap().trim_right().to_owned()) } impl Config { /// Creates a new set of configuration options which are all initially set /// to "blank". pub fn new() -> Config { Config { statik: None, atleast_version: None, extra_args: vec![], print_system_libs: true, cargo_metadata: true, env_metadata: false, } } /// Indicate whether the `--static` flag should be passed. /// /// This will override the inference from environment variables described in /// the crate documentation. pub fn statik(&mut self, statik: bool) -> &mut Config { self.statik = Some(statik); self } /// Indicate that the library must be at least version `vers`. pub fn atleast_version(&mut self, vers: &str) -> &mut Config { self.atleast_version = Some(vers.to_string()); self } /// Add an argument to pass to pkg-config. /// /// It's placed after all of the arguments generated by this library. pub fn arg>(&mut self, arg: S) -> &mut Config { self.extra_args.push(arg.as_ref().to_os_string()); self } /// Define whether metadata should be emitted for cargo allowing it to /// automatically link the binary. Defaults to `true`. pub fn cargo_metadata(&mut self, cargo_metadata: bool) -> &mut Config { self.cargo_metadata = cargo_metadata; self } /// Define whether metadata should be emitted for cargo allowing to /// automatically rebuild when environment variables change. Defaults to /// `false`. pub fn env_metadata(&mut self, env_metadata: bool) -> &mut Config { self.env_metadata = env_metadata; self } /// Enable or disable the `PKG_CONFIG_ALLOW_SYSTEM_LIBS` environment /// variable. /// /// This env var is enabled by default. pub fn print_system_libs(&mut self, print: bool) -> &mut Config { self.print_system_libs = print; self } /// Deprecated in favor fo the `probe` function #[doc(hidden)] pub fn find(&self, name: &str) -> Result { self.probe(name).map_err(|e| e.to_string()) } /// Run `pkg-config` to find the library `name`. /// /// This will use all configuration previously set to specify how /// `pkg-config` is run. pub fn probe(&self, name: &str) -> Result { let abort_var_name = format!("{}_NO_PKG_CONFIG", envify(name)); if self.env_var_os(&abort_var_name).is_some() { return Err(Error::EnvNoPkgConfig(abort_var_name)) } else if !target_supported() { return Err(Error::CrossCompilation); } let mut library = Library::new(); let output = run(self.command(name, &["--libs", "--cflags"]))?; library.parse_libs_cflags(name, &output, self); let output = run(self.command(name, &["--modversion"]))?; library.parse_modversion(str::from_utf8(&output).unwrap()); Ok(library) } /// Deprecated in favor of the top level `get_variable` function #[doc(hidden)] pub fn get_variable(package: &str, variable: &str) -> Result { get_variable(package, variable).map_err(|e| e.to_string()) } fn targetted_env_var(&self, var_base: &str) -> Result { if let Ok(target) = env::var("TARGET") { let host = env::var("HOST")?; let kind = if host == target { "HOST" } else { "TARGET" }; let target_u = target.replace("-", "_"); self.env_var(&format!("{}_{}", var_base, target)) .or_else(|_| self.env_var(&format!("{}_{}", var_base, target_u))) .or_else(|_| self.env_var(&format!("{}_{}", kind, var_base))) .or_else(|_| self.env_var(var_base)) } else { self.env_var(var_base) } } fn env_var(&self, name: &str) -> Result { if self.env_metadata { println!("cargo:rerun-if-env-changed={}", name); } env::var(name) } fn env_var_os(&self, name: &str) -> Option { if self.env_metadata { println!("cargo:rerun-if-env-changed={}", name); } env::var_os(name) } fn is_static(&self, name: &str) -> bool { self.statik.unwrap_or_else(|| self.infer_static(name)) } fn command(&self, name: &str, args: &[&str]) -> Command { let exe = self.env_var("PKG_CONFIG").unwrap_or_else(|_| String::from("pkg-config")); let mut cmd = Command::new(exe); if self.is_static(name) { cmd.arg("--static"); } cmd.args(args) .args(&self.extra_args); if let Ok(value) = self.targetted_env_var("PKG_CONFIG_PATH") { cmd.env("PKG_CONFIG_PATH", value); } if let Ok(value) = self.targetted_env_var("PKG_CONFIG_LIBDIR") { cmd.env("PKG_CONFIG_LIBDIR", value); } if let Ok(value) = self.targetted_env_var("PKG_CONFIG_SYSROOT_DIR") { cmd.env("PKG_CONFIG_SYSROOT_DIR", value); } if self.print_system_libs { cmd.env("PKG_CONFIG_ALLOW_SYSTEM_LIBS", "1"); } if let Some(ref version) = self.atleast_version { cmd.arg(&format!("{} >= {}", name, version)); } else { cmd.arg(name); } cmd } fn print_metadata(&self, s: &str) { if self.cargo_metadata { println!("cargo:{}", s); } } fn infer_static(&self, name: &str) -> bool { let name = envify(name); if self.env_var_os(&format!("{}_STATIC", name)).is_some() { true } else if self.env_var_os(&format!("{}_DYNAMIC", name)).is_some() { false } else if self.env_var_os("PKG_CONFIG_ALL_STATIC").is_some() { true } else if self.env_var_os("PKG_CONFIG_ALL_DYNAMIC").is_some() { false } else { false } } } impl Library { fn new() -> Library { Library { libs: Vec::new(), link_paths: Vec::new(), include_paths: Vec::new(), frameworks: Vec::new(), framework_paths: Vec::new(), defines: HashMap::new(), version: String::new(), _priv: (), } } fn parse_libs_cflags(&mut self, name: &str, output: &[u8], config: &Config) { let mut is_msvc = false; if let Ok(target) = env::var("TARGET") { if target.contains("msvc") { is_msvc = true; } } let words = split_flags(output); let parts = words.iter() .filter(|l| l.len() > 2) .map(|arg| (&arg[0..2], &arg[2..])) .collect::>(); let mut dirs = Vec::new(); let statik = config.is_static(name); for &(flag, val) in &parts { match flag { "-L" => { let meta = format!("rustc-link-search=native={}", val); config.print_metadata(&meta); dirs.push(PathBuf::from(val)); self.link_paths.push(PathBuf::from(val)); } "-F" => { let meta = format!("rustc-link-search=framework={}", val); config.print_metadata(&meta); self.framework_paths.push(PathBuf::from(val)); } "-I" => { self.include_paths.push(PathBuf::from(val)); } "-l" => { // These are provided by the CRT with MSVC if is_msvc && ["m", "c", "pthread"].contains(&val) { continue; } if statik && is_static_available(val, &dirs) { let meta = format!("rustc-link-lib=static={}", val); config.print_metadata(&meta); } else { let meta = format!("rustc-link-lib={}", val); config.print_metadata(&meta); } self.libs.push(val.to_string()); } "-D" => { let mut iter = val.split("="); self.defines.insert(iter.next().unwrap().to_owned(), iter.next().map(|s| s.to_owned())); } _ => {} } } let mut iter = words.iter() .flat_map(|arg| if arg.starts_with("-Wl,") { arg[4..].split(',').collect() } else { vec![arg.as_ref()] }); while let Some(part) = iter.next() { if part != "-framework" { continue } if let Some(lib) = iter.next() { let meta = format!("rustc-link-lib=framework={}", lib); config.print_metadata(&meta); self.frameworks.push(lib.to_string()); } } } fn parse_modversion(&mut self, output: &str) { self.version.push_str(output.trim()); } } fn envify(name: &str) -> String { name.chars().map(|c| c.to_ascii_uppercase()).map(|c| { if c == '-' {'_'} else {c} }).collect() } /// System libraries should only be linked dynamically fn is_static_available(name: &str, dirs: &[PathBuf]) -> bool { let libname = format!("lib{}.a", name); let system_roots = if cfg!(target_os = "macos") { vec![Path::new("/Library"), Path::new("/System")] } else { vec![Path::new("/usr")] }; dirs.iter().any(|dir| { !system_roots.iter().any(|sys| dir.starts_with(sys)) && dir.join(&libname).exists() }) } fn run(mut cmd: Command) -> Result, Error> { match cmd.output() { Ok(output) => { if output.status.success() { Ok(output.stdout) } else { Err(Error::Failure { command: format!("{:?}", cmd), output: output, }) } } Err(cause) => Err(Error::Command { command: format!("{:?}", cmd), cause: cause, }), } } /// Split output produced by pkg-config --cflags and / or --libs into separate flags. /// /// Backslash in output is used to preserve literal meaning of following byte. Different words are /// separated by unescaped space. Other whitespace characters generally should not occur unescaped /// at all, apart from the newline at the end of output. For compatibility with what others /// consumers of pkg-config output would do in this scenario, they are used here for splitting as /// well. fn split_flags(output: &[u8]) -> Vec { let mut word = Vec::new(); let mut words = Vec::new(); let mut escaped = false; for &b in output { match b { _ if escaped => { escaped = false; word.push(b); } b'\\' => { escaped = true } b'\t' | b'\n' | b'\r' | b' ' => { if !word.is_empty() { words.push(String::from_utf8(word).unwrap()); word = Vec::new(); } } _ => word.push(b), } } if !word.is_empty() { words.push(String::from_utf8(word).unwrap()); } words } #[test] #[cfg(target_os = "macos")] fn system_library_mac_test() { assert!(!is_static_available("PluginManager", &[PathBuf::from("/Library/Frameworks")])); assert!(!is_static_available("python2.7", &[PathBuf::from("/System/Library/Frameworks/Python.framework/Versions/2.7/lib/python2.7/config")])); assert!(!is_static_available("ffi_convenience", &[PathBuf::from("/Library/Ruby/Gems/2.0.0/gems/ffi-1.9.10/ext/ffi_c/libffi-x86_64/.libs")])); // Homebrew is in /usr/local, and it's not a part of the OS if Path::new("/usr/local/lib/libpng16.a").exists() { assert!(is_static_available("png16", &[PathBuf::from("/usr/local/lib")])); } } #[test] #[cfg(target_os = "linux")] fn system_library_linux_test() { assert!(!is_static_available("util", &[PathBuf::from("/usr/lib/x86_64-linux-gnu")])); assert!(!is_static_available("dialog", &[PathBuf::from("/usr/lib")])); }