mirror of
https://github.com/klzgrad/naiveproxy.git
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384 lines
15 KiB
C++
384 lines
15 KiB
C++
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// Copyright 2017 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/ntlm/ntlm_client.h"
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#include <string.h>
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#include "base/logging.h"
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#include "base/md5.h"
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#include "base/strings/utf_string_conversions.h"
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#include "net/ntlm/ntlm.h"
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#include "net/ntlm/ntlm_buffer_reader.h"
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#include "net/ntlm/ntlm_buffer_writer.h"
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namespace net {
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namespace ntlm {
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namespace {
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// Parses the challenge message and returns the |challenge_flags| and
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// |server_challenge| into the supplied buffer.
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// |server_challenge| must contain at least 8 bytes.
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bool ParseChallengeMessage(const Buffer& challenge_message,
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NegotiateFlags* challenge_flags,
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uint8_t* server_challenge) {
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NtlmBufferReader challenge_reader(challenge_message);
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return challenge_reader.MatchMessageHeader(MessageType::kChallenge) &&
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challenge_reader.SkipSecurityBufferWithValidation() &&
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challenge_reader.ReadFlags(challenge_flags) &&
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challenge_reader.ReadBytes(server_challenge, kChallengeLen);
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}
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// Parses the challenge message and extracts the information necessary to
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// make an NTLMv2 response.
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// |server_challenge| must contain at least 8 bytes.
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bool ParseChallengeMessageV2(const Buffer& challenge_message,
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NegotiateFlags* challenge_flags,
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uint8_t* server_challenge,
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std::vector<AvPair>* av_pairs) {
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NtlmBufferReader challenge_reader(challenge_message);
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return challenge_reader.MatchMessageHeader(MessageType::kChallenge) &&
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challenge_reader.SkipSecurityBufferWithValidation() &&
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challenge_reader.ReadFlags(challenge_flags) &&
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challenge_reader.ReadBytes(server_challenge, kChallengeLen) &&
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challenge_reader.SkipBytes(8) &&
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// challenge_reader.ReadTargetInfoPayload(av_pairs);
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(((*challenge_flags & NegotiateFlags::kTargetInfo) ==
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NegotiateFlags::kTargetInfo)
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? challenge_reader.ReadTargetInfoPayload(av_pairs)
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: true);
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}
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bool WriteAuthenticateMessage(NtlmBufferWriter* authenticate_writer,
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SecurityBuffer lm_payload,
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SecurityBuffer ntlm_payload,
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SecurityBuffer domain_payload,
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SecurityBuffer username_payload,
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SecurityBuffer hostname_payload,
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SecurityBuffer session_key_payload,
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NegotiateFlags authenticate_flags) {
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return authenticate_writer->WriteMessageHeader(MessageType::kAuthenticate) &&
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authenticate_writer->WriteSecurityBuffer(lm_payload) &&
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authenticate_writer->WriteSecurityBuffer(ntlm_payload) &&
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authenticate_writer->WriteSecurityBuffer(domain_payload) &&
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authenticate_writer->WriteSecurityBuffer(username_payload) &&
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authenticate_writer->WriteSecurityBuffer(hostname_payload) &&
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authenticate_writer->WriteSecurityBuffer(session_key_payload) &&
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authenticate_writer->WriteFlags(authenticate_flags);
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}
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// Writes the NTLMv1 LM Response and NTLM Response.
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// |lm_response| must contain |kResponseLenV1| bytes.
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// |ntlm_response| must contain |kResponseLenV1| bytes.
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bool WriteResponsePayloads(NtlmBufferWriter* authenticate_writer,
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const uint8_t* lm_response,
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const uint8_t* ntlm_response) {
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return authenticate_writer->WriteBytes(lm_response, kResponseLenV1) &&
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authenticate_writer->WriteBytes(ntlm_response, kResponseLenV1);
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}
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// Writes the |lm_response| and writes the NTLMv2 response by concatenating
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// |v2_proof|, |v2_proof_input|, |updated_target_info| and 4 zero bytes.
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//
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// |lm_response| must contain |kResponseLenV1| bytes.
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// |v2_proof| must contain |kNtlmProofLenV2| bytes.
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bool WriteResponsePayloadsV2(NtlmBufferWriter* authenticate_writer,
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const uint8_t* lm_response,
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const uint8_t* v2_proof,
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const Buffer& v2_proof_input,
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const Buffer& updated_target_info) {
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return authenticate_writer->WriteBytes(lm_response, kResponseLenV1) &&
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authenticate_writer->WriteBytes(v2_proof, kNtlmProofLenV2) &&
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authenticate_writer->WriteBytes(v2_proof_input) &&
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authenticate_writer->WriteBytes(updated_target_info) &&
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authenticate_writer->WriteUInt32(0);
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}
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bool WriteStringPayloads(NtlmBufferWriter* authenticate_writer,
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bool is_unicode,
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const base::string16& domain,
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const base::string16& username,
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const std::string& hostname) {
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if (is_unicode) {
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return authenticate_writer->WriteUtf16String(domain) &&
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authenticate_writer->WriteUtf16String(username) &&
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authenticate_writer->WriteUtf8AsUtf16String(hostname);
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} else {
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return authenticate_writer->WriteUtf16AsUtf8String(domain) &&
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authenticate_writer->WriteUtf16AsUtf8String(username) &&
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authenticate_writer->WriteUtf8String(hostname);
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}
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}
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// Returns the size in bytes of a string16 depending whether unicode
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// was negotiated.
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size_t GetStringPayloadLength(const base::string16& str, bool is_unicode) {
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if (is_unicode)
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return str.length() * 2;
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// When |WriteUtf16AsUtf8String| is called with a |base::string16|, the string
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// is converted to UTF8. Do the conversion to ensure that the character
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// count is correct.
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return base::UTF16ToUTF8(str).length();
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}
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// Returns the size in bytes of a std::string depending whether unicode
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// was negotiated.
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size_t GetStringPayloadLength(const std::string& str, bool is_unicode) {
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if (!is_unicode)
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return str.length();
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return base::UTF8ToUTF16(str).length() * 2;
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}
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} // namespace
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NtlmClient::NtlmClient(NtlmFeatures features)
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: features_(features), negotiate_flags_(kNegotiateMessageFlags) {
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// Just generate the negotiate message once and hold on to it. It never
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// changes and in NTLMv2 it's used as an input to the Message Integrity
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// Check (MIC) in the Authenticate message.
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GenerateNegotiateMessage();
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}
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NtlmClient::~NtlmClient() {}
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Buffer NtlmClient::GetNegotiateMessage() const {
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return negotiate_message_;
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}
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void NtlmClient::GenerateNegotiateMessage() {
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NtlmBufferWriter writer(kNegotiateMessageLen);
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bool result =
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writer.WriteMessageHeader(MessageType::kNegotiate) &&
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writer.WriteFlags(negotiate_flags_) &&
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writer.WriteSecurityBuffer(SecurityBuffer(kNegotiateMessageLen, 0)) &&
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writer.WriteSecurityBuffer(SecurityBuffer(kNegotiateMessageLen, 0)) &&
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writer.IsEndOfBuffer();
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DCHECK(result);
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negotiate_message_ = writer.Pass();
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}
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Buffer NtlmClient::GenerateAuthenticateMessage(
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const base::string16& domain,
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const base::string16& username,
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const base::string16& password,
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const std::string& hostname,
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const std::string& channel_bindings,
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const std::string& spn,
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uint64_t client_time,
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const uint8_t* client_challenge,
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const Buffer& server_challenge_message) const {
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// Limit the size of strings that are accepted. As an absolute limit any
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// field represented by a |SecurityBuffer| or |AvPair| must be less than
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// UINT16_MAX bytes long. The strings are restricted to the maximum sizes
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// without regard to encoding. As such this isn't intended to restrict all
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// invalid inputs, only to allow all possible valid inputs.
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//
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// |domain| and |hostname| can be no longer than 255 characters.
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// |username| can be no longer than 104 characters. See [1].
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// |password| can be no longer than 256 characters. See [2].
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//
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// [1] - https://technet.microsoft.com/en-us/library/bb726984.aspx
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// [2] - https://technet.microsoft.com/en-us/library/cc512606.aspx
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if (hostname.length() > kMaxFqdnLen || domain.length() > kMaxFqdnLen ||
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username.length() > kMaxUsernameLen ||
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password.length() > kMaxPasswordLen)
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return Buffer();
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NegotiateFlags challenge_flags;
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uint8_t server_challenge[kChallengeLen];
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uint8_t lm_response[kResponseLenV1];
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uint8_t ntlm_response[kResponseLenV1];
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// Response fields only for NTLMv2
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Buffer updated_target_info;
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Buffer v2_proof_input;
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uint8_t v2_proof[kNtlmProofLenV2];
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uint8_t v2_session_key[kSessionKeyLenV2];
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if (IsNtlmV2()) {
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std::vector<AvPair> av_pairs;
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if (!ParseChallengeMessageV2(server_challenge_message, &challenge_flags,
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server_challenge, &av_pairs)) {
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return Buffer();
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}
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uint64_t timestamp;
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updated_target_info =
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GenerateUpdatedTargetInfo(IsMicEnabled(), IsEpaEnabled(),
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channel_bindings, spn, av_pairs, ×tamp);
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memset(lm_response, 0, kResponseLenV1);
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if (timestamp == UINT64_MAX) {
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// If the server didn't send a time, then use the clients time.
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timestamp = client_time;
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}
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uint8_t v2_hash[kNtlmHashLen];
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GenerateNtlmHashV2(domain, username, password, v2_hash);
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v2_proof_input = GenerateProofInputV2(timestamp, client_challenge);
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GenerateNtlmProofV2(v2_hash, server_challenge, v2_proof_input,
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updated_target_info, v2_proof);
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GenerateSessionBaseKeyV2(v2_hash, v2_proof, v2_session_key);
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} else {
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if (!ParseChallengeMessage(server_challenge_message, &challenge_flags,
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server_challenge)) {
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return Buffer();
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}
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// Calculate the responses for the authenticate message.
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GenerateResponsesV1WithSessionSecurity(password, server_challenge,
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client_challenge, lm_response,
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ntlm_response);
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}
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// Always use extended session security even if the server tries to downgrade.
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NegotiateFlags authenticate_flags = (challenge_flags & negotiate_flags_) |
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NegotiateFlags::kExtendedSessionSecurity;
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// Calculate all the payload lengths and offsets.
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bool is_unicode = (authenticate_flags & NegotiateFlags::kUnicode) ==
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NegotiateFlags::kUnicode;
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SecurityBuffer lm_info;
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SecurityBuffer ntlm_info;
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SecurityBuffer domain_info;
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SecurityBuffer username_info;
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SecurityBuffer hostname_info;
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SecurityBuffer session_key_info;
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size_t authenticate_message_len;
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CalculatePayloadLayout(is_unicode, domain, username, hostname,
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updated_target_info.size(), &lm_info, &ntlm_info,
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&domain_info, &username_info, &hostname_info,
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&session_key_info, &authenticate_message_len);
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NtlmBufferWriter authenticate_writer(authenticate_message_len);
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bool writer_result = WriteAuthenticateMessage(
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&authenticate_writer, lm_info, ntlm_info, domain_info, username_info,
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hostname_info, session_key_info, authenticate_flags);
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DCHECK(writer_result);
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if (IsNtlmV2()) {
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// Write the optional (for V1) Version and MIC fields. Note that they
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// could also safely be sent in V1. However, the server should never try to
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// read them, because neither the version negotiate flag nor the
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// |TargetInfoAvFlags::kMicPresent| in the target info are set.
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//
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// Version is never supported so it is filled with zeros. MIC is a hash
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// calculated over all 3 messages while the MIC is set to zeros then
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// backfilled at the end if the MIC feature is enabled.
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writer_result = authenticate_writer.WriteZeros(kVersionFieldLen) &&
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authenticate_writer.WriteZeros(kMicLenV2);
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DCHECK(writer_result);
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}
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// Verify the location in the payload buffer.
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DCHECK(authenticate_writer.GetCursor() == GetAuthenticateHeaderLength());
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DCHECK(GetAuthenticateHeaderLength() == lm_info.offset);
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if (IsNtlmV2()) {
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// Write the response payloads for V2.
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writer_result =
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WriteResponsePayloadsV2(&authenticate_writer, lm_response, v2_proof,
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v2_proof_input, updated_target_info);
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} else {
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// Write the response payloads.
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DCHECK_EQ(kResponseLenV1, lm_info.length);
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DCHECK_EQ(kResponseLenV1, ntlm_info.length);
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writer_result =
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WriteResponsePayloads(&authenticate_writer, lm_response, ntlm_response);
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}
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DCHECK(writer_result);
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DCHECK_EQ(authenticate_writer.GetCursor(), domain_info.offset);
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writer_result = WriteStringPayloads(&authenticate_writer, is_unicode, domain,
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username, hostname);
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DCHECK(writer_result);
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DCHECK(authenticate_writer.IsEndOfBuffer());
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DCHECK_EQ(authenticate_message_len, authenticate_writer.GetLength());
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Buffer auth_msg = authenticate_writer.Pass();
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// Backfill the MIC if enabled.
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if (IsMicEnabled()) {
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// The MIC has to be generated over all 3 completed messages with the MIC
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// set to zeros.
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DCHECK_LT(kMicOffsetV2 + kMicLenV2, authenticate_message_len);
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uint8_t* mic_ptr = reinterpret_cast<uint8_t*>(&auth_msg[kMicOffsetV2]);
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GenerateMicV2(v2_session_key, negotiate_message_, server_challenge_message,
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auth_msg, mic_ptr);
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}
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return auth_msg;
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}
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void NtlmClient::CalculatePayloadLayout(
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bool is_unicode,
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const base::string16& domain,
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const base::string16& username,
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const std::string& hostname,
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size_t updated_target_info_len,
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SecurityBuffer* lm_info,
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SecurityBuffer* ntlm_info,
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SecurityBuffer* domain_info,
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SecurityBuffer* username_info,
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SecurityBuffer* hostname_info,
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SecurityBuffer* session_key_info,
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size_t* authenticate_message_len) const {
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size_t upto = GetAuthenticateHeaderLength();
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session_key_info->offset = upto;
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session_key_info->length = 0;
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upto += session_key_info->length;
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lm_info->offset = upto;
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lm_info->length = kResponseLenV1;
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upto += lm_info->length;
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ntlm_info->offset = upto;
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ntlm_info->length = GetNtlmResponseLength(updated_target_info_len);
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upto += ntlm_info->length;
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domain_info->offset = upto;
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domain_info->length = GetStringPayloadLength(domain, is_unicode);
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upto += domain_info->length;
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username_info->offset = upto;
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username_info->length = GetStringPayloadLength(username, is_unicode);
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upto += username_info->length;
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hostname_info->offset = upto;
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hostname_info->length = GetStringPayloadLength(hostname, is_unicode);
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upto += hostname_info->length;
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*authenticate_message_len = upto;
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}
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size_t NtlmClient::GetAuthenticateHeaderLength() const {
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if (IsNtlmV2()) {
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return kAuthenticateHeaderLenV2;
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}
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return kAuthenticateHeaderLenV1;
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}
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size_t NtlmClient::GetNtlmResponseLength(size_t updated_target_info_len) const {
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if (IsNtlmV2()) {
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return kNtlmResponseHeaderLenV2 + updated_target_info_len + 4;
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}
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return kResponseLenV1;
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}
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} // namespace ntlm
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} // namespace net
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