// SoftEther VPN Source Code - Stable Edition Repository // Cedar Communication Module // // SoftEther VPN Server, Client and Bridge are free software under GPLv2. // // Copyright (c) Daiyuu Nobori. // Copyright (c) SoftEther VPN Project, University of Tsukuba, Japan. // Copyright (c) SoftEther Corporation. // // All Rights Reserved. // // http://www.softether.org/ // // Author: Daiyuu Nobori, Ph.D. // Comments: Tetsuo Sugiyama, Ph.D. // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License // version 2 as published by the Free Software Foundation. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License version 2 // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. // IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY // CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, // TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE // SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // // THE LICENSE AGREEMENT IS ATTACHED ON THE SOURCE-CODE PACKAGE // AS "LICENSE.TXT" FILE. READ THE TEXT FILE IN ADVANCE TO USE THE SOFTWARE. // // // THIS SOFTWARE IS DEVELOPED IN JAPAN, AND DISTRIBUTED FROM JAPAN, // UNDER JAPANESE LAWS. YOU MUST AGREE IN ADVANCE TO USE, COPY, MODIFY, // MERGE, PUBLISH, DISTRIBUTE, SUBLICENSE, AND/OR SELL COPIES OF THIS // SOFTWARE, THAT ANY JURIDICAL DISPUTES WHICH ARE CONCERNED TO THIS // SOFTWARE OR ITS CONTENTS, AGAINST US (SOFTETHER PROJECT, SOFTETHER // CORPORATION, DAIYUU NOBORI OR OTHER SUPPLIERS), OR ANY JURIDICAL // DISPUTES AGAINST US WHICH ARE CAUSED BY ANY KIND OF USING, COPYING, // MODIFYING, MERGING, PUBLISHING, DISTRIBUTING, SUBLICENSING, AND/OR // SELLING COPIES OF THIS SOFTWARE SHALL BE REGARDED AS BE CONSTRUED AND // CONTROLLED BY JAPANESE LAWS, AND YOU MUST FURTHER CONSENT TO // EXCLUSIVE JURISDICTION AND VENUE IN THE COURTS SITTING IN TOKYO, // JAPAN. YOU MUST WAIVE ALL DEFENSES OF LACK OF PERSONAL JURISDICTION // AND FORUM NON CONVENIENS. PROCESS MAY BE SERVED ON EITHER PARTY IN // THE MANNER AUTHORIZED BY APPLICABLE LAW OR COURT RULE. // // USE ONLY IN JAPAN. DO NOT USE THIS SOFTWARE IN ANOTHER COUNTRY UNLESS // YOU HAVE A CONFIRMATION THAT THIS SOFTWARE DOES NOT VIOLATE ANY // CRIMINAL LAWS OR CIVIL RIGHTS IN THAT PARTICULAR COUNTRY. USING THIS // SOFTWARE IN OTHER COUNTRIES IS COMPLETELY AT YOUR OWN RISK. THE // SOFTETHER VPN PROJECT HAS DEVELOPED AND DISTRIBUTED THIS SOFTWARE TO // COMPLY ONLY WITH THE JAPANESE LAWS AND EXISTING CIVIL RIGHTS INCLUDING // PATENTS WHICH ARE SUBJECTS APPLY IN JAPAN. OTHER COUNTRIES' LAWS OR // CIVIL RIGHTS ARE NONE OF OUR CONCERNS NOR RESPONSIBILITIES. WE HAVE // NEVER INVESTIGATED ANY CRIMINAL REGULATIONS, CIVIL LAWS OR // INTELLECTUAL PROPERTY RIGHTS INCLUDING PATENTS IN ANY OF OTHER 200+ // COUNTRIES AND TERRITORIES. BY NATURE, THERE ARE 200+ REGIONS IN THE // WORLD, WITH DIFFERENT LAWS. IT IS IMPOSSIBLE TO VERIFY EVERY // COUNTRIES' LAWS, REGULATIONS AND CIVIL RIGHTS TO MAKE THE SOFTWARE // COMPLY WITH ALL COUNTRIES' LAWS BY THE PROJECT. EVEN IF YOU WILL BE // SUED BY A PRIVATE ENTITY OR BE DAMAGED BY A PUBLIC SERVANT IN YOUR // COUNTRY, THE DEVELOPERS OF THIS SOFTWARE WILL NEVER BE LIABLE TO // RECOVER OR COMPENSATE SUCH DAMAGES, CRIMINAL OR CIVIL // RESPONSIBILITIES. NOTE THAT THIS LINE IS NOT LICENSE RESTRICTION BUT // JUST A STATEMENT FOR WARNING AND DISCLAIMER. // // // SOURCE CODE CONTRIBUTION // ------------------------ // // Your contribution to SoftEther VPN Project is much appreciated. // Please send patches to us through GitHub. // Read the SoftEther VPN Patch Acceptance Policy in advance: // http://www.softether.org/5-download/src/9.patch // // // DEAR SECURITY EXPERTS // --------------------- // // If you find a bug or a security vulnerability please kindly inform us // about the problem immediately so that we can fix the security problem // to protect a lot of users around the world as soon as possible. // // Our e-mail address for security reports is: // softether-vpn-security [at] softether.org // // Please note that the above e-mail address is not a technical support // inquiry address. If you need technical assistance, please visit // http://www.softether.org/ and ask your question on the users forum. // // Thank you for your cooperation. // // // NO MEMORY OR RESOURCE LEAKS // --------------------------- // // The memory-leaks and resource-leaks verification under the stress // test has been passed before release this source code. // IPsec_PPP.c // PPP protocol stack #include "CedarPch.h" // PPP thread void PPPThread(THREAD *thread, void *param) { PPP_SESSION *p = (PPP_SESSION *)param; UINT i; PPP_LCP *c; USHORT us; UINT ui; USHORT next_protocol = 0; bool ret = false; char ipstr1[128], ipstr2[128]; bool established = false; // Validate arguments if (thread == NULL || param == NULL) { return; } // Initialize p->Mru1 = p->Mru2 = PPP_MRU_DEFAULT; p->RecvPacketList = NewList(NULL); p->MsChapV2_UseDoubleMsChapV2 = CedarIsThereAnyEapEnabledRadiusConfig(p->Cedar); //// Link establishment phase IPToStr(ipstr1, sizeof(ipstr1), &p->ClientIP); IPToStr(ipstr2, sizeof(ipstr2), &p->ServerIP); PPPLog(p, "LP_CONNECTED", p->Postfix, ipstr1, p->ClientHostname, p->ClientPort, ipstr2, p->ServerPort, p->ClientSoftwareName, p->AdjustMss); // Request the use of PAP c = NewPPPLCP(PPP_LCP_CODE_REQ, 0); us = Endian16(PPP_LCP_AUTH_PAP); Add(c->OptionList, NewPPPOption(PPP_LCP_OPTION_AUTH, &us, sizeof(USHORT))); ret = PPPSendRequest(p, PPP_PROTOCOL_LCP, c); FreePPPLCP(c); if (ret == false) { if (IsTubeConnected(p->TubeRecv)) { // PAP protocol is denied p->DisconnectCauseCode = 15; p->DisconnectCauseDirection = 1; Debug("PPP: PAP Rejected.\n"); if (p->EnableMSCHAPv2) { // Try to request the use of MS-CHAPv2 UCHAR ms_chap_v2_code[3]; WRITE_USHORT(ms_chap_v2_code, PPP_LCP_AUTH_CHAP); ms_chap_v2_code[2] = PPP_CHAP_ALG_MS_CHAP_V2; c = NewPPPLCP(PPP_LCP_CODE_REQ, 0); Add(c->OptionList, NewPPPOption(PPP_LCP_OPTION_AUTH, ms_chap_v2_code, sizeof(ms_chap_v2_code))); ret = PPPSendRequest(p, PPP_PROTOCOL_LCP, c); FreePPPLCP(c); if (ret == false) { if (IsTubeConnected(p->TubeRecv)) { // MS-CHAPv2 protocol was also rejected p->DisconnectCauseCode = 15; p->DisconnectCauseDirection = 1; Debug("PPP: MS-CHAPv2 Rejected.\n"); PPPLog(p, "LP_PAP_MSCHAPV2_REJECTED"); } } else { // It is to be used for the MS-CHAPv2 p->AuthProtocol = PPP_PROTOCOL_CHAP; } } else { PPPLog(p, "LP_PAP_REJECTED"); } } if (ret == false) { goto LABEL_CLEANUP; } } //// Authentication phase if (p->AuthProtocol == PPP_PROTOCOL_PAP) { // PAP next_protocol = PPPContinueCurrentProtocolRequestListening(p, PPP_PROTOCOL_LCP); if (next_protocol == 0) { goto LABEL_CLEANUP; } Debug("next_protocol = 0x%x\n", next_protocol); if (next_protocol != PPP_PROTOCOL_PAP) { Debug("next_protocol is not PAP !!\n"); PPPLog(p, "LP_NEXT_PROTOCOL_IS_NOT_PAP", next_protocol); goto LABEL_CLEANUP; } next_protocol = PPPContinueCurrentProtocolRequestListening(p, PPP_PROTOCOL_PAP); if (next_protocol == 0 || p->AuthOk == false) { if (IsTubeConnected(p->TubeRecv)) { // PAP authentication failed p->DisconnectCauseCode = 15; p->DisconnectCauseDirection = 1; Debug("PPP: PAP Failed.\n"); PPPLog(p, "LP_PAP_FAILED"); } goto LABEL_CLEANUP; } } else { // MS-CHAP v2 PPP_PACKET *pp, *pp_ret; BUF *b; char machine_name[MAX_SIZE]; UINT64 start_tick = Tick64(); UINT64 timeout_tick = start_tick + (UINT64)PPP_PACKET_RECV_TIMEOUT; UINT64 next_send_tick = 0; USHORT pp_ret_protocol; PPPContinueUntilFinishAllLCPOptionRequestsDetermined(p); if (p->MsChapV2_UseDoubleMsChapV2) { // Use the double-MSCHAPv2 technieue GetMachineHostName(machine_name, sizeof(machine_name)); MsChapV2Server_GenerateChallenge(p->MsChapV2_ServerChallenge); pp = ZeroMalloc(sizeof(PPP_PACKET)); pp->Protocol = PPP_PROTOCOL_CHAP; pp->IsControl = true; pp->Lcp = NewPPPLCP(PPP_CHAP_CODE_CHALLENGE, 99); b = NewBuf(); WriteBufChar(b, 16); WriteBuf(b, p->MsChapV2_ServerChallenge, sizeof(p->MsChapV2_ServerChallenge)); WriteBuf(b, machine_name, StrLen(machine_name)); pp->Lcp->Data = Clone(b->Buf, b->Size); pp->Lcp->DataSize = b->Size; FreeBuf(b); PPPSendPacket(p, pp); pp_ret = PPPRecvResponsePacket(p, pp, 0, &pp_ret_protocol, false, true); if (pp_ret != NULL) { // Extract the username from the first MS-CHAP v2 packet if (pp_ret->Lcp != NULL && pp_ret->Lcp->DataSize >= 51) { BUF *b; b = MemToBuf(pp_ret->Lcp->Data, pp_ret->Lcp->DataSize); if (ReadBufChar(b) == 49) { UCHAR client_response_buffer[49]; char username_tmp[MAX_SIZE]; char id[MAX_SIZE]; char hub[MAX_SIZE]; char client_ip_tmp[256]; EAP_CLIENT *eap; ETHERIP_ID d; ReadBuf(b, client_response_buffer, 49); Zero(username_tmp, sizeof(username_tmp)); ReadBuf(b, username_tmp, sizeof(username_tmp) - 1); Debug("First MS-CHAPv2: id=%s\n", username_tmp); Zero(id, sizeof(id)); Zero(hub, sizeof(hub)); // The user name is divided into the ID and the virtual HUB name Zero(&d, sizeof(d)); PPPParseUsername(p->Cedar, username_tmp, &d); StrCpy(id, sizeof(id), d.UserName); StrCpy(hub, sizeof(hub), d.HubName); Debug("First MS-CHAPv2: username=%s, hubname=%s\n", id, hub); IPToStr(client_ip_tmp, sizeof(client_ip_tmp), &p->ClientIP); eap = HubNewEapClient(p->Cedar, hub, client_ip_tmp, id); if (eap) { p->EapClient = eap; } } FreeBuf(b); } FreePPPPacket(pp_ret); } FreePPPPacket(pp); } // Generate a Server Challenge packet of MS-CHAP v2 GetMachineHostName(machine_name, sizeof(machine_name)); if (p->EapClient == NULL) { MsChapV2Server_GenerateChallenge(p->MsChapV2_ServerChallenge); } else { Copy(p->MsChapV2_ServerChallenge, p->EapClient->MsChapV2Challenge.Chap_ChallengeValue, 16); } pp = ZeroMalloc(sizeof(PPP_PACKET)); pp->Protocol = PPP_PROTOCOL_CHAP; pp->IsControl = true; pp->Lcp = NewPPPLCP(PPP_CHAP_CODE_CHALLENGE, 0); b = NewBuf(); WriteBufChar(b, 16); WriteBuf(b, p->MsChapV2_ServerChallenge, sizeof(p->MsChapV2_ServerChallenge)); WriteBuf(b, machine_name, StrLen(machine_name)); pp->Lcp->Data = Clone(b->Buf, b->Size); pp->Lcp->DataSize = b->Size; FreeBuf(b); PPPSendPacket(p, pp); pp_ret_protocol = 0; pp_ret = PPPRecvResponsePacket(p, pp, 0, &pp_ret_protocol, false, false); if (pp_ret != NULL) { FreePPPPacket(pp_ret); } FreePPPPacket(pp); if (pp_ret_protocol == 0 || p->AuthOk == false) { if (IsTubeConnected(p->TubeRecv)) { // MS-CHAPv2 authentication failed p->DisconnectCauseCode = 15; p->DisconnectCauseDirection = 1; Debug("PPP: MS-CHAPv2 Failed.\n"); PPPLog(p, "LP_MSCHAPV2_FAILED"); } goto LABEL_CLEANUP; } next_protocol = pp_ret_protocol; } Debug("next_protocol = 0x%x\n", next_protocol); if (next_protocol != PPP_PROTOCOL_IPCP) { // Receive the protocol of non-IPCP Debug("Not IPCP Protocol.\n"); PPPLog(p, "LP_NEXT_PROTOCOL_IS_NOT_IPCP", next_protocol); goto LABEL_CLEANUP; } // Notify the IP address of the PPP server c = NewPPPLCP(PPP_LCP_CODE_REQ, 0); ui = Endian32(0x01000001); // 1.0.0.1 Add(c->OptionList, NewPPPOption(PPP_IPCP_OPTION_IP, &ui, sizeof(UINT))); ret = PPPSendRequest(p, PPP_PROTOCOL_IPCP, c); FreePPPLCP(c); if (ret == false) { goto LABEL_CLEANUP; } next_protocol = PPPContinueCurrentProtocolRequestListening(p, PPP_PROTOCOL_IPCP); Debug("next_protocol = 0x%x\n", next_protocol); if (p->Ipc == NULL || IsZeroIP(&p->Ipc->ClientIPAddress)) { // IP address is undetermined PPPLog(p, "LP_IP_ADDRESS_NOT_DETERMIND"); goto LABEL_CLEANUP; } if (next_protocol == PPP_PROTOCOL_IP) { established = true; // Do the IP communication while (true) { TUBE *tubes[2]; UINT64 now = Tick64(); UINT r; // Flush the ARP table of the IPC IPCFlushArpTable(p->Ipc); // Packet of client to server direction while (true) { PPP_PACKET *pp = PPPRecvPacketForCommunication(p); if (pp == NULL) { break; } if (pp->Protocol == PPP_PROTOCOL_IP) { // Since I want to send the IP packet, pass it to the IPC IPCSendIPv4(p->Ipc, pp->Data, pp->DataSize); } FreePPPPacket(pp); } if (p->DhcpAllocated) { if (now >= p->DhcpNextRenewTime) { IP ip; // DHCP renewal procedure p->DhcpNextRenewTime = now + p->DhcpRenewInterval; UINTToIP(&ip, p->ClientAddressOption.ServerAddress); IPCDhcpRenewIP(p->Ipc, &ip); } } // Happy procedure IPCProcessL3Events(p->Ipc); // Packet of server to client direction while (true) { BLOCK *b = IPCRecvIPv4(p->Ipc); PPP_PACKET *pp; PPP_PACKET tmp; if (b == NULL) { break; } // Since receiving the IP packet, send it to the client by PPP pp = &tmp; pp->IsControl = false; pp->Protocol = PPP_PROTOCOL_IP; pp->Lcp = NULL; pp->Data = b->Buf; pp->DataSize = b->Size; PPPSendPacketEx(p, pp, true); FreePPPPacketEx(pp, true); Free(b); } FlushTubeFlushList(p->FlushList); // PPP Echo Request if (p->NextEchoSendTime == 0 || now >= p->NextEchoSendTime) { p->NextEchoSendTime = now + (UINT64)PPP_ECHO_SEND_INTERVAL; AddInterrupt(p->Ipc->Interrupt, p->NextEchoSendTime); PPPSendEchoRequest(p); } // Terminate if any tube is disconnected if (IsTubeConnected(p->TubeRecv) == false || IsTubeConnected(p->TubeSend) == false) { // Higher-level protocol is disconnected PPPLog(p, "LP_UPPER_PROTOCOL_DISCONNECTED", p->Postfix); break; } if (IsIPCConnected(p->Ipc) == false) { // IPC VPN session is disconnected PPPLog(p, "LP_VPN_SESSION_TERMINATED"); break; } // Time-out inspection if ((p->LastRecvTime + (UINT64)PPP_DATA_TIMEOUT) <= now) { // Communication time-out occurs PPPLog(p, "LP_DATA_TIMEOUT"); break; } // Terminate if the PPP disconnected if (p->IsTerminateReceived) { PPPLog(p, "LP_NORMAL_TERMINATE"); break; } // Wait until the next packet arrives tubes[0] = p->TubeRecv; tubes[1] = p->Ipc->Sock->RecvTube; r = GetNextIntervalForInterrupt(p->Ipc->Interrupt); WaitForTubes(tubes, 2, MIN(r, 1234)); } // Disconnected normally PPPLog(p, "LP_DISCONNECTED"); } if (p->DhcpAllocated) { // If any address is assigned from the DHCP, release it IP ip; char tmp[MAX_SIZE]; UINTToIP(&ip, p->ClientAddressOption.ServerAddress); IPToStr(tmp, sizeof(tmp), &ip); Debug("Releasing IP Address from DHCP Server %s...\n", tmp); IPCDhcpFreeIP(p->Ipc, &ip); IPCProcessL3Events(p->Ipc); SleepThread(300); } LABEL_CLEANUP: if (established == false) { // Disconnected Abnormally PPPLog(p, "LP_DISCONNECTED_ABNORMAL"); } // Disconnection process PPPCleanTerminate(p); // Release the memory for (i = 0;i < LIST_NUM(p->RecvPacketList);i++) { PPP_PACKET *pp = LIST_DATA(p->RecvPacketList, i); FreePPPPacket(pp); } ReleaseList(p->RecvPacketList); // Release the PPP session FreePPPSession(p); } // Disconnect the PPP cleanly void PPPCleanTerminate(PPP_SESSION *p) { PPP_PACKET *pp; PPP_PACKET *res; UINT64 giveup_tick = Tick64() + (UINT64)PPP_TERMINATE_TIMEOUT; // Validate arguments if (p == NULL) { return; } // Send a Terminate Request pp = ZeroMalloc(sizeof(PPP_PACKET)); pp->IsControl = true; pp->Protocol = PPP_PROTOCOL_LCP; pp->Lcp = NewPPPLCP(PPP_LCP_CODE_TERMINATE_REQ, p->NextId++); Debug("PPP: Terminate Request is Sent.\n"); if (PPPSendPacket(p, pp) == false) { goto LABEL_CLEANUP; } // Wait for Terminate ACK while (true) { UINT64 now = Tick64(); UINT interval; if (now >= giveup_tick) { break; } while (true) { if (IsTubeConnected(p->TubeRecv) == false) { break; } res = PPPRecvPacket(p, true); if (res == NULL) { break; } if (res->IsControl && res->Protocol == PPP_PROTOCOL_LCP && res->Lcp->Code == PPP_LCP_CODE_TERMINATE_ACK) { Debug("PPP: Terminate ACK is Received.\n"); FreePPPPacket(res); goto LABEL_CLEANUP; } FreePPPPacket(res); } interval = (UINT)(giveup_tick - now); Wait(p->TubeRecv->Event, interval); } LABEL_CLEANUP: FreePPPPacket(pp); } // Wait until all pending LCP option are determined bool PPPContinueUntilFinishAllLCPOptionRequestsDetermined(PPP_SESSION *p) { USHORT received_protocol = 0; // Validate arguments if (p == NULL) { return false; } PPPRecvResponsePacket(p, NULL, PPP_PROTOCOL_LCP, &received_protocol, true, false); return p->ClientLCPOptionDetermined; } // Continue the processing of the request packet protocol on the current PPP USHORT PPPContinueCurrentProtocolRequestListening(PPP_SESSION *p, USHORT protocol) { USHORT received_protocol = 0; // Validate arguments if (p == NULL) { return 0; } PPPRecvResponsePacket(p, NULL, protocol, &received_protocol, false, false); return received_protocol; } // Send the PPP Echo Request void PPPSendEchoRequest(PPP_SESSION *p) { PPP_PACKET *pp; char echo_data[]= "\0\0\0\0Aho Baka Manuke"; // Validate arguments if (p == NULL) { return; } pp = ZeroMalloc(sizeof(PPP_PACKET)); pp->Protocol = PPP_PROTOCOL_LCP; pp->IsControl = true; pp->Lcp = NewPPPLCP(PPP_LCP_CODE_ECHO_REQUEST, p->NextId++); pp->Lcp->Data = Clone(echo_data, sizeof(echo_data)); pp->Lcp->DataSize = sizeof(echo_data); PPPSendPacket(p, pp); FreePPPPacket(pp); } // Send a request packet in the PPP bool PPPSendRequest(PPP_SESSION *p, USHORT protocol, PPP_LCP *c) { PPP_PACKET *pp; PPP_PACKET *pp2; bool ret = false; // Validate arguments if (p == NULL || c == NULL) { return false; } pp = ZeroMalloc(sizeof(PPP_PACKET)); pp->Protocol = protocol; pp->IsControl = true; pp->Lcp = c; pp->Lcp->Id = p->NextId++; // Send the PPP packet if (PPPSendPacket(p, pp) == false) { goto LABEL_ERROR; } // Receive a corresponding PPP packet pp2 = PPPRecvResponsePacket(p, pp, 0, NULL, false, false); if (pp2 != NULL) { if (protocol == PPP_PROTOCOL_LCP || protocol == PPP_PROTOCOL_IPCP) { if (!PPP_LCP_CODE_IS_NEGATIVE(pp2->Lcp->Code)) { // A positive response is received ret = true; } } } FreePPPPacket(pp2); Free(pp); return ret; LABEL_ERROR: Free(pp); return false; } // Check whether the Virtual HUB with the specified name exist? bool IsHubExistsWithLock(CEDAR *cedar, char *hubname) { bool ret = false; // Validate arguments if (cedar == NULL || hubname == NULL) { return false; } LockList(cedar->HubList); { ret = IsHub(cedar, hubname); } UnlockList(cedar->HubList); return ret; } // Separate into the user name and the Virtual HUB name by analyzing the string bool PPPParseUsername(CEDAR *cedar, char *src_username, ETHERIP_ID *dst) { UINT i, len, last_at, first_en; char token1[MAX_SIZE]; // username char token2[MAX_SIZE]; // hub_name char src[MAX_SIZE]; // Validate arguments Zero(dst, sizeof(ETHERIP_ID)); if (cedar == NULL || src == NULL || dst == NULL) { return false; } StrCpy(src, sizeof(src), src_username); Trim(src); // Search for the first "\\" in the string len = StrLen(src); first_en = SearchStrEx(src, "\\", 0, true); if (first_en != INFINITE && first_en >= 1 && (first_en < (len - 1))) { StrCpy(token1, sizeof(token1), src + first_en + 1); StrCpy(token2, sizeof(token2), src); token2[first_en] = 0; // Confirm whether the hubname exists if the virtual HUB name is // specified like as hubname\username if (IsHubExistsWithLock(cedar, token2) == false) { // If the hubname does not exist, restore to the original name StrCpy(token1, sizeof(token1), src); ClearStr(token2, sizeof(token2)); } } else { // Search for the last "@" in the string len = StrLen(src); last_at = INFINITE; for (i = 0;i < len;i++) { char c = src[i]; if (c == '@') { last_at = i; } } Zero(token1, sizeof(token1)); Zero(token2, sizeof(token2)); if (last_at == INFINITE) { // "@" is not specified StrCpy(token1, sizeof(token1), src); } else { // Split with last "@" StrCpy(token1, sizeof(token1), src); token1[last_at] = 0; StrCpy(token2, sizeof(token2), src + last_at + 1); } // Check whether such Virtual HUB exists If the virtual HUB name is specified if (IsEmptyStr(token2) == false) { if (IsHubExistsWithLock(cedar, token2) == false) { // Because the specified virtual HUB name doesn't exist, it's considered to be a part of the user name StrCpy(token1, sizeof(token1), src); ClearStr(token2, sizeof(token2)); } } } if (IsEmptyStr(token2)) { // Select the default Virtual HUB if the Virtual HUB name is not specified StrCpy(token2, sizeof(token2), SERVER_DEFAULT_HUB_NAME); if (cedar->Server != NULL && cedar->Server->IPsecServer != NULL) { Lock(cedar->Server->IPsecServer->LockSettings); { IPsecNormalizeServiceSetting(cedar->Server->IPsecServer); StrCpy(token2, sizeof(token2), cedar->Server->IPsecServer->Services.L2TP_DefaultHub); } Unlock(cedar->Server->IPsecServer->LockSettings); } } // Return the results StrCpy(dst->HubName, sizeof(dst->HubName), token2); StrCpy(dst->UserName, sizeof(dst->UserName), token1); return true; } // Process the PPP request packet PPP_PACKET *PPPProcessRequestPacket(PPP_SESSION *p, PPP_PACKET *req) { UINT i; PPP_PACKET *ret = NULL; UINT num_not_supported = 0; UINT num_not_accepted = 0; bool no_return_option_list = false; UINT return_code = 0; BUF *lcp_ret_data = NULL; // Validate arguments if (p == NULL || req == NULL || req->Lcp == NULL) { return NULL; } // Initialize for (i = 0;i < LIST_NUM(req->Lcp->OptionList);i++) { PPP_OPTION *t = LIST_DATA(req->Lcp->OptionList, i); t->IsAccepted = false; t->IsSupported = false; t->AltDataSize = 0; Zero(t->AltData, sizeof(t->AltData)); } // Process by scanning the specified option value if (req->Protocol == PPP_PROTOCOL_LCP) { // LCP if (req->Lcp == NULL) { return NULL; } for (i = 0;i < LIST_NUM(req->Lcp->OptionList);i++) { PPP_OPTION *t = LIST_DATA(req->Lcp->OptionList, i); switch (t->Type) { case PPP_LCP_OPTION_MRU: // MRU t->IsSupported = true; if (t->DataSize == sizeof(USHORT)) { UINT value = READ_USHORT(t->Data); if (value < PPP_MRU_MIN || value > PPP_MRU_MAX) { t->IsAccepted = false; value = MAKESURE(value, PPP_MRU_MIN, PPP_MRU_MAX); WRITE_USHORT(t->AltData, value); t->AltDataSize = sizeof(USHORT); } else { p->Mru1 = value; Debug("PPP: Client set %u as MRU\n", p->Mru1); t->IsAccepted = true; } } break; } } } else if (req->Protocol == PPP_PROTOCOL_CHAP) { bool ok = false; char ret_str[MAX_SIZE]; no_return_option_list = true; if (p->Ipc == NULL) { // MS-CHAPv2 if (req->Lcp->DataSize >= 51) { BUF *b; b = NewBuf(); WriteBuf(b, req->Lcp->Data, req->Lcp->DataSize); SeekBuf(b, 0, 0); if (ReadBufChar(b) == 49) { UCHAR client_response_buffer[49]; UCHAR *client_challenge_16; UCHAR *client_response_24; char username_tmp[MAX_SIZE]; IPC *ipc = NULL; char id[MAX_SIZE]; char hub[MAX_SIZE]; char password[MAX_SIZE]; char server_challenge_hex[MAX_SIZE]; char client_challenge_hex[MAX_SIZE]; char client_response_hex[MAX_SIZE]; char eap_client_hex[64]; ETHERIP_ID d; UINT error_code; UINT64 eap_client_ptr = (UINT64)p->EapClient; ReadBuf(b, client_response_buffer, 49); Zero(username_tmp, sizeof(username_tmp)); ReadBuf(b, username_tmp, sizeof(username_tmp) - 1); client_challenge_16 = client_response_buffer + 0; client_response_24 = client_response_buffer + 16 + 8; Copy(p->MsChapV2_ClientChallenge, client_challenge_16, 16); Copy(p->MsChapV2_ClientResponse, client_response_24, 24); Debug("MS-CHAPv2: id=%s\n", username_tmp); Zero(id, sizeof(id)); Zero(hub, sizeof(hub)); // The user name is divided into the ID and the virtual HUB name Zero(&d, sizeof(d)); PPPParseUsername(p->Cedar, username_tmp, &d); StrCpy(id, sizeof(id), d.UserName); StrCpy(hub, sizeof(hub), d.HubName); // Convert the MS-CHAPv2 data to a password string BinToStr(server_challenge_hex, sizeof(server_challenge_hex), p->MsChapV2_ServerChallenge, sizeof(p->MsChapV2_ServerChallenge)); BinToStr(client_challenge_hex, sizeof(client_challenge_hex), p->MsChapV2_ClientChallenge, sizeof(p->MsChapV2_ClientChallenge)); BinToStr(client_response_hex, sizeof(client_response_hex), p->MsChapV2_ClientResponse, sizeof(p->MsChapV2_ClientResponse)); BinToStr(eap_client_hex, sizeof(eap_client_hex), &eap_client_ptr, 8); Format(password, sizeof(password), "%s%s:%s:%s:%s:%s", IPC_PASSWORD_MSCHAPV2_TAG, username_tmp, server_challenge_hex, client_challenge_hex, client_response_hex, eap_client_hex); // Attempt to connect with IPC ipc = NewIPC(p->Cedar, p->ClientSoftwareName, p->Postfix, hub, id, password, &error_code, &p->ClientIP, p->ClientPort, &p->ServerIP, p->ServerPort, p->ClientHostname, p->CryptName, false, p->AdjustMss, p->EapClient); if (ipc != NULL) { p->Ipc = ipc; Copy(p->MsChapV2_ServerResponse, ipc->MsChapV2_ServerResponse, 20); ok = true; } else { switch (error_code) { default: // Normal authentication error p->MsChapV2_ErrorCode = 691; break; case ERR_MSCHAP2_PASSWORD_NEED_RESET: // Authentication errors due to compatibility issues of the password p->MsChapV2_ErrorCode = 942; break; } } } FreeBuf(b); } } else { // Return success for a request from the second time when it is successfully authenticated once ok = true; } // Generate a response options string if (ok == false) { // In the case of failure char hex[MAX_SIZE]; BinToStr(hex, sizeof(hex), p->MsChapV2_ServerChallenge, 16); Format(ret_str, sizeof(ret_str), "E=%u R=0 C=%s V=3", p->MsChapV2_ErrorCode, hex); return_code = PPP_CHAP_CODE_FAILURE; } else { // In the case of success char hex[MAX_SIZE]; BinToStr(hex, sizeof(hex), p->MsChapV2_ServerResponse, 20); Format(ret_str, sizeof(ret_str), "S=%s", hex); return_code = PPP_CHAP_CODE_SUCCESS; p->AuthOk = true; } lcp_ret_data = NewBuf(); WriteBuf(lcp_ret_data, ret_str, StrLen(ret_str)); } else if (req->Protocol == PPP_PROTOCOL_PAP) { UCHAR *data; UINT size; bool ok = false; no_return_option_list = true; if (p->Ipc == NULL) { // PAP // Extract the ID and the password data = req->Lcp->Data; size = req->Lcp->DataSize; if (size >= 1) { UCHAR len_id = data[0]; data++; size--; if (size >= len_id) { char username[256]; char password[256]; Zero(username, sizeof(username)); Zero(password, sizeof(password)); Copy(username, data, len_id); data += len_id; size -= len_id; if (size >= 1) { UCHAR len_pass = data[0]; data++; size--; if (size >= len_pass) { IPC *ipc; char id[MAX_SIZE]; char hub[MAX_SIZE]; ETHERIP_ID d; Zero(id, sizeof(id)); Zero(hub, sizeof(hub)); Copy(password, data, len_pass); Debug("PPP: id=%s, pw=%s\n", username, password); // The user name is divided into the ID and the virtual HUB name Zero(&d, sizeof(d)); PPPParseUsername(p->Cedar, username, &d); StrCpy(id, sizeof(id), d.UserName); StrCpy(hub, sizeof(hub), d.HubName); if (IsEmptyStr(id) == false) { // Attempt to connect with IPC UINT error_code; ipc = NewIPC(p->Cedar, p->ClientSoftwareName, p->Postfix, hub, id, password, &error_code, &p->ClientIP, p->ClientPort, &p->ServerIP, p->ServerPort, p->ClientHostname, p->CryptName, false, p->AdjustMss, NULL); if (ipc != NULL) { p->Ipc = ipc; ok = true; } } } } } } } else { // Return success for a request from the second time when it is successfully authenticated once ok = true; } if (ok == false) { // Authentication failure return_code = PPP_PAP_CODE_NAK; } else { // Authentication success return_code = PPP_PAP_CODE_ACK; p->AuthOk = true; } } else if (req->Protocol == PPP_PROTOCOL_IPCP) { PPP_IPOPTION o; // Get the IP options data from the request data if (PPPGetIPOptionFromLCP(&o, req->Lcp)) { PPP_IPOPTION res; IP subnet; IP gw; if (IsZeroIP(&o.IpAddress) == false) { if (p->Ipc->Policy->DHCPForce == false) { if (p->DhcpAllocated == false) { if (p->UseStaticIPAddress == false) { DHCP_OPTION_LIST cao; // The client specify an IP address Zero(&cao, sizeof(cao)); cao.ClientAddress = IPToUINT(&o.IpAddress); Copy(&p->ClientAddressOption, &cao, sizeof(cao)); p->UseStaticIPAddress = true; } } } } else { p->UseStaticIPAddress = false; } if (p->UseStaticIPAddress) { if (p->DhcpIpInformTried == false) { // Get additional information such as the subnet mask from the DHCP server DHCP_OPTION_LIST cao; IP client_ip; IP subnet; IP zero; SetIP(&subnet, 255, 0, 0, 0); Zero(&zero, sizeof(zero)); UINTToIP(&client_ip, p->ClientAddressOption.ClientAddress); Zero(&cao, sizeof(cao)); IPCSetIPv4Parameters(p->Ipc, &client_ip, &subnet, &zero, NULL); p->DhcpIpInformTried = true; PPPLog(p, "LP_DHCP_INFORM_TRYING"); if (IPCDhcpRequestInformIP(p->Ipc, &cao, p->TubeRecv, &client_ip)) { Debug("IPCDhcpRequestInformIP ok.\n"); Copy(&p->ClientAddressOption, &cao, sizeof(cao)); p->ClientAddressOption.ClientAddress = IPToUINT(&client_ip); if (true) { char server_ip_str[64]; char subnet_str[64], defgw_str[64]; char dns1_str[64], dns2_str[64]; char wins1_str[64], wins2_str[64]; IPToStr32(server_ip_str, sizeof(server_ip_str), cao.ServerAddress); IPToStr32(subnet_str, sizeof(subnet_str), cao.SubnetMask); IPToStr32(defgw_str, sizeof(defgw_str), cao.Gateway); IPToStr32(dns1_str, sizeof(dns1_str), cao.DnsServer); IPToStr32(dns2_str, sizeof(dns2_str), cao.DnsServer2); IPToStr32(wins1_str, sizeof(wins1_str), cao.WinsServer); IPToStr32(wins2_str, sizeof(wins2_str), cao.WinsServer2); PPPLog(p, "LP_DHCP_INFORM_OK", subnet_str, defgw_str, cao.DomainName, dns1_str, dns2_str, wins1_str, wins2_str, server_ip_str); } } else { Debug("IPCDhcpRequestInformIP failed.\n"); PPPLog(p, "LP_DHCP_INFORM_NG"); } IPCSetIPv4Parameters(p->Ipc, &zero, &zero, &zero, NULL); } } else { // Get an IP address from a DHCP server if (p->DhcpIpAllocTried == false) { DHCP_OPTION_LIST cao; Zero(&cao, sizeof(cao)); p->DhcpIpAllocTried = true; PPPLog(p, "LP_DHCP_REQUEST_TRYING"); if (IPCDhcpAllocateIP(p->Ipc, &cao, p->TubeRecv)) { UINT t; Debug("IPCDhcpAllocateIP ok.\n"); // IP address has been determined Copy(&p->ClientAddressOption, &cao, sizeof(cao)); p->DhcpAllocated = true; // Determine the DHCP update interval t = cao.LeaseTime; if (t == 0) { t = 600; } t = t / 3; if (t == 0) { t = 1; } p->DhcpRenewInterval = (UINT64)(t * 1000); p->DhcpNextRenewTime = Tick64() + p->DhcpRenewInterval; if (true) { char client_ip_str[64], server_ip_str[64]; char subnet_str[64], defgw_str[64]; char dns1_str[64], dns2_str[64]; char wins1_str[64], wins2_str[64]; IPToStr32(client_ip_str, sizeof(client_ip_str), cao.ClientAddress); IPToStr32(server_ip_str, sizeof(server_ip_str), cao.ServerAddress); IPToStr32(subnet_str, sizeof(subnet_str), cao.SubnetMask); IPToStr32(defgw_str, sizeof(defgw_str), cao.Gateway); IPToStr32(dns1_str, sizeof(dns1_str), cao.DnsServer); IPToStr32(dns2_str, sizeof(dns2_str), cao.DnsServer2); IPToStr32(wins1_str, sizeof(wins1_str), cao.WinsServer); IPToStr32(wins2_str, sizeof(wins2_str), cao.WinsServer2); PPPLog(p, "LP_DHCP_REQUEST_OK", client_ip_str, subnet_str, defgw_str, cao.DomainName, dns1_str, dns2_str, wins1_str, wins2_str, server_ip_str, cao.LeaseTime); } } else { Debug("IPCDhcpAllocateIP failed.\n"); PPPLog(p, "LP_DHCP_REQUEST_NG"); } } } if (IsValidUnicastIPAddressUINT4(p->ClientAddressOption.ClientAddress) && p->ClientAddressOption.SubnetMask != 0) { // Success to determine the address UINTToIP(&subnet, p->ClientAddressOption.SubnetMask); UINTToIP(&gw, p->ClientAddressOption.Gateway); Zero(&res, sizeof(res)); UINTToIP(&res.IpAddress, p->ClientAddressOption.ClientAddress); UINTToIP(&res.DnsServer1, p->ClientAddressOption.DnsServer); UINTToIP(&res.DnsServer2, p->ClientAddressOption.DnsServer2); UINTToIP(&res.WinsServer1, p->ClientAddressOption.WinsServer); UINTToIP(&res.WinsServer2, p->ClientAddressOption.WinsServer2); if (IPCSetIPv4Parameters(p->Ipc, &res.IpAddress, &subnet, &gw, &p->ClientAddressOption.ClasslessRoute)) { char client_ip_str[64]; char subnet_str[64], defgw_str[64]; char dns1_str[64], dns2_str[64]; char wins1_str[64], wins2_str[64]; // IPv4 parameters have been set for the first time Debug("Param First Set.\n"); IPToStr(client_ip_str, sizeof(client_ip_str), &res.IpAddress); IPToStr(subnet_str, sizeof(subnet_str), &subnet); IPToStr(defgw_str, sizeof(defgw_str), &gw); IPToStr(dns1_str, sizeof(dns1_str), &res.DnsServer1); IPToStr(dns2_str, sizeof(dns2_str), &res.DnsServer2); IPToStr(wins1_str, sizeof(wins1_str), &res.WinsServer1); IPToStr(wins2_str, sizeof(wins2_str), &res.WinsServer2); PPPLog(p, "LP_SET_IPV4_PARAM", client_ip_str, subnet_str, defgw_str, dns1_str, dns2_str, wins1_str, wins2_str); } PPPSetIPOptionToLCP(&res, req->Lcp, true); } else { // Failed to determine the address Debug("IP Address Determination Failed.\n"); Zero(&res, sizeof(res)); PPPSetIPOptionToLCP(&res, req->Lcp, true); } } } // Assemble the LCP response packet based on the results for (i = 0;i < LIST_NUM(req->Lcp->OptionList);i++) { PPP_OPTION *t = LIST_DATA(req->Lcp->OptionList, i); if (t->IsSupported == false) { num_not_supported++; } if (t->IsAccepted == false) { num_not_accepted++; } } // Create a PPP response packet ret = ZeroMalloc(sizeof(PPP_PACKET)); ret->IsControl = true; ret->Protocol = req->Protocol; if (no_return_option_list == false) { // Response by attaching an optional list if (num_not_supported >= 1) { // Return a Reject if there are unsupported parameters ret->Lcp = NewPPPLCP(PPP_LCP_CODE_REJECT, req->Lcp->Id); for (i = 0;i < LIST_NUM(req->Lcp->OptionList);i++) { PPP_OPTION *t = LIST_DATA(req->Lcp->OptionList, i); if (t->IsSupported == false) { // Attach the original option value as is Add(ret->Lcp->OptionList, NewPPPOption(t->Type, t->Data, t->DataSize)); } } } else if (num_not_accepted >= 1) { // Return a NAK if there are any unacceptable parameter // even that all parameters are supported ret->Lcp = NewPPPLCP(PPP_LCP_CODE_NAK, req->Lcp->Id); for (i = 0;i < LIST_NUM(req->Lcp->OptionList);i++) { PPP_OPTION *t = LIST_DATA(req->Lcp->OptionList, i); if (t->IsAccepted == false) { // Replace the original option value with an acceptable value Add(ret->Lcp->OptionList, NewPPPOption(t->Type, t->AltData, t->AltDataSize)); } } } else { // Return an ACK if all parameters are accepted ret->Lcp = NewPPPLCP(PPP_LCP_CODE_ACK, req->Lcp->Id); for (i = 0;i < LIST_NUM(req->Lcp->OptionList);i++) { PPP_OPTION *t = LIST_DATA(req->Lcp->OptionList, i); // Attach the original option value as is Add(ret->Lcp->OptionList, NewPPPOption(t->Type, t->Data, t->DataSize)); } if (req->Protocol == PPP_PROTOCOL_LCP) { p->ClientLCPOptionDetermined = true; } } } else { // Response without attaching a list of options ret->Lcp = NewPPPLCP(return_code, req->Lcp->Id); if (lcp_ret_data != NULL && lcp_ret_data->Size >= 1) { ret->Lcp->Data = Clone(lcp_ret_data->Buf, lcp_ret_data->Size); ret->Lcp->DataSize = lcp_ret_data->Size; } } if (lcp_ret_data != NULL) { FreeBuf(lcp_ret_data); } return ret; } // Set the IP options of PPP to LCP bool PPPSetIPOptionToLCP(PPP_IPOPTION *o, PPP_LCP *c, bool only_modify) { bool ret = false; // Validate arguments if (c == NULL || o == NULL) { return false; } ret = PPPSetIPAddressValueToLCP(c, PPP_IPCP_OPTION_IP, &o->IpAddress, only_modify); PPPSetIPAddressValueToLCP(c, PPP_IPCP_OPTION_DNS1, &o->DnsServer1, only_modify); PPPSetIPAddressValueToLCP(c, PPP_IPCP_OPTION_DNS2, &o->DnsServer2, only_modify); PPPSetIPAddressValueToLCP(c, PPP_IPCP_OPTION_WINS1, &o->WinsServer1, only_modify); PPPSetIPAddressValueToLCP(c, PPP_IPCP_OPTION_WINS2, &o->WinsServer2, only_modify); return ret; } // Get the IP options of PPP from LCP bool PPPGetIPOptionFromLCP(PPP_IPOPTION *o, PPP_LCP *c) { bool ret; // Validate arguments if (c == NULL || o == NULL) { return false; } Zero(o, sizeof(PPP_IPOPTION)); ret = PPPGetIPAddressValueFromLCP(c, PPP_IPCP_OPTION_IP, &o->IpAddress); PPPGetIPAddressValueFromLCP(c, PPP_IPCP_OPTION_DNS1, &o->DnsServer1); PPPGetIPAddressValueFromLCP(c, PPP_IPCP_OPTION_DNS2, &o->DnsServer2); PPPGetIPAddressValueFromLCP(c, PPP_IPCP_OPTION_WINS1, &o->WinsServer1); PPPGetIPAddressValueFromLCP(c, PPP_IPCP_OPTION_WINS2, &o->WinsServer2); return ret; } // Set the IP address data to the option list of the LCP bool PPPSetIPAddressValueToLCP(PPP_LCP *c, UINT type, IP *ip, bool only_modify) { IP ip2; UINT ui; // Validate arguments if (c == NULL || ip == NULL) { return false; } ui = IPToUINT(ip); if (PPPGetIPAddressValueFromLCP(c, type, &ip2)) { PPP_OPTION *opt; opt = GetOptionValue(c, type); if (opt != NULL) { if (IsZeroIP(ip) == false) { if (CmpIpAddr(&ip2, ip) == 0) { // No change opt->IsAccepted = true; opt->IsSupported = true; } else { // Changed opt->IsAccepted = false; opt->IsSupported = true; opt->AltDataSize = 4; Copy(opt->AltData, &ui, 4); } } else { // The parameter itself is not supported // (if the IP address is 0.0.0.0) opt->IsSupported = false; opt->IsAccepted = false; } } return true; } else { if (IsZeroIP(ip) == false) { // Add as a new item if (only_modify != false) { return false; } else { PPP_OPTION *opt2 = NewPPPOption(type, &ui, 4); opt2->IsAccepted = opt2->IsSupported = true; Add(c->OptionList, opt2); return true; } } else { return false; } } } // Get the IP address data from the option list of the LCP bool PPPGetIPAddressValueFromLCP(PPP_LCP *c, UINT type, IP *ip) { PPP_OPTION *opt; UINT ui; // Validate arguments if (c == NULL || ip == NULL) { return false; } opt = GetOptionValue(c, type); if (opt == NULL) { return false; } if (opt->DataSize != 4) { return false; } opt->IsSupported = true; ui = *((UINT *)opt->Data); UINTToIP(ip, ui); return true; } // Process corresponding to the incoming request while receiving a PPP packet corresponding to the transmitted request. // (If req == NULL, process on that protocol while the protocol specified in expected_protocol have received. //If other protocols has arrived, without further processing, and then store that packet in the session context once, // return NULL by setting the received_protocol.) PPP_PACKET *PPPRecvResponsePacket(PPP_SESSION *p, PPP_PACKET *req, USHORT expected_protocol, USHORT *received_protocol, bool finish_when_all_lcp_acked, bool return_mschapv2_response_with_no_processing) { UINT64 giveup_tick = Tick64() + (UINT64)PPP_PACKET_RECV_TIMEOUT; UINT64 next_resend = Tick64() + (UINT64)PPP_PACKET_RESEND_INTERVAL; PPP_PACKET *ret = NULL; USHORT tmp_us = 0; // Validate arguments if (p == NULL || req != NULL && req->Lcp == NULL) { return NULL; } if (received_protocol == NULL) { received_protocol = &tmp_us; } if (req != NULL) { expected_protocol = req->Protocol; } *received_protocol = 0; // Receive the next packet (Retransmission repeatedly the last packet until the reception is completed) while (true) { UINT64 now = Tick64(); UINT interval; if (IsTubeConnected(p->TubeRecv) == false) { return NULL; } while (true) { PPP_PACKET *pp; PPP_PACKET *response; if (p->LastStoredPacket != NULL) { pp = p->LastStoredPacket; p->LastStoredPacket = NULL; } else { pp = PPPRecvPacketWithLowLayerProcessing(p, true); } if (pp == NULL) { break; } if (req != NULL) { // Determine whether the packet is corresponding to the request that was sent at the last if (pp->IsControl && pp->Protocol == req->Protocol && pp->Lcp->Id == req->Lcp->Id && PPP_CODE_IS_RESPONSE(pp->Protocol, pp->Lcp->Code)) { return pp; } if (return_mschapv2_response_with_no_processing) { // For the double-MSCHAPv2 technique if (pp->IsControl && pp->Protocol == req->Protocol && pp->Lcp->Id == req->Lcp->Id && pp->Protocol == PPP_PROTOCOL_CHAP && PPP_PAP_CODE_IS_RESPONSE(pp->Lcp->Code)) { return pp; } } } // Return a response immediately without processing if a protocol other than the expected received if ((pp->IsControl && pp->Protocol != expected_protocol) || pp->IsControl == false) { if (PPP_IS_SUPPORTED_PROTOCOL(pp->Protocol)) { // This is another supported protocol // Store this packet PPPStoreLastPacket(p, pp); *received_protocol = pp->Protocol; return NULL; } else { // Unsupported protocol Debug("Unsupported Protocol: 0x%x\n", pp->Protocol); FreePPPPacket(pp); return NULL; } } if (pp->IsControl && PPP_CODE_IS_REQUEST(pp->Protocol, pp->Lcp->Code)) { // Record current resend because next steps may take a while UINT64 currentresend = next_resend - now; // Process when the received packet is a request packet response = PPPProcessRequestPacket(p, pp); // Increase next resend because this may have taken a while next_resend = Tick64() + currentresend; FreePPPPacket(pp); if (response == NULL) { return NULL; } else { bool is_pap_and_disconnect_now = false; bool is_chap_and_disconnect_now = false; if (PPPSendPacket(p, response) == false) { FreePPPPacket(response); return NULL; } if (response->Protocol == PPP_PROTOCOL_PAP && response->IsControl && response->Lcp->Code != PPP_PAP_CODE_ACK) { is_pap_and_disconnect_now = true; } if (response->Protocol == PPP_PROTOCOL_CHAP && response->IsControl && response->Lcp->Code == PPP_CHAP_CODE_FAILURE) { is_chap_and_disconnect_now = true; } FreePPPPacket(response); if (is_pap_and_disconnect_now) { // Disconnect immediately if user authentication fails at least once in the PAP authentication protocol Debug("Disconnecting because PAP failed.\n"); SleepThread(300); return NULL; } if (is_chap_and_disconnect_now) { // Disconnect immediately if it fails to user authentication at least once in the CHAP authentication protocol Debug("Disconnecting because CHAP failed.\n"); SleepThread(300); return NULL; } } } else { // Ignore in the case of the other packets FreePPPPacket(pp); } } // Packet retransmission if (req != NULL) { if (now >= next_resend) { next_resend = now + PPP_PACKET_RESEND_INTERVAL; if (PPPSendPacket(p, req) == false) { return NULL; } } } if (req == NULL) { giveup_tick = now + (UINT64)PPP_PACKET_RECV_TIMEOUT; } // Time-out decision if (now >= giveup_tick) { PPPLog(p, "LP_CONTROL_TIMEOUT"); return NULL; } // Wait if (req != NULL) { interval = MIN((UINT)(giveup_tick - now), (UINT)(next_resend - now)); } else { interval = (UINT)(giveup_tick - now); } if (finish_when_all_lcp_acked && p->ClientLCPOptionDetermined) { return NULL; } Wait(p->TubeRecv->Event, interval); } } // Store the last packet in the session (to be read the next time) void PPPStoreLastPacket(PPP_SESSION *p, PPP_PACKET *pp) { // Validate arguments if (p == NULL) { return; } if (p->LastStoredPacket != NULL) { FreePPPPacket(p->LastStoredPacket); } p->LastStoredPacket = pp; } // Receive a PPP communication packet PPP_PACKET *PPPRecvPacketForCommunication(PPP_SESSION *p) { // Validate arguments if (p == NULL) { return NULL; } if (p->LastStoredPacket != NULL) { PPP_PACKET *pp = p->LastStoredPacket; p->LastStoredPacket = NULL; return pp; } return PPPRecvPacketWithLowLayerProcessing(p, true); } // Receive a PPP packet (Also performs low layer processing) PPP_PACKET *PPPRecvPacketWithLowLayerProcessing(PPP_SESSION *p, bool async) { PPP_PACKET *pp = NULL; // Validate arguments if (p == NULL) { return NULL; } LABEL_LOOP: pp = PPPRecvPacket(p, async); if (pp == NULL) { return NULL; } if (PPP_IS_SUPPORTED_PROTOCOL(pp->Protocol) == false) { // Unsupported algorithm PPP_PACKET *pp2 = ZeroMalloc(sizeof(PPP_PACKET)); BUF *buf; UCHAR c; USHORT us; pp2->Protocol = PPP_PROTOCOL_LCP; pp2->IsControl = false; buf = NewBuf(); // Code c = PPP_LCP_CODE_PROTOCOL_REJECT; WriteBuf(buf, &c, 1); // ID c = p->NextId++; WriteBuf(buf, &c, 1); // Length us = Endian16(pp->DataSize + 6); WriteBuf(buf, &us, 2); // Rejected Protocol us = Endian16(pp->Protocol); WriteBuf(buf, &us, 2); // Packet Data WriteBuf(buf, pp->Data, pp->DataSize); pp2->Data = Clone(buf->Buf, buf->Size); pp2->DataSize = buf->Size; FreePPPPacket(pp); FreeBuf(buf); if (PPPSendPacket(p, pp2) == false) { FreePPPPacket(pp2); return NULL; } FreePPPPacket(pp2); goto LABEL_LOOP; } if (pp->IsControl && pp->Protocol == PPP_PROTOCOL_LCP) { if (pp->Lcp->Code == PPP_LCP_CODE_ECHO_REQUEST) { // Immediately return the echo response to the echo request PPP_PACKET *pp2 = ZeroMalloc(sizeof(PPP_PACKET)); pp2->IsControl = true; pp2->Protocol = PPP_PROTOCOL_LCP; pp2->Lcp = NewPPPLCP(PPP_LCP_CODE_ECHO_RESPONSE, pp->Lcp->Id); pp2->Lcp->Data = Clone(pp->Lcp->Data, pp->Lcp->DataSize); pp2->Lcp->DataSize = pp->Lcp->DataSize; FreePPPPacket(pp); if (PPPSendPacket(p, pp2) == false) { FreePPPPacket(pp2); return NULL; } FreePPPPacket(pp2); goto LABEL_LOOP; } else if (pp->Lcp->Code == PPP_LCP_CODE_ECHO_RESPONSE) { // Ignore the Echo response packet FreePPPPacket(pp); goto LABEL_LOOP; } else if (pp->Lcp->Code == PPP_LCP_CODE_DROP) { // Ignore the Drop packet FreePPPPacket(pp); goto LABEL_LOOP; } else if (pp->Lcp->Code == PPP_LCP_CODE_IDENTIFICATION) { // Ignore the Identification packet FreePPPPacket(pp); WHERE; goto LABEL_LOOP; } else if (pp->Lcp->Code == PPP_LCP_CODE_TERMINATE_REQ) { // Return the Terminate ACK If a Terminate Request has been received PPP_PACKET *pp2 = ZeroMalloc(sizeof(PPP_PACKET)); pp2->IsControl = true; pp2->Protocol = PPP_PROTOCOL_LCP; pp2->Lcp = NewPPPLCP(PPP_LCP_CODE_TERMINATE_ACK, pp->Lcp->Id); pp2->Lcp->Data = Clone(pp->Lcp->Data, pp->Lcp->DataSize); pp2->Lcp->DataSize = pp->Lcp->DataSize; p->IsTerminateReceived = true; FreePPPPacket(pp); if (PPPSendPacket(p, pp2) == false) { FreePPPPacket(pp2); return NULL; } SleepThread(100); FreePPPPacket(pp2); goto LABEL_LOOP; } } return pp; } // Receive a PPP packet PPP_PACKET *PPPRecvPacket(PPP_SESSION *p, bool async) { TUBEDATA *d; PPP_PACKET *pp; // Validate arguments if (p == NULL) { return NULL; } LABEL_LOOP: if (async == false) { d = TubeRecvSync(p->TubeRecv, PPP_PACKET_RECV_TIMEOUT); } else { d = TubeRecvAsync(p->TubeRecv); } if (d == NULL) { return NULL; } pp = ParsePPPPacket(d->Data, d->DataSize); FreeTubeData(d); if (pp == NULL) { // A broken packet is received goto LABEL_LOOP; } p->LastRecvTime = Tick64(); return pp; } // Send the PPP packet bool PPPSendPacket(PPP_SESSION *p, PPP_PACKET *pp) { return PPPSendPacketEx(p, pp, false); } bool PPPSendPacketEx(PPP_SESSION *p, PPP_PACKET *pp, bool no_flush) { bool ret = false; BUF *b; // Validate arguments if (p == NULL || pp == NULL) { return false; } b = BuildPPPPacketData(pp); if (b == NULL) { return false; } ret = TubeSendEx(p->TubeSend, b->Buf, b->Size, NULL, no_flush); if (no_flush) { AddTubeToFlushList(p->FlushList, p->TubeSend); } FreeBuf(b); return ret; } // Create a new PPP options PPP_OPTION *NewPPPOption(UCHAR type, void *data, UINT size) { PPP_OPTION *o; // Validate arguments if (size != 0 && data == NULL) { return NULL; } o = ZeroMalloc(sizeof(PPP_OPTION)); o->Type = type; Copy(o->Data, data, size); o->DataSize = size; return o; } // Analyse the PPP packet PPP_PACKET *ParsePPPPacket(void *data, UINT size) { PPP_PACKET *pp; UCHAR *buf; // Validate arguments if (data == NULL || size == 0) { return NULL; } pp = ZeroMalloc(sizeof(PPP_PACKET)); buf = (UCHAR *)data; // Address if (size < 1) { goto LABEL_ERROR; } if (buf[0] != 0xff) { goto LABEL_ERROR; } size--; buf++; // Control if (size < 1) { goto LABEL_ERROR; } if (buf[0] != 0x03) { goto LABEL_ERROR; } size--; buf++; // Protocol if (size < 2) { goto LABEL_ERROR; } pp->Protocol = READ_USHORT(buf); size -= 2; buf += 2; if (pp->Protocol == PPP_PROTOCOL_LCP || pp->Protocol == PPP_PROTOCOL_PAP || pp->Protocol == PPP_PROTOCOL_CHAP || pp->Protocol == PPP_PROTOCOL_IPCP) { pp->IsControl = true; } pp->Data = Clone(buf, size); pp->DataSize = size; if (pp->IsControl) { pp->Lcp = ParseLCP(pp->Protocol, pp->Data, pp->DataSize); if (pp->Lcp == NULL) { goto LABEL_ERROR; } } return pp; LABEL_ERROR: FreePPPPacket(pp); return NULL; } // Build a PPP packet data BUF *BuildPPPPacketData(PPP_PACKET *pp) { BUF *ret; UCHAR c; USHORT us; // Validate arguments if (pp == NULL) { return NULL; } ret = NewBuf(); // Address c = 0xff; WriteBuf(ret, &c, 1); // Control c = 0x03; WriteBuf(ret, &c, 1); // Protocol us = Endian16(pp->Protocol); WriteBuf(ret, &us, 2); if (pp->IsControl) { // LCP BUF *b = BuildLCPData(pp->Lcp); WriteBufBuf(ret, b); FreeBuf(b); } else { // Data WriteBuf(ret, pp->Data, pp->DataSize); } SeekBuf(ret, 0, 0); return ret; } // Build the LCP packet data BUF *BuildLCPData(PPP_LCP *c) { BUF *b; UCHAR zero = 0; UINT i; // Validate arguments if (c == NULL) { return NULL; } b = NewBuf(); // Code WriteBuf(b, &c->Code, 1); // ID WriteBuf(b, &c->Id, 1); // Length (to be updated later) zero = 0; WriteBuf(b, &zero, 1); WriteBuf(b, &zero, 1); if (c->Data == NULL) { // Option List for (i = 0;i < LIST_NUM(c->OptionList);i++) { PPP_OPTION *o = LIST_DATA(c->OptionList, i); UCHAR sz = o->DataSize + 2; WriteBuf(b, &o->Type, 1); WriteBuf(b, &sz, 1); WriteBuf(b, o->Data, o->DataSize); } } else { // Data WriteBuf(b, c->Data, c->DataSize); } SeekBuf(b, 0, 0); // Update Length WRITE_USHORT(((UCHAR *)b->Buf) + 2, b->Size); return b; } // Analyse the LCP data PPP_LCP *ParseLCP(USHORT protocol, void *data, UINT size) { UCHAR *buf; PPP_LCP *c; USHORT len; bool has_option_list = false; // Validate arguments if (data == NULL || size == 0) { return NULL; } buf = (UCHAR *)data; c = ZeroMalloc(sizeof(PPP_LCP)); c->OptionList = NewListFast(NULL); // Code if (size < 1) { goto LABEL_ERROR; } c->Code = buf[0]; buf++; size--; // ID if (size < 1) { goto LABEL_ERROR; } c->Id = buf[0]; buf++; size--; // Length if (size < 2) { goto LABEL_ERROR; } len = READ_USHORT(buf); if (len < 4) { goto LABEL_ERROR; } len -= 4; buf += 2; size -= 2; // Options or Data if (size < len) { goto LABEL_ERROR; } has_option_list = PPP_CODE_IS_WITH_OPTION_LIST(protocol, c->Code); if (has_option_list == false) { c->Data = Clone(buf, size); c->DataSize = size; } else { // Option List while (len >= 1) { PPP_OPTION o; Zero(&o, sizeof(o)); // Type if (len < 1) { goto LABEL_ERROR; } o.Type = buf[0]; buf++; len--; // Length if (len < 1) { goto LABEL_ERROR; } o.DataSize = buf[0]; if (o.DataSize < 2) { goto LABEL_ERROR; } o.DataSize -= 2; buf++; len--; // Data if (len < o.DataSize) { goto LABEL_ERROR; } Copy(o.Data, buf, o.DataSize); buf += o.DataSize; len -= o.DataSize; Add(c->OptionList, Clone(&o, sizeof(o))); } } return c; LABEL_ERROR: FreePPPLCP(c); return NULL; } // Release the PPP packet void FreePPPPacket(PPP_PACKET *pp) { FreePPPPacketEx(pp, false); } void FreePPPPacketEx(PPP_PACKET *pp, bool no_free_struct) { // Validate arguments if (pp == NULL) { return; } FreePPPLCP(pp->Lcp); Free(pp->Data); if (no_free_struct == false) { Free(pp); } } // Release the PPP session void FreePPPSession(PPP_SESSION *p) { // Validate arguments if (p == NULL) { return; } if (p->TubeRecv != NULL) { // Record the PPP disconnect reason code for L2TP p->TubeRecv->IntParam1 = p->DisconnectCauseCode; p->TubeRecv->IntParam2 = p->DisconnectCauseDirection; } FreeTubeFlushList(p->FlushList); TubeDisconnect(p->TubeRecv); TubeDisconnect(p->TubeSend); ReleaseCedar(p->Cedar); ReleaseTube(p->TubeRecv); ReleaseTube(p->TubeSend); PPPStoreLastPacket(p, NULL); if (p->Ipc != NULL) { FreeIPC(p->Ipc); } PPPFreeEapClient(p); Free(p); } // Free the associated EAP client void PPPFreeEapClient(PPP_SESSION *p) { if (p == NULL) { return; } if (p->EapClient != NULL) { ReleaseEapClient(p->EapClient); p->EapClient = NULL; } } // Get the option value PPP_OPTION *GetOptionValue(PPP_LCP *c, UCHAR type) { UINT i; // Validate arguments if (c == NULL) { return NULL; } for (i = 0;i < LIST_NUM(c->OptionList);i++) { PPP_OPTION *t = LIST_DATA(c->OptionList, i); if (t->Type == type) { return t; } } return NULL; } // Create the LCP PPP_LCP *NewPPPLCP(UCHAR code, UCHAR id) { PPP_LCP *c = ZeroMalloc(sizeof(PPP_LCP)); c->Code = code; c->Id = id; c->OptionList = NewListFast(NULL); return c; } // Release the LCP void FreePPPLCP(PPP_LCP *c) { // Validate arguments if (c == NULL) { return; } FreePPPOptionList(c->OptionList); Free(c->Data); Free(c); } // Release the PPP options list void FreePPPOptionList(LIST *o) { UINT i; // Validate arguments if (o == NULL) { return; } for (i = 0;i < LIST_NUM(o);i++) { PPP_OPTION *t = LIST_DATA(o, i); Free(t); } ReleaseList(o); } // Create a new PPP session THREAD *NewPPPSession(CEDAR *cedar, IP *client_ip, UINT client_port, IP *server_ip, UINT server_port, TUBE *send_tube, TUBE *recv_tube, char *postfix, char *client_software_name, char *client_hostname, char *crypt_name, UINT adjust_mss) { PPP_SESSION *p; THREAD *t; // Validate arguments if (cedar == NULL || client_ip == NULL || server_ip == NULL || send_tube == NULL || recv_tube == NULL) { return NULL; } if (IsEmptyStr(postfix)) { postfix = "PPP"; } if (IsEmptyStr(crypt_name)) { crypt_name = ""; } if (IsEmptyStr(client_software_name)) { client_software_name = "PPP VPN Client"; } // Data structure initialization p = ZeroMalloc(sizeof(PPP_SESSION)); p->EnableMSCHAPv2 = true; p->AuthProtocol = PPP_PROTOCOL_PAP; p->MsChapV2_ErrorCode = 691; p->Cedar = cedar; AddRef(cedar->ref); p->AdjustMss = adjust_mss; StrCpy(p->CryptName, sizeof(p->CryptName), crypt_name); Copy(&p->ClientIP, client_ip, sizeof(IP)); p->ClientPort = client_port; Copy(&p->ServerIP, server_ip, sizeof(IP)); p->ServerPort = server_port; p->TubeRecv = recv_tube; p->TubeSend = send_tube; AddRef(p->TubeRecv->Ref); AddRef(p->TubeSend->Ref); StrCpy(p->Postfix, sizeof(p->Postfix), postfix); StrCpy(p->ClientSoftwareName, sizeof(p->ClientSoftwareName), client_software_name); if (IsEmptyStr(client_hostname)) { IPToStr(p->ClientHostname, sizeof(p->ClientHostname), client_ip); } else { StrCpy(p->ClientHostname, sizeof(p->ClientHostname), client_hostname); } p->FlushList = NewTubeFlushList(); // Thread creation t = NewThread(PPPThread, p); return t; } // Generate the NT hash of the password void GenerateNtPasswordHash(UCHAR *dst, char *password) { UCHAR *tmp; UINT tmp_size; UINT i, len; // Validate arguments if (dst == NULL || password == NULL) { return; } // Generate a Unicode password len = StrLen(password); tmp_size = len * 2; tmp = ZeroMalloc(tmp_size); for (i = 0;i < len;i++) { tmp[i * 2] = password[i]; } // Hashing HashMd4(dst, tmp, tmp_size); Free(tmp); } // Generate the MS-CHAPv2 server-side challenge void MsChapV2Server_GenerateChallenge(UCHAR *dst) { // Validate arguments if (dst == NULL) { return; } Rand(dst, 16); } // Generate the MS-CHAPv2 client-side challenge void MsChapV2Client_GenerateChallenge(UCHAR *dst) { // Validate arguments if (dst == NULL) { return; } Rand(dst, 16); } // Generate a 8 bytes challenge void MsChapV2_GenerateChallenge8(UCHAR *dst, UCHAR *client_challenge, UCHAR *server_challenge, char *username) { BUF *b; UCHAR hash[SHA1_SIZE]; char username2[MAX_SIZE]; char domainname2[MAX_SIZE]; // Validate arguments if (dst == NULL || client_challenge == NULL || server_challenge == NULL) { return; } b = NewBuf(); WriteBuf(b, client_challenge, 16); WriteBuf(b, server_challenge, 16); ParseNtUsername(username, username2, sizeof(username2), domainname2, sizeof(domainname2), true); if (IsEmptyStr(username2) == false) { WriteBuf(b, username2, StrLen(username2)); } HashSha1(hash, b->Buf, b->Size); FreeBuf(b); Copy(dst, hash, 8); } // Generate the MS-CHAPv2 client response void MsChapV2Client_GenerateResponse(UCHAR *dst, UCHAR *challenge8, UCHAR *nt_password_hash) { UCHAR password_hash_2[21]; UCHAR key1[8], key2[8], key3[8]; // Validate arguments if (dst == NULL || challenge8 == NULL || nt_password_hash == NULL) { return; } Zero(password_hash_2, sizeof(password_hash_2)); Copy(password_hash_2, nt_password_hash, 16); Zero(key1, sizeof(key1)); Zero(key2, sizeof(key2)); Zero(key3, sizeof(key3)); Copy(key1, password_hash_2 + 0, 7); Copy(key2, password_hash_2 + 7, 7); Copy(key3, password_hash_2 + 14, 7); DesEcbEncrypt(dst + 0, challenge8, key1); DesEcbEncrypt(dst + 8, challenge8, key2); DesEcbEncrypt(dst + 16, challenge8, key3); } // Generate a hash of the hash of the NT password void GenerateNtPasswordHashHash(UCHAR *dst_hash, UCHAR *src_hash) { // Validate arguments if (dst_hash == NULL || src_hash == NULL) { return; } HashMd4(dst_hash, src_hash, 16); } // Generate the MS-CHAPv2 server response void MsChapV2Server_GenerateResponse(UCHAR *dst, UCHAR *nt_password_hash_hash, UCHAR *client_response, UCHAR *challenge8) { UCHAR digest[SHA1_SIZE]; BUF *b; char *magic1 = "Magic server to client signing constant"; char *magic2 = "Pad to make it do more than one iteration"; // Validate arguments if (dst == NULL || nt_password_hash_hash == NULL || client_response == NULL || challenge8 == NULL) { return; } b = NewBuf(); WriteBuf(b, nt_password_hash_hash, 16); WriteBuf(b, client_response, 24); WriteBuf(b, magic1, StrLen(magic1)); HashSha1(digest, b->Buf, b->Size); FreeBuf(b); b = NewBuf(); WriteBuf(b, digest, sizeof(digest)); WriteBuf(b, challenge8, 8); WriteBuf(b, magic2, StrLen(magic2)); HashSha1(dst, b->Buf, b->Size); FreeBuf(b); } // Verify whether the password matches one that is specified by the user in the MS-CHAPv2 bool MsChapV2VerityPassword(IPC_MSCHAP_V2_AUTHINFO *d, char *password) { UCHAR ntlm_hash[MD5_SIZE]; UCHAR challenge8[8]; UCHAR client_response[24]; // Validate arguments if (d == NULL || password == NULL) { return false; } GenerateNtPasswordHash(ntlm_hash, password); MsChapV2_GenerateChallenge8(challenge8, d->MsChapV2_ClientChallenge, d->MsChapV2_ServerChallenge, d->MsChapV2_PPPUsername); MsChapV2Client_GenerateResponse(client_response, challenge8, ntlm_hash); if (Cmp(client_response, d->MsChapV2_ClientResponse, 24) != 0) { return false; } return true; } // Estimate the password in the brute force for the request packet of MS-CHAPv2 char *MsChapV2DoBruteForce(IPC_MSCHAP_V2_AUTHINFO *d, LIST *password_list) { UINT i; // Validate arguments if (d == NULL || password_list == NULL) { return NULL; } for (i = 0;i < LIST_NUM(password_list);i++) { char *s = LIST_DATA(password_list, i); char tmp[MAX_SIZE]; UINT j, max; UINT len; StrCpy(tmp, sizeof(tmp), s); len = StrLen(tmp); max = Power(2, MIN(len, 9)); for (j = 0;j < max;j++) { SetStrCaseAccordingToBits(tmp, j); if (MsChapV2VerityPassword(d, tmp)) { return CopyStr(tmp); } } } return NULL; }