; Most/all of these test chains use the same structure: ; root -> ica1 -> ica2 -> ee ; "ica1" is "Intermediate CA 1" ; "ee" is "end-entity", i.e. the client or server certificate itself ; ; In SSL/TLS order, the EE comes first. The root may or may not be included ; as a self-signed certificate. [key] name = root-rsa2048 type = RSA n = B6D934D450FDB3AF7A73F1CE38BF5D6F45E1FD4EB198C6608326D217D1C5B79AA3C1DE6339979CF05E5CC81C17B988196DF0B62E3050A1546E93C0DBCF30CB9F1E2779F1C3995235AA3DB6DFB0AD7CCB49CDC0EDE766102AE9CE281F2150FA774C2DDAEF3C58EB4EBFCEE9FB1ADAA383A3CDA3CA9380DCDAF317CC7AAB33809CB2D47F463FC53CDC6194B727296E2ABC5B0936D4C63B0DEBBECEDB1D1CBC106A7171B3F2CA289A77F28AEC42EFB14A8EE2F21A322ACDC0A6462C9AC28537917F46A19381A17466DFBAB339209193FA1DA1A885E7E4F907F610F6A82701B67F12C340C3C9E2B0AB49183A64B659B795B59636DF2269AA726A544E2729A30E9715 e = 010001 [key] name = root-p256 type = EC curve = P-256 q = 047174BAABB9302E81D5E557F9F320680C9CF964DBB4200D6DEA40D04A6E42FDB69A682544F6DF7BC4FCDEDD7BBBC5DB7C763F4166406EDBA787C2E5D8C5F37F8D [key] name = root-p384 type = EC curve = P-384 q = 040ED28B3F7F0A38A6DB72CB4DAC8198C3D595BFABEE2E4A3CC6797F1A272C57AD715F96B5FDA29C4DD87B75B1438B6A92C4FD0282A3080A857F28AB31FF8B49F805470A01EE551F7F27C914E7E780AE474558D6F5539BAE806626514FE560478B [key] name = root-p521 type = EC curve = P-521 q = 040168E669615D1B20F2E753D2C86312F51094D3E5C6CF49E8D73418278CD769FE40A84AD4F34865D59D94D5685B389E0CFD0450754CAE81ED1D4A91D0773F7A002ED701DEF2DBDEFC7554E74CD600693DBDE1A7E09CD9044774C744C7CE575BF8B645FF79FCCE06116F61D44FDAE62D3046F4EB41DECB8219B279A5B8CE2A47F3DF0D463B [key] name = ica1-rsa2048 type = RSA n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e = 010001 [key] name = ica2-rsa2048 type = RSA n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e = 010001 [key] name = ee-rsa2048 type = RSA n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e = 010001 [key] name = ee-p256 type = EC curve = P-256 q = 045F389DA7FF4D8AAFF63439461AFC3ADFF423AAA9EAFBC508DE008EBE79A537584C6DDD01CAAB47DF89B6C7171F38FC1D2014DD45C0E08F934E380BFCE999A149 [key] name = ee-p384 type = EC curve = P-384 q = 0415A488877F3D14830E29A1C2F2C0745CE8CF5E684304D1668972389BA615B34E9648D5A7861E49DFFFBFFFEAD7FC6AF11BC4516C3557332DD86DDFDE2A236CCEA844EBD594CCD3ED5B7AE0061BD6595737B59FE754BCDAB6FE38D34D93DBBF30 [key] name = ee-p521 type = EC curve = P-521 q = 040060547ACA9D520FB3272833236CBF8E71AC286A3001FBB1E2C3FD8BAB0817DDE4E4FA53550F120D678F4D55AE4FF36C7C8EAE9E32A08A44FC66F45331E08946077A0139B87FE54B986012A94838C8006034941CD0512E596436D2E8E61CA93585D5C06EAD5094585B5B2A3E013803B3E6AAA1D4156EF09E8352029BB70AC6BF338F918B ; Trust anchor: the root. [anchor] name = root DN_file = dn-root.der key = root-rsa2048 type = CA ; Trust anchor: root with an ECDSA key (in P-256 curve) [anchor] name = root-p256 DN_file = dn-root.der key = root-p256 type = CA ; Trust anchor: root with an ECDSA key (in P-384 curve) [anchor] name = root-p384 DN_file = dn-root.der key = root-p384 type = CA ; Trust anchor: root with an ECDSA key (in P-521 curve) [anchor] name = root-p521 DN_file = dn-root.der key = root-p521 type = CA ; Intermediate CA 1 as trust anchor. [anchor] name = ica1 DN_file = dn-ica1.der key = ica1-rsa2048 type = CA ; Intermediate CA 2 as trust anchor. [anchor] name = ica2 DN_file = dn-ica2.der key = ica2-rsa2048 type = CA ; EE certificate as trust anchor (direct trust only). [anchor] name = ee DN_file = dn-ee.der key = ee-rsa2048 type = EE ; Base valid chain. [chain] name = base anchors = root chain = ee.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Valid chain except that no trust anchor is provided; this should fail ; with BR_ERR_X509_NOT_TRUSTED. [chain] name = noTA anchors = chain = ee.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX status = 62 ; Use of intermediate CA 1 as anchor (extra certificates are ignored). [chain] name = anchorICA1 anchors = ica1 chain = ee.crt ica2.crt junk.crt junk.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Use of intermediate CA 2 as anchor (extra certificates are ignored). [chain] name = anchorICA2 anchors = ica2 chain = ee.crt junk.crt junk.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Direct trust of EE. [chain] name = directTrust anchors = ee chain = ee.crt junk.crt junk.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Server name check: name does not match the SAN nor the CN. [chain] name = wrongName1 anchors = root chain = ee.crt ica2.crt ica1.crt servername = foo.example.com keytype = RSA keyusage = KEYX status = 56 ; Server name check: name matches the CN but not the SAN, and there is ; a SAN so the CN is ignored. [chain] name = wrongName2 anchors = root chain = ee-names.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX status = 56 ; Server name check: name does not match CN, but matches the first SAN ; name. [chain] name = goodName1 anchors = root chain = ee-names.crt ica2.crt ica1.crt servername = foo.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Server name check: name does not match CN, but matches the second SAN ; name. [chain] name = goodName2 anchors = root chain = ee-names.crt ica2.crt ica1.crt servername = barqux.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Server name check: no SAN, but the CN matches the server name. [chain] name = goodName3 anchors = root chain = ee-names2.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Server name check: no SAN, and the CN does not match the server name. [chain] name = wrongName3 anchors = root chain = ee-names2.crt ica2.crt ica1.crt servername = foo.example.com keytype = RSA keyusage = KEYX status = 56 ; Server name check: no SAN, and the CN does not match the server name, ; although its byte contents seem to match (but with BMPString encoding). [chain] name = wrongName4 anchors = root chain = ee-names3.crt ica2.crt ica1.crt servername = www1.example.com keytype = RSA keyusage = KEYX status = 56 ; Server name check: no SAN, and the CN uses BMPString encoding, but we ; do not actually request a server name check, so this should pass. [chain] name = ignoreName1 anchors = root chain = ee-names3.crt ica2.crt ica1.crt keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Wildcard processing: the name 'localhost' should not match because ; the engine recognises the wildcard only in a '*.' starting sequence, ; so the lone '*' in a SAN will not be accepted. [chain] name = wildcard1 anchors = root chain = ee-names4.crt ica2.crt ica1.crt servername = localhost keytype = RSA keyusage = KEYX status = 56 ; Wildcard processing: the name 'example.com' will be matched by '*.com'. [chain] name = wildcard2 anchors = root chain = ee-names4.crt ica2.crt ica1.crt servername = example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Wildcard processing: the name 'www.example.com' will be matched by ; '*.example.com'. [chain] name = wildcard3 anchors = root chain = ee-names4.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Wildcard processing: the name 'foo.foo.example.com' will not be matched by ; 'foo.*.example.com' because we accept the wildcard only in the first name ; component. [chain] name = wildcard4 anchors = root chain = ee-names4.crt ica2.crt ica1.crt servername = foo.foo.example.com keytype = RSA keyusage = KEYX status = 56 ; Wildcard processing: the name 'foo.bar.example.com' will not be matched by ; 'foo.*.example.com', but '*.bar.example.com' will fit. [chain] name = wildcard5 anchors = root chain = ee-names4.crt ica2.crt ica1.crt servername = foo.bar.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Wildcard processing: the name 'foo.bar.example.foobar' will not be matched by ; '*.*.example.foobar' because we support only a single level of wildcard. [chain] name = wildcard6 anchors = root chain = ee-names4.crt ica2.crt ica1.crt servername = foo.bar.example.foobar keytype = RSA keyusage = KEYX status = 56 ; Wildcard processing: the name 'foo.*.example.foobar' will be matched ; by '*.*.example.foobar' because the '*' in the provided server name matches ; the second '*' in '*.*.example.foobar'. This is a corner case with no ; practical impact because expected server names are usually extracted from ; URL and cannot have embedded '*' in them. [chain] name = wildcard7 anchors = root chain = ee-names4.crt ica2.crt ica1.crt servername = foo.*.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Hash function support: the chain uses only SHA-256. [chain] name = hashSHA256Only anchors = root chain = ee.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX hashes = sha256 eekey = ee-rsa2048 status = 0 ; Hash function support: the chain uses only SHA-256. [chain] name = hashSHA256Unsupported anchors = root chain = ee.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX hashes = md5 sha1 sha224 sha384 sha512 status = 49 ; Hash function support: signature on EE uses SHA-1. [chain] name = hashSHA1 anchors = root chain = ee-sha1.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Hash function support: signature on EE uses SHA-224. [chain] name = hashSHA224 anchors = root chain = ee-sha224.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Hash function support: signature on EE uses SHA-384. [chain] name = hashSHA384 anchors = root chain = ee-sha384.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Hash function support: signature on EE uses SHA-512. [chain] name = hashSHA512 anchors = root chain = ee-sha512.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Hash function support: signature on EE uses MD5. This is rejected by ; the engine (even though MD5 is supported as a hash function). [chain] name = hashMD5 anchors = root chain = ee-md5.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX status = 49 ; EE certificate has trailing garbage (an extra byte), which should be ; rejected. [chain] name = trailingGarbage anchors = root chain = ee-trailing.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX status = 40 ; Signature on EE certificate is incorrect (one byte modified in signature). [chain] name = badSignature1 anchors = root chain = ee-badsig1.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX status = 52 ; Signature on EE certificate is incorrect (one byte modified in serial ; number). [chain] name = badSignature2 anchors = root chain = ee-badsig2.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX status = 52 ; Signature on EE certificate is incorrect but this is ignored because we ; use a direct trust model here. [chain] name = ignoredSignature1 anchors = ee chain = ee-badsig1.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Signature on EE certificate is incorrect but this is ignored because we ; use a direct trust model here. [chain] name = ignoredSignature2 anchors = ee chain = ee-badsig2.crt ica2.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Intermediate CA 1 has a 1016-bit RSA key, which should be rejected ; with BR_ERR_X509_WEAK_PUBLIC_KEY. [chain] name = rsa1016 anchors = root chain = ee.crt ica2-1016.crt ica1-1016.crt servername = www.example.com keytype = RSA keyusage = KEYX status = 60 ; Intermediate CA 1 has a 1017-bit RSA key, which should be accepted ; (because that's 128 bytes, which is the lower limit). [chain] name = rsa1017 anchors = root chain = ee.crt ica2-1017.crt ica1-1017.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; Intermediate CA 1 has a 4096-bit RSA key, which should be supported. [chain] name = rsa4096 anchors = root chain = ee.crt ica2-4096.crt ica1-4096.crt servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; EE is valid from 2010/02/17 11:40:35 to 2098/07/20 15:11:08. The ; start date is in UTCTime, the end date is in GeneralizedTime. [chain] name = date1 anchors = ica2 chain = ee-dates.crt ica2.crt ica1.crt time = 2010-02-17 11:40:34Z servername = www.example.com keytype = RSA keyusage = KEYX status = 54 ; EE is valid from 2010/02/17 11:40:35 to 2098/07/20 15:11:08. The ; start date is in UTCTime, the end date is in GeneralizedTime. [chain] name = date2 anchors = ica2 chain = ee-dates.crt ica2.crt ica1.crt time = 2010-02-17 11:40:36Z servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; EE is valid from 2010/02/17 11:40:35 to 2098/07/20 15:11:08. The ; start date is in UTCTime, the end date is in GeneralizedTime. [chain] name = date3 anchors = ica2 chain = ee-dates.crt ica2.crt ica1.crt time = 2098-07-20 15:11:07Z servername = www.example.com keytype = RSA keyusage = KEYX eekey = ee-rsa2048 status = 0 ; EE is valid from 2010/02/17 11:40:35 to 2098/07/20 15:11:08. The ; start date is in UTCTime, the end date is in GeneralizedTime. [chain] name = date4 anchors = ica2 chain = ee-dates.crt ica2.crt ica1.crt time = 2098-07-20 15:11:09Z servername = www.example.com keytype = RSA keyusage = KEYX status = 54 ; Intermediate CA 2 certificate is not a CA. [chain] name = notCA anchors = root chain = ee-dates.crt ica2-notCA.crt ica1.crt servername = www.example.com keytype = RSA keyusage = KEYX status = 58 ; A chain using ECDSA with P-256. [chain] name = secp256r1 anchors = root-p256 chain = ee-p256.crt ica2-p256.crt ica1-p256.crt servername = www.example.com keytype = EC keyusage = SIGN eekey = ee-p256 status = 0 ; A chain using ECDSA with P-384. [chain] name = secp384r1 anchors = root-p384 chain = ee-p384.crt ica2-p384.crt ica1-p384.crt servername = www.example.com keytype = EC keyusage = SIGN eekey = ee-p384 status = 0 ; A chain using ECDSA with P-521. [chain] name = secp521r1 anchors = root-p521 chain = ee-p521.crt ica2-p521.crt ica1-p521.crt servername = www.example.com keytype = EC keyusage = SIGN eekey = ee-p521 status = 0 ; A chain using ECDSA with P-256, signature on EE uses SHA-1. [chain] name = secp256r1-sha1 anchors = root-p256 chain = ee-p256-sha1.crt ica2-p256.crt ica1-p256.crt servername = www.example.com keytype = EC keyusage = SIGN eekey = ee-p256 status = 0 ; A chain using ECDSA with P-256, signature on EE uses SHA-224. [chain] name = secp256r1-sha224 anchors = root-p256 chain = ee-p256-sha224.crt ica2-p256.crt ica1-p256.crt servername = www.example.com keytype = EC keyusage = SIGN eekey = ee-p256 status = 0 ; A chain using ECDSA with P-256, signature on EE uses SHA-256. [chain] name = secp256r1-sha256 anchors = root-p256 chain = ee-p256-sha256.crt ica2-p256.crt ica1-p256.crt servername = www.example.com keytype = EC keyusage = SIGN eekey = ee-p256 status = 0 ; A chain using ECDSA with P-256, signature on EE uses SHA-384. [chain] name = secp256r1-sha384 anchors = root-p256 chain = ee-p256-sha384.crt ica2-p256.crt ica1-p256.crt servername = www.example.com keytype = EC keyusage = SIGN eekey = ee-p256 status = 0 ; A chain using ECDSA with P-256, signature on EE uses SHA-512. [chain] name = secp256r1-sha512 anchors = root-p256 chain = ee-p256-sha512.crt ica2-p256.crt ica1-p256.crt servername = www.example.com keytype = EC keyusage = SIGN eekey = ee-p256 status = 0