// Copyright 2015-2016 Brian Smith. // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice appear in all copies. // // THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHORS DISCLAIM ALL WARRANTIES // WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY // SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES // WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION // OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN // CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. //! Build the non-Rust components. // It seems like it would be a good idea to use `log!` for logging, but it // isn't worth having the external dependencies (one for the `log` crate, and // another for the concrete logging implementation). Instead we use `eprintln!` // to log everything to stderr. use std::{ ffi::{OsStr, OsString}, fs::{self, DirEntry}, io::Write, path::{Path, PathBuf}, process::Command, }; const X86: &str = "x86"; const X86_64: &str = "x86_64"; const AARCH64: &str = "aarch64"; const ARM: &str = "arm"; const WASM32: &str = "wasm32"; #[rustfmt::skip] const RING_SRCS: &[(&[&str], &str)] = &[ (&[], "crypto/curve25519/curve25519.c"), (&[], "crypto/fipsmodule/aes/aes_nohw.c"), (&[], "crypto/fipsmodule/bn/montgomery.c"), (&[], "crypto/fipsmodule/bn/montgomery_inv.c"), (&[], "crypto/fipsmodule/ec/ecp_nistz.c"), (&[], "crypto/fipsmodule/ec/gfp_p256.c"), (&[], "crypto/fipsmodule/ec/gfp_p384.c"), (&[], "crypto/fipsmodule/ec/p256.c"), (&[], "crypto/limbs/limbs.c"), (&[], "crypto/mem.c"), (&[], "crypto/poly1305/poly1305.c"), (&[AARCH64, ARM, X86_64, X86], "crypto/crypto.c"), (&[X86_64, X86], "crypto/cpu_intel.c"), (&[X86], "crypto/fipsmodule/aes/asm/aesni-x86.pl"), (&[X86], "crypto/fipsmodule/aes/asm/vpaes-x86.pl"), (&[X86], "crypto/fipsmodule/bn/asm/x86-mont.pl"), (&[X86], "crypto/chacha/asm/chacha-x86.pl"), (&[X86], "crypto/fipsmodule/modes/asm/ghash-x86.pl"), (&[X86_64], "crypto/chacha/asm/chacha-x86_64.pl"), (&[X86_64], "crypto/curve25519/curve25519_64_adx.c"), (&[X86_64], "crypto/fipsmodule/aes/asm/aesni-x86_64.pl"), (&[X86_64], "crypto/fipsmodule/aes/asm/vpaes-x86_64.pl"), (&[X86_64], "crypto/fipsmodule/bn/asm/x86_64-mont.pl"), (&[X86_64], "crypto/fipsmodule/bn/asm/x86_64-mont5.pl"), (&[X86_64], "crypto/fipsmodule/ec/asm/p256-x86_64-asm.pl"), (&[X86_64], "crypto/fipsmodule/modes/asm/aesni-gcm-x86_64.pl"), (&[X86_64], "crypto/fipsmodule/modes/asm/ghash-x86_64.pl"), (&[X86_64], "crypto/poly1305/poly1305_vec.c"), (&[X86_64], SHA512_X86_64), (&[X86_64], "crypto/cipher_extra/asm/chacha20_poly1305_x86_64.pl"), (&[X86_64], "third_party/fiat/asm/fiat_curve25519_adx_mul.S"), (&[X86_64], "third_party/fiat/asm/fiat_curve25519_adx_square.S"), (&[AARCH64, X86_64], "crypto/fipsmodule/ec/p256-nistz.c"), (&[AARCH64, ARM], "crypto/fipsmodule/aes/asm/aesv8-armx.pl"), (&[AARCH64, ARM], "crypto/fipsmodule/modes/asm/ghashv8-armx.pl"), (&[ARM], "crypto/fipsmodule/aes/asm/bsaes-armv7.pl"), (&[ARM], "crypto/fipsmodule/aes/asm/vpaes-armv7.pl"), (&[ARM], "crypto/fipsmodule/bn/asm/armv4-mont.pl"), (&[ARM], "crypto/chacha/asm/chacha-armv4.pl"), (&[ARM], "crypto/curve25519/asm/x25519-asm-arm.S"), (&[ARM], "crypto/fipsmodule/modes/asm/ghash-armv4.pl"), (&[ARM], "crypto/poly1305/poly1305_arm.c"), (&[ARM], "crypto/poly1305/poly1305_arm_asm.S"), (&[ARM], "crypto/fipsmodule/sha/asm/sha256-armv4.pl"), (&[ARM], "crypto/fipsmodule/sha/asm/sha512-armv4.pl"), (&[AARCH64], "crypto/chacha/asm/chacha-armv8.pl"), (&[AARCH64], "crypto/cipher_extra/asm/chacha20_poly1305_armv8.pl"), (&[AARCH64], "crypto/fipsmodule/aes/asm/vpaes-armv8.pl"), (&[AARCH64], "crypto/fipsmodule/bn/asm/armv8-mont.pl"), (&[AARCH64], "crypto/fipsmodule/ec/asm/p256-armv8-asm.pl"), (&[AARCH64], "crypto/fipsmodule/modes/asm/ghash-neon-armv8.pl"), (&[AARCH64], "crypto/fipsmodule/modes/asm/aesv8-gcm-armv8.pl"), (&[AARCH64], SHA512_ARMV8), ]; const SHA256_X86_64: &str = "crypto/fipsmodule/sha/asm/sha256-x86_64.pl"; const SHA512_X86_64: &str = "crypto/fipsmodule/sha/asm/sha512-x86_64.pl"; const SHA256_ARMV8: &str = "crypto/fipsmodule/sha/asm/sha256-armv8.pl"; const SHA512_ARMV8: &str = "crypto/fipsmodule/sha/asm/sha512-armv8.pl"; const RING_TEST_SRCS: &[&str] = &[("crypto/constant_time_test.c")]; const PREGENERATED: &str = "pregenerated"; fn cpp_flags(compiler: &cc::Tool) -> &'static [&'static str] { if !compiler.is_like_msvc() { static NON_MSVC_FLAGS: &[&str] = &[ "-fvisibility=hidden", "-std=c1x", // GCC 4.6 requires "c1x" instead of "c11" "-Wall", "-Wbad-function-cast", "-Wcast-align", "-Wcast-qual", "-Wconversion", "-Wmissing-field-initializers", "-Wmissing-include-dirs", "-Wnested-externs", "-Wredundant-decls", "-Wshadow", "-Wsign-compare", "-Wsign-conversion", "-Wstrict-prototypes", "-Wundef", "-Wuninitialized", ]; NON_MSVC_FLAGS } else { static MSVC_FLAGS: &[&str] = &[ "/Gy", // Enable function-level linking. "/Zc:wchar_t", "/Zc:forScope", "/Zc:inline", // Warnings. "/Wall", "/wd4127", // C4127: conditional expression is constant "/wd4464", // C4464: relative include path contains '..' "/wd4514", // C4514: : unreferenced inline function has be "/wd4710", // C4710: function not inlined "/wd4711", // C4711: function 'function' selected for inline expansion "/wd4820", // C4820: : bytes padding added after "/wd5045", /* C5045: Compiler will insert Spectre mitigation for memory load if * /Qspectre switch specified */ ]; MSVC_FLAGS } } // None means "any OS" or "any target". The first match in sequence order is // taken. const ASM_TARGETS: &[AsmTarget] = &[ AsmTarget { oss: LINUX_ABI, arch: AARCH64, perlasm_format: "linux64", asm_extension: "S", preassemble: false, }, AsmTarget { oss: LINUX_ABI, arch: ARM, perlasm_format: "linux32", asm_extension: "S", preassemble: false, }, AsmTarget { oss: LINUX_ABI, arch: X86, perlasm_format: "elf", asm_extension: "S", preassemble: false, }, AsmTarget { oss: LINUX_ABI, arch: X86_64, perlasm_format: "elf", asm_extension: "S", preassemble: false, }, AsmTarget { oss: MACOS_ABI, arch: AARCH64, perlasm_format: "ios64", asm_extension: "S", preassemble: false, }, AsmTarget { oss: MACOS_ABI, arch: X86_64, perlasm_format: "macosx", asm_extension: "S", preassemble: false, }, AsmTarget { oss: &[WINDOWS], arch: X86, perlasm_format: "win32n", asm_extension: "asm", preassemble: true, }, AsmTarget { oss: &[WINDOWS], arch: X86_64, perlasm_format: "nasm", asm_extension: "asm", preassemble: true, }, AsmTarget { oss: &[WINDOWS], arch: AARCH64, perlasm_format: "win64", asm_extension: "S", preassemble: false, }, ]; struct AsmTarget { /// Operating systems. oss: &'static [&'static str], /// Architectures. arch: &'static str, /// The PerlAsm format name. perlasm_format: &'static str, /// The filename extension for assembly files. asm_extension: &'static str, /// Whether pre-assembled object files should be included in the Cargo /// package instead of the asm sources. This way, the user doesn't need /// to install an assembler for the target. This is particularly important /// for x86/x86_64 Windows since an assembler doesn't come with the C /// compiler. preassemble: bool, } /// Operating systems that have the same ABI as Linux on every architecture /// mentioned in `ASM_TARGETS`. const LINUX_ABI: &[&str] = &[ "android", "dragonfly", "freebsd", "fuchsia", "haiku", "illumos", "netbsd", "openbsd", "linux", "redox", "solaris", ]; /// Operating systems that have the same ABI as macOS on every architecture /// mentioned in `ASM_TARGETS`. const MACOS_ABI: &[&str] = &["ios", MACOS, "tvos"]; const MACOS: &str = "macos"; const WINDOWS: &str = "windows"; /// Read an environment variable and tell Cargo that we depend on it. /// /// This needs to be used for any environment variable that isn't a standard /// Cargo-supplied variable. /// /// The name is static since we intend to only read a static set of environment /// variables. fn read_env_var(name: &'static str) -> Option { println!("cargo:rerun-if-env-changed={}", name); std::env::var_os(name) } fn main() { const RING_PREGENERATE_ASM: &str = "RING_PREGENERATE_ASM"; match read_env_var(RING_PREGENERATE_ASM).as_deref() { Some(s) if s == "1" => { pregenerate_asm_main(); } None => ring_build_rs_main(), _ => { panic!("${} has an invalid value", RING_PREGENERATE_ASM); } } } fn ring_build_rs_main() { use std::env; let out_dir = env::var_os("OUT_DIR").unwrap(); let out_dir = PathBuf::from(out_dir); let arch = env::var("CARGO_CFG_TARGET_ARCH").unwrap(); let os = env::var("CARGO_CFG_TARGET_OS").unwrap(); let is_musl = { let env = env::var("CARGO_CFG_TARGET_ENV").unwrap(); env.starts_with("musl") }; let is_git = std::fs::metadata(".git").is_ok(); // Published builds are always built in release mode. let is_debug = is_git && env::var("DEBUG").unwrap() != "false"; // If `.git` exists then assume this is the "local hacking" case where // we want to make it easy to build *ring* using `cargo build`/`cargo test` // without a prerequisite `package` step, at the cost of needing additional // tools like `Perl` and/or `nasm`. // // If `.git` doesn't exist then assume that this is a packaged build where // we want to optimize for minimizing the build tools required: No Perl, // no nasm, etc. let use_pregenerated = !is_git; // During local development, force warnings in non-Rust code to be treated // as errors. Since warnings are highly compiler-dependent and compilers // don't maintain backward compatibility w.r.t. which warnings they issue, // don't do this for packaged builds. let force_warnings_into_errors = is_git; let target = Target { arch, os, is_musl, is_debug, force_warnings_into_errors, }; let pregenerated = PathBuf::from(env::var_os("CARGO_MANIFEST_DIR").unwrap()).join(PREGENERATED); build_c_code( &target, pregenerated, &out_dir, &ring_core_prefix(), use_pregenerated, ); emit_rerun_if_changed() } fn pregenerate_asm_main() { println!("cargo:rustc-cfg=pregenerate_asm_only"); let pregenerated = PathBuf::from(PREGENERATED); std::fs::create_dir(&pregenerated).unwrap(); let pregenerated_tmp = pregenerated.join("tmp"); std::fs::create_dir(&pregenerated_tmp).unwrap(); generate_prefix_symbols_asm_headers(&pregenerated_tmp, &ring_core_prefix()).unwrap(); for asm_target in ASM_TARGETS { // For Windows, package pregenerated object files instead of // pregenerated assembly language source files, so that the user // doesn't need to install the assembler. let asm_dir = if asm_target.preassemble { &pregenerated_tmp } else { &pregenerated }; let perlasm_src_dsts = perlasm_src_dsts(asm_dir, asm_target); perlasm(&perlasm_src_dsts, asm_target); if asm_target.preassemble { // Preassembly is currently only done for Windows targets. assert_eq!(&asm_target.oss, &[WINDOWS]); let os = WINDOWS; let srcs = asm_srcs(perlasm_src_dsts); let target = Target { arch: asm_target.arch.to_owned(), os: os.to_owned(), is_musl: false, is_debug: false, force_warnings_into_errors: true, }; let b = new_build(&target, &pregenerated_tmp); for src in srcs { win_asm(&b, &src, &target, &pregenerated_tmp, &pregenerated); } } } } struct Target { arch: String, os: String, /// Is the target one that uses the musl C standard library instead of the default? is_musl: bool, /// Is this a debug build? This affects whether assertions might be enabled /// in the C code. For packaged builds, this should always be `false`. is_debug: bool, /// true: Force warnings to be treated as errors. /// false: Use the default behavior (perhaps determined by `$CFLAGS`, etc.) force_warnings_into_errors: bool, } fn build_c_code( target: &Target, pregenerated: PathBuf, out_dir: &Path, ring_core_prefix: &str, use_pregenerated: bool, ) { println!("cargo:rustc-env=RING_CORE_PREFIX={}", ring_core_prefix); let asm_target = ASM_TARGETS.iter().find(|asm_target| { asm_target.arch == target.arch && asm_target.oss.contains(&target.os.as_ref()) }); let asm_dir = if use_pregenerated { &pregenerated } else { out_dir }; generate_prefix_symbols_header(out_dir, "prefix_symbols.h", '#', None, ring_core_prefix) .unwrap(); generate_prefix_symbols_asm_headers(out_dir, ring_core_prefix).unwrap(); let (asm_srcs, obj_srcs) = if let Some(asm_target) = asm_target { let perlasm_src_dsts = perlasm_src_dsts(asm_dir, asm_target); if !use_pregenerated { perlasm(&perlasm_src_dsts[..], asm_target); } let asm_srcs = asm_srcs(perlasm_src_dsts); // For Windows we also pregenerate the object files for non-Git builds so // the user doesn't need to install the assembler. if use_pregenerated && target.os == WINDOWS && asm_target.preassemble { let obj_srcs = asm_srcs .iter() .map(|src| obj_path(&pregenerated, src.as_path())) .collect::>(); (vec![], obj_srcs) } else { (asm_srcs, vec![]) } } else { (vec![], vec![]) }; let core_srcs = sources_for_arch(&target.arch) .into_iter() .filter(|p| !is_perlasm(p)) .filter(|p| { if let Some(extension) = p.extension() { // We don't (and can't) use any .S on Windows since MSVC and NASM can't assemble // them. if extension == "S" && (target.arch == X86_64 || target.arch == X86) && target.os == WINDOWS { return false; } } true }) .collect::>(); let test_srcs = RING_TEST_SRCS.iter().map(PathBuf::from).collect::>(); let libs = [ ("", &core_srcs[..], &asm_srcs[..], &obj_srcs[..]), ("test", &test_srcs[..], &[], &[]), ]; // XXX: Ideally, ring-test would only be built for `cargo test`, but Cargo // can't do that yet. libs.iter() .for_each(|&(lib_name_suffix, srcs, asm_srcs, obj_srcs)| { let lib_name = String::from(ring_core_prefix) + lib_name_suffix; let srcs = srcs.iter().chain(asm_srcs); build_library(target, out_dir, &lib_name, srcs, obj_srcs) }); println!( "cargo:rustc-link-search=native={}", out_dir.to_str().expect("Invalid path") ); } fn new_build(target: &Target, include_dir: &Path) -> cc::Build { let mut b = cc::Build::new(); configure_cc(&mut b, target, include_dir); b } fn build_library<'a>( target: &Target, out_dir: &Path, lib_name: &str, srcs: impl Iterator, preassembled_objs: &[PathBuf], ) { let mut c = new_build(target, out_dir); // Compile all the (dirty) source files into object files. srcs.for_each(|src| { // XXX: `b.file(p)` isn't enough to assemble an '.S' with clang on aarch64-pc-windows-msvc // presumably due to a bug in cc-rs; it doesn't pass clang `-c` like it does for other // targets. if target.os != WINDOWS || !matches!(src.extension(), Some(e) if e == "S" || e == "asm") { c.file(src); } else { let obj = win_asm(&c, src, target, out_dir, out_dir); c.object(obj); } }); preassembled_objs.iter().for_each(|obj| { c.object(obj); }); // Rebuild the library if necessary. let lib_path = PathBuf::from(out_dir).join(format!("lib{}.a", lib_name)); // Handled below. let _ = c.cargo_metadata(false); c.compile( lib_path .file_name() .and_then(|f| f.to_str()) .expect("No filename"), ); // Link the library. This works even when the library doesn't need to be // rebuilt. println!("cargo:rustc-link-lib=static={}", lib_name); } fn win_asm( b: &cc::Build, p: &Path, target: &Target, include_dir: &Path, out_dir: &Path, ) -> PathBuf { let ext = p.extension().unwrap().to_str().unwrap(); let out_file = obj_path(out_dir, p); let cmd = if target.os != WINDOWS || ext != "asm" { cc_asm(b, p, &out_file) } else { nasm(p, &target.arch, include_dir, &out_file) }; run_command(cmd); out_file } fn obj_path(out_dir: &Path, src: &Path) -> PathBuf { let mut out_path = out_dir.join(src.file_name().unwrap()); // To eliminate unnecessary conditional logic, use ".o" as the extension, // even when the compiler (e.g. MSVC) would normally use something else // (e.g. ".obj"). cc-rs seems to do the same. assert!(out_path.set_extension("o")); out_path } fn configure_cc(c: &mut cc::Build, target: &Target, include_dir: &Path) { // FIXME: On Windows AArch64 we currently must use Clang to compile C code if target.os == WINDOWS && target.arch == AARCH64 && !c.get_compiler().is_like_clang() { let _ = c.compiler("clang"); } let compiler = c.get_compiler(); let _ = c.include("include"); let _ = c.include(include_dir); for f in cpp_flags(&compiler) { let _ = c.flag(f); } if target.os.as_str() == MACOS { // ``-gfull`` is required for Darwin's |-dead_strip|. let _ = c.flag("-gfull"); } else if !compiler.is_like_msvc() { let _ = c.flag("-g3"); }; if !target.is_debug { let _ = c.define("NDEBUG", None); } // Allow cross-compiling without a target sysroot for these targets. // // poly1305_vec.c requires which requires . if (target.arch == WASM32) || (target.os == "linux" && target.is_musl && target.arch != X86_64) { if let Ok(compiler) = c.try_get_compiler() { // TODO: Expand this to non-clang compilers in 0.17.0 if practical. if compiler.is_like_clang() { let _ = c.flag("-nostdlibinc"); let _ = c.define("RING_CORE_NOSTDLIBINC", "1"); } } } if target.force_warnings_into_errors { c.warnings_into_errors(true); } } /// Assembles the assemply language source `file` into the object file /// `out_file`. fn cc_asm(b: &cc::Build, file: &Path, out_file: &Path) -> Command { let cc = b.get_compiler(); let obj_opt = if cc.is_like_msvc() { "/Fo" } else { "-o" }; let mut arg = OsString::from(obj_opt); arg.push(out_file); let mut c = cc.to_command(); let _ = c.arg("-c").arg(arg).arg(file); c } fn nasm(file: &Path, arch: &str, include_dir: &Path, out_file: &Path) -> Command { let oformat = match arch { x if x == X86_64 => "win64", x if x == X86 => "win32", _ => panic!("unsupported arch: {}", arch), }; // Nasm requires that the path end in a path separator. let mut include_dir = include_dir.as_os_str().to_os_string(); include_dir.push(std::ffi::OsString::from(String::from( std::path::MAIN_SEPARATOR, ))); let mut c = Command::new("./target/tools/windows/nasm/nasm"); let _ = c .arg("-o") .arg(out_file.to_str().expect("Invalid path")) .arg("-f") .arg(oformat) .arg("-i") .arg("include/") .arg("-i") .arg(include_dir) .arg("-Xgnu") .arg("-gcv8") .arg(file); c } fn run_command_with_args(command_name: &OsStr, args: &[String]) { let mut cmd = Command::new(command_name); let _ = cmd.args(args); run_command(cmd) } fn run_command(mut cmd: Command) { eprintln!("running {:?}", cmd); let status = cmd.status().unwrap_or_else(|e| { panic!("failed to execute [{:?}]: {}", cmd, e); }); if !status.success() { panic!("execution failed"); } } fn sources_for_arch(arch: &str) -> Vec { RING_SRCS .iter() .filter(|&&(archs, _)| archs.is_empty() || archs.contains(&arch)) .map(|&(_, p)| PathBuf::from(p)) .collect::>() } fn perlasm_src_dsts(out_dir: &Path, asm_target: &AsmTarget) -> Vec<(PathBuf, PathBuf)> { let srcs = sources_for_arch(asm_target.arch); let mut src_dsts = srcs .iter() .filter(|p| is_perlasm(p)) .map(|src| (src.clone(), asm_path(out_dir, src, asm_target))) .collect::>(); // Some PerlAsm source files need to be run multiple times with different // output paths. { // Appease the borrow checker. let mut maybe_synthesize = |concrete, synthesized| { let concrete_path = PathBuf::from(concrete); if srcs.contains(&concrete_path) { let synthesized_path = PathBuf::from(synthesized); src_dsts.push(( concrete_path, asm_path(out_dir, &synthesized_path, asm_target), )) } }; maybe_synthesize(SHA512_X86_64, SHA256_X86_64); maybe_synthesize(SHA512_ARMV8, SHA256_ARMV8); } src_dsts } fn asm_srcs(perlasm_src_dsts: Vec<(PathBuf, PathBuf)>) -> Vec { perlasm_src_dsts .into_iter() .map(|(_src, dst)| dst) .collect::>() } fn is_perlasm(path: &Path) -> bool { path.extension().unwrap().to_str().unwrap() == "pl" } fn asm_path(out_dir: &Path, src: &Path, asm_target: &AsmTarget) -> PathBuf { let src_stem = src.file_stem().expect("source file without basename"); let dst_stem = src_stem.to_str().unwrap(); let dst_filename = format!( "{}-{}.{}", dst_stem, asm_target.perlasm_format, asm_target.asm_extension ); out_dir.join(dst_filename) } fn perlasm(src_dst: &[(PathBuf, PathBuf)], asm_target: &AsmTarget) { for (src, dst) in src_dst { let mut args = vec![ src.to_string_lossy().into_owned(), asm_target.perlasm_format.to_owned(), ]; if asm_target.arch == X86 { args.push("-fPIC".into()); args.push("-DOPENSSL_IA32_SSE2".into()); } // Work around PerlAsm issue for ARM and AAarch64 targets by replacing // back slashes with forward slashes. let dst = dst .to_str() .expect("Could not convert path") .replace('\\', "/"); args.push(dst); run_command_with_args(&get_command("PERL_EXECUTABLE", "perl"), &args); } } fn get_command(var: &'static str, default: &str) -> OsString { read_env_var(var).unwrap_or_else(|| default.into()) } // TODO: We should emit `cargo:rerun-if-changed-env` for the various // environment variables that affect the build. fn emit_rerun_if_changed() { for path in &["crypto", "include", "third_party/fiat"] { walk_dir(&PathBuf::from(path), &|entry| { let path = entry.path(); match path.extension().and_then(|ext| ext.to_str()) { Some("c") | Some("S") | Some("h") | Some("inl") | Some("pl") | None => { println!("cargo:rerun-if-changed={}", path.to_str().unwrap()); } _ => { // Ignore other types of files. } } }) } } fn walk_dir(dir: &Path, cb: &impl Fn(&DirEntry)) { if dir.is_dir() { for entry in fs::read_dir(dir).unwrap() { let entry = entry.unwrap(); let path = entry.path(); if path.is_dir() { walk_dir(&path, cb); } else { cb(&entry); } } } } fn ring_core_prefix() -> String { let links = std::env::var("CARGO_MANIFEST_LINKS").unwrap(); let computed = { let name = std::env::var("CARGO_PKG_NAME").unwrap(); let version = std::env::var("CARGO_PKG_VERSION").unwrap(); name + "_core_" + &version.replace(&['-', '.'][..], "_") }; assert_eq!(links, computed); links + "_" } /// Creates the necessary header files for symbol renaming that are included by /// assembly code. /// /// For simplicity, both non-Nasm- and Nasm- style headers are always /// generated, even though local non-packaged builds need only one of them. fn generate_prefix_symbols_asm_headers(out_dir: &Path, prefix: &str) -> Result<(), std::io::Error> { generate_prefix_symbols_header( out_dir, "prefix_symbols_asm.h", '#', Some("#if defined(__APPLE__)"), prefix, )?; generate_prefix_symbols_header( out_dir, "prefix_symbols_nasm.inc", '%', Some("%ifidn __OUTPUT_FORMAT__,win32"), prefix, )?; Ok(()) } fn generate_prefix_symbols_header( out_dir: &Path, filename: &str, pp: char, prefix_condition: Option<&str>, prefix: &str, ) -> Result<(), std::io::Error> { let dir = out_dir.join("ring_core_generated"); std::fs::create_dir_all(&dir)?; let path = dir.join(filename); let mut file = std::fs::File::create(path)?; let filename_ident = filename.replace('.', "_").to_uppercase(); writeln!( file, r#" {pp}ifndef ring_core_generated_{filename_ident} {pp}define ring_core_generated_{filename_ident} "#, pp = pp, filename_ident = filename_ident )?; if let Some(prefix_condition) = prefix_condition { writeln!(file, "{}", prefix_condition)?; writeln!(file, "{}", prefix_all_symbols(pp, "_", prefix))?; writeln!(file, "{pp}else", pp = pp)?; }; writeln!(file, "{}", prefix_all_symbols(pp, "", prefix))?; if prefix_condition.is_some() { writeln!(file, "{pp}endif", pp = pp)? } writeln!(file, "{pp}endif", pp = pp)?; Ok(()) } fn prefix_all_symbols(pp: char, prefix_prefix: &str, prefix: &str) -> String { // Rename some nistz256 assembly functions to match the names of their // polyfills. static SYMBOLS_TO_RENAME: &[(&str, &str)] = &[ ("ecp_nistz256_point_double", "p256_point_double"), ("ecp_nistz256_point_add", "p256_point_add"), ("ecp_nistz256_point_add_affine", "p256_point_add_affine"), ("ecp_nistz256_ord_mul_mont", "p256_scalar_mul_mont"), ("ecp_nistz256_ord_sqr_mont", "p256_scalar_sqr_rep_mont"), ("ecp_nistz256_mul_mont", "p256_mul_mont"), ("ecp_nistz256_sqr_mont", "p256_sqr_mont"), ]; static SYMBOLS_TO_PREFIX: &[&str] = &[ "CRYPTO_memcmp", "CRYPTO_poly1305_finish", "CRYPTO_poly1305_finish_neon", "CRYPTO_poly1305_init", "CRYPTO_poly1305_init_neon", "CRYPTO_poly1305_update", "CRYPTO_poly1305_update_neon", "ChaCha20_ctr32", "LIMBS_add_mod", "LIMBS_are_even", "LIMBS_are_zero", "LIMBS_equal", "LIMBS_equal_limb", "LIMBS_less_than", "LIMBS_less_than_limb", "LIMBS_reduce_once", "LIMBS_select_512_32", "LIMBS_shl_mod", "LIMBS_sub_mod", "LIMBS_window5_split_window", "LIMBS_window5_unsplit_window", "LIMB_shr", "OPENSSL_armcap_P", "OPENSSL_cpuid_setup", "OPENSSL_ia32cap_P", "aes_hw_ctr32_encrypt_blocks", "aes_hw_encrypt", "aes_hw_set_encrypt_key", "aes_nohw_ctr32_encrypt_blocks", "aes_nohw_encrypt", "aes_nohw_set_encrypt_key", "aesni_gcm_decrypt", "aesni_gcm_encrypt", "bn_from_montgomery_in_place", "bn_gather5", "bn_mul_mont", "bn_mul_mont_gather5", "bn_neg_inv_mod_r_u64", "bn_power5", "bn_scatter5", "bn_sqr8x_internal", "bn_sqrx8x_internal", "bsaes_ctr32_encrypt_blocks", "bssl_constant_time_test_conditional_memcpy", "bssl_constant_time_test_conditional_memxor", "bssl_constant_time_test_main", "chacha20_poly1305_open", "chacha20_poly1305_seal", "fiat_curve25519_adx_mul", "fiat_curve25519_adx_square", "gcm_ghash_avx", "gcm_ghash_clmul", "gcm_ghash_neon", "gcm_gmult_clmul", "gcm_gmult_neon", "gcm_init_avx", "gcm_init_clmul", "gcm_init_neon", "aes_gcm_enc_kernel", "aes_gcm_dec_kernel", "k25519Precomp", "limbs_mul_add_limb", "little_endian_bytes_from_scalar", "ecp_nistz256_neg", "ecp_nistz256_select_w5", "ecp_nistz256_select_w7", "p256_mul_mont", "p256_point_add", "p256_point_add_affine", "p256_point_double", "p256_point_mul", "p256_point_mul_base", "p256_point_mul_base_vartime", "p256_scalar_mul_mont", "p256_scalar_sqr_rep_mont", "p256_sqr_mont", "p384_elem_div_by_2", "p384_elem_mul_mont", "p384_elem_neg", "p384_elem_sub", "p384_point_add", "p384_point_double", "p384_point_mul", "p384_scalar_mul_mont", "openssl_poly1305_neon2_addmulmod", "openssl_poly1305_neon2_blocks", "sha256_block_data_order", "sha512_block_data_order", "vpaes_ctr32_encrypt_blocks", "vpaes_encrypt", "vpaes_encrypt_key_to_bsaes", "vpaes_set_encrypt_key", "x25519_NEON", "x25519_fe_invert", "x25519_fe_isnegative", "x25519_fe_mul_ttt", "x25519_fe_neg", "x25519_fe_tobytes", "x25519_ge_double_scalarmult_vartime", "x25519_ge_frombytes_vartime", "x25519_ge_scalarmult_base", "x25519_ge_scalarmult_base_adx", "x25519_public_from_private_generic_masked", "x25519_sc_mask", "x25519_sc_muladd", "x25519_sc_reduce", "x25519_scalar_mult_adx", "x25519_scalar_mult_generic_masked", ]; let mut out = String::new(); for (old, new) in SYMBOLS_TO_RENAME { let line = format!( "{pp}define {prefix_prefix}{old} {prefix_prefix}{new}\n", pp = pp, prefix_prefix = prefix_prefix, old = old, new = new ); out += &line; } for symbol in SYMBOLS_TO_PREFIX { let line = format!( "{pp}define {prefix_prefix}{symbol} {prefix_prefix}{prefix}{symbol}\n", pp = pp, prefix_prefix = prefix_prefix, prefix = prefix, symbol = symbol ); out += &line; } out }