La libreria JWT di Tink consente la creazione e la verifica dei token web JSON (JWT).
Crea JWT
Per la maggior parte dei casi d'uso, consigliamo le primitive JwtPublicKeySign con il tipo di chiave JWT_ES256.
Gli esempi riportati di seguito mostrano come creare JWT e come convertire il keyset pubblico nel formato JWK.
C++
// An example for signing JSON Web Tokens (JWT). #include <iostream> #include <memory> #include <ostream> #include <string> #include <utility> #include "absl/flags/flag.h" #include "absl/flags/parse.h" #include "absl/log/check.h" #include "absl/strings/string_view.h" #include "absl/time/clock.h" #include "absl/time/time.h" #include "tink/config/global_registry.h" #include "util/util.h" #include "tink/jwt/jwt_public_key_sign.h" #include "tink/jwt/jwt_signature_config.h" #include "tink/jwt/raw_jwt.h" #include "tink/keyset_handle.h" #include "tink/util/status.h" ABSL_FLAG(std::string, keyset_filename, "", "Keyset file in JSON format"); ABSL_FLAG(std::string, audience, "", "Expected audience in the token"); ABSL_FLAG(std::string, token_filename, "", "Path to the token file"); namespace { using ::crypto::tink::JwtPublicKeySign; using ::crypto::tink::KeysetHandle; using ::crypto::tink::RawJwt; using ::crypto::tink::RawJwtBuilder; using ::crypto::tink::util::Status; using ::crypto::tink::util::StatusOr; void ValidateParams() { // ... } } // namespace namespace tink_cc_examples { // JWT sign example CLI implementation. Status JwtSign(const std::string& keyset_filename, absl::string_view audience, const std::string& token_filename) { Status result = crypto::tink::JwtSignatureRegister(); if (!result.ok()) return result; // Read the keyset from file. StatusOr<std::unique_ptr<KeysetHandle>> keyset_handle = ReadJsonCleartextKeyset(keyset_filename); if (!keyset_handle.ok()) return keyset_handle.status(); StatusOr<RawJwt> raw_jwt = RawJwtBuilder() .AddAudience(audience) .SetExpiration(absl::Now() + absl::Seconds(100)) .Build(); if (!raw_jwt.ok()) return raw_jwt.status(); StatusOr<std::unique_ptr<JwtPublicKeySign>> jwt_signer = (*keyset_handle) ->GetPrimitive<crypto::tink::JwtPublicKeySign>( crypto::tink::ConfigGlobalRegistry()); if (!jwt_signer.ok()) return jwt_signer.status(); StatusOr<std::string> token = (*jwt_signer)->SignAndEncode(*raw_jwt); if (!token.ok()) return token.status(); return WriteToFile(*token, token_filename); } } // namespace tink_cc_examples int main(int argc, char** argv) { absl::ParseCommandLine(argc, argv); ValidateParams(); std::string keyset_filename = absl::GetFlag(FLAGS_keyset_filename); std::string audience = absl::GetFlag(FLAGS_audience); std::string token_filename = absl::GetFlag(FLAGS_token_filename); std::clog << "Using keyset in " << keyset_filename << " to "; std::clog << " generate and sign a token using audience '" << audience << "'; the resulting signature is written to " << token_filename << '\n'; CHECK_OK( tink_cc_examples::JwtSign(keyset_filename, audience, token_filename)); return 0; }
Vai
func Example_signAndVerify() { // A private keyset created with // "tinkey create-keyset --key-template=JWT_ES256 --out private_keyset.cfg". // Note that this keyset has the secret key information in cleartext. privateJSONKeyset := `{ "primaryKeyId": 1742360595, "key": [ { "keyData": { "typeUrl": "type.googleapis.com/google.crypto.tink.JwtEcdsaPrivateKey", "value": "GiBgVYdAPg3Fa2FVFymGDYrI1trHMzVjhVNEMpIxG7t0HRJGIiBeoDMF9LS5BDCh6YgqE3DjHwWwnEKEI3WpPf8izEx1rRogbjQTXrTcw/1HKiiZm2Hqv41w7Vd44M9koyY/+VsP+SAQAQ==", "keyMaterialType": "ASYMMETRIC_PRIVATE" }, "status": "ENABLED", "keyId": 1742360595, "outputPrefixType": "TINK" } ] }` // The corresponding public keyset created with // "tinkey create-public-keyset --in private_keyset.cfg" publicJSONKeyset := `{ "primaryKeyId": 1742360595, "key": [ { "keyData": { "typeUrl": "type.googleapis.com/google.crypto.tink.JwtEcdsaPublicKey", "value": "EAEaIG40E1603MP9RyoomZth6r+NcO1XeODPZKMmP/lbD/kgIiBeoDMF9LS5BDCh6YgqE3DjHwWwnEKEI3WpPf8izEx1rQ==", "keyMaterialType": "ASYMMETRIC_PUBLIC" }, "status": "ENABLED", "keyId": 1742360595, "outputPrefixType": "TINK" } ] }` // Create a keyset handle from the cleartext private keyset in the previous // step. The keyset handle provides abstract access to the underlying keyset to // limit the access of the raw key material. WARNING: In practice, // it is unlikely you will want to use a insecurecleartextkeyset, as it implies // that your key material is passed in cleartext, which is a security risk. // Consider encrypting it with a remote key in Cloud KMS, AWS KMS or HashiCorp Vault. // See https://github.com/google/tink/blob/master/docs/GOLANG-HOWTO.md#storing-and-loading-existing-keysets. privateKeysetHandle, err := insecurecleartextkeyset.Read( keyset.NewJSONReader(bytes.NewBufferString(privateJSONKeyset))) if err != nil { log.Fatal(err) } // Retrieve the JWT Signer primitive from privateKeysetHandle. signer, err := jwt.NewSigner(privateKeysetHandle) if err != nil { log.Fatal(err) } // Use the primitive to create and sign a token. In this case, the primary key of the // keyset will be used (which is also the only key in this example). expiresAt := time.Now().Add(time.Hour) audience := "example audience" subject := "example subject" rawJWT, err := jwt.NewRawJWT(&jwt.RawJWTOptions{ Audience: &audience, Subject: &subject, ExpiresAt: &expiresAt, }) if err != nil { log.Fatal(err) } token, err := signer.SignAndEncode(rawJWT) if err != nil { log.Fatal(err) } // Create a keyset handle from the keyset containing the public key. Because the // public keyset does not contain any secrets, we can use [keyset.ReadWithNoSecrets]. publicKeysetHandle, err := keyset.ReadWithNoSecrets( keyset.NewJSONReader(bytes.NewBufferString(publicJSONKeyset))) if err != nil { log.Fatal(err) } // Retrieve the Verifier primitive from publicKeysetHandle. verifier, err := jwt.NewVerifier(publicKeysetHandle) if err != nil { log.Fatal(err) } // Verify the signed token. validator, err := jwt.NewValidator(&jwt.ValidatorOpts{ExpectedAudience: &audience}) if err != nil { log.Fatal(err) } verifiedJWT, err := verifier.VerifyAndDecode(token, validator) if err != nil { log.Fatal(err) } // Extract subject claim from the token. if !verifiedJWT.HasSubject() { log.Fatal(err) } extractedSubject, err := verifiedJWT.Subject() if err != nil { log.Fatal(err) } fmt.Println(extractedSubject) // Output: example subject }
Java
package jwt; import static java.nio.charset.StandardCharsets.UTF_8; import com.google.crypto.tink.InsecureSecretKeyAccess; import com.google.crypto.tink.KeysetHandle; import com.google.crypto.tink.RegistryConfiguration; import com.google.crypto.tink.TinkJsonProtoKeysetFormat; import com.google.crypto.tink.jwt.JwtPublicKeySign; import com.google.crypto.tink.jwt.JwtSignatureConfig; import com.google.crypto.tink.jwt.RawJwt; import java.nio.file.Files; import java.nio.file.Path; import java.nio.file.Paths; import java.time.Instant; /** * A command-line utility for signing JSON Web Tokens (JWTs). * * <p>It loads cleartext private keys from disk - this is not recommended! * * <p>It requires the following arguments: * * <ul> * <li>private-keyset-file: Name of the input file containing the private keyset. * <li>audience: The audience claim to be used in the token * <li>token-file: name of the output file containing the signed JWT. */ public final class JwtSign { public static void main(String[] args) throws Exception { if (args.length != 3) { System.err.printf("Expected 3 parameters, got %d\n", args.length); System.err.println("Usage: java JwtSign private-keyset-file audience token-file"); System.exit(1); } Path privateKeysetFile = Paths.get(args[0]); String audience = args[1]; Path tokenFile = Paths.get(args[2]); // Register all JWT signature key types with the Tink runtime. JwtSignatureConfig.register(); // Read the private keyset into a KeysetHandle. KeysetHandle privateKeysetHandle = TinkJsonProtoKeysetFormat.parseKeyset( new String(Files.readAllBytes(privateKeysetFile), UTF_8), InsecureSecretKeyAccess.get()); // Get the primitive. JwtPublicKeySign signer = privateKeysetHandle.getPrimitive(RegistryConfiguration.get(), JwtPublicKeySign.class); // Use the primitive to sign a token that expires in 100 seconds. RawJwt rawJwt = RawJwt.newBuilder() .addAudience(audience) .setExpiration(Instant.now().plusSeconds(100)) .build(); String signedToken = signer.signAndEncode(rawJwt); Files.write(tokenFile, signedToken.getBytes(UTF_8)); } private JwtSign() {} }
Python
"""A utility for creating and signing JSON Web Tokens (JWT). It loads cleartext keys from disk - this is not recommended! """ import datetime from absl import app from absl import flags from absl import logging import tink from tink import jwt from tink import secret_key_access _PRIVATE_KEYSET_PATH = flags.DEFINE_string( 'private_keyset_path', None, 'Path to the keyset used for the JWT signature operation.') _AUDIENCE = flags.DEFINE_string('audience', None, 'Audience to be used in the token') _TOKEN_PATH = flags.DEFINE_string('token_path', None, 'Path to the token file.') def main(argv): del argv # Unused. # Initialise Tink jwt.register_jwt_signature() # Read the keyset into a KeysetHandle with open(_PRIVATE_KEYSET_PATH.value, 'rt') as keyset_file: try: text = keyset_file.read() keyset_handle = tink.json_proto_keyset_format.parse( text, secret_key_access.TOKEN ) except tink.TinkError as e: logging.exception('Error reading keyset: %s', e) return 1 now = datetime.datetime.now(tz=datetime.timezone.utc) # Get the JwtPublicKeySign primitive try: jwt_sign = keyset_handle.primitive(jwt.JwtPublicKeySign) except tink.TinkError as e: logging.exception('Error creating JwtPublicKeySign: %s', e) return 1 # Create token raw_jwt = jwt.new_raw_jwt( audiences=[_AUDIENCE.value], expiration=now + datetime.timedelta(seconds=100)) token = jwt_sign.sign_and_encode(raw_jwt) with open(_TOKEN_PATH.value, 'wt') as token_file: token_file.write(token) logging.info('Token has been written to %s', _TOKEN_PATH.value) if __name__ == '__main__': flags.mark_flags_as_required( ['private_keyset_path', 'audience', 'token_path']) app.run(main)
Un modo comune per condividere il set di chiavi pubbliche è il formato JWK. L'esempio seguente mostra come convertire il set di chiavi pubbliche nel formato JWK.
C++
// An example for converting a Tink keyset with public keys into a JWK set. #include <iostream> #include <memory> #include <ostream> #include <string> #include "absl/flags/flag.h" #include "absl/flags/parse.h" #include "absl/log/check.h" #include "util/util.h" #include "tink/jwt/jwk_set_converter.h" #include "tink/jwt/jwt_signature_config.h" #include "tink/keyset_handle.h" #include "tink/util/status.h" ABSL_FLAG(std::string, public_keyset_filename, "", "Public keyset file in Tink's JSON format"); ABSL_FLAG(std::string, public_jwk_set_filename, "", "Path to the output public JWK set file"); namespace { using ::crypto::tink::JwkSetFromPublicKeysetHandle; using ::crypto::tink::KeysetHandle; using ::crypto::tink::util::Status; using ::crypto::tink::util::StatusOr; void ValidateParams() { // ... } } // namespace namespace tink_cc_examples { Status JwtGeneratePublicJwkSet(const std::string& public_keyset_filename, const std::string& public_jwk_set_filename) { Status result = crypto::tink::JwtSignatureRegister(); if (!result.ok()) return result; StatusOr<std::unique_ptr<KeysetHandle>> keyset_handle = ReadJsonCleartextKeyset(public_keyset_filename); if (!keyset_handle.ok()) return keyset_handle.status(); StatusOr<std::string> public_jwk_set = JwkSetFromPublicKeysetHandle(**keyset_handle); if (!public_jwk_set.ok()) return keyset_handle.status(); return WriteToFile(*public_jwk_set, public_jwk_set_filename); } } // namespace tink_cc_examples int main(int argc, char** argv) { absl::ParseCommandLine(argc, argv); ValidateParams(); std::string public_keyset_filename = absl::GetFlag(FLAGS_public_keyset_filename); std::string public_jwk_set_filename = absl::GetFlag(FLAGS_public_jwk_set_filename); std::clog << "Convert public keyset in " << public_keyset_filename << " to "; std::clog << " to JWK set format; the result is written to " << public_jwk_set_filename << '\n'; CHECK_OK(tink_cc_examples::JwtGeneratePublicJwkSet(public_keyset_filename, public_jwk_set_filename)); return 0; }
Vai
func Example_generateJWKS() { // A Tink keyset in JSON format with one JWT public key. publicJSONKeyset := `{ "primaryKeyId": 1742360595, "key": [ { "keyData": { "typeUrl": "type.googleapis.com/google.crypto.tink.JwtEcdsaPublicKey", "value": "EAEaIG40E1603MP9RyoomZth6r+NcO1XeODPZKMmP/lbD/kgIiBeoDMF9LS5BDCh6YgqE3DjHwWwnEKEI3WpPf8izEx1rQ==", "keyMaterialType": "ASYMMETRIC_PUBLIC" }, "status": "ENABLED", "keyId": 1742360595, "outputPrefixType": "TINK" } ] }` // Create a keyset handle from the keyset containing the public key. Because the // public keyset does not contain any secrets, we can use [keyset.ReadWithNoSecrets]. publicKeysetHandle, err := keyset.ReadWithNoSecrets( keyset.NewJSONReader(bytes.NewBufferString(publicJSONKeyset))) if err != nil { log.Fatal(err) } // Create a publicJWKset from publicKeysetHandle. publicJWKset, err := jwt.JWKSetFromPublicKeysetHandle(publicKeysetHandle) if err != nil { log.Fatal(err) } // Remove whitespace so that we can compare it to the expected string. compactPublicJWKset := &bytes.Buffer{} err = json.Compact(compactPublicJWKset, publicJWKset) if err != nil { log.Fatal(err) } fmt.Println(compactPublicJWKset.String()) // Output: // {"keys":[{"alg":"ES256","crv":"P-256","key_ops":["verify"],"kid":"Z9pQEw","kty":"EC","use":"sig","x":"bjQTXrTcw_1HKiiZm2Hqv41w7Vd44M9koyY_-VsP-SA","y":"XqAzBfS0uQQwoemIKhNw4x8FsJxChCN1qT3_IsxMda0"}]} }
Java
package jwt; import static java.nio.charset.StandardCharsets.UTF_8; import com.google.crypto.tink.InsecureSecretKeyAccess; import com.google.crypto.tink.KeysetHandle; import com.google.crypto.tink.TinkJsonProtoKeysetFormat; import com.google.crypto.tink.jwt.JwkSetConverter; import com.google.crypto.tink.jwt.JwtSignatureConfig; import java.nio.file.Files; import java.nio.file.Path; import java.nio.file.Paths; /** * A command-line example for generating the public JWT keyset in JWK set format. * * <p>It loads cleartext private keys from disk - this is not recommended! * * <p>It requires the following arguments: * * <ul> * <li>private-keyset-file: Name of the input file containing the private keyset. * <li>public-jwkset-file: Name of the output file containing the public key in JWK set format. */ public final class JwtGeneratePublicJwkSet { public static void main(String[] args) throws Exception { if (args.length != 2) { System.err.printf("Expected 2 parameters, got %d\n", args.length); System.err.println( "Usage: java JwtGeneratePublicJwkSet private-keyset-file public-jwk-set-file"); System.exit(1); } Path privateKeysetFile = Paths.get(args[0]); Path publicJwkSetFile = Paths.get(args[1]); // Register all JWT signature key types with the Tink runtime. JwtSignatureConfig.register(); // Read the keyset into a KeysetHandle. KeysetHandle privateKeysetHandle = TinkJsonProtoKeysetFormat.parseKeyset( new String(Files.readAllBytes(privateKeysetFile), UTF_8), InsecureSecretKeyAccess.get()); // Export the public keyset as JWK set. String publicJwkSet = JwkSetConverter.fromPublicKeysetHandle(privateKeysetHandle.getPublicKeysetHandle()); Files.write(publicJwkSetFile, publicJwkSet.getBytes(UTF_8)); } private JwtGeneratePublicJwkSet() {} }
Python
"""A utility for generating the public JWK set from the public keyset. """ from absl import app from absl import flags from absl import logging import tink from tink import jwt _PUBLIC_KEYSET_PATH = flags.DEFINE_string( 'public_keyset_path', None, 'Path to the public keyset in Tink JSON format.') _PUBLIC_JWK_SET_PATH = flags.DEFINE_string( 'public_jwk_set_path', None, 'Path to public keyset in JWK format.') def main(argv): del argv # Unused. # Initialise Tink jwt.register_jwt_signature() # Read the keyset into a KeysetHandle with open(_PUBLIC_KEYSET_PATH.value, 'rt') as keyset_file: try: text = keyset_file.read() public_keyset_handle = tink.json_proto_keyset_format.parse_without_secret( text ) except tink.TinkError as e: logging.exception('Error reading keyset: %s', e) return 1 # Export Public Keyset as JWK set public_jwk_set = jwt.jwk_set_from_public_keyset_handle(public_keyset_handle) with open(_PUBLIC_JWK_SET_PATH.value, 'wt') as public_jwk_set_file: public_jwk_set_file.write(public_jwk_set) logging.info('The public JWK set has been written to %s', _PUBLIC_JWK_SET_PATH.value) if __name__ == '__main__': flags.mark_flags_as_required(['public_keyset_path', 'public_jwk_set_path']) app.run(main)
Verifica JWT
Per la maggior parte dei casi d'uso, consigliamo le primitive JwtPublicKeyVerify con il tipo di chiave JWT_ES256.
Gli esempi seguenti mostrano come verificare i JWT utilizzando un keyset pubblico nel formato JWK set, un formato di uso comune per la condivisione di keyset pubblici con altre parti.
C++
// A utility for creating, signing and verifying JSON Web Tokens (JWT). #include <iostream> #include <memory> #include <ostream> #include <string> #include <utility> #include "absl/flags/flag.h" #include "absl/flags/parse.h" #include "absl/log/check.h" #include "absl/strings/string_view.h" #include "tink/config/global_registry.h" #include "util/util.h" #include "tink/jwt/jwk_set_converter.h" #include "tink/jwt/jwt_public_key_verify.h" #include "tink/jwt/jwt_signature_config.h" #include "tink/jwt/jwt_validator.h" #include "tink/keyset_handle.h" #include "tink/util/status.h" ABSL_FLAG(std::string, jwk_set_filename, "", "Path to the JWK set file"); ABSL_FLAG(std::string, audience, "", "Expected audience in the token"); ABSL_FLAG(std::string, token_filename, "", "Path to the token file"); namespace { using ::crypto::tink::JwkSetToPublicKeysetHandle; using ::crypto::tink::JwtPublicKeyVerify; using ::crypto::tink::JwtValidator; using ::crypto::tink::KeysetHandle; using ::crypto::tink::util::Status; using ::crypto::tink::util::StatusOr; void ValidateParams() { // ... } } // namespace namespace tink_cc_examples { // JWT verify example CLI implementation. Status JwtVerify(const std::string& jwk_set_filename, absl::string_view audience, const std::string& token_filename) { Status result = crypto::tink::JwtSignatureRegister(); if (!result.ok()) return result; // Read the JWK set from file and convert it. StatusOr<std::string> jwk_set = ReadFile(jwk_set_filename); if (!jwk_set.ok()) return jwk_set.status(); StatusOr<std::unique_ptr<KeysetHandle>> keyset_handle = JwkSetToPublicKeysetHandle(*jwk_set); // Read the token. StatusOr<std::string> token = ReadFile(token_filename); if (!token.ok()) return token.status(); StatusOr<JwtValidator> validator = crypto::tink::JwtValidatorBuilder().ExpectAudience(audience).Build(); if (!validator.ok()) return validator.status(); StatusOr<std::unique_ptr<JwtPublicKeyVerify>> jwt_verifier = (*keyset_handle) ->GetPrimitive<crypto::tink::JwtPublicKeyVerify>( crypto::tink::ConfigGlobalRegistry()); if (!jwt_verifier.ok()) return jwt_verifier.status(); return (*jwt_verifier)->VerifyAndDecode(*token, *validator).status(); } } // namespace tink_cc_examples int main(int argc, char** argv) { absl::ParseCommandLine(argc, argv); ValidateParams(); std::string jwk_set_filename = absl::GetFlag(FLAGS_jwk_set_filename); std::string audience = absl::GetFlag(FLAGS_audience); std::string token_filename = absl::GetFlag(FLAGS_token_filename); std::clog << "Using keyset in " << jwk_set_filename << " to "; std::clog << " verify a token with expected audience '" << audience << '\n'; CHECK_OK( tink_cc_examples::JwtVerify(jwk_set_filename, audience, token_filename)); return 0; }
Vai
func Example_verifyWithJWKS() { // A signed token with the subject 'example subject', audience 'example audience'. // and expiration on 2023-03-23. token := `eyJhbGciOiJFUzI1NiIsICJraWQiOiJaOXBRRXcifQ.eyJhdWQiOiJleGFtcGxlIGF1ZGllbmNlIiwgImV4cCI6MTY3OTUzMzIwMCwgInN1YiI6ImV4YW1wbGUgc3ViamVjdCJ9.ZvI0T84fJ1aouiB7n62kHOmbm0Hpfiz0JtYs15XVDT8KyoVYZ8hu_DGJUN47BqZIbuOI-rdu9TxJvutj8uF3Ow` // A public keyset in the JWK set format. publicJWKset := `{ "keys":[ { "alg":"ES256", "crv":"P-256", "key_ops":["verify"], "kid":"Z9pQEw", "kty":"EC", "use":"sig", "x":"bjQTXrTcw_1HKiiZm2Hqv41w7Vd44M9koyY_-VsP-SA", "y":"XqAzBfS0uQQwoemIKhNw4x8FsJxChCN1qT3_IsxMda0" } ] }` // Create a keyset handle from publicJWKset. publicKeysetHandle, err := jwt.JWKSetToPublicKeysetHandle([]byte(publicJWKset)) if err != nil { log.Fatal(err) } // Retrieve the Verifier primitive from publicKeysetHandle. verifier, err := jwt.NewVerifier(publicKeysetHandle) if err != nil { log.Fatal(err) } // Verify the signed token. For this example, we use a fixed date. Usually, you would // either not set FixedNow, or set it to the current time. audience := "example audience" validator, err := jwt.NewValidator(&jwt.ValidatorOpts{ ExpectedAudience: &audience, FixedNow: time.Date(2023, 3, 23, 0, 0, 0, 0, time.UTC), }) if err != nil { log.Fatal(err) } verifiedJWT, err := verifier.VerifyAndDecode(token, validator) if err != nil { log.Fatal(err) } // Extract subject claim from the token. if !verifiedJWT.HasSubject() { log.Fatal(err) } extractedSubject, err := verifiedJWT.Subject() if err != nil { log.Fatal(err) } fmt.Println(extractedSubject) // Output: example subject }
Java
package jwt; import static java.nio.charset.StandardCharsets.UTF_8; import com.google.crypto.tink.KeysetHandle; import com.google.crypto.tink.RegistryConfiguration; import com.google.crypto.tink.jwt.JwkSetConverter; import com.google.crypto.tink.jwt.JwtPublicKeyVerify; import com.google.crypto.tink.jwt.JwtSignatureConfig; import com.google.crypto.tink.jwt.JwtValidator; import com.google.crypto.tink.jwt.VerifiedJwt; import java.nio.file.Files; import java.nio.file.Path; import java.nio.file.Paths; import java.time.Instant; import java.time.temporal.ChronoUnit; import java.util.List; /** * A command-line utility for verifying JSON Web Tokens (JWTs). * * <p>It requires the following arguments: * * <ul> * <li>public-jwkset-file: Name of the input file containing the public keyset in JWK set format. * <li>audience: The audience claim to be used in the token * <li>token-file: name of the input file containing the signed JWT. */ public final class JwtVerify { public static void main(String[] args) throws Exception { if (args.length != 3) { System.err.printf("Expected 3 parameters, got %d\n", args.length); System.err.println( "Usage: java JwtVerify public-jwk-set-file audience token-file"); System.exit(1); } Path publicJwkSetFile = Paths.get(args[0]); String audience = args[1]; Path tokenFile = Paths.get(args[2]); // Register all JWT signature key types with the Tink runtime. JwtSignatureConfig.register(); // Read the public keyset in JWK set format into a KeysetHandle. KeysetHandle publicKeysetHandle = JwkSetConverter.toPublicKeysetHandle( new String(Files.readAllBytes(publicJwkSetFile), UTF_8)); List<String> lines = Files.readAllLines(tokenFile, UTF_8); if (lines.size() != 1) { System.err.printf("The signature file should contain only one line, got %d", lines.size()); System.exit(1); } String signedToken = lines.get(0).trim(); // Get the primitive. JwtPublicKeyVerify verifier = publicKeysetHandle.getPrimitive(RegistryConfiguration.get(), JwtPublicKeyVerify.class); // Use the primitive to verify a token. JwtValidator validator = JwtValidator.newBuilder().expectAudience(audience).build(); VerifiedJwt verifiedJwt = verifier.verifyAndDecode(signedToken, validator); long seconds = ChronoUnit.SECONDS.between(Instant.now(), verifiedJwt.getExpiration()); System.out.println("Token is valid and expires in " + seconds + " seconds."); } private JwtVerify() {} }
Python
"""A utility for verifying Json Web Tokens (JWT).""" import datetime from absl import app from absl import flags from absl import logging import tink from tink import jwt FLAGS = flags.FLAGS _PUBLIC_JWK_SET_PATH = flags.DEFINE_string( 'public_jwk_set_path', None, 'Path to public keyset in JWK set format.') _AUDIENCE = flags.DEFINE_string('audience', None, 'Audience to be used in the token') _TOKEN_PATH = flags.DEFINE_string('token_path', None, 'Path to the signature file.') def main(argv): del argv # Unused. # Initialise Tink jwt.register_jwt_signature() with open(_PUBLIC_JWK_SET_PATH.value, 'rt') as public_jwk_set_file: try: text = public_jwk_set_file.read() keyset_handle = jwt.jwk_set_to_public_keyset_handle(text) except tink.TinkError as e: logging.exception('Error reading public JWK set: %s', e) return 1 now = datetime.datetime.now(tz=datetime.timezone.utc) try: jwt_verify = keyset_handle.primitive(jwt.JwtPublicKeyVerify) except tink.TinkError as e: logging.exception('Error creating JwtPublicKeyVerify: %s', e) return 1 # Verify token with open(_TOKEN_PATH.value, 'rt') as token_file: token = token_file.read() validator = jwt.new_validator(expected_audience=_AUDIENCE.value) try: verified_jwt = jwt_verify.verify_and_decode(token, validator) expires_in = verified_jwt.expiration() - now logging.info('Token is valid and expires in %s seconds', expires_in.seconds) return 0 except tink.TinkError as e: logging.info('JWT verification failed: %s', e) return 1 if __name__ == '__main__': flags.mark_flags_as_required(['audience', 'token_path']) app.run(main)
JSON Web Token (JWT)
Tink supporta la generazione e la verifica dei JWT, che sono uno standard ampiamente utilizzato sul web. L'implementazione JWT di Tink fornisce un sottoinsieme dello standard JWT definito nella RFC 7519 che il team di Tink considera sicuro da usare e che si adatta bene alla libreria Tink.
Tink non supporta le parti dello standard che vengono utilizzate raramente o che sono difficili da utilizzare correttamente. Queste sono le limitazioni:
- Tink supporta solo il formato JWS Compact Serialization. JWS JSON Serialization e JWE non sono supportati.
- Tink non supporta il valore
Nonenell'intestazionealg. - Tink supporta solo le intestazioni
typ,algekid. Tutte le altre intestazioni non sono supportate. - Tink non consente l'analisi dei token prima della verifica della firma o del MAC.
Firme JWT
Se i token vengono generati e verificati da entità diverse, devi utilizzare
chiavi asimmetriche con le primitive JwtPublicKeySign e JwtPublicKeyVerify.
La chiave privata viene utilizzata per generare i token, mentre la chiave pubblica viene utilizzata per verificarli. Gli algoritmi supportati da queste primitive sono: ES256,
ES384, ES512, RS256, RS384, RS512, PS256, PS384 e PS512.
Scegli un tipo di chiave
Le firme JWT utilizzano tipi di chiavi diversi rispetto alla normale firma digitale in
Tink. Questo è necessario perché alcuni metadati (come alg e kid) devono essere
memorizzati con la chiave.
Ti consigliamo di utilizzare JWT_ES256 per la maggior parte dei casi d'uso. I token generati con questo
tipo di chiave hanno sempre un'intestazione kid. Se preferisci token leggermente più brevi
senza un'intestazione kid, scegli il tipo di chiave JWT_ES256_RAW. Per tutti i tipi di chiavi supportati, consulta Tipi di chiavi supportati.
Distribuzione del keyset pubblico
Tink consente di convertire i set di chiavi pubbliche nel formato JWK Sets e viceversa definito nella RFC 7517, che la maggior parte delle librerie JWT comprende.
Tink non supporta l'esportazione di chiavi JWT pubbliche in altri formati. Il motivo
è che gli altri formati non contengono i metadati alg e kid da utilizzare
nella verifica, il che li rende più soggetti a errori e potrebbe rendere
più difficile la rotazione delle chiavi.
È preferibile non condividere il set di chiavi pubbliche una sola volta, ma fornire un modo per aggiornarlo automaticamente. In caso contrario, la rotazione a una nuova chiave è molto difficile. Questa operazione viene spesso eseguita pubblicando il set di chiavi pubbliche su un URL attendibile e sicuro. Un server che verifica i token deve recuperare periodicamente il keyset pubblico da quell'URL, ad esempio una volta al giorno. Per ruotare la chiave, la nuova chiave pubblica deve essere aggiunta al set di chiavi pubbliche almeno un giorno prima che venga utilizzata per firmare i token. In caso contrario, i nuovi token firmati con la nuova chiave privata verranno rifiutati dai server che utilizzano ancora il vecchio set di chiavi pubbliche.
JWT MAC
Tink supporta anche i JWT con chiavi simmetriche con la primitiva JwtMac. Utilizza questo primitivo solo se i token vengono generati e verificati dalla stessa entità. Gli
algoritmi supportati da questa primitiva sono HS256, HS384 e
HS512.
Scegli un tipo di chiave
I tipi di chiavi MAC JWT sono diversi dai normali tipi di chiavi MAC. Ti consigliamo di utilizzare
JWT_HS256 per la maggior parte dei casi d'uso.