use std::env; use std::fs; use std::io; use std::path::{Path, PathBuf}; use std::process::Command; /// Tries to use system libgit2 and emits necessary build script instructions. fn try_system_libgit2() -> Result { let mut cfg = pkg_config::Config::new(); match cfg.range_version("1.7.1".."1.8.0").probe("libgit2") { Ok(lib) => { for include in &lib.include_paths { println!("cargo:root={}", include.display()); } Ok(lib) } Err(e) => { println!("cargo:warning=failed to probe system libgit2: {e}"); Err(e) } } } fn main() { let https = env::var("CARGO_FEATURE_HTTPS").is_ok(); let ssh = env::var("CARGO_FEATURE_SSH").is_ok(); let vendored = env::var("CARGO_FEATURE_VENDORED").is_ok(); let zlib_ng_compat = env::var("CARGO_FEATURE_ZLIB_NG_COMPAT").is_ok(); // Specify `LIBGIT2_NO_VENDOR` to force to use system libgit2. // Due to the additive nature of Cargo features, if some crate in the // dependency graph activates `vendored` feature, there is no way to revert // it back. This env var serves as a workaround for this purpose. println!("cargo:rerun-if-env-changed=LIBGIT2_NO_VENDOR"); let forced_no_vendor = env::var_os("LIBGIT2_NO_VENDOR").map_or(false, |s| s != "0"); if forced_no_vendor { if try_system_libgit2().is_err() { panic!( "\ The environment variable `LIBGIT2_NO_VENDOR` has been set but no compatible system libgit2 could be found. The build is now aborting. To disable, unset the variable or use `LIBGIT2_NO_VENDOR=0`. ", ); } // We've reached here, implying we're using system libgit2. return; } // To use zlib-ng in zlib-compat mode, we have to build libgit2 ourselves. let try_to_use_system_libgit2 = !vendored && !zlib_ng_compat; if try_to_use_system_libgit2 && try_system_libgit2().is_ok() { // using system libgit2 has worked return; } panic!("debian build must never use vendored libgit2!"); println!("cargo:rustc-cfg=libgit2_vendored"); if !Path::new("libgit2/src").exists() { let _ = Command::new("git") .args(&["submodule", "update", "--init", "libgit2"]) .status(); } let target = env::var("TARGET").unwrap(); let windows = target.contains("windows"); let dst = PathBuf::from(env::var_os("OUT_DIR").unwrap()); let include = dst.join("include"); let mut cfg = cc::Build::new(); fs::create_dir_all(&include).unwrap(); // Copy over all header files cp_r("libgit2/include", &include); cfg.include(&include) .include("libgit2/src/libgit2") .include("libgit2/src/util") .out_dir(dst.join("build")) .warnings(false); // Include all cross-platform C files add_c_files(&mut cfg, "libgit2/src/libgit2"); add_c_files(&mut cfg, "libgit2/src/util"); // These are activated by features, but they're all unconditionally always // compiled apparently and have internal #define's to make sure they're // compiled correctly. add_c_files(&mut cfg, "libgit2/src/libgit2/transports"); add_c_files(&mut cfg, "libgit2/src/libgit2/streams"); // Always use bundled http-parser for now cfg.include("libgit2/deps/http-parser") .file("libgit2/deps/http-parser/http_parser.c"); // external/system xdiff is not yet supported cfg.include("libgit2/deps/xdiff"); add_c_files(&mut cfg, "libgit2/deps/xdiff"); // Use the included PCRE regex backend. // // Ideally these defines would be specific to the pcre files (or placed in // a config.h), but since libgit2 already has a config.h used for other // reasons, just define on the command-line for everything. Perhaps there // is some way with cc to have different instructions per-file? cfg.define("GIT_REGEX_BUILTIN", "1") .include("libgit2/deps/pcre") .define("HAVE_STDINT_H", Some("1")) .define("HAVE_MEMMOVE", Some("1")) .define("NO_RECURSE", Some("1")) .define("NEWLINE", Some("10")) .define("POSIX_MALLOC_THRESHOLD", Some("10")) .define("LINK_SIZE", Some("2")) .define("PARENS_NEST_LIMIT", Some("250")) .define("MATCH_LIMIT", Some("10000000")) .define("MATCH_LIMIT_RECURSION", Some("MATCH_LIMIT")) .define("MAX_NAME_SIZE", Some("32")) .define("MAX_NAME_COUNT", Some("10000")); // "no symbols" warning on pcre_string_utils.c is because it is only used // when when COMPILE_PCRE8 is not defined, which is the default. add_c_files(&mut cfg, "libgit2/deps/pcre"); cfg.file("libgit2/src/util/allocators/failalloc.c"); cfg.file("libgit2/src/util/allocators/stdalloc.c"); if windows { add_c_files(&mut cfg, "libgit2/src/util/win32"); cfg.define("STRSAFE_NO_DEPRECATE", None); cfg.define("WIN32", None); cfg.define("_WIN32_WINNT", Some("0x0600")); // libgit2's build system claims that forks like mingw-w64 of MinGW // still want this define to use C99 stdio functions automatically. // Apparently libgit2 breaks at runtime if this isn't here? Who knows! if target.contains("gnu") { cfg.define("__USE_MINGW_ANSI_STDIO", "1"); } } else { add_c_files(&mut cfg, "libgit2/src/util/unix"); cfg.flag("-fvisibility=hidden"); } if target.contains("solaris") || target.contains("illumos") { cfg.define("_POSIX_C_SOURCE", "200112L"); cfg.define("__EXTENSIONS__", None); } let mut features = String::new(); features.push_str("#ifndef INCLUDE_features_h\n"); features.push_str("#define INCLUDE_features_h\n"); features.push_str("#define GIT_THREADS 1\n"); features.push_str("#define GIT_TRACE 1\n"); if !target.contains("android") { features.push_str("#define GIT_USE_NSEC 1\n"); } if windows { features.push_str("#define GIT_IO_WSAPOLL 1\n"); } else { // Should we fallback to `select` as more systems have that? features.push_str("#define GIT_IO_POLL 1\n"); features.push_str("#define GIT_IO_SELECT 1\n"); } if target.contains("apple") { features.push_str("#define GIT_USE_STAT_MTIMESPEC 1\n"); } else { features.push_str("#define GIT_USE_STAT_MTIM 1\n"); } if env::var("CARGO_CFG_TARGET_POINTER_WIDTH").unwrap() == "32" { features.push_str("#define GIT_ARCH_32 1\n"); } else { features.push_str("#define GIT_ARCH_64 1\n"); } if ssh { if let Some(path) = env::var_os("DEP_SSH2_INCLUDE") { cfg.include(path); } features.push_str("#define GIT_SSH 1\n"); features.push_str("#define GIT_SSH_MEMORY_CREDENTIALS 1\n"); } if https { features.push_str("#define GIT_HTTPS 1\n"); if windows { features.push_str("#define GIT_WINHTTP 1\n"); } else if target.contains("apple") { features.push_str("#define GIT_SECURE_TRANSPORT 1\n"); } else { features.push_str("#define GIT_OPENSSL 1\n"); if let Some(path) = env::var_os("DEP_OPENSSL_INCLUDE") { cfg.include(path); } } } // Use the CollisionDetection SHA1 implementation. features.push_str("#define GIT_SHA1_COLLISIONDETECT 1\n"); cfg.define("SHA1DC_NO_STANDARD_INCLUDES", "1"); cfg.define("SHA1DC_CUSTOM_INCLUDE_SHA1_C", "\"common.h\""); cfg.define("SHA1DC_CUSTOM_INCLUDE_UBC_CHECK_C", "\"common.h\""); cfg.file("libgit2/src/util/hash/collisiondetect.c"); cfg.file("libgit2/src/util/hash/sha1dc/sha1.c"); cfg.file("libgit2/src/util/hash/sha1dc/ubc_check.c"); if https { if windows { features.push_str("#define GIT_SHA256_WIN32 1\n"); cfg.file("libgit2/src/util/hash/win32.c"); } else if target.contains("apple") { features.push_str("#define GIT_SHA256_COMMON_CRYPTO 1\n"); cfg.file("libgit2/src/util/hash/common_crypto.c"); } else { features.push_str("#define GIT_SHA256_OPENSSL 1\n"); cfg.file("libgit2/src/util/hash/openssl.c"); } } else { features.push_str("#define GIT_SHA256_BUILTIN 1\n"); cfg.file("libgit2/src/util/hash/builtin.c"); cfg.file("libgit2/src/util/hash/rfc6234/sha224-256.c"); } if let Some(path) = env::var_os("DEP_Z_INCLUDE") { cfg.include(path); } if target.contains("apple") { features.push_str("#define GIT_USE_ICONV 1\n"); } features.push_str("#endif\n"); fs::write(include.join("git2_features.h"), features).unwrap(); cfg.compile("git2"); println!("cargo:root={}", dst.display()); if target.contains("windows") { println!("cargo:rustc-link-lib=winhttp"); println!("cargo:rustc-link-lib=rpcrt4"); println!("cargo:rustc-link-lib=ole32"); println!("cargo:rustc-link-lib=crypt32"); println!("cargo:rustc-link-lib=secur32"); } if target.contains("apple") { println!("cargo:rustc-link-lib=iconv"); println!("cargo:rustc-link-lib=framework=Security"); println!("cargo:rustc-link-lib=framework=CoreFoundation"); } println!("cargo:rerun-if-changed=libgit2/include"); println!("cargo:rerun-if-changed=libgit2/src"); println!("cargo:rerun-if-changed=libgit2/deps"); } fn cp_r(from: impl AsRef, to: impl AsRef) { for e in from.as_ref().read_dir().unwrap() { let e = e.unwrap(); let from = e.path(); let to = to.as_ref().join(e.file_name()); if e.file_type().unwrap().is_dir() { fs::create_dir_all(&to).unwrap(); cp_r(&from, &to); } else { println!("{} => {}", from.display(), to.display()); fs::copy(&from, &to).unwrap(); } } } fn add_c_files(build: &mut cc::Build, path: impl AsRef) { let path = path.as_ref(); if !path.exists() { panic!("Path {} does not exist", path.display()); } // sort the C files to ensure a deterministic build for reproducible builds let dir = path.read_dir().unwrap(); let mut paths = dir.collect::>>().unwrap(); paths.sort_by_key(|e| e.path()); for e in paths { let path = e.path(); if e.file_type().unwrap().is_dir() { // skip dirs for now } else if path.extension().and_then(|s| s.to_str()) == Some("c") { build.file(&path); } } }