net/http/http_auth_handler_ntlm.cc - Issue 159656: Include SSPI support for NTLM authentication.

Unified Diff: net/http/http_auth_handler_ntlm.cc

Issue 159656: Include SSPI support for NTLM authentication. (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src/

Patch Set: files moved Created 11 years, 4 months ago

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Index: net/http/http_auth_handler_ntlm.cc

===================================================================

--- net/http/http_auth_handler_ntlm.cc (revision 22897)

+++ net/http/http_auth_handler_ntlm.cc (working copy)

@@ -4,656 +4,14 @@

#include "net/http/http_auth_handler_ntlm.h"

-#include <stdlib.h>

-// For gethostname

-#if defined(OS_POSIX)

-#include <unistd.h>

-#elif defined(OS_WIN)

-#include <winsock2.h>

-#endif

-#include "base/md5.h"

-#include "base/rand_util.h"

#include "base/string_util.h"

#include "base/sys_string_conversions.h"

#include "net/base/base64.h"

#include "net/base/net_errors.h"

#include "net/base/net_util.h"

-#include "net/http/des.h"

-#include "net/http/md4.h"

-namespace net {

+namespace net{

-// Based on mozilla/security/manager/ssl/src/nsNTLMAuthModule.cpp,

-// CVS rev. 1.14.

-//

-// TODO(wtc):

-// - The IS_BIG_ENDIAN code is not tested.

-// - Enable the logging code or just delete it.

-// - Delete or comment out the LM code, which hasn't been tested and isn't

-// being used.

-/* ***** BEGIN LICENSE BLOCK *****

- * Version: MPL 1.1/GPL 2.0/LGPL 2.1

- *

- * The contents of this file are subject to the Mozilla Public License Version

- * 1.1 (the "License"); you may not use this file except in compliance with

- * the License. You may obtain a copy of the License at

- * http://www.mozilla.org/MPL/

- *

- * Software distributed under the License is distributed on an "AS IS" basis,

- * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License

- * for the specific language governing rights and limitations under the

- * License.

- *

- * The Original Code is Mozilla.

- *

- * The Initial Developer of the Original Code is IBM Corporation.

- *

- * Contributor(s):

- * Darin Fisher <darin@meer.net>

- *

- * Alternatively, the contents of this file may be used under the terms of

- * either the GNU General Public License Version 2 or later (the "GPL"), or

- * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),

- * in which case the provisions of the GPL or the LGPL are applicable instead

- * of those above. If you wish to allow use of your version of this file only

- * under the terms of either the GPL or the LGPL, and not to allow others to

- * use your version of this file under the terms of the MPL, indicate your

- * decision by deleting the provisions above and replace them with the notice

- * and other provisions required by the GPL or the LGPL. If you do not delete

- * the provisions above, a recipient may use your version of this file under

- * the terms of any one of the MPL, the GPL or the LGPL.

- *

- * ***** END LICENSE BLOCK ***** */

-// Discover the endianness by testing processor architecture.

-#if defined(ARCH_CPU_X86) || defined(ARCH_CPU_X86_64) || defined(ARCH_CPU_ARMEL)

-#define IS_LITTLE_ENDIAN 1

-#undef IS_BIG_ENDIAN

-#else

-#error "Unknown endianness"

-#endif

-#define NTLM_LOG(x) ((void) 0)

-//-----------------------------------------------------------------------------

-// This file contains a cross-platform NTLM authentication implementation. It

-// is based on documentation from: http://davenport.sourceforge.net/ntlm.html

-//-----------------------------------------------------------------------------

-enum {

- NTLM_NegotiateUnicode = 0x00000001,

- NTLM_NegotiateOEM = 0x00000002,

- NTLM_RequestTarget = 0x00000004,

- NTLM_Unknown1 = 0x00000008,

- NTLM_NegotiateSign = 0x00000010,

- NTLM_NegotiateSeal = 0x00000020,

- NTLM_NegotiateDatagramStyle = 0x00000040,

- NTLM_NegotiateLanManagerKey = 0x00000080,

- NTLM_NegotiateNetware = 0x00000100,

- NTLM_NegotiateNTLMKey = 0x00000200,

- NTLM_Unknown2 = 0x00000400,

- NTLM_Unknown3 = 0x00000800,

- NTLM_NegotiateDomainSupplied = 0x00001000,

- NTLM_NegotiateWorkstationSupplied = 0x00002000,

- NTLM_NegotiateLocalCall = 0x00004000,

- NTLM_NegotiateAlwaysSign = 0x00008000,

- NTLM_TargetTypeDomain = 0x00010000,

- NTLM_TargetTypeServer = 0x00020000,

- NTLM_TargetTypeShare = 0x00040000,

- NTLM_NegotiateNTLM2Key = 0x00080000,

- NTLM_RequestInitResponse = 0x00100000,

- NTLM_RequestAcceptResponse = 0x00200000,

- NTLM_RequestNonNTSessionKey = 0x00400000,

- NTLM_NegotiateTargetInfo = 0x00800000,

- NTLM_Unknown4 = 0x01000000,

- NTLM_Unknown5 = 0x02000000,

- NTLM_Unknown6 = 0x04000000,

- NTLM_Unknown7 = 0x08000000,

- NTLM_Unknown8 = 0x10000000,

- NTLM_Negotiate128 = 0x20000000,

- NTLM_NegotiateKeyExchange = 0x40000000,

- NTLM_Negotiate56 = 0x80000000

-};

-// We send these flags with our type 1 message.

-enum {

- NTLM_TYPE1_FLAGS =

- NTLM_NegotiateUnicode |

- NTLM_NegotiateOEM |

- NTLM_RequestTarget |

- NTLM_NegotiateNTLMKey |

- NTLM_NegotiateAlwaysSign |

- NTLM_NegotiateNTLM2Key

-};

-static const char NTLM_SIGNATURE[] = "NTLMSSP";

-static const char NTLM_TYPE1_MARKER[] = { 0x01, 0x00, 0x00, 0x00 };

-static const char NTLM_TYPE2_MARKER[] = { 0x02, 0x00, 0x00, 0x00 };

-static const char NTLM_TYPE3_MARKER[] = { 0x03, 0x00, 0x00, 0x00 };

-enum {

- NTLM_TYPE1_HEADER_LEN = 32,

- NTLM_TYPE2_HEADER_LEN = 32,

- NTLM_TYPE3_HEADER_LEN = 64,

- LM_HASH_LEN = 16,

- LM_RESP_LEN = 24,

- NTLM_HASH_LEN = 16,

- NTLM_RESP_LEN = 24

-};

-//-----------------------------------------------------------------------------

-// The return value of this function controls whether or not the LM hash will

-// be included in response to a NTLM challenge.

-//

-// In Mozilla, this function returns the value of the boolean preference

-// "network.ntlm.send-lm-response". By default, the preference is disabled

-// since servers should almost never need the LM hash, and the LM hash is what

-// makes NTLM authentication less secure. See

-// https://bugzilla.mozilla.org/show_bug.cgi?id=250691 for further details.

-//

-// We just return a hardcoded false.

-static bool SendLM() {

- return false;

-//-----------------------------------------------------------------------------

-#define LogFlags(x) ((void) 0)

-#define LogBuf(a, b, c) ((void) 0)

-#define LogToken(a, b, c) ((void) 0)

-//-----------------------------------------------------------------------------

-// Byte order swapping.

-#define SWAP16(x) ((((x) & 0xff) << 8) | (((x) >> 8) & 0xff))

-#define SWAP32(x) ((SWAP16((x) & 0xffff) << 16) | (SWAP16((x) >> 16)))

-static void* WriteBytes(void* buf, const void* data, uint32 data_len) {

- memcpy(buf, data, data_len);

- return static_cast<char*>(buf) + data_len;

-static void* WriteDWORD(void* buf, uint32 dword) {

-#ifdef IS_BIG_ENDIAN

- // NTLM uses little endian on the wire.

- dword = SWAP32(dword);

-#endif

- return WriteBytes(buf, &dword, sizeof(dword));

-static void* WriteSecBuf(void* buf, uint16 length, uint32 offset) {

-#ifdef IS_BIG_ENDIAN

- length = SWAP16(length);

- offset = SWAP32(offset);

-#endif

- buf = WriteBytes(buf, &length, sizeof(length));

- buf = WriteBytes(buf, &offset, sizeof(offset));

- return buf;

-#ifdef IS_BIG_ENDIAN

-/**

- * WriteUnicodeLE copies a unicode string from one buffer to another. The

- * resulting unicode string is in little-endian format. The input string is

- * assumed to be in the native endianness of the local machine. It is safe

- * to pass the same buffer as both input and output, which is a handy way to

- * convert the unicode buffer to little-endian on big-endian platforms.

- */

-static void* WriteUnicodeLE(void* buf, const char16* str, uint32 str_len) {

- // Convert input string from BE to LE.

- uint8* cursor = static_cast<uint8*>(buf);

- const uint8* input = reinterpret_cast<const uint8*>(str);

- for (uint32 i = 0; i < str_len; ++i, input += 2, cursor += 2) {

- // Allow for the case where |buf == str|.

- uint8 temp = input[0];

- cursor[0] = input[1];

- cursor[1] = temp;

- }

- return buf;

-#endif

-static uint16 ReadUint16(const uint8*& buf) {

- uint16 x = (static_cast<uint16>(buf[0])) |

- (static_cast<uint16>(buf[1]) << 8);

- buf += sizeof(x);

- return x;

-static uint32 ReadUint32(const uint8*& buf) {

- uint32 x = (static_cast<uint32>(buf[0])) |

- (static_cast<uint32>(buf[1]) << 8) |

- (static_cast<uint32>(buf[2]) << 16) |

- (static_cast<uint32>(buf[3]) << 24);

- buf += sizeof(x);

- return x;

-//-----------------------------------------------------------------------------

-static void ZapBuf(void* buf, size_t buf_len) {

- memset(buf, 0, buf_len);

-// TODO(wtc): Can we implement ZapString as

-// s.replace(0, s.size(), s.size(), '\0)?

-static void ZapString(std::string* s) {

- ZapBuf(&(*s)[0], s->length());

-static void ZapString(string16* s) {

- ZapBuf(&(*s)[0], s->length() * 2);

-// LM_Hash computes the LM hash of the given password.

-//

-// param password

-// unicode password.

-// param hash

-// 16-byte result buffer

-//

-// Note: This function is not being used because our SendLM() function always

-// returns false.

-static void LM_Hash(const string16& password, uint8* hash) {

- static const uint8 LM_MAGIC[] = "KGS!@#$%";

- // Convert password to OEM character set. We'll just use the native

- // filesystem charset.

- std::string passbuf = base::SysWideToNativeMB(UTF16ToWide(password));

- StringToUpperASCII(&passbuf);

- passbuf.resize(14, '\0');

- uint8 k1[8], k2[8];

- DESMakeKey(reinterpret_cast<const uint8*>(passbuf.data()) , k1);

- DESMakeKey(reinterpret_cast<const uint8*>(passbuf.data()) + 7, k2);

- ZapString(&passbuf);

- // Use password keys to hash LM magic string twice.

- DESEncrypt(k1, LM_MAGIC, hash);

- DESEncrypt(k2, LM_MAGIC, hash + 8);

-// NTLM_Hash computes the NTLM hash of the given password.

-//

-// param password

-// null-terminated unicode password.

-// param hash

-// 16-byte result buffer

-static void NTLM_Hash(const string16& password, uint8* hash) {

-#ifdef IS_BIG_ENDIAN

- uint32 len = password.length();

- uint8* passbuf;

- passbuf = static_cast<uint8*>(malloc(len * 2));

- WriteUnicodeLE(passbuf, password.data(), len);

- weak_crypto::MD4Sum(passbuf, len * 2, hash);

- ZapBuf(passbuf, len * 2);

- free(passbuf);

-#else

- weak_crypto::MD4Sum(reinterpret_cast<const uint8*>(password.data()),

- password.length() * 2, hash);

-#endif

-//-----------------------------------------------------------------------------

-// LM_Response generates the LM response given a 16-byte password hash and the

-// challenge from the Type-2 message.

-//

-// param hash

-// 16-byte password hash

-// param challenge

-// 8-byte challenge from Type-2 message

-// param response

-// 24-byte buffer to contain the LM response upon return

-static void LM_Response(const uint8* hash,

- const uint8* challenge,

- uint8* response) {

- uint8 keybytes[21], k1[8], k2[8], k3[8];

- memcpy(keybytes, hash, 16);

- ZapBuf(keybytes + 16, 5);

- DESMakeKey(keybytes , k1);

- DESMakeKey(keybytes + 7, k2);

- DESMakeKey(keybytes + 14, k3);

- DESEncrypt(k1, challenge, response);

- DESEncrypt(k2, challenge, response + 8);

- DESEncrypt(k3, challenge, response + 16);

-//-----------------------------------------------------------------------------

-// Returns OK or a network error code.

-static int GenerateType1Msg(void** out_buf, uint32* out_len) {

- //

- // Verify that buf_len is sufficient.

- //

- *out_len = NTLM_TYPE1_HEADER_LEN;

- *out_buf = malloc(*out_len);

- if (!*out_buf)

- return ERR_OUT_OF_MEMORY;

- //

- // Write out type 1 message.

- //

- void* cursor = *out_buf;

- // 0 : signature

- cursor = WriteBytes(cursor, NTLM_SIGNATURE, sizeof(NTLM_SIGNATURE));

- // 8 : marker

- cursor = WriteBytes(cursor, NTLM_TYPE1_MARKER, sizeof(NTLM_TYPE1_MARKER));

- // 12 : flags

- cursor = WriteDWORD(cursor, NTLM_TYPE1_FLAGS);

- //

- // NOTE: It is common for the domain and workstation fields to be empty.

- // This is true of Win2k clients, and my guess is that there is

- // little utility to sending these strings before the charset has

- // been negotiated. We follow suite -- anyways, it doesn't hurt

- // to save some bytes on the wire ;-)

- //

- // 16 : supplied domain security buffer (empty)

- cursor = WriteSecBuf(cursor, 0, 0);

- // 24 : supplied workstation security buffer (empty)

- cursor = WriteSecBuf(cursor, 0, 0);

- return OK;

-struct Type2Msg {

- uint32 flags; // NTLM_Xxx bitwise combination

- uint8 challenge[8]; // 8 byte challenge

- const void* target; // target string (type depends on flags)

- uint32 target_len; // target length in bytes

-};

-// Returns OK or a network error code.

-// TODO(wtc): This function returns ERR_UNEXPECTED when the input message is

-// invalid. We should return a better error code.

-static int ParseType2Msg(const void* in_buf, uint32 in_len, Type2Msg* msg) {

- // Make sure in_buf is long enough to contain a meaningful type2 msg.

- //

- // 0 NTLMSSP Signature

- // 8 NTLM Message Type

- // 12 Target Name

- // 20 Flags

- // 24 Challenge

- // 32 end of header, start of optional data blocks

- //

- if (in_len < NTLM_TYPE2_HEADER_LEN)

- return ERR_UNEXPECTED;

- const uint8* cursor = (const uint8*) in_buf;

- // verify NTLMSSP signature

- if (memcmp(cursor, NTLM_SIGNATURE, sizeof(NTLM_SIGNATURE)) != 0)

- return ERR_UNEXPECTED;

- cursor += sizeof(NTLM_SIGNATURE);

- // verify Type-2 marker

- if (memcmp(cursor, NTLM_TYPE2_MARKER, sizeof(NTLM_TYPE2_MARKER)) != 0)

- return ERR_UNEXPECTED;

- cursor += sizeof(NTLM_TYPE2_MARKER);

- // read target name security buffer

- uint32 target_len = ReadUint16(cursor);

- ReadUint16(cursor); // discard next 16-bit value

- uint32 offset = ReadUint32(cursor); // get offset from in_buf

- msg->target_len = 0;

- msg->target = NULL;

- // Check the offset / length combo is in range of the input buffer, including

- // integer overflow checking.

- if (offset + target_len > offset && offset + target_len <= in_len) {

- msg->target_len = target_len;

- msg->target = ((const uint8*) in_buf) + offset;

- }

- // read flags

- msg->flags = ReadUint32(cursor);

- // read challenge

- memcpy(msg->challenge, cursor, sizeof(msg->challenge));

- cursor += sizeof(msg->challenge);

- NTLM_LOG(("NTLM type 2 message:\n"));

- LogBuf("target", (const uint8*) msg->target, msg->target_len);

- LogBuf("flags", (const uint8*) &msg->flags, 4);

- LogFlags(msg->flags);

- LogBuf("challenge", msg->challenge, sizeof(msg->challenge));

- // We currently do not implement LMv2/NTLMv2 or NTLM2 responses,

- // so we can ignore target information. We may want to enable

- // support for these alternate mechanisms in the future.

- return OK;

-static void GenerateRandom(uint8* output, size_t n) {

- for (size_t i = 0; i < n; ++i)

- output[i] = base::RandInt(0, 255);

-// Returns OK or a network error code.

-static int GenerateType3Msg(const string16& domain,

- const string16& username,

- const string16& password,

- const std::string& hostname,

- const void* rand_8_bytes,

- const void* in_buf,

- uint32 in_len,

- void** out_buf,

- uint32* out_len) {

- // in_buf contains Type-2 msg (the challenge) from server.

- int rv;

- Type2Msg msg;

- rv = ParseType2Msg(in_buf, in_len, &msg);

- if (rv != OK)

- return rv;

- bool unicode = (msg.flags & NTLM_NegotiateUnicode) != 0;

- // Temporary buffers for unicode strings

-#ifdef IS_BIG_ENDIAN

- string16 ucs_domain_buf, ucs_user_buf;

-#endif

- string16 ucs_host_buf;

- // Temporary buffers for oem strings

- std::string oem_domain_buf, oem_user_buf;

- // Pointers and lengths for the string buffers; encoding is unicode if

- // the "negotiate unicode" flag was set in the Type-2 message.

- const void* domain_ptr;

- const void* user_ptr;

- const void* host_ptr;

- uint32 domain_len, user_len, host_len;

- //

- // Get domain name.

- //

- if (unicode) {

-#ifdef IS_BIG_ENDIAN

- ucs_domain_buf = domain;

- domain_ptr = ucs_domain_buf.data();

- domain_len = ucs_domain_buf.length() * 2;

- WriteUnicodeLE(const_cast<void*>(domain_ptr), (const char16*) domain_ptr,

- ucs_domain_buf.length());

-#else

- domain_ptr = domain.data();

- domain_len = domain.length() * 2;

-#endif

- } else {

- oem_domain_buf = base::SysWideToNativeMB(UTF16ToWide(domain));

- domain_ptr = oem_domain_buf.data();

- domain_len = oem_domain_buf.length();

- }

- //

- // Get user name.

- //

- if (unicode) {

-#ifdef IS_BIG_ENDIAN

- ucs_user_buf = username;

- user_ptr = ucs_user_buf.data();

- user_len = ucs_user_buf.length() * 2;

- WriteUnicodeLE(const_cast<void*>(user_ptr), (const char16*) user_ptr,

- ucs_user_buf.length());

-#else

- user_ptr = username.data();

- user_len = username.length() * 2;

-#endif

- } else {

- oem_user_buf = base::SysWideToNativeMB(UTF16ToWide(username));

- user_ptr = oem_user_buf.data();

- user_len = oem_user_buf.length();

- }

- //

- // Get workstation name (use local machine's hostname).

- //

- if (unicode) {

- // hostname is ASCII, so we can do a simple zero-pad expansion:

- ucs_host_buf.assign(hostname.begin(), hostname.end());

- host_ptr = ucs_host_buf.data();

- host_len = ucs_host_buf.length() * 2;

-#ifdef IS_BIG_ENDIAN

- WriteUnicodeLE(const_cast<void*>(host_ptr), (const char16*) host_ptr,

- ucs_host_buf.length());

-#endif

- } else {

- host_ptr = hostname.data();

- host_len = hostname.length();

- }

- //

- // Now that we have generated all of the strings, we can allocate out_buf.

- //

- *out_len = NTLM_TYPE3_HEADER_LEN + host_len + domain_len + user_len +

- LM_RESP_LEN + NTLM_RESP_LEN;

- *out_buf = malloc(*out_len);

- if (!*out_buf)

- return ERR_OUT_OF_MEMORY;

- //

- // Next, we compute the LM and NTLM responses.

- //

- uint8 lm_resp[LM_RESP_LEN];

- uint8 ntlm_resp[NTLM_RESP_LEN];

- uint8 ntlm_hash[NTLM_HASH_LEN];

- if (msg.flags & NTLM_NegotiateNTLM2Key) {

- // compute NTLM2 session response

- MD5Digest session_hash;

- uint8 temp[16];

- memcpy(lm_resp, rand_8_bytes, 8);

- memset(lm_resp + 8, 0, LM_RESP_LEN - 8);

- memcpy(temp, msg.challenge, 8);

- memcpy(temp + 8, lm_resp, 8);

- MD5Sum(temp, 16, &session_hash);

- NTLM_Hash(password, ntlm_hash);

- LM_Response(ntlm_hash, session_hash.a, ntlm_resp);

- } else {

- NTLM_Hash(password, ntlm_hash);

- LM_Response(ntlm_hash, msg.challenge, ntlm_resp);

- if (SendLM()) {

- uint8 lm_hash[LM_HASH_LEN];

- LM_Hash(password, lm_hash);

- LM_Response(lm_hash, msg.challenge, lm_resp);

- } else {

- // According to http://davenport.sourceforge.net/ntlm.html#ntlmVersion2,

- // the correct way to not send the LM hash is to send the NTLM hash twice

- // in both the LM and NTLM response fields.

- LM_Response(ntlm_hash, msg.challenge, lm_resp);

- }

- //

- // Finally, we assemble the Type-3 msg :-)

- //

- void* cursor = *out_buf;

- uint32 offset;

- // 0 : signature

- cursor = WriteBytes(cursor, NTLM_SIGNATURE, sizeof(NTLM_SIGNATURE));

- // 8 : marker

- cursor = WriteBytes(cursor, NTLM_TYPE3_MARKER, sizeof(NTLM_TYPE3_MARKER));

- // 12 : LM response sec buf

- offset = NTLM_TYPE3_HEADER_LEN + domain_len + user_len + host_len;

- cursor = WriteSecBuf(cursor, LM_RESP_LEN, offset);

- memcpy(static_cast<uint8*>(*out_buf) + offset, lm_resp, LM_RESP_LEN);

- // 20 : NTLM response sec buf

- offset += LM_RESP_LEN;

- cursor = WriteSecBuf(cursor, NTLM_RESP_LEN, offset);

- memcpy(static_cast<uint8*>(*out_buf) + offset, ntlm_resp, NTLM_RESP_LEN);

- // 28 : domain name sec buf

- offset = NTLM_TYPE3_HEADER_LEN;

- cursor = WriteSecBuf(cursor, domain_len, offset);

- memcpy(static_cast<uint8*>(*out_buf) + offset, domain_ptr, domain_len);

- // 36 : user name sec buf

- offset += domain_len;

- cursor = WriteSecBuf(cursor, user_len, offset);

- memcpy(static_cast<uint8*>(*out_buf) + offset, user_ptr, user_len);

- // 44 : workstation (host) name sec buf

- offset += user_len;

- cursor = WriteSecBuf(cursor, host_len, offset);

- memcpy(static_cast<uint8*>(*out_buf) + offset, host_ptr, host_len);

- // 52 : session key sec buf (not used)

- cursor = WriteSecBuf(cursor, 0, 0);

- // 60 : negotiated flags

- cursor = WriteDWORD(cursor, msg.flags & NTLM_TYPE1_FLAGS);

- return OK;

-// NTLM authentication is specified in "NTLM Over HTTP Protocol Specification"

-// [MS-NTHT].

-// static

-HttpAuthHandlerNTLM::GenerateRandomProc

-HttpAuthHandlerNTLM::generate_random_proc_ = GenerateRandom;

-// static

-HttpAuthHandlerNTLM::HostNameProc

-HttpAuthHandlerNTLM::get_host_name_proc_ = GetHostName;

-HttpAuthHandlerNTLM::HttpAuthHandlerNTLM() {

-HttpAuthHandlerNTLM::~HttpAuthHandlerNTLM() {

- // Wipe our copy of the password from memory, to reduce the chance of being

- // written to the paging file on disk.

- ZapString(&password_);

-bool HttpAuthHandlerNTLM::NeedsIdentity() {

- return !auth_data_.empty();

std::string HttpAuthHandlerNTLM::GenerateCredentials(

const std::wstring& username,

const std::wstring& password,

@@ -686,6 +44,9 @@

if (auth_data_.empty()) {

in_buf_len = 0;

in_buf = NULL;

+ int rv = InitializeBeforeFirstChallenge();

+ if (rv != OK)

+ return std::string();

} else {

// Decode |auth_data_| into the input buffer.

int len = auth_data_.length();

@@ -705,6 +66,7 @@

}

int rv = GetNextToken(in_buf, in_buf_len, &out_buf, &out_buf_len);

+ LOG(ERROR) << "GetNextToken returns : " << ErrorToString(rv);

if (rv != OK)

return std::string();

@@ -719,23 +81,6 @@

return std::string("NTLM ") + encode_output;

}

-// static

-HttpAuthHandlerNTLM::GenerateRandomProc

-HttpAuthHandlerNTLM::SetGenerateRandomProc(

- GenerateRandomProc proc) {

- GenerateRandomProc old_proc = generate_random_proc_;

- generate_random_proc_ = proc;

- return old_proc;

-// static

-HttpAuthHandlerNTLM::HostNameProc HttpAuthHandlerNTLM::SetHostNameProc(

- HostNameProc proc) {

- HostNameProc old_proc = get_host_name_proc_;

- get_host_name_proc_ = proc;

- return old_proc;

// The NTLM challenge header looks like:

// WWW-Authenticate: NTLM auth-data

bool HttpAuthHandlerNTLM::ParseChallenge(

@@ -763,30 +108,4 @@

return true;

}

-int HttpAuthHandlerNTLM::GetNextToken(const void* in_token,

- uint32 in_token_len,

- void** out_token,

- uint32* out_token_len) {

- int rv;

- // If in_token is non-null, then assume it contains a type 2 message...

- if (in_token) {

- LogToken("in-token", in_token, in_token_len);

- std::string hostname = get_host_name_proc_();

- if (hostname.empty())

- return ERR_UNEXPECTED;

- uint8 rand_buf[8];

- generate_random_proc_(rand_buf, 8);

- rv = GenerateType3Msg(domain_, username_, password_, hostname, rand_buf,

- in_token, in_token_len, out_token, out_token_len);

- } else {

- rv = GenerateType1Msg(out_token, out_token_len);

- }

- if (rv == OK)

- LogToken("out-token", *out_token, *out_token_len);

- return rv;

-} // namespace net

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