Files
bux-lang/lib/Crypto.bux
T
dimgigov e7e900973f feat: crypto library, Nexus HTTP server, JWT CLI, Boko web framework
- lib/crypto/: 9-module crypto library (Hash, HMAC, Base64/URL, Random, AES, RSA, ECDSA, Ed25519, JWT)
- rt/runtime.c: +346 lines OpenSSL crypto primitives (SHA-1/384/512, HMAC, Base64URL, AES-CBC/GCM, RSA, ECDSA, Ed25519)
- apps/nexus/: multi-threaded HTTP/1.1 + HTTP/2 detect + WebSocket server
- apps/jwt-pitbul/: JWT CLI tool (sign, verify, decode, keygen)
- apps/boko-framework/: FastAPI-inspired async web framework
- test_crypto/: crypto library test suite (23 tests)
2026-06-07 22:15:00 +03:00

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// =============================================================================
// Std::Crypto — backward-compatible wrapper (delegates to submodules)
//
// Migration note: new code should use the submodules directly:
// Std::Crypto::Hash::{Hash_Sha256, ...}
// Std::Crypto::Hmac::{Hmac_Sha256, ...}
// Std::Crypto::Base64::{Base64_Encode, Base64URL_Encode, ...}
// Std::Crypto::Random::{Random_Bytes, ...}
// Std::Crypto::Jwt::{Jwt_EncodeHS256, ...}
// =============================================================================
module Std::Crypto {
import Std::Mem::{Alloc, Free};
import Std::String::{String_Len};
// Re-use the same externs from submodules (merged by compiler)
extern func bux_sha256(data: String, len: int, out: *void);
extern func bux_hmac_sha256(key: String, keylen: int, msg: String, msglen: int, out: *void);
extern func bux_random_bytes(buf: *void, len: int) -> int;
extern func bux_base64_encode(data: String, len: int) -> String;
extern func bux_base64_decode(data: String, len: int, outlen: *int) -> String;
extern func bux_bytes_to_hex(data: *void, len: int) -> String;
// --- Legacy function names (delegate to new submodule functions) ---
// SHA-256 → hex
func Crypto_Sha256(data: String) -> String {
let len: int = String_Len(data) as int;
let hashBuf: *void = Alloc(32);
bux_sha256(data, len, hashBuf);
let result: String = bux_bytes_to_hex(hashBuf as *void, 32);
Free(hashBuf);
return result;
}
// HMAC-SHA256 → hex
func Crypto_HmacSha256(key: String, message: String) -> String {
let keylen: int = String_Len(key) as int;
let msglen: int = String_Len(message) as int;
let hmacBuf: *void = Alloc(32);
bux_hmac_sha256(key, keylen, message, msglen, hmacBuf);
let result: String = bux_bytes_to_hex(hmacBuf as *void, 32);
Free(hmacBuf);
return result;
}
// Random bytes → base64
func Crypto_RandomBytes(n: int) -> String {
if n <= 0 { return ""; }
let buf: *void = Alloc(n as uint);
if bux_random_bytes(buf, n) != 1 {
Free(buf);
return "";
}
let result: String = bux_base64_encode(buf as String, n);
Free(buf);
return result;
}
// Base64 encode
func Crypto_Base64Encode(s: String) -> String {
return bux_base64_encode(s, String_Len(s) as int);
}
// HMAC-SHA256 raw → base64
func Crypto_HmacSha256Raw(key: String, message: String) -> String {
let keylen: int = String_Len(key) as int;
let msglen: int = String_Len(message) as int;
let hmacBuf: *void = Alloc(32);
bux_hmac_sha256(key, keylen, message, msglen, hmacBuf);
let result: String = bux_base64_encode(hmacBuf as String, 32);
Free(hmacBuf);
return result;
}
// Base64 decode
func Crypto_Base64Decode(s: String) -> String {
let outlen: int = 0;
return bux_base64_decode(s, String_Len(s) as int, &outlen);
}
}