mirror of
https://github.com/klzgrad/naiveproxy.git
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420 lines
18 KiB
C++
420 lines
18 KiB
C++
// Copyright 2013 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "net/test/ct_test_util.h"
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#include <stdint.h>
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#include <string.h>
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#include <vector>
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#include "base/base64.h"
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#include "base/strings/string_number_conversions.h"
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#include "base/strings/string_piece.h"
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#include "base/strings/string_util.h"
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#include "base/strings/stringprintf.h"
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#include "net/cert/ct_serialization.h"
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#include "net/cert/ct_verify_result.h"
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#include "net/cert/merkle_tree_leaf.h"
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#include "net/cert/signed_tree_head.h"
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#include "net/cert/x509_certificate.h"
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namespace net {
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namespace ct {
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namespace {
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std::string HexToBytes(const char* hex_data) {
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std::vector<uint8_t> output;
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std::string result;
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if (base::HexStringToBytes(hex_data, &output))
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result.assign(reinterpret_cast<const char*>(&output[0]), output.size());
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return result;
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}
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// The following test vectors are from
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// http://code.google.com/p/certificate-transparency
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const char kDefaultDerCert[] =
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"308202ca30820233a003020102020106300d06092a864886f70d01010505003055310b3009"
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"06035504061302474231243022060355040a131b4365727469666963617465205472616e73"
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"706172656e6379204341310e300c0603550408130557616c65733110300e06035504071307"
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"4572772057656e301e170d3132303630313030303030305a170d3232303630313030303030"
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"305a3052310b30090603550406130247423121301f060355040a1318436572746966696361"
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"7465205472616e73706172656e6379310e300c0603550408130557616c65733110300e0603"
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"55040713074572772057656e30819f300d06092a864886f70d010101050003818d00308189"
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"02818100b1fa37936111f8792da2081c3fe41925008531dc7f2c657bd9e1de4704160b4c9f"
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"19d54ada4470404c1c51341b8f1f7538dddd28d9aca48369fc5646ddcc7617f8168aae5b41"
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"d43331fca2dadfc804d57208949061f9eef902ca47ce88c644e000f06eeeccabdc9dd2f68a"
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"22ccb09dc76e0dbc73527765b1a37a8c676253dcc10203010001a381ac3081a9301d060355"
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"1d0e041604146a0d982a3b62c44b6d2ef4e9bb7a01aa9cb798e2307d0603551d2304763074"
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"80145f9d880dc873e654d4f80dd8e6b0c124b447c355a159a4573055310b30090603550406"
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"1302474231243022060355040a131b4365727469666963617465205472616e73706172656e"
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"6379204341310e300c0603550408130557616c65733110300e060355040713074572772057"
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"656e82010030090603551d1304023000300d06092a864886f70d010105050003818100171c"
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"d84aac414a9a030f22aac8f688b081b2709b848b4e5511406cd707fed028597a9faefc2eee"
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"2978d633aaac14ed3235197da87e0f71b8875f1ac9e78b281749ddedd007e3ecf50645f8cb"
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"f667256cd6a1647b5e13203bb8582de7d6696f656d1c60b95f456b7fcf338571908f1c6972"
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"7d24c4fccd249295795814d1dac0e6";
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const char kDefaultIssuerKeyHash[] =
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"02adddca08b8bf9861f035940c940156d8350fdff899a6239c6bd77255b8f8fc";
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const char kDefaultDerTbsCert[] =
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"30820233a003020102020107300d06092a864886f70d01010505003055310b300906035504"
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"061302474231243022060355040a131b4365727469666963617465205472616e7370617265"
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"6e6379204341310e300c0603550408130557616c65733110300e0603550407130745727720"
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"57656e301e170d3132303630313030303030305a170d3232303630313030303030305a3052"
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"310b30090603550406130247423121301f060355040a131843657274696669636174652054"
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"72616e73706172656e6379310e300c0603550408130557616c65733110300e060355040713"
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"074572772057656e30819f300d06092a864886f70d010101050003818d0030818902818100"
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"beef98e7c26877ae385f75325a0c1d329bedf18faaf4d796bf047eb7e1ce15c95ba2f80ee4"
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"58bd7db86f8a4b252191a79bd700c38e9c0389b45cd4dc9a120ab21e0cb41cd0e72805a410"
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"cd9c5bdb5d4927726daf1710f60187377ea25b1a1e39eed0b88119dc154dc68f7da8e30caf"
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"158a33e6c9509f4a05b01409ff5dd87eb50203010001a381ac3081a9301d0603551d0e0416"
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"04142031541af25c05ffd8658b6843794f5e9036f7b4307d0603551d230476307480145f9d"
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"880dc873e654d4f80dd8e6b0c124b447c355a159a4573055310b3009060355040613024742"
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"31243022060355040a131b4365727469666963617465205472616e73706172656e63792043"
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"41310e300c0603550408130557616c65733110300e060355040713074572772057656e8201"
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"0030090603551d1304023000";
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const char kDefaultExtensions[] = "666f6f626172"; // "foobar"
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const char kTestDigitallySigned[] =
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"0403004730450220606e10ae5c2d5a1b0aed49dc4937f48de71a4e9784e9c208dfbfe9ef53"
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"6cf7f2022100beb29c72d7d06d61d06bdb38a069469aa86fe12e18bb7cc45689a2c0187ef5"
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"a5";
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const char kTestSignedCertificateTimestamp[] =
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"00df1c2ec11500945247a96168325ddc5c7959e8f7c6d388fc002e0bbd3f74d7640000013d"
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"db27ded900000403004730450220606e10ae5c2d5a1b0aed49dc4937f48de71a4e9784e9c2"
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"08dfbfe9ef536cf7f2022100beb29c72d7d06d61d06bdb38a069469aa86fe12e18bb7cc456"
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"89a2c0187ef5a5";
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const char kEcP256PublicKey[] =
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"3059301306072a8648ce3d020106082a8648ce3d0301070342000499783cb14533c0161a5a"
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"b45bf95d08a29cd0ea8dd4c84274e2be59ad15c676960cf0afa1074a57ac644b23479e5b3f"
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"b7b245eb4b420ef370210371a944beaceb";
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const char kTestKeyId[] =
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"df1c2ec11500945247a96168325ddc5c7959e8f7c6d388fc002e0bbd3f74d764";
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const int64_t kTestTimestamp = INT64_C(1396877277237);
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const char kTestSCTSignatureData[] =
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"30450220606e10ae5c2d5a1b0aed49dc4937f48de71a4e9784e9c208dfbfe9ef536cf7f202"
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"2100beb29c72d7d06d61d06bdb38a069469aa86fe12e18bb7cc45689a2c0187ef5a5";
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const char kTestSCTPrecertSignatureData[] =
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"30450220482f6751af35dba65436be1fd6640f3dbf9a41429495924530288fa3e5e23e0602"
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"2100e4edc0db3ac572b1e2f5e8ab6a680653987dcf41027dfeffa105519d89edbf08";
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// A well-formed OCSP response with fake SCT contents. Does not come from
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// http://code.google.com/p/certificate-transparency, does not pertain to any
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// of the test certs here, and is only used to test extracting the extension
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// contents from the response.
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const char kFakeOCSPResponse[] =
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"3082016e0a0100a08201673082016306092b060105050730010104820154308201503081ba"
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"a21604144edfdf5ff9c90ffacfca66e7fbc436bc39ee3fc7180f3230313030313031303630"
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"3030305a30818e30818b3049300906052b0e03021a050004141833a1e6a4f09577cca0e64c"
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"e7d145ca4b93700904144edfdf5ff9c90ffacfca66e7fbc436bc39ee3fc7021001aef99bde"
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"e0bb58c6f2b816bc3ae02f8000180f32303130303130313036303030305aa011180f323033"
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"30303130313036303030305aa11830163014060a2b06010401d67902040504060404746573"
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"74300d06092a864886f70d0101050500038181003586ffcf0794e64eb643d52a3d570a1c93"
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"836395986a2f792dd4e9c70b05161186c55c1658e0607dc9ec0d0924ac37fb99506c870579"
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"634be1de62ba2fced5f61f3b428f959fcee9bddf6f268c8e14c14fdf3b447786e638a5c8cc"
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"b610893df17a60e4cff30f4780aeffe0086ef19910f0d9cd7414bc93d1945686f88ad0a3c3"
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;
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const char kFakeOCSPResponseCert[] =
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"3082022930820192a003020102021001aef99bdee0bb58c6f2b816bc3ae02f300d06092a86"
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"4886f70d01010505003015311330110603550403130a54657374696e67204341301e170d31"
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"30303130313036303030305a170d3332313230313036303030305a30373112301006035504"
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"0313093132372e302e302e31310b300906035504061302585831143012060355040a130b54"
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"657374696e67204f726730819d300d06092a864886f70d010101050003818b003081870281"
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"8100a71998f2930bfe73d031a87f133d2f378eeeeed52a77e44d0fc9ff6f07ff32cbf3da99"
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"9de4ed65832afcb0807f98787506539d258a0ce3c2c77967653099a9034a9b115a876c39a8"
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"c4e4ed4acd0c64095946fb39eeeb47a0704dbb018acf48c3a1c4b895fc409fb4a340a986b1"
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"afc45519ab9eca47c30185c771c64aa5ecf07d020103a35a3058303a06082b060105050701"
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"01010100042b3029302706082b06010505073001861b687474703a2f2f3132372e302e302e"
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"313a35353038312f6f637370301a0603551d200101000410300e300c060a2b06010401d679"
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"020401300d06092a864886f70d01010505000381810065e04fadd3484197f3412479d917e1"
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"9d8f7db57b526f2d0e4c046f86cebe643bf568ea0cd6570b228842aa057c6a7c79f209dfcd"
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"3419a4d93b1ecfb1c0224f33083c7d4da023499fbd00d81d6711ad58ffcf65f1545247fe9d"
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"83203425fd706b4fc5e797002af3d88151be5901eef56ec30aacdfc404be1bd35865ff1943"
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"2516";
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const char kFakeOCSPResponseIssuerCert[] =
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"308201d13082013aa003020102020101300d06092a864886f70d0101050500301531133011"
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"0603550403130a54657374696e67204341301e170d3130303130313036303030305a170d33"
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"32313230313036303030305a3015311330110603550403130a54657374696e672043413081"
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"9d300d06092a864886f70d010101050003818b0030818702818100a71998f2930bfe73d031"
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"a87f133d2f378eeeeed52a77e44d0fc9ff6f07ff32cbf3da999de4ed65832afcb0807f9878"
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"7506539d258a0ce3c2c77967653099a9034a9b115a876c39a8c4e4ed4acd0c64095946fb39"
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"eeeb47a0704dbb018acf48c3a1c4b895fc409fb4a340a986b1afc45519ab9eca47c30185c7"
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"71c64aa5ecf07d020103a333303130120603551d130101ff040830060101ff020100301b06"
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"03551d200101000411300f300d060b2b06010401d6790201ce0f300d06092a864886f70d01"
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"01050500038181003f4936f8d00e83fbdde331f2c64335dcf7dec8b1a2597683edeed61af0"
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"fa862412fad848938fe7ab77f1f9a43671ff6fdb729386e26f49e7aca0c0ea216e5970d933"
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"3ea1e11df2ccb357a5fed5220f9c6239e8946b9b7517707631d51ab996833d58a022cff5a6"
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"2169ac9258ec110efee78da9ab4a641e3b3c9ee5e8bd291460";
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const char kFakeOCSPExtensionValue[] = "74657374"; // "test"
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// For the sample STH
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const char kSampleSTHSHA256RootHash[] =
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"726467216167397babca293dca398e4ce6b621b18b9bc42f30c900d1f92ac1e4";
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const char kSampleSTHTreeHeadSignature[] =
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"0403004730450220365a91a2a88f2b9332f41d8959fa7086da7e6d634b7b089bc9da066426"
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"6c7a20022100e38464f3c0fd066257b982074f7ac87655e0c8f714768a050b4be9a7b441cb"
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"d3";
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size_t kSampleSTHTreeSize = 21u;
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} // namespace
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void GetX509CertSignedEntry(SignedEntryData* entry) {
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entry->type = ct::SignedEntryData::LOG_ENTRY_TYPE_X509;
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entry->leaf_certificate = HexToBytes(kDefaultDerCert);
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}
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void GetX509CertTreeLeaf(MerkleTreeLeaf* tree_leaf) {
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tree_leaf->timestamp = base::Time::FromJsTime(kTestTimestamp);
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GetX509CertSignedEntry(&tree_leaf->signed_entry);
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tree_leaf->extensions = HexToBytes(kDefaultExtensions);
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}
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std::string GetDerEncodedX509Cert() { return HexToBytes(kDefaultDerCert); }
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void GetPrecertSignedEntry(SignedEntryData* entry) {
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entry->type = ct::SignedEntryData::LOG_ENTRY_TYPE_PRECERT;
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std::string issuer_hash(HexToBytes(kDefaultIssuerKeyHash));
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memcpy(entry->issuer_key_hash.data, issuer_hash.data(), issuer_hash.size());
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entry->tbs_certificate = HexToBytes(kDefaultDerTbsCert);
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}
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void GetPrecertTreeLeaf(MerkleTreeLeaf* tree_leaf) {
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tree_leaf->timestamp = base::Time::FromJsTime(kTestTimestamp);
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GetPrecertSignedEntry(&tree_leaf->signed_entry);
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tree_leaf->extensions = HexToBytes(kDefaultExtensions);
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}
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std::string GetTestDigitallySigned() {
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return HexToBytes(kTestDigitallySigned);
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}
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std::string GetTestSignedCertificateTimestamp() {
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return HexToBytes(kTestSignedCertificateTimestamp);
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}
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std::string GetTestPublicKey() {
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return HexToBytes(kEcP256PublicKey);
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}
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std::string GetTestPublicKeyId() {
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return HexToBytes(kTestKeyId);
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}
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void GetX509CertSCT(scoped_refptr<SignedCertificateTimestamp>* sct_ref) {
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CHECK(sct_ref != NULL);
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*sct_ref = new SignedCertificateTimestamp();
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SignedCertificateTimestamp *const sct(sct_ref->get());
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sct->version = ct::SignedCertificateTimestamp::V1;
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sct->log_id = HexToBytes(kTestKeyId);
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// Time the log issued a SCT for this certificate, which is
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// Fri Apr 5 10:04:16.089 2013
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sct->timestamp = base::Time::UnixEpoch() +
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base::TimeDelta::FromMilliseconds(INT64_C(1365181456089));
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sct->extensions.clear();
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sct->signature.hash_algorithm = ct::DigitallySigned::HASH_ALGO_SHA256;
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sct->signature.signature_algorithm = ct::DigitallySigned::SIG_ALGO_ECDSA;
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sct->signature.signature_data = HexToBytes(kTestSCTSignatureData);
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}
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void GetPrecertSCT(scoped_refptr<SignedCertificateTimestamp>* sct_ref) {
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CHECK(sct_ref != NULL);
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*sct_ref = new SignedCertificateTimestamp();
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SignedCertificateTimestamp *const sct(sct_ref->get());
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sct->version = ct::SignedCertificateTimestamp::V1;
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sct->log_id = HexToBytes(kTestKeyId);
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// Time the log issued a SCT for this Precertificate, which is
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// Fri Apr 5 10:04:16.275 2013
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sct->timestamp = base::Time::UnixEpoch() +
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base::TimeDelta::FromMilliseconds(INT64_C(1365181456275));
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sct->extensions.clear();
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sct->signature.hash_algorithm = ct::DigitallySigned::HASH_ALGO_SHA256;
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sct->signature.signature_algorithm = ct::DigitallySigned::SIG_ALGO_ECDSA;
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sct->signature.signature_data = HexToBytes(kTestSCTPrecertSignatureData);
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}
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std::string GetDefaultIssuerKeyHash() {
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return HexToBytes(kDefaultIssuerKeyHash);
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}
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std::string GetDerEncodedFakeOCSPResponse() {
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return HexToBytes(kFakeOCSPResponse);
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}
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std::string GetFakeOCSPExtensionValue() {
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return HexToBytes(kFakeOCSPExtensionValue);
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}
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std::string GetDerEncodedFakeOCSPResponseCert() {
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return HexToBytes(kFakeOCSPResponseCert);
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}
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std::string GetDerEncodedFakeOCSPResponseIssuerCert() {
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return HexToBytes(kFakeOCSPResponseIssuerCert);
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}
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// A sample, valid STH
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bool GetSampleSignedTreeHead(SignedTreeHead* sth) {
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sth->version = SignedTreeHead::V1;
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sth->timestamp = base::Time::UnixEpoch() +
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base::TimeDelta::FromMilliseconds(kTestTimestamp);
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sth->tree_size = kSampleSTHTreeSize;
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std::string sha256_root_hash = GetSampleSTHSHA256RootHash();
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memcpy(sth->sha256_root_hash, sha256_root_hash.c_str(), kSthRootHashLength);
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sth->log_id = GetTestPublicKeyId();
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return GetSampleSTHTreeHeadDecodedSignature(&(sth->signature));
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}
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bool GetSampleEmptySignedTreeHead(SignedTreeHead* sth) {
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sth->version = SignedTreeHead::V1;
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sth->timestamp = base::Time::UnixEpoch() +
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base::TimeDelta::FromMilliseconds(INT64_C(1450443594920));
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sth->tree_size = 0;
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std::string empty_root_hash = HexToBytes(
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"e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855");
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memcpy(sth->sha256_root_hash, empty_root_hash.c_str(), kSthRootHashLength);
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sth->log_id = GetTestPublicKeyId();
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std::string tree_head_signature = HexToBytes(
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"040300463044022046c26401de9416403da54762dc1f1687c38eafd791b15e484ab4c5f7"
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"f52721fe02201bf537a3bbea47109fc76c2273fe0f3349f493a07de9335c266330105fb0"
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"2a4a");
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base::StringPiece sp(tree_head_signature);
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return DecodeDigitallySigned(&sp, &(sth->signature)) && sp.empty();
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}
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bool GetBadEmptySignedTreeHead(SignedTreeHead* sth) {
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sth->version = SignedTreeHead::V1;
|
|
sth->timestamp = base::Time::UnixEpoch() +
|
|
base::TimeDelta::FromMilliseconds(INT64_C(1450870952897));
|
|
sth->tree_size = 0;
|
|
memset(sth->sha256_root_hash, 'f', kSthRootHashLength);
|
|
sth->log_id = GetTestPublicKeyId();
|
|
|
|
std::string tree_head_signature = HexToBytes(
|
|
"04030046304402207cab04c62dee5d1cbc95fec30cd8417313f71587b75f133ad2e6f324"
|
|
"74f164d702205e2f3a9bce46f87d7e20e951a4e955da3cb502f8717a22fabd7c5d7e1bef"
|
|
"46ea");
|
|
base::StringPiece sp(tree_head_signature);
|
|
return DecodeDigitallySigned(&sp, &(sth->signature)) && sp.empty();
|
|
}
|
|
|
|
std::string GetSampleSTHSHA256RootHash() {
|
|
return HexToBytes(kSampleSTHSHA256RootHash);
|
|
}
|
|
|
|
std::string GetSampleSTHTreeHeadSignature() {
|
|
return HexToBytes(kSampleSTHTreeHeadSignature);
|
|
}
|
|
|
|
bool GetSampleSTHTreeHeadDecodedSignature(DigitallySigned* signature) {
|
|
std::string tree_head_signature = HexToBytes(kSampleSTHTreeHeadSignature);
|
|
base::StringPiece sp(tree_head_signature);
|
|
return DecodeDigitallySigned(&sp, signature) && sp.empty();
|
|
}
|
|
|
|
std::string GetSampleSTHAsJson() {
|
|
return CreateSignedTreeHeadJsonString(kSampleSTHTreeSize, kTestTimestamp,
|
|
GetSampleSTHSHA256RootHash(),
|
|
GetSampleSTHTreeHeadSignature());
|
|
}
|
|
|
|
std::string CreateSignedTreeHeadJsonString(size_t tree_size,
|
|
int64_t timestamp,
|
|
std::string sha256_root_hash,
|
|
std::string tree_head_signature) {
|
|
std::string sth_json =
|
|
std::string("{\"tree_size\":") + base::NumberToString(tree_size) +
|
|
std::string(",\"timestamp\":") + base::Int64ToString(timestamp);
|
|
|
|
if (!sha256_root_hash.empty()) {
|
|
std::string root_hash_b64;
|
|
base::Base64Encode(sha256_root_hash, &root_hash_b64);
|
|
sth_json += base::StringPrintf(",\"sha256_root_hash\":\"%s\"",
|
|
root_hash_b64.c_str());
|
|
}
|
|
if (!tree_head_signature.empty()) {
|
|
std::string tree_head_signature_b64;
|
|
base::Base64Encode(tree_head_signature, &tree_head_signature_b64);
|
|
sth_json += base::StringPrintf(",\"tree_head_signature\":\"%s\"",
|
|
tree_head_signature_b64.c_str());
|
|
}
|
|
|
|
sth_json += "}";
|
|
return sth_json;
|
|
}
|
|
|
|
std::string CreateConsistencyProofJsonString(
|
|
const std::vector<std::string>& raw_nodes) {
|
|
std::string consistency_proof_json = std::string("{\"consistency\":[");
|
|
|
|
for (auto it = raw_nodes.begin(); it != raw_nodes.end(); ++it) {
|
|
std::string proof_node_b64;
|
|
base::Base64Encode(*it, &proof_node_b64);
|
|
consistency_proof_json +=
|
|
base::StringPrintf("\"%s\"", proof_node_b64.c_str());
|
|
if (it + 1 != raw_nodes.end())
|
|
consistency_proof_json += std::string(",");
|
|
}
|
|
consistency_proof_json += std::string("]}");
|
|
|
|
return consistency_proof_json;
|
|
}
|
|
|
|
std::string GetSCTListForTesting() {
|
|
const std::string sct = ct::GetTestSignedCertificateTimestamp();
|
|
std::string sct_list;
|
|
ct::EncodeSCTListForTesting(sct, &sct_list);
|
|
return sct_list;
|
|
}
|
|
|
|
std::string GetSCTListWithInvalidSCT() {
|
|
std::string sct(ct::GetTestSignedCertificateTimestamp());
|
|
|
|
// Change a byte inside the Log ID part of the SCT so it does not match the
|
|
// log used in the tests.
|
|
sct[15] = 't';
|
|
|
|
std::string sct_list;
|
|
ct::EncodeSCTListForTesting(sct, &sct_list);
|
|
return sct_list;
|
|
}
|
|
|
|
bool CheckForSingleVerifiedSCTInResult(
|
|
const SignedCertificateTimestampAndStatusList& scts,
|
|
const std::string& log_description) {
|
|
return (scts.size() == 1 && scts[0].status == ct::SCT_STATUS_OK &&
|
|
scts[0].sct->log_description == log_description);
|
|
}
|
|
|
|
bool CheckForSCTOrigin(const SignedCertificateTimestampAndStatusList& scts,
|
|
ct::SignedCertificateTimestamp::Origin origin) {
|
|
for (const auto& sct_and_status : scts)
|
|
if (sct_and_status.status == SCT_STATUS_OK &&
|
|
sct_and_status.sct->origin == origin)
|
|
return true;
|
|
|
|
return false;
|
|
}
|
|
|
|
} // namespace ct
|
|
|
|
} // namespace net
|