// SoftEther VPN Source Code - Developer Edition Master Branch // 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. // NativeStack.c // Native IP stack #include "CedarPch.h" // Stack main thread void NsMainThread(THREAD *thread, void *param) { NATIVE_STACK *a = (NATIVE_STACK *)param; // Validate arguments if (thread == NULL || param == NULL) { return; } while (true) { SOCKSET set; bool err = false; bool flush_tube; LIST *recv_packets; bool state_changed = false; InitSockSet(&set); AddSockSet(&set, a->Sock1); if (a->Halt) { break; } // Pass to the IPC by receiving from the bridge LABEL_RESTART: state_changed = false; flush_tube = false; while (true) { void *data; UINT size; size = EthGetPacket(a->Eth, &data); if (size == INFINITE) { // Device error err = true; break; } else if (size == 0) { // Can not get any more break; } else { // Pass the IPC socket TubeSendEx(a->Sock1->SendTube, data, size, NULL, true); Free(data); flush_tube = true; state_changed = true; } } if (flush_tube) { TubeFlush(a->Sock1->SendTube); } // Pass to the bridge by receiving from IPC recv_packets = NULL; while (true) { TUBEDATA *d = TubeRecvAsync(a->Sock1->RecvTube); if (d == NULL) { break; } if (recv_packets == NULL) { recv_packets = NewListFast(NULL); } Add(recv_packets, d); state_changed = true; } if (recv_packets != NULL) { UINT i; UINT num = LIST_NUM(recv_packets); void **data_array; UINT *size_array; data_array = Malloc(sizeof(void *) * num); size_array = Malloc(sizeof(UINT) * num); for (i = 0;i < num;i++) { TUBEDATA *d = LIST_DATA(recv_packets, i); data_array[i] = d->Data; size_array[i] = d->DataSize; } EthPutPackets(a->Eth, num, data_array, size_array); for (i = 0;i < num;i++) { TUBEDATA *d = LIST_DATA(recv_packets, i); // Because the data buffer has been already released, not to release twice d->Data = NULL; FreeTubeData(d); } Free(data_array); Free(size_array); ReleaseList(recv_packets); } if (IsTubeConnected(a->Sock1->SendTube) == false || IsTubeConnected(a->Sock1->RecvTube) == false) { err = true; } if (err) { // An error has occured Debug("Native Stack: Error !\n"); a->Halt = true; continue; } if (state_changed) { goto LABEL_RESTART; } Select(&set, 1234, a->Cancel, NULL); } Disconnect(a->Sock1); Disconnect(a->Sock2); } // Start the iptables tracking bool NsStartIpTablesTracking(NATIVE_STACK *a) { if (a->IpTablesThread != NULL) { return true; } a->IpTablesInitOk = false; a->IpTablesHalt = false; a->IpTablesHaltEvent = NewEvent(); a->IpTablesThread = NewThread(NsIpTablesThread, a); WaitThreadInit(a->IpTablesThread); return a->IpTablesInitOk; } // iptables thread void NsIpTablesThread(THREAD *thread, void *param) { IPTABLES_STATE *state; NATIVE_STACK *s; UINT counter = 0; BUF *seed_buf; char exe_name[MAX_PATH]; if (thread == NULL || param == NULL) { return; } s = (NATIVE_STACK *)param; seed_buf = NewBuf(); WriteBuf(seed_buf, s->MacAddress, 6); GetExeName(exe_name, sizeof(exe_name)); WriteBufStr(seed_buf, exe_name); state = StartAddIpTablesEntryForNativeStack(seed_buf->Buf, seed_buf->Size); FreeBuf(seed_buf); if (state == NULL) { NoticeThreadInit(thread); return; } s->IpTablesInitOk = true; NoticeThreadInit(thread); while (true) { UINT wait_interval; if (s->IpTablesHalt) { break; } if (MaintainAddIpTablesEntryForNativeStack(state)) { counter = 0; } counter++; wait_interval = NS_CHECK_IPTABLES_INTERVAL_INIT * counter; wait_interval = MIN(wait_interval, NS_CHECK_IPTABLES_INTERVAL_MAX); //Debug("NsIpTablesThread: wait for %u\n", wait_interval); Wait(s->IpTablesHaltEvent, wait_interval); } EndAddIpTablesEntryForNativeStack(state); } // Stop the iptables tracking void NsStopIpTablesTracking(NATIVE_STACK *a) { if (a->IpTablesThread == NULL) { return; } a->IpTablesHalt = true; Set(a->IpTablesHaltEvent); WaitThread(a->IpTablesThread, INFINITE); ReleaseThread(a->IpTablesThread); ReleaseEvent(a->IpTablesHaltEvent); a->IpTablesThread = NULL; a->IpTablesHaltEvent = NULL; a->IpTablesInitOk = false; a->IpTablesHalt = false; } // Release the stack void FreeNativeStack(NATIVE_STACK *a) { // Validate arguments if (a == NULL) { return; } if (a->Ipc != NULL && IsZero(&a->CurrentDhcpOptionList, sizeof(a->CurrentDhcpOptionList)) == false) { IP dhcp_server; UINTToIP(&dhcp_server, a->CurrentDhcpOptionList.ServerAddress); IPCDhcpFreeIP(a->Ipc, &dhcp_server); SleepThread(200); } a->Halt = true; Cancel(a->Cancel); Disconnect(a->Sock1); Disconnect(a->Sock2); WaitThread(a->MainThread, INFINITE); ReleaseThread(a->MainThread); CloseEth(a->Eth); FreeIPC(a->Ipc); NsStopIpTablesTracking(a); ReleaseCancel(a->Cancel); ReleaseSock(a->Sock1); ReleaseSock(a->Sock2); ReleaseCedar(a->Cedar); Free(a); } // Create a new stack NATIVE_STACK *NewNativeStack(CEDAR *cedar, char *device_name, char *mac_address_seed) { ETH *eth; NATIVE_STACK *a; IP localhost; char tmp[64]; bool release_cedar = false; // Validate arguments if (device_name == NULL || mac_address_seed == NULL) { return NULL; } GetLocalHostIP4(&localhost); // Open the Eth device eth = OpenEth(device_name, false, false, NULL); if (eth == NULL) { return NULL; } if (cedar == NULL) { cedar = NewCedar(NULL, NULL); release_cedar = true; } a = ZeroMalloc(sizeof(NATIVE_STACK)); NewSocketPair(&a->Sock1, &a->Sock2, &localhost, 1, &localhost, 1); a->Cedar = cedar; AddRef(a->Cedar->ref); NsGenMacAddress(a->MacAddress, mac_address_seed, device_name); BinToStr(tmp, sizeof(tmp), a->MacAddress, sizeof(a->MacAddress)); Debug("NewNativeStack: MAC Address = %s\n", tmp); a->Ipc = NewIPCBySock(cedar, a->Sock2, a->MacAddress); StrCpy(a->DeviceName, sizeof(a->DeviceName), device_name); a->Eth = eth; a->Cancel = EthGetCancel(eth); a->MainThread = NewThread(NsMainThread, a); if (release_cedar) { ReleaseCedar(cedar); } a->IsIpRawMode = a->Eth->IsRawIpMode; return a; } // Identify whether the specified MAC address is for the Native Stack which operate on the same host bool NsIsMacAddressOnLocalhost(UCHAR *mac) { UCHAR tmp[2]; // Validate arguments if (mac == NULL) { return false; } if (mac[0] != NS_MAC_ADDRESS_BYTE_1) { return false; } NsGenMacAddressSignatureForMachine(tmp, mac); if (Cmp(mac + 4, tmp, 2) == 0) { return true; } return false; } // Determine the last two bytes of the MAC address void NsGenMacAddressSignatureForMachine(UCHAR *dst_last_2, UCHAR *src_mac_addr_4) { char machine_name[MAX_SIZE]; BUF *b; UCHAR hash[SHA1_SIZE]; // Validate arguments if (dst_last_2 == NULL || src_mac_addr_4 == NULL) { return; } GetMachineHostName(machine_name, sizeof(machine_name)); Trim(machine_name); StrUpper(machine_name); b = NewBuf(); WriteBuf(b, src_mac_addr_4, 4); WriteBufStr(b, machine_name); Sha1(hash, b->Buf, b->Size); FreeBuf(b); Copy(dst_last_2, hash, 2); } // Generate the MAC address void NsGenMacAddress(void *dest, char *mac_address_seed, char *device_name) { char tmp[MAX_SIZE]; UCHAR mac[6]; UCHAR hash[SHA1_SIZE]; Zero(tmp, sizeof(tmp)); StrCat(tmp, sizeof(tmp), mac_address_seed); StrCat(tmp, sizeof(tmp), "@"); StrCat(tmp, sizeof(tmp), device_name); Trim(tmp); StrLower(tmp); Sha1(hash, tmp, StrLen(tmp)); mac[0] = NS_MAC_ADDRESS_BYTE_1; mac[1] = hash[1]; mac[2] = hash[2]; mac[3] = hash[3]; mac[4] = hash[4]; mac[5] = hash[5]; NsGenMacAddressSignatureForMachine(mac + 4, mac); Copy(dest, mac, 6); } // Add the iptables entries for native stack IPTABLES_STATE *StartAddIpTablesEntryForNativeStack(void *seed, UINT seed_size) { IPTABLES_STATE *ret = NULL; bool ok = false; if (IsIpTablesSupported()) { IPTABLES_ENTRY *e; UINT i; ret = ZeroMalloc(sizeof(IPTABLES_STATE)); ret->EntryList = NewListFast(NULL); Sha1(ret->SeedHash, seed, seed_size); // Create a pair of entry e = ZeroMalloc(sizeof(IPTABLES_ENTRY)); GenerateDummyIpAndMark(ret->SeedHash, e, 0); StrCpy(e->Chain, sizeof(e->Chain), "OUTPUT"); Format(e->ConditionAndArgs, sizeof(e->ConditionAndArgs), "-p tcp --tcp-flags RST RST --sport %u:%u ! -s %r/32 ! -d %r/32 -m connmark ! --mark 0x%x -j DROP", NN_RAW_IP_PORT_START, NN_RAW_IP_PORT_END, &e->DummySrcIp, &e->DummyDestIP, e->DummyMark); Add(ret->EntryList, e); e = ZeroMalloc(sizeof(IPTABLES_ENTRY)); GenerateDummyIpAndMark(ret->SeedHash, e, 1); StrCpy(e->Chain, sizeof(e->Chain), "OUTPUT"); Format(e->ConditionAndArgs, sizeof(e->ConditionAndArgs), "-p icmp --icmp-type 3/3 ! -s %r/32 ! -d %r/32 -m connmark ! --mark 0x%x -j DROP", &e->DummySrcIp, &e->DummyDestIP, e->DummyMark); Add(ret->EntryList, e); ok = true; // Insert entries if not exists for (i = 0; i < LIST_NUM(ret->EntryList);i++) { UINT j; IPTABLES_ENTRY *e = LIST_DATA(ret->EntryList, i); for (j = 0;j < 100;j++) { if (GetCurrentIpTableLineNumber(e->Chain, &e->DummySrcIp, &e->DummyDestIP, e->DummyMark) != 0) { char cmdline[MAX_PATH]; Format(cmdline, sizeof(cmdline), "iptables -D %s %s", e->Chain, e->ConditionAndArgs); system(cmdline); } else { break; } } if (GetCurrentIpTableLineNumber(e->Chain, &e->DummySrcIp, &e->DummyDestIP, e->DummyMark) == 0) { char cmdline[MAX_PATH]; Format(cmdline, sizeof(cmdline), "iptables -I %s %s", e->Chain, e->ConditionAndArgs); system(cmdline); if (GetCurrentIpTableLineNumber(e->Chain, &e->DummySrcIp, &e->DummyDestIP, e->DummyMark) == 0) { Debug("Run \"%s\" failed.\n", cmdline); ok = false; break; } else { Debug("Run \"%s\" ok.\n", cmdline); } } } } if (ok == false) { EndAddIpTablesEntryForNativeStack(ret); ret = NULL; } return ret; } // Maintain the iptables bool MaintainAddIpTablesEntryForNativeStack(IPTABLES_STATE *s) { UINT i; bool ret = false; if (s == NULL) { return false; } if (s->HasError) { return false; } // Insert entries if not exists for (i = 0; i < LIST_NUM(s->EntryList);i++) { IPTABLES_ENTRY *e = LIST_DATA(s->EntryList, i); if (GetCurrentIpTableLineNumber(e->Chain, &e->DummySrcIp, &e->DummyDestIP, e->DummyMark) == 0) { char cmdline[MAX_PATH]; Format(cmdline, sizeof(cmdline), "iptables -I %s %s", e->Chain, e->ConditionAndArgs); system(cmdline); if (GetCurrentIpTableLineNumber(e->Chain, &e->DummySrcIp, &e->DummyDestIP, e->DummyMark) == 0) { Debug("Run \"%s\" failed.\n", cmdline); s->HasError = true; break; } else { Debug("Run \"%s\" ok.\n", cmdline); ret = true; } } } return ret; } // Stop the iptables management void EndAddIpTablesEntryForNativeStack(IPTABLES_STATE *s) { UINT i; if (s == NULL) { return; } // Delete entries for (i = 0; i < LIST_NUM(s->EntryList);i++) { IPTABLES_ENTRY *e = LIST_DATA(s->EntryList, i); UINT j; for (j = 0;j < 100;j++) { if (GetCurrentIpTableLineNumber(e->Chain, &e->DummySrcIp, &e->DummyDestIP, e->DummyMark) != 0) { char cmdline[MAX_PATH]; Format(cmdline, sizeof(cmdline), "iptables -D %s %s", e->Chain, e->ConditionAndArgs); system(cmdline); } else { break; } } } FreeIpTablesState(s); } // Generate a set of dummy IP addresses and mark void GenerateDummyIpAndMark(void *hash_seed, IPTABLES_ENTRY *e, UINT id) { PRAND *p; BUF *b; if (hash_seed == NULL || e == NULL) { return; } b = NewBuf(); WriteBufInt(b, id); WriteBuf(b, hash_seed, SHA1_SIZE); WriteBufStr(b, "20151002"); p = NewPRand(b->Buf, b->Size); FreeBuf(b); GenerateDummyIp(p, &e->DummySrcIp); GenerateDummyIp(p, &e->DummyDestIP); e->DummyMark = GenerateDummyMark(p); FreePRand(p); } // Generate a dummy iptables mark UINT GenerateDummyMark(PRAND *p) { UINT i; if (p == NULL) { return 0; } while (true) { i = PRandInt(p); if (i >= 1000000000 && i <= 0x7FFFFFFE) { return i; } } return 0; } // Generate a dummy IP void GenerateDummyIp(PRAND *p, IP *ip) { UINT i; if (p == NULL || ip == NULL) { return; } Zero(ip, sizeof(IP)); for (i = 1;i < 4;i++) { UINT v = 0; while (true) { v = PRandInt(p) % 256; if (v >= 1 && v <= 254) { break; } } ip->addr[i] = (UCHAR)v; } ip->addr[0] = 127; } // Search an entry IPTABLES_ENTRY *SearchIpTables(IPTABLES_STATE *s, char *chain, IP *src_ip, IP *dest_ip, UINT mark) { char ip_str1[64]; char ip_str2[64]; char mark_str1[64]; char mark_str2[64]; UINT i; if (s == NULL || chain == NULL || src_ip == NULL || dest_ip == NULL || mark == 0) { return NULL; } IPToStr(ip_str1, sizeof(ip_str1), src_ip); IPToStr(ip_str2, sizeof(ip_str2), dest_ip); ToStr(mark_str1, mark); Format(mark_str2, sizeof(mark_str2), "%x", mark); for (i = 0;i < LIST_NUM(s->EntryList);i++) { IPTABLES_ENTRY *e = LIST_DATA(s->EntryList, i); if (StrCmpi(e->Chain, chain) == 0) { if (InStr(e->ConditionAndArgs, ip_str1) && InStr(e->ConditionAndArgs, ip_str2) && (InStr(e->ConditionAndArgs, mark_str1) || InStr(e->ConditionAndArgs, mark_str2))) { return e; } } } return NULL; } // Search an entry and get the line number UINT GetCurrentIpTableLineNumber(char *chain, IP *src_ip, IP *dest_ip, UINT mark) { IPTABLES_STATE *s; IPTABLES_ENTRY *e; UINT ret = 0; if (chain == NULL || src_ip == NULL || dest_ip == NULL || mark == 0) { return 0; } s = GetCurrentIpTables(); e = SearchIpTables(s, chain, src_ip, dest_ip, mark); if (e != NULL) { ret = e->LineNumber; } FreeIpTablesState(s); return ret; } // Free the iptables state void FreeIpTablesState(IPTABLES_STATE *s) { UINT i; if (s == NULL) { return; } for (i = 0;i < LIST_NUM(s->EntryList);i++) { IPTABLES_ENTRY *e = LIST_DATA(s->EntryList, i); Free(e); } ReleaseList(s->EntryList); Free(s); } // Get the current iptables state IPTABLES_STATE *GetCurrentIpTables() { IPTABLES_STATE *ret = NULL; TOKEN_LIST *t = NULL; #ifdef OS_UNIX t = UnixExec("iptables -L -x -n --line-numbers"); #endif // OS_UNIX if (t != NULL) { UINT i; UINT tmp_num = 0; for (i = 0;i < t->NumTokens;i++) { char *line = t->Token[i]; if (StartWith(line, "Chain INPUT") || StartWith(line, "Chain FORWARD") || StartWith(line, "Chain OUTPUT")) { tmp_num++; } } if (tmp_num >= 3) { char current_chain[64]; UINT mode = 0; Zero(current_chain, sizeof(current_chain)); for (i = 0;i < t->NumTokens;i++) { char *line = t->Token[i]; if (StartWith(line, "Chain")) { TOKEN_LIST *t2 = ParseToken(line, " \t"); if (t2 != NULL) { if (t2->NumTokens >= 4) { StrCpy(current_chain, sizeof(current_chain), t2->Token[1]); mode = 1; if (ret == NULL) { ret = ZeroMalloc(sizeof(IPTABLES_STATE)); ret->EntryList = NewListFast(NULL); } } FreeToken(t2); } } if (mode == 1) { if (StartWith(line, "num")) { mode = 2; } } else if (mode == 2) { TOKEN_LIST *t2 = ParseToken(line, " \t"); if (t2 != NULL) { if (t2->NumTokens >= 6 && ToInt(t2->Token[0]) != 0) { IPTABLES_ENTRY *e = ZeroMalloc(sizeof(IPTABLES_ENTRY)); StrCpy(e->Chain, sizeof(e->Chain), current_chain); e->LineNumber = ToInt(t2->Token[0]); StrCpy(e->ConditionAndArgs, sizeof(e->ConditionAndArgs), line); Add(ret->EntryList, e); } FreeToken(t2); } } } } FreeToken(t); } return ret; } // Get whether iptables is supported bool IsIpTablesSupported() { #ifdef UNIX_LINUX IPTABLES_STATE *s = GetCurrentIpTables(); if (s != NULL) { FreeIpTablesState(s); return true; } else { return false; } #else // UNIX_LINUX return false; #endif // UNIX_LINUX }