a13cee8a0f
- Add SimpleDB: plain-text key=value store with get/set/del/has/keys/count - Fix lib/Fmt.bux: replace *(ptr+N) pointer arithmetic with ptr[N] indexing - Fix lib/crypto/jwt.bux: use alg.tag directly instead of int-comparison
237 lines
9.1 KiB
Plaintext
237 lines
9.1 KiB
Plaintext
// =============================================================================
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// Std::Crypto::Jwt — JSON Web Token (RFC 7519) encode/decode
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// Supports HS256, HS384, HS512, RS256, RS384, RS512, ES256, ES384, EdDSA
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// =============================================================================
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module Std::Crypto::Jwt {
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import Std::Mem::{Alloc, Free};
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import Std::String::{String_Len, String_Eq, String_StartsWith, String_Concat};
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import Std::Crypto::Base64::{Base64URL_Encode, Base64URL_Decode};
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import Std::Crypto::Hash::{Hash_Sha256Raw, Hash_Sha384Raw, Hash_Sha512Raw};
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import Std::Crypto::Hmac::{Hmac_Sha256Raw, Hmac_Sha384Raw, Hmac_Sha512Raw};
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import Std::Crypto::Rsa::{Rsa_SignSha256, Rsa_SignSha384, Rsa_SignSha512,
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Rsa_VerifySha256, Rsa_VerifySha384, Rsa_VerifySha512};
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import Std::Crypto::Ecdsa::{Ecdsa_SignP256, Ecdsa_SignP384, Ecdsa_VerifyP256, Ecdsa_VerifyP384};
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import Std::Crypto::Ed25519::{Ed25519_Sign, Ed25519_Verify};
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extern func bux_base64_encode(data: String, len: int) -> String;
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extern func bux_str_split_count(s: String, delim: String) -> uint;
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extern func bux_str_split_part(s: String, delim: String, index: uint) -> String;
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// --- JWT Algorithm enum ---
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enum JwtAlg {
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HS256,
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HS384,
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HS512,
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RS256,
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RS384,
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RS512,
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ES256,
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ES384,
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EdDSA,
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}
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// --- Header ---
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// Jwt_MakeHeader: build the JWT header JSON string for the given algorithm
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func Jwt_MakeHeader(alg: JwtAlg) -> String {
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if alg.tag == JwtAlg_HS256 { return "{\"alg\":\"HS256\",\"typ\":\"JWT\"}"; }
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if alg.tag == JwtAlg_HS384 { return "{\"alg\":\"HS384\",\"typ\":\"JWT\"}"; }
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if alg.tag == JwtAlg_HS512 { return "{\"alg\":\"HS512\",\"typ\":\"JWT\"}"; }
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if alg.tag == JwtAlg_RS256 { return "{\"alg\":\"RS256\",\"typ\":\"JWT\"}"; }
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if alg.tag == JwtAlg_RS384 { return "{\"alg\":\"RS384\",\"typ\":\"JWT\"}"; }
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if alg.tag == JwtAlg_RS512 { return "{\"alg\":\"RS512\",\"typ\":\"JWT\"}"; }
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if alg.tag == JwtAlg_ES256 { return "{\"alg\":\"ES256\",\"typ\":\"JWT\"}"; }
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if alg.tag == JwtAlg_ES384 { return "{\"alg\":\"ES384\",\"typ\":\"JWT\"}"; }
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if alg.tag == JwtAlg_EdDSA { return "{\"alg\":\"EdDSA\",\"typ\":\"JWT\"}"; }
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return "{\"alg\":\"none\",\"typ\":\"JWT\"}";
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}
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// --- Signing ---
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// Sign the JWT signing input with the given algorithm
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func Jwt_Sign(alg: JwtAlg, signingInput: String, key: String) -> String {
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// --- HMAC algorithms ---
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if alg.tag == JwtAlg_HS256 {
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let buf: *void = Alloc(32);
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Hmac_Sha256Raw(key, signingInput, buf);
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let result: String = bux_base64_encode(buf as String, 32);
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Free(buf);
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return result;
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}
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if alg.tag == JwtAlg_HS384 {
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let buf: *void = Alloc(48);
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Hmac_Sha384Raw(key, signingInput, buf);
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let result: String = bux_base64_encode(buf as String, 48);
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Free(buf);
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return result;
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}
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if alg.tag == JwtAlg_HS512 {
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let buf: *void = Alloc(64);
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Hmac_Sha512Raw(key, signingInput, buf);
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let result: String = bux_base64_encode(buf as String, 64);
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Free(buf);
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return result;
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}
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// --- RSA algorithms (key is PEM private key) ---
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if alg.tag == JwtAlg_RS256 {
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let raw: String = Rsa_SignSha256(key, signingInput);
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return bux_base64_encode(raw, String_Len(raw) as int);
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}
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if alg.tag == JwtAlg_RS384 {
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let raw: String = Rsa_SignSha384(key, signingInput);
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return bux_base64_encode(raw, String_Len(raw) as int);
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}
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if alg.tag == JwtAlg_RS512 {
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let raw: String = Rsa_SignSha512(key, signingInput);
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return bux_base64_encode(raw, String_Len(raw) as int);
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}
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// --- ECDSA algorithms (key is PEM private key) ---
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if alg.tag == JwtAlg_ES256 {
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let raw: String = Ecdsa_SignP256(key, signingInput);
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return bux_base64_encode(raw, String_Len(raw) as int);
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}
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if alg.tag == JwtAlg_ES384 {
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let raw: String = Ecdsa_SignP384(key, signingInput);
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return bux_base64_encode(raw, String_Len(raw) as int);
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}
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// --- EdDSA (key is 32-byte raw private key) ---
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if alg.tag == JwtAlg_EdDSA {
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return Ed25519_Sign(key, signingInput);
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}
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return "";
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}
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// --- Verify ---
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// Verify a JWT signature
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func Jwt_Verify(alg: JwtAlg, signingInput: String, signatureB64: String, key: String) -> bool {
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// --- HMAC algorithms ---
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if alg.tag == JwtAlg_HS256 {
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let expectBuf: *void = Alloc(32);
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Hmac_Sha256Raw(key, signingInput, expectBuf);
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let expectB64: String = bux_base64_encode(expectBuf as String, 32);
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Free(expectBuf);
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return String_Eq(expectB64, signatureB64);
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}
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if alg.tag == JwtAlg_HS384 {
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let expectBuf: *void = Alloc(48);
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Hmac_Sha384Raw(key, signingInput, expectBuf);
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let expectB64: String = bux_base64_encode(expectBuf as String, 48);
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Free(expectBuf);
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return String_Eq(expectB64, signatureB64);
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}
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if alg.tag == JwtAlg_HS512 {
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let expectBuf: *void = Alloc(64);
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Hmac_Sha512Raw(key, signingInput, expectBuf);
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let expectB64: String = bux_base64_encode(expectBuf as String, 64);
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Free(expectBuf);
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return String_Eq(expectB64, signatureB64);
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}
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// --- RSA algorithms ---
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if alg.tag == JwtAlg_RS256 { return Rsa_VerifySha256(key, signingInput, signatureB64); }
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if alg.tag == JwtAlg_RS384 { return Rsa_VerifySha384(key, signingInput, signatureB64); }
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if alg.tag == JwtAlg_RS512 { return Rsa_VerifySha512(key, signingInput, signatureB64); }
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// --- ECDSA algorithms ---
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if alg.tag == JwtAlg_ES256 { return Ecdsa_VerifyP256(key, signingInput, signatureB64); }
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if alg.tag == JwtAlg_ES384 { return Ecdsa_VerifyP384(key, signingInput, signatureB64); }
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// --- EdDSA ---
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if alg.tag == JwtAlg_EdDSA { return Ed25519_Verify(key, signatureB64, signingInput); }
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return false;
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}
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// --- Encode ---
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// Jwt_Encode: create a signed JWT
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// headerJson — JSON header string (use Jwt_MakeHeader or custom)
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// payloadJson — JSON payload/claims string
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// alg — signing algorithm
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// key — signing key (HMAC secret, RSA PEM, ECDSA PEM, or Ed25519 raw privkey)
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// Returns the complete "header.payload.signature" JWT string
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func Jwt_Encode(headerJson: String, payloadJson: String, alg: JwtAlg, key: String) -> String {
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let headerB64: String = Base64URL_Encode(headerJson);
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let payloadB64: String = Base64URL_Encode(payloadJson);
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let signingInput: String = String_Concat(headerB64, ".");
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let signingInputFull: String = String_Concat(signingInput, payloadB64);
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let sigB64: String = Jwt_Sign(alg, signingInputFull, key);
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let part1: String = String_Concat(signingInputFull, ".");
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return String_Concat(part1, sigB64);
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}
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// --- Decode ---
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// Jwt_Decode: decode and verify a JWT.
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// token — the full "header.payload.signature" string
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// alg — expected algorithm
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// key — verification key
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// headerOut — receives decoded header JSON
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// payloadOut — receives decoded payload JSON
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// Returns true if signature is valid.
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func Jwt_Decode(token: String, alg: JwtAlg, key: String,
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headerOut: *String, payloadOut: *String) -> bool {
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// Split by "."
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let partCount: uint = bux_str_split_count(token, ".");
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if partCount != 3 { return false; }
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let headerB64: String = bux_str_split_part(token, ".", 0);
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let payloadB64: String = bux_str_split_part(token, ".", 1);
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let sigB64: String = bux_str_split_part(token, ".", 2);
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// Build signing input
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let input: String = String_Concat(headerB64, ".");
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let signingInput: String = String_Concat(input, payloadB64);
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// Verify signature
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if !Jwt_Verify(alg, signingInput, sigB64, key) {
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return false;
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}
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// Decode
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headerOut[0] = Base64URL_Decode(headerB64);
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payloadOut[0] = Base64URL_Decode(payloadB64);
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return true;
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}
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// --- Convenience: Encode with standard header ---
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func Jwt_EncodeHS256(payloadJson: String, secret: String) -> String {
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let header: String = Jwt_MakeHeader(JwtAlg { tag: JwtAlg_HS256 });
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return Jwt_Encode(header, payloadJson, JwtAlg { tag: JwtAlg_HS256 }, secret);
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}
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func Jwt_EncodeHS384(payloadJson: String, secret: String) -> String {
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let header: String = Jwt_MakeHeader(JwtAlg { tag: JwtAlg_HS384 });
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return Jwt_Encode(header, payloadJson, JwtAlg { tag: JwtAlg_HS384 }, secret);
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}
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func Jwt_EncodeHS512(payloadJson: String, secret: String) -> String {
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let header: String = Jwt_MakeHeader(JwtAlg { tag: JwtAlg_HS512 });
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return Jwt_Encode(header, payloadJson, JwtAlg { tag: JwtAlg_HS512 }, secret);
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}
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func Jwt_EncodeRS256(payloadJson: String, pemPrivateKey: String) -> String {
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let header: String = Jwt_MakeHeader(JwtAlg { tag: JwtAlg_RS256 });
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return Jwt_Encode(header, payloadJson, JwtAlg { tag: JwtAlg_RS256 }, pemPrivateKey);
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}
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func Jwt_EncodeES256(payloadJson: String, pemPrivateKey: String) -> String {
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let header: String = Jwt_MakeHeader(JwtAlg { tag: JwtAlg_ES256 });
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return Jwt_Encode(header, payloadJson, JwtAlg { tag: JwtAlg_ES256 }, pemPrivateKey);
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}
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func Jwt_EncodeEdDSA(payloadJson: String, rawPrivKey: String) -> String {
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let header: String = Jwt_MakeHeader(JwtAlg { tag: JwtAlg_EdDSA });
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return Jwt_Encode(header, payloadJson, JwtAlg { tag: JwtAlg_EdDSA }, rawPrivKey);
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}
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}
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