// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/cert/ct_log_response_parser.h" #include #include "base/base64.h" #include "base/json/json_value_converter.h" #include "base/logging.h" #include "base/strings/string_piece.h" #include "base/time/time.h" #include "base/values.h" #include "net/cert/ct_serialization.h" #include "net/cert/signed_tree_head.h" namespace net { namespace ct { namespace { // Structure for making JSON decoding easier. The string fields // are base64-encoded so will require further decoding. struct JsonSignedTreeHead { int tree_size; double timestamp; std::string sha256_root_hash; DigitallySigned signature; static void RegisterJSONConverter( base::JSONValueConverter* converted); }; bool ConvertSHA256RootHash(base::StringPiece s, std::string* result) { if (!base::Base64Decode(s, result)) { DVLOG(1) << "Failed decoding sha256_root_hash"; return false; } if (result->length() != kSthRootHashLength) { DVLOG(1) << "sha256_root_hash is expected to be 32 bytes, but is " << result->length() << " bytes."; return false; } return true; } bool ConvertTreeHeadSignature(base::StringPiece s, DigitallySigned* result) { std::string tree_head_signature; if (!base::Base64Decode(s, &tree_head_signature)) { DVLOG(1) << "Failed decoding tree_head_signature"; return false; } base::StringPiece sp(tree_head_signature); if (!DecodeDigitallySigned(&sp, result)) { DVLOG(1) << "Failed decoding signature to DigitallySigned"; return false; } return true; } void JsonSignedTreeHead::RegisterJSONConverter( base::JSONValueConverter* converter) { converter->RegisterIntField("tree_size", &JsonSignedTreeHead::tree_size); converter->RegisterDoubleField("timestamp", &JsonSignedTreeHead::timestamp); converter->RegisterCustomField("sha256_root_hash", &JsonSignedTreeHead::sha256_root_hash, &ConvertSHA256RootHash); converter->RegisterCustomField( "tree_head_signature", &JsonSignedTreeHead::signature, &ConvertTreeHeadSignature); } bool IsJsonSTHStructurallyValid(const JsonSignedTreeHead& sth) { if (sth.tree_size < 0) { DVLOG(1) << "Tree size in Signed Tree Head JSON is negative: " << sth.tree_size; return false; } if (sth.timestamp < 0) { DVLOG(1) << "Timestamp in Signed Tree Head JSON is negative: " << sth.timestamp; return false; } if (sth.sha256_root_hash.empty()) { DVLOG(1) << "Missing SHA256 root hash from Signed Tree Head JSON."; return false; } if (sth.signature.signature_data.empty()) { DVLOG(1) << "Missing signature from Signed Tree Head JSON."; return false; } return true; } // Structure for making JSON decoding easier. The string fields // are base64-encoded so will require further decoding. struct JsonConsistencyProof { std::vector> proof_nodes; static void RegisterJSONConverter( base::JSONValueConverter* converter); }; bool ConvertIndividualProofNode(const base::Value* value, std::string* result) { std::string b64_encoded_node; if (!value->GetAsString(&b64_encoded_node)) return false; if (!ConvertSHA256RootHash(b64_encoded_node, result)) return false; return true; } void JsonConsistencyProof::RegisterJSONConverter( base::JSONValueConverter* converter) { converter->RegisterRepeatedCustomValue( "consistency", &JsonConsistencyProof::proof_nodes, &ConvertIndividualProofNode); } } // namespace bool FillSignedTreeHead(const base::Value& json_signed_tree_head, SignedTreeHead* signed_tree_head) { JsonSignedTreeHead parsed_sth; base::JSONValueConverter converter; if (!converter.Convert(json_signed_tree_head, &parsed_sth)) { DVLOG(1) << "Invalid Signed Tree Head JSON."; return false; } if (!IsJsonSTHStructurallyValid(parsed_sth)) return false; signed_tree_head->version = SignedTreeHead::V1; signed_tree_head->tree_size = parsed_sth.tree_size; signed_tree_head->timestamp = base::Time::FromJsTime(parsed_sth.timestamp); signed_tree_head->signature = parsed_sth.signature; memcpy(signed_tree_head->sha256_root_hash, parsed_sth.sha256_root_hash.c_str(), kSthRootHashLength); return true; } bool FillConsistencyProof(const base::Value& json_consistency_proof, std::vector* consistency_proof) { JsonConsistencyProof parsed_proof; base::JSONValueConverter converter; if (!converter.Convert(json_consistency_proof, &parsed_proof)) { DVLOG(1) << "Invalid consistency proof."; return false; } const base::DictionaryValue* dict_value = NULL; if (!json_consistency_proof.GetAsDictionary(&dict_value) || !dict_value->HasKey("consistency")) { DVLOG(1) << "Missing consistency field."; return false; } consistency_proof->reserve(parsed_proof.proof_nodes.size()); for (const auto& proof_node : parsed_proof.proof_nodes) { consistency_proof->push_back(*proof_node); } return true; } } // namespace ct } // namespace net