go/src/crypto/tls/testdata/Server-TLSv12-SNI-GetCertificate, branch fix-runtime-test-GOMAXPROCS

crypto/tls: empty server_name conf. ext. from server

2025-07-09T15:28:24Z

When a TLS server uses the information from the server_name extension in a client hello, and the connection isn't resuming, it should return an empty server_name extension in its server hello (or encrypted extensions for TLS 1.3). For TLS <1.3 we we do this in doFullHandshake(), by setting the pre-existing serverHelloMsg.serverNameAck bool. We know that the connection isn't resuming based on the context where this function is called. For TLS 1.3, a new encryptedExtensionsMsg.serverNameAck bool is added, and populated as appropriate in sendServerParameters() based on whether the conn was resumed or not. The encryptedExtensionsMsg marshalling is updated to emit the encrypted extension based on that field. These changes allow enabling the ServerNameExtensionServer-* bogo tests that verify both the presence and absence of the server_name extension based on the relevant specifications. Resolves #74282 Updates #72006 Change-Id: I703bc2ec916b50906bdece7b7483a7faed7aa8e4 Reviewed-on: https://go-review.googlesource.com/c/go/+/684795 TryBot-Bypass: Daniel McCarney Reviewed-by: Carlos Amedee Reviewed-by: Roland Shoemaker Auto-Submit: Daniel McCarney

crypto/tls: implement Extended Master Secret

2023-05-25T00:13:30Z

All OpenSSL tests now test operation with EMS. To test a handshake *without* EMS we need to pass -Options=-ExtendedMasterSecret which is only available in OpenSSL 3.1, which breaks a number of other tests. Updates #43922 Change-Id: Ib9ac79a1d03fab6bfba5fe9cd66689cff661cda7 Reviewed-on: https://go-review.googlesource.com/c/go/+/497376 Run-TryBot: Filippo Valsorda TryBot-Result: Gopher Robot Reviewed-by: Roland Shoemaker Auto-Submit: Filippo Valsorda Reviewed-by: Ian Lance Taylor Reviewed-by: Damien Neil

crypto/tls: send ec_points_format extension in ServerHello

2019-10-31T15:14:45Z

Follow the recommandation from RFC 8422, section 5.1.2 of sending back the ec_points_format extension when requested by the client. This is to fix some clients declining the handshake if omitted. Fixes #31943 Change-Id: I7b04dbac6f9af75cda094073defe081e1e9a295d Reviewed-on: https://go-review.googlesource.com/c/go/+/176418 Run-TryBot: Filippo Valsorda Reviewed-by: Olivier Poitrey Reviewed-by: Filippo Valsorda TryBot-Result: Gobot Gobot

crypto/tls: disable RSA-PSS in TLS 1.2 again

2019-06-19T19:59:14Z

Signing with RSA-PSS can uncover faulty crypto.Signer implementations, and it can fail for (broken) small keys. We'll have to take that breakage eventually, but it would be nice for it to be opt-out at first. TLS 1.3 requires RSA-PSS and is opt-out in Go 1.13. Instead of making a TLS 1.3 opt-out influence a TLS 1.2 behavior, let's wait to add RSA-PSS to TLS 1.2 until TLS 1.3 is on without opt-out. Note that since the Client Hello is sent before a protocol version is selected, we have to advertise RSA-PSS there to support TLS 1.3. That means that we still support RSA-PSS on the client in TLS 1.2 for verifying server certificates, which is fine, as all issues arise on the signing side. We have to be careful not to pick (or consider available) RSA-PSS on the client for client certificates, though. We'd expect tests to change only in TLS 1.2: * the server won't pick PSS to sign the key exchange (Server-TLSv12-* w/ RSA, TestHandshakeServerRSAPSS); * the server won't advertise PSS in CertificateRequest (Server-TLSv12-ClientAuthRequested*, TestClientAuth); * and the client won't pick PSS for its CertificateVerify (Client-TLSv12-ClientCert-RSA-*, TestHandshakeClientCertRSAPSS, Client-TLSv12-Renegotiate* because "R" requests a client cert). Client-TLSv13-ClientCert-RSA-RSAPSS was updated because of a fix in the test. This effectively reverts 88343530720a52c96b21f2bd5488c8fb607605d7. Testing was made more complex by the undocumented semantics of OpenSSL's -[client_]sigalgs (see openssl/openssl#9172). Updates #32425 Change-Id: Iaddeb2df1f5c75cd090cc8321df2ac8e8e7db349 Reviewed-on: https://go-review.googlesource.com/c/go/+/182339 Reviewed-by: Adam Langley

crypto/tls: enable TLS 1.3 and update tests

2018-11-12T20:44:39Z

To disable TLS 1.3, simply remove VersionTLS13 from supportedVersions, as tested by TestEscapeRoute, and amend documentation. To make it opt-in, revert the change to (*Config).supportedVersions from this CL. I did not have the heart to implement the early data skipping feature when I realized that it did not offer a choice between two abstraction-breaking options, but demanded them both (look for handshake type in case of HelloRetryRequest, trial decryption otherwise). It's a lot of complexity for an apparently small gain, but if anyone has strong opinions about it let me know. Note that in TLS 1.3 alerts are encrypted, so the close_notify peeking to return (n > 0, io.EOF) from Read doesn't work. If we are lucky, those servers that unexpectedly close connections after serving a single request will have stopped (maybe thanks to H/2) before they got updated to TLS 1.3. Relatedly, session tickets are now provisioned on the client first Read instead of at Handshake time, because they are, well, post-handshake messages. If this proves to be a problem we might try to peek at them. Doubled the tests that cover logic that's different in TLS 1.3. The benchmarks for TLS 1.2 compared to be0f3c286b5 (before TLS 1.3 and its refactors, after CL 142817 changed them to use real connections) show little movement. name old time/op new time/op delta HandshakeServer/RSA-8 795µs ± 1% 798µs ± 1% ~ (p=0.057 n=10+18) HandshakeServer/ECDHE-P256-RSA-8 903µs ± 0% 909µs ± 1% +0.68% (p=0.000 n=8+17) HandshakeServer/ECDHE-P256-ECDSA-P256-8 198µs ± 0% 204µs ± 1% +3.24% (p=0.000 n=9+18) HandshakeServer/ECDHE-X25519-ECDSA-P256-8 202µs ± 3% 208µs ± 1% +2.98% (p=0.000 n=9+20) HandshakeServer/ECDHE-P521-ECDSA-P521-8 15.5ms ± 1% 15.9ms ± 2% +2.49% (p=0.000 n=10+20) Throughput/MaxPacket/1MB-8 5.81ms ±23% 6.14ms ±44% ~ (p=0.605 n=8+18) Throughput/MaxPacket/2MB-8 8.91ms ±22% 8.74ms ±33% ~ (p=0.498 n=9+19) Throughput/MaxPacket/4MB-8 12.8ms ± 3% 14.0ms ±10% +9.74% (p=0.000 n=10+17) Throughput/MaxPacket/8MB-8 25.1ms ± 7% 24.6ms ±16% ~ (p=0.129 n=9+19) Throughput/MaxPacket/16MB-8 46.3ms ± 4% 45.9ms ±12% ~ (p=0.340 n=9+20) Throughput/MaxPacket/32MB-8 88.5ms ± 4% 86.0ms ± 4% -2.82% (p=0.004 n=10+20) Throughput/MaxPacket/64MB-8 173ms ± 2% 167ms ± 7% -3.42% (p=0.001 n=10+19) Throughput/DynamicPacket/1MB-8 5.88ms ± 4% 6.59ms ±64% ~ (p=0.232 n=9+18) Throughput/DynamicPacket/2MB-8 9.08ms ±12% 8.73ms ±21% ~ (p=0.408 n=10+18) Throughput/DynamicPacket/4MB-8 14.2ms ± 5% 14.0ms ±11% ~ (p=0.188 n=9+19) Throughput/DynamicPacket/8MB-8 25.1ms ± 6% 24.0ms ± 7% -4.39% (p=0.000 n=10+18) Throughput/DynamicPacket/16MB-8 45.6ms ± 3% 43.3ms ± 1% -5.22% (p=0.000 n=10+8) Throughput/DynamicPacket/32MB-8 88.4ms ± 3% 84.8ms ± 2% -4.06% (p=0.000 n=10+10) Throughput/DynamicPacket/64MB-8 175ms ± 3% 167ms ± 2% -4.63% (p=0.000 n=10+10) Latency/MaxPacket/200kbps-8 694ms ± 0% 694ms ± 0% -0.02% (p=0.000 n=9+9) Latency/MaxPacket/500kbps-8 279ms ± 0% 279ms ± 0% -0.09% (p=0.000 n=10+10) Latency/MaxPacket/1000kbps-8 140ms ± 0% 140ms ± 0% -0.15% (p=0.000 n=10+9) Latency/MaxPacket/2000kbps-8 71.1ms ± 0% 71.0ms ± 0% -0.09% (p=0.001 n=8+9) Latency/MaxPacket/5000kbps-8 30.5ms ± 6% 30.1ms ± 6% ~ (p=0.905 n=10+9) Latency/DynamicPacket/200kbps-8 134ms ± 0% 134ms ± 0% ~ (p=0.796 n=9+9) Latency/DynamicPacket/500kbps-8 54.8ms ± 0% 54.7ms ± 0% -0.18% (p=0.000 n=8+10) Latency/DynamicPacket/1000kbps-8 28.5ms ± 0% 29.1ms ± 8% ~ (p=0.173 n=8+10) Latency/DynamicPacket/2000kbps-8 15.3ms ± 6% 15.9ms ±10% ~ (p=0.905 n=9+10) Latency/DynamicPacket/5000kbps-8 9.14ms ±21% 9.65ms ±82% ~ (p=0.529 n=10+10) name old speed new speed delta Throughput/MaxPacket/1MB-8 175MB/s ±13% 167MB/s ±64% ~ (p=0.646 n=7+20) Throughput/MaxPacket/2MB-8 241MB/s ±25% 241MB/s ±40% ~ (p=0.660 n=9+20) Throughput/MaxPacket/4MB-8 328MB/s ± 3% 300MB/s ± 9% -8.70% (p=0.000 n=10+17) Throughput/MaxPacket/8MB-8 335MB/s ± 7% 340MB/s ±17% ~ (p=0.212 n=9+20) Throughput/MaxPacket/16MB-8 363MB/s ± 4% 367MB/s ±11% ~ (p=0.340 n=9+20) Throughput/MaxPacket/32MB-8 379MB/s ± 4% 390MB/s ± 4% +2.93% (p=0.004 n=10+20) Throughput/MaxPacket/64MB-8 388MB/s ± 2% 401MB/s ± 7% +3.25% (p=0.004 n=10+20) Throughput/DynamicPacket/1MB-8 178MB/s ± 4% 157MB/s ±73% ~ (p=0.127 n=9+20) Throughput/DynamicPacket/2MB-8 232MB/s ±11% 243MB/s ±18% ~ (p=0.415 n=10+18) Throughput/DynamicPacket/4MB-8 296MB/s ± 5% 299MB/s ±15% ~ (p=0.295 n=9+20) Throughput/DynamicPacket/8MB-8 334MB/s ± 6% 350MB/s ± 7% +4.58% (p=0.000 n=10+18) Throughput/DynamicPacket/16MB-8 368MB/s ± 3% 388MB/s ± 1% +5.48% (p=0.000 n=10+8) Throughput/DynamicPacket/32MB-8 380MB/s ± 3% 396MB/s ± 2% +4.20% (p=0.000 n=10+10) Throughput/DynamicPacket/64MB-8 384MB/s ± 3% 403MB/s ± 2% +4.83% (p=0.000 n=10+10) Comparing TLS 1.2 and TLS 1.3 at tip shows a slight (~5-10%) slowdown of handshakes, which might be worth looking at next cycle, but the latency improvements are expected to overshadow that. name old time/op new time/op delta HandshakeServer/ECDHE-P256-RSA-8 909µs ± 1% 963µs ± 0% +5.87% (p=0.000 n=17+18) HandshakeServer/ECDHE-P256-ECDSA-P256-8 204µs ± 1% 225µs ± 2% +10.20% (p=0.000 n=18+20) HandshakeServer/ECDHE-X25519-ECDSA-P256-8 208µs ± 1% 230µs ± 2% +10.35% (p=0.000 n=20+18) HandshakeServer/ECDHE-P521-ECDSA-P521-8 15.9ms ± 2% 15.9ms ± 1% ~ (p=0.444 n=20+19) Throughput/MaxPacket/1MB-8 6.14ms ±44% 7.07ms ±46% ~ (p=0.057 n=18+19) Throughput/MaxPacket/2MB-8 8.74ms ±33% 8.61ms ± 9% ~ (p=0.552 n=19+17) Throughput/MaxPacket/4MB-8 14.0ms ±10% 14.1ms ±12% ~ (p=0.707 n=17+20) Throughput/MaxPacket/8MB-8 24.6ms ±16% 25.6ms ±14% ~ (p=0.107 n=19+20) Throughput/MaxPacket/16MB-8 45.9ms ±12% 44.7ms ± 6% ~ (p=0.607 n=20+19) Throughput/MaxPacket/32MB-8 86.0ms ± 4% 87.9ms ± 8% ~ (p=0.113 n=20+19) Throughput/MaxPacket/64MB-8 167ms ± 7% 169ms ± 2% +1.26% (p=0.011 n=19+19) Throughput/DynamicPacket/1MB-8 6.59ms ±64% 6.79ms ±43% ~ (p=0.480 n=18+19) Throughput/DynamicPacket/2MB-8 8.73ms ±21% 9.58ms ±13% +9.71% (p=0.006 n=18+20) Throughput/DynamicPacket/4MB-8 14.0ms ±11% 13.9ms ±10% ~ (p=0.687 n=19+20) Throughput/DynamicPacket/8MB-8 24.0ms ± 7% 24.6ms ± 8% +2.36% (p=0.045 n=18+17) Throughput/DynamicPacket/16MB-8 43.3ms ± 1% 44.3ms ± 2% +2.48% (p=0.001 n=8+9) Throughput/DynamicPacket/32MB-8 84.8ms ± 2% 86.7ms ± 2% +2.27% (p=0.000 n=10+10) Throughput/DynamicPacket/64MB-8 167ms ± 2% 170ms ± 3% +1.89% (p=0.005 n=10+10) Latency/MaxPacket/200kbps-8 694ms ± 0% 699ms ± 0% +0.65% (p=0.000 n=9+10) Latency/MaxPacket/500kbps-8 279ms ± 0% 280ms ± 0% +0.68% (p=0.000 n=10+10) Latency/MaxPacket/1000kbps-8 140ms ± 0% 141ms ± 0% +0.59% (p=0.000 n=9+9) Latency/MaxPacket/2000kbps-8 71.0ms ± 0% 71.3ms ± 0% +0.42% (p=0.000 n=9+9) Latency/MaxPacket/5000kbps-8 30.1ms ± 6% 30.7ms ±10% +1.93% (p=0.019 n=9+9) Latency/DynamicPacket/200kbps-8 134ms ± 0% 138ms ± 0% +3.22% (p=0.000 n=9+10) Latency/DynamicPacket/500kbps-8 54.7ms ± 0% 56.3ms ± 0% +3.03% (p=0.000 n=10+8) Latency/DynamicPacket/1000kbps-8 29.1ms ± 8% 29.1ms ± 0% ~ (p=0.173 n=10+8) Latency/DynamicPacket/2000kbps-8 15.9ms ±10% 16.4ms ±36% ~ (p=0.633 n=10+8) Latency/DynamicPacket/5000kbps-8 9.65ms ±82% 8.32ms ± 8% ~ (p=0.573 n=10+8) name old speed new speed delta Throughput/MaxPacket/1MB-8 167MB/s ±64% 155MB/s ±55% ~ (p=0.224 n=20+19) Throughput/MaxPacket/2MB-8 241MB/s ±40% 244MB/s ± 9% ~ (p=0.407 n=20+17) Throughput/MaxPacket/4MB-8 300MB/s ± 9% 298MB/s ±11% ~ (p=0.707 n=17+20) Throughput/MaxPacket/8MB-8 340MB/s ±17% 330MB/s ±13% ~ (p=0.201 n=20+20) Throughput/MaxPacket/16MB-8 367MB/s ±11% 375MB/s ± 5% ~ (p=0.607 n=20+19) Throughput/MaxPacket/32MB-8 390MB/s ± 4% 382MB/s ± 8% ~ (p=0.113 n=20+19) Throughput/MaxPacket/64MB-8 401MB/s ± 7% 397MB/s ± 2% -0.96% (p=0.030 n=20+19) Throughput/DynamicPacket/1MB-8 157MB/s ±73% 156MB/s ±39% ~ (p=0.738 n=20+20) Throughput/DynamicPacket/2MB-8 243MB/s ±18% 220MB/s ±14% -9.65% (p=0.006 n=18+20) Throughput/DynamicPacket/4MB-8 299MB/s ±15% 303MB/s ± 9% ~ (p=0.512 n=20+20) Throughput/DynamicPacket/8MB-8 350MB/s ± 7% 342MB/s ± 8% -2.27% (p=0.045 n=18+17) Throughput/DynamicPacket/16MB-8 388MB/s ± 1% 378MB/s ± 2% -2.41% (p=0.001 n=8+9) Throughput/DynamicPacket/32MB-8 396MB/s ± 2% 387MB/s ± 2% -2.21% (p=0.000 n=10+10) Throughput/DynamicPacket/64MB-8 403MB/s ± 2% 396MB/s ± 3% -1.84% (p=0.005 n=10+10) Fixes #9671 Change-Id: Ieb57c5140eb2c083b8be0d42b240cd2eeec0dcf6 Reviewed-on: https://go-review.googlesource.com/c/147638 Run-TryBot: Filippo Valsorda TryBot-Result: Gobot Gobot Reviewed-by: Adam Langley

crypto/tls: enable ChaCha20-Poly1305 cipher suites by default.

2016-10-18T06:54:30Z

This change enables the ChaCha20-Poly1305 cipher suites by default. This changes the default ClientHello and thus requires updating all the tests. Change-Id: I6683a2647caaff4a11f9e932babb6f07912cad94 Reviewed-on: https://go-review.googlesource.com/30958 Run-TryBot: Brad Fitzpatrick TryBot-Result: Gobot Gobot Reviewed-by: Brad Fitzpatrick

crypto/tls: enable X25519 by default.

2016-10-12T17:07:31Z

Since this changes the offered curves in the ClientHello, all the test data needs to be updated too. Change-Id: I227934711104349c0f0eab11d854e5a2adcbc363 Reviewed-on: https://go-review.googlesource.com/30825 Reviewed-by: Brad Fitzpatrick

crypto/tls: switch to OpenSSL 1.1.0 for test data.

2016-10-12T17:03:46Z

We will need OpenSSL 1.1.0 in order to test some of the features expected for Go 1.8. However, 1.1.0 also disables (by default) some things that we still want to test, such as RC4, 3DES and SSLv3. Thus developers wanting to update the crypto/tls test data will need to build OpenSSL from source. This change updates the test data with transcripts generated by 1.1.0 (in order to reduce future diffs) and also causes a banner to be printed if 1.1.0 is not used when updating. (The test for an ALPN mismatch is removed because OpenSSL now terminates the connection with a fatal alert if no known ALPN protocols are offered. There's no point testing against this because it's an OpenSSL behaviour.) Change-Id: I957516975e0b8c7def84184f65c81d0b68f1c551 Reviewed-on: https://go-review.googlesource.com/30821 Run-TryBot: Adam Langley TryBot-Result: Gobot Gobot Reviewed-by: Brad Fitzpatrick

crypto/x509: require a NULL parameters for RSA public keys.

2016-08-17T23:47:18Z

The RFC is clear that the Parameters in an AlgorithmIdentifer for an RSA public key must be NULL. BoringSSL enforces this so we have strong evidence that this is a widely compatible change. Embarrassingly enough, the major source of violations of this is us. Go used to get this correct in only one of two places. This was only fixed in 2013 (with 4874bc9b). That's why lots of test certificates are updated in this change. Fixes #16166. Change-Id: Ib9a4551349354c66e730d44eb8cee4ec402ea8ab Reviewed-on: https://go-review.googlesource.com/27312 Reviewed-by: Brad Fitzpatrick

crypto/tls: add TLS_RSA_WITH_AES_128_GCM_SHA256 and TLS_RSA_WITH_AES_256_GCM_SHA384 cipher suites

2015-11-15T20:59:11Z

Fixes #9894. Change-Id: I9c7ce771df2e2d1c99a06f800dce63c4e1875993 Reviewed-on: https://go-review.googlesource.com/16924 Run-TryBot: Minux Ma TryBot-Result: Gobot Gobot Reviewed-by: Adam Langley