use glob::glob; use sha2::{Digest, Sha256}; use std::fs::OpenOptions; use std::io::BufRead; use std::io::Write; use std::{ env, io, path::Path, process::{Command, Stdio}, }; const CAPNP_VERSION: &str = "1.0.2"; fn get_desired_capnp_version_string() -> String { CAPNP_VERSION.to_string() } fn get_capnp_version_string() -> String { let output = Command::new("capnp") .arg("--version") .stdout(Stdio::piped()) .output() .expect("capnp was not in the PATH, and is required for the build when you have changed any .capnp files"); let s = String::from_utf8(output.stdout) .expect("'capnp --version' output was not a valid string") .trim() .to_owned(); if !s.starts_with("Cap'n Proto version ") { panic!("invalid capnp version string: {}", s); } s[20..].to_owned() } fn is_input_file_outdated(input: P, output: Q) -> io::Result where P: AsRef, Q: AsRef, { let (Some(out_bh), Some(out_capnp_hash)) = get_build_hash_and_capnp_version_hash(output) else { // output file not found or no build hash, we are outdated println!("cargo:warning=Output file not found or no build hash."); return Ok(true); }; // Check if desired CAPNP_VERSION hash has changed let mut hasher = Sha256::new(); hasher.update(get_desired_capnp_version_string().as_bytes()); let capnp_hash = hasher.finalize().to_vec(); let in_bh = make_build_hash(input); if out_bh != in_bh { println!("cargo:warning=Build hash has changed."); return Ok(true); } if out_capnp_hash != capnp_hash { println!("cargo:warning=Capnp desired version hash has changed."); return Ok(true); } Ok(false) } fn calculate_hash(lines: std::io::Lines>) -> Vec { let mut hasher = Sha256::new(); // Build hash of lines, ignoring EOL conventions for l in lines { let l = l.unwrap(); hasher.update(l.as_bytes()); hasher.update(b"\n"); } let out = hasher.finalize(); out.to_vec() } fn get_build_hash_and_capnp_version_hash>( output_path: Q, ) -> (Option>, Option>) { let output_file = match std::fs::File::open(output_path).ok() { // Returns a file handle if the file exists Some(f) => f, // Returns None, None if the file does not exist None => return (None, None), }; let lines = std::io::BufReader::new(output_file).lines(); let mut build_hash = None; let mut capnp_version_hash = None; for l in lines { let l = l.unwrap(); if let Some(rest) = l.strip_prefix("//BUILDHASH:") { build_hash = Some(hex::decode(rest).unwrap()); } else if let Some(rest) = l.strip_prefix("//CAPNPDESIREDVERSIONHASH:") { capnp_version_hash = Some(hex::decode(rest).unwrap()); } } (build_hash, capnp_version_hash) } fn make_build_hash>(input_path: P) -> Vec { let input_path = input_path.as_ref(); let lines = std::io::BufReader::new(std::fs::File::open(input_path).unwrap()).lines(); calculate_hash(lines) } fn append_hash_and_desired_capnp_version_hash, Q: AsRef>( input_path: P, output_path: Q, ) { let input_path = input_path.as_ref(); let output_path = output_path.as_ref(); let lines = std::io::BufReader::new(std::fs::File::open(input_path).unwrap()).lines(); let h = calculate_hash(lines); let mut out_file = OpenOptions::new().append(true).open(output_path).unwrap(); writeln!(out_file, "\n//BUILDHASH:{}", hex::encode(h)).unwrap(); let mut hasher = Sha256::new(); hasher.update(get_desired_capnp_version_string().as_bytes()); writeln!( out_file, "\n//CAPNPDESIREDVERSIONHASH:{}", hex::encode(hasher.finalize()) ) .unwrap(); } fn do_capnp_build() { let desired_capnp_version_string = get_desired_capnp_version_string(); let capnp_version_string = get_capnp_version_string(); // Check capnp version let desired_capnp_major_version = desired_capnp_version_string .split_once('.') .unwrap() .0 .parse::() .expect("should be valid int"); if capnp_version_string .split_once('.') .unwrap() .0 .parse::() .expect("should be valid int") != desired_capnp_major_version { panic!( "capnproto version should be major version 1, preferably {} but is {}", desired_capnp_version_string, capnp_version_string ); } else if capnp_version_string != desired_capnp_version_string { println!( "cargo:warning=capnproto version may be untested: {}", capnp_version_string ); } ::capnpc::CompilerCommand::new() .file("proto/veilid.capnp") .output_path(".") .run() .expect("compiling schema"); // If successful, append a hash of the input to the output file // Also append a hash of the desired capnp version to the output file append_hash_and_desired_capnp_version_hash("proto/veilid.capnp", "proto/veilid_capnp.rs"); } // Fix for missing __extenddftf2 on Android x86_64 Emulator fn fix_android_emulator() { let target_os = env::var("CARGO_CFG_TARGET_OS").unwrap(); let target_arch = env::var("CARGO_CFG_TARGET_ARCH").unwrap(); if target_arch == "x86_64" && target_os == "android" { let missing_library = "clang_rt.builtins-x86_64-android"; let android_home = env::var("ANDROID_HOME") .or(env::var("ANDROID_SDK_ROOT")) .expect("ANDROID_HOME or ANDROID_SDK_ROOT not set"); let lib_path = glob(&format!( "{android_home}/ndk/26.3.11579264/**/lib{missing_library}.a" )) .expect("failed to glob") .next() .expect("Need libclang_rt.builtins-x86_64-android.a") .unwrap(); let lib_dir = lib_path.parent().unwrap(); println!("cargo:rustc-link-search={}", lib_dir.display()); println!("cargo:rustc-link-lib=static={missing_library}"); } } fn main() { if std::env::var("DOCS_RS").is_ok() || std::env::var("CARGO_CFG_DOC").is_ok() || std::env::var("BUILD_DOCS").is_ok() { return; } if is_input_file_outdated("./proto/veilid.capnp", "./proto/veilid_capnp.rs").unwrap() { println!("cargo:warning=rebuilding proto/veilid_capnp.rs because it has changed from the last generation of proto/veilid.capnp"); do_capnp_build(); } fix_android_emulator(); }