use flate2::read::GzDecoder; use reqwest::blocking::Response; use reqwest::header::HeaderMap; use std::fs; use std::fs::{remove_file, File}; use std::io::{Read, Write}; use std::os::unix::fs::PermissionsExt; use std::path::Path; use std::process::{Command, Output}; use tar::Archive; #[derive(serde::Deserialize, Debug)] struct GithubRelease { name: String, assets: Vec, } #[derive(serde::Deserialize, Debug)] struct GithubUser {} #[derive(serde::Deserialize, Debug)] struct GithubReleaseAsset { browser_download_url: String, name: String, size: i64, } fn main() { if Path::new(&format!( "{}/{}", std::env::var("OUT_DIR").unwrap(), "noredownload" )) .exists() && std::env::var("TFBUILD_FORCE_REDOWNLOAD").is_err() { println!("noredownload exists and TFBUILD_FORCE_REDOWNLOAD is not set. Not redoing build process."); return; } println!("[*] Fetching nebula releaseinfo..."); let mut headers = HeaderMap::new(); let mut has_api_key = false; if let Ok(api_key) = std::env::var("GH_API_KEY") { headers.insert( "Authorization", format!("Bearer {}", api_key).parse().unwrap(), ); has_api_key = true; } let client = reqwest::blocking::Client::builder() .user_agent("curl/7.57.1") .default_headers(headers) .build() .unwrap(); let resp: Response = client .get("https://api.github.com/repos/slackhq/nebula/releases/latest") .send() .unwrap(); if resp .headers() .get("X-Ratelimit-Remaining") .unwrap() .to_str() .unwrap() == "0" { println!("You've been ratelimited from the GitHub API. Wait a while (1 hour)"); if !has_api_key { println!("You can also set a GitHub API key with the environment variable GH_API_KEY, which will increase your ratelimit ( a lot )"); } panic!("Ratelimited"); } let release: GithubRelease = resp.json().unwrap(); println!("[*] Fetching target triplet..."); let target = std::env::var("TARGET").unwrap(); println!("[*] Compiling for target {}", target); let target_file = match target.as_str() { "x86_64-apple-darwin" | "aarch64-apple-darwin" => "nebula-darwin", "x86_64-unknown-freebsd" => "nebula-freebsd-amd64", "x86_64-unknown-linux-gnu" | "x86_64-unknown-linux-musl" => "nebula-linux-amd64", "armv5te-unknown-linux-gnueabi" => "nebula-linux-arm-5", "arm-unknown-linux-gnueabi" | "arm-unknown-linux-gnueabihf" => "nebula-linux-arm-6", "armv7-unknown-linux-gnueabihf" | "armv7-unknown-linux-gnueabi" => "nebula-linux-arm-7", "aarch64-unknown-linux-gnu" | "aarch64-unknown-linux-musl" => "nebula-linux-arm64", "x86_64-pc-windows-msvc" => "nebula-windows-amd64", "aarch64-pc-windows-msvc" => "nebula-windows-arm64", _ => { println!("This architecture is not supported yet :("); println!("Nebula has a limited set of architectures it is able to function on."); println!("tfclient can only be compiled on these architectures."); println!("See https://github.com/slackhq/nebula/releases for a list of supported architectures"); println!("Is your system supported by Nebula? Shoot a message to the mailing list. Include the target triplet (above) in your response, as well as a link to the functioning Nebula binary. We will happily add your machine to the list!"); panic!("Unsupported architecture"); } }; println!("[*] Embedding {} {}", target_file, release.name); let download = release .assets .iter() .find(|r| r.name == format!("{}.tar.gz", target_file)) .expect("That architecture isn't avaliable :("); println!( "[*] Downloading {}.tar.gz ({}, {} bytes) from {}", target_file, target, download.size, download.browser_download_url ); let response = reqwest::blocking::get(&download.browser_download_url).unwrap(); let content = response.bytes().unwrap().to_vec(); let bytes = content.as_slice(); let tar = GzDecoder::new(bytes); let mut archive = Archive::new(tar); let entries = archive.entries().unwrap(); let mut nebula_bin = vec![]; let mut nebula_cert_bin = vec![]; let mut shasum = vec![]; for entry in entries { let mut entry = entry.unwrap(); if entry.path().unwrap() == Path::new("nebula") || entry.path().unwrap() == Path::new("nebula.exe") { nebula_bin.reserve(entry.size() as usize); entry.read_to_end(&mut nebula_bin).unwrap(); } else if entry.path().unwrap() == Path::new("nebula-cert") || entry.path().unwrap() == Path::new("nebula-cert.exe") { nebula_cert_bin.reserve(entry.size() as usize); entry.read_to_end(&mut nebula_cert_bin).unwrap(); } else if entry.path().unwrap() == Path::new("SHASUM256.txt") { shasum.reserve(entry.size() as usize); entry.read_to_end(&mut shasum).unwrap(); } } if nebula_bin.is_empty() { panic!("[x] Release did not contain nebula binary"); } if nebula_cert_bin.is_empty() { panic!("[x] Release did not contain nebula_cert binary"); } let mut nebula_file = File::create(format!("{}/nebula.bin", std::env::var("OUT_DIR").unwrap())).unwrap(); nebula_file.write_all(&nebula_bin).unwrap(); codegen_version(&nebula_bin, "nebula.bin", "NEBULA"); let mut nebula_cert_file = File::create(format!( "{}/nebula_cert.bin", std::env::var("OUT_DIR").unwrap() )) .unwrap(); nebula_cert_file.write_all(&nebula_cert_bin).unwrap(); codegen_version(&nebula_cert_bin, "nebula_cert.bin", "NEBULA_CERT"); // Indicate to cargo and ourselves that we have already downloaded and codegenned File::create(format!( "{}/{}", std::env::var("OUT_DIR").unwrap(), "noredownload" )) .unwrap(); println!("cargo:rerun-if-changed=build.rs"); } fn codegen_version(bin: &[u8], fp: &str, name: &str) { // get version let output = execim(bin, &vec!["-version"]); let stdout = output.stdout; let stdout_str = String::from_utf8(stdout).unwrap(); if !stdout_str.starts_with("Version: ") { panic!("Binary did not have expected version output. Unable to get version info."); } let mut version = stdout_str.split(' ').collect::>()[1].to_string(); version.pop(); let code = format!("// This code was automatically @generated by build.rs. It should not be modified.\npub const {}_BIN: &[u8] = include_bytes!(concat!(env!(\"OUT_DIR\"), \"/{}\"));\npub const {}_VERSION: &str = \"{}\";", name, fp, name, version); let mut file = File::create(format!("{}/{}.rs", std::env::var("OUT_DIR").unwrap(), fp)).unwrap(); file.write_all(code.as_bytes()).unwrap(); } #[cfg(not(unix))] fn execim(buf: &[u8], args: &Vec<&str>) -> Output { let mut file = File::create("tmpexec.bin").unwrap(); file.write_all(buf).unwrap(); std::mem::drop(file); let output = Command::new("./tmpexec.bin").args(args).output().unwrap(); remove_file("./tmpexec.bin").unwrap(); output } #[cfg(unix)] fn execim(buf: &[u8], args: &Vec<&str>) -> Output { let mut file = File::create("tmpexec.bin").unwrap(); file.write_all(buf).unwrap(); let metadata = file.metadata().unwrap(); let mut permissions = metadata.permissions(); permissions.set_mode(0o0755); fs::set_permissions("./tmpexec.bin", permissions).unwrap(); std::mem::drop(file); let output = Command::new("./tmpexec.bin").args(args).output().unwrap(); remove_file("./tmpexec.bin").unwrap(); output }