#[cfg(feature = "bindgen")] extern crate bindgen; extern crate cc; #[cfg(feature = "vendored")] extern crate openssl_src; extern crate pkg_config; extern crate vcpkg; use std::collections::HashSet; use std::env; use std::ffi::OsString; use std::path::{Path, PathBuf}; mod cfgs; mod find_normal; #[cfg(feature = "vendored")] mod find_vendored; mod run_bindgen; #[derive(PartialEq)] enum Version { Openssl3xx, Openssl11x, Openssl10x, Libressl, Boringssl, } fn env_inner(name: &str) -> Option { let var = env::var_os(name); println!("cargo:rerun-if-env-changed={}", name); match var { Some(ref v) => println!("{} = {}", name, v.to_string_lossy()), None => println!("{} unset", name), } var } fn env(name: &str) -> Option { let prefix = env::var("TARGET").unwrap().to_uppercase().replace('-', "_"); let prefixed = format!("{}_{}", prefix, name); env_inner(&prefixed).or_else(|| env_inner(name)) } fn find_openssl(target: &str) -> (Vec, PathBuf) { #[cfg(feature = "vendored")] { // vendor if the feature is present, unless // OPENSSL_NO_VENDOR exists and isn't `0` if env("OPENSSL_NO_VENDOR").map_or(true, |s| s == "0") { return find_vendored::get_openssl(target); } } find_normal::get_openssl(target) } fn check_ssl_kind() { if cfg!(feature = "unstable_boringssl") { println!("cargo:rustc-cfg=boringssl"); println!("cargo:boringssl=true"); // BoringSSL does not have any build logic, exit early std::process::exit(0); } } fn main() { check_ssl_kind(); let target = env::var("TARGET").unwrap(); let (lib_dirs, include_dir) = find_openssl(&target); if !lib_dirs.iter().all(|p| Path::new(p).exists()) { panic!("OpenSSL library directory does not exist: {:?}", lib_dirs); } if !Path::new(&include_dir).exists() { panic!( "OpenSSL include directory does not exist: {}", include_dir.to_string_lossy() ); } for lib_dir in lib_dirs.iter() { println!( "cargo:rustc-link-search=native={}", lib_dir.to_string_lossy() ); } println!("cargo:include={}", include_dir.to_string_lossy()); let version = postprocess(&[include_dir]); let libs_env = env("OPENSSL_LIBS"); let libs = match libs_env.as_ref().and_then(|s| s.to_str()) { Some(v) => { if v.is_empty() { vec![] } else { v.split(':').collect() } } None => match version { Version::Openssl10x if target.contains("windows") => vec!["ssleay32", "libeay32"], Version::Openssl3xx | Version::Openssl11x if target.contains("windows-msvc") => { vec!["libssl", "libcrypto"] } _ => vec!["ssl", "crypto"], }, }; let kind = determine_mode(&lib_dirs, &libs); for lib in libs.into_iter() { println!("cargo:rustc-link-lib={}={}", kind, lib); } if kind == "static" && target.contains("windows") { println!("cargo:rustc-link-lib=dylib=gdi32"); println!("cargo:rustc-link-lib=dylib=user32"); println!("cargo:rustc-link-lib=dylib=crypt32"); println!("cargo:rustc-link-lib=dylib=ws2_32"); println!("cargo:rustc-link-lib=dylib=advapi32"); } } fn postprocess(include_dirs: &[PathBuf]) -> Version { let version = validate_headers(include_dirs); // Never run bindgen for BoringSSL, if it was needed we already ran it. if version != Version::Boringssl { #[cfg(feature = "bindgen")] run_bindgen::run(&include_dirs); } version } /// Validates the header files found in `include_dir` and then returns the /// version string of OpenSSL. #[allow(clippy::unusual_byte_groupings)] fn validate_headers(include_dirs: &[PathBuf]) -> Version { // This `*-sys` crate only works with OpenSSL 1.0.1, 1.0.2, 1.1.0, 1.1.1 and 3.0.0. // To correctly expose the right API from this crate, take a look at // `opensslv.h` to see what version OpenSSL claims to be. // // OpenSSL has a number of build-time configuration options which affect // various structs and such. Since OpenSSL 1.1.0 this isn't really a problem // as the library is much more FFI-friendly, but 1.0.{1,2} suffer this problem. // // To handle all this conditional compilation we slurp up the configuration // file of OpenSSL, `opensslconf.h`, and then dump out everything it defines // as our own #[cfg] directives. That way the `ossl10x.rs` bindings can // account for compile differences and such. println!("cargo:rerun-if-changed=build/expando.c"); let mut gcc = cc::Build::new(); gcc.includes(include_dirs); let expanded = match gcc.file("build/expando.c").try_expand() { Ok(expanded) => expanded, Err(e) => { panic!( " Header expansion error: {:?} Failed to find OpenSSL development headers. You can try fixing this setting the `OPENSSL_DIR` environment variable pointing to your OpenSSL installation or installing OpenSSL headers package specific to your distribution: # On Ubuntu sudo apt-get install libssl-dev # On Arch Linux sudo pacman -S openssl # On Fedora sudo dnf install openssl-devel # On Alpine Linux apk add openssl-dev See rust-openssl documentation for more information: https://docs.rs/openssl ", e ); } }; let expanded = String::from_utf8(expanded).unwrap(); let mut enabled = vec![]; let mut openssl_version = None; let mut libressl_version = None; let mut is_boringssl = false; for line in expanded.lines() { let line = line.trim(); let openssl_prefix = "RUST_VERSION_OPENSSL_"; let new_openssl_prefix = "RUST_VERSION_NEW_OPENSSL_"; let libressl_prefix = "RUST_VERSION_LIBRESSL_"; let boringsl_prefix = "RUST_OPENSSL_IS_BORINGSSL"; let conf_prefix = "RUST_CONF_"; if let Some(version) = line.strip_prefix(openssl_prefix) { openssl_version = Some(parse_version(version)); } else if let Some(version) = line.strip_prefix(new_openssl_prefix) { openssl_version = Some(parse_new_version(version)); } else if let Some(version) = line.strip_prefix(libressl_prefix) { libressl_version = Some(parse_version(version)); } else if let Some(conf) = line.strip_prefix(conf_prefix) { enabled.push(conf); } else if line.starts_with(boringsl_prefix) { is_boringssl = true; } } if is_boringssl { println!("cargo:rustc-cfg=boringssl"); println!("cargo:boringssl=true"); run_bindgen::run_boringssl(include_dirs); return Version::Boringssl; } // We set this for any non-BoringSSL lib. println!("cargo:rustc-cfg=openssl"); for enabled in &enabled { println!("cargo:rustc-cfg=osslconf=\"{}\"", enabled); } println!("cargo:conf={}", enabled.join(",")); for cfg in cfgs::get(openssl_version, libressl_version) { println!("cargo:rustc-cfg={}", cfg); } if let Some(libressl_version) = libressl_version { println!("cargo:libressl_version_number={:x}", libressl_version); let major = (libressl_version >> 28) as u8; let minor = (libressl_version >> 20) as u8; let fix = (libressl_version >> 12) as u8; let (major, minor, fix) = match (major, minor, fix) { (2, 5, 0) => ('2', '5', '0'), (2, 5, 1) => ('2', '5', '1'), (2, 5, 2) => ('2', '5', '2'), (2, 5, _) => ('2', '5', 'x'), (2, 6, 0) => ('2', '6', '0'), (2, 6, 1) => ('2', '6', '1'), (2, 6, 2) => ('2', '6', '2'), (2, 6, _) => ('2', '6', 'x'), (2, 7, _) => ('2', '7', 'x'), (2, 8, 0) => ('2', '8', '0'), (2, 8, 1) => ('2', '8', '1'), (2, 8, _) => ('2', '8', 'x'), (2, 9, 0) => ('2', '9', '0'), (2, 9, _) => ('2', '9', 'x'), (3, 0, 0) => ('3', '0', '0'), (3, 0, 1) => ('3', '0', '1'), (3, 0, _) => ('3', '0', 'x'), (3, 1, 0) => ('3', '1', '0'), (3, 1, _) => ('3', '1', 'x'), (3, 2, 0) => ('3', '2', '0'), (3, 2, 1) => ('3', '2', '1'), (3, 2, _) => ('3', '2', 'x'), (3, 3, 0) => ('3', '3', '0'), (3, 3, 1) => ('3', '3', '1'), (3, 3, _) => ('3', '3', 'x'), (3, 4, 0) => ('3', '4', '0'), (3, 4, _) => ('3', '4', 'x'), (3, 5, _) => ('3', '5', 'x'), (3, 6, 0) => ('3', '6', '0'), (3, 6, _) => ('3', '6', 'x'), (3, 7, 0) => ('3', '7', '0'), (3, 7, 1) => ('3', '7', '1'), (3, 7, _) => ('3', '7', 'x'), (3, 8, 0) => ('3', '8', '0'), _ => version_error(), }; println!("cargo:libressl=true"); println!("cargo:libressl_version={}{}{}", major, minor, fix); println!("cargo:version=101"); Version::Libressl } else { let openssl_version = openssl_version.unwrap(); println!("cargo:version_number={:x}", openssl_version); if openssl_version >= 0x4_00_00_00_0 { version_error() } else if openssl_version >= 0x3_00_00_00_0 { Version::Openssl3xx } else if openssl_version >= 0x1_01_01_00_0 { println!("cargo:version=111"); Version::Openssl11x } else if openssl_version >= 0x1_01_00_06_0 { println!("cargo:version=110"); println!("cargo:patch=f"); Version::Openssl11x } else if openssl_version >= 0x1_01_00_00_0 { println!("cargo:version=110"); Version::Openssl11x } else if openssl_version >= 0x1_00_02_00_0 { println!("cargo:version=102"); Version::Openssl10x } else if openssl_version >= 0x1_00_01_00_0 { println!("cargo:version=101"); Version::Openssl10x } else { version_error() } } } fn version_error() -> ! { panic!( " This crate is only compatible with OpenSSL (version 1.0.1 through 1.1.1, or 3.0.0), or LibreSSL 2.5 through 3.8.0, but a different version of OpenSSL was found. The build is now aborting due to this version mismatch. " ); } // parses a string that looks like "0x100020cfL" fn parse_version(version: &str) -> u64 { // cut off the 0x prefix assert!(version.starts_with("0x")); let version = &version[2..]; // and the type specifier suffix let version = version.trim_end_matches(|c: char| !c.is_ascii_hexdigit()); u64::from_str_radix(version, 16).unwrap() } // parses a string that looks like 3_0_0 fn parse_new_version(version: &str) -> u64 { println!("version: {}", version); let mut it = version.split('_'); let major = it.next().unwrap().parse::().unwrap(); let minor = it.next().unwrap().parse::().unwrap(); let patch = it.next().unwrap().parse::().unwrap(); (major << 28) | (minor << 20) | (patch << 4) } /// Given a libdir for OpenSSL (where artifacts are located) as well as the name /// of the libraries we're linking to, figure out whether we should link them /// statically or dynamically. fn determine_mode(libdirs: &[PathBuf], libs: &[&str]) -> &'static str { // First see if a mode was explicitly requested let kind = env("OPENSSL_STATIC"); match kind.as_ref().and_then(|s| s.to_str()) { Some("0") => return "dylib", Some(_) => return "static", None => {} } // Next, see what files we actually have to link against, and see what our // possibilities even are. let mut files = HashSet::new(); for dir in libdirs { for path in dir .read_dir() .unwrap() .map(|e| e.unwrap()) .map(|e| e.file_name()) .filter_map(|e| e.into_string().ok()) { files.insert(path); } } let can_static = libs .iter() .all(|l| files.contains(&format!("lib{}.a", l)) || files.contains(&format!("{}.lib", l))); let can_dylib = libs.iter().all(|l| { files.contains(&format!("lib{}.so", l)) || files.contains(&format!("{}.dll", l)) || files.contains(&format!("lib{}.dylib", l)) }); match (can_static, can_dylib) { (true, false) => return "static", (false, true) => return "dylib", (false, false) => { panic!( "OpenSSL libdir at `{:?}` does not contain the required files \ to either statically or dynamically link OpenSSL", libdirs ); } (true, true) => {} } // Ok, we've got not explicit preference and can *either* link statically or // link dynamically. In the interest of "security upgrades" and/or "best // practices with security libs", let's link dynamically. "dylib" }