use std::borrow::Borrow;
use std::env;
use std::ffi::OsStr;
#[cfg(feature = "cmake-build")]
use std::fs;
use std::path::{Path, PathBuf};
use std::process::{self, Command};
fn run_command_or_fail<P, S>(dir: &str, cmd: P, args: &[S])
where
P: AsRef<Path>,
S: Borrow<str> + AsRef<OsStr>,
{
let cmd = cmd.as_ref();
let cmd = if cmd.components().count() > 1 && cmd.is_relative() {
PathBuf::from(dir)
.join(cmd)
.canonicalize()
.expect("canonicalization failed")
} else {
PathBuf::from(cmd)
};
eprintln!(
"Running command: \"{} {}\" in dir: {}",
cmd.display(),
args.join(" "),
dir
);
let ret = Command::new(cmd).current_dir(dir).args(args).status();
match ret.map(|status| (status.success(), status.code())) {
Ok((true, _)) => (),
Ok((false, Some(c))) => panic!("Command failed with error code {}", c),
Ok((false, None)) => panic!("Command got killed"),
Err(e) => panic!("Command failed with error: {}", e),
}
}
fn main() {
if env::var("CARGO_FEATURE_DYNAMIC_LINKING").is_ok() {
eprintln!("librdkafka will be linked dynamically");
let librdkafka_version = match env!("CARGO_PKG_VERSION")
.split('+')
.collect::<Vec<_>>()
.as_slice()
{
[_rdsys_version, librdkafka_version] => *librdkafka_version,
_ => panic!("Version format is not valid"),
};
let pkg_probe = pkg_config::Config::new()
.cargo_metadata(true)
.atleast_version(librdkafka_version)
.probe("rdkafka");
match pkg_probe {
Ok(library) => {
eprintln!("librdkafka found on the system:");
eprintln!(" Name: {:?}", library.libs);
eprintln!(" Path: {:?}", library.link_paths);
eprintln!(" Version: {}", library.version);
}
Err(err) => {
eprintln!(
"librdkafka {} cannot be found on the system: {}",
librdkafka_version, err
);
eprintln!("Dynamic linking failed. Exiting.");
process::exit(1);
}
}
} else {
let rdkafkasys_root = Path::new("rdkafka-sys");
if rdkafkasys_root.exists() {
assert!(env::set_current_dir(rdkafkasys_root).is_ok());
}
if !Path::new("librdkafka/LICENSE").exists() {
eprintln!("Setting up submodules");
run_command_or_fail("../", "git", &["submodule", "update", "--init"]);
}
eprintln!("Building and linking librdkafka statically");
build_librdkafka();
}
}
#[cfg(not(feature = "cmake-build"))]
fn build_librdkafka() {
let mut configure_flags: Vec<String> = Vec::new();
let mut cflags = Vec::new();
if let Ok(var) = env::var("CFLAGS") {
cflags.push(var);
}
let mut ldflags = Vec::new();
if let Ok(var) = env::var("LDFLAGS") {
ldflags.push(var);
}
if env::var("CARGO_FEATURE_SSL").is_ok() {
configure_flags.push("--enable-ssl".into());
if let Ok(openssl_root) = env::var("DEP_OPENSSL_ROOT") {
cflags.push(format!("-I{}/include", openssl_root));
ldflags.push(format!("-L{}/lib", openssl_root));
}
} else {
configure_flags.push("--disable-ssl".into());
}
if env::var("CARGO_FEATURE_GSSAPI").is_ok() {
configure_flags.push("--enable-gssapi".into());
if let Ok(sasl2_root) = env::var("DEP_SASL2_ROOT") {
cflags.push(format!("-I{}/include", sasl2_root));
ldflags.push(format!("-L{}/build", sasl2_root));
}
} else {
configure_flags.push("--disable-gssapi".into());
}
if env::var("CARGO_FEATURE_LIBZ").is_ok() {
if let Ok(z_root) = env::var("DEP_Z_ROOT") {
cflags.push(format!("-I{}/include", z_root));
ldflags.push(format!("-L{}/build", z_root));
}
} else {
configure_flags.push("--disable-zlib".into());
}
if env::var("CARGO_FEATURE_CURL").is_ok() {
if let Ok(curl_root) = env::var("DEP_CURL_ROOT") {
cflags.push("-DCURLSTATIC_LIB".to_string());
cflags.push(format!("-I{}/include", curl_root));
}
} else {
configure_flags.push("--disable-curl".into());
}
if env::var("CARGO_FEATURE_ZSTD").is_ok() {
configure_flags.push("--enable-zstd".into());
if let Ok(zstd_root) = env::var("DEP_ZSTD_ROOT") {
cflags.push(format!("-I{}/include", zstd_root));
ldflags.push(format!("-L{}", zstd_root));
}
} else {
configure_flags.push("--disable-zstd".into());
}
if env::var("CARGO_FEATURE_EXTERNAL_LZ4").is_ok() {
configure_flags.push("--enable-lz4-ext".into());
if let Ok(lz4_root) = env::var("DEP_LZ4_ROOT") {
cflags.push(format!("-I{}/include", lz4_root));
ldflags.push(format!("-L{}", lz4_root));
}
} else {
configure_flags.push("--disable-lz4-ext".into());
}
env::set_var("CFLAGS", cflags.join(" "));
env::set_var("LDFLAGS", ldflags.join(" "));
let out_dir = env::var("OUT_DIR").expect("OUT_DIR missing");
if !Path::new(&out_dir).join("LICENSE").exists() {
println!("Cloning librdkafka");
run_command_or_fail(".", "cp", &["-a", "librdkafka/.", &out_dir]);
}
println!("Configuring librdkafka");
run_command_or_fail(&out_dir, "./configure", configure_flags.as_slice());
println!("Compiling librdkafka");
if let Some(makeflags) = env::var_os("CARGO_MAKEFLAGS") {
env::set_var("MAKEFLAGS", makeflags);
}
run_command_or_fail(
&out_dir,
if cfg!(target_os = "freebsd") {
"gmake"
} else {
"make"
},
&["libs"],
);
println!("cargo:rustc-link-search=native={}/src", out_dir);
println!("cargo:rustc-link-lib=static=rdkafka");
println!("cargo:root={}", out_dir);
}
#[cfg(feature = "cmake-build")]
fn build_librdkafka() {
let mut config = cmake::Config::new("librdkafka");
let mut cmake_library_paths = vec![];
config
.define("RDKAFKA_BUILD_STATIC", "1")
.define("RDKAFKA_BUILD_TESTS", "0")
.define("RDKAFKA_BUILD_EXAMPLES", "0")
.define("CMAKE_INSTALL_LIBDIR", "lib");
if env::var("CARGO_FEATURE_LIBZ").is_ok() {
config.define("WITH_ZLIB", "1");
config.register_dep("z");
if let Ok(z_root) = env::var("DEP_Z_ROOT") {
cmake_library_paths.push(format!("{}/build", z_root));
}
} else {
config.define("WITH_ZLIB", "0");
}
if env::var("CARGO_FEATURE_CURL").is_ok() {
config.define("WITH_CURL", "1");
config.register_dep("curl");
if let Ok(curl_root) = env::var("DEP_CURL_ROOT") {
config.define("CURL_STATICLIB", "1");
cmake_library_paths.push(format!("{}/lib", curl_root));
config.cflag("-DCURL_STATICLIB");
config.cxxflag("-DCURL_STATICLIB");
config.cflag(format!("-I{}/include", curl_root));
config.cxxflag(format!("-I{}/include", curl_root));
config.cflag(format!("-L{}/lib", curl_root));
config.cxxflag(format!("-L{}/lib", curl_root));
fs::copy(
format!("{}/build/libcurl.a", curl_root),
format!("{}/lib/libcurl.a", curl_root),
)
.unwrap();
}
} else {
config.define("WITH_CURL", "0");
}
if env::var("CARGO_FEATURE_SSL").is_ok() {
config.define("WITH_SSL", "1");
config.define("WITH_SASL_SCRAM", "1");
config.define("WITH_SASL_OAUTHBEARER", "1");
config.register_dep("openssl");
} else {
config.define("WITH_SSL", "0");
}
if env::var("CARGO_FEATURE_GSSAPI").is_ok() {
config.define("WITH_SASL", "1");
config.register_dep("sasl2");
if let Ok(sasl2_root) = env::var("DEP_SASL2_ROOT") {
config.cflag(format!("-I{}/include", sasl2_root));
config.cxxflag(format!("-I{}/include", sasl2_root));
}
} else {
config.define("WITH_SASL", "0");
}
if env::var("CARGO_FEATURE_ZSTD").is_ok() {
config.define("WITH_ZSTD", "1");
config.register_dep("zstd");
} else {
config.define("WITH_ZSTD", "0");
}
if env::var("CARGO_FEATURE_EXTERNAL_LZ4").is_ok() {
config.define("ENABLE_LZ4_EXT", "1");
config.register_dep("lz4");
} else {
config.define("ENABLE_LZ4_EXT", "0");
}
if let Ok(system_name) = env::var("CMAKE_SYSTEM_NAME") {
config.define("CMAKE_SYSTEM_NAME", system_name);
}
if let Ok(make_program) = env::var("CMAKE_MAKE_PROGRAM") {
config.define("CMAKE_MAKE_PROGRAM", make_program);
}
if !cmake_library_paths.is_empty() {
env::set_var("CMAKE_LIBRARY_PATH", cmake_library_paths.join(";"));
}
println!("Configuring and compiling librdkafka");
let dst = config.build();
println!("cargo:rustc-link-search=native={}/lib", dst.display());
println!("cargo:rustc-link-lib=static=rdkafka");
}