// SoftEther VPN Source Code - Developer Edition Master Branch // Cedar Communication Module // EtherLog.c // EtherLogger program #include "EtherLog.h" #include "Admin.h" #include "BridgeUnix.h" #include "BridgeWin32.h" #include "Listener.h" #include "Remote.h" #include "Sam.h" #include "Server.h" #include "WinUi.h" #include "Mayaqua/Cfg.h" #include "Mayaqua/Encrypt.h" #include "Mayaqua/Memory.h" #include "Mayaqua/Object.h" #include "Mayaqua/OS.h" #include "Mayaqua/Pack.h" #include "Mayaqua/Str.h" static LOCK *el_lock = NULL; static EL *el = NULL; // RPC functional related macro #define DECLARE_RPC_EX(rpc_name, data_type, function, in_rpc, out_rpc, free_rpc) \ else if (StrCmpi(name, rpc_name) == 0) \ { \ data_type t; \ Zero(&t, sizeof(t)); \ in_rpc(&t, p); \ err = function(e, &t); \ if (err == ERR_NO_ERROR) \ { \ out_rpc(ret, &t); \ } \ free_rpc(&t); \ ok = true; \ } #define DECLARE_RPC(rpc_name, data_type, function, in_rpc, out_rpc) \ else if (StrCmpi(name, rpc_name) == 0) \ { \ data_type t; \ Zero(&t, sizeof(t)); \ in_rpc(&t, p); \ err = function(e, &t); \ if (err == ERR_NO_ERROR) \ { \ out_rpc(ret, &t); \ } \ ok = true; \ } #define DECLARE_SC_EX(rpc_name, data_type, function, in_rpc, out_rpc, free_rpc) \ UINT function(RPC *r, data_type *t) \ { \ PACK *p, *ret; \ UINT err; \ if (r == NULL || t == NULL) \ { \ return ERR_INTERNAL_ERROR; \ } \ p = NewPack(); \ out_rpc(p, t); \ free_rpc(t); \ Zero(t, sizeof(data_type)); \ ret = AdminCall(r, rpc_name, p); \ err = GetErrorFromPack(ret); \ if (err == ERR_NO_ERROR) \ { \ in_rpc(t, ret); \ } \ FreePack(ret); \ return err; \ } #define DECLARE_SC(rpc_name, data_type, function, in_rpc, out_rpc) \ UINT function(RPC *r, data_type *t) \ { \ PACK *p, *ret; \ UINT err; \ if (r == NULL || t == NULL) \ { \ return ERR_INTERNAL_ERROR; \ } \ p = NewPack(); \ out_rpc(p, t); \ ret = AdminCall(r, rpc_name, p); \ err = GetErrorFromPack(ret); \ if (err == ERR_NO_ERROR) \ { \ in_rpc(t, ret); \ } \ FreePack(ret); \ return err; \ } // RPC client disconnect void EcDisconnect(RPC *rpc) { // Validate arguments if (rpc == NULL) { return; } RpcFree(rpc); } // RPC client connect UINT EcConnect(char *host, UINT port, char *password, RPC **rpc) { SOCK *s; UCHAR password_hash[SHA1_SIZE]; UCHAR rand[SHA1_SIZE]; UCHAR response[SHA1_SIZE]; bool retcode; // Validate arguments if (host == NULL) { host = "localhost"; } if (port == 0) { port = EL_ADMIN_PORT; } if (password == NULL) { password = ""; } if (rpc == NULL) { return ERR_INTERNAL_ERROR; } // Connect to the server s = Connect(host, port); if (s == NULL) { // Connection failure return ERR_CONNECT_FAILED; } SetTimeout(s, 5000); // Hash the password Sha0(password_hash, password, StrLen(password)); // Receive the random number Zero(rand, sizeof(rand)); (void)RecvAll(s, rand, sizeof(rand), false); SecurePassword(response, password_hash, rand); // Send a response SendAll(s, response, sizeof(response), false); // Receive results retcode = false; if (RecvAll(s, &retcode, sizeof(retcode), false) == false) { // Disconnect ReleaseSock(s); return ERR_PROTOCOL_ERROR; } retcode = Endian32(retcode); if (retcode == false) { // Password incorrect ReleaseSock(s); return ERR_AUTH_FAILED; } // Successful connection SetTimeout(s, INFINITE); *rpc = StartRpcClient(s, NULL); ReleaseSock(s); return ERR_NO_ERROR; } // RPC server function PACK *ElRpcServer(RPC *r, char *name, PACK *p) { EL *e; PACK *ret; UINT err; bool ok; // Validate arguments if (r == NULL || name == NULL || p == NULL || r->Param == NULL) { return NULL; } e = (EL *)r->Param; ret = NewPack(); err = ERR_NO_ERROR; ok = false; if (0) {} DECLARE_RPC("AddDevice", RPC_ADD_DEVICE, EtAddDevice, InRpcAddDevice, OutRpcAddDevice) DECLARE_RPC("DelDevice", RPC_DELETE_DEVICE, EtDelDevice, InRpcDeleteDevice, OutRpcDeleteDevice) DECLARE_RPC("SetDevice", RPC_ADD_DEVICE, EtSetDevice, InRpcAddDevice, OutRpcAddDevice) DECLARE_RPC("GetDevice", RPC_ADD_DEVICE, EtGetDevice, InRpcAddDevice, OutRpcAddDevice) DECLARE_RPC_EX("EnumDevice", RPC_ENUM_DEVICE, EtEnumDevice, InRpcEnumDevice, OutRpcEnumDevice, FreeRpcEnumDevice) DECLARE_RPC("SetPassword", RPC_SET_PASSWORD, EtSetPassword, InRpcSetPassword, OutRpcSetPassword) DECLARE_RPC_EX("EnumAllDevice", RPC_ENUM_DEVICE, EtEnumAllDevice, InRpcEnumDevice, OutRpcEnumDevice, FreeRpcEnumDevice) DECLARE_RPC("AddLicenseKey", RPC_TEST, EtAddLicenseKey, InRpcTest, OutRpcTest) DECLARE_RPC("DelLicenseKey", RPC_TEST, EtDelLicenseKey, InRpcTest, OutRpcTest) DECLARE_RPC_EX("EnumLicenseKey", RPC_ENUM_LICENSE_KEY, EtEnumLicenseKey, InRpcEnumLicenseKey, OutRpcEnumLicenseKey, FreeRpcEnumLicenseKey) DECLARE_RPC("GetLicenseStatus", RPC_EL_LICENSE_STATUS, EtGetLicenseStatus, InRpcElLicenseStatus, OutRpcElLicenseStatus) DECLARE_RPC("GetBridgeSupport", RPC_BRIDGE_SUPPORT, EtGetBridgeSupport, InRpcBridgeSupport, OutRpcBridgeSupport) DECLARE_RPC("RebootServer", RPC_TEST, EtRebootServer, InRpcTest, OutRpcTest) if (ok == false) { err = ERR_NOT_SUPPORTED; } PackAddInt(ret, "error", err); return ret; } DECLARE_SC("AddDevice", RPC_ADD_DEVICE, EcAddDevice, InRpcAddDevice, OutRpcAddDevice) DECLARE_SC("DelDevice", RPC_DELETE_DEVICE, EcDelDevice, InRpcDeleteDevice, OutRpcDeleteDevice) DECLARE_SC("SetDevice", RPC_ADD_DEVICE, EcSetDevice, InRpcAddDevice, OutRpcAddDevice) DECLARE_SC("GetDevice", RPC_ADD_DEVICE, EcGetDevice, InRpcAddDevice, OutRpcAddDevice) DECLARE_SC_EX("EnumDevice", RPC_ENUM_DEVICE, EcEnumDevice, InRpcEnumDevice, OutRpcEnumDevice, FreeRpcEnumDevice) DECLARE_SC("SetPassword", RPC_SET_PASSWORD, EcSetPassword, InRpcSetPassword, OutRpcSetPassword) DECLARE_SC_EX("EnumAllDevice", RPC_ENUM_DEVICE, EcEnumAllDevice, InRpcEnumDevice, OutRpcEnumDevice, FreeRpcEnumDevice) DECLARE_SC("DelLicenseKey", RPC_TEST, EcDelLicenseKey, InRpcTest, OutRpcTest) DECLARE_SC_EX("EnumLicenseKey", RPC_ENUM_LICENSE_KEY, EcEnumLicenseKey, InRpcEnumLicenseKey, OutRpcEnumLicenseKey, FreeRpcEnumLicenseKey) DECLARE_SC("GetLicenseStatus", RPC_EL_LICENSE_STATUS, EcGetLicenseStatus, InRpcElLicenseStatus, OutRpcElLicenseStatus) DECLARE_SC("GetBridgeSupport", RPC_BRIDGE_SUPPORT, EcGetBridgeSupport, InRpcBridgeSupport, OutRpcBridgeSupport) DECLARE_SC("RebootServer", RPC_TEST, EcRebootServer, InRpcTest, OutRpcTest) // Thread to restart the server void EiRebootServerThread(THREAD *thread, void *param) { // Validate arguments if (thread == NULL) { return; } if (el == NULL) { return; } // Stopping the server ElStop(); // Starting the server ElStart(); } // Restarting the server void EiRebootServer() { THREAD *t; t = NewThread(EiRebootServerThread, NULL); ReleaseThread(t); } // RPC to restart server UINT EtRebootServer(EL *a, RPC_TEST *t) { EiRebootServer(); return ERR_NO_ERROR; } // Get support information for the local bridge UINT EtGetBridgeSupport(EL *a, RPC_BRIDGE_SUPPORT *t) { Zero(t, sizeof(RPC_BRIDGE_SUPPORT)); t->IsBridgeSupportedOs = IsBridgeSupported(); t->IsWinPcapNeeded = IsNeedWinPcap(); return ERR_NO_ERROR; } // Save by analyzing the status of the current license void ElParseCurrentLicenseStatus(LICENSE_SYSTEM *s, EL_LICENSE_STATUS *st) { } // Get a license status UINT EtGetLicenseStatus(EL *e, RPC_EL_LICENSE_STATUS *t) { UINT ret = ERR_NO_ERROR; LICENSE_SYSTEM *ls = e->LicenseSystem; if (ls == NULL) { return ERR_NOT_SUPPORTED; } Zero(t, sizeof(RPC_EL_LICENSE_STATUS)); // Get the current license status ElParseCurrentLicenseStatus(ls, e->LicenseStatus); t->Valid = e->LicenseStatus->Valid; t->SystemId = e->LicenseStatus->SystemId; t->SystemExpires = e->LicenseStatus->Expires; return ret; } // Enumerate the license keys UINT EtEnumLicenseKey(EL *el, RPC_ENUM_LICENSE_KEY *t) { return ERR_NOT_SUPPORTED; } // Add a license key UINT EtAddLicenseKey(EL *e, RPC_TEST *t) { return ERR_NOT_SUPPORTED; } // Delete the license key UINT EtDelLicenseKey(EL *e, RPC_TEST *t) { return ERR_NOT_SUPPORTED; } // Password setting UINT EtSetPassword(EL *e, RPC_SET_PASSWORD *t) { Copy(e->HashedPassword, t->HashedPassword, SHA1_SIZE); ElSaveConfig(e); return ERR_NO_ERROR; } // Add a device UINT EtAddDevice(EL *e, RPC_ADD_DEVICE *t) { if (ElAddCaptureDevice(e, t->DeviceName, &t->LogSetting, t->NoPromiscuous) == false) { return ERR_CAPTURE_DEVICE_ADD_ERROR; } ElSaveConfig(e); return ERR_NO_ERROR; } // Remove the device UINT EtDelDevice(EL *e, RPC_DELETE_DEVICE *t) { if (ElDeleteCaptureDevice(e, t->DeviceName) == false) { return ERR_CAPTURE_NOT_FOUND; } ElSaveConfig(e); return ERR_NO_ERROR; } // Get the device UINT EtGetDevice(EL *e, RPC_ADD_DEVICE *t) { UINT ret = ERR_CAPTURE_NOT_FOUND; LockList(e->DeviceList); { EL_DEVICE *d, a; Zero(&a, sizeof(a)); StrCpy(a.DeviceName, sizeof(a.DeviceName), t->DeviceName); d = Search(e->DeviceList, &a); if (d != NULL) { ret = ERR_NO_ERROR; Copy(&t->LogSetting, &d->LogSetting, sizeof(HUB_LOG)); t->NoPromiscuous = d->NoPromiscuous; } } UnlockList(e->DeviceList); return ret; } // Device Setting UINT EtSetDevice(EL *e, RPC_ADD_DEVICE *t) { if (ElSetCaptureDeviceLogSetting(e, t->DeviceName, &t->LogSetting) == false) { return ERR_CAPTURE_NOT_FOUND; } ElSaveConfig(e); return ERR_NO_ERROR; } // Enumerate all devices UINT EtEnumAllDevice(EL *e, RPC_ENUM_DEVICE *t) { TOKEN_LIST *eth; UINT i; if (IsEthSupported() == false) { return ERR_NOT_SUPPORTED; } FreeRpcEnumDevice(t); Zero(t, sizeof(RPC_ENUM_DEVICE)); eth = GetEthList(); t->NumItem = eth->NumTokens; t->Items = ZeroMalloc(sizeof(RPC_ENUM_DEVICE_ITEM) * t->NumItem); for (i = 0;i < eth->NumTokens;i++) { char *name = eth->Token[i]; RPC_ENUM_DEVICE_ITEM *item = &t->Items[i]; StrCpy(item->DeviceName, sizeof(item->DeviceName), name); } FreeToken(eth); return ERR_NO_ERROR; } // Device enumeration UINT EtEnumDevice(EL *e, RPC_ENUM_DEVICE *t) { bool is_beta_expired = ElIsBetaExpired(); if (is_beta_expired) { // The beta version has expired return ERR_BETA_EXPIRES; } FreeRpcEnumDevice(t); Zero(t, sizeof(RPC_ENUM_DEVICE)); LockList(e->DeviceList); { UINT i; t->NumItem = LIST_NUM(e->DeviceList); t->Items = ZeroMalloc(sizeof(RPC_ENUM_DEVICE_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_DEVICE_ITEM *d = &t->Items[i]; EL_DEVICE *eld = LIST_DATA(e->DeviceList, i); StrCpy(d->DeviceName, sizeof(d->DeviceName), eld->DeviceName); d->Active = eld->Active && ((ELOG_IS_BETA || e->LicenseStatus->Valid) ? true : false); } } UnlockList(e->DeviceList); return ERR_NO_ERROR; } void InRpcAddDevice(RPC_ADD_DEVICE *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ADD_DEVICE)); PackGetStr(p, "DeviceName", t->DeviceName, sizeof(t->DeviceName)); t->NoPromiscuous = PackGetInt(p, "NoPromiscuous"); t->LogSetting.PacketLogSwitchType = PackGetInt(p, "PacketLogSwitchType"); for (i = 0;i < NUM_PACKET_LOG;i++) { t->LogSetting.PacketLogConfig[i] = PackGetIntEx(p, "PacketLogConfig", i); } } void OutRpcAddDevice(PACK *p, RPC_ADD_DEVICE *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddStr(p, "DeviceName", t->DeviceName); PackAddInt(p, "NoPromiscuous", t->NoPromiscuous); PackAddInt(p, "PacketLogSwitchType", t->LogSetting.PacketLogSwitchType); for (i = 0;i < NUM_PACKET_LOG;i++) { PackAddIntEx(p, "PacketLogConfig", t->LogSetting.PacketLogConfig[i], i, NUM_PACKET_LOG); } } void InRpcDeleteDevice(RPC_DELETE_DEVICE *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_DELETE_DEVICE)); PackGetStr(p, "DeviceName", t->DeviceName, sizeof(t->DeviceName)); } void OutRpcDeleteDevice(PACK *p, RPC_DELETE_DEVICE *t) { // Validate arguments if (p == NULL || t == NULL) { return; } PackAddStr(p, "DeviceName", t->DeviceName); } void InRpcEnumDevice(RPC_ENUM_DEVICE *t, PACK *p) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_ENUM_DEVICE)); t->NumItem = PackGetInt(p, "NumItem"); t->Items = ZeroMalloc(sizeof(RPC_ENUM_DEVICE_ITEM) * t->NumItem); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_DEVICE_ITEM *d = &t->Items[i]; PackGetStrEx(p, "DeviceName", d->DeviceName, sizeof(d->DeviceName), i); d->Active = PackGetBoolEx(p, "Active", i); } t->IsLicenseSupported = PackGetBool(p, "IsLicenseSupported"); } void OutRpcEnumDevice(PACK *p, RPC_ENUM_DEVICE *t) { UINT i; // Validate arguments if (t == NULL || p == NULL) { return; } PackAddInt(p, "NumItem", t->NumItem); PackSetCurrentJsonGroupName(p, "DeviceList"); for (i = 0;i < t->NumItem;i++) { RPC_ENUM_DEVICE_ITEM *d = &t->Items[i]; PackAddStrEx(p, "DeviceName", d->DeviceName, i, t->NumItem); PackAddBoolEx(p, "Active", d->Active, i, t->NumItem); } PackSetCurrentJsonGroupName(p, NULL); PackAddBool(p, "IsLicenseSupported", t->IsLicenseSupported); } void FreeRpcEnumDevice(RPC_ENUM_DEVICE *t) { // Validate arguments if (t == NULL) { return; } Free(t->Items); } // RPC_LICENSE_STATUS void InRpcElLicenseStatus(RPC_EL_LICENSE_STATUS *t, PACK *p) { // Validate arguments if (t == NULL || p == NULL) { return; } Zero(t, sizeof(RPC_EL_LICENSE_STATUS)); t->Valid = PackGetBool(p, "Valid"); t->SystemId = PackGetInt64(p, "SystemId"); t->SystemExpires = PackGetInt64(p, "SystemExpires"); } void OutRpcElLicenseStatus(PACK *p, RPC_EL_LICENSE_STATUS *t) { // Validate arguments if (t == NULL || p == NULL) { return; } PackAddBool(p, "Valid", t->Valid); PackAddInt64(p, "SystemId", t->SystemId); PackAddTime64(p, "SystemExpires", t->SystemExpires); } // Listener thread void ElListenerProc(THREAD *thread, void *param) { TCP_ACCEPTED_PARAM *data = (TCP_ACCEPTED_PARAM *)param; EL *e; SOCK *s; UCHAR rand[SHA1_SIZE]; UCHAR pass1[SHA1_SIZE], pass2[SHA1_SIZE]; // Validate arguments if (data == NULL || thread == NULL) { return; } e = (EL *)data->r->ThreadParam; s = data->s; AddRef(s->ref); SetTimeout(s, 5000); LockList(e->AdminThreadList); { AddRef(thread->ref); AddRef(s->ref); Insert(e->AdminThreadList, thread); Insert(e->AdminSockList, s); } UnlockList(e->AdminThreadList); NoticeThreadInit(thread); // Submit a challenge Rand(rand, sizeof(rand)); SendAll(s, rand, sizeof(rand), false); // Receive a response SecurePassword(pass1, e->HashedPassword, rand); Zero(pass2, sizeof(pass2)); (void)RecvAll(s, pass2, sizeof(pass2), false); if (Cmp(pass1, pass2, SHA1_SIZE) != 0) { // Password incorrect bool code = false; code = Endian32(code); SendAll(s, &code, sizeof(code), false); } else { // Password match bool code = true; RPC *r; code = Endian32(code); SendAll(s, &code, sizeof(code), false); SetTimeout(s, INFINITE); // Start operation as a RPC server r = StartRpcServer(s, ElRpcServer, e); RpcServer(r); RpcFree(r); } Disconnect(s); ReleaseSock(s); LockList(e->AdminThreadList); { if (Delete(e->AdminThreadList, thread)) { ReleaseThread(thread); } if (Delete(e->AdminSockList, s)) { ReleaseSock(s); } } UnlockList(e->AdminThreadList); } // Listener start void ElStartListener(EL *e) { // Validate arguments if (e == NULL) { return; } e->AdminThreadList = NewList(NULL); e->AdminSockList = NewList(NULL); e->Listener = NewListenerEx(e->Cedar, LISTENER_TCP, e->Port == 0 ? EL_ADMIN_PORT : e->Port, ElListenerProc, e); } // Listener stop void ElStopListener(EL *e) { UINT i; THREAD **threads; SOCK **socks; UINT num_threads, num_socks; // Validate arguments if (e == NULL) { return; } StopAllListener(e->Cedar); LockList(e->AdminThreadList); { threads = ToArray(e->AdminThreadList); num_threads = LIST_NUM(e->AdminThreadList); DeleteAll(e->AdminThreadList); socks = ToArray(e->AdminSockList); num_socks = LIST_NUM(e->AdminSockList); DeleteAll(e->AdminSockList); } UnlockList(e->AdminThreadList); for (i = 0;i < num_socks;i++) { Disconnect(socks[i]); ReleaseSock(socks[i]); } for (i = 0;i < num_threads;i++) { WaitThread(threads[i], INFINITE); ReleaseThread(threads[i]); } Free(threads); Free(socks); ReleaseList(e->AdminSockList); ReleaseList(e->AdminThreadList); ReleaseListener(e->Listener); } // Update the log configuration of the capture device bool ElSetCaptureDeviceLogSetting(EL *e, char *name, HUB_LOG *log) { EL_DEVICE *d; bool ret = false; // Validate arguments if (e == NULL || log == NULL || name == NULL) { return false; } LockList(e->DeviceList); { EL_DEVICE t; Zero(&t, sizeof(t)); StrCpy(t.DeviceName, sizeof(t.DeviceName), name); d = Search(e->DeviceList, &t); if (d != NULL) { Copy(&d->LogSetting, log, sizeof(HUB_LOG)); SetLogSwitchType(d->Logger, log->PacketLogSwitchType); ret = true; } } UnlockList(e->DeviceList); return ret; } // Confirm whether the beta version has expired bool ElIsBetaExpired() { SYSTEMTIME st; UINT64 expires64; UINT64 now64; if (ELOG_IS_BETA == false) { return false; } Zero(&st, sizeof(st)); st.wYear = ELOG_BETA_EXPIRES_YEAR; st.wMonth = ELOG_BETA_EXPIRES_MONTH; st.wDay = ELOG_BETA_EXPIRES_DAY; expires64 = SystemToUINT64(&st); now64 = LocalTime64(); if (now64 >= expires64) { return true; } return false; } // Capture thread void ElCaptureThread(THREAD *thread, void *param) { } // Delete the capture device bool ElDeleteCaptureDevice(EL *e, char *name) { bool ret = false; EL_DEVICE *d, t; // Validate arguments if (e == NULL || name == NULL) { return false; } LockList(e->DeviceList); { Zero(&t, sizeof(t)); StrCpy(t.DeviceName, sizeof(t.DeviceName), name); d = Search(e->DeviceList, &t); if (d != NULL) { // Stop capture d->Halt = true; Cancel(d->Cancel1); // Wait for thread stop WaitThread(d->Thread, INFINITE); ReleaseThread(d->Thread); // Release the memory Delete(e->DeviceList, d); Free(d); ret = true; } } UnlockList(e->DeviceList); return ret; } // Add a capture device bool ElAddCaptureDevice(EL *e, char *name, HUB_LOG *log, bool no_promiscuous) { EL_DEVICE *d, t; // Validate arguments if (e == NULL || name == NULL || log == NULL) { return false; } Zero(&t, sizeof(t)); StrCpy(t.DeviceName, sizeof(t.DeviceName), name); LockList(e->DeviceList); { d = Search(e->DeviceList, &t); if (d != NULL) { // Capture settings with the same name already exists UnlockList(e->DeviceList); return false; } // Add a device d = ZeroMalloc(sizeof(EL_DEVICE)); StrCpy(d->DeviceName, sizeof(d->DeviceName), name); Copy(&d->LogSetting, log, sizeof(HUB_LOG)); d->NoPromiscuous = no_promiscuous; d->el = e; Insert(e->DeviceList, d); // Start the thread d->Thread = NewThread(ElCaptureThread, d); WaitThreadInit(d->Thread); } UnlockList(e->DeviceList); ElSaveConfig(e); return true; } // Write the license List void EiWriteLicenseManager(FOLDER *f, EL *s) { } // Read the license list void EiLoadLicenseManager(EL *s, FOLDER *f) { } // Configuration initialization void ElInitConfig(EL *e) { // Validate arguments if (e == NULL) { return; } // Device list initialization e->DeviceList = NewList(ElCompareDevice); // Read configuration file ElLoadConfig(e); // Write configuration file ElSaveConfig(e); } // Write the configuration void ElSaveConfig(EL *e) { FOLDER *root; // Validate arguments if (e == NULL) { return; } root = CfgCreateFolder(NULL, TAG_ROOT); ElSaveConfigToFolder(e, root); SaveCfgRw(e->CfgRw, root); CfgDeleteFolder(root); } // Write the configuration to the folder void ElSaveConfigToFolder(EL *e, FOLDER *root) { UINT i; FOLDER *devices; // Validate arguments if (e == NULL || root == NULL) { return; } CfgAddInt64(root, "AutoDeleteCheckDiskFreeSpaceMin", e->AutoDeleteCheckDiskFreeSpaceMin); CfgAddInt(root, "AdminPort", e->Port); CfgAddByte(root, "AdminPassword", e->HashedPassword, sizeof(e->HashedPassword)); if (ELOG_IS_BETA == false) { EiWriteLicenseManager(CfgCreateFolder(root, "LicenseManager"), e); } devices = CfgCreateFolder(root,"Devices"); LockList(e->DeviceList); { for (i = 0;i < LIST_NUM(e->DeviceList);i++) { FOLDER *f; EL_DEVICE *d = LIST_DATA(e->DeviceList, i); f = CfgCreateFolder(devices, d->DeviceName); SiWriteHubLogCfgEx(f, &d->LogSetting, true); CfgAddBool(f, "NoPromiscuousMode", d->NoPromiscuous); } } UnlockList(e->DeviceList); } // Read the configuration from the folder void ElLoadConfigFromFolder(EL *e, FOLDER *root) { UINT i; TOKEN_LIST *t; FOLDER *devices; // Validate arguments if (e == NULL || root == NULL) { return; } i = CfgGetInt(root, "AdminPort"); if (i >= 1 && i <= 65535) { e->Port = i; } e->AutoDeleteCheckDiskFreeSpaceMin = CfgGetInt64(root, "AutoDeleteCheckDiskFreeSpaceMin"); if (CfgIsItem(root, "AutoDeleteCheckDiskFreeSpaceMin") == false && e->AutoDeleteCheckDiskFreeSpaceMin == 0) { e->AutoDeleteCheckDiskFreeSpaceMin = DISK_FREE_SPACE_DEFAULT; } if (e->AutoDeleteCheckDiskFreeSpaceMin != 0) { if (e->AutoDeleteCheckDiskFreeSpaceMin < DISK_FREE_SPACE_MIN) { e->AutoDeleteCheckDiskFreeSpaceMin = DISK_FREE_SPACE_MIN; } } if (CfgGetByte(root, "AdminPassword", e->HashedPassword, sizeof(e->HashedPassword)) != sizeof(e->HashedPassword)) { Sha0(e->HashedPassword, "", 0); } if (ELOG_IS_BETA == false) { EiLoadLicenseManager(e, CfgGetFolder(root, "LicenseManager")); } devices = CfgGetFolder(root, "Devices"); if(devices != NULL) { LockList(e->DeviceList); { t = CfgEnumFolderToTokenList(devices); for (i = 0;i < t->NumTokens;i++) { char *name = t->Token[i]; FOLDER *f = CfgGetFolder(devices, name); if (f != NULL) { HUB_LOG g; Zero(&g, sizeof(g)); SiLoadHubLogCfg(&g, f); ElAddCaptureDevice(e, name, &g, CfgGetBool(f, "NoPromiscuousMode")); } } FreeToken(t); } UnlockList(e->DeviceList); } } // Reading configuration bool ElLoadConfig(EL *e) { FOLDER *root; bool ret = false; // Validate arguments if (e == NULL) { return false; } e->Port = EL_ADMIN_PORT; e->CfgRw = NewCfgRw(&root, EL_CONFIG_FILENAME); if (root != NULL) { ElLoadConfigFromFolder(e, root); CfgDeleteFolder(root); } else { char *pass = ""; Sha0(e->HashedPassword, pass, StrLen(pass)); e->AutoDeleteCheckDiskFreeSpaceMin = DISK_FREE_SPACE_DEFAULT; } return ret; } // Configuration release void ElFreeConfig(EL *e) { UINT i; LIST *o; // Validate arguments if (e == NULL) { return; } // Write the configuration file ElSaveConfig(e); FreeCfgRw(e->CfgRw); // Stop all capture o = NewList(NULL); LockList(e->DeviceList); { for (i = 0;i < LIST_NUM(e->DeviceList);i++) { EL_DEVICE *d = LIST_DATA(e->DeviceList, i); Insert(o, CopyStr(d->DeviceName)); } for (i = 0;i < LIST_NUM(o);i++) { char *name = LIST_DATA(o, i); ElDeleteCaptureDevice(e, name); Free(name); } ReleaseList(o); } UnlockList(e->DeviceList); ReleaseList(e->DeviceList); } // Comparison function of the device int ElCompareDevice(void *p1, void *p2) { EL_DEVICE *d1, *d2; // Validate arguments if (p1 == NULL || p2 == NULL) { return 0; } d1 = *(EL_DEVICE **)p1; d2 = *(EL_DEVICE **)p2; if (d1 == NULL || d2 == NULL) { return 0; } return StrCmpi(d1->DeviceName, d2->DeviceName); } // Clean-up the EL void CleanupEl(EL *e) { // Validate arguments if (e == NULL) { return; } // Stop Eraser FreeEraser(e->Eraser); // Stop Listener ElStopListener(e); // Setting release ElFreeConfig(e); // Free the license system if(e->LicenseSystem != NULL) { } // Free the license status if(e->LicenseStatus != NULL) { Free(e->LicenseStatus); } // Ethernet release FreeEth(); ReleaseCedar(e->Cedar); DeleteLock(e->lock); Free(e); } // Release the EL void ReleaseEl(EL *e) { // Validate arguments if (e == NULL) { return; } if (Release(e->ref) == 0) { CleanupEl(e); } } // Create the EL EL *NewEl() { EL *e; #ifdef OS_WIN32 RegistWindowsFirewallAll(); #endif e = ZeroMalloc(sizeof(EL)); e->lock = NewLock(); e->ref = NewRef(); e->Cedar = NewCedar(NULL, NULL); // Ethernet initialization InitEth(); // Setting initialization ElInitConfig(e); // Listener start ElStartListener(e); // Initialize the license status ElParseCurrentLicenseStatus(e->LicenseSystem, e->LicenseStatus); // Eraser start e->Eraser = NewEraser(NULL, e->AutoDeleteCheckDiskFreeSpaceMin); return e; } // EL start void ElStart() { // Raise the priority OSSetHighPriority(); Lock(el_lock); { el = NewEl(); } Unlock(el_lock); } // EL stop void ElStop() { Lock(el_lock); { ReleaseEl(el); el = NULL; } Unlock(el_lock); }