use { bindgen::builder, std::{ env::var, fs::{copy, create_dir_all, read_dir}, path::{Path, PathBuf}, }, }; const LINK_LIBS: &str = r#" aws-c-cal crypto ssl "#; const INCLUDE_PATH: &str = "aws/cal"; const DEP_LIBRARIES: &str = r#"aws-c-common aws-lc"#; const FUNCTIONS: &str = r#" aws_cal_library_init aws_cal_library_clean_up aws_ecc_key_pair_acquire aws_ecc_key_pair_release aws_ecc_key_pair_new_from_private_key aws_ecc_key_pair_new_generate_random aws_ecc_key_pair_new_from_public_key aws_ecc_key_pair_new_from_asn1 aws_ecc_key_new_from_hex_coordinates aws_ecc_key_pair_derive_public_key aws_ecc_curve_name_from_oid aws_ecc_oid_from_curve_name aws_ecc_key_pair_sign_message aws_ecc_key_pair_verify_signature aws_ecc_key_pair_signature_length aws_ecc_key_pair_get_public_key aws_ecc_key_pair_get_private_key aws_ecc_key_coordinate_byte_size_from_curve_name aws_sha256_new aws_sha1_new aws_md5_new aws_hash_destroy aws_hash_update aws_hash_finalize aws_md5_compute aws_sha256_compute aws_sha1_compute aws_set_md5_new_fn aws_set_sha256_new_fn aws_set_sha1_new_fn aws_sha256_hmac_new aws_hmac_destroy aws_hmac_update aws_hmac_finalize aws_sha256_hmac_compute aws_set_sha256_hmac_new_fn "#; const TYPES: &str = r#" aws_cal_errors aws_cal_log_subject aws_ecc_curve_name aws_ecc_key_pair_destroy_fn aws_ecc_key_pair_sign_message_fn aws_ecc_key_pair_derive_public_key_fn aws_ecc_key_pair_verify_signature_fn aws_ecc_key_pair_signature_length_fn aws_ecc_key_pair_vtable aws_ecc_key_pair aws_hash_vtable aws_hash aws_hash_new_fn aws_hmac_vtable aws_hmac aws_hmac_new_fn "#; const VARS: &str = ""; fn get_include_dir>(dir: P) -> PathBuf { let mut result = PathBuf::from(dir.as_ref()); for folder in INCLUDE_PATH.split('/') { result.push(folder); } result } fn main() { let root = PathBuf::from(var("CARGO_MANIFEST_DIR").expect("CARGO_MANIFEST_DIR not set")); let out_dir = PathBuf::from(var("OUT_DIR").expect("OUT_DIR not set")); let src_include_dir = root.join("include"); let dst_include_dir = out_dir.join("include"); let src_lib_include_dir = get_include_dir(&src_include_dir); let dst_lib_include_dir = get_include_dir(&dst_include_dir); let src_include_dir_str = src_include_dir.to_string_lossy(); let dst_include_dir_str = dst_include_dir.to_string_lossy(); let src_lib_include_dir_str = src_lib_include_dir.to_string_lossy(); let dst_lib_include_dir_str = dst_lib_include_dir.to_string_lossy(); println!("cargo:include={dst_include_dir_str}"); println!("cargo:rerun-if-changed=include"); println!("cargo:rerun-if-env-changed=AWS_CRT_PREFIX"); if let Ok(aws_crt_prefix) = var("AWS_CRT_PREFIX") { println!("cargo:rustc-link-search={aws_crt_prefix}/lib"); } for library_name in LINK_LIBS.split('\n') { let library_name = library_name.trim(); if !library_name.is_empty() { println!("cargo:rustc-link-lib={library_name}"); } } // Copy include files over create_dir_all(&dst_lib_include_dir) .unwrap_or_else(|e| panic!("Unable to create directory {dst_lib_include_dir_str}: {e}")); let mut builder = builder() .clang_arg(format!("-I{src_include_dir_str}")) .derive_debug(true) .derive_default(true) .derive_partialeq(true) .derive_eq(true) .allowlist_recursively(false); // Don't dive into dependent libraries. for dep in DEP_LIBRARIES.split('\n') { let dep = dep.trim(); if dep.is_empty() { continue; } let dep = String::from(dep).replace('-', "_").to_uppercase(); let dep_include_dir = PathBuf::from(var(format!("DEP_{dep}_INCLUDE")).unwrap_or_else(|_| panic!("DEP_{dep}_INCLUDE not set"))); let dep_include_dir_str = dep_include_dir.to_string_lossy(); builder = builder.clang_arg(format!("-I{dep_include_dir_str}")); } let mut n_includes = 0; for entry in read_dir(&src_lib_include_dir) .unwrap_or_else(|e| panic!("Unable to list header files in {src_lib_include_dir_str}: {e}")) { let entry = entry.unwrap_or_else(|e| panic!("Unable to read directory entry in {src_lib_include_dir_str}: {e}")); let file_name_string = entry.file_name(); let src_path = src_lib_include_dir.join(&file_name_string); let src_path_str = src_path.to_string_lossy(); let dst_path = dst_lib_include_dir.join(&file_name_string); if entry.file_type().unwrap_or_else(|e| panic!("Unable to read file type of {src_path_str}: {e}")).is_file() { // Only include header files ending with .h; ignore .inl. let file_name_utf8 = file_name_string.to_str().expect("Unable to convert file name to UTF-8"); if file_name_utf8.ends_with(".h") { builder = builder.header(src_path_str.to_string()); n_includes += 1; } // Copy all files to the output directory. copy(&src_path, &dst_path).unwrap_or_else(|e| { panic!( "Failed to copy from {src_path_str} to {dst_path_str}: {e}", dst_path_str = dst_path.to_string_lossy() ) }); } } if n_includes == 0 { panic!("No header files found in {src_lib_include_dir_str}"); } for function_pattern in FUNCTIONS.split('\n') { let function_pattern = function_pattern.trim(); if !function_pattern.is_empty() { builder = builder.allowlist_function(function_pattern); } } for type_pattern in TYPES.split('\n') { let type_pattern = type_pattern.trim(); if !type_pattern.is_empty() { builder = builder.allowlist_type(type_pattern); } } for var_pattern in VARS.split('\n') { let var_pattern = var_pattern.trim(); if !var_pattern.is_empty() { builder = builder.allowlist_var(var_pattern); } } let bindings_filename = out_dir.join("bindings.rs"); let bindings = builder.generate().expect("Unable to generate bindings"); bindings.write_to_file(&bindings_filename).unwrap_or_else(|e| { panic!( "Failed to write bindings to {bindings_filename_str}: {e}", bindings_filename_str = bindings_filename.to_string_lossy() ) }); if cfg!(any(target_os = "ios", target_os = "macos")) { println!("cargo:rustc-link-arg=-framework"); println!("cargo:rustc-link-arg=CoreFoundation"); } }