github.com/FISCO-BCOS/crypto@v0.0.0-20200202032121-bd8ab0b5d4f1/tls/conn_test.go (about) 1 // Copyright 2010 The Go Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 package tls 6 7 import ( 8 "bytes" 9 "io" 10 "net" 11 "testing" 12 ) 13 14 func TestRoundUp(t *testing.T) { 15 if roundUp(0, 16) != 0 || 16 roundUp(1, 16) != 16 || 17 roundUp(15, 16) != 16 || 18 roundUp(16, 16) != 16 || 19 roundUp(17, 16) != 32 { 20 t.Error("roundUp broken") 21 } 22 } 23 24 // will be initialized with {0, 255, 255, ..., 255} 25 var padding255Bad = [256]byte{} 26 27 // will be initialized with {255, 255, 255, ..., 255} 28 var padding255Good = [256]byte{255} 29 30 var paddingTests = []struct { 31 in []byte 32 good bool 33 expectedLen int 34 }{ 35 {[]byte{1, 2, 3, 4, 0}, true, 4}, 36 {[]byte{1, 2, 3, 4, 0, 1}, false, 0}, 37 {[]byte{1, 2, 3, 4, 99, 99}, false, 0}, 38 {[]byte{1, 2, 3, 4, 1, 1}, true, 4}, 39 {[]byte{1, 2, 3, 2, 2, 2}, true, 3}, 40 {[]byte{1, 2, 3, 3, 3, 3}, true, 2}, 41 {[]byte{1, 2, 3, 4, 3, 3}, false, 0}, 42 {[]byte{1, 4, 4, 4, 4, 4}, true, 1}, 43 {[]byte{5, 5, 5, 5, 5, 5}, true, 0}, 44 {[]byte{6, 6, 6, 6, 6, 6}, false, 0}, 45 {padding255Bad[:], false, 0}, 46 {padding255Good[:], true, 0}, 47 } 48 49 func TestRemovePadding(t *testing.T) { 50 for i := 1; i < len(padding255Bad); i++ { 51 padding255Bad[i] = 255 52 padding255Good[i] = 255 53 } 54 for i, test := range paddingTests { 55 paddingLen, good := extractPadding(test.in) 56 expectedGood := byte(255) 57 if !test.good { 58 expectedGood = 0 59 } 60 if good != expectedGood { 61 t.Errorf("#%d: wrong validity, want:%d got:%d", i, expectedGood, good) 62 } 63 if good == 255 && len(test.in)-paddingLen != test.expectedLen { 64 t.Errorf("#%d: got %d, want %d", i, len(test.in)-paddingLen, test.expectedLen) 65 } 66 } 67 } 68 69 var certExampleCom = `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` 70 71 var certWildcardExampleCom = `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` 72 73 var certFooExampleCom = `308201753082011fa00302010202101bbdb6070b0aeffc49008cde74deef29300d06092a864886f70d01010b050030123110300e060355040a130741636d6520436f301e170d3136303831373231343234345a170d3137303831373231343234345a30123110300e060355040a130741636d6520436f305c300d06092a864886f70d0101010500034b003048024100f00ac69d8ca2829f26216c7b50f1d4bbabad58d447706476cd89a2f3e1859943748aa42c15eedc93ac7c49e40d3b05ed645cb6b81c4efba60d961f44211a54eb0203010001a351304f300e0603551d0f0101ff0404030205a030130603551d25040c300a06082b06010505070301300c0603551d130101ff04023000301a0603551d1104133011820f666f6f2e6578616d706c652e636f6d300d06092a864886f70d01010b0500034100a0957fca6d1e0f1ef4b247348c7a8ca092c29c9c0ecc1898ea6b8065d23af6d922a410dd2335a0ea15edd1394cef9f62c9e876a21e35250a0b4fe1ddceba0f36` 74 75 var certDoubleWildcardExampleCom = `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` 76 77 func TestCertificateSelection(t *testing.T) { 78 config := Config{ 79 Certificates: []Certificate{ 80 { 81 Certificate: [][]byte{fromHex(certExampleCom)}, 82 }, 83 { 84 Certificate: [][]byte{fromHex(certWildcardExampleCom)}, 85 }, 86 { 87 Certificate: [][]byte{fromHex(certFooExampleCom)}, 88 }, 89 { 90 Certificate: [][]byte{fromHex(certDoubleWildcardExampleCom)}, 91 }, 92 }, 93 } 94 95 config.BuildNameToCertificate() 96 97 pointerToIndex := func(c *Certificate) int { 98 for i := range config.Certificates { 99 if c == &config.Certificates[i] { 100 return i 101 } 102 } 103 return -1 104 } 105 106 certificateForName := func(name string) *Certificate { 107 clientHello := &ClientHelloInfo{ 108 ServerName: name, 109 } 110 if cert, err := config.getCertificate(clientHello); err != nil { 111 t.Errorf("unable to get certificate for name '%s': %s", name, err) 112 return nil 113 } else { 114 return cert 115 } 116 } 117 118 if n := pointerToIndex(certificateForName("example.com")); n != 0 { 119 t.Errorf("example.com returned certificate %d, not 0", n) 120 } 121 if n := pointerToIndex(certificateForName("bar.example.com")); n != 1 { 122 t.Errorf("bar.example.com returned certificate %d, not 1", n) 123 } 124 if n := pointerToIndex(certificateForName("foo.example.com")); n != 2 { 125 t.Errorf("foo.example.com returned certificate %d, not 2", n) 126 } 127 if n := pointerToIndex(certificateForName("foo.bar.example.com")); n != 3 { 128 t.Errorf("foo.bar.example.com returned certificate %d, not 3", n) 129 } 130 if n := pointerToIndex(certificateForName("foo.bar.baz.example.com")); n != 0 { 131 t.Errorf("foo.bar.baz.example.com returned certificate %d, not 0", n) 132 } 133 } 134 135 // Run with multiple crypto configs to test the logic for computing TLS record overheads. 136 func runDynamicRecordSizingTest(t *testing.T, config *Config) { 137 clientConn, serverConn := localPipe(t) 138 139 serverConfig := config.Clone() 140 serverConfig.DynamicRecordSizingDisabled = false 141 tlsConn := Server(serverConn, serverConfig) 142 143 handshakeDone := make(chan struct{}) 144 recordSizesChan := make(chan []int, 1) 145 defer func() { <-recordSizesChan }() // wait for the goroutine to exit 146 go func() { 147 // This goroutine performs a TLS handshake over clientConn and 148 // then reads TLS records until EOF. It writes a slice that 149 // contains all the record sizes to recordSizesChan. 150 defer close(recordSizesChan) 151 defer clientConn.Close() 152 153 tlsConn := Client(clientConn, config) 154 if err := tlsConn.Handshake(); err != nil { 155 t.Errorf("Error from client handshake: %v", err) 156 return 157 } 158 close(handshakeDone) 159 160 var recordHeader [recordHeaderLen]byte 161 var record []byte 162 var recordSizes []int 163 164 for { 165 n, err := io.ReadFull(clientConn, recordHeader[:]) 166 if err == io.EOF { 167 break 168 } 169 if err != nil || n != len(recordHeader) { 170 t.Errorf("io.ReadFull = %d, %v", n, err) 171 return 172 } 173 174 length := int(recordHeader[3])<<8 | int(recordHeader[4]) 175 if len(record) < length { 176 record = make([]byte, length) 177 } 178 179 n, err = io.ReadFull(clientConn, record[:length]) 180 if err != nil || n != length { 181 t.Errorf("io.ReadFull = %d, %v", n, err) 182 return 183 } 184 185 recordSizes = append(recordSizes, recordHeaderLen+length) 186 } 187 188 recordSizesChan <- recordSizes 189 }() 190 191 if err := tlsConn.Handshake(); err != nil { 192 t.Fatalf("Error from server handshake: %s", err) 193 } 194 <-handshakeDone 195 196 // The server writes these plaintexts in order. 197 plaintext := bytes.Join([][]byte{ 198 bytes.Repeat([]byte("x"), recordSizeBoostThreshold), 199 bytes.Repeat([]byte("y"), maxPlaintext*2), 200 bytes.Repeat([]byte("z"), maxPlaintext), 201 }, nil) 202 203 if _, err := tlsConn.Write(plaintext); err != nil { 204 t.Fatalf("Error from server write: %s", err) 205 } 206 if err := tlsConn.Close(); err != nil { 207 t.Fatalf("Error from server close: %s", err) 208 } 209 210 recordSizes := <-recordSizesChan 211 if recordSizes == nil { 212 t.Fatalf("Client encountered an error") 213 } 214 215 // Drop the size of the second to last record, which is likely to be 216 // truncated, and the last record, which is a close_notify alert. 217 recordSizes = recordSizes[:len(recordSizes)-2] 218 219 // recordSizes should contain a series of records smaller than 220 // tcpMSSEstimate followed by some larger than maxPlaintext. 221 seenLargeRecord := false 222 for i, size := range recordSizes { 223 if !seenLargeRecord { 224 if size > (i+1)*tcpMSSEstimate { 225 t.Fatalf("Record #%d has size %d, which is too large too soon", i, size) 226 } 227 if size >= maxPlaintext { 228 seenLargeRecord = true 229 } 230 } else if size <= maxPlaintext { 231 t.Fatalf("Record #%d has size %d but should be full sized", i, size) 232 } 233 } 234 235 if !seenLargeRecord { 236 t.Fatalf("No large records observed") 237 } 238 } 239 240 func TestDynamicRecordSizingWithStreamCipher(t *testing.T) { 241 config := testConfig.Clone() 242 config.MaxVersion = VersionTLS12 243 config.CipherSuites = []uint16{TLS_RSA_WITH_RC4_128_SHA} 244 runDynamicRecordSizingTest(t, config) 245 } 246 247 func TestDynamicRecordSizingWithCBC(t *testing.T) { 248 config := testConfig.Clone() 249 config.MaxVersion = VersionTLS12 250 config.CipherSuites = []uint16{TLS_RSA_WITH_AES_256_CBC_SHA} 251 runDynamicRecordSizingTest(t, config) 252 } 253 254 func TestDynamicRecordSizingWithAEAD(t *testing.T) { 255 config := testConfig.Clone() 256 config.MaxVersion = VersionTLS12 257 config.CipherSuites = []uint16{TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256} 258 runDynamicRecordSizingTest(t, config) 259 } 260 261 func TestDynamicRecordSizingWithTLSv13(t *testing.T) { 262 config := testConfig.Clone() 263 runDynamicRecordSizingTest(t, config) 264 } 265 266 // hairpinConn is a net.Conn that makes a “hairpin” call when closed, back into 267 // the tls.Conn which is calling it. 268 type hairpinConn struct { 269 net.Conn 270 tlsConn *Conn 271 } 272 273 func (conn *hairpinConn) Close() error { 274 conn.tlsConn.ConnectionState() 275 return nil 276 } 277 278 func TestHairpinInClose(t *testing.T) { 279 // This tests that the underlying net.Conn can call back into the 280 // tls.Conn when being closed without deadlocking. 281 client, server := localPipe(t) 282 defer server.Close() 283 defer client.Close() 284 285 conn := &hairpinConn{client, nil} 286 tlsConn := Server(conn, &Config{ 287 GetCertificate: func(*ClientHelloInfo) (*Certificate, error) { 288 panic("unreachable") 289 }, 290 }) 291 conn.tlsConn = tlsConn 292 293 // This call should not deadlock. 294 tlsConn.Close() 295 }