From: jsing Date: Wed, 8 Mar 2023 05:41:08 +0000 (+0000) Subject: Run test groups concurrently. X-Git-Url: http://artulab.com/gitweb/?a=commitdiff_plain;h=eb0436eb61f4a79d509fc5906e055b3fc255a32a;p=openbsd Run test groups concurrently. Add a basic test coordinator, that allows for Wycheproof test groups to be run concurrently. This can be further improved (especially for vectors that have limited test groups), however it already reduces the regress duration by about half on an Apple M1. --- diff --git a/regress/lib/libcrypto/wycheproof/wycheproof.go b/regress/lib/libcrypto/wycheproof/wycheproof.go index 5567e02a6cc..accd9ab9cbe 100644 --- a/regress/lib/libcrypto/wycheproof/wycheproof.go +++ b/regress/lib/libcrypto/wycheproof/wycheproof.go @@ -1,4 +1,4 @@ -/* $OpenBSD: wycheproof.go,v 1.136 2023/03/08 05:17:33 jsing Exp $ */ +/* $OpenBSD: wycheproof.go,v 1.137 2023/03/08 05:41:08 jsing Exp $ */ /* * Copyright (c) 2018 Joel Sing * Copyright (c) 2018,2019,2022 Theo Buehler @@ -88,6 +88,7 @@ import ( "os" "path/filepath" "regexp" + "runtime" "strings" "unsafe" ) @@ -121,9 +122,7 @@ func (variant testVariant) String() string { return variants[variant] } -var acceptableAudit = false -var acceptableComments map[string]int -var acceptableFlags map[string]int +var testc *testCoordinator type wycheproofJWKPublic struct { Crv string `json:"crv"` @@ -2776,158 +2775,162 @@ func runTestVectors(path string, variant testVariant) bool { fmt.Printf("Loaded Wycheproof test vectors for %v with %d tests from %q\n", wtv.Algorithm, wtv.NumberOfTests, filepath.Base(path)) - var wtg interface{} - switch wtv.Algorithm { - case "AES-CBC-PKCS5": - wtg = &wycheproofTestGroupAesCbcPkcs5{} - case "AES-CCM": - wtg = &wycheproofTestGroupAead{} - case "AES-CMAC": - wtg = &wycheproofTestGroupAesCmac{} - case "AES-GCM": - wtg = &wycheproofTestGroupAead{} - case "CHACHA20-POLY1305", "XCHACHA20-POLY1305": - wtg = &wycheproofTestGroupAead{} - case "DSA": - wtg = &wycheproofTestGroupDSA{} - case "ECDH": - switch variant { - case Webcrypto: - wtg = &wycheproofTestGroupECDHWebCrypto{} - default: - wtg = &wycheproofTestGroupECDH{} - } - case "ECDSA": - switch variant { - case Webcrypto: - wtg = &wycheproofTestGroupECDSAWebCrypto{} - default: - wtg = &wycheproofTestGroupECDSA{} - } - case "EDDSA": - wtg = &wycheproofTestGroupEdDSA{} - case "HKDF-SHA-1", "HKDF-SHA-256", "HKDF-SHA-384", "HKDF-SHA-512": - wtg = &wycheproofTestGroupHkdf{} - case "HMACSHA1", "HMACSHA224", "HMACSHA256", "HMACSHA384", "HMACSHA512": - wtg = &wycheproofTestGroupHmac{} - case "KW": - wtg = &wycheproofTestGroupKW{} - case "PrimalityTest": - wtg = &wycheproofTestGroupPrimality{} - case "RSAES-OAEP": - wtg = &wycheproofTestGroupRsaesOaep{} - case "RSAES-PKCS1-v1_5": - wtg = &wycheproofTestGroupRsaesPkcs1{} - case "RSASSA-PSS": - wtg = &wycheproofTestGroupRsassa{} - case "RSASSA-PKCS1-v1_5", "RSASig": - wtg = &wycheproofTestGroupRSA{} - case "XDH", "X25519": - wtg = &wycheproofTestGroupX25519{} - default: - log.Printf("INFO: Unknown test vector algorithm %q", wtv.Algorithm) - return false - } - success := true - for _, tg := range wtv.TestGroups { - if err := json.Unmarshal(tg, wtg); err != nil { - log.Fatalf("Failed to unmarshal test groups JSON: %v", err) - } - switch wtv.Algorithm { - case "AES-CBC-PKCS5": - if !runAesCbcPkcs5TestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAesCbcPkcs5)) { - success = false - } - case "AES-CCM": - if !runAesAeadTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAead)) { - success = false - } - case "AES-CMAC": - if !runAesCmacTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAesCmac)) { - success = false - } - case "AES-GCM": - if !runAesAeadTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAead)) { - success = false - } - case "CHACHA20-POLY1305", "XCHACHA20-POLY1305": - if !runChaCha20Poly1305TestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAead)) { - success = false - } - case "DSA": - if !runDSATestGroup(wtv.Algorithm, variant, wtg.(*wycheproofTestGroupDSA)) { - success = false - } - case "ECDH": - switch variant { - case Webcrypto: - if !runECDHWebCryptoTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupECDHWebCrypto)) { - success = false + for i := range wtv.TestGroups { + testc.runTest(func() bool { + var wtg interface{} + switch wtv.Algorithm { + case "AES-CBC-PKCS5": + wtg = &wycheproofTestGroupAesCbcPkcs5{} + case "AES-CCM": + wtg = &wycheproofTestGroupAead{} + case "AES-CMAC": + wtg = &wycheproofTestGroupAesCmac{} + case "AES-GCM": + wtg = &wycheproofTestGroupAead{} + case "CHACHA20-POLY1305", "XCHACHA20-POLY1305": + wtg = &wycheproofTestGroupAead{} + case "DSA": + wtg = &wycheproofTestGroupDSA{} + case "ECDH": + switch variant { + case Webcrypto: + wtg = &wycheproofTestGroupECDHWebCrypto{} + default: + wtg = &wycheproofTestGroupECDH{} } - default: - if !runECDHTestGroup(wtv.Algorithm, variant, wtg.(*wycheproofTestGroupECDH)) { - success = false - } - } - case "ECDSA": - switch variant { - case Webcrypto: - if !runECDSAWebCryptoTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupECDSAWebCrypto)) { - success = false + case "ECDSA": + switch variant { + case Webcrypto: + wtg = &wycheproofTestGroupECDSAWebCrypto{} + default: + wtg = &wycheproofTestGroupECDSA{} } + case "EDDSA": + wtg = &wycheproofTestGroupEdDSA{} + case "HKDF-SHA-1", "HKDF-SHA-256", "HKDF-SHA-384", "HKDF-SHA-512": + wtg = &wycheproofTestGroupHkdf{} + case "HMACSHA1", "HMACSHA224", "HMACSHA256", "HMACSHA384", "HMACSHA512": + wtg = &wycheproofTestGroupHmac{} + case "KW": + wtg = &wycheproofTestGroupKW{} + case "PrimalityTest": + wtg = &wycheproofTestGroupPrimality{} + case "RSAES-OAEP": + wtg = &wycheproofTestGroupRsaesOaep{} + case "RSAES-PKCS1-v1_5": + wtg = &wycheproofTestGroupRsaesPkcs1{} + case "RSASSA-PSS": + wtg = &wycheproofTestGroupRsassa{} + case "RSASSA-PKCS1-v1_5", "RSASig": + wtg = &wycheproofTestGroupRSA{} + case "XDH", "X25519": + wtg = &wycheproofTestGroupX25519{} default: - if !runECDSATestGroup(wtv.Algorithm, variant, wtg.(*wycheproofTestGroupECDSA)) { - success = false - } - } - case "EDDSA": - if !runEdDSATestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupEdDSA)) { - success = false - } - case "HKDF-SHA-1", "HKDF-SHA-256", "HKDF-SHA-384", "HKDF-SHA-512": - if !runHkdfTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupHkdf)) { - success = false - } - case "HMACSHA1", "HMACSHA224", "HMACSHA256", "HMACSHA384", "HMACSHA512": - if !runHmacTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupHmac)) { - success = false - } - case "KW": - if !runKWTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupKW)) { - success = false + log.Printf("INFO: Unknown test vector algorithm %q", wtv.Algorithm) + return false } - case "PrimalityTest": - if !runPrimalityTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupPrimality)) { - success = false - } - case "RSAES-OAEP": - if !runRsaesOaepTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupRsaesOaep)) { - success = false - } - case "RSAES-PKCS1-v1_5": - if !runRsaesPkcs1TestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupRsaesPkcs1)) { - success = false - } - case "RSASSA-PSS": - if !runRsassaTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupRsassa)) { - success = false - } - case "RSASSA-PKCS1-v1_5", "RSASig": - if !runRSATestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupRSA)) { - success = false + + if err := json.Unmarshal(wtv.TestGroups[i], wtg); err != nil { + log.Fatalf("Failed to unmarshal test groups JSON: %v", err) } - case "XDH", "X25519": - if !runX25519TestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupX25519)) { - success = false + switch wtv.Algorithm { + case "AES-CBC-PKCS5": + return runAesCbcPkcs5TestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAesCbcPkcs5)) + case "AES-CCM": + return runAesAeadTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAead)) + case "AES-CMAC": + return runAesCmacTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAesCmac)) + case "AES-GCM": + return runAesAeadTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAead)) + case "CHACHA20-POLY1305", "XCHACHA20-POLY1305": + return runChaCha20Poly1305TestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupAead)) + case "DSA": + return runDSATestGroup(wtv.Algorithm, variant, wtg.(*wycheproofTestGroupDSA)) + case "ECDH": + switch variant { + case Webcrypto: + return runECDHWebCryptoTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupECDHWebCrypto)) + default: + return runECDHTestGroup(wtv.Algorithm, variant, wtg.(*wycheproofTestGroupECDH)) + } + case "ECDSA": + switch variant { + case Webcrypto: + return runECDSAWebCryptoTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupECDSAWebCrypto)) + default: + return runECDSATestGroup(wtv.Algorithm, variant, wtg.(*wycheproofTestGroupECDSA)) + } + case "EDDSA": + return runEdDSATestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupEdDSA)) + case "HKDF-SHA-1", "HKDF-SHA-256", "HKDF-SHA-384", "HKDF-SHA-512": + return runHkdfTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupHkdf)) + case "HMACSHA1", "HMACSHA224", "HMACSHA256", "HMACSHA384", "HMACSHA512": + return runHmacTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupHmac)) + case "KW": + return runKWTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupKW)) + case "PrimalityTest": + return runPrimalityTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupPrimality)) + case "RSAES-OAEP": + return runRsaesOaepTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupRsaesOaep)) + case "RSAES-PKCS1-v1_5": + return runRsaesPkcs1TestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupRsaesPkcs1)) + case "RSASSA-PSS": + return runRsassaTestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupRsassa)) + case "RSASSA-PKCS1-v1_5", "RSASig": + return runRSATestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupRSA)) + case "XDH", "X25519": + return runX25519TestGroup(wtv.Algorithm, wtg.(*wycheproofTestGroupX25519)) + default: + log.Fatalf("Unknown test vector algorithm %q", wtv.Algorithm) + return false } - default: - log.Fatalf("Unknown test vector algorithm %q", wtv.Algorithm) + }) + } + for _ = range wtv.TestGroups { + result := <-testc.resultCh + if !result { + success = false } } return success } +type testCoordinator struct { + testFuncCh chan func() bool + resultCh chan bool +} + +func newTestCoordinator() *testCoordinator { + runnerCount := runtime.NumCPU() + tc := &testCoordinator{ + testFuncCh: make(chan func() bool, runnerCount), + resultCh: make(chan bool, 1024), + } + for i := 0; i < runnerCount; i++ { + go tc.testRunner(tc.testFuncCh, tc.resultCh) + } + return tc +} + +func (tc *testCoordinator) testRunner(testFuncCh <-chan func() bool, resultCh chan<- bool) { + for testFunc := range testFuncCh { + select { + case resultCh <- testFunc(): + default: + log.Fatal("result channel is full") + } + } +} + +func (tc *testCoordinator) runTest(testFunc func() bool) { + tc.testFuncCh <- testFunc +} + +func (tc *testCoordinator) shutdown() { + close(tc.testFuncCh) +} + func main() { if _, err := os.Stat(testVectorPath); os.IsNotExist(err) { fmt.Printf("package wycheproof-testvectors is required for this regress\n") @@ -2970,6 +2973,8 @@ func main() { success := true + testc = newTestCoordinator() + skipNormal := regexp.MustCompile(`_(ecpoint|p1363|sha3|sha512_(224|256))_`) for _, test := range tests { @@ -2991,6 +2996,8 @@ func main() { } } + testc.shutdown() + if !success { os.Exit(1) }