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mirror of https://github.com/SoftEtherVPN/SoftEtherVPN.git synced 2024-11-26 19:39:53 +03:00
SoftEtherVPN/src/Cedar/Client.c

10802 lines
218 KiB
C

// SoftEther VPN Source Code - Developer Edition Master Branch
// Cedar Communication Module
// Client.c
// Client Manager
#include "CedarPch.h"
static CLIENT *client = NULL;
static LISTENER *cn_listener = NULL;
static LOCK *cn_listener_lock = NULL;
static UINT64 cn_next_allow = 0;
static LOCK *ci_active_sessions_lock = NULL;
static UINT ci_num_active_sessions = 0;
// In Windows 8 or later, change unreasonable setting of WCM to ensure normal VPN communication
void CiDisableWcmNetworkMinimize(CLIENT *c)
{
#ifdef OS_WIN32
// Validate arguments
if (c == NULL)
{
return;
}
if (c->Config.NoChangeWcmNetworkSettingOnWindows8)
{
return;
}
MsDisableWcmNetworkMinimize();
#endif // OS_WIN32
}
// Compare RPC_CLIENT_ENUM_ACCOUNT_ITEM items by last connected date (Reverse)
int CiCompareClientAccountEnumItemByLastConnectDateTime(void *p1, void *p2)
{
RPC_CLIENT_ENUM_ACCOUNT_ITEM *a1, *a2;
if (p1 == NULL || p2 == NULL)
{
return 0;
}
a1 = *(RPC_CLIENT_ENUM_ACCOUNT_ITEM **)p1;
a2 = *(RPC_CLIENT_ENUM_ACCOUNT_ITEM **)p2;
if (a1 == NULL || a2 == NULL)
{
return 0;
}
if (a1->LastConnectDateTime > a2->LastConnectDateTime)
{
return -1;
}
else if (a1->LastConnectDateTime < a2->LastConnectDateTime)
{
return 1;
}
return 0;
}
// If machine changed, reshuffle MAC address for all virtual NIC
void CiChangeAllVLanMacAddressIfMachineChanged(CLIENT *c)
{
UCHAR current_hash_new[SHA1_SIZE];
UCHAR current_hash[SHA1_SIZE];
UCHAR current_hash_old[SHA1_SIZE];
UCHAR saved_hash[SHA1_SIZE];
// Validate arguments
if (c == NULL)
{
return;
}
#ifdef OS_WIN32
if (MsIsAdmin() == false)
{
return;
}
#endif
CiGetCurrentMachineHashNew(current_hash_new);
CiGetCurrentMachineHash(current_hash);
CiGetCurrentMachineHashOld(current_hash_old);
if (CiReadLastMachineHash(saved_hash) == false)
{
CiWriteLastMachineHash(current_hash_new);
return;
}
if (Cmp(saved_hash, current_hash_old, SHA1_SIZE) == 0)
{
CiWriteLastMachineHash(current_hash_new);
return;
}
if (Cmp(saved_hash, current_hash, SHA1_SIZE) == 0)
{
CiWriteLastMachineHash(current_hash_new);
return;
}
if (Cmp(saved_hash, current_hash_new, SHA1_SIZE) == 0)
{
return;
}
if (CiWriteLastMachineHash(current_hash_new) == false)
{
return;
}
CiChangeAllVLanMacAddress(c);
}
// Get current machine hash (Old)
void CiGetCurrentMachineHashOld(void *data)
{
char name[MAX_PATH];
char *product_id = NULL;
// Validate arguments
if (data == NULL)
{
return;
}
#ifdef OS_WIN32
// Product ID
product_id = MsRegReadStr(REG_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion", "ProductId");
if (product_id == NULL)
{
product_id = MsRegReadStr(REG_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\Windows\\CurrentVersion", "ProductId");
}
StrCpy(name, sizeof(name), product_id);
Free(product_id);
#else // OS_WIN32
GetMachineName(name, sizeof(name));
#endif // OS_WIN32
Trim(name);
StrUpper(name);
Sha0(data, name, StrLen(name));
}
// Get current machine hash
void CiGetCurrentMachineHash(void *data)
{
char name[MAX_PATH];
char *product_id = NULL;
// Validate arguments
if (data == NULL)
{
return;
}
GetMachineName(name, sizeof(name));
Trim(name);
StrUpper(name);
Sha0(data, name, StrLen(name));
}
// Get current machine hash (without using domain name)
void CiGetCurrentMachineHashNew(void *data)
{
char name[MAX_PATH];
char *p;
// Validate arguments
if (data == NULL)
{
return;
}
GetMachineName(name, sizeof(name));
// Ignore after first period(.)
for(p=name; *p; p++)
if(*p == '.')
*p = 0;
Trim(name);
StrUpper(name);
Sha0(data, name, StrLen(name));
}
// Write machine hash
bool CiWriteLastMachineHash(void *data)
{
// Validate arguments
if (data == NULL)
{
return false;
}
#ifdef OS_WIN32
if (MsRegWriteBinEx(REG_LOCAL_MACHINE, MS_REG_TCP_SETTING_KEY, "LastMachineHash", data, SHA1_SIZE, true) == false)
{
return false;
}
return true;
#else // OS_WIN32
return false;
#endif // OS_WIN32
}
// Get previous machine hash
bool CiReadLastMachineHash(void *data)
{
BUF *b = NULL;
// Validate arguments
if (data == NULL)
{
return false;
}
#ifdef OS_WIN32
b = MsRegReadBinEx(REG_LOCAL_MACHINE, MS_REG_TCP_SETTING_KEY, "LastMachineHash", true);
if (b == NULL)
{
return false;
}
if (b->Size == SHA1_SIZE)
{
Copy(data, b->Buf, b->Size);
FreeBuf(b);
return true;
}
FreeBuf(b);
return false;
#else // OS_WIN32
return false;
#endif // OS_WIN32
}
// If the MAC address of each virtual LAN card has been eliminated, set it to random numbers
// (measures for Windows 8 -> 8.1 upgrade problem)
void CiChangeAllVLanMacAddressIfCleared(CLIENT *c)
{
#ifdef OS_WIN32
RPC_CLIENT_ENUM_VLAN t;
// Validate arguments
if (c == NULL)
{
return;
}
if (MsIsInfCatalogRequired() == false)
{
// Not required for other than Windows 8
return;
}
Zero(&t, sizeof(t));
if (CtEnumVLan(c, &t))
{
UINT i;
for (i = 0;i < t.NumItem;i++)
{
RPC_CLIENT_ENUM_VLAN_ITEM *e = t.Items[i];
UCHAR mac[6];
if (StrToMac(mac, e->MacAddress))
{
if (mac[0] == 0x00 &&
mac[1] == 0x00 &&
mac[2] == 0x01 &&
mac[3] == 0x00 &&
mac[4] == 0x00 &&
mac[5] == 0x01)
{
char *name = e->DeviceName;
RPC_CLIENT_SET_VLAN s;
UCHAR mac[6];
GenMacAddress(mac);
Zero(&s, sizeof(s));
StrCpy(s.DeviceName, sizeof(s.DeviceName), name);
MacToStr(s.MacAddress, sizeof(s.MacAddress), mac);
CtSetVLan(c, &s);
}
}
}
CiFreeClientEnumVLan(&t);
}
#endif // OS_WIN32
}
// Set the MAC address of all virtual LAN cards to random number
void CiChangeAllVLanMacAddress(CLIENT *c)
{
RPC_CLIENT_ENUM_VLAN t;
// Validate arguments
if (c == NULL)
{
return;
}
Zero(&t, sizeof(t));
if (CtEnumVLan(c, &t))
{
UINT i;
for (i = 0;i < t.NumItem;i++)
{
RPC_CLIENT_ENUM_VLAN_ITEM *e = t.Items[i];
UCHAR mac[6];
if (StrToMac(mac, e->MacAddress) && ((mac[0] == 0x00 && mac[1] == 0xAC) || (mac[0] == 0x5E)))
{
char *name = e->DeviceName;
RPC_CLIENT_SET_VLAN s;
UCHAR mac[6];
GenMacAddress(mac);
Zero(&s, sizeof(s));
StrCpy(s.DeviceName, sizeof(s.DeviceName), name);
MacToStr(s.MacAddress, sizeof(s.MacAddress), mac);
CtSetVLan(c, &s);
}
}
CiFreeClientEnumVLan(&t);
}
}
// Wait for preparation of notification service to complete
void CnWaitForCnServiceReady()
{
UINT64 start_time = Tick64();
while ((start_time + (UINT64)CLIENT_WAIT_CN_READY_TIMEOUT) >= Tick64())
{
if (CnIsCnServiceReady())
{
break;
}
SleepThread(100);
}
}
// Check whether preparation of notification service completed
bool CnIsCnServiceReady()
{
SOCK *s;
// Confirm running the notification service
if (CnCheckAlreadyExists(false) == false)
{
// Not running
return false;
}
// Try to connect to the TCP port
s = ConnectEx("localhost", CLIENT_NOTIFY_PORT, 500);
if (s == NULL)
{
// The TCP port is not opened
return false;
}
Disconnect(s);
ReleaseSock(s);
// Running
return true;
}
// Check whether the notification service is already running
bool CnCheckAlreadyExists(bool lock)
{
#ifdef OS_WIN32
return Win32CnCheckAlreadyExists(lock);
#else
return false;
#endif
}
typedef struct CNC_STATUS_PRINTER_WINDOW_PARAM
{
THREAD *Thread;
SESSION *Session;
SOCK *Sock;
} CNC_STATUS_PRINTER_WINDOW_PARAM;
typedef struct CNC_CONNECT_ERROR_DLG_THREAD_PARAM
{
SESSION *Session;
SOCK *Sock;
bool HaltThread;
EVENT *Event;
} CNC_CONNECT_ERROR_DLG_THREAD_PARAM;
// Get the file name of vpnclient.exe in Win32
char *CiGetVpnClientExeFileName()
{
if (Is64() == false)
{
return CLIENT_WIN32_EXE_FILENAME;
}
else
{
if (IsX64())
{
return CLIENT_WIN32_EXE_FILENAME_X64;
}
else
{
return CLIENT_WIN32_EXE_FILENAME_IA64;
}
}
}
// Thread to stop forcibly the Certificate check dialog client
void CncCheckCertHaltThread(THREAD *thread, void *param)
{
CNC_CONNECT_ERROR_DLG_THREAD_PARAM *dp = (CNC_CONNECT_ERROR_DLG_THREAD_PARAM *)param;
// Validate arguments
if (thread == NULL || param == NULL)
{
return;
}
while (true)
{
if (dp->Session->Halt || dp->HaltThread)
{
break;
}
Wait(dp->Event, 100);
}
Disconnect(dp->Sock);
}
// Show the certification check dialog
void CncCheckCert(SESSION *session, UI_CHECKCERT *dlg)
{
SOCK *s;
PACK *p;
CNC_CONNECT_ERROR_DLG_THREAD_PARAM *dp;
THREAD *t;
// Validate arguments
if (dlg == NULL || session == NULL)
{
return;
}
s = CncConnect();
if (s == NULL)
{
return;
}
p = NewPack();
PackAddStr(p, "function", "check_cert");
PackAddUniStr(p, "AccountName", dlg->AccountName);
PackAddStr(p, "ServerName", dlg->ServerName);
PackAddX(p, "x", dlg->x);
PackAddX(p, "parent_x", dlg->parent_x);
PackAddX(p, "old_x", dlg->old_x);
PackAddBool(p, "DiffWarning", dlg->DiffWarning);
PackAddBool(p, "Ok", dlg->Ok);
PackAddBool(p, "SaveServerCert", dlg->SaveServerCert);
SendPack(s, p);
FreePack(p);
dp = ZeroMalloc(sizeof(CNC_CONNECT_ERROR_DLG_THREAD_PARAM));
dp->Sock = s;
dp->Event = NewEvent();
dp->Session = session;
t = NewThread(CncCheckCertHaltThread, dp);
p = RecvPack(s);
if (p != NULL)
{
dlg->Ok = PackGetBool(p, "Ok");
dlg->DiffWarning = PackGetBool(p, "DiffWarning");
dlg->SaveServerCert = PackGetBool(p, "SaveServerCert");
FreePack(p);
}
dp->HaltThread = true;
Set(dp->Event);
WaitThread(t, INFINITE);
ReleaseEvent(dp->Event);
Free(dp);
ReleaseThread(t);
Disconnect(s);
ReleaseSock(s);
}
// Smart card signature dialog
bool CncSecureSignDlg(SECURE_SIGN *sign)
{
SOCK *s;
PACK *p;
bool ret = false;
// Validate arguments
if (sign == NULL)
{
return false;
}
s = CncConnect();
if (s == NULL)
{
return false;
}
p = NewPack();
PackAddStr(p, "function", "secure_sign");
OutRpcSecureSign(p, sign);
SendPack(s, p);
FreePack(p);
p = RecvPack(s);
if (p != NULL)
{
ret = PackGetBool(p, "ret");
if (ret)
{
FreeRpcSecureSign(sign);
Zero(sign, sizeof(SECURE_SIGN));
InRpcSecureSign(sign, p);
}
FreePack(p);
}
Disconnect(s);
ReleaseSock(s);
return ret;
}
// Show the NIC information dialog
SOCK *CncNicInfo(UI_NICINFO *info)
{
SOCK *s;
PACK *p;
// Validate arguments
if (info == NULL)
{
return NULL;
}
s = CncConnectEx(200);
if (s == NULL)
{
return NULL;
}
p = NewPack();
PackAddStr(p, "function", "nicinfo");
PackAddStr(p, "NicName", info->NicName);
PackAddUniStr(p, "AccountName", info->AccountName);
SendPack(s, p);
FreePack(p);
return s;
}
// Close the NIC information dialog
void CncNicInfoFree(SOCK *s)
{
// Validate arguments
if (s == NULL)
{
return;
}
Disconnect(s);
ReleaseSock(s);
}
// Show the message dialog
SOCK *CncMsgDlg(UI_MSG_DLG *dlg)
{
SOCK *s;
PACK *p;
char *utf;
// Validate arguments
if (dlg == NULL)
{
return NULL;
}
s = CncConnectEx(200);
if (s == NULL)
{
return NULL;
}
p = NewPack();
PackAddStr(p, "function", "msg_dialog");
PackAddStr(p, "ServerName", dlg->ServerName);
PackAddStr(p, "HubName", dlg->HubName);
utf = CopyUniToUtf(dlg->Msg);
PackAddData(p, "Msg", utf, StrLen(utf));
Free(utf);
SendPack(s, p);
FreePack(p);
return s;
}
// Close the message dialog
void CndMsgDlgFree(SOCK *s)
{
// Validate arguments
if (s == NULL)
{
return;
}
Disconnect(s);
ReleaseSock(s);
}
// Show the password input dialog
bool CncPasswordDlg(SESSION *session, UI_PASSWORD_DLG *dlg)
{
SOCK *s;
PACK *p;
CNC_CONNECT_ERROR_DLG_THREAD_PARAM *dp;
THREAD *t;
bool ret = false;
// Validate arguments
if (dlg == NULL || session == NULL)
{
return false;
}
s = CncConnect();
if (s == NULL)
{
Wait(session->HaltEvent, session->RetryInterval);
return true;
}
p = NewPack();
PackAddStr(p, "function", "password_dialog");
PackAddInt(p, "Type", dlg->Type);
PackAddStr(p, "Username", dlg->Username);
PackAddStr(p, "Password", dlg->Password);
PackAddStr(p, "ServerName", dlg->ServerName);
PackAddInt(p, "RetryIntervalSec", dlg->RetryIntervalSec);
PackAddBool(p, "ProxyServer", dlg->ProxyServer);
PackAddBool(p, "AdminMode", dlg->AdminMode);
PackAddBool(p, "ShowNoSavePassword", dlg->ShowNoSavePassword);
PackAddBool(p, "NoSavePassword", dlg->NoSavePassword);
SendPack(s, p);
FreePack(p);
dp = ZeroMalloc(sizeof(CNC_CONNECT_ERROR_DLG_THREAD_PARAM));
dp->Session = session;
dp->Sock = s;
dp->Event = NewEvent();
t = NewThread(CncConnectErrorDlgHaltThread, dp);
p = RecvPack(s);
if (p != NULL)
{
ret = PackGetBool(p, "ok");
dlg->NoSavePassword = PackGetBool(p, "NoSavePassword");
dlg->ProxyServer = PackGetBool(p, "ProxyServer");
dlg->Type = PackGetInt(p, "Type");
PackGetStr(p, "Username", dlg->Username, sizeof(dlg->Username));
PackGetStr(p, "Password", dlg->Password, sizeof(dlg->Password));
FreePack(p);
}
dp->HaltThread = true;
Set(dp->Event);
WaitThread(t, INFINITE);
ReleaseEvent(dp->Event);
Free(dp);
ReleaseThread(t);
Disconnect(s);
ReleaseSock(s);
return ret;
}
// Thread to stop the connection error dialog client forcibly
void CncConnectErrorDlgHaltThread(THREAD *thread, void *param)
{
CNC_CONNECT_ERROR_DLG_THREAD_PARAM *dp = (CNC_CONNECT_ERROR_DLG_THREAD_PARAM *)param;
// Validate arguments
if (thread == NULL || param == NULL)
{
return;
}
while (true)
{
if (dp->Session->Halt || dp->HaltThread)
{
break;
}
Wait(dp->Event, 100);
}
Disconnect(dp->Sock);
}
// Show the connection error dialog
bool CncConnectErrorDlg(SESSION *session, UI_CONNECTERROR_DLG *dlg)
{
SOCK *s;
PACK *p;
CNC_CONNECT_ERROR_DLG_THREAD_PARAM *dp;
THREAD *t;
bool ret = false;
// Validate arguments
if (dlg == NULL || session == NULL)
{
return false;
}
s = CncConnect();
if (s == NULL)
{
Wait(session->HaltEvent, session->RetryInterval);
return true;
}
p = NewPack();
PackAddStr(p, "function", "connecterror_dialog");
PackAddUniStr(p, "AccountName", dlg->AccountName);
PackAddStr(p, "ServerName", dlg->ServerName);
PackAddInt(p, "Err", dlg->Err);
PackAddInt(p, "CurrentRetryCount", dlg->CurrentRetryCount);
PackAddInt(p, "RetryLimit", dlg->RetryLimit);
PackAddInt(p, "RetryIntervalSec", dlg->RetryIntervalSec);
PackAddBool(p, "HideWindow", dlg->HideWindow);
SendPack(s, p);
FreePack(p);
dp = ZeroMalloc(sizeof(CNC_CONNECT_ERROR_DLG_THREAD_PARAM));
dp->Session = session;
dp->Sock = s;
dp->Event = NewEvent();
t = NewThread(CncConnectErrorDlgHaltThread, dp);
p = RecvPack(s);
if (p != NULL)
{
ret = PackGetBool(p, "ok");
dlg->HideWindow = PackGetBool(p, "HideWindow");
FreePack(p);
}
dp->HaltThread = true;
Set(dp->Event);
WaitThread(t, INFINITE);
ReleaseEvent(dp->Event);
Free(dp);
ReleaseThread(t);
Disconnect(s);
ReleaseSock(s);
return ret;
}
// Thread for the status indicator client
void CncStatusPrinterWindowThreadProc(THREAD *thread, void *param)
{
CNC_STATUS_PRINTER_WINDOW_PARAM *pp;
SOCK *sock;
PACK *p;
// Validate arguments
if (thread == NULL || param == NULL)
{
return;
}
pp = (CNC_STATUS_PRINTER_WINDOW_PARAM *)param;
sock = pp->Sock;
pp->Thread = thread;
AddRef(pp->Thread->ref);
NoticeThreadInit(thread);
p = RecvPack(sock);
if (p != NULL)
{
// Stop the session
StopSessionEx(pp->Session, true);
FreePack(p);
}
}
// Create a status indicator client
SOCK *CncStatusPrinterWindowStart(SESSION *s)
{
SOCK *sock;
PACK *p;
THREAD *t;
CNC_STATUS_PRINTER_WINDOW_PARAM *param;
// Validate arguments
if (s == NULL)
{
return NULL;
}
sock = CncConnect();
if (sock == NULL)
{
return NULL;
}
p = NewPack();
PackAddStr(p, "function", "status_printer");
PackAddUniStr(p, "account_name", s->Account->ClientOption->AccountName);
if (SendPack(sock, p) == false)
{
FreePack(p);
ReleaseSock(sock);
return NULL;
}
FreePack(p);
param = ZeroMalloc(sizeof(CNC_STATUS_PRINTER_WINDOW_PARAM));
param->Sock = sock;
param->Session = s;
sock->Param = param;
t = NewThread(CncStatusPrinterWindowThreadProc, param);
WaitThreadInit(t);
ReleaseThread(t);
return sock;
}
// Send a string to the status indicator
void CncStatusPrinterWindowPrint(SOCK *s, wchar_t *str)
{
PACK *p;
// Validate arguments
if (s == NULL || str == NULL)
{
return;
}
p = NewPack();
PackAddUniStr(p, "string", str);
SendPack(s, p);
FreePack(p);
}
// Stop the status indicator client
void CncStatusPrinterWindowStop(SOCK *s)
{
CNC_STATUS_PRINTER_WINDOW_PARAM *param;
// Validate arguments
if (s == NULL)
{
return;
}
param = (CNC_STATUS_PRINTER_WINDOW_PARAM *)s->Param;
// Disconnect the client socket
Disconnect(s);
// Terminate the thread
WaitThread(param->Thread, INFINITE);
ReleaseThread(param->Thread);
Free(param);
ReleaseSock(s);
}
// Start the driver installer for Windows Vista
bool CncExecDriverInstaller(char *arg)
{
SOCK *s = CncConnect();
PACK *p;
bool ret;
if (s == NULL)
{
return false;
}
p = NewPack();
PackAddStr(p, "function", "exec_driver_installer");
PackAddStr(p, "arg", arg);
SendPack(s, p);
FreePack(p);
p = RecvPack(s);
if (p == NULL)
{
Disconnect(s);
ReleaseSock(s);
return false;
}
ret = PackGetBool(p, "ret");
FreePack(p);
Disconnect(s);
ReleaseSock(s);
return ret;
}
// Let the current running client notification services releasing the socket
void CncReleaseSocket()
{
SOCK *s = CncConnect();
PACK *p;
if (s == NULL)
{
return;
}
p = NewPack();
PackAddStr(p, "function", "release_socket");
#ifdef OS_WIN32
PackAddInt(p, "pid", MsGetProcessId());
#endif // OS_WIN32
SendPack(s, p);
FreePack(p);
Disconnect(s);
ReleaseSock(s);
}
// Terminate the process of the client notification service
void CncExit()
{
SOCK *s = CncConnectEx(256);
PACK *p;
if (s != NULL)
{
p = NewPack();
PackAddStr(p, "function", "exit");
SendPack(s, p);
FreePack(p);
FreePack(RecvPack(s));
Disconnect(s);
ReleaseSock(s);
}
#ifdef OS_WIN32
MsKillOtherInstanceEx("vpnclient");
#endif // OS_WIN32
}
// Connect to the client notification service
SOCK *CncConnect()
{
return CncConnectEx(0);
}
SOCK *CncConnectEx(UINT timeout)
{
SOCK *s = ConnectEx("localhost", CLIENT_NOTIFY_PORT, timeout);
return s;
}
#ifdef OS_WIN32
// Thread for the certificate check dialog
void Win32CnCheckCertThreadProc(THREAD *thread, void *param)
{
UI_CHECKCERT *dlg;
// Validate arguments
if (thread == NULL || param == NULL)
{
return;
}
dlg = (UI_CHECKCERT *)param;
CheckCertDlg(dlg);
{
PACK *p = NewPack();
PackAddBool(p, "Ok", dlg->Ok);
PackAddBool(p, "SaveServerCert", dlg->SaveServerCert);
SendPack(dlg->Sock, p);
FreePack(p);
FreePack(RecvPack(dlg->Sock));
}
Disconnect(dlg->Sock);
}
// Certificate check dialog
void Win32CnCheckCert(SOCK *s, PACK *p)
{
UI_CHECKCERT dlg;
THREAD *t;
Zero(&dlg, sizeof(dlg));
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
PackGetUniStr(p, "AccountName", dlg.AccountName, sizeof(dlg.AccountName));
PackGetStr(p, "ServerName", dlg.ServerName, sizeof(dlg.ServerName));
dlg.x = PackGetX(p, "x");
dlg.parent_x = PackGetX(p, "parent_x");
dlg.old_x = PackGetX(p, "old_x");
dlg.DiffWarning = PackGetBool(p, "DiffWarning");
dlg.Ok = PackGetBool(p, "Ok");
dlg.SaveServerCert = PackGetBool(p, "SaveServerCert");
dlg.Sock = s;
t = NewThread(Win32CnCheckCertThreadProc, &dlg);
FreePack(RecvPack(s));
dlg.Halt = true;
WaitThread(t, INFINITE);
ReleaseThread(t);
FreeX(dlg.parent_x);
FreeX(dlg.old_x);
FreeX(dlg.x);
}
// Message display dialog thread procedure
void Win32CnMsgDlgThreadProc(THREAD *thread, void *param)
{
UI_MSG_DLG *dlg = (UI_MSG_DLG *)param;
wchar_t tmp[MAX_SIZE];
char url[MAX_SIZE];
// Validate arguments
if (thread == NULL || dlg == NULL)
{
return;
}
UniFormat(tmp, sizeof(tmp), _UU("CM_MSG_TITLE"),
dlg->ServerName, dlg->HubName);
if (IsURLMsg(dlg->Msg, url, sizeof(url)) == false)
{
OnceMsgEx(NULL, tmp, dlg->Msg, true, 167, &dlg->Halt);
}
else
{
if (MsExecute(url, NULL) == false)
{
OnceMsgEx(NULL, tmp, dlg->Msg, true, 167, &dlg->Halt);
}
}
Disconnect(dlg->Sock);
}
// NIC information dialog thread procedure
void Win32CnNicInfoThreadProc(THREAD *thread, void *param)
{
UI_NICINFO *info = (UI_NICINFO *)param;
// Validate arguments
if (thread == NULL || info == NULL)
{
return;
}
if (MsIsNt())
{
// Do not show a dialog on Windows 9x system
NicInfo(info);
}
Disconnect(info->Sock);
}
// NIC information dialog
void Win32CnNicInfo(SOCK *s, PACK *p)
{
UI_NICINFO info;
THREAD *t;
Zero(&info, sizeof(info));
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
PackGetStr(p, "NicName", info.NicName, sizeof(info.NicName));
PackGetUniStr(p, "AccountName", info.AccountName, sizeof(info.AccountName));
info.Sock = s;
t = NewThread(Win32CnNicInfoThreadProc, &info);
FreePack(RecvPack(s));
info.Halt = true;
WaitThread(t, INFINITE);
ReleaseThread(t);
}
// Message display dialog
void Win32CnMsgDlg(SOCK *s, PACK *p)
{
UI_MSG_DLG dlg;
THREAD *t;
UINT utf_size;
char *utf;
wchar_t *msg;
Zero(&dlg, sizeof(dlg));
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
PackGetStr(p, "ServerName", dlg.ServerName, sizeof(dlg.ServerName));
PackGetStr(p, "HubName", dlg.HubName, sizeof(dlg.HubName));
utf_size = PackGetDataSize(p, "Msg");
utf = ZeroMalloc(utf_size + 8);
PackGetData(p, "Msg", utf);
msg = CopyUtfToUni(utf);
Free(utf);
dlg.Sock = s;
dlg.Msg = msg;
t = NewThread(Win32CnMsgDlgThreadProc, &dlg);
FreePack(RecvPack(s));
dlg.Halt = true;
WaitThread(t, INFINITE);
ReleaseThread(t);
Free(msg);
}
// Thread for Password input dialog
void Win32CnPasswordDlgThreadProc(THREAD *thread, void *param)
{
UI_PASSWORD_DLG *dlg;
// Validate arguments
if (thread == NULL || param == NULL)
{
return;
}
dlg = (UI_PASSWORD_DLG *)param;
if (PasswordDlg(NULL, dlg))
{
PACK *p = NewPack();
PackAddBool(p, "ok", true);
PackAddStr(p, "Username", dlg->Username);
PackAddStr(p, "Password", dlg->Password);
PackAddInt(p, "Type", dlg->Type);
PackAddBool(p, "ProxyServer", dlg->ProxyServer);
PackAddBool(p, "NoSavePassword", dlg->NoSavePassword);
SendPack(dlg->Sock, p);
FreePack(p);
FreePack(RecvPack(dlg->Sock));
}
Disconnect(dlg->Sock);
}
// Password input dialog
void Win32CnPasswordDlg(SOCK *s, PACK *p)
{
UI_PASSWORD_DLG dlg;
THREAD *t = NULL;
Zero(&dlg, sizeof(dlg));
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
dlg.Type = PackGetInt(p, "Type");
PackGetStr(p, "Username", dlg.Username, sizeof(dlg.Username));
PackGetStr(p, "Password", dlg.Password, sizeof(dlg.Password));
PackGetStr(p, "ServerName", dlg.ServerName, sizeof(dlg.ServerName));
dlg.RetryIntervalSec = PackGetInt(p, "RetryIntervalSec");
dlg.ProxyServer = PackGetBool(p, "ProxyServer");
dlg.AdminMode = PackGetBool(p, "AdminMode");
dlg.ShowNoSavePassword = PackGetBool(p, "ShowNoSavePassword");
dlg.NoSavePassword = PackGetBool(p, "NoSavePassword");
dlg.CancelEvent = NewEvent();
dlg.Sock = s;
t = NewThread(Win32CnPasswordDlgThreadProc, &dlg);
FreePack(RecvPack(s));
Set(dlg.CancelEvent);
WaitThread(t, INFINITE);
ReleaseEvent(dlg.CancelEvent);
ReleaseThread(t);
}
// Thread for the connection error dialog
void Win32CnConnectErrorDlgThreadProc(THREAD *thread, void *param)
{
UI_CONNECTERROR_DLG *dlg;
// Validate arguments
if (thread == NULL || param == NULL)
{
return;
}
dlg = (UI_CONNECTERROR_DLG *)param;
if (ConnectErrorDlg(dlg))
{
PACK *p = NewPack();
PackAddBool(p, "ok", true);
PackAddBool(p, "HideWindow", dlg->HideWindow);
SendPack(dlg->Sock, p);
FreePack(p);
FreePack(RecvPack(dlg->Sock));
}
Disconnect(dlg->Sock);
}
// Connection Error dialog (Win32)
void Win32CnConnectErrorDlg(SOCK *s, PACK *p)
{
UI_CONNECTERROR_DLG dlg;
THREAD *t;
Zero(&dlg, sizeof(dlg));
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
PackGetUniStr(p, "AccountName", dlg.AccountName, sizeof(dlg.AccountName));
PackGetStr(p, "ServerName", dlg.ServerName, sizeof(dlg.ServerName));
dlg.Err = PackGetInt(p, "Err");
dlg.CurrentRetryCount = PackGetInt(p, "CurrentRetryCount");
dlg.RetryLimit = PackGetInt(p, "RetryLimit");
dlg.RetryIntervalSec = PackGetInt(p, "RetryIntervalSec");
dlg.HideWindow = PackGetBool(p, "HideWindow");
dlg.CancelEvent = NewEvent();
dlg.Sock = s;
t = NewThread(Win32CnConnectErrorDlgThreadProc, &dlg);
FreePack(RecvPack(s));
Set(dlg.CancelEvent);
WaitThread(t, INFINITE);
ReleaseEvent(dlg.CancelEvent);
ReleaseThread(t);
}
// Status indicator (Win32)
void Win32CnStatusPrinter(SOCK *s, PACK *p)
{
STATUS_WINDOW *w;
wchar_t account_name[MAX_ACCOUNT_NAME_LEN + 1];
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
PackGetUniStr(p, "account_name", account_name, sizeof(account_name));
w = StatusPrinterWindowStart(s, account_name);
while (true)
{
PACK *p = RecvPack(s);
if (p == NULL)
{
// Exit the dialog because it is disconnected
break;
}
else
{
wchar_t tmp[MAX_SIZE];
// Rewrite the string
PackGetUniStr(p, "string", tmp, sizeof(tmp));
StatusPrinterWindowPrint(w, tmp);
FreePack(p);
}
}
StatusPrinterWindowStop(w);
}
// Start the driver installer (for Windows Vista)
void Win32CnExecDriverInstaller(SOCK *s, PACK *p)
{
char arg[MAX_SIZE];
bool ret;
void *helper = NULL;
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
if (PackGetStr(p, "arg", arg, sizeof(arg)) == false)
{
return;
}
if (MsIsVista())
{
helper = CmStartUacHelper();
}
ret = MsExecDriverInstaller(arg);
CmStopUacHelper(helper);
p = NewPack();
PackAddBool(p, "ret", ret);
SendPack(s, p);
FreePack(p);
}
#endif // OS_WIN32
// Start the driver installer
void CnExecDriverInstaller(SOCK *s, PACK *p)
{
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
#ifdef OS_WIN32
Win32CnExecDriverInstaller(s, p);
#endif // OS_WIN32
}
// Certificate confirmation dialog
void CnCheckCert(SOCK *s, PACK *p)
{
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
#ifdef OS_WIN32
Win32CnCheckCert(s, p);
#endif // OS_WIN32
}
// NIC information dialog
void CnNicInfo(SOCK *s, PACK *p)
{
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
#ifdef OS_WIN32
Win32CnNicInfo(s, p);
#endif // OS_WIN32
}
// Message display dialog
void CnMsgDlg(SOCK *s, PACK *p)
{
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
#ifdef OS_WIN32
Win32CnMsgDlg(s, p);
#endif // OS_WIN32
}
// Password input dialog
void CnPasswordDlg(SOCK *s, PACK *p)
{
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
#ifdef OS_WIN32
Win32CnPasswordDlg(s, p);
#endif // OS_WIN32
}
// Connection Error dialog
void CnConnectErrorDlg(SOCK *s, PACK *p)
{
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
#ifdef OS_WIN32
Win32CnConnectErrorDlg(s, p);
#endif // OS_WIN32
}
// Status indicator
void CnStatusPrinter(SOCK *s, PACK *p)
{
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
#ifdef OS_WIN32
Win32CnStatusPrinter(s, p);
#endif // OS_WIN32
}
// Client notification service listener thread
void CnListenerProc(THREAD *thread, void *param)
{
TCP_ACCEPTED_PARAM *data = (TCP_ACCEPTED_PARAM *)param;
SOCK *s;
PACK *p;
// Validate arguments
if (data == NULL || thread == NULL)
{
return;
}
#ifdef OS_WIN32
//Set Application ID
JL_SetCurrentProcessExplicitAppUserModelID(APPID_CM);
#endif // OS_WIN32
s = data->s;
AddRef(s->ref);
NoticeThreadInit(thread);
if (s->LocalIP.addr[0] == 127)
{
p = RecvPack(s);
if (p != NULL)
{
char function[MAX_SIZE];
if (PackGetStr(p, "function", function, sizeof(function)))
{
if (StrCmpi(function, "status_printer") == 0)
{
CnStatusPrinter(s, p);
}
else if (StrCmpi(function, "connecterror_dialog") == 0)
{
CnConnectErrorDlg(s, p);
}
else if (StrCmpi(function, "msg_dialog") == 0)
{
CnMsgDlg(s, p);
}
else if (StrCmpi(function, "nicinfo") == 0)
{
CnNicInfo(s, p);
}
else if (StrCmpi(function, "password_dialog") == 0)
{
CnPasswordDlg(s, p);
}
else if (StrCmpi(function, "secure_sign") == 0)
{
CnSecureSign(s, p);
}
else if (StrCmpi(function, "check_cert") == 0)
{
CnCheckCert(s, p);
}
else if (StrCmpi(function, "exit") == 0)
{
#ifdef OS_WIN32
MsTerminateProcess();
#else // OS_WIN32
_exit(0);
#endif // OS_WIN32
}
else if (StrCmpi(function, "get_session_id") == 0)
{
PACK *p = NewPack();
#ifdef OS_WIN32
PackAddInt(p, "session_id", MsGetCurrentTerminalSessionId());
#endif // OS_WIN32
SendPack(s, p);
FreePack(p);
}
else if (StrCmpi(function, "exec_driver_installer") == 0)
{
CnExecDriverInstaller(s, p);
}
else if (StrCmpi(function, "release_socket") == 0)
{
// Stop the listener
CnReleaseSocket(s, p);
}
}
FreePack(p);
}
}
Disconnect(s);
ReleaseSock(s);
}
// Do the Secure Sign
void CnSecureSign(SOCK *s, PACK *p)
{
SECURE_SIGN sign;
bool ret = false;
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
Zero(&sign, sizeof(sign));
InRpcSecureSign(&sign, p);
#ifdef OS_WIN32
// Win32: Show dialog
ret = Win32CiSecureSign(&sign);
#else // OS_WIN32
// UNIX: not implemented
ret = false;
#endif // OS_WIN32
p = NewPack();
OutRpcSecureSign(p, &sign);
FreeRpcSecureSign(&sign);
PackAddBool(p, "ret", ret);
SendPack(s, p);
FreePack(p);
}
// Stop the listener
void CnReleaseSocket(SOCK *s, PACK *p)
{
UINT pid = 0;
UINT current_pid = 0;
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
pid = PackGetInt(p, "pid");
#ifdef OS_WIN32
current_pid = MsGetProcessId();
#endif // OS_WIN32
if (current_pid == pid)
{
return;
}
Lock(cn_listener_lock);
{
if (cn_listener != NULL)
{
if (cn_listener->Halt == false)
{
StopListener(cn_listener);
cn_next_allow = Tick64() + (6 * 1000);
}
}
}
Unlock(cn_listener_lock);
}
// Start the client notification service
void CnStart()
{
CEDAR *cedar;
LISTENER *o;
UINT last_cursor_hash = 0;
bool last_session_active = false;
cn_next_allow = 0;
cn_listener_lock = NewLock();
#ifdef OS_WIN32
MsSetShutdownParameters(0xff, 0x00000001);
InitWinUi(_UU("CN_TITLE"), _SS("DEFAULT_FONT"), _II("DEFAULT_FONT_SIZE"));
#endif // OS_WIN32
cedar = NewCedar(NULL, NULL);
if (CnCheckAlreadyExists(true))
{
// Already started
ReleaseCedar(cedar);
#ifdef OS_WIN32
FreeWinUi();
#endif // OS_WIN32
return;
}
#ifdef OS_WIN32
MsRegWriteInt(REG_CURRENT_USER, CM_REG_KEY,
"NotifyServerProcessId", MsGetProcessId());
#endif // OS_WIN32
DisableDosProtect();
BEGIN_LISTENER:
Lock(cn_listener_lock);
cn_listener = o = NewListenerEx2(cedar, LISTENER_TCP, CLIENT_NOTIFY_PORT, CnListenerProc, NULL, true);
Unlock(cn_listener_lock);
while (true)
{
UINT current_cursor_hash = 0;
bool cursor_changed = false;
#ifdef OS_WIN32
// Get the current cursor position
current_cursor_hash = MsGetCursorPosHash();
#endif // OS_WIN32
if (last_cursor_hash != current_cursor_hash)
{
// Check the cursor position
cursor_changed = true;
last_cursor_hash = current_cursor_hash;
}
Lock(cn_listener_lock);
// Check the status periodically after that the listener has started
if (cn_listener->Status == LISTENER_STATUS_TRYING || cn_listener->Halt)
{
bool session_active = false;
#ifdef OS_WIN32
session_active = MsIsCurrentTerminalSessionActive();
if (cursor_changed)
{
// If the cursor position is changed but the terminal session is
// not active, the cursor position is regarded as not changed.
if (session_active == false)
{
cursor_changed = false;
}
}
if (last_session_active != session_active)
{
//If the cursor position doesn't changed but the terminal session
// became active than previous, the cursor position is regarded as changed.
last_session_active = session_active;
if (session_active)
{
cursor_changed = true;
}
}
#endif // OS_WIN32
// If the port cannot be opened
if (cn_next_allow <= Tick64())
{
#ifdef OS_WIN32
if (cursor_changed)
{
// It can be judged to have the rights to open the port
// since the mouse cursor is moving.
// So, take over the port which is owned by other process forcibly
CncReleaseSocket();
}
#endif // OS_WIN32
if (cn_listener->Halt)
{
ReleaseListener(cn_listener);
cn_listener = NULL;
Unlock(cn_listener_lock);
goto BEGIN_LISTENER;
}
}
}
Unlock(cn_listener_lock);
SleepThread(1000);
}
}
// Confirm whether the account file is parsed successfully
bool CiTryToParseAccount(BUF *b)
{
RPC_CLIENT_CREATE_ACCOUNT *a;
// Validate arguments
if (b == NULL)
{
return false;
}
a = CiCfgToAccount(b);
if (a != NULL)
{
CiFreeClientCreateAccount(a);
Free(a);
return true;
}
else
{
return false;
}
}
bool CiTryToParseAccountFile(wchar_t *name)
{
bool ret;
BUF *b;
// Validate arguments
if (name == NULL)
{
return false;
}
b = ReadDumpW(name);
if (b == NULL)
{
return false;
}
ret = CiTryToParseAccount(b);
FreeBuf(b);
return ret;
}
// Confirm whether the account information includes sensitive information
bool CiHasAccountSensitiveInformation(BUF *b)
{
RPC_CLIENT_CREATE_ACCOUNT *a;
bool ret = false;
// Validate arguments
if (b == NULL)
{
return false;
}
a = CiCfgToAccount(b);
if (a == NULL)
{
return false;
}
if (a->ClientAuth->AuthType == CLIENT_AUTHTYPE_PASSWORD)
{
ret = true;
}
else if (a->ClientAuth->AuthType == CLIENT_AUTHTYPE_PLAIN_PASSWORD)
{
ret = true;
}
CiFreeClientCreateAccount(a);
Free(a);
return ret;
}
// Delete the sensitive information in the account information
bool CiEraseSensitiveInAccount(BUF *b)
{
RPC_CLIENT_CREATE_ACCOUNT *a;
BUF *b2;
bool ret = false;
// Validate arguments
if (b == NULL)
{
return false;
}
a = CiCfgToAccount(b);
if (a == NULL)
{
return false;
}
if (a->ClientAuth->AuthType == CLIENT_AUTHTYPE_PASSWORD)
{
Zero(a->ClientAuth->HashedPassword, sizeof(a->ClientAuth->HashedPassword));
ClearStr(a->ClientAuth->Username, sizeof(a->ClientAuth->Username));
}
else if (a->ClientAuth->AuthType == CLIENT_AUTHTYPE_PLAIN_PASSWORD)
{
ClearStr(a->ClientAuth->PlainPassword, sizeof(a->ClientAuth->PlainPassword));
ClearStr(a->ClientAuth->Username, sizeof(a->ClientAuth->Username));
}
b2 = CiAccountToCfg(a);
if (b2 != NULL)
{
ret = true;
ClearBuf(b);
WriteBuf(b, b2->Buf, b2->Size);
SeekBuf(b, 0, 0);
FreeBuf(b2);
}
CiFreeClientCreateAccount(a);
Free(a);
return ret;
}
// Read the account information from the buffer
RPC_CLIENT_CREATE_ACCOUNT *CiCfgToAccount(BUF *b)
{
RPC_CLIENT_CREATE_ACCOUNT *t;
FOLDER *f;
ACCOUNT *a;
// Validate arguments
if (b == NULL)
{
return NULL;
}
f = CfgBufTextToFolder(b);
if (f == NULL)
{
return NULL;
}
a = CiLoadClientAccount(f);
CfgDeleteFolder(f);
if (a == NULL)
{
return NULL;
}
DeleteLock(a->lock);
t = ZeroMalloc(sizeof(RPC_CLIENT_CREATE_ACCOUNT));
t->ClientOption = a->ClientOption;
t->ClientAuth = a->ClientAuth;
t->StartupAccount = a->StartupAccount;
t->CheckServerCert = a->CheckServerCert;
t->RetryOnServerCert = a->RetryOnServerCert;
t->ServerCert = a->ServerCert;
Free(a);
return t;
}
// Write the account information to a buffer
BUF *CiAccountToCfg(RPC_CLIENT_CREATE_ACCOUNT *t)
{
BUF *b;
FOLDER *root;
ACCOUNT a;
// Validate arguments
if (t == NULL)
{
return NULL;
}
root = CfgCreateFolder(NULL, TAG_ROOT);
Zero(&a, sizeof(a));
a.ClientOption = t->ClientOption;
a.ClientAuth = t->ClientAuth;
a.CheckServerCert = t->CheckServerCert;
a.RetryOnServerCert = t->RetryOnServerCert;
a.ServerCert = t->ServerCert;
a.StartupAccount = t->StartupAccount;
CiWriteAccountData(root, &a);
b = CfgFolderToBufEx(root, true, true);
CfgDeleteFolder(root);
return b;
}
// RPC dispatch routine
PACK *CiRpcDispatch(RPC *rpc, char *name, PACK *p)
{
PACK *ret;
CLIENT *c;
// Validate arguments
if (rpc == NULL || name == NULL || p == NULL)
{
return NULL;
}
c = rpc->Param;
ret = NewPack();
if (StrCmpi(name, "GetClientVersion") == 0)
{
RPC_CLIENT_VERSION a;
if (CtGetClientVersion(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientVersion(ret, &a);
}
}
else if (StrCmpi(name, "GetCmSetting") == 0)
{
CM_SETTING a;
if (CtGetCmSetting(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcCmSetting(ret, &a);
}
}
else if (StrCmpi(name, "SetCmSetting") == 0)
{
CM_SETTING a;
Zero(&a, sizeof(a));
InRpcCmSetting(&a, p);
if (CtSetCmSetting(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "SetPassword") == 0)
{
RPC_CLIENT_PASSWORD a;
InRpcClientPassword(&a, p);
if (CtSetPassword(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "GetPasswordSetting") == 0)
{
RPC_CLIENT_PASSWORD_SETTING a;
if (CtGetPasswordSetting(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientPasswordSetting(ret, &a);
}
}
else if (StrCmpi(name, "EnumCa") == 0)
{
RPC_CLIENT_ENUM_CA a;
if (CtEnumCa(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientEnumCa(ret, &a);
CiFreeClientEnumCa(&a);
}
}
else if (StrCmpi(name, "AddCa") == 0)
{
RPC_CERT a;
InRpcCert(&a, p);
if (CtAddCa(c, &a) == false)
{
RpcError(ret, c->Err);
}
FreeX(a.x);
}
else if (StrCmpi(name, "DeleteCa") == 0)
{
RPC_CLIENT_DELETE_CA a;
InRpcClientDeleteCa(&a, p);
if (CtDeleteCa(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "GetCa") == 0)
{
RPC_GET_CA a;
InRpcGetCa(&a, p);
if (CtGetCa(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcGetCa(ret, &a);
}
CiFreeGetCa(&a);
}
else if (StrCmpi(name, "EnumSecure") == 0)
{
RPC_CLIENT_ENUM_SECURE a;
if (CtEnumSecure(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientEnumSecure(ret, &a);
CiFreeClientEnumSecure(&a);
}
}
else if (StrCmpi(name, "UseSecure") == 0)
{
RPC_USE_SECURE a;
InRpcUseSecure(&a, p);
if (CtUseSecure(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "GetUseSecure") == 0)
{
RPC_USE_SECURE a;
Zero(&a, sizeof(a));
if (CtGetUseSecure(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcUseSecure(ret, &a);
}
}
else if (StrCmpi(name, "EnumObjectInSecure") == 0)
{
RPC_ENUM_OBJECT_IN_SECURE a;
if (CtEnumObjectInSecure(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcEnumObjectInSecure(ret, &a);
CiFreeEnumObjectInSecure(&a);
}
}
else if (StrCmpi(name, "CreateVLan") == 0)
{
RPC_CLIENT_CREATE_VLAN a;
InRpcCreateVLan(&a, p);
if (CtCreateVLan(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "UpgradeVLan") == 0)
{
RPC_CLIENT_CREATE_VLAN a;
InRpcCreateVLan(&a, p);
if (CtUpgradeVLan(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "GetVLan") == 0)
{
RPC_CLIENT_GET_VLAN a;
InRpcClientGetVLan(&a, p);
if (CtGetVLan(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientGetVLan(ret, &a);
}
}
else if (StrCmpi(name, "SetVLan") == 0)
{
RPC_CLIENT_SET_VLAN a;
InRpcClientSetVLan(&a, p);
if (CtSetVLan(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "EnumVLan") == 0)
{
RPC_CLIENT_ENUM_VLAN a;
if (CtEnumVLan(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientEnumVLan(ret, &a);
CiFreeClientEnumVLan(&a);
}
}
else if (StrCmpi(name, "DeleteVLan") == 0)
{
RPC_CLIENT_CREATE_VLAN a;
InRpcCreateVLan(&a, p);
if (CtDeleteVLan(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "EnableVLan") == 0)
{
RPC_CLIENT_CREATE_VLAN a;
InRpcCreateVLan(&a, p);
if (CtEnableVLan(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "DisableVLan") == 0)
{
RPC_CLIENT_CREATE_VLAN a;
InRpcCreateVLan(&a, p);
if (CtDisableVLan(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "CreateAccount") == 0)
{
RPC_CLIENT_CREATE_ACCOUNT a;
InRpcClientCreateAccount(&a, p);
if (CtCreateAccount(c, &a, false) == false)
{
RpcError(ret, c->Err);
}
CiFreeClientCreateAccount(&a);
}
else if (StrCmpi(name, "EnumAccount") == 0)
{
RPC_CLIENT_ENUM_ACCOUNT a;
if (CtEnumAccount(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientEnumAccount(ret, &a);
CiFreeClientEnumAccount(&a);
}
}
else if (StrCmpi(name, "DeleteAccount") == 0)
{
RPC_CLIENT_DELETE_ACCOUNT a;
InRpcClientDeleteAccount(&a, p);
if (CtDeleteAccount(c, &a, false) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "SetStartupAccount") == 0)
{
RPC_CLIENT_DELETE_ACCOUNT a;
InRpcClientDeleteAccount(&a, p);
if (CtSetStartupAccount(c, &a, false) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "RemoveStartupAccount") == 0)
{
RPC_CLIENT_DELETE_ACCOUNT a;
InRpcClientDeleteAccount(&a, p);
if (CtRemoveStartupAccount(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "GetIssuer") == 0)
{
RPC_GET_ISSUER a;
InRpcGetIssuer(&a, p);
if (CtGetIssuer(c, &a))
{
OutRpcGetIssuer(ret, &a);
}
else
{
RpcError(ret, c->Err);
}
CiFreeGetIssuer(&a);
}
else if (StrCmpi(name, "GetCommonProxySetting") == 0)
{
INTERNET_SETTING t;
InRpcInternetSetting(&t, p);
if (CtGetCommonProxySetting(c, &t))
{
OutRpcInternetSetting(ret, &t);
}
else
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "SetCommonProxySetting") == 0)
{
INTERNET_SETTING t;
InRpcInternetSetting(&t, p);
if (CtSetCommonProxySetting(c, &t))
{
OutRpcInternetSetting(ret, &t);
}
else
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "SetAccount") == 0)
{
RPC_CLIENT_CREATE_ACCOUNT a;
InRpcClientCreateAccount(&a, p);
if (CtSetAccount(c, &a, false) == false)
{
RpcError(ret, c->Err);
}
CiFreeClientCreateAccount(&a);
}
else if (StrCmpi(name, "GetAccount") == 0)
{
RPC_CLIENT_GET_ACCOUNT a;
InRpcClientGetAccount(&a, p);
if (CtGetAccount(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientGetAccount(ret, &a);
}
CiFreeClientGetAccount(&a);
}
else if (StrCmpi(name, "RenameAccount") == 0)
{
RPC_RENAME_ACCOUNT a;
InRpcRenameAccount(&a, p);
if (CtRenameAccount(c, &a, false) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "SetClientConfig") == 0)
{
CLIENT_CONFIG a;
InRpcClientConfig(&a, p);
if (CtSetClientConfig(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "GetClientConfig") == 0)
{
CLIENT_CONFIG a;
if (CtGetClientConfig(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientConfig(ret, &a);
}
}
else if (StrCmpi(name, "Connect") == 0)
{
RPC_CLIENT_CONNECT a;
InRpcClientConnect(&a, p);
if (CtConnect(c, &a) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "Disconnect") == 0)
{
RPC_CLIENT_CONNECT a;
InRpcClientConnect(&a, p);
if (CtDisconnect(c, &a, false) == false)
{
RpcError(ret, c->Err);
}
}
else if (StrCmpi(name, "GetAccountStatus") == 0)
{
RPC_CLIENT_GET_CONNECTION_STATUS a;
InRpcClientGetConnectionStatus(&a, p);
if (CtGetAccountStatus(c, &a) == false)
{
RpcError(ret, c->Err);
}
else
{
OutRpcClientGetConnectionStatus(ret, &a);
}
CiFreeClientGetConnectionStatus(&a);
}
else
{
FreePack(ret);
ret = NULL;
}
return ret;
}
// Set the CM_SETTING
UINT CcSetCmSetting(REMOTE_CLIENT *r, CM_SETTING *a)
{
PACK *ret, *p;
UINT err;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcCmSetting(p, a);
ret = RpcCall(r->Rpc, "SetCmSetting", p);
if (RpcIsOk(ret))
{
FreePack(ret);
return 0;
}
else
{
err = RpcGetError(ret);
FreePack(ret);
return err;
}
}
// Get the CM_SETTING
UINT CcGetCmSetting(REMOTE_CLIENT *r, CM_SETTING *a)
{
PACK *ret;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
ret = RpcCall(r->Rpc, "GetCmSetting", NULL);
if (RpcIsOk(ret))
{
InRpcCmSetting(a, ret);
FreePack(ret);
return 0;
}
else
{
UINT err = RpcGetError(ret);
FreePack(ret);
return err;
}
}
// Get the client version
UINT CcGetClientVersion(REMOTE_CLIENT *r, RPC_CLIENT_VERSION *a)
{
PACK *ret;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
ret = RpcCall(r->Rpc, "GetClientVersion", NULL);
if (RpcIsOk(ret))
{
InRpcClientVersion(a, ret);
FreePack(ret);
return 0;
}
else
{
UINT err = RpcGetError(ret);
FreePack(ret);
return err;
}
}
// Set the password
UINT CcSetPassword(REMOTE_CLIENT *r, RPC_CLIENT_PASSWORD *pass)
{
PACK *ret, *p;
// Validate arguments
if (r == NULL || pass == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientPassword(p, pass);
ret = RpcCall(r->Rpc, "SetPassword", p);
if (RpcIsOk(ret))
{
FreePack(ret);
return 0;
}
else
{
UINT err = RpcGetError(ret);
FreePack(ret);
return err;
}
}
// Get the password setting
UINT CcGetPasswordSetting(REMOTE_CLIENT *r, RPC_CLIENT_PASSWORD_SETTING *a)
{
PACK *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
ret = RpcCall(r->Rpc, "GetPasswordSetting", NULL);
if (RpcIsOk(ret))
{
InRpcClientPasswordSetting(a, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Enumerate the CA
UINT CcEnumCa(REMOTE_CLIENT *r, RPC_CLIENT_ENUM_CA *e)
{
PACK *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || e == NULL)
{
return ERR_INTERNAL_ERROR;
}
ret = RpcCall(r->Rpc, "EnumCa", NULL);
if (RpcIsOk(ret))
{
InRpcClientEnumCa(e, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Add the CA
UINT CcAddCa(REMOTE_CLIENT *r, RPC_CERT *cert)
{
PACK *p, *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || cert == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcCert(p, cert);
ret = RpcCall(r->Rpc, "AddCa", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Delete the CA
UINT CcDeleteCa(REMOTE_CLIENT *r, RPC_CLIENT_DELETE_CA *c)
{
PACK *p, *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || c == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientDeleteCa(p, c);
ret = RpcCall(r->Rpc, "DeleteCa", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Get the issuer
UINT CcGetIssuer(REMOTE_CLIENT *r, RPC_GET_ISSUER *a)
{
PACK *p, *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcGetIssuer(p, a);
ret = RpcCall(r->Rpc, "GetIssuer", p);
if (RpcIsOk(ret))
{
if (a->x != NULL)
{
FreeX(a->x);
a->x = NULL;
}
InRpcGetIssuer(a, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Get the CA
UINT CcGetCa(REMOTE_CLIENT *r, RPC_GET_CA *get)
{
PACK *p, *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || get == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcGetCa(p, get);
ret = RpcCall(r->Rpc, "GetCa", p);
if (RpcIsOk(ret))
{
InRpcGetCa(get, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Enumeration of the secure devices
UINT CcEnumSecure(REMOTE_CLIENT *r, RPC_CLIENT_ENUM_SECURE *e)
{
PACK *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || e == NULL)
{
return ERR_INTERNAL_ERROR;
}
ret = RpcCall(r->Rpc, "EnumSecure", NULL);
if (RpcIsOk(ret))
{
InRpcClientEnumSecure(e, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Get the secure device that the user is using
UINT CcGetUseSecure(REMOTE_CLIENT *r, RPC_USE_SECURE *sec)
{
PACK *p, *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || sec == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
ret = RpcCall(r->Rpc, "GetUseSecure", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
else
{
InRpcUseSecure(sec, ret);
}
FreePack(ret);
return err;
}
// Use the secure device
UINT CcUseSecure(REMOTE_CLIENT *r, RPC_USE_SECURE *sec)
{
PACK *p, *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || sec == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcUseSecure(p, sec);
ret = RpcCall(r->Rpc, "UseSecure", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Get a next recommended virtual LAN card name
bool CiGetNextRecommendedVLanName(REMOTE_CLIENT *r, char *name, UINT size)
{
RPC_CLIENT_ENUM_VLAN t;
UINT i;
bool b;
UINT j;
bool ok = false;
// Validate arguments
if (r == NULL || name == NULL)
{
return false;
}
Zero(&t, sizeof(t));
if (CcEnumVLan(r, &t) != ERR_NO_ERROR)
{
return false;
}
for (i = 1;i < 128;i++)
{
char tmp[MAX_SIZE];
CiGenerateVLanRegulatedName(tmp, sizeof(tmp), i);
b = false;
for (j = 0;j < t.NumItem;j++)
{
if (StrCmpi(t.Items[j]->DeviceName, tmp) == 0)
{
b = true;
break;
}
}
if (b == false)
{
ok = true;
StrCpy(name, size, tmp);
break;
}
}
if (ok)
{
CiFreeClientEnumVLan(&t);
}
return true;
}
// Generate a virtual LAN card name automatically
void CiGenerateVLanRegulatedName(char *name, UINT size, UINT i)
{
// Validate arguments
if (name == NULL)
{
return;
}
if (i == 1)
{
StrCpy(name, size, "VPN");
}
else
{
Format(name, size, "VPN%u", i);
}
}
// Examine whether the specified name is valid as a virtual LAN card name of Windows 8 and later?
bool CiIsValidVLanRegulatedName(char *name)
{
UINT i;
// Validate arguments
if (name == NULL)
{
return false;
}
for (i = 1;i < 128;i++)
{
char tmp[MAX_SIZE];
CiGenerateVLanRegulatedName(tmp, sizeof(tmp), i);
if (StrCmpi(name, tmp) == 0)
{
return true;
}
}
return false;
}
// Create a VLAN
UINT CcCreateVLan(REMOTE_CLIENT *r, RPC_CLIENT_CREATE_VLAN *create)
{
PACK *ret, *p;
UINT err = 0;
char *s = NULL;
// Validate arguments
if (r == NULL || create == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcCreateVLan(p, create);
#ifdef OS_WIN32
s = MsNoWarningSoundInit();
#endif // OS_WIN32
ret = RpcCall(r->Rpc, "CreateVLan", p);
#ifdef OS_WIN32
MsNoWarningSoundFree(s);
#endif // OS_WIN32
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Upgrade the VLAN
UINT CcUpgradeVLan(REMOTE_CLIENT *r, RPC_CLIENT_CREATE_VLAN *create)
{
PACK *ret, *p;
UINT err = 0;
char *s = NULL;
// Validate arguments
if (r == NULL || create == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcCreateVLan(p, create);
#ifdef OS_WIN32
s = MsNoWarningSoundInit();
#endif // OS_WIN32
ret = RpcCall(r->Rpc, "UpgradeVLan", p);
#ifdef OS_WIN32
MsNoWarningSoundFree(s);
#endif // OS_WIN32
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Get the VLAN
UINT CcGetVLan(REMOTE_CLIENT *r, RPC_CLIENT_GET_VLAN *get)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || get == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientGetVLan(p, get);
ret = RpcCall(r->Rpc, "GetVLan", p);
if (RpcIsOk(ret))
{
InRpcClientGetVLan(get, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// VLAN configuration
UINT CcSetVLan(REMOTE_CLIENT *r, RPC_CLIENT_SET_VLAN *set)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || set == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientSetVLan(p, set);
ret = RpcCall(r->Rpc, "SetVLan", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Enumeration of VLAN
UINT CcEnumVLan(REMOTE_CLIENT *r, RPC_CLIENT_ENUM_VLAN *e)
{
PACK *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || e == NULL)
{
return ERR_INTERNAL_ERROR;
}
ret = RpcCall(r->Rpc, "EnumVLan", NULL);
if (RpcIsOk(ret))
{
InRpcClientEnumVLan(e, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Delete the VLAN
UINT CcDeleteVLan(REMOTE_CLIENT *r, RPC_CLIENT_CREATE_VLAN *d)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || d == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcCreateVLan(p, d);
ret = RpcCall(r->Rpc, "DeleteVLan", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Enable the VLAN
UINT CcEnableVLan(REMOTE_CLIENT *r, RPC_CLIENT_CREATE_VLAN *vlan)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || vlan == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcCreateVLan(p, vlan);
ret = RpcCall(r->Rpc, "EnableVLan", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Disable the VLAN
UINT CcDisableVLan(REMOTE_CLIENT *r, RPC_CLIENT_CREATE_VLAN *vlan)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || vlan == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcCreateVLan(p, vlan);
ret = RpcCall(r->Rpc, "DisableVLan", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Create an Account
UINT CcCreateAccount(REMOTE_CLIENT *r, RPC_CLIENT_CREATE_ACCOUNT *a)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientCreateAccount(p, a);
ret = RpcCall(r->Rpc, "CreateAccount", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Enumeration of accounts
UINT CcEnumAccount(REMOTE_CLIENT *r, RPC_CLIENT_ENUM_ACCOUNT *e)
{
PACK *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || e == NULL)
{
return ERR_INTERNAL_ERROR;
}
ret = RpcCall(r->Rpc, "EnumAccount", NULL);
if (RpcIsOk(ret))
{
UINT i;
InRpcClientEnumAccount(e, ret);
for (i = 0;i < e->NumItem;i++)
{
RPC_CLIENT_ENUM_ACCOUNT_ITEM *t = e->Items[i];
if (IsEmptyStr(t->HubName) && t->Port == 0)
{
UINT err2;
RPC_CLIENT_GET_ACCOUNT a;
// Because the Client Manager can not get the port number and HUB name
// when enumerating in the VPN Client of the old version, get these separately.
Zero(&a, sizeof(a));
UniStrCpy(a.AccountName, sizeof(a.AccountName), t->AccountName);
err2 = CcGetAccount(r, &a);
if (err2 == ERR_NO_ERROR)
{
StrCpy(t->HubName, sizeof(t->HubName), a.ClientOption->HubName);
t->Port = a.ClientOption->Port;
CiFreeClientGetAccount(&a);
}
}
}
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Unset the startup flag of the account
UINT CcRemoveStartupAccount(REMOTE_CLIENT *r, RPC_CLIENT_DELETE_ACCOUNT *a)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientDeleteAccount(p, a);
ret = RpcCall(r->Rpc, "RemoveStartupAccount", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Set to start-up flag of the account
UINT CcSetStartupAccount(REMOTE_CLIENT *r, RPC_CLIENT_DELETE_ACCOUNT *a)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientDeleteAccount(p, a);
ret = RpcCall(r->Rpc, "SetStartupAccount", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Delete the account
UINT CcDeleteAccount(REMOTE_CLIENT *r, RPC_CLIENT_DELETE_ACCOUNT *a)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientDeleteAccount(p, a);
ret = RpcCall(r->Rpc, "DeleteAccount", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Account setting
UINT CcSetAccount(REMOTE_CLIENT *r, RPC_CLIENT_CREATE_ACCOUNT *a)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientCreateAccount(p, a);
ret = RpcCall(r->Rpc, "SetAccount", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Get the account
UINT CcGetAccount(REMOTE_CLIENT *r, RPC_CLIENT_GET_ACCOUNT *a)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || a == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientGetAccount(p, a);
ret = RpcCall(r->Rpc, "GetAccount", p);
if (RpcIsOk(ret))
{
InRpcClientGetAccount(a, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Change the account name
UINT CcRenameAccount(REMOTE_CLIENT *r, RPC_RENAME_ACCOUNT *rename)
{
PACK *p, *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || rename == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcRenameAccount(p, rename);
ret = RpcCall(r->Rpc, "RenameAccount", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Set the Client configuration
UINT CcSetClientConfig(REMOTE_CLIENT *r, CLIENT_CONFIG *o)
{
PACK *p, *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || o == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientConfig(p, o);
ret = RpcCall(r->Rpc, "SetClientConfig", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Get the client configuration
UINT CcGetClientConfig(REMOTE_CLIENT *r, CLIENT_CONFIG *o)
{
PACK *ret;
UINT err = 0;
// Validate arguments
if (r == NULL || o == NULL)
{
return ERR_INTERNAL_ERROR;
}
ret = RpcCall(r->Rpc, "GetClientConfig", NULL);
if (RpcIsOk(ret))
{
InRpcClientConfig(o, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Set the service to foreground process
void CcSetServiceToForegroundProcess(REMOTE_CLIENT *r)
{
// Validate arguments
if (r == NULL)
{
return;
}
// Abolition
/*
if (r->Rpc != NULL && r->Rpc->Sock != NULL && r->Rpc->Sock->RemoteIP.addr[0] == 127)
{
if (OS_IS_WINDOWS_NT(GetOsInfo()->OsType) &&
GET_KETA(GetOsInfo()->OsType, 100) >= 2)
{
// Only on a Windows 2000 or later
RPC_CLIENT_VERSION v;
Zero(&v, sizeof(v));
if (r->ClientBuildInt == 0)
{
CcGetClientVersion(r, &v);
r->ClientBuildInt = v.ClientBuildInt;
r->ProcessId = v.ProcessId;
}
if (r->ProcessId != 0 && r->ClientBuildInt <= 5080)
{
#ifdef OS_WIN32
// Set the service process as a foreground window
AllowFGWindow(v.ProcessId);
#endif // OS_WIN32
}
}
}*/
}
// Connect
UINT CcConnect(REMOTE_CLIENT *r, RPC_CLIENT_CONNECT *connect)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || connect == NULL)
{
return ERR_INTERNAL_ERROR;
}
CcSetServiceToForegroundProcess(r);
p = NewPack();
OutRpcClientConnect(p, connect);
ret = RpcCall(r->Rpc, "Connect", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Disconnect
UINT CcDisconnect(REMOTE_CLIENT *r, RPC_CLIENT_CONNECT *connect)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || connect == NULL)
{
return ERR_INTERNAL_ERROR;
}
CcSetServiceToForegroundProcess(r);
p = NewPack();
OutRpcClientConnect(p, connect);
ret = RpcCall(r->Rpc, "Disconnect", p);
if (RpcIsOk(ret) == false)
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Get the account status
UINT CcGetAccountStatus(REMOTE_CLIENT *r, RPC_CLIENT_GET_CONNECTION_STATUS *st)
{
PACK *ret, *p;
UINT err = 0;
// Validate arguments
if (r == NULL || st == NULL)
{
return ERR_INTERNAL_ERROR;
}
p = NewPack();
OutRpcClientGetConnectionStatus(p, st);
ret = RpcCall(r->Rpc, "GetAccountStatus", p);
if (RpcIsOk(ret))
{
InRpcClientGetConnectionStatus(st, ret);
}
else
{
err = RpcGetError(ret);
}
FreePack(ret);
return err;
}
// Client service sends a notification to the connection manager
void CiNotify(CLIENT *c)
{
CiNotifyInternal(c);
}
void CiNotifyInternal(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
// Set all the notification event
LockList(c->NotifyCancelList);
{
UINT i;
for (i = 0;i < LIST_NUM(c->NotifyCancelList);i++)
{
CANCEL *cancel = LIST_DATA(c->NotifyCancelList, i);
Cancel(cancel);
}
}
UnlockList(c->NotifyCancelList);
}
// Release the RPC_CLIENT_ENUM_ACCOUNT
void CiFreeClientEnumAccount(RPC_CLIENT_ENUM_ACCOUNT *a)
{
UINT i;
// Validate arguments
if (a == NULL)
{
return;
}
for (i = 0;i < a->NumItem;i++)
{
RPC_CLIENT_ENUM_ACCOUNT_ITEM *e = a->Items[i];
Free(e);
}
Free(a->Items);
}
// Thread to save the configuration file periodically
void CiSaverThread(THREAD *t, void *param)
{
CLIENT *c = (CLIENT *)param;
// Validate arguments
if (t == NULL || param == NULL)
{
return;
}
NoticeThreadInit(t);
// Wait for a certain period of time
while (c->Halt == false)
{
Wait(c->SaverHalter, CLIENT_SAVER_INTERVAL);
// Save
CiSaveConfigurationFile(c);
}
}
// Initialize the Saver
void CiInitSaver(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
c->SaverHalter = NewEvent();
c->SaverThread = NewThread(CiSaverThread, c);
WaitThreadInit(c->SaverThread);
}
// Release the Saver
void CiFreeSaver(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
c->Halt = true;
Set(c->SaverHalter);
WaitThread(c->SaverThread, INFINITE);
ReleaseThread(c->SaverThread);
ReleaseEvent(c->SaverHalter);
}
// CM_SETTING
void InRpcCmSetting(CM_SETTING *c, PACK *p)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(CM_SETTING));
c->EasyMode = PackGetBool(p, "EasyMode");
c->LockMode = PackGetBool(p, "LockMode");
PackGetData2(p, "HashedPassword", c->HashedPassword, sizeof(c->HashedPassword));
}
void OutRpcCmSetting(PACK *p, CM_SETTING *c)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
PackAddBool(p, "EasyMode", c->EasyMode);
PackAddBool(p, "LockMode", c->LockMode);
PackAddData(p, "HashedPassword", c->HashedPassword, sizeof(c->HashedPassword));
}
// CLIENT_CONFIG
void InRpcClientConfig(CLIENT_CONFIG *c, PACK *p)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(CLIENT_CONFIG));
c->UseKeepConnect = PackGetInt(p, "UseKeepConnect") == 0 ? false : true;
c->KeepConnectPort = PackGetInt(p, "KeepConnectPort");
c->KeepConnectProtocol = PackGetInt(p, "KeepConnectProtocol");
c->KeepConnectInterval = PackGetInt(p, "KeepConnectInterval");
c->AllowRemoteConfig = PackGetInt(p, "AllowRemoteConfig") == 0 ? false : true;
c->NicDownOnDisconnect = PackGetBool(p, "NicDownOnDisconnect");
PackGetStr(p, "KeepConnectHost", c->KeepConnectHost, sizeof(c->KeepConnectHost));
}
void OutRpcClientConfig(PACK *p, CLIENT_CONFIG *c)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
PackAddInt(p, "UseKeepConnect", c->UseKeepConnect);
PackAddInt(p, "KeepConnectPort", c->KeepConnectPort);
PackAddInt(p, "KeepConnectProtocol", c->KeepConnectProtocol);
PackAddInt(p, "KeepConnectInterval", c->KeepConnectInterval);
PackAddInt(p, "AllowRemoteConfig", c->AllowRemoteConfig);
PackAddBool(p, "NicDownOnDisconnect", c->NicDownOnDisconnect);
PackAddStr(p, "KeepConnectHost", c->KeepConnectHost);
}
// RPC_CLIENT_VERSION
void InRpcClientVersion(RPC_CLIENT_VERSION *ver, PACK *p)
{
// Validate arguments
if (ver == NULL || p == NULL)
{
return;
}
Zero(ver, sizeof(RPC_CLIENT_VERSION));
PackGetStr(p, "ClientProductName", ver->ClientProductName, sizeof(ver->ClientProductName));
PackGetStr(p, "ClientVersionString", ver->ClientVersionString, sizeof(ver->ClientVersionString));
PackGetStr(p, "ClientBuildInfoString", ver->ClientBuildInfoString, sizeof(ver->ClientBuildInfoString));
ver->ClientVerInt = PackGetInt(p, "ClientVerInt");
ver->ClientBuildInt = PackGetInt(p, "ClientBuildInt");
ver->ProcessId = PackGetInt(p, "ProcessId");
ver->OsType = PackGetInt(p, "OsType");
ver->IsVLanNameRegulated = PackGetBool(p, "IsVLanNameRegulated");
ver->IsVgcSupported = PackGetBool(p, "IsVgcSupported");
ver->ShowVgcLink = PackGetBool(p, "ShowVgcLink");
PackGetStr(p, "ClientId", ver->ClientId, sizeof(ver->ClientId));
}
void OutRpcClientVersion(PACK *p, RPC_CLIENT_VERSION *ver)
{
// Validate arguments
if (ver == NULL || p == NULL)
{
return;
}
PackAddStr(p, "ClientProductName", ver->ClientProductName);
PackAddStr(p, "ClientVersionString", ver->ClientVersionString);
PackAddStr(p, "ClientBuildInfoString", ver->ClientBuildInfoString);
PackAddInt(p, "ClientVerInt", ver->ClientVerInt);
PackAddInt(p, "ClientBuildInt", ver->ClientBuildInt);
PackAddInt(p, "ProcessId", ver->ProcessId);
PackAddInt(p, "OsType", ver->OsType);
PackAddBool(p, "IsVLanNameRegulated", ver->IsVLanNameRegulated);
PackAddBool(p, "IsVgcSupported", ver->IsVgcSupported);
PackAddBool(p, "ShowVgcLink", ver->ShowVgcLink);
PackAddStr(p, "ClientId", ver->ClientId);
}
// RPC_CLIENT_PASSWORD
void InRpcClientPassword(RPC_CLIENT_PASSWORD *pw, PACK *p)
{
// Validate arguments
if (pw == NULL || p == NULL)
{
return;
}
Zero(pw, sizeof(RPC_CLIENT_PASSWORD));
PackGetStr(p, "Password", pw->Password, sizeof(pw->Password));
pw->PasswordRemoteOnly = PackGetInt(p, "PasswordRemoteOnly");
}
void OutRpcClientPassword(PACK *p, RPC_CLIENT_PASSWORD *pw)
{
// Validate arguments
if (pw == NULL || p == NULL)
{
return;
}
PackAddStr(p, "Password", pw->Password);
PackAddInt(p, "PasswordRemoteOnly", pw->PasswordRemoteOnly);
}
// RPC_CLIENT_PASSWORD_SETTING
void InRpcClientPasswordSetting(RPC_CLIENT_PASSWORD_SETTING *a, PACK *p)
{
// Validate arguments
if (a == NULL || p == NULL)
{
return;
}
Zero(a, sizeof(RPC_CLIENT_PASSWORD_SETTING));
a->IsPasswordPresented = PackGetInt(p, "IsPasswordPresented") == 0 ? false : true;
a->PasswordRemoteOnly = PackGetInt(p, "PasswordRemoteOnly") == 0 ? false : true;
}
void OutRpcClientPasswordSetting(PACK *p, RPC_CLIENT_PASSWORD_SETTING *a)
{
// Validate arguments
if (a == NULL || p == NULL)
{
return;
}
PackAddInt(p, "IsPasswordPresented", a->IsPasswordPresented);
PackAddInt(p, "PasswordRemoteOnly", a->PasswordRemoteOnly);
}
// RPC_CLIENT_ENUM_CA
void InRpcClientEnumCa(RPC_CLIENT_ENUM_CA *e, PACK *p)
{
UINT i;
// Validate arguments
if (e == NULL || p == NULL)
{
return;
}
Zero(e, sizeof(RPC_CLIENT_ENUM_CA));
e->NumItem = PackGetNum(p, "NumItem");
e->Items = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_CA_ITEM *) * e->NumItem);
for (i = 0;i < e->NumItem;i++)
{
RPC_CLIENT_ENUM_CA_ITEM *item = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_CA_ITEM));
e->Items[i] = item;
item->Key = PackGetIntEx(p, "Key", i);
PackGetUniStrEx(p, "SubjectName", item->SubjectName, sizeof(item->SubjectName), i);
PackGetUniStrEx(p, "IssuerName", item->IssuerName, sizeof(item->IssuerName), i);
item->Expires = PackGetInt64Ex(p, "Expires", i);
}
}
void OutRpcClientEnumCa(PACK *p, RPC_CLIENT_ENUM_CA *e)
{
UINT i;
// Validate arguments
if (e == NULL || p == NULL)
{
return;
}
PackAddNum(p, "NumItem", e->NumItem);
PackSetCurrentJsonGroupName(p, "CAList");
for (i = 0;i < e->NumItem;i++)
{
RPC_CLIENT_ENUM_CA_ITEM *item = e->Items[i];
PackAddIntEx(p, "Key", item->Key, i, e->NumItem);
PackAddUniStrEx(p, "SubjectName", item->SubjectName, i, e->NumItem);
PackAddUniStrEx(p, "IssuerName", item->IssuerName, i, e->NumItem);
PackAddTime64Ex(p, "Expires", item->Expires, i, e->NumItem);
}
PackSetCurrentJsonGroupName(p, NULL);
}
// RPC_GET_ISSUER
void InRpcGetIssuer(RPC_GET_ISSUER *c, PACK *p)
{
BUF *b;
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(RPC_GET_ISSUER));
b = PackGetBuf(p, "x");
if (b != NULL)
{
if (c->x != NULL)
{
FreeX(c->x);
}
c->x = BufToX(b, false);
FreeBuf(b);
}
b = PackGetBuf(p, "issuer_x");
if (b != NULL)
{
c->issuer_x = BufToX(b, false);
FreeBuf(b);
}
}
void OutRpcGetIssuer(PACK *p, RPC_GET_ISSUER *c)
{
BUF *b;
// Validate arguments
if (p == NULL || c == NULL)
{
return;
}
if (c->x != NULL)
{
b = XToBuf(c->x, false);
PackAddBuf(p, "x", b);
FreeBuf(b);
}
if (c->issuer_x != NULL)
{
b = XToBuf(c->issuer_x, false);
PackAddBuf(p, "issuer_x", b);
FreeBuf(b);
}
}
// TRAFFIC_EX
void InRpcTrafficEx(TRAFFIC *t, PACK *p, UINT i)
{
// Validate arguments
if (t == NULL || p == NULL)
{
return;
}
Zero(t, sizeof(TRAFFIC));
t->Recv.BroadcastBytes = PackGetInt64Ex(p, "Ex.Recv.BroadcastBytes", i);
t->Recv.BroadcastCount = PackGetInt64Ex(p, "Ex.Recv.BroadcastCount", i);
t->Recv.UnicastBytes = PackGetInt64Ex(p, "Ex.Recv.UnicastBytes", i);
t->Recv.UnicastCount = PackGetInt64Ex(p, "Ex.Recv.UnicastCount", i);
t->Send.BroadcastBytes = PackGetInt64Ex(p, "Ex.Send.BroadcastBytes", i);
t->Send.BroadcastCount = PackGetInt64Ex(p, "Ex.Send.BroadcastCount", i);
t->Send.UnicastBytes = PackGetInt64Ex(p, "Ex.Send.UnicastBytes", i);
t->Send.UnicastCount = PackGetInt64Ex(p, "Ex.Send.UnicastCount", i);
}
void OutRpcTrafficEx(TRAFFIC *t, PACK *p, UINT i, UINT num)
{
// Validate arguments
if (t == NULL || p == NULL)
{
return;
}
PackAddInt64Ex(p, "Ex.Recv.BroadcastBytes", t->Recv.BroadcastBytes, i, num);
PackAddInt64Ex(p, "Ex.Recv.BroadcastCount", t->Recv.BroadcastCount, i, num);
PackAddInt64Ex(p, "Ex.Recv.UnicastBytes", t->Recv.UnicastBytes, i, num);
PackAddInt64Ex(p, "Ex.Recv.UnicastCount", t->Recv.UnicastCount, i, num);
PackAddInt64Ex(p, "Ex.Send.BroadcastBytes", t->Send.BroadcastBytes, i, num);
PackAddInt64Ex(p, "Ex.Send.BroadcastCount", t->Send.BroadcastCount, i, num);
PackAddInt64Ex(p, "Ex.Send.UnicastBytes", t->Send.UnicastBytes, i, num);
PackAddInt64Ex(p, "Ex.Send.UnicastCount", t->Send.UnicastCount, i, num);
}
// TRAFFIC
void InRpcTraffic(TRAFFIC *t, PACK *p)
{
// Validate arguments
if (t == NULL || p == NULL)
{
return;
}
Zero(t, sizeof(TRAFFIC));
t->Recv.BroadcastBytes = PackGetInt64(p, "Recv.BroadcastBytes");
t->Recv.BroadcastCount = PackGetInt64(p, "Recv.BroadcastCount");
t->Recv.UnicastBytes = PackGetInt64(p, "Recv.UnicastBytes");
t->Recv.UnicastCount = PackGetInt64(p, "Recv.UnicastCount");
t->Send.BroadcastBytes = PackGetInt64(p, "Send.BroadcastBytes");
t->Send.BroadcastCount = PackGetInt64(p, "Send.BroadcastCount");
t->Send.UnicastBytes = PackGetInt64(p, "Send.UnicastBytes");
t->Send.UnicastCount = PackGetInt64(p, "Send.UnicastCount");
}
void OutRpcTraffic(PACK *p, TRAFFIC *t)
{
// Validate arguments
if (t == NULL || p == NULL)
{
return;
}
PackAddInt64(p, "Recv.BroadcastBytes", t->Recv.BroadcastBytes);
PackAddInt64(p, "Recv.BroadcastCount", t->Recv.BroadcastCount);
PackAddInt64(p, "Recv.UnicastBytes", t->Recv.UnicastBytes);
PackAddInt64(p, "Recv.UnicastCount", t->Recv.UnicastCount);
PackAddInt64(p, "Send.BroadcastBytes", t->Send.BroadcastBytes);
PackAddInt64(p, "Send.BroadcastCount", t->Send.BroadcastCount);
PackAddInt64(p, "Send.UnicastBytes", t->Send.UnicastBytes);
PackAddInt64(p, "Send.UnicastCount", t->Send.UnicastCount);
}
// RPC_CERT
void InRpcCert(RPC_CERT *c, PACK *p)
{
BUF *b;
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(RPC_CERT));
b = PackGetBuf(p, "x");
if (b == NULL)
{
return;
}
c->x = BufToX(b, false);
FreeBuf(b);
}
void OutRpcCert(PACK *p, RPC_CERT *c)
{
BUF *b;
// Validate arguments
if (p == NULL || c == NULL)
{
return;
}
if (c->x != NULL)
{
b = XToBuf(c->x, false);
PackAddBuf(p, "x", b);
FreeBuf(b);
}
}
// RPC_CLIENT_DELETE_CA
void InRpcClientDeleteCa(RPC_CLIENT_DELETE_CA *c, PACK *p)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(RPC_CLIENT_DELETE_CA));
c->Key = PackGetInt(p, "Key");
}
void OutRpcClientDeleteCa(PACK *p, RPC_CLIENT_DELETE_CA *c)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
PackAddInt(p, "Key", c->Key);
}
// RPC_GET_CA
void InRpcGetCa(RPC_GET_CA *c, PACK *p)
{
BUF *b;
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(RPC_GET_CA));
c->Key = PackGetInt(p, "Key");
b = PackGetBuf(p, "x");
if (b != NULL)
{
c->x = BufToX(b, false);
FreeBuf(b);
}
}
void OutRpcGetCa(PACK *p, RPC_GET_CA *c)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
PackAddInt(p, "Key", c->Key);
if (c->x != NULL)
{
BUF *b = XToBuf(c->x, false);
PackAddBuf(p, "x", b);
FreeBuf(b);
}
}
// RPC_CLIENT_ENUM_SECURE
void InRpcClientEnumSecure(RPC_CLIENT_ENUM_SECURE *e, PACK *p)
{
UINT i;
// Validate arguments
if (e == NULL || p == NULL)
{
return;
}
Zero(e, sizeof(RPC_CLIENT_ENUM_SECURE));
e->NumItem = PackGetNum(p, "NumItem");
e->Items = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_SECURE_ITEM *) * e->NumItem);
for (i = 0;i < e->NumItem;i++)
{
RPC_CLIENT_ENUM_SECURE_ITEM *item = e->Items[i] = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_SECURE_ITEM));
item->DeviceId = PackGetIntEx(p, "DeviceId", i);
item->Type = PackGetIntEx(p, "Type", i);
PackGetStrEx(p, "DeviceName", item->DeviceName, sizeof(item->DeviceName), i);
PackGetStrEx(p, "Manufacturer", item->Manufacturer, sizeof(item->Manufacturer), i);
}
}
void OutRpcClientEnumSecure(PACK *p, RPC_CLIENT_ENUM_SECURE *e)
{
UINT i;
// Validate arguments
if (e == NULL || p == NULL)
{
return;
}
PackAddNum(p, "NumItem", e->NumItem);
PackSetCurrentJsonGroupName(p, "SecureDeviceList");
for (i = 0;i < e->NumItem;i++)
{
RPC_CLIENT_ENUM_SECURE_ITEM *item = e->Items[i];
PackAddIntEx(p, "DeviceId", item->DeviceId, i, e->NumItem);
PackAddIntEx(p, "Type", item->Type, i, e->NumItem);
PackAddStrEx(p, "DeviceName", item->DeviceName, i, e->NumItem);
PackAddStrEx(p, "Manufacturer", item->Manufacturer, i, e->NumItem);
}
PackSetCurrentJsonGroupName(p, NULL);
}
// RPC_USE_SECURE
void InRpcUseSecure(RPC_USE_SECURE *u, PACK *p)
{
// Validate arguments
if (u == NULL || p == NULL)
{
return;
}
Zero(u, sizeof(RPC_USE_SECURE));
u->DeviceId = PackGetInt(p, "DeviceId");
}
void OutRpcUseSecure(PACK *p, RPC_USE_SECURE *u)
{
// Validate arguments
if (u == NULL || p == NULL)
{
return;
}
PackAddInt(p, "DeviceId", u->DeviceId);
}
// Release the RPC_ENUM_OBJECT_IN_SECURE
void CiFreeEnumObjectInSecure(RPC_ENUM_OBJECT_IN_SECURE *a)
{
UINT i;
// Validate arguments
if (a == NULL)
{
return;
}
for (i = 0;i < a->NumItem;i++)
{
Free(a->ItemName[i]);
}
Free(a->ItemName);
Free(a->ItemType);
}
// RPC_ENUM_OBJECT_IN_SECURE
void OutRpcEnumObjectInSecure(PACK *p, RPC_ENUM_OBJECT_IN_SECURE *e)
{
UINT i;
// Validate arguments
if (e == NULL || p == NULL)
{
return;
}
PackAddNum(p, "NumItem", e->NumItem);
PackAddInt(p, "hWnd", e->hWnd);
PackSetCurrentJsonGroupName(p, "ObjectList");
for (i = 0;i < e->NumItem;i++)
{
PackAddStrEx(p, "ItemName", e->ItemName[i], i, e->NumItem);
PackAddIntEx(p, "ItemType", e->ItemType[i], i, e->NumItem);
}
PackSetCurrentJsonGroupName(p, NULL);
}
// RPC_CLIENT_CREATE_VLAN
void InRpcCreateVLan(RPC_CLIENT_CREATE_VLAN *v, PACK *p)
{
// Validate arguments
if (v == NULL || p == NULL)
{
return;
}
Zero(v, sizeof(RPC_CLIENT_CREATE_VLAN));
PackGetStr(p, "DeviceName", v->DeviceName, sizeof(v->DeviceName));
}
void OutRpcCreateVLan(PACK *p, RPC_CLIENT_CREATE_VLAN *v)
{
// Validate arguments
if (v == NULL || p == NULL)
{
return;
}
PackAddStr(p, "DeviceName", v->DeviceName);
}
// RPC_CLIENT_GET_VLAN
void InRpcClientGetVLan(RPC_CLIENT_GET_VLAN *v, PACK *p)
{
// Validate arguments
if (v == NULL || p == NULL)
{
return;
}
Zero(v, sizeof(RPC_CLIENT_GET_VLAN));
PackGetStr(p, "DeviceName", v->DeviceName, sizeof(v->DeviceName));
v->Enabled = PackGetInt(p, "Enabled") ? true : false;
PackGetStr(p, "MacAddress", v->MacAddress, sizeof(v->MacAddress));
PackGetStr(p, "Version", v->Version, sizeof(v->Version));
PackGetStr(p, "FileName", v->FileName, sizeof(v->FileName));
PackGetStr(p, "Guid", v->Guid, sizeof(v->Guid));
}
void OutRpcClientGetVLan(PACK *p, RPC_CLIENT_GET_VLAN *v)
{
// Validate arguments
if (v == NULL || p == NULL)
{
return;
}
PackAddStr(p, "DeviceName", v->DeviceName);
PackAddInt(p, "Enabled", v->Enabled);
PackAddStr(p, "MacAddress", v->MacAddress);
PackAddStr(p, "Version", v->Version);
PackAddStr(p, "FileName", v->FileName);
PackAddStr(p, "Guid", v->Guid);
}
// RPC_CLIENT_SET_VLAN
void InRpcClientSetVLan(RPC_CLIENT_SET_VLAN *v, PACK *p)
{
// Validate arguments
if (v == NULL || p == NULL)
{
return;
}
Zero(v, sizeof(RPC_CLIENT_SET_VLAN));
PackGetStr(p, "DeviceName", v->DeviceName, sizeof(v->DeviceName));
PackGetStr(p, "MacAddress", v->MacAddress, sizeof(v->MacAddress));
}
void OutRpcClientSetVLan(PACK *p, RPC_CLIENT_SET_VLAN *v)
{
// Validate arguments
if (v == NULL || p == NULL)
{
return;
}
PackAddStr(p, "DeviceName", v->DeviceName);
PackAddStr(p, "MacAddress", v->MacAddress);
}
// RPC_CLIENT_ENUM_VLAN
void InRpcClientEnumVLan(RPC_CLIENT_ENUM_VLAN *v, PACK *p)
{
UINT i;
// Validate arguments
if (v == NULL || p == NULL)
{
return;
}
Zero(v, sizeof(RPC_CLIENT_ENUM_VLAN));
v->NumItem = PackGetNum(p, "NumItem");
v->Items = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_VLAN_ITEM *) * v->NumItem);
for (i = 0;i < v->NumItem;i++)
{
RPC_CLIENT_ENUM_VLAN_ITEM *item = v->Items[i] =
ZeroMalloc(sizeof(RPC_CLIENT_ENUM_VLAN_ITEM));
PackGetStrEx(p, "DeviceName", item->DeviceName, sizeof(item->DeviceName), i);
item->Enabled = PackGetIntEx(p, "Enabled", i) ? true : false;
PackGetStrEx(p, "MacAddress", item->MacAddress, sizeof(item->MacAddress), i);
PackGetStrEx(p, "Version", item->Version, sizeof(item->Version), i);
}
}
void OutRpcClientEnumVLan(PACK *p, RPC_CLIENT_ENUM_VLAN *v)
{
UINT i;
// Validate arguments
if (v == NULL || p == NULL)
{
return;
}
PackAddNum(p, "NumItem", v->NumItem);
PackSetCurrentJsonGroupName(p, "VLanList");
for (i = 0;i < v->NumItem;i++)
{
RPC_CLIENT_ENUM_VLAN_ITEM *item = v->Items[i];
PackAddStrEx(p, "DeviceName", item->DeviceName, i, v->NumItem);
PackAddIntEx(p, "Enabled", item->Enabled, i, v->NumItem);
PackAddStrEx(p, "MacAddress", item->MacAddress, i, v->NumItem);
PackAddStrEx(p, "Version", item->Version, i, v->NumItem);
}
PackSetCurrentJsonGroupName(p, NULL);
}
// CLIENT_OPTION
void InRpcClientOption(CLIENT_OPTION *c, PACK *p)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(CLIENT_OPTION));
PackGetUniStr(p, "AccountName", c->AccountName, sizeof(c->AccountName));
PackGetStr(p, "Hostname", c->Hostname, sizeof(c->Hostname));
c->Port = PackGetInt(p, "Port");
c->PortUDP = PackGetInt(p, "PortUDP");
c->ProxyType = PackGetInt(p, "ProxyType");
c->ProxyPort = PackGetInt(p, "ProxyPort");
c->NumRetry = PackGetInt(p, "NumRetry");
c->RetryInterval = PackGetInt(p, "RetryInterval");
c->MaxConnection = PackGetInt(p, "MaxConnection");
c->AdditionalConnectionInterval = PackGetInt(p, "AdditionalConnectionInterval");
c->ConnectionDisconnectSpan = PackGetInt(p, "ConnectionDisconnectSpan");
c->HideStatusWindow = PackGetBool(p, "HideStatusWindow");
c->HideNicInfoWindow = PackGetBool(p, "HideNicInfoWindow");
c->DisableQoS = PackGetBool(p, "DisableQoS");
PackGetStr(p, "ProxyName", c->ProxyName, sizeof(c->ProxyName));
PackGetStr(p, "ProxyUsername", c->ProxyUsername, sizeof(c->ProxyUsername));
PackGetStr(p, "ProxyPassword", c->ProxyPassword, sizeof(c->ProxyPassword));
PackGetStr(p, "CustomHttpHeader", c->CustomHttpHeader, sizeof(c->CustomHttpHeader));
PackGetStr(p, "HubName", c->HubName, sizeof(c->HubName));
PackGetStr(p, "DeviceName", c->DeviceName, sizeof(c->DeviceName));
c->UseEncrypt = PackGetInt(p, "UseEncrypt") ? true : false;
c->UseCompress = PackGetInt(p, "UseCompress") ? true : false;
c->HalfConnection = PackGetInt(p, "HalfConnection") ? true : false;
c->NoRoutingTracking = PackGetInt(p, "NoRoutingTracking") ? true : false;
c->RequireMonitorMode = PackGetBool(p, "RequireMonitorMode");
c->RequireBridgeRoutingMode = PackGetBool(p, "RequireBridgeRoutingMode");
c->FromAdminPack = PackGetBool(p, "FromAdminPack");
c->NoUdpAcceleration = PackGetBool(p, "NoUdpAcceleration");
PackGetData2(p, "HostUniqueKey", c->HostUniqueKey, SHA1_SIZE);
}
void OutRpcClientOption(PACK *p, CLIENT_OPTION *c)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
PackAddUniStr(p, "AccountName", c->AccountName);
PackAddStr(p, "Hostname", c->Hostname);
PackAddStr(p, "ProxyName", c->ProxyName);
PackAddStr(p, "ProxyUsername", c->ProxyUsername);
PackAddStr(p, "ProxyPassword", c->ProxyPassword);
PackAddStr(p, "CustomHttpHeader", c->CustomHttpHeader);
PackAddStr(p, "HubName", c->HubName);
PackAddStr(p, "DeviceName", c->DeviceName);
PackAddInt(p, "Port", c->Port);
PackAddInt(p, "PortUDP", c->PortUDP);
PackAddInt(p, "ProxyType", c->ProxyType);
PackAddInt(p, "ProxyPort", c->ProxyPort);
PackAddInt(p, "NumRetry", c->NumRetry);
PackAddInt(p, "RetryInterval", c->RetryInterval);
PackAddInt(p, "MaxConnection", c->MaxConnection);
PackAddBool(p, "UseEncrypt", c->UseEncrypt);
PackAddBool(p, "UseCompress", c->UseCompress);
PackAddBool(p, "HalfConnection", c->HalfConnection);
PackAddBool(p, "NoRoutingTracking", c->NoRoutingTracking);
PackAddInt(p, "AdditionalConnectionInterval", c->AdditionalConnectionInterval);
PackAddInt(p, "ConnectionDisconnectSpan", c->ConnectionDisconnectSpan);
PackAddBool(p, "HideStatusWindow", c->HideStatusWindow);
PackAddBool(p, "HideNicInfoWindow", c->HideNicInfoWindow);
PackAddBool(p, "RequireMonitorMode", c->RequireMonitorMode);
PackAddBool(p, "RequireBridgeRoutingMode", c->RequireBridgeRoutingMode);
PackAddBool(p, "DisableQoS", c->DisableQoS);
PackAddBool(p, "FromAdminPack", c->FromAdminPack);
PackAddBool(p, "NoUdpAcceleration", c->NoUdpAcceleration);
PackAddData(p, "HostUniqueKey", c->HostUniqueKey, SHA1_SIZE);
}
// CLIENT_AUTH
void InRpcClientAuth(CLIENT_AUTH *c, PACK *p)
{
BUF *b;
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(CLIENT_AUTH));
c->AuthType = PackGetInt(p, "AuthType");
PackGetStr(p, "Username", c->Username, sizeof(c->Username));
switch (c->AuthType)
{
case CLIENT_AUTHTYPE_ANONYMOUS:
break;
case CLIENT_AUTHTYPE_PASSWORD:
if (PackGetDataSize(p, "HashedPassword") == SHA1_SIZE)
{
PackGetData(p, "HashedPassword", c->HashedPassword);
}
break;
case CLIENT_AUTHTYPE_PLAIN_PASSWORD:
PackGetStr(p, "PlainPassword", c->PlainPassword, sizeof(c->PlainPassword));
break;
case CLIENT_AUTHTYPE_CERT:
b = PackGetBuf(p, "ClientX");
if (b != NULL)
{
c->ClientX = BufToX(b, false);
FreeBuf(b);
}
b = PackGetBuf(p, "ClientK");
if (b != NULL)
{
c->ClientK = BufToK(b, true, false, NULL);
FreeBuf(b);
}
break;
case CLIENT_AUTHTYPE_SECURE:
PackGetStr(p, "SecurePublicCertName", c->SecurePublicCertName, sizeof(c->SecurePublicCertName));
PackGetStr(p, "SecurePrivateKeyName", c->SecurePrivateKeyName, sizeof(c->SecurePrivateKeyName));
break;
}
}
void OutRpcClientAuth(PACK *p, CLIENT_AUTH *c)
{
BUF *b;
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
PackAddInt(p, "AuthType", c->AuthType);
PackAddStr(p, "Username", c->Username);
switch (c->AuthType)
{
case CLIENT_AUTHTYPE_ANONYMOUS:
break;
case CLIENT_AUTHTYPE_PASSWORD:
PackAddData(p, "HashedPassword", c->HashedPassword, SHA1_SIZE);
break;
case CLIENT_AUTHTYPE_PLAIN_PASSWORD:
PackAddStr(p, "PlainPassword", c->PlainPassword);
break;
case CLIENT_AUTHTYPE_CERT:
b = XToBuf(c->ClientX, false);
if (b != NULL)
{
PackAddBuf(p, "ClientX", b);
FreeBuf(b);
}
b = KToBuf(c->ClientK, false, NULL);
if (b != NULL)
{
PackAddBuf(p, "ClientK", b);
FreeBuf(b);
}
break;
case CLIENT_AUTHTYPE_SECURE:
PackAddStr(p, "SecurePublicCertName", c->SecurePublicCertName);
PackAddStr(p, "SecurePrivateKeyName", c->SecurePrivateKeyName);
break;
}
}
// RPC_CLIENT_CREATE_ACCOUNT
void InRpcClientCreateAccount(RPC_CLIENT_CREATE_ACCOUNT *c, PACK *p)
{
BUF *b;
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(RPC_CLIENT_CREATE_ACCOUNT));
c->ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
c->ClientAuth = ZeroMalloc(sizeof(CLIENT_AUTH));
InRpcClientOption(c->ClientOption, p);
InRpcClientAuth(c->ClientAuth, p);
c->StartupAccount = PackGetInt(p, "StartupAccount") ? true : false;
c->CheckServerCert = PackGetInt(p, "CheckServerCert") ? true : false;
c->RetryOnServerCert = PackGetInt(p, "RetryOnServerCert") ? true : false;
b = PackGetBuf(p, "ServerCert");
if (b != NULL)
{
c->ServerCert = BufToX(b, false);
FreeBuf(b);
}
PackGetData2(p, "ShortcutKey", c->ShortcutKey, sizeof(c->ShortcutKey));
}
void OutRpcClientCreateAccount(PACK *p, RPC_CLIENT_CREATE_ACCOUNT *c)
{
BUF *b;
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
OutRpcClientOption(p, c->ClientOption);
OutRpcClientAuth(p, c->ClientAuth);
PackAddInt(p, "StartupAccount", c->StartupAccount);
PackAddInt(p, "CheckServerCert", c->CheckServerCert);
PackAddInt(p, "RetryOnServerCert", c->RetryOnServerCert);
if (c->ServerCert != NULL)
{
b = XToBuf(c->ServerCert, false);
if (b != NULL)
{
PackAddBuf(p, "ServerCert", b);
FreeBuf(b);
}
}
PackAddData(p, "ShortcutKey", c->ShortcutKey, sizeof(c->ShortcutKey));
}
// RPC_CLIENT_ENUM_ACCOUNT
void InRpcClientEnumAccount(RPC_CLIENT_ENUM_ACCOUNT *e, PACK *p)
{
UINT i;
// Validate arguments
if (e == NULL || p == NULL)
{
return;
}
Zero(e, sizeof(RPC_CLIENT_ENUM_ACCOUNT));
e->NumItem = PackGetNum(p, "NumItem");
e->Items = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_ACCOUNT_ITEM *) * e->NumItem);
for (i = 0;i < e->NumItem;i++)
{
RPC_CLIENT_ENUM_ACCOUNT_ITEM *item = e->Items[i] =
ZeroMalloc(sizeof(RPC_CLIENT_ENUM_ACCOUNT_ITEM));
PackGetUniStrEx(p, "AccountName", item->AccountName, sizeof(item->AccountName), i);
PackGetStrEx(p, "UserName", item->UserName, sizeof(item->UserName), i);
PackGetStrEx(p, "ServerName", item->ServerName, sizeof(item->ServerName), i);
PackGetStrEx(p, "ProxyName", item->ProxyName, sizeof(item->ProxyName), i);
PackGetStrEx(p, "DeviceName", item->DeviceName, sizeof(item->DeviceName), i);
item->ProxyType = PackGetIntEx(p, "ProxyType", i);
item->Active = PackGetIntEx(p, "Active", i) ? true : false;
item->StartupAccount = PackGetIntEx(p, "StartupAccount", i) ? true : false;
item->Connected = PackGetBoolEx(p, "Connected", i);
item->Port = PackGetIntEx(p, "Port", i);
PackGetStrEx(p, "HubName", item->HubName, sizeof(item->HubName), i);
item->CreateDateTime = PackGetInt64Ex(p, "CreateDateTime", i);
item->UpdateDateTime = PackGetInt64Ex(p, "UpdateDateTime", i);
item->LastConnectDateTime = PackGetInt64Ex(p, "LastConnectDateTime", i);
}
}
void OutRpcClientEnumAccount(PACK *p, RPC_CLIENT_ENUM_ACCOUNT *e)
{
UINT i;
// Validate arguments
if (e == NULL || p == NULL)
{
return;
}
PackAddNum(p, "NumItem", e->NumItem);
PackSetCurrentJsonGroupName(p, "AccountList");
for (i = 0;i < e->NumItem;i++)
{
RPC_CLIENT_ENUM_ACCOUNT_ITEM *item = e->Items[i];
PackAddUniStrEx(p, "AccountName", item->AccountName, i, e->NumItem);
PackAddStrEx(p, "UserName", item->UserName, i, e->NumItem);
PackAddStrEx(p, "ServerName", item->ServerName, i, e->NumItem);
PackAddStrEx(p, "ProxyName", item->ProxyName, i, e->NumItem);
PackAddStrEx(p, "DeviceName", item->DeviceName, i, e->NumItem);
PackAddIntEx(p, "ProxyType", item->ProxyType, i, e->NumItem);
PackAddIntEx(p, "Active", item->Active, i, e->NumItem);
PackAddIntEx(p, "StartupAccount", item->StartupAccount, i, e->NumItem);
PackAddBoolEx(p, "Connected", item->Connected, i, e->NumItem);
PackAddIntEx(p, "Port", item->Port, i, e->NumItem);
PackAddStrEx(p, "HubName", item->HubName, i, e->NumItem);
PackAddTime64Ex(p, "CreateDateTime", item->CreateDateTime, i, e->NumItem);
PackAddTime64Ex(p, "UpdateDateTime", item->UpdateDateTime, i, e->NumItem);
PackAddTime64Ex(p, "LastConnectDateTime", item->LastConnectDateTime, i, e->NumItem);
}
PackSetCurrentJsonGroupName(p, NULL);
}
// RPC_CLIENT_DELETE_ACCOUNT
void InRpcClientDeleteAccount(RPC_CLIENT_DELETE_ACCOUNT *a, PACK *p)
{
// Validate arguments
if (a == NULL || p == NULL)
{
return;
}
Zero(a, sizeof(RPC_CLIENT_DELETE_ACCOUNT));
PackGetUniStr(p, "AccountName", a->AccountName, sizeof(a->AccountName));
}
void OutRpcClientDeleteAccount(PACK *p, RPC_CLIENT_DELETE_ACCOUNT *a)
{
// Validate arguments
if (a == NULL || p == NULL)
{
return;
}
PackAddUniStr(p, "AccountName", a->AccountName);
}
// RPC_RENAME_ACCOUNT
void InRpcRenameAccount(RPC_RENAME_ACCOUNT *a, PACK *p)
{
// Validate arguments
if (a == NULL || p == NULL)
{
return;
}
Zero(a, sizeof(RPC_RENAME_ACCOUNT));
PackGetUniStr(p, "OldName", a->OldName, sizeof(a->OldName));
PackGetUniStr(p, "NewName", a->NewName, sizeof(a->NewName));
}
void OutRpcRenameAccount(PACK *p, RPC_RENAME_ACCOUNT *a)
{
// Validate arguments
if (a == NULL || p == NULL)
{
return;
}
PackAddUniStr(p, "OldName", a->OldName);
PackAddUniStr(p, "NewName", a->NewName);
}
// RPC_CLIENT_GET_ACCOUNT
void InRpcClientGetAccount(RPC_CLIENT_GET_ACCOUNT *c, PACK *p)
{
BUF *b;
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(RPC_CLIENT_GET_ACCOUNT));
c->ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
c->ClientAuth = ZeroMalloc(sizeof(CLIENT_AUTH));
PackGetUniStr(p, "AccountName", c->AccountName, sizeof(c->AccountName));
c->StartupAccount = PackGetInt(p, "StartupAccount") ? true : false;
c->CheckServerCert = PackGetInt(p, "CheckServerCert") ? true : false;
c->RetryOnServerCert = PackGetInt(p, "RetryOnServerCert") ? true : false;
b = PackGetBuf(p, "ServerCert");
if (b != NULL)
{
c->ServerCert = BufToX(b, false);
FreeBuf(b);
}
InRpcClientOption(c->ClientOption, p);
InRpcClientAuth(c->ClientAuth, p);
c->CreateDateTime = PackGetInt64(p, "CreateDateTime");
c->UpdateDateTime = PackGetInt64(p, "UpdateDateTime");
c->LastConnectDateTime = PackGetInt64(p, "LastConnectDateTime");
PackGetData2(p, "ShortcutKey", c->ShortcutKey, SHA1_SIZE);
}
void OutRpcClientGetAccount(PACK *p, RPC_CLIENT_GET_ACCOUNT *c)
{
BUF *b;
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
PackAddUniStr(p, "AccountName", c->AccountName);
PackAddInt(p, "StartupAccount", c->StartupAccount);
PackAddInt(p, "CheckServerCert", c->CheckServerCert);
PackAddInt(p, "RetryOnServerCert", c->RetryOnServerCert);
if (c->ServerCert != NULL)
{
b = XToBuf(c->ServerCert, false);
if (b != NULL)
{
PackAddBuf(p, "ServerCert", b);
FreeBuf(b);
}
}
OutRpcClientOption(p, c->ClientOption);
OutRpcClientAuth(p, c->ClientAuth);
PackAddData(p, "ShortcutKey", c->ShortcutKey, SHA1_SIZE);
PackAddTime64(p, "CreateDateTime", c->CreateDateTime);
PackAddTime64(p, "UpdateDateTime", c->UpdateDateTime);
PackAddTime64(p, "LastConnectDateTime", c->LastConnectDateTime);
}
// RPC_CLIENT_CONNECT
void InRpcClientConnect(RPC_CLIENT_CONNECT *c, PACK *p)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
Zero(c, sizeof(RPC_CLIENT_CONNECT));
PackGetUniStr(p, "AccountName", c->AccountName, sizeof(c->AccountName));
}
void OutRpcClientConnect(PACK *p, RPC_CLIENT_CONNECT *c)
{
// Validate arguments
if (c == NULL || p == NULL)
{
return;
}
PackAddUniStr(p, "AccountName", c->AccountName);
}
// POLICY
void InRpcPolicy(POLICY *o, PACK *p)
{
POLICY *pol;
// Validate arguments
if (o == NULL || p == NULL)
{
return;
}
pol = PackGetPolicy(p);
Copy(o, pol, sizeof(POLICY));
Free(pol);
}
void OutRpcPolicy(PACK *p, POLICY *o)
{
// Validate arguments
if (o == NULL || p == NULL)
{
return;
}
PackAddPolicy(p, o);
}
// RPC_CLIENT_GET_CONNECTION_STATUS
void InRpcClientGetConnectionStatus(RPC_CLIENT_GET_CONNECTION_STATUS *s, PACK *p)
{
BUF *b;
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
Zero(s, sizeof(RPC_CLIENT_GET_CONNECTION_STATUS));
PackGetUniStr(p, "AccountName", s->AccountName, sizeof(s->AccountName));
PackGetStr(p, "ServerName", s->ServerName, sizeof(s->ServerName));
PackGetStr(p, "ServerProductName", s->ServerProductName, sizeof(s->ServerProductName));
PackGetStr(p, "CipherName", s->CipherName, sizeof(s->CipherName));
PackGetStr(p, "SessionName", s->SessionName, sizeof(s->SessionName));
PackGetStr(p, "ConnectionName", s->ConnectionName, sizeof(s->ConnectionName));
if (PackGetDataSize(p, "SessionKey") == SHA1_SIZE)
{
PackGetData(p, "SessionKey", s->SessionKey);
}
s->SessionStatus = PackGetInt(p, "SessionStatus");
s->ServerPort = PackGetInt(p, "ServerPort");
s->ServerProductVer = PackGetInt(p, "ServerProductVer");
s->ServerProductBuild = PackGetInt(p, "ServerProductBuild");
s->NumConnectionsEstablished = PackGetInt(p, "NumConnectionsEstablished");
s->MaxTcpConnections = PackGetInt(p, "MaxTcpConnections");
s->NumTcpConnections = PackGetInt(p, "NumTcpConnections");
s->NumTcpConnectionsUpload = PackGetInt(p, "NumTcpConnectionsUpload");
s->NumTcpConnectionsDownload = PackGetInt(p, "NumTcpConnectionsDownload");
s->StartTime = PackGetInt64(p, "StartTime");
/* !!! Do not correct the spelling to keep the backward protocol compatibility !!! */
s->FirstConnectionEstablisiedTime = PackGetInt64(p, "FirstConnectionEstablisiedTime");
s->CurrentConnectionEstablishTime = PackGetInt64(p, "CurrentConnectionEstablishTime");
s->TotalSendSize = PackGetInt64(p, "TotalSendSize");
s->TotalRecvSize = PackGetInt64(p, "TotalRecvSize");
s->TotalSendSizeReal = PackGetInt64(p, "TotalSendSizeReal");
s->TotalRecvSizeReal = PackGetInt64(p, "TotalRecvSizeReal");
s->Active = PackGetInt(p, "Active") ? true : false;
s->Connected = PackGetInt(p, "Connected") ? true : false;
s->HalfConnection = PackGetInt(p, "HalfConnection") ? true : false;
s->QoS = PackGetInt(p, "QoS") ? true : false;
s->UseEncrypt = PackGetInt(p, "UseEncrypt") ? true : false;
s->UseCompress = PackGetInt(p, "UseCompress") ? true : false;
s->IsRUDPSession = PackGetInt(p, "IsRUDPSession") ? true : false;
PackGetStr(p, "UnderlayProtocol", s->UnderlayProtocol, sizeof(s->UnderlayProtocol));
s->IsUdpAccelerationEnabled = PackGetInt(p, "IsUdpAccelerationEnabled") ? true : false;
s->IsUsingUdpAcceleration = PackGetInt(p, "IsUsingUdpAcceleration") ? true : false;
s->IsBridgeMode = PackGetBool(p, "IsBridgeMode");
s->IsMonitorMode = PackGetBool(p, "IsMonitorMode");
s->VLanId = PackGetInt(p, "VLanId");
b = PackGetBuf(p, "ServerX");
if (b != NULL)
{
s->ServerX = BufToX(b, false);
FreeBuf(b);
}
b = PackGetBuf(p, "ClientX");
if (b != NULL)
{
s->ClientX = BufToX(b, false);
FreeBuf(b);
}
InRpcPolicy(&s->Policy, p);
InRpcTraffic(&s->Traffic, p);
}
void OutRpcClientGetConnectionStatus(PACK *p, RPC_CLIENT_GET_CONNECTION_STATUS *c)
{
BUF *b;
// Validate arguments
if (p == NULL || c == NULL)
{
return;
}
PackAddUniStr(p, "AccountName", c->AccountName);
PackAddStr(p, "ServerName", c->ServerName);
PackAddStr(p, "ServerProductName", c->ServerProductName);
PackAddStr(p, "CipherName", c->CipherName);
PackAddStr(p, "SessionName", c->SessionName);
PackAddStr(p, "ConnectionName", c->ConnectionName);
PackAddData(p, "SessionKey", c->SessionKey, SHA1_SIZE);
PackAddBool(p, "Active", c->Active);
PackAddBool(p, "Connected", c->Connected);
PackAddInt(p, "SessionStatus", c->SessionStatus);
PackAddInt(p, "ServerPort", c->ServerPort);
PackAddInt(p, "ServerProductVer", c->ServerProductVer);
PackAddInt(p, "ServerProductBuild", c->ServerProductBuild);
PackAddInt(p, "NumConnectionsEstablished", c->NumConnectionsEstablished);
PackAddBool(p, "HalfConnection", c->HalfConnection);
PackAddBool(p, "QoS", c->QoS);
PackAddInt(p, "MaxTcpConnections", c->MaxTcpConnections);
PackAddInt(p, "NumTcpConnections", c->NumTcpConnections);
PackAddInt(p, "NumTcpConnectionsUpload", c->NumTcpConnectionsUpload);
PackAddInt(p, "NumTcpConnectionsDownload", c->NumTcpConnectionsDownload);
PackAddBool(p, "UseEncrypt", c->UseEncrypt);
PackAddBool(p, "UseCompress", c->UseCompress);
PackAddBool(p, "IsRUDPSession", c->IsRUDPSession);
PackAddStr(p, "UnderlayProtocol", c->UnderlayProtocol);
PackAddBool(p, "IsUdpAccelerationEnabled", c->IsUdpAccelerationEnabled);
PackAddBool(p, "IsUsingUdpAcceleration", c->IsUsingUdpAcceleration);
PackAddBool(p, "IsBridgeMode", c->IsBridgeMode);
PackAddBool(p, "IsMonitorMode", c->IsMonitorMode);
PackAddTime64(p, "StartTime", c->StartTime);
PackAddTime64(p, "FirstConnectionEstablisiedTime", c->FirstConnectionEstablisiedTime);
PackAddTime64(p, "CurrentConnectionEstablishTime", c->CurrentConnectionEstablishTime);
PackAddInt64(p, "TotalSendSize", c->TotalSendSize);
PackAddInt64(p, "TotalRecvSize", c->TotalRecvSize);
PackAddInt64(p, "TotalSendSizeReal", c->TotalSendSizeReal);
PackAddInt64(p, "TotalRecvSizeReal", c->TotalRecvSizeReal);
PackAddInt(p, "VLanId", c->VLanId);
OutRpcPolicy(p, &c->Policy);
OutRpcTraffic(p, &c->Traffic);
if (c->ServerX != NULL)
{
b = XToBuf(c->ServerX, false);
PackAddBuf(p, "ServerX", b);
FreeBuf(b);
}
if (c->ClientX != NULL)
{
b = XToBuf(c->ClientX, false);
PackAddBuf(p, "ClientX", b);
FreeBuf(b);
}
}
// Notification main
void CiNotifyMain(CLIENT *c, SOCK *s)
{
CANCEL *cancel;
// Validate arguments
if (c == NULL || s == NULL)
{
return;
}
// Register a Cancel
cancel = NewCancel();
LockList(c->NotifyCancelList);
{
Add(c->NotifyCancelList, cancel);
}
UnlockList(c->NotifyCancelList);
// Wait
while (true)
{
char ch = '@';
SOCKSET set;
InitSockSet(&set);
AddSockSet(&set, s);
Select(&set, INFINITE, cancel, NULL);
if (c->Halt)
{
// Abort
break;
}
// 1 byte transmission
if (Send(s, &ch, 1, false) == 0)
{
// Disconnected
break;
}
}
// Disconnect
Disconnect(s);
// Unregister the Cancel
LockList(c->NotifyCancelList);
{
Delete(c->NotifyCancelList, cancel);
}
UnlockList(c->NotifyCancelList);
ReleaseCancel(cancel);
}
// RPC acceptance code
void CiRpcAccepted(CLIENT *c, SOCK *s)
{
UCHAR hashed_password[SHA1_SIZE];
UINT rpc_mode;
UINT retcode;
RPC *rpc;
// Validate arguments
if (c == NULL || s == NULL)
{
return;
}
// Receive the RPC mode
if (RecvAll(s, &rpc_mode, sizeof(UINT), false) == false)
{
return;
}
rpc_mode = Endian32(rpc_mode);
if (rpc_mode == CLIENT_RPC_MODE_NOTIFY)
{
// Notification mode
CiNotifyMain(c, s);
return;
}
else if (rpc_mode == CLIENT_RPC_MODE_SHORTCUT || rpc_mode == CLIENT_RPC_MODE_SHORTCUT_DISCONNECT)
{
// Shortcut key received
UCHAR key[SHA1_SIZE];
UINT err = ERR_NO_ERROR;
if (RecvAll(s, key, SHA1_SIZE, false))
{
UINT i;
wchar_t title[MAX_ACCOUNT_NAME_LEN + 1];
bool ok = false;
// Connect to the specified setting
LockList(c->AccountList);
{
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
Lock(a->lock);
{
if (Cmp(a->ShortcutKey, key, SHA1_SIZE) == 0)
{
ok = true;
UniStrCpy(title, sizeof(title), a->ClientOption->AccountName);
}
}
Unlock(a->lock);
}
}
UnlockList(c->AccountList);
if (ok == false)
{
err = ERR_ACCOUNT_NOT_FOUND;
}
else
{
RPC_CLIENT_CONNECT t;
Zero(&t, sizeof(t));
UniStrCpy(t.AccountName, sizeof(t.AccountName), title);
if (rpc_mode == CLIENT_RPC_MODE_SHORTCUT)
{
// Connect
if (CtConnect(c, &t))
{
err = ERR_NO_ERROR;
}
else
{
err = c->Err;
}
}
else
{
// Connect
if (CtDisconnect(c, &t, false))
{
err = ERR_NO_ERROR;
}
else
{
err = c->Err;
}
}
}
err = Endian32(err);
SendAll(s, &err, sizeof(UINT), false);
(void)RecvAll(s, &err, sizeof(UINT), false);
}
return;
}
// Password reception
if (RecvAll(s, hashed_password, SHA1_SIZE, false) == false)
{
return;
}
retcode = 0;
// Password comparison
if (Cmp(hashed_password, c->EncryptedPassword, SHA1_SIZE) != 0)
{
retcode = 1;
}
if (c->PasswordRemoteOnly && s->RemoteIP.addr[0] == 127)
{
// If in a mode that requires a password only remote,
// the password sent from localhost is considered to be always correct
retcode = 0;
}
Lock(c->lock);
{
if (c->Config.AllowRemoteConfig == false)
{
// If the remote control is prohibited,
// identify whether this connection is from remote
if (s->RemoteIP.addr[0] != 127)
{
retcode = 2;
}
}
}
Unlock(c->lock);
retcode = Endian32(retcode);
// Error code transmission
if (SendAll(s, &retcode, sizeof(UINT), false) == false)
{
return;
}
if (retcode != 0)
{
// Disconnect due to an error
return;
}
// Create a RPC server
rpc = StartRpcServer(s, CiRpcDispatch, c);
// RPC server operation
RpcServer(rpc);
// Release the RPC server
EndRpc(rpc);
}
// RPC acceptance thread
void CiRpcAcceptThread(THREAD *thread, void *param)
{
CLIENT_RPC_CONNECTION *conn;
CLIENT *c;
SOCK *s;
// Validate arguments
if (thread == NULL || param == NULL)
{
return;
}
conn = (CLIENT_RPC_CONNECTION *)param;
s = conn->Sock;
c = conn->Client;
AddRef(s->ref);
// Add to the RPC connection list
LockList(c->RpcConnectionList);
{
Add(c->RpcConnectionList, conn);
}
UnlockList(c->RpcConnectionList);
NoticeThreadInit(thread);
// Main process
CiRpcAccepted(c, s);
// Release from the connection list
LockList(c->RpcConnectionList);
{
Delete(c->RpcConnectionList, conn);
}
UnlockList(c->RpcConnectionList);
ReleaseSock(conn->Sock);
ReleaseThread(conn->Thread);
Free(conn);
Disconnect(s);
ReleaseSock(s);
}
// RPC server thread
void CiRpcServerThread(THREAD *thread, void *param)
{
CLIENT *c;
SOCK *listener;
UINT i;
LIST *thread_list;
// Validate arguments
if (thread == NULL || param == NULL)
{
return;
}
c = (CLIENT *)param;
// RPC connection list
c->RpcConnectionList = NewList(NULL);
// Open the port
listener = NULL;
for (i = CLIENT_CONFIG_PORT;i < (CLIENT_CONFIG_PORT + 5);i++)
{
listener = Listen(i);
if (listener != NULL)
{
break;
}
}
if (listener == NULL)
{
// Error
Alert(CEDAR_PRODUCT_STR " VPN Client RPC Port Open Failed.", CEDAR_CLIENT_STR);
return;
}
#ifdef OS_WIN32
MsRegWriteIntEx2(REG_LOCAL_MACHINE, CLIENT_WIN32_REGKEYNAME, CLIENT_WIN32_REGVALUE_PORT, i, false, true);
MsRegWriteIntEx2(REG_LOCAL_MACHINE, CLIENT_WIN32_REGKEYNAME, CLIENT_WIN32_REGVALUE_PID, MsGetCurrentProcessId(), false, true);
#endif // OS_WIN32
c->RpcListener = listener;
AddRef(listener->ref);
NoticeThreadInit(thread);
while (true)
{
// Wait for client connection
CLIENT_RPC_CONNECTION *conn;
SOCK *s = Accept(listener);
if (s == NULL)
{
// Stop
break;
}
// Create a client processing thread
conn = ZeroMalloc(sizeof(CLIENT_RPC_CONNECTION));
conn->Client = c;
conn->Sock = s;
AddRef(s->ref);
conn->Thread = NewThread(CiRpcAcceptThread, (void *)conn);
WaitThreadInit(conn->Thread);
ReleaseSock(s);
}
// Release the listener
ReleaseSock(listener);
thread_list = NewListFast(NULL);
// Set all the event notification
LockList(c->NotifyCancelList);
{
UINT i;
for (i = 0;i < LIST_NUM(c->NotifyCancelList);i++)
{
CANCEL *cancel = LIST_DATA(c->NotifyCancelList, i);
Cancel(cancel);
}
}
UnlockList(c->NotifyCancelList);
// Disconnect all the connections of connected yet
LockList(c->RpcConnectionList);
{
for (i = 0;i < LIST_NUM(c->RpcConnectionList);i++)
{
CLIENT_RPC_CONNECTION *cc = LIST_DATA(c->RpcConnectionList, i);
AddRef(cc->Thread->ref);
Add(thread_list, cc->Thread);
Disconnect(cc->Sock);
}
}
UnlockList(c->RpcConnectionList);
for (i = 0;i < LIST_NUM(thread_list);i++)
{
THREAD *t = LIST_DATA(thread_list, i);
WaitThread(t, INFINITE);
ReleaseThread(t);
}
ReleaseList(c->RpcConnectionList);
ReleaseList(thread_list);
#ifdef OS_WIN32
MsRegDeleteValueEx2(REG_LOCAL_MACHINE, CLIENT_WIN32_REGKEYNAME, CLIENT_WIN32_REGVALUE_PORT, false, true);
MsRegDeleteValueEx2(REG_LOCAL_MACHINE, CLIENT_WIN32_REGKEYNAME, CLIENT_WIN32_REGVALUE_PID, false, true);
#endif // OS_WIN32
}
// Start the Keep
void CiInitKeep(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
c->Keep = StartKeep();
// Apply settings
if (c->Config.UseKeepConnect)
{
KEEP *k = c->Keep;
Lock(k->lock);
{
StrCpy(k->ServerName, sizeof(k->ServerName), c->Config.KeepConnectHost);
k->ServerPort = c->Config.KeepConnectPort;
k->Interval = c->Config.KeepConnectInterval * 1000;
k->UdpMode = (c->Config.KeepConnectProtocol == CONNECTION_UDP) ? true : false;
k->Enable = true;
}
Unlock(k->lock);
}
}
// Stop the Keep
void CiFreeKeep(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
StopKeep(c->Keep);
c->Keep = NULL;
}
// Start the RPC
void CiStartRpcServer(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
c->RpcThread = NewThread(CiRpcServerThread, (void *)c);
WaitThreadInit(c->RpcThread);
}
// Stop the RPC
void CiStopRpcServer(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
Disconnect(c->RpcListener);
ReleaseSock(c->RpcListener);
WaitThread(c->RpcThread, INFINITE);
ReleaseThread(c->RpcThread);
}
// Wait for the next notification
bool CcWaitNotify(NOTIFY_CLIENT *n)
{
UCHAR c;
// Validate arguments
if (n == NULL)
{
return false;
}
// 1 character reception
if (RecvAll(n->Sock, &c, 1, false) == false)
{
// Disconnected
return false;
}
return true;
}
// Connect as a notification client
NOTIFY_CLIENT *CcConnectNotify(REMOTE_CLIENT *rc)
{
NOTIFY_CLIENT *n;
SOCK *s;
char tmp[MAX_SIZE];
bool rpc_mode = false;
UINT port;
// Validate arguments
if (rc == NULL || rc->Rpc == NULL || rc->Rpc->Sock == NULL)
{
return NULL;
}
// Connect
IPToStr(tmp, sizeof(tmp), &rc->Rpc->Sock->RemoteIP);
port = rc->Rpc->Sock->RemotePort;
s = Connect(tmp, port);
if (s == NULL)
{
return NULL;
}
rpc_mode = Endian32(rpc_mode);
if (SendAll(s, &rpc_mode, sizeof(rpc_mode), false) == false)
{
ReleaseSock(s);
return NULL;
}
n = ZeroMalloc(sizeof(NOTIFY_CLIENT));
n->Sock = s;
return n;
}
// Stop the notification client
void CcStopNotify(NOTIFY_CLIENT *n)
{
// Validate arguments
if (n == NULL)
{
return;
}
Disconnect(n->Sock);
}
// Delete the notification client
void CcDisconnectNotify(NOTIFY_CLIENT *n)
{
// Validate arguments
if (n == NULL)
{
return;
}
// Disconnect
Disconnect(n->Sock);
ReleaseSock(n->Sock);
// Memory release
Free(n);
}
// Disconnect the remote connection
void CcDisconnectRpc(REMOTE_CLIENT *rc)
{
// Validate arguments
if (rc == NULL)
{
return;
}
RpcFree(rc->Rpc);
Free(rc);
}
// Connect to the client to start the shortcut connection setting
UINT CcShortcut(UCHAR *key)
{
UINT ret;
// Validate arguments
if (key == NULL)
{
return ERR_INVALID_PARAMETER;
}
CcConnectRpcEx("localhost", NULL, NULL, NULL, key, &ret, false, 0);
return ret;
}
// Disconnect the connected shortcut connection
UINT CcShortcutDisconnect(UCHAR *key)
{
UINT ret;
// Validate arguments
if (key == NULL)
{
return ERR_INVALID_PARAMETER;
}
CcConnectRpcEx("localhost", NULL, NULL, NULL, key, &ret, true, 0);
return ret;
}
// Connect to the remote client
REMOTE_CLIENT *CcConnectRpc(char *server_name, char *password, bool *bad_pass, bool *no_remote, UINT wait_retry)
{
return CcConnectRpcEx(server_name, password, bad_pass, no_remote, NULL, NULL, false, wait_retry);
}
REMOTE_CLIENT *CcConnectRpcEx(char *server_name, char *password, bool *bad_pass, bool *no_remote, UCHAR *key, UINT *key_error_code, bool shortcut_disconnect, UINT wait_retry)
{
SOCK *s = NULL;
UINT i;
UINT retcode;
UINT rpc_mode = CLIENT_RPC_MODE_MANAGEMENT;
RPC *rpc;
REMOTE_CLIENT *ret;
UCHAR hash_password[SHA1_SIZE];
UINT port_start;
UINT64 try_started = 0;
bool ok;
UINT reg_port = 0;
UINT reg_pid = 0;
// Validate arguments
if (server_name == NULL)
{
return NULL;
}
if (password == NULL)
{
password = "";
}
if (key_error_code != NULL)
{
*key_error_code = ERR_NO_ERROR;
}
if (bad_pass != NULL)
{
*bad_pass = false;
}
if (no_remote != NULL)
{
*no_remote = false;
}
#ifdef OS_WIN32
// read the current port number from the registry of the localhost
if (StrCmpi(server_name, "localhost") == 0)
{
reg_port = MsRegReadIntEx2(REG_LOCAL_MACHINE, CLIENT_WIN32_REGKEYNAME, CLIENT_WIN32_REGVALUE_PORT, false, true);
reg_pid = MsRegReadIntEx2(REG_LOCAL_MACHINE, CLIENT_WIN32_REGKEYNAME, CLIENT_WIN32_REGVALUE_PID, false, true);
if (reg_pid != 0)
{
if (MsIsServiceRunning(GC_SVC_NAME_VPNCLIENT) == false)
{
reg_port = 0;
}
}
else
{
reg_port = 0;
}
}
if (reg_port != 0)
{
s = Connect(server_name, reg_port);
if (s != NULL)
{
goto L_TRY;
}
}
#endif // OS_WIN32
port_start = CLIENT_CONFIG_PORT - 1;
RETRY:
port_start++;
if (port_start >= (CLIENT_CONFIG_PORT + 5))
{
return NULL;
}
ok = false;
while (true)
{
for (i = port_start;i < (CLIENT_CONFIG_PORT + 5);i++)
{
if (CheckTCPPort(server_name, i))
{
ok = true;
break;
}
}
if (ok)
{
break;
}
if (wait_retry == 0)
{
break;
}
if (try_started == 0)
{
try_started = Tick64();
}
if ((try_started + (UINT64)wait_retry) <= Tick64())
{
break;
}
}
if (ok == false)
{
if (key_error_code)
{
*key_error_code = ERR_CONNECT_FAILED;
}
return NULL;
}
port_start = i;
s = Connect(server_name, i);
if (s == NULL)
{
if (key_error_code)
{
*key_error_code = ERR_CONNECT_FAILED;
}
goto RETRY;
}
L_TRY:
SetTimeout(s, 10000);
Sha0(hash_password, password, StrLen(password));
if (key != NULL)
{
if (shortcut_disconnect == false)
{
rpc_mode = CLIENT_RPC_MODE_SHORTCUT;
}
else
{
rpc_mode = CLIENT_RPC_MODE_SHORTCUT_DISCONNECT;
}
}
rpc_mode = Endian32(rpc_mode);
SendAdd(s, &rpc_mode, sizeof(UINT));
if (key != NULL)
{
SendAdd(s, key, SHA1_SIZE);
}
else
{
SendAdd(s, hash_password, SHA1_SIZE);
}
if (SendNow(s, false) == false)
{
ReleaseSock(s);
goto RETRY;
}
if (RecvAll(s, &retcode, sizeof(UINT), false) == false)
{
ReleaseSock(s);
goto RETRY;
}
retcode = Endian32(retcode);
if (retcode >= 1024)
{
ReleaseSock(s);
goto RETRY;
}
if (key != NULL)
{
if (key_error_code)
{
*key_error_code = retcode;
}
SendAll(s, &retcode, sizeof(UINT), false);
ReleaseSock(s);
return NULL;
}
switch (retcode)
{
case 1:
if (bad_pass != NULL)
{
*bad_pass = true;
}
break;
case 2:
if (no_remote != NULL)
{
*no_remote = true;
}
break;
}
if (retcode != 0)
{
ReleaseSock(s);
return NULL;
}
SetTimeout(s, INFINITE);
rpc = StartRpcClient(s, NULL);
ReleaseSock(s);
ret = ZeroMalloc(sizeof(REMOTE_CLIENT));
rpc->Param = ret;
if (ret != NULL)
{
RPC_CLIENT_VERSION t;
ret->Rpc = rpc;
Zero(&t, sizeof(t));
CcGetClientVersion(ret, &t);
ret->OsType = t.OsType;
ret->Unix = OS_IS_UNIX(ret->OsType);
ret->Win9x = OS_IS_WINDOWS_9X(ret->OsType);
ret->IsVgcSupported = t.IsVgcSupported;
ret->ShowVgcLink = t.ShowVgcLink;
StrCpy(ret->ClientId, sizeof(ret->ClientId), t.ClientId);
}
return ret;
}
// Get a RPC_CLIENT_GET_CONNECTION_STATUS from the session
void CiGetSessionStatus(RPC_CLIENT_GET_CONNECTION_STATUS *st, SESSION *s)
{
// Validate arguments
if (st == NULL || s == NULL)
{
return;
}
Lock(s->lock);
{
// Operation flag
st->Active = true;
// Session status
st->SessionStatus = s->ClientStatus;
// Account name
UniStrCpy(st->AccountName, sizeof(st->AccountName), s->ClientOption->AccountName);
if (s->ClientStatus == CLIENT_STATUS_ESTABLISHED && s->Connection != NULL)
{
Lock(s->Connection->lock);
{
// Connected flag
st->Connected = true;
// Product name
StrCpy(st->ServerProductName, sizeof(st->ServerProductName), s->Connection->ServerStr);
// Version
st->ServerProductVer = s->Connection->ServerVer;
// Build Number
st->ServerProductBuild = s->Connection->ServerBuild;
// Server certificate
st->ServerX = CloneX(s->Connection->ServerX);
// Client certificate
st->ClientX = CloneX(s->Connection->ClientX);
// Connection completion time of this connection
st->CurrentConnectionEstablishTime = TickToTime(s->CurrentConnectionEstablishTime);
// Maximum number of the TCP connections
st->MaxTcpConnections = s->MaxConnection;
// Half-connection
st->HalfConnection = s->HalfConnection;
// VLAN
st->VLanId = s->VLanId;
// VoIP / QoS
st->QoS = s->QoS;
if (s->Connection->Protocol == CONNECTION_TCP)
{
UINT i;
// Number of current TCP connections
LockList(s->Connection->Tcp->TcpSockList);
{
st->NumTcpConnections = LIST_NUM(s->Connection->Tcp->TcpSockList);
if (st->HalfConnection)
{
for (i = 0;i < st->NumTcpConnections;i++)
{
TCPSOCK *ts = LIST_DATA(s->Connection->Tcp->TcpSockList, i);
if (ts->Direction & TCP_SERVER_TO_CLIENT)
{
st->NumTcpConnectionsDownload++;
}
else
{
st->NumTcpConnectionsUpload++;
}
}
}
}
UnlockList(s->Connection->Tcp->TcpSockList);
}
// Use of encryption
st->UseEncrypt = s->UseEncrypt;
if (st->UseEncrypt)
{
StrCpy(st->CipherName, sizeof(st->CipherName), s->Connection->CipherName);
}
// Use of compression
st->UseCompress = s->UseCompress;
// R-UDP
st->IsRUDPSession = s->IsRUDPSession;
// Physical communication protocol
StrCpy(st->UnderlayProtocol, sizeof(st->UnderlayProtocol), s->UnderlayProtocol);
// Protocol details
StrCpy(st->ProtocolDetails, sizeof(st->ProtocolDetails), s->ProtocolDetails);
Trim(st->ProtocolDetails);
// UDP acceleration function
if (s->IpcSessionShared != NULL && IsEmptyStr(s->IpcSessionShared->ProtocolDetails) == false)
{
char tmp[sizeof(s->IpcSessionShared->ProtocolDetails)];
StrCpy(tmp, sizeof(tmp), s->IpcSessionShared->ProtocolDetails);
Trim(tmp);
StrCat(st->ProtocolDetails, sizeof(st->ProtocolDetails), " ");
StrCat(st->ProtocolDetails, sizeof(st->ProtocolDetails), tmp);
st->IsUdpAccelerationEnabled = s->IpcSessionShared->EnableUdpAccel;
st->IsUsingUdpAcceleration = s->IpcSessionShared->UsingUdpAccel;
}
else
{
st->IsUdpAccelerationEnabled = s->UseUdpAcceleration;
st->IsUsingUdpAcceleration = s->IsUsingUdpAcceleration;
}
// Session key
Copy(st->SessionKey, s->SessionKey, SHA1_SIZE);
// Policy
Copy(&st->Policy, s->Policy, sizeof(POLICY));
// Data size
if (s->ServerMode == false)
{
st->TotalSendSize = s->TotalSendSize;
st->TotalRecvSize = s->TotalRecvSize;
st->TotalRecvSizeReal = s->TotalRecvSizeReal;
st->TotalSendSizeReal = s->TotalSendSizeReal;
}
else
{
st->TotalSendSize = s->TotalRecvSize;
st->TotalRecvSize = s->TotalSendSize;
st->TotalRecvSizeReal = s->TotalSendSizeReal;
st->TotalSendSizeReal = s->TotalRecvSizeReal;
}
// Session name
StrCpy(st->SessionName, sizeof(st->SessionName), s->Name);
// Connection name
StrCpy(st->ConnectionName, sizeof(st->ConnectionName), s->Connection->Name);
// Server name
StrCpy(st->ServerName, sizeof(st->ServerName), s->Connection->ServerName);
// Port number
st->ServerPort = s->Connection->ServerPort;
// Traffic data
Lock(s->TrafficLock);
{
Copy(&st->Traffic, s->Traffic, sizeof(TRAFFIC));
}
Unlock(s->TrafficLock);
st->IsBridgeMode = s->IsBridgeMode;
st->IsMonitorMode = s->IsMonitorMode;
}
Unlock(s->Connection->lock);
}
// Connection start time
st->StartTime = TickToTime(s->CreatedTime);
// Connection completion time of the first connection
/* !!! Do not correct the spelling to keep the backward protocol compatibility !!! */
st->FirstConnectionEstablisiedTime = TickToTime(s->FirstConnectionEstablisiedTime);
// Number of connections have been established so far
st->NumConnectionsEstablished = s->NumConnectionsEstablished;
}
Unlock(s->lock);
}
// Get the connection status
bool CtGetAccountStatus(CLIENT *c, RPC_CLIENT_GET_CONNECTION_STATUS *st)
{
// Validate arguments
if (c == NULL || st == NULL)
{
return false;
}
LockList(c->AccountList);
{
ACCOUNT t, *r;
// Search for account
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName), st->AccountName);
r = Search(c->AccountList, &t);
if (r == NULL)
{
// Specified account is not found
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_NOT_FOUND);
return false;
}
Free(t.ClientOption);
Lock(r->lock);
{
Zero(st, sizeof(RPC_CLIENT_GET_CONNECTION_STATUS));
if (r->ClientSession != NULL)
{
SESSION *s = r->ClientSession;
CiGetSessionStatus(st, s);
}
}
Unlock(r->lock);
}
UnlockList(c->AccountList);
return true;
}
// Release the connection status
void CiFreeClientGetConnectionStatus(RPC_CLIENT_GET_CONNECTION_STATUS *st)
{
// Validate arguments
if (st == NULL)
{
return;
}
if (st->ServerX != NULL)
{
FreeX(st->ServerX);
}
if (st->ClientX != NULL)
{
FreeX(st->ClientX);
}
}
// Verification procedure of the server certificate
bool CiCheckCertProc(SESSION *s, CONNECTION *c, X *server_x, bool *expired)
{
#ifdef OS_WIN32
ACCOUNT *a;
X *old_x = NULL;
UI_CHECKCERT dlg;
// Validate arguments
if (s == NULL || c == NULL || server_x == NULL)
{
return false;
}
if (expired != NULL)
{
*expired = false;
}
Zero(&dlg, sizeof(dlg));
a = s->Account;
if (a == NULL)
{
return false;
}
Lock(a->lock);
{
if (a->CheckServerCert == false)
{
// Not to validate the server certificate
Unlock(a->lock);
return true;
}
if (a->ServerCert != NULL)
{
old_x = CloneX(a->ServerCert);
}
}
Unlock(a->lock);
if (CheckXDateNow(server_x) == false)
{
// Expired
if (old_x != NULL)
{
FreeX(old_x);
}
if (expired != NULL)
{
*expired = true;
}
return false;
}
if (old_x != NULL)
{
if (CompareX(old_x, server_x))
{
// Matched exactly to the certificate that is already registered
if (old_x != NULL)
{
FreeX(old_x);
}
return true;
}
else
{
dlg.DiffWarning = true;
}
}
// Because this certificate can not be trusted, confirm to be trusted by showing a dialog box
UniStrCpy(dlg.AccountName, sizeof(dlg.AccountName), a->ClientOption->AccountName);
StrCpy(dlg.ServerName, sizeof(dlg.ServerName), a->ClientOption->Hostname);
dlg.x = server_x;
dlg.old_x = old_x;
dlg.Session = s;
AddRef(s->ref);
CncCheckCert(s, &dlg);
ReleaseSession(s);
if (old_x != NULL)
{
FreeX(old_x);
}
if (dlg.Ok && dlg.SaveServerCert)
{
// Save the server certificate and trust it from the next time
Lock(a->lock);
{
if (a->ServerCert != NULL)
{
FreeX(a->ServerCert);
}
a->ServerCert = CloneX(server_x);
}
Unlock(a->lock);
CiSaveConfigurationFile(s->Cedar->Client);
}
return dlg.Ok;
#else // OS_WIN32
ACCOUNT *a;
X *old_x = NULL;
// Validate arguments
if (s == NULL || c == NULL || server_x == NULL)
{
return false;
}
if (expired != NULL)
{
*expired = false;
}
a = s->Account;
if (a == NULL)
{
return false;
}
Lock(a->lock);
{
if (a->CheckServerCert == false)
{
// Not to validate the server certificate
Unlock(a->lock);
return true;
}
if (a->ServerCert != NULL)
{
old_x = CloneX(a->ServerCert);
}
}
Unlock(a->lock);
if (CheckXDateNow(server_x) == false)
{
// Expired
if (old_x != NULL)
{
FreeX(old_x);
}
if (expired != NULL)
{
*expired = true;
}
return false;
}
if (old_x != NULL)
{
if (CompareX(old_x, server_x))
{
// Exactly matched to the certificate that is already registered
if (old_x != NULL)
{
FreeX(old_x);
}
return true;
}
else
{
// Mismatch
if (old_x != NULL)
{
FreeX(old_x);
}
return false;
}
}
return false;
#endif // OS_WIN32
}
// Signature procedure with a secure device
bool CiSecureSignProc(SESSION *s, CONNECTION *c, SECURE_SIGN *sign)
{
// The UI is available in Win32
return CncSecureSignDlg(sign);
}
#ifdef OS_WIN32
// Signing procedure (for Win32)
bool Win32CiSecureSign(SECURE_SIGN *sign)
{
bool ret = false;
BUF *random;
// Validate arguments
if (sign == NULL)
{
return false;
}
random = NewBuf();
WriteBuf(random, sign->Random, SHA1_SIZE);
// Batch processing
{
WINUI_SECURE_BATCH batch[] =
{
{WINUI_SECURE_READ_CERT, sign->SecurePublicCertName, true, NULL, NULL, NULL, NULL, NULL, NULL},
{WINUI_SECURE_SIGN_WITH_KEY, sign->SecurePrivateKeyName, true, random, NULL, NULL, NULL, NULL, NULL}
};
if (SecureDeviceWindow(NULL, batch, sizeof(batch) / sizeof(batch[0]),
sign->UseSecureDeviceId, sign->BitmapId) == false)
{
// Failure
if (batch[0].OutputX != 0)
{
FreeX(batch[0].OutputX);
}
ret = false;
}
else
{
// Success
ret = true;
sign->ClientCert = batch[0].OutputX;
Copy(sign->Signature, batch[1].OutputSign, MIN(sizeof(sign->Signature),sizeof(batch[1].OutputSign)));
}
}
FreeBuf(random);
return ret;
}
#endif // OS_WIN32
// Disconnect
bool CtDisconnect(CLIENT *c, RPC_CLIENT_CONNECT *connect, bool inner)
{
bool ret = false;
ACCOUNT t, *r;
SESSION *s = NULL;
// Validate arguments
if (c == NULL || connect == NULL)
{
return false;
}
LockList(c->AccountList);
{
// Search for account
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName), connect->AccountName);
r = Search(c->AccountList, &t);
if (r == NULL)
{
// Specified account isn't found
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_NOT_FOUND);
return false;
}
Free(t.ClientOption);
Lock(r->lock);
{
if (r->ClientSession == NULL)
{
// Not connected
CiSetError(c, ERR_ACCOUNT_INACTIVE);
}
else
{
s = r->ClientSession;
AddRef(s->ref);
// Disconnect complete
r->ClientSession = NULL;
ret = true;
}
}
Unlock(r->lock);
}
UnlockList(c->AccountList);
if (s != NULL)
{
// Disconnect the connection (Wait until the disconnection is complete)
CLog(c, "LC_DISCONNECT", connect->AccountName);
StopSession(s);
ReleaseSession(s);
}
if (ret != false)
{
CiNotify(c);
}
return ret;
}
// Connect
bool CtConnect(CLIENT *c, RPC_CLIENT_CONNECT *connect)
{
bool ret = false;
RPC_CLIENT_ENUM_VLAN t;
// Validate arguments
if (c == NULL || connect == NULL)
{
return false;
}
Lock(c->lockForConnect);
{
Zero(&t, sizeof(t));
if (CtEnumVLan(c, &t))
{
if (t.NumItem == 0)
{
// There are no virtual LAN cards in the system
if (OS_IS_WINDOWS_NT(GetOsInfo()->OsType) || OS_IS_UNIX(GetOsInfo()->OsType))
{
// Only in Linux system or Windows NT system,
// create a new virtual LAN card which named as "VPN" automatically
RPC_CLIENT_CREATE_VLAN t;
Zero(&t, sizeof(t));
StrCpy(t.DeviceName, sizeof(t.DeviceName), "VPN");
CtCreateVLan(c, &t);
}
}
CiFreeClientEnumVLan(&t);
}
}
Unlock(c->lockForConnect);
CiNormalizeAccountVLan(c);
// Ensure successfully VPN communication by changing the irrational WCM settings in the case of Windows 8 or later
CiDisableWcmNetworkMinimize(c);
LockList(c->AccountList);
{
ACCOUNT t, *r;
bool unix_disabled = false;
// Search for account
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName), connect->AccountName);
r = Search(c->AccountList, &t);
if (r == NULL)
{
// Specified account isn't found
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_NOT_FOUND);
return false;
}
Free(t.ClientOption);
#ifndef OS_WIN32
// Search for the virtual LAN card
LockList(c->UnixVLanList);
{
UNIX_VLAN *v, t;
Zero(&t, sizeof(t));
StrCpy(t.Name, sizeof(t.Name), r->ClientOption->DeviceName);
v = Search(c->UnixVLanList, &t);
if (v == NULL)
{
UnlockList(c->UnixVLanList);
CiSetError(c, ERR_OBJECT_NOT_FOUND);
return false;
}
unix_disabled = v->Enabled ? false : true;
}
UnlockList(c->UnixVLanList);
#endif // OS_WIN32
Lock(r->lock);
{
bool already_used = false;
UINT i;
if (r->ClientSession != NULL)
{
// Already in connecting
CiSetError(c, ERR_ACCOUNT_ACTIVE);
}
else if (r->ClientAuth->AuthType == CLIENT_AUTHTYPE_SECURE &&
c->UseSecureDeviceId == 0)
{
// Secure device is not specified
CiSetError(c, ERR_NO_SECURE_DEVICE_SPECIFIED);
}
#ifdef OS_WIN32
else if (MsIsVLanExists(VLAN_ADAPTER_NAME_TAG, r->ClientOption->DeviceName) == false &&
MsIsVLanExists(VLAN_ADAPTER_NAME_TAG_OLD, r->ClientOption->DeviceName) == false)
{
// Virtual LAN card can not be found
CiSetError(c, ERR_VLAN_FOR_ACCOUNT_NOT_FOUND);
CiNotify(c);
CiSendGlobalPulse(c);
}
else if (MsIsVLanEnabled(r->ClientOption->DeviceName) == false)
{
// The virtual LAN card is disabled
CiSetError(c, ERR_VLAN_FOR_ACCOUNT_DISABLED);
CiNotify(c);
CiSendGlobalPulse(c);
}
#else // OS_WIN32
else if (unix_disabled)
{
// The virtual LAN card is disabled
CiSetError(c, ERR_VLAN_FOR_ACCOUNT_DISABLED);
CiNotify(c);
CiSendGlobalPulse(c);
}
#endif // OS_WIN32
else
{
// Check whether the virtual LAN card is being used by a different account already
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
if (a != r)
{
if (StrCmpi(a->ClientOption->DeviceName,
r->ClientOption->DeviceName) == 0)
{
if (a->ClientSession != NULL)
{
already_used = true;
break;
}
}
}
}
if (already_used)
{
CiSetError(c, ERR_VLAN_FOR_ACCOUNT_USED);
}
else
{
// Start the connection
PACKET_ADAPTER *pa = VLanGetPacketAdapter();
if (r->ClientAuth->AuthType == CLIENT_AUTHTYPE_SECURE)
{
// Register a procedure for secure device authentication
r->ClientAuth->SecureSignProc = CiSecureSignProc;
}
else
{
r->ClientAuth->SecureSignProc = NULL;
}
if (r->CheckServerCert)
{
// Register a procedure to validate the server certificate
r->ClientAuth->CheckCertProc = CiCheckCertProc;
}
else
{
r->ClientAuth->CheckCertProc = NULL;
}
r->StatusPrinter = CiClientStatusPrinter;
r->LastConnectDateTime = SystemTime64();
CLog(c, "LC_CONNECT", connect->AccountName);
r->ClientSession = NewClientSessionEx(c->Cedar, r->ClientOption, r->ClientAuth, pa, r, &c->Config.NicDownOnDisconnect);
Notify(r->ClientSession, CLIENT_NOTIFY_ACCOUNT_CHANGED);
ret = true;
}
}
}
Unlock(r->lock);
}
UnlockList(c->AccountList);
CiSaveConfigurationFile(c);
return ret;
}
// Put all unused TUN interfaces down
// Requires account and VLan lists of the CLIENT argument to be already locked
bool CtVLansDown(CLIENT *c)
{
#ifndef UNIX_LINUX
return true;
#else
int i;
LIST *tmpVLanList;
UNIX_VLAN t, *r;
bool result = true;
if (c == NULL)
{
return false;
}
tmpVLanList = CloneList(c->UnixVLanList);
if (tmpVLanList == NULL)
{
return false;
}
// Remove from tmpVLanList all VLans corresponding to active sessions
for (i = 0; i < LIST_NUM(c->AccountList); ++i)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
if (a->ClientSession == NULL)
{
continue;
}
Zero(&t, sizeof(t));
StrCpy(t.Name, sizeof(t.Name), a->ClientOption->DeviceName);
r = Search(tmpVLanList, &t);
Delete(tmpVLanList, r);
}
// Set down every VLan in tmpVLanList
for (i = 0; i < LIST_NUM(tmpVLanList) && result; ++i)
{
r = LIST_DATA(tmpVLanList, i);
result = UnixVLanSetState(r->Name, false);
// [MP:] Should we report *critical* error on failure?
}
ReleaseList(tmpVLanList);
return result;
#endif
}
// Put all TUN interfaces up
// Requires VLan list of the CLIENT argument to be already locked
bool CtVLansUp(CLIENT *c)
{
#ifndef UNIX_LINUX
return true;
#else
int i;
UNIX_VLAN *r;
if (c == NULL)
{
return false;
}
for (i = 0; i < LIST_NUM(c->UnixVLanList); ++i)
{
r = LIST_DATA(c->UnixVLanList, i);
UnixVLanSetState(r->Name, true);
}
return true;
#endif
}
// Get the account information
bool CtGetAccount(CLIENT *c, RPC_CLIENT_GET_ACCOUNT *a)
{
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
LockList(c->AccountList);
{
ACCOUNT t, *r;
// Search for account
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName), a->AccountName);
r = Search(c->AccountList, &t);
if (r == NULL)
{
// Specified account can not be found
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_NOT_FOUND);
return false;
}
Free(t.ClientOption);
Lock(r->lock);
{
// Copy the client option
if (a->ClientOption != NULL)
{
Free(a->ClientOption);
}
a->ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
Copy(a->ClientOption, r->ClientOption, sizeof(CLIENT_OPTION));
// Copy the authentication data
if (a->ClientAuth != NULL)
{
CiFreeClientAuth(a->ClientAuth);
}
a->ClientAuth = CopyClientAuth(r->ClientAuth);
a->StartupAccount = r->StartupAccount;
a->CheckServerCert = r->CheckServerCert;
a->RetryOnServerCert = r->RetryOnServerCert;
a->ServerCert = NULL;
if (r->ServerCert != NULL)
{
a->ServerCert = CloneX(r->ServerCert);
}
// Shortcut Key
Copy(a->ShortcutKey, r->ShortcutKey, SHA1_SIZE);
a->CreateDateTime = r->CreateDateTime;
a->LastConnectDateTime = r->LastConnectDateTime;
a->UpdateDateTime = r->UpdateDateTime;
}
Unlock(r->lock);
}
UnlockList(c->AccountList);
return true;
}
// Change the account name
bool CtRenameAccount(CLIENT *c, RPC_RENAME_ACCOUNT *rename, bool inner)
{
bool ret;
// Validate arguments
if (c == NULL || rename == NULL)
{
return false;
}
ret = false;
if (UniStrCmp(rename->NewName, rename->OldName) == 0)
{
// The name has not been changed
return true;
}
LockList(c->AccountList);
{
ACCOUNT t, *r, *r2;
if (UniStrLen(rename->NewName) == 0)
{
// Name is invalid
CiSetError(c, ERR_INVALID_VALUE);
UnlockList(c->AccountList);
return false;
}
// Search for old account name
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName), rename->OldName);
r = Search(c->AccountList, &t);
if (r == NULL)
{
// Specified account can not be found
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_NOT_FOUND);
return false;
}
Free(t.ClientOption);
// Search for a new account name
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName), rename->NewName);
r2 = Search(c->AccountList, &t);
if (r2 != NULL)
{
// Account with the specified name already exists
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_ALREADY_EXISTS);
return false;
}
Free(t.ClientOption);
Lock(r->lock);
{
// Check the operating state of the account
if (r->ClientSession != NULL)
{
// The Account is working
Unlock(r->lock);
UnlockList(c->AccountList);
CiSetError(c, ERR_ACCOUNT_ACTIVE);
return false;
}
// Update the account name
UniStrCpy(r->ClientOption->AccountName, sizeof(r->ClientOption->AccountName),
rename->NewName);
CLog(c, "LC_RENAME_ACCOUNT", rename->OldName, rename->NewName);
ret = true;
}
Unlock(r->lock);
Sort(c->AccountList);
}
UnlockList(c->AccountList);
CiSaveConfigurationFile(c);
CiNotify(c);
return ret;
}
// Set the client configuration
bool CtSetClientConfig(CLIENT *c, CLIENT_CONFIG *o)
{
KEEP *k;
// Validate arguments
if (c == NULL || o == NULL)
{
return false;
}
if (o->UseKeepConnect)
{
if (IsEmptyStr(o->KeepConnectHost) ||
o->KeepConnectPort == 0 ||
o->KeepConnectPort >= 65536)
{
CiSetError(c, ERR_INVALID_PARAMETER);
return false;
}
}
Lock(c->lock);
{
Copy(&c->Config, o, sizeof(CLIENT_CONFIG));
}
Unlock(c->lock);
// Save the settings
CiSaveConfigurationFile(c);
// Apply the Keep Connect
k = c->Keep;
Lock(k->lock);
{
if (o->UseKeepConnect)
{
StrCpy(k->ServerName, sizeof(k->ServerName), c->Config.KeepConnectHost);
k->ServerPort = c->Config.KeepConnectPort;
k->Interval = c->Config.KeepConnectInterval * 1000;
k->UdpMode = (c->Config.KeepConnectProtocol == CONNECTION_UDP) ? true : false;
k->Enable = true;
}
else
{
k->Enable = false;
}
}
Unlock(k->lock);
// Apply TAP state
LockList(c->AccountList);
LockList(c->UnixVLanList);
if (o->NicDownOnDisconnect)
{
CtVLansDown(c);
}
else
{
CtVLansUp(c);
}
UnlockList(c->UnixVLanList);
UnlockList(c->AccountList);
return true;
}
// Get the network client configuration
bool CtGetClientConfig(CLIENT *c, CLIENT_CONFIG *o)
{
// Validate arguments
if (c == NULL || o == NULL)
{
return false;
}
Lock(c->lock);
{
Copy(o, &c->Config, sizeof(CLIENT_CONFIG));
}
Unlock(c->lock);
return true;
}
// Unset the startup attribute of the account
bool CtRemoveStartupAccount(CLIENT *c, RPC_CLIENT_DELETE_ACCOUNT *a)
{
bool ret;
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
ret = false;
LockList(c->AccountList);
{
ACCOUNT t, *r;
// Search for an Account
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName), a->AccountName);
r = Search(c->AccountList, &t);
if (r == NULL)
{
// Specified account can not be found
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_NOT_FOUND);
return false;
}
Free(t.ClientOption);
Lock(r->lock);
{
// Unset the startup account
ret = true;
r->StartupAccount = false;
}
Unlock(r->lock);
}
UnlockList(c->AccountList);
if (ret)
{
CiSaveConfigurationFile(c);
CiNotify(c);
}
return ret;
}
// Set the account as a start-up account
bool CtSetStartupAccount(CLIENT *c, RPC_CLIENT_DELETE_ACCOUNT *a, bool inner)
{
bool ret;
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
ret = false;
LockList(c->AccountList);
{
ACCOUNT t, *r;
// Search for an account
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName), a->AccountName);
r = Search(c->AccountList, &t);
if (r == NULL)
{
// Specified account can not be found
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_NOT_FOUND);
return false;
}
Free(t.ClientOption);
Lock(r->lock);
{
// Set to a start-up account
ret = true;
r->StartupAccount = true;
}
Unlock(r->lock);
}
UnlockList(c->AccountList);
if (ret)
{
CiSaveConfigurationFile(c);
CiNotify(c);
}
return ret;
}
// Delete the account
bool CtDeleteAccount(CLIENT *c, RPC_CLIENT_DELETE_ACCOUNT *a, bool inner)
{
bool ret;
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
ret = false;
if (c->Halt)
{
// Don't allow the removal of the account in the process of stopping
CiSetError(c, ERR_INTERNAL_ERROR);
return false;
}
LockList(c->AccountList);
{
ACCOUNT t, *r;
// Search for an Account
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName), a->AccountName);
r = Search(c->AccountList, &t);
if (r == NULL)
{
// Specified account can not be found
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_NOT_FOUND);
return false;
}
Free(t.ClientOption);
Lock(r->lock);
{
// Check the operating state of the account
if (r->ClientSession != NULL)
{
// The account is active
Unlock(r->lock);
UnlockList(c->AccountList);
CiSetError(c, ERR_ACCOUNT_ACTIVE);
return false;
}
// Remove this account from the list
Delete(c->AccountList, r);
}
Unlock(r->lock);
// Free the memory of this account
CiFreeAccount(r);
CLog(c, "LC_DELETE_ACCOUNT", a->AccountName);
ret = true;
}
UnlockList(c->AccountList);
if (ret)
{
CiSaveConfigurationFile(c);
CiNotify(c);
}
return ret;
}
// Enumeration of accounts
bool CtEnumAccount(CLIENT *c, RPC_CLIENT_ENUM_ACCOUNT *e)
{
// Validate arguments
if (c == NULL || e == NULL)
{
return false;
}
LockList(c->AccountList);
{
UINT i;
// Number of accounts
e->NumItem = LIST_NUM(c->AccountList);
e->Items = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_ACCOUNT_ITEM *) * e->NumItem);
for (i = 0;i < e->NumItem;i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
RPC_CLIENT_ENUM_ACCOUNT_ITEM *item = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_ACCOUNT_ITEM));
e->Items[i] = item;
// Account name
UniStrCpy(item->AccountName, sizeof(item->AccountName), a->ClientOption->AccountName);
// User name
StrCpy(item->UserName, sizeof(item->UserName), a->ClientAuth->Username);
// Server name
StrCpy(item->ServerName, sizeof(item->ServerName), a->ClientOption->Hostname);
// Proxy type
item->ProxyType = a->ClientOption->ProxyType;
// Device name
StrCpy(item->DeviceName, sizeof(item->DeviceName), a->ClientOption->DeviceName);
// Proxy information
if (item->ProxyType != PROXY_DIRECT)
{
StrCpy(item->ProxyName, sizeof(item->ProxyName), a->ClientOption->ProxyName);
}
// Startup
item->StartupAccount = a->StartupAccount;
// Active flag
item->Active = (a->ClientSession == NULL ? false : true);
// Connection flag
item->Connected = (item->Active == false) ? false : a->ClientSession->ConnectSucceed;
// Port number
item->Port = a->ClientOption->Port;
// Virtual HUB name
StrCpy(item->HubName, sizeof(item->HubName), a->ClientOption->HubName);
item->CreateDateTime = a->CreateDateTime;
item->LastConnectDateTime = a->LastConnectDateTime;
item->UpdateDateTime = a->UpdateDateTime;
}
}
UnlockList(c->AccountList);
return true;
}
// Configure the account
bool CtSetAccount(CLIENT *c, RPC_CLIENT_CREATE_ACCOUNT *a, bool inner)
{
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
// Check whether an account already exists
LockList(c->AccountList);
{
ACCOUNT t, *ret;
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName),
a->ClientOption->AccountName);
ret = Search(c->AccountList, &t);
if (ret == NULL)
{
// Not exist
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_NOT_FOUND);
return false;
}
Free(t.ClientOption);
if (a->ClientAuth->AuthType == CLIENT_AUTHTYPE_CERT)
{
if (a->ClientAuth->ClientX == NULL ||
a->ClientAuth->ClientX->is_compatible_bit == false ||
a->ClientAuth->ClientK == NULL)
{
// Client certificate is invalid
UnlockList(c->AccountList);
CiSetError(c, ERR_NOT_RSA_1024);
return false;
}
}
if (a->ServerCert != NULL && a->ServerCert->is_compatible_bit == false)
{
// Server certificate is invalid
UnlockList(c->AccountList);
CiSetError(c, ERR_NOT_RSA_1024);
return false;
}
Lock(ret->lock);
{
#if 0
// Rewriting of the configuration is done even account running in the current version
// (New setting isn't applied until connecting next time)
if (ret->ClientSession != NULL)
{
// The account is operating
Unlock(ret->lock);
UnlockList(c->AccountList);
CiSetError(c, ERR_ACCOUNT_ACTIVE);
return false;
}
#endif
// Delete the client authentication data
CiFreeClientAuth(ret->ClientAuth);
// Copy the client authentication data
ret->ClientAuth = CopyClientAuth(a->ClientAuth);
// Delete the client option
Free(ret->ClientOption);
// Copy the client option
ret->ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
Copy(ret->ClientOption, a->ClientOption, sizeof(CLIENT_OPTION));
ret->StartupAccount = a->StartupAccount;
ret->CheckServerCert = a->CheckServerCert;
ret->RetryOnServerCert = a->RetryOnServerCert;
if (a->ServerCert != NULL)
{
if (ret->ServerCert != NULL)
{
FreeX(ret->ServerCert);
}
ret->ServerCert = CloneX(a->ServerCert);
}
else
{
if (ret->ServerCert != NULL)
{
FreeX(ret->ServerCert);
}
ret->ServerCert = false;
}
ret->UpdateDateTime = SystemTime64();
}
Unlock(ret->lock);
}
UnlockList(c->AccountList);
CiSaveConfigurationFile(c);
CiNotify(c);
return true;
}
// Create an account
bool CtCreateAccount(CLIENT *c, RPC_CLIENT_CREATE_ACCOUNT *a, bool inner)
{
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
// Check whether an account already exists
LockList(c->AccountList);
{
ACCOUNT t, *ret, *new_account;
t.ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
UniStrCpy(t.ClientOption->AccountName, sizeof(t.ClientOption->AccountName),
a->ClientOption->AccountName);
ret = Search(c->AccountList, &t);
if (ret != NULL)
{
// Already exist
UnlockList(c->AccountList);
Free(t.ClientOption);
CiSetError(c, ERR_ACCOUNT_ALREADY_EXISTS);
return false;
}
Free(t.ClientOption);
if (UniStrLen(a->ClientOption->AccountName) == 0)
{
// The name is invalid
UnlockList(c->AccountList);
CiSetError(c, ERR_INVALID_VALUE);
return false;
}
if (a->ClientAuth->AuthType == CLIENT_AUTHTYPE_CERT)
{
if (a->ClientAuth->ClientX == NULL ||
a->ClientAuth->ClientX->is_compatible_bit == false ||
a->ClientAuth->ClientK == NULL)
{
// The client certificate is invalid
UnlockList(c->AccountList);
CiSetError(c, ERR_NOT_RSA_1024);
return false;
}
}
if (a->ServerCert != NULL && a->ServerCert->is_compatible_bit == false)
{
// The server certificate is invalid
UnlockList(c->AccountList);
CiSetError(c, ERR_NOT_RSA_1024);
return false;
}
// Add a new account
new_account = ZeroMalloc(sizeof(ACCOUNT));
new_account->lock = NewLock();
// Copy the client authentication data
new_account->ClientAuth = CopyClientAuth(a->ClientAuth);
// Copy the client option
new_account->ClientOption = ZeroMalloc(sizeof(CLIENT_OPTION));
Copy(new_account->ClientOption, a->ClientOption, sizeof(CLIENT_OPTION));
new_account->StartupAccount = a->StartupAccount;
new_account->CheckServerCert = a->CheckServerCert;
new_account->RetryOnServerCert = a->RetryOnServerCert;
if (a->ServerCert != NULL)
{
new_account->ServerCert = CloneX(a->ServerCert);
}
// Shortcut Key
if (IsZero(a->ShortcutKey, SHA1_SIZE))
{
Rand(new_account->ShortcutKey, SHA1_SIZE);
}
else
{
Copy(new_account->ShortcutKey, a->ShortcutKey, SHA1_SIZE);
}
new_account->CreateDateTime = new_account->UpdateDateTime = SystemTime64();
// Insert into the list
Insert(c->AccountList, new_account);
CLog(c, "LC_NEW_ACCOUNT", a->ClientOption->AccountName);
}
UnlockList(c->AccountList);
CiNormalizeAccountVLan(c);
CiSaveConfigurationFile(c);
CiNotify(c);
return true;
}
// Release the account acquisition structure
void CiFreeClientGetAccount(RPC_CLIENT_GET_ACCOUNT *a)
{
// Validate arguments
if (a == NULL)
{
return;
}
// Release the account information
if (a->ServerCert != NULL)
{
FreeX(a->ServerCert);
}
CiFreeClientAuth(a->ClientAuth);
Free(a->ClientOption);
}
// Release the account creation structure
void CiFreeClientCreateAccount(RPC_CLIENT_CREATE_ACCOUNT *a)
{
// Validate arguments
if (a == NULL)
{
return;
}
// Release the account information
if (a->ServerCert != NULL)
{
FreeX(a->ServerCert);
}
CiFreeClientAuth(a->ClientAuth);
Free(a->ClientOption);
}
// Stop the virtual LAN card
bool CtDisableVLan(CLIENT *c, RPC_CLIENT_CREATE_VLAN *vlan)
{
UINT i;
bool used;
// Validate arguments
if (c == NULL || vlan == NULL)
{
return false;
}
#ifndef OS_WIN32
#ifdef NO_VLAN
if (GetOsInfo()->OsType == OSTYPE_MACOS_X)
{
// Can not be added or removed the virtual LAN card in MacOS X
CiSetError(c, ERR_NOT_SUPPORTED);
return false;
}
#endif // NO_VLAN
// Check whether the virtual LAN card with the specified name is not
// being used by one or more accounts
used = false;
LockList(c->AccountList);
{
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
if (StrCmpi(a->ClientOption->DeviceName, vlan->DeviceName) == 0)
{
Lock(a->lock);
{
if (a->ClientSession != NULL)
{
used = true;
}
}
Unlock(a->lock);
}
}
}
UnlockList(c->AccountList);
// Search for the virtual LAN card
LockList(c->UnixVLanList);
{
UNIX_VLAN *v, t;
Zero(&t, sizeof(t));
StrCpy(t.Name, sizeof(t.Name), vlan->DeviceName);
v = Search(c->UnixVLanList, &t);
if (v == NULL)
{
UnlockList(c->UnixVLanList);
CiSetError(c, ERR_OBJECT_NOT_FOUND);
return false;
}
// Stop
v->Enabled = false;
}
UnlockList(c->UnixVLanList);
CiSaveConfigurationFile(c);
CiNotify(c);
CiSendGlobalPulse(c);
return true;
#else // OS_WIN32
// Check whether the virtual LAN card with the specified name is not
// being used by one or more accounts
used = false;
LockList(c->AccountList);
{
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
if (StrCmpi(a->ClientOption->DeviceName, vlan->DeviceName) == 0)
{
Lock(a->lock);
{
if (a->ClientSession != NULL)
{
used = true;
}
}
Unlock(a->lock);
}
}
}
UnlockList(c->AccountList);
#if 0
if (used)
{
// In using
CiSetError(c, ERR_VLAN_IS_USED);
return false;
}
#endif
// Check whether the virtual LAN card are present
if (MsIsVLanExists(VLAN_ADAPTER_NAME_TAG, vlan->DeviceName) == false &&
MsIsVLanExists(VLAN_ADAPTER_NAME_TAG_OLD, vlan->DeviceName) == false)
{
CiSetError(c, ERR_OBJECT_NOT_FOUND);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
if (MsIs64BitWindows() && Is32() && MsIsAdmin())
{
// Execute the driver_installer to process since this Windows is 64 bit
// but this code is 32 bit
char tmp[MAX_SIZE];
Format(tmp, sizeof(tmp), "disablevlan %s", vlan->DeviceName);
if (MsExecDriverInstaller(tmp) == false)
{
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
}
else
{
// Stop the virtual LAN card
if (MsDisableVLan(vlan->DeviceName) == false)
{
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
}
CiNotify(c);
CiSendGlobalPulse(c);
return true;
#endif // OS_WIN32
}
// Start the virtual LAN card
bool CtEnableVLan(CLIENT *c, RPC_CLIENT_CREATE_VLAN *vlan)
{
// Validate arguments
if (c == NULL || vlan == NULL)
{
return false;
}
#ifndef OS_WIN32
#ifdef NO_VLAN
if (GetOsInfo()->OsType == OSTYPE_MACOS_X)
{
// Can not be added or removed the virtual LAN card in MacOS X
CiSetError(c, ERR_NOT_SUPPORTED);
return false;
}
#endif // NO_VLAN
// Search the virtual LAN card
LockList(c->UnixVLanList);
{
UNIX_VLAN *v, t;
Zero(&t, sizeof(t));
StrCpy(t.Name, sizeof(t.Name), vlan->DeviceName);
v = Search(c->UnixVLanList, &t);
if (v == NULL)
{
UnlockList(c->UnixVLanList);
CiSetError(c, ERR_OBJECT_NOT_FOUND);
return false;
}
// Enable
v->Enabled = true;
}
UnlockList(c->UnixVLanList);
CiSaveConfigurationFile(c);
CiNotify(c);
CiSendGlobalPulse(c);
return true;
#else // OS_WIN32
// Check whether the virtual LAN card are present
if (MsIsVLanExists(VLAN_ADAPTER_NAME_TAG, vlan->DeviceName) == false &&
MsIsVLanExists(VLAN_ADAPTER_NAME_TAG_OLD, vlan->DeviceName) == false)
{
CiSetError(c, ERR_OBJECT_NOT_FOUND);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
if (MsIs64BitWindows() && Is32() && MsIsAdmin())
{
// Execute the driver_installer to process since this Windows is 64 bit
// but this code is 32 bit
char tmp[MAX_SIZE];
Format(tmp, sizeof(tmp), "enablevlan %s", vlan->DeviceName);
if (MsExecDriverInstaller(tmp) == false)
{
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
}
else
{
// Start the virtual LAN card
if (MsEnableVLan(vlan->DeviceName) == false)
{
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
}
CiNotify(c);
CiSendGlobalPulse(c);
return true;
#endif // OS_WIN32
}
// Delete the virtual LAN card
bool CtDeleteVLan(CLIENT *c, RPC_CLIENT_CREATE_VLAN *d)
{
UINT i;
bool used;
// Validate arguments
if (c == NULL || d == NULL)
{
return false;
}
#ifndef OS_WIN32
#ifdef NO_VLAN
if (GetOsInfo()->OsType == OSTYPE_MACOS_X)
{
// Can not be added or removed the virtual LAN card in MacOS X
CiSetError(c, ERR_NOT_SUPPORTED);
return false;
}
#endif // NO_VLAN
// Check whether the virtual LAN card with the specified name is not
// being used by one or more accounts
used = false;
LockList(c->AccountList);
{
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
if (StrCmpi(a->ClientOption->DeviceName, d->DeviceName) == 0)
{
used = true;
}
}
}
UnlockList(c->AccountList);
#if 0
if (used)
{
// In using
CiSetError(c, ERR_VLAN_IS_USED);
return false;
}
#endif
// Search for the virtual LAN card
LockList(c->UnixVLanList);
{
UNIX_VLAN *v, t;
Zero(&t, sizeof(t));
StrCpy(t.Name, sizeof(t.Name), d->DeviceName);
v = Search(c->UnixVLanList, &t);
if (v == NULL)
{
UnlockList(c->UnixVLanList);
CiSetError(c, ERR_OBJECT_NOT_FOUND);
return false;
}
// Remove
if (Delete(c->UnixVLanList, v))
{
Free(v);
}
CLog(c, "LC_DELETE_VLAN", d->DeviceName);
UnixVLanDelete(d->DeviceName);
}
UnlockList(c->UnixVLanList);
CiNormalizeAccountVLan(c);
CiSaveConfigurationFile(c);
CiNotify(c);
CiSendGlobalPulse(c);
return true;
#else // OS_WIN32
if (MsIsNt() == false)
{
// Not available in Win9x
CiSetError(c, ERR_NOT_SUPPORTED);
return false;
}
// Check whether the virtual LAN card are present
if (MsIsVLanExists(VLAN_ADAPTER_NAME_TAG, d->DeviceName) == false &&
MsIsVLanExists(VLAN_ADAPTER_NAME_TAG_OLD, d->DeviceName) == false)
{
CiSetError(c, ERR_OBJECT_NOT_FOUND);
return false;
}
// Check whether the virtual LAN card with the specified name is not
// being used by one or more accounts
used = false;
LockList(c->AccountList);
{
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
if (StrCmpi(a->ClientOption->DeviceName, d->DeviceName) == 0)
{
used = true;
}
}
}
UnlockList(c->AccountList);
#if 0
if (used)
{
// In using
CiSetError(c, ERR_VLAN_IS_USED);
return false;
}
#endif
if (MsIs64BitWindows() && Is32() && MsIsAdmin())
{
// Execute the driver_installer to process since this Windows is 64 bit
// but this code is 32 bit
char tmp[MAX_SIZE];
Format(tmp, sizeof(tmp), "uninstvlan %s", d->DeviceName);
if (MsExecDriverInstaller(tmp) == false)
{
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
return false;
}
}
else
{
// Delete the virtual LAN card directly
if (MsUninstallVLan(d->DeviceName) == false)
{
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
}
CLog(c, "LC_DELETE_VLAN", d->DeviceName);
CiNormalizeAccountVLan(c);
CiNotify(c);
CiSendGlobalPulse(c);
return true;
#endif // OS_WIN32
}
// Get the name of the first VLAN
char *CiGetFirstVLan(CLIENT *c)
{
char *ret = NULL;
RPC_CLIENT_ENUM_VLAN t;
// Validate arguments
if (c == NULL)
{
return NULL;
}
Zero(&t, sizeof(t));
if (CtEnumVLan(c, &t) == false)
{
return NULL;
}
if (t.NumItem >= 1)
{
UINT i;
char *tmp = t.Items[0]->DeviceName;
for (i = 0;i < t.NumItem;i++)
{
if (t.Items[i]->Enabled)
{
tmp = t.Items[i]->DeviceName;
}
}
ret = CopyStr(tmp);
}
CiFreeClientEnumVLan(&t);
return ret;
}
// Enumerate virtual LAN cards
bool CtEnumVLan(CLIENT *c, RPC_CLIENT_ENUM_VLAN *e)
{
UINT i;
TOKEN_LIST *t;
// Validate arguments
if (c == NULL || e == NULL)
{
return false;
}
#ifndef OS_WIN32
LockList(c->UnixVLanList);
{
e->NumItem = LIST_NUM(c->UnixVLanList);
e->Items = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_VLAN_ITEM *) * e->NumItem);
for (i = 0;i < e->NumItem;i++)
{
RPC_CLIENT_ENUM_VLAN_ITEM *item;
UNIX_VLAN *v;
v = LIST_DATA(c->UnixVLanList, i);
e->Items[i] = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_VLAN_ITEM));
item = e->Items[i];
item->Enabled = v->Enabled;
BinToStr(item->MacAddress, sizeof(item->MacAddress), v->MacAddress, 6);
StrCpy(item->DeviceName, sizeof(item->DeviceName), v->Name);
StrCpy(item->Version, sizeof(item->Version), c->Cedar->VerString);
}
}
UnlockList(c->UnixVLanList);
return true;
#else // OS_WIN32
// Enumeration
t = MsEnumNetworkAdapters(VLAN_ADAPTER_NAME, VLAN_ADAPTER_NAME_OLD);
if (t == NULL)
{
// Enumeration failure
e->NumItem = 0;
e->Items = ZeroMalloc(0);
}
else
{
// Enumeration success
e->NumItem = t->NumTokens;
e->Items = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_VLAN_ITEM *) * e->NumItem);
for (i = 0;i < e->NumItem;i++)
{
char *tmp;
RPC_CLIENT_ENUM_VLAN_ITEM *item;
e->Items[i] = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_VLAN_ITEM));
item = e->Items[i];
StrCpy(item->DeviceName, sizeof(item->DeviceName), t->Token[i]);
item->Enabled = MsIsVLanEnabled(item->DeviceName);
tmp = MsGetMacAddress(VLAN_ADAPTER_NAME_TAG, item->DeviceName);
if (tmp == NULL)
{
tmp = MsGetMacAddress(VLAN_ADAPTER_NAME_TAG_OLD, item->DeviceName);
}
StrCpy(item->MacAddress, sizeof(item->MacAddress), tmp);
Free(tmp);
tmp = MsGetDriverVersion(VLAN_ADAPTER_NAME_TAG, item->DeviceName);
if (tmp == NULL)
{
tmp = MsGetDriverVersion(VLAN_ADAPTER_NAME_TAG_OLD, item->DeviceName);
}
StrCpy(item->Version, sizeof(item->Version), tmp);
Free(tmp);
}
FreeToken(t);
}
return true;
#endif // OS_WIN32
}
// Release the virtual LAN card enumeration
void CiFreeClientEnumVLan(RPC_CLIENT_ENUM_VLAN *e)
{
UINT i;
// Validate arguments
if (e == NULL)
{
return;
}
for (i = 0;i < e->NumItem;i++)
{
Free(e->Items[i]);
}
Free(e->Items);
}
// Set the information about the virtual LAN card
bool CtSetVLan(CLIENT *c, RPC_CLIENT_SET_VLAN *set)
{
// Validate arguments
if (c == NULL || set == NULL)
{
return false;
}
#ifndef OS_WIN32
LockList(c->UnixVLanList);
{
UNIX_VLAN t, *r;
Zero(&t, sizeof(t));
StrCpy(t.Name, sizeof(t.Name), set->DeviceName);
r = Search(c->UnixVLanList, &t);
if (r == NULL)
{
// Not exist
CiSetError(c, ERR_VLAN_ALREADY_EXISTS);
UnlockList(c->UnixVLanList);
return false;
}
StrToMac(r->MacAddress, set->MacAddress);
}
UnlockList(c->UnixVLanList);
CiSaveConfigurationFile(c);
CiNotify(c);
CiSendGlobalPulse(c);
return true;
#else // OS_WIN32
// Check whether the virtual LAN card with the specified name already exists
if (MsIsVLanExists(VLAN_ADAPTER_NAME_TAG, set->DeviceName) == false &&
MsIsVLanExists(VLAN_ADAPTER_NAME_TAG_OLD, set->DeviceName) == false)
{
// Not exist
CiSetError(c, ERR_OBJECT_NOT_FOUND);
return false;
}
// Configuring MAC address
MsSetMacAddress(VLAN_ADAPTER_NAME_TAG, set->DeviceName, set->MacAddress);
MsSetMacAddress(VLAN_ADAPTER_NAME_TAG_OLD, set->DeviceName, set->MacAddress);
CiNotify(c);
CiSendGlobalPulse(c);
return true;
#endif // OS_WIN32
}
// Get the information about the virtual LAN card
bool CtGetVLan(CLIENT *c, RPC_CLIENT_GET_VLAN *get)
{
char *tmp;
// Validate arguments
if (c == NULL || get == NULL)
{
return false;
}
#ifndef OS_WIN32
// Unsupported
CiSetError(c, ERR_NOT_SUPPORTED);
return false;
#else // OS_WIN32
// Check whether the virtual LAN card with the specified name already exists
if (MsIsVLanExists(VLAN_ADAPTER_NAME_TAG, get->DeviceName) == false &&
MsIsVLanExists(VLAN_ADAPTER_NAME_TAG_OLD, get->DeviceName) == false)
{
// Not exist
CiSetError(c, ERR_OBJECT_NOT_FOUND);
return false;
}
// Activity
get->Enabled = MsIsVLanEnabled(get->DeviceName);
// MAC address
tmp = MsGetMacAddress(VLAN_ADAPTER_NAME_TAG, get->DeviceName);
if (tmp == NULL)
{
tmp = MsGetMacAddress(VLAN_ADAPTER_NAME_TAG_OLD, get->DeviceName);
}
StrCpy(get->MacAddress, sizeof(get->MacAddress), tmp);
Free(tmp);
// Version
tmp = MsGetDriverVersion(VLAN_ADAPTER_NAME_TAG, get->DeviceName);
if (tmp == NULL)
{
tmp = MsGetDriverVersion(VLAN_ADAPTER_NAME_TAG_OLD, get->DeviceName);
}
StrCpy(get->Version, sizeof(get->Version), tmp);
Free(tmp);
// File name
tmp = MsGetDriverFileName(VLAN_ADAPTER_NAME_TAG, get->DeviceName);
if (tmp == NULL)
{
tmp = MsGetDriverFileName(VLAN_ADAPTER_NAME_TAG_OLD, get->DeviceName);
}
StrCpy(get->FileName, sizeof(get->FileName), tmp);
Free(tmp);
// GUID
tmp = MsGetNetworkAdapterGuid(VLAN_ADAPTER_NAME_TAG, get->DeviceName);
if (tmp == NULL)
{
tmp = MsGetNetworkAdapterGuid(VLAN_ADAPTER_NAME_TAG_OLD, get->DeviceName);
}
StrCpy(get->Guid, sizeof(get->Guid), tmp);
Free(tmp);
return true;
#endif // OS_WIN32
}
#ifdef OS_WIN32
// Initialize the driver version information structure
void CiInitDriverVerStruct(MS_DRIVER_VER *ver)
{
// Validate arguments
if (ver == NULL)
{
return;
}
Zero(ver, sizeof(MS_DRIVER_VER));
ver->Year = BUILD_DATE_Y;
ver->Month = BUILD_DATE_M;
ver->Day = BUILD_DATE_D;
ver->Major = CEDAR_VERSION_MAJOR;
ver->Minor = CEDAR_VERSION_MINOR;
ver->Build = CEDAR_VERSION_BUILD;
}
#endif // OS_WIN32
// Upgrade the virtual LAN card
bool CtUpgradeVLan(CLIENT *c, RPC_CLIENT_CREATE_VLAN *create)
{
bool use_old_name = false;
#ifdef OS_WIN32
KAKUSHI *k = NULL;
MS_DRIVER_VER ver;
#endif // OS_WIN32
// Validate arguments
if (c == NULL || create == NULL)
{
return false;
}
#ifndef OS_WIN32
// Always succeed
return true;
#else // OS_WIN32
CiInitDriverVerStruct(&ver);
if (MsIsNt() == false)
{
// Not available in Win9x
CiSetError(c, ERR_NOT_SUPPORTED);
return false;
}
// Check whether the LAN card with the specified name already exists
if (MsIsVLanExists(VLAN_ADAPTER_NAME_TAG, create->DeviceName) == false &&
MsIsVLanExists(VLAN_ADAPTER_NAME_TAG_OLD, create->DeviceName) == false)
{
// Not exist
CiSetError(c, ERR_OBJECT_NOT_FOUND);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
if (MsIsVLanExists(VLAN_ADAPTER_NAME_TAG_OLD, create->DeviceName))
{
use_old_name = true;
}
if (MsIsVista() == false)
{
k = InitKakushi();
}
if (MsIsVista() == false)
{
// Perform the installation (other than Windows Vista)
if (MsUpgradeVLan(use_old_name ? VLAN_ADAPTER_NAME_TAG_OLD : VLAN_ADAPTER_NAME_TAG,
use_old_name ? VLAN_CONNECTION_NAME_OLD : VLAN_CONNECTION_NAME,
create->DeviceName, &ver) == false)
{
// Installation Failed
FreeKakushi(k);
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
}
else
{
// Perform the installation (Windows Vista)
char tmp[MAX_SIZE];
Format(tmp, sizeof(tmp), "upgradevlan %s", create->DeviceName);
if (CncExecDriverInstaller(tmp) == false)
{
// Installation Failed
FreeKakushi(k);
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
}
FreeKakushi(k);
CLog(c, "LC_UPDATE_VLAN", create->DeviceName);
CiNotify(c);
CiSendGlobalPulse(c);
return true;
#endif // OS_WIN32
}
// Create a virtual LAN card
bool CtCreateVLan(CLIENT *c, RPC_CLIENT_CREATE_VLAN *create)
{
TOKEN_LIST *t;
UINT max_len;
#ifdef OS_WIN32
KAKUSHI *k = NULL;
#endif // OS_WIN32
// Validate arguments
if (c == NULL || create == NULL)
{
return false;
}
if (SearchStrEx(create->DeviceName, " ", 0, false) != INFINITE)
{
// Spaces in the name is not allowed
CiSetError(c, ERR_INVALID_PARAMETER);
return false;
}
#ifndef OS_WIN32
// Non-Win32
#ifdef NO_VLAN
if (GetOsInfo()->OsType == OSTYPE_MACOS_X)
{
// A virtual LAN card can not be added or removed in MacOS X
CiSetError(c, ERR_NOT_SUPPORTED);
return false;
}
#endif // NO_VLAN
// Check whether the specified name is valid or not
if (IsSafeStr(create->DeviceName) == false)
{
// Name is invalid
CiSetError(c, ERR_VLAN_INVALID_NAME);
return false;
}
// Check whether the LAN card of the specified name already exists
LockList(c->UnixVLanList);
{
UNIX_VLAN t, *r;
Zero(&t, sizeof(t));
StrCpy(t.Name, sizeof(t.Name), create->DeviceName);
r = Search(c->UnixVLanList, &t);
if (r != NULL)
{
// Already exist
CiSetError(c, ERR_VLAN_ALREADY_EXISTS);
UnlockList(c->UnixVLanList);
return false;
}
// Register
r = ZeroMalloc(sizeof(UNIX_VLAN));
r->Enabled = true;
GenMacAddress(r->MacAddress);
StrCpy(r->Name, sizeof(r->Name), create->DeviceName);
// Create a TUN
if (UnixVLanCreate(r->Name, r->MacAddress, !c->Config.NicDownOnDisconnect) == false)
{
// Failure
Free(r);
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
UnlockList(c->UnixVLanList);
return false;
}
CLog(c, "LC_CREATE_VLAN", create->DeviceName);
Add(c->UnixVLanList, r);
}
UnlockList(c->UnixVLanList);
CiNormalizeAccountVLan(c);
CiNotify(c);
CiSendGlobalPulse(c);
CiSaveConfigurationFile(c);
return true;
#else // OS_WIN32
if (OS_IS_WINDOWS_9X(GetOsInfo()->OsType))
{
// Only one LAN card is available in the Win9x
TOKEN_LIST *t;
t = MsEnumNetworkAdapters(VLAN_ADAPTER_NAME, VLAN_ADAPTER_NAME_OLD);
if (t != NULL)
{
if (t->NumTokens >= 1)
{
FreeToken(t);
CiSetError(c, ERR_NOT_SUPPORTED);
return false;
}
FreeToken(t);
}
}
// Check whether the specified name is valid or not
if (IsSafeStr(create->DeviceName) == false)
{
// Name is invalid
CiSetError(c, ERR_VLAN_INVALID_NAME);
return false;
}
max_len = MsIsNt() ? MAX_DEVICE_NAME_LEN : MAX_DEVICE_NAME_LEN_9X;
if (StrLen(create->DeviceName) > max_len)
{
// Name is too long
CiSetError(c, ERR_VLAN_INVALID_NAME);
return false;
}
// Regulation in Windows 8 / 10
if (MsIsInfCatalogRequired())
{
if (CiIsValidVLanRegulatedName(create->DeviceName) == false)
{
// Name is invalid
CiSetError(c, ERR_VLAN_INVALID_NAME);
return false;
}
}
// Check whether the LAN card with the specified name already exists
if (MsIsVLanExists(VLAN_ADAPTER_NAME_TAG, create->DeviceName) ||
MsIsVLanExists(VLAN_ADAPTER_NAME_TAG_OLD, create->DeviceName))
{
// Already exist
CiSetError(c, ERR_VLAN_ALREADY_EXISTS);
return false;
}
if (MsIsNt())
{
if (MsIsVista() == false)
{
k = InitKakushi();
}
}
if (MsIsVista() == false)
{
MS_DRIVER_VER ver;
CiInitDriverVerStruct(&ver);
// Perform the installation (other than Windows Vista)
if (MsInstallVLan(VLAN_ADAPTER_NAME_TAG, VLAN_CONNECTION_NAME, create->DeviceName, &ver) == false)
{
// Installation Failed
FreeKakushi(k);
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
}
else
{
// Perform the installation (Windows Vista)
char tmp[MAX_SIZE];
Format(tmp, sizeof(tmp), "instvlan %s", create->DeviceName);
if (CncExecDriverInstaller(tmp) == false)
{
// Installation Failed
FreeKakushi(k);
CiSetError(c, ERR_VLAN_INSTALL_ERROR);
CiNotify(c);
CiSendGlobalPulse(c);
return false;
}
}
FreeKakushi(k);
t = MsEnumNetworkAdapters(VLAN_ADAPTER_NAME, VLAN_ADAPTER_NAME_OLD);
if (t->NumTokens == 1)
{
UINT i;
// If the result of the installation, virtual LAN card is only one,
// set virtual LAN card setting of all existing accounts to this virtual LAN card
LockList(c->AccountList);
{
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
Lock(a->lock);
{
if (a->ClientOption != NULL)
{
StrCpy(a->ClientOption->DeviceName, sizeof(a->ClientOption->DeviceName), create->DeviceName);
}
}
Unlock(a->lock);
}
}
UnlockList(c->AccountList);
}
FreeToken(t);
CLog(c, "LC_CREATE_VLAN", create->DeviceName);
CiNormalizeAccountVLan(c);
CiNotify(c);
CiSendGlobalPulse(c);
CiSaveConfigurationFile(c);
if (MsIsNt() == false)
{
if (GetOsInfo()->OsType == OSTYPE_WINDOWS_ME)
{
// Show the warning in the case of Windows Me
MsgBox(NULL, 0x00000040L, _UU("CM_9X_VLAN_ME_MESSAGE"));
}
ReleaseThread(NewThread(Win9xRebootThread, NULL));
}
return true;
#endif // OS_WIN32
}
// Enumerate objects in the secure device
bool CtEnumObjectInSecure(CLIENT *c, RPC_ENUM_OBJECT_IN_SECURE *e)
{
UINT i;
// Validate arguments
if (c == NULL || e == NULL)
{
return false;
}
e->NumItem = 5;
e->ItemName = ZeroMalloc(sizeof(char *) * e->NumItem);
e->ItemType = ZeroMalloc(sizeof(bool) * e->NumItem);
for (i = 0;i < e->NumItem;i++)
{
char tmp[MAX_SIZE];
Format(tmp, sizeof(tmp), "Test Object %u", i);
e->ItemName[i] = CopyStr(tmp);
e->ItemType[i] = (i % 2 == 0) ? false : true;
}
return true;
}
// Get the secure device to be used
bool CtGetUseSecure(CLIENT *c, RPC_USE_SECURE *sec)
{
// Validate arguments
if (c == NULL || sec == NULL)
{
return false;
}
sec->DeviceId = c->UseSecureDeviceId;
return true;
}
// Specifying a secure device to be used
bool CtUseSecure(CLIENT *c, RPC_USE_SECURE *sec)
{
// Validate arguments
if (c == NULL || sec == NULL)
{
return false;
}
// Do not check whether there is the specified device on the client manager
/* if (CheckSecureDeviceId(sec->DeviceId))
{
c->UseSecureDeviceId = sec->DeviceId;
}
else
{
CiSetError(c, ERR_OBJECT_NOT_FOUND);
return false;
}
*/
c->UseSecureDeviceId = sec->DeviceId;
CiSaveConfigurationFile(c);
return true;
}
// Enumeration of secure devices
bool CtEnumSecure(CLIENT *c, RPC_CLIENT_ENUM_SECURE *e)
{
LIST *o;
UINT i;
// Validate arguments
if (c == NULL || e == NULL)
{
return false;
}
o = GetSecureDeviceList();
e->NumItem = LIST_NUM(o);
e->Items = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_SECURE_ITEM *) * e->NumItem);
for (i = 0;i < LIST_NUM(o);i++)
{
RPC_CLIENT_ENUM_SECURE_ITEM *item = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_SECURE_ITEM));
SECURE_DEVICE *s = LIST_DATA(o, i);
item->DeviceId = s->Id;
StrCpy(item->DeviceName, sizeof(item->DeviceName), s->DeviceName);
StrCpy(item->Manufacturer, sizeof(item->Manufacturer), s->Manufacturer);
item->Type = s->Type;
e->Items[i] = item;
}
return true;
}
// Release the secure device enumeration
void CiFreeClientEnumSecure(RPC_CLIENT_ENUM_SECURE *e)
{
UINT i;
// Validate arguments
if (e == NULL)
{
return;
}
for (i = 0;i < e->NumItem;i++)
{
Free(e->Items[i]);
}
Free(e->Items);
}
// Release the RPC_GET_ISSUER
void CiFreeGetIssuer(RPC_GET_ISSUER *a)
{
// Validate arguments
if (a == NULL)
{
return;
}
if (a->issuer_x != NULL)
{
FreeX(a->issuer_x);
}
if (a->x != NULL)
{
FreeX(a->x);
}
}
// Get the common proxy settings
bool CtGetCommonProxySetting(CLIENT *c, INTERNET_SETTING *a)
{
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
Copy(a, &c->CommonProxySetting, sizeof(INTERNET_SETTING));
return true;
}
// Set the common proxy settings
bool CtSetCommonProxySetting(CLIENT *c, INTERNET_SETTING *a)
{
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
Copy(&c->CommonProxySetting, a, sizeof(INTERNET_SETTING));
CiSaveConfigurationFile(c);
return true;
}
// Get the issuer
bool CtGetIssuer(CLIENT *c, RPC_GET_ISSUER *a)
{
X *x;
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
x = FindCaSignedX(c->Cedar->CaList, a->x);
if (x == NULL)
{
CiSetError(c, ERR_OBJECT_NOT_FOUND);;
return false;
}
else
{
a->issuer_x = x;
if (a->x != NULL)
{
FreeX(a->x);
a->x = NULL;
}
return true;
}
}
// Get the CA certificate
bool CtGetCa(CLIENT *c, RPC_GET_CA *get)
{
bool ret = true;
X *cert = NULL;
// Validate arguments
if (c == NULL || get == NULL)
{
return false;
}
LockList(c->Cedar->CaList);
{
UINT i;
for (i = 0;i < LIST_NUM(c->Cedar->CaList);i++)
{
X *x = LIST_DATA(c->Cedar->CaList, i);
if (POINTER_TO_KEY(x) == get->Key)
{
cert = CloneX(x);
break;
}
}
}
UnlockList(c->Cedar->CaList);
if (cert == NULL)
{
// Certificate does not exist
ret = false;
CiSetError(c, ERR_OBJECT_NOT_FOUND);
}
else
{
ret = true;
get->x = cert;
}
return ret;
}
// Delete the CA certificate
bool CtDeleteCa(CLIENT *c, RPC_CLIENT_DELETE_CA *p)
{
bool ret;
// Validate arguments
if (c == NULL || p == NULL)
{
return false;
}
ret = DeleteCa(c->Cedar, p->Key);
if (ret == false)
{
CiSetError(c, ERR_OBJECT_NOT_FOUND);
}
CiSaveConfigurationFile(c);
return ret;
}
// Add a CA certificate
bool CtAddCa(CLIENT *c, RPC_CERT *cert)
{
// Validate arguments
if (c == NULL || cert == NULL)
{
return false;
}
if (cert->x->is_compatible_bit == false)
{
CiSetError(c, ERR_NOT_RSA_1024);
return false;
}
AddCa(c->Cedar, cert->x);
CiSaveConfigurationFile(c);
return true;
}
// Enumerate the trusted CA
bool CtEnumCa(CLIENT *c, RPC_CLIENT_ENUM_CA *e)
{
// Validate arguments
if (c == NULL || e == NULL)
{
return false;
}
Zero(e, sizeof(RPC_CLIENT_ENUM_CA));
LockList(c->Cedar->CaList);
{
UINT i;
e->NumItem = LIST_NUM(c->Cedar->CaList);
e->Items = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_CA_ITEM *) * e->NumItem);
for (i = 0;i < e->NumItem;i++)
{
X *x = LIST_DATA(c->Cedar->CaList, i);
e->Items[i] = ZeroMalloc(sizeof(RPC_CLIENT_ENUM_CA_ITEM));
GetAllNameFromNameEx(e->Items[i]->SubjectName, sizeof(e->Items[i]->SubjectName), x->subject_name);
GetAllNameFromNameEx(e->Items[i]->IssuerName, sizeof(e->Items[i]->IssuerName), x->issuer_name);
e->Items[i]->Expires = x->notAfter;
e->Items[i]->Key = POINTER_TO_KEY(x);
}
}
UnlockList(c->Cedar->CaList);
return true;
}
// Release the CA enumeration
void CiFreeClientEnumCa(RPC_CLIENT_ENUM_CA *e)
{
UINT i;
// Validate arguments
if (e == NULL)
{
return;
}
for (i = 0;i < e->NumItem;i++)
{
RPC_CLIENT_ENUM_CA_ITEM *ca = e->Items[i];
Free(ca);
}
Free(e->Items);
}
// Get the password setting
bool CtGetPasswordSetting(CLIENT *c, RPC_CLIENT_PASSWORD_SETTING *a)
{
UCHAR hash[SHA1_SIZE];
// Validate arguments
if (c == NULL || a == NULL)
{
return false;
}
Sha0(hash, "", 0);
if (Cmp(hash, c->EncryptedPassword, SHA1_SIZE) == 0)
{
a->IsPasswordPresented = false;
}
else
{
a->IsPasswordPresented = true;
}
a->PasswordRemoteOnly = c->PasswordRemoteOnly;
return true;
}
// Set the password
bool CtSetPassword(CLIENT *c, RPC_CLIENT_PASSWORD *pass)
{
char *str;
if (c == NULL)
{
return false;
}
str = pass->Password;
if (StrCmp(str, "********") != 0)
{
// Hash the password
Sha0(c->EncryptedPassword, str, StrLen(str));
}
c->PasswordRemoteOnly = pass->PasswordRemoteOnly;
CLog(c, "LC_SET_PASSWORD");
CiSaveConfigurationFile(c);
return true;
}
void CiFreeIni(LIST *o)
{
// Validate arguments
if (o == NULL)
{
return;
}
FreeIni(o);
}
// Read the custom.ini file
LIST *CiLoadIni()
{
BUF *b = ReadDump(CLIENT_CUSTOM_INI_FILENAME);
LIST *ini;
if (b == NULL)
{
return NULL;
}
ini = ReadIni(b);
FreeBuf(b);
return ini;
}
// Reflect the settings of the custom.ini
void CiLoadIniSettings(CLIENT *c)
{
LIST *o;
//char *log;
//char *config;
if (c == NULL)
{
return;
}
o = CiLoadIni();
if (o == NULL)
{
return;
}
/*log = IniStrValue(o, "NoSaveLog");
config = IniStrValue(o, "NoSaveConfig");
if(StrCmpi(log, "true") == 0)
{
c->NoSaveLog = true;
}
if(StrCmpi(config, "true") == 0)
{
c->NoSaveConfig = true;
}*/
c->NoSaveLog = ToBool(IniStrValue(o, "NoSaveLog"));
c->NoSaveConfig = ToBool(IniStrValue(o, "NoSaveConfig"));
CiFreeIni(o);
}
bool CiLoadConfigFilePathFromIni(char *path, UINT size)
{
char *tmp;
LIST *o;
bool ret = false;
// Validate arguments
if (path == NULL)
{
return false;
}
o = CiLoadIni();
if (o == NULL)
{
return false;
}
StrCpy(path, size, "");
tmp = IniStrValue(o, "ConfigPath");
NormalizePath(path, size, tmp);
if (IsEmptyStr(path) == false)
{
ret = true;
}
else
{
ret = false;
}
CiFreeIni(o);
return ret;
}
// Set the client error code
void CiSetError(CLIENT *c, UINT err)
{
// Validate arguments
if (c == NULL)
{
return;
}
c->Err = err;
}
// UNIX virtual LAN card comparison function
int CiCompareUnixVLan(void *p1, void *p2)
{
UNIX_VLAN *v1, *v2;
if (p1 == NULL || p2 == NULL)
{
return 0;
}
v1 = *(UNIX_VLAN **)p1;
v2 = *(UNIX_VLAN **)p2;
if (v1 == NULL || v2 == NULL)
{
return 0;
}
return StrCmpi(v1->Name, v2->Name);
}
// Modify the account settings that an incorrect VLAN name is specified
void CiNormalizeAccountVLan(CLIENT *c)
{
bool b = false;
char *name;
UINT i;
// Validate arguments
if (c == NULL)
{
return;
}
name = CiGetFirstVLan(c);
if (name != NULL)
{
LockList(c->AccountList);
{
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
Lock(a->lock);
{
if (a->ClientOption != NULL)
{
if (CiIsVLan(c, a->ClientOption->DeviceName) == false)
{
StrCpy(a->ClientOption->DeviceName, sizeof(a->ClientOption->DeviceName),
name);
b = true;
}
}
}
Unlock(a->lock);
}
}
UnlockList(c->AccountList);
Free(name);
}
if (b)
{
CiNotify(c);
CiSendGlobalPulse(c);
CiSaveConfigurationFile(c);
}
}
// Check whether a virtual LAN card of the specified name exists
bool CiIsVLan(CLIENT *c, char *name)
{
// Validate arguments
if (c == NULL || name == NULL)
{
return false;
}
#ifdef OS_WIN32
{
TOKEN_LIST *t;
UINT i;
t = MsEnumNetworkAdapters(VLAN_ADAPTER_NAME, VLAN_ADAPTER_NAME_OLD);
if (t == NULL)
{
return false;
}
for (i = 0;i < t->NumTokens;i++)
{
if (StrCmpi(t->Token[i], name) == 0)
{
FreeToken(t);
return true;
}
}
FreeToken(t);
return false;
}
#else // OS_WIN32
{
UNIX_VLAN *v;
UINT i;
bool ret = false;
LockList(c->UnixVLanList);
{
for (i = 0;i < LIST_NUM(c->UnixVLanList);i++)
{
v = (UNIX_VLAN *)LIST_DATA(c->UnixVLanList, i);
if (StrCmpi(v->Name, name) == 0)
{
ret = true;
}
}
}
UnlockList(c->UnixVLanList);
return ret;
}
#endif // OS_WIN32
}
// If a non-existent virtual LAN card is specified in any Account, and only
// one virtual LAN card is installed, set the virtual LAN card to the account
void CiSetVLanToDefault(CLIENT *c)
{
char device_name[MAX_SIZE];
// Validate arguments
if (c == NULL)
{
return;
}
#ifdef OS_WIN32
{
TOKEN_LIST *t;
t = MsEnumNetworkAdapters(VLAN_ADAPTER_NAME, VLAN_ADAPTER_NAME_OLD);
if (t == NULL)
{
return;
}
if (t->NumTokens != 1)
{
FreeToken(t);
return;
}
StrCpy(device_name, sizeof(device_name), t->Token[0]);
FreeToken(t);
}
#else // OS_WIN32
{
UNIX_VLAN *v;
LockList(c->UnixVLanList);
if (LIST_NUM(c->UnixVLanList) != 1)
{
UnlockList(c->UnixVLanList);
return;
}
v = LIST_DATA(c->UnixVLanList, 0);
StrCpy(device_name, sizeof(device_name), v->Name);
UnlockList(c->UnixVLanList);
}
#endif // OS_WIN32
{
UINT i;
LockList(c->AccountList);
{
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
Lock(a->lock);
{
if (CiIsVLan(c, a->ClientOption->DeviceName) == false)
{
StrCpy(a->ClientOption->DeviceName, sizeof(a->ClientOption->DeviceName),
device_name);
}
}
Unlock(a->lock);
}
}
UnlockList(c->AccountList);
}
}
// Initialize the settings
void CiInitConfiguration(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
#ifdef OS_UNIX
// Initialize the VLAN
UnixVLanInit();
#endif // OS_UNIX
// Account list
c->AccountList = NewList(CiCompareAccount);
// Unix version VLAN list
if (OS_IS_UNIX(GetOsInfo()->OsType))
{
c->UnixVLanList = NewList(CiCompareUnixVLan);
}
// Read the configuration file
CLog(c, "LC_LOAD_CONFIG_1");
if (CiLoadConfigurationFile(c) == false)
{
CLog(c, "LC_LOAD_CONFIG_3");
// Do the initial setup because the configuration file does not exist
// Clear the password
Sha0(c->EncryptedPassword, "", 0);
// Initialize the client configuration
// Disable remote management
c->Config.AllowRemoteConfig = false;
StrCpy(c->Config.KeepConnectHost, sizeof(c->Config.KeepConnectHost), CLIENT_DEFAULT_KEEPALIVE_HOST);
c->Config.KeepConnectPort = CLIENT_DEFAULT_KEEPALIVE_PORT;
c->Config.KeepConnectProtocol = CONNECTION_UDP;
c->Config.KeepConnectInterval = CLIENT_DEFAULT_KEEPALIVE_INTERVAL;
c->Config.UseKeepConnect = false; // Don't use the connection maintenance function by default in the Client
// Eraser
c->Eraser = NewEraser(c->Logger, 0);
}
else
{
CLog(c, "LC_LOAD_CONFIG_2");
}
// Appropriate setting for virtual LAN card
CiSetVLanToDefault(c);
}
// Release the settings
void CiFreeConfiguration(CLIENT *c)
{
UINT i;
// Validate arguments
if (c == NULL)
{
return;
}
// Write to the configuration file
CiSaveConfigurationFile(c);
// Release the configuration file
FreeCfgRw(c->CfgRw);
// Release the account list
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
CiFreeAccount(a);
}
ReleaseList(c->AccountList);
if (c->UnixVLanList != NULL)
{
// Release of UNIX version VLAN list
for (i = 0;i < LIST_NUM(c->UnixVLanList);i++)
{
UNIX_VLAN *v = LIST_DATA(c->UnixVLanList, i);
Free(v);
}
ReleaseList(c->UnixVLanList);
}
c->UnixVLanList = NULL;
#ifdef OS_UNIX
// Release the VLAN
UnixVLanFree();
#endif // OS_UNIX
}
// Release the certificate data acquisition
void CiFreeGetCa(RPC_GET_CA *a)
{
// Validate arguments
if (a == NULL)
{
return;
}
FreeX(a->x);
}
// Release the client authentication data
void CiFreeClientAuth(CLIENT_AUTH *auth)
{
// Validate arguments
if (auth == NULL)
{
return;
}
if (auth->ClientX != NULL)
{
FreeX(auth->ClientX);
}
if (auth->ClientK != NULL)
{
FreeK(auth->ClientK);
}
Free(auth);
}
// Release the account
void CiFreeAccount(ACCOUNT *a)
{
// Validate arguments
if (a == NULL)
{
return;
}
// Release the lock
DeleteLock(a->lock);
// Release the client option
Free(a->ClientOption);
// Release the client authentication data
CiFreeClientAuth(a->ClientAuth);
if (a->ServerCert != NULL)
{
FreeX(a->ServerCert);
}
Free(a);
}
// Sort accounts
int CiCompareAccount(void *p1, void *p2)
{
ACCOUNT *a1, *a2;
if (p1 == NULL || p2 == NULL)
{
return 0;
}
a1 = *(ACCOUNT **)p1;
a2 = *(ACCOUNT **)p2;
if (a1 == NULL || a2 == NULL)
{
return 0;
}
return UniStrCmpi(a1->ClientOption->AccountName, a2->ClientOption->AccountName);
}
// Read the client configuration
void CiLoadClientConfig(CLIENT_CONFIG *c, FOLDER *f)
{
// Validate arguments
if (c == NULL || f == NULL)
{
return;
}
c->UseKeepConnect = CfgGetBool(f, "UseKeepConnect");
CfgGetStr(f, "KeepConnectHost", c->KeepConnectHost, sizeof(c->KeepConnectHost));
c->KeepConnectPort = CfgGetInt(f, "KeepConnectPort");
c->KeepConnectProtocol = CfgGetInt(f, "KeepConnectProtocol");
c->AllowRemoteConfig = CfgGetBool(f, "AllowRemoteConfig");
c->KeepConnectInterval = MAKESURE(CfgGetInt(f, "KeepConnectInterval"), KEEP_INTERVAL_MIN, KEEP_INTERVAL_MAX);
c->NoChangeWcmNetworkSettingOnWindows8 = CfgGetBool(f, "NoChangeWcmNetworkSettingOnWindows8");
c->NicDownOnDisconnect = CfgGetBool(f, "NicDownOnDisconnect");
}
// Read the client authentication data
CLIENT_AUTH *CiLoadClientAuth(FOLDER *f)
{
CLIENT_AUTH *a;
char *s;
BUF *b;
// Validate arguments
if (f == NULL)
{
return NULL;
}
a = ZeroMalloc(sizeof(CLIENT_AUTH));
a->AuthType = CfgGetInt(f, "AuthType");
CfgGetStr(f, "Username", a->Username, sizeof(a->Username));
switch (a->AuthType)
{
case CLIENT_AUTHTYPE_ANONYMOUS:
break;
case CLIENT_AUTHTYPE_PASSWORD:
CfgGetByte(f, "HashedPassword", a->HashedPassword, SHA1_SIZE);
break;
case CLIENT_AUTHTYPE_PLAIN_PASSWORD:
b = CfgGetBuf(f, "EncryptedPassword");
if (b != NULL)
{
s = DecryptPassword(b);
StrCpy(a->PlainPassword, sizeof(a->PlainPassword), s);
Free(s);
FreeBuf(b);
}
break;
case CLIENT_AUTHTYPE_CERT:
b = CfgGetBuf(f, "ClientCert");
if (b != NULL)
{
a->ClientX = BufToX(b, false);
}
FreeBuf(b);
b = CfgGetBuf(f, "ClientKey");
if (b != NULL)
{
a->ClientK = BufToK(b, true, false, NULL);
}
FreeBuf(b);
break;
case CLIENT_AUTHTYPE_SECURE:
CfgGetStr(f, "SecurePublicCertName", a->SecurePublicCertName, sizeof(a->SecurePublicCertName));
CfgGetStr(f, "SecurePrivateKeyName", a->SecurePrivateKeyName, sizeof(a->SecurePrivateKeyName));
break;
}
return a;
}
// Read the client option
CLIENT_OPTION *CiLoadClientOption(FOLDER *f)
{
CLIENT_OPTION *o;
char *s;
BUF *b;
// Validate arguments
if (f == NULL)
{
return NULL;
}
o = ZeroMalloc(sizeof(CLIENT_OPTION));
CfgGetUniStr(f, "AccountName", o->AccountName, sizeof(o->AccountName));
CfgGetStr(f, "Hostname", o->Hostname, sizeof(o->Hostname));
o->Port = CfgGetInt(f, "Port");
o->PortUDP = CfgGetInt(f, "PortUDP");
o->ProxyType = CfgGetInt(f, "ProxyType");
CfgGetStr(f, "ProxyName", o->ProxyName, sizeof(o->ProxyName));
o->ProxyPort = CfgGetInt(f, "ProxyPort");
CfgGetStr(f, "ProxyUsername", o->ProxyUsername, sizeof(o->ProxyUsername));
b = CfgGetBuf(f, "ProxyPassword");
s = DecryptPassword(b);
StrCpy(o->ProxyPassword, sizeof(o->ProxyPassword), s);
Free(s);
FreeBuf(b);
CfgGetStr(f, "CustomHttpHeader", o->CustomHttpHeader, sizeof(o->CustomHttpHeader));
o->NumRetry = CfgGetInt(f, "NumRetry");
o->RetryInterval = CfgGetInt(f, "RetryInterval");
CfgGetStr(f, "HubName", o->HubName, sizeof(o->HubName));
o->MaxConnection = CfgGetInt(f, "MaxConnection");
o->UseEncrypt = CfgGetBool(f, "UseEncrypt");
o->UseCompress = CfgGetBool(f, "UseCompress");
o->HalfConnection = CfgGetBool(f, "HalfConnection");
o->NoRoutingTracking = CfgGetBool(f, "NoRoutingTracking");
CfgGetStr(f, "DeviceName", o->DeviceName, sizeof(o->DeviceName));
o->AdditionalConnectionInterval = CfgGetInt(f, "AdditionalConnectionInterval");
o->HideStatusWindow = CfgGetBool(f, "HideStatusWindow");
o->HideNicInfoWindow = CfgGetBool(f, "HideNicInfoWindow");
o->ConnectionDisconnectSpan = CfgGetInt(f, "ConnectionDisconnectSpan");
o->RequireMonitorMode = CfgGetBool(f, "RequireMonitorMode");
o->RequireBridgeRoutingMode = CfgGetBool(f, "RequireBridgeRoutingMode");
o->DisableQoS = CfgGetBool(f, "DisableQoS");
o->FromAdminPack = CfgGetBool(f, "FromAdminPack");
o->NoUdpAcceleration = CfgGetBool(f, "NoUdpAcceleration");
b = CfgGetBuf(f, "HostUniqueKey");
if (b != NULL)
{
if (b->Size == SHA1_SIZE)
{
Copy(o->HostUniqueKey, b->Buf, SHA1_SIZE);
}
FreeBuf(b);
}
return o;
}
// Read the account data
ACCOUNT *CiLoadClientAccount(FOLDER *f)
{
ACCOUNT *a;
FOLDER *client_option_folder, *client_auth_folder;
BUF *b;
char tmp[64];
// Validate arguments
if (f == NULL)
{
return NULL;
}
client_option_folder = CfgGetFolder(f, "ClientOption");
if (client_option_folder != NULL)
{
// Compare whether it matches to the account name that is already registered
}
client_auth_folder = CfgGetFolder(f, "ClientAuth");
if (client_option_folder == NULL || client_auth_folder == NULL)
{
return NULL;
}
a = ZeroMalloc(sizeof(ACCOUNT));
a->lock = NewLock();
a->ClientOption = CiLoadClientOption(client_option_folder);
a->ClientAuth = CiLoadClientAuth(client_auth_folder);
a->StartupAccount = CfgGetBool(f, "StartupAccount");
a->CheckServerCert = CfgGetBool(f, "CheckServerCert");
a->RetryOnServerCert = CfgGetBool(f, "RetryOnServerCert");
a->CreateDateTime = CfgGetInt64(f, "CreateDateTime");
a->UpdateDateTime = CfgGetInt64(f, "UpdateDateTime");
a->LastConnectDateTime = CfgGetInt64(f, "LastConnectDateTime");
b = CfgGetBuf(f, "ServerCert");
if (b != NULL)
{
a->ServerCert = BufToX(b, false);
FreeBuf(b);
}
if (CfgGetStr(f, "ShortcutKey", tmp, sizeof(tmp)))
{
BUF *b = StrToBin(tmp);
if (b->Size == SHA1_SIZE)
{
Copy(a->ShortcutKey, b->Buf, SHA1_SIZE);
}
FreeBuf(b);
}
if (IsZero(a->ShortcutKey, SHA1_SIZE))
{
Rand(a->ShortcutKey, SHA1_SIZE);
}
return a;
}
// Read the account database
void CiLoadAccountDatabase(CLIENT *c, FOLDER *f)
{
TOKEN_LIST *t;
UINT i;
// Validate arguments
if (c == NULL || f == NULL)
{
return;
}
t = CfgEnumFolderToTokenList(f);
if (t == NULL)
{
return;
}
for (i = 0;i < t->NumTokens;i++)
{
FOLDER *ff = CfgGetFolder(f, t->Token[i]);
if (ff != NULL)
{
ACCOUNT *a = CiLoadClientAccount(ff);
if (a != NULL)
{
{
Add(c->AccountList, a);
}
}
}
}
Sort(c->AccountList);
FreeToken(t);
}
// Read the root CA certificate
void CiLoadCACert(CLIENT *c, FOLDER *f)
{
BUF *b;
X *x;
// Validate arguments
if (c == NULL || f == NULL)
{
return;
}
b = CfgGetBuf(f, "X509");
if (b == NULL)
{
return;
}
x = BufToX(b, false);
AddCa(c->Cedar, x);
FreeX(x);
FreeBuf(b);
}
// Read the root CA list
void CiLoadCAList(CLIENT *c, FOLDER *f)
{
CEDAR *cedar;
TOKEN_LIST *t;
// Validate arguments
if (c == NULL || f == NULL)
{
return;
}
t = CfgEnumFolderToTokenList(f);
cedar = c->Cedar;
LockList(cedar->CaList);
{
UINT i;
for (i = 0;i < t->NumTokens;i++)
{
FOLDER *folder = CfgGetFolder(f, t->Token[i]);
CiLoadCACert(c, folder);
}
}
UnlockList(cedar->CaList);
FreeToken(t);
}
// Read a VLAN
void CiLoadVLan(CLIENT *c, FOLDER *f)
{
char tmp[MAX_SIZE];
UCHAR addr[6];
BUF *b;
UNIX_VLAN *v;
// Validate arguments
if (c == NULL || f == NULL)
{
return;
}
if (CfgGetStr(f, "MacAddress", tmp, sizeof(tmp)) == false)
{
return;
}
b = StrToBin(tmp);
if (b == NULL)
{
return;
}
if (b->Size != 6)
{
FreeBuf(b);
return;
}
Copy(addr, b->Buf, 6);
FreeBuf(b);
if (IsZero(addr, 6))
{
return;
}
v = ZeroMalloc(sizeof(UNIX_VLAN));
Copy(v->MacAddress, addr, 6);
StrCpy(v->Name, sizeof(v->Name), f->Name);
v->Enabled = CfgGetBool(f, "Enabled");
Add(c->UnixVLanList, v);
#ifdef OS_UNIX
UnixVLanCreate(v->Name, v->MacAddress, !c->Config.NicDownOnDisconnect);
#endif // OS_UNIX
}
// Read a VLAN list
void CiLoadVLanList(CLIENT *c, FOLDER *f)
{
TOKEN_LIST *t;
// Validate arguments
if (c == NULL || f == NULL)
{
return;
}
t = CfgEnumFolderToTokenList(f);
LockList(c->UnixVLanList);
{
UINT i;
for (i = 0;i < t->NumTokens;i++)
{
FOLDER *folder = CfgGetFolder(f, t->Token[i]);
CiLoadVLan(c, folder);
}
}
UnlockList(c->UnixVLanList);
FreeToken(t);
}
// Read the configuration from the configuration file
bool CiReadSettingFromCfg(CLIENT *c, FOLDER *root)
{
FOLDER *config;
FOLDER *cert;
FOLDER *db;
FOLDER *vlan;
FOLDER *cmsetting;
FOLDER *proxy;
char user_agent[MAX_SIZE];
// Validate arguments
if (c == NULL || root == NULL)
{
return false;
}
// Initialize the setting if there isn't either of AccountDatabase and Config
config = CfgGetFolder(root, "Config");
if (config == NULL)
{
return false;
}
db = CfgGetFolder(root, "AccountDatabase");
if (db == NULL)
{
return false;
}
cmsetting = CfgGetFolder(root, "ClientManagerSetting");
CiLoadClientConfig(&c->Config, config);
proxy = CfgGetFolder(root, "CommonProxySetting");
if (proxy != NULL)
{
INTERNET_SETTING t;
BUF *pw;
// Proxy Setting
Zero(&t, sizeof(t));
t.ProxyType = CfgGetInt(proxy, "ProxyType");
CfgGetStr(proxy, "ProxyHostName", t.ProxyHostName, sizeof(t.ProxyHostName));
t.ProxyPort = CfgGetInt(proxy, "ProxyPort");
CfgGetStr(proxy, "ProxyUsername", t.ProxyUsername, sizeof(t.ProxyUsername));
pw = CfgGetBuf(proxy, "ProxyPassword");
if (pw != NULL)
{
char *pw_str = DecryptPassword(pw);
StrCpy(t.ProxyPassword, sizeof(t.ProxyPassword), pw_str);
Free(pw_str);
FreeBuf(pw);
}
CfgGetStr(proxy, "CustomHttpHeader", t.CustomHttpHeader, sizeof(t.CustomHttpHeader));
Copy(&c->CommonProxySetting, &t, sizeof(INTERNET_SETTING));
}
// Eraser
c->Eraser = NewEraser(c->Logger, CfgGetInt64(config, "AutoDeleteCheckDiskFreeSpaceMin"));
if (OS_IS_UNIX(GetOsInfo()->OsType)
#ifdef NO_VLAN
&& GetOsInfo()->OsType != OSTYPE_MACOS_X
#endif // NO_VLAN
)
{
// Read the UNIX version virtual LAN card list (except MacOS)
vlan = CfgGetFolder(root, "UnixVLan");
if (vlan != NULL)
{
CiLoadVLanList(c, vlan);
}
}
#ifdef NO_VLAN
if (GetOsInfo()->OsType == OSTYPE_MACOS_X)
{
#ifdef OS_UNIX
UNIX_VLAN *uv;
// Create a Tap for MacOS X
if (UnixVLanCreate(CLIENT_MACOS_TAP_NAME, NULL, !c->Config.NicDownOnDisconnect) == false)
{
// Fail (abort)
CLog(c, "LC_TAP_NOT_FOUND");
Alert("tun/tap driver not found.", NULL);
exit(0);
}
uv = ZeroMalloc(sizeof(UNIX_VLAN));
uv->Enabled = true;
StrCpy(uv->Name, sizeof(uv->Name), CLIENT_MACOS_TAP_NAME);
Add(c->UnixVLanList, uv);
#endif // OS_UNIX
}
#endif // NO_VLAN
CiLoadAccountDatabase(c, db);
if (CfgGetByte(root, "EncryptedPassword", c->EncryptedPassword, SHA1_SIZE) == false)
{
Sha0(c->EncryptedPassword, "", 0);
}
c->PasswordRemoteOnly = CfgGetBool(root, "PasswordRemoteOnly");
c->UseSecureDeviceId = CfgGetInt(root, "UseSecureDeviceId");
if (CfgGetStr(root, "UserAgent", user_agent, sizeof(user_agent)))
{
if (IsEmptyStr(user_agent) == false)
{
Free(c->Cedar->HttpUserAgent);
c->Cedar->HttpUserAgent = CopyStr(user_agent);
}
}
cert = CfgGetFolder(root, "RootCA");
if (cert != NULL)
{
CiLoadCAList(c, cert);
}
c->DontSavePassword = CfgGetBool(root, "DontSavePassword");
if (cmsetting != NULL)
{
UINT ostype = GetOsInfo()->OsType;
// CM_SETTING
CM_SETTING *s = c->CmSetting;
if (OS_IS_UNIX(ostype) || OS_IS_WINDOWS_NT(ostype))
{
s->EasyMode = CfgGetBool(cmsetting, "EasyMode");
}
s->LockMode = CfgGetBool(cmsetting, "LockMode");
CfgGetByte(cmsetting, "HashedPassword", s->HashedPassword, sizeof(s->HashedPassword));
}
return true;
}
// Read the configuration file
bool CiLoadConfigurationFile(CLIENT *c)
{
bool ret;
FOLDER *root;
char path[MAX_SIZE];
// Validate arguments
if (c == NULL)
{
return false;
}
// Read the configuration file
if (CiLoadConfigFilePathFromIni(path, sizeof(path)))
{
c->CfgRw = NewCfgRw(&root, path);
}
else
{
c->CfgRw = NewCfgRw(&root, CLIENT_CONFIG_FILE_NAME);
}
if (root == NULL)
{
return false;
}
ret = CiReadSettingFromCfg(c, root);
CfgDeleteFolder(root);
return ret;
}
// Write the CLIENT_CONFIG
void CiWriteClientConfig(FOLDER *cc, CLIENT_CONFIG *config)
{
// Validate arguments
if (cc == NULL || config == NULL)
{
return;
}
CfgAddBool(cc, "UseKeepConnect", config->UseKeepConnect);
CfgAddStr(cc, "KeepConnectHost", config->KeepConnectHost);
CfgAddInt(cc, "KeepConnectPort", config->KeepConnectPort);
CfgAddInt(cc, "KeepConnectProtocol", config->KeepConnectProtocol);
CfgAddBool(cc, "AllowRemoteConfig", config->AllowRemoteConfig);
CfgAddInt(cc, "KeepConnectInterval", config->KeepConnectInterval);
CfgAddBool(cc, "NoChangeWcmNetworkSettingOnWindows8", config->NoChangeWcmNetworkSettingOnWindows8);
CfgAddBool(cc, "NicDownOnDisconnect", config->NicDownOnDisconnect);
}
// Write the client authentication data
void CiWriteClientAuth(FOLDER *f, CLIENT_AUTH *a)
{
BUF *b;
// Validate arguments
if (f == NULL || a == NULL)
{
return;
}
CfgAddInt(f, "AuthType", a->AuthType);
CfgAddStr(f, "Username", a->Username);
switch (a->AuthType)
{
case CLIENT_AUTHTYPE_ANONYMOUS:
break;
case CLIENT_AUTHTYPE_PASSWORD:
CfgAddByte(f, "HashedPassword", a->HashedPassword, SHA1_SIZE);
break;
case CLIENT_AUTHTYPE_PLAIN_PASSWORD:
b = EncryptPassword(a->PlainPassword);
CfgAddByte(f, "EncryptedPassword", b->Buf, b->Size);
FreeBuf(b);
break;
case CLIENT_AUTHTYPE_CERT:
if (a->ClientK != NULL && a->ClientX != NULL)
{
b = XToBuf(a->ClientX, false);
CfgAddByte(f, "ClientCert", b->Buf, b->Size);
FreeBuf(b);
b = KToBuf(a->ClientK, false, NULL);
CfgAddByte(f, "ClientKey", b->Buf, b->Size);
FreeBuf(b);
}
break;
case CLIENT_AUTHTYPE_SECURE:
CfgAddStr(f, "SecurePublicCertName", a->SecurePublicCertName);
CfgAddStr(f, "SecurePrivateKeyName", a->SecurePrivateKeyName);
break;
}
}
// Write the client option
void CiWriteClientOption(FOLDER *f, CLIENT_OPTION *o)
{
BUF *b;
// Validate arguments
if (f == NULL || o == NULL)
{
return;
}
CfgAddUniStr(f, "AccountName", o->AccountName);
CfgAddStr(f, "Hostname", o->Hostname);
CfgAddInt(f, "Port", o->Port);
CfgAddInt(f, "PortUDP", o->PortUDP);
CfgAddInt(f, "ProxyType", o->ProxyType);
CfgAddStr(f, "ProxyName", o->ProxyName);
CfgAddInt(f, "ProxyPort", o->ProxyPort);
CfgAddStr(f, "ProxyUsername", o->ProxyUsername);
b = EncryptPassword(o->ProxyPassword);
CfgAddByte(f, "ProxyPassword", b->Buf, b->Size);
FreeBuf(b);
CfgAddStr(f, "CustomHttpHeader", o->CustomHttpHeader);
CfgAddInt(f, "NumRetry", o->NumRetry);
CfgAddInt(f, "RetryInterval", o->RetryInterval);
CfgAddStr(f, "HubName", o->HubName);
CfgAddInt(f, "MaxConnection", o->MaxConnection);
CfgAddBool(f, "UseEncrypt", o->UseEncrypt);
CfgAddBool(f, "UseCompress", o->UseCompress);
CfgAddBool(f, "HalfConnection", o->HalfConnection);
CfgAddBool(f, "NoRoutingTracking", o->NoRoutingTracking);
CfgAddStr(f, "DeviceName", o->DeviceName);
CfgAddInt(f, "AdditionalConnectionInterval", o->AdditionalConnectionInterval);
CfgAddBool(f, "HideStatusWindow", o->HideStatusWindow);
CfgAddBool(f, "HideNicInfoWindow", o->HideNicInfoWindow);
CfgAddInt(f, "ConnectionDisconnectSpan", o->ConnectionDisconnectSpan);
CfgAddBool(f, "RequireMonitorMode", o->RequireMonitorMode);
CfgAddBool(f, "RequireBridgeRoutingMode", o->RequireBridgeRoutingMode);
CfgAddBool(f, "DisableQoS", o->DisableQoS);
CfgAddBool(f, "NoUdpAcceleration", o->NoUdpAcceleration);
if (o->FromAdminPack)
{
CfgAddBool(f, "FromAdminPack", o->FromAdminPack);
}
if (IsZero(o->HostUniqueKey, SHA1_SIZE) == false)
{
BUF *b = MemToBuf(o->HostUniqueKey, SHA1_SIZE);
CfgAddBuf(f, "HostUniqueKey", b);
FreeBuf(b);
}
}
// Decrypt the password
char *DecryptPassword(BUF *b)
{
char *str;
char *key = "EncryptPassword";
CRYPT *c;
// Validate arguments
if (b == NULL)
{
return CopyStr("");
}
str = ZeroMalloc(b->Size + 1);
c = NewCrypt(key, sizeof(key)); // NOTE by Daiyuu Nobori 2018-09-28: This is not a bug! Do not try to fix it!!
Encrypt(c, str, b->Buf, b->Size);
FreeCrypt(c);
str[b->Size] = 0;
return str;
}
char *DecryptPassword2(BUF *b)
{
char *str;
char *key = "EncryptPassword2";
CRYPT *c;
// Validate arguments
if (b == NULL)
{
return CopyStr("");
}
str = ZeroMalloc(b->Size + 1);
c = NewCrypt(key, StrLen(key));
Encrypt(c, str, b->Buf, b->Size);
FreeCrypt(c);
str[b->Size] = 0;
return str;
}
// Encrypt the password
BUF *EncryptPassword(char *password)
{
UCHAR *tmp;
UINT size;
char *key = "EncryptPassword";
CRYPT *c;
BUF *b;
// Validate arguments
if (password == NULL)
{
password = "";
}
size = StrLen(password) + 1;
tmp = ZeroMalloc(size);
c = NewCrypt(key, sizeof(key)); // NOTE by Daiyuu Nobori 2018-09-28: This is not a bug! Do not try to fix it!!
Encrypt(c, tmp, password, size - 1);
FreeCrypt(c);
b = NewBuf();
WriteBuf(b, tmp, size - 1);
SeekBuf(b, 0, 0);
Free(tmp);
return b;
}
BUF *EncryptPassword2(char *password)
{
UCHAR *tmp;
UINT size;
char *key = "EncryptPassword2";
CRYPT *c;
BUF *b;
// Validate arguments
if (password == NULL)
{
password = "";
}
size = StrLen(password) + 1;
tmp = ZeroMalloc(size);
c = NewCrypt(key, StrLen(key));
Encrypt(c, tmp, password, size - 1);
FreeCrypt(c);
b = NewBuf();
WriteBuf(b, tmp, size - 1);
SeekBuf(b, 0, 0);
Free(tmp);
return b;
}
// Write the account data
void CiWriteAccountData(FOLDER *f, ACCOUNT *a)
{
// Validate arguments
if (f == NULL || a == NULL)
{
return;
}
// Client Option
CiWriteClientOption(CfgCreateFolder(f, "ClientOption"), a->ClientOption);
// Client authentication data
CiWriteClientAuth(CfgCreateFolder(f, "ClientAuth"), a->ClientAuth);
// Startup account
CfgAddBool(f, "StartupAccount", a->StartupAccount);
// Server certificate check flag
CfgAddBool(f, "CheckServerCert", a->CheckServerCert);
// Retry on invalid server certificate flag
CfgAddBool(f, "RetryOnServerCert", a->RetryOnServerCert);
// Date and time
CfgAddInt64(f, "CreateDateTime", a->CreateDateTime);
CfgAddInt64(f, "UpdateDateTime", a->UpdateDateTime);
CfgAddInt64(f, "LastConnectDateTime", a->LastConnectDateTime);
// Server certificate body
if (a->ServerCert != NULL)
{
BUF *b = XToBuf(a->ServerCert, false);
if (b != NULL)
{
CfgAddBuf(f, "ServerCert", b);
FreeBuf(b);
}
}
// Shortcut Key
if (IsZero(a->ShortcutKey, SHA1_SIZE) == false)
{
char tmp[64];
BinToStr(tmp, sizeof(tmp), a->ShortcutKey, SHA1_SIZE);
CfgAddStr(f, "ShortcutKey", tmp);
}
}
// Write the account database
void CiWriteAccountDatabase(CLIENT *c, FOLDER *f)
{
char name[MAX_SIZE];
// Validate arguments
if (c == NULL || f == NULL)
{
return;
}
LockList(c->AccountList);
{
UINT i;
for (i = 0;i < LIST_NUM(c->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(c->AccountList, i);
{
Format(name, sizeof(name), "Account%u", i);
Lock(a->lock);
{
CiWriteAccountData(CfgCreateFolder(f, name), a);
}
Unlock(a->lock);
}
}
}
UnlockList(c->AccountList);
}
// Write the CA certificate
void CiWriteCACert(CLIENT *c, FOLDER *f, X *x)
{
BUF *b;
// Validate arguments
if (c == NULL || f == NULL || x == NULL)
{
return;
}
b = XToBuf(x, false);
CfgAddBuf(f, "X509", b);
FreeBuf(b);
}
// Write a VLAN
void CiWriteVLan(CLIENT *c, FOLDER *f, UNIX_VLAN *v)
{
char tmp[MAX_SIZE];
// Validate arguments
if (c == NULL || f == NULL || v == NULL)
{
return;
}
MacToStr(tmp, sizeof(tmp), v->MacAddress);
CfgAddStr(f, "MacAddress", tmp);
CfgAddBool(f, "Enabled", v->Enabled);
}
// Write a VLAN list
void CiWriteVLanList(CLIENT *c, FOLDER *f)
{
// Validate arguments
if (c == NULL || f == NULL)
{
return;
}
LockList(c->UnixVLanList);
{
UINT i;
for (i = 0;i < LIST_NUM(c->UnixVLanList);i++)
{
UNIX_VLAN *v = LIST_DATA(c->UnixVLanList, i);
CiWriteVLan(c, CfgCreateFolder(f, v->Name), v);
}
}
UnlockList(c->UnixVLanList);
}
// Write the CA list
void CiWriteCAList(CLIENT *c, FOLDER *f)
{
CEDAR *cedar;
// Validate arguments
if (c == NULL || f == NULL)
{
return;
}
cedar = c->Cedar;
LockList(cedar->CaList);
{
UINT i;
for (i = 0;i < LIST_NUM(cedar->CaList);i++)
{
char tmp[MAX_SIZE];
X *x = LIST_DATA(cedar->CaList, i);
Format(tmp, sizeof(tmp), "Certificate%u", i);
CiWriteCACert(c, CfgCreateFolder(f, tmp), x);
}
}
UnlockList(cedar->CaList);
}
// Write the current settings to ROOT
void CiWriteSettingToCfg(CLIENT *c, FOLDER *root)
{
FOLDER *cc;
FOLDER *account_database;
FOLDER *ca;
FOLDER *vlan;
FOLDER *cmsetting;
FOLDER *proxy;
// Validate arguments
if (c == NULL || root == NULL)
{
return;
}
cmsetting = CfgCreateFolder(root, "ClientManagerSetting");
// CLIENT_CONFIG
cc = CfgCreateFolder(root, "Config");
CiWriteClientConfig(cc, &c->Config);
// Eraser
CfgAddInt64(cc, "AutoDeleteCheckDiskFreeSpaceMin", c->Eraser->MinFreeSpace);
// Account Database
account_database = CfgCreateFolder(root, "AccountDatabase");
CiWriteAccountDatabase(c, account_database);
// Proxy
proxy = CfgCreateFolder(root, "CommonProxySetting");
if (proxy != NULL)
{
INTERNET_SETTING *t = &c->CommonProxySetting;
BUF *pw;
CfgAddInt(proxy, "ProxyType", t->ProxyType);
CfgAddStr(proxy, "ProxyHostName", t->ProxyHostName);
CfgAddInt(proxy, "ProxyPort", t->ProxyPort);
CfgAddStr(proxy, "ProxyUsername", t->ProxyUsername);
if (IsEmptyStr(t->ProxyPassword) == false)
{
pw = EncryptPassword(t->ProxyPassword);
CfgAddBuf(proxy, "ProxyPassword", pw);
FreeBuf(pw);
}
CfgAddStr(proxy, "CustomHttpHeader", t->CustomHttpHeader);
}
// CA
ca = CfgCreateFolder(root, "RootCA");
CiWriteCAList(c, ca);
// VLAN
if (OS_IS_UNIX(GetOsInfo()->OsType)
#ifdef NO_VLAN
&& GetOsInfo()->OsType != OSTYPE_MACOS_X
#endif // NO_VLAN
)
{
vlan = CfgCreateFolder(root, "UnixVLan");
CiWriteVLanList(c, vlan);
}
// Password
CfgAddByte(root, "EncryptedPassword", c->EncryptedPassword, SHA1_SIZE);
CfgAddBool(root, "PasswordRemoteOnly", c->PasswordRemoteOnly);
// UseSecureDeviceId
CfgAddInt(root, "UseSecureDeviceId", c->UseSecureDeviceId);
// DontSavePassword
CfgAddBool(root, "DontSavePassword", c->DontSavePassword);
// UserAgent
if (c->Cedar != NULL)
{
CfgAddStr(root, "UserAgent", c->Cedar->HttpUserAgent);
}
if (cmsetting != NULL)
{
CM_SETTING *s = c->CmSetting;
CfgAddBool(cmsetting, "EasyMode", s->EasyMode);
CfgAddBool(cmsetting, "LockMode", s->LockMode);
if (IsZero(s->HashedPassword, sizeof(s->HashedPassword)) == false)
{
CfgAddByte(cmsetting, "HashedPassword", s->HashedPassword, sizeof(s->HashedPassword));
}
}
}
// Apply settings of Inner VPN Server
void CiApplyInnerVPNServerConfig(CLIENT *c)
{
}
// Write to the configuration file
void CiSaveConfigurationFile(CLIENT *c)
{
FOLDER *root;
// Validate arguments
if (c == NULL)
{
return;
}
// Do not save the configuration file
if(c->NoSaveConfig)
{
return;
}
root = CfgCreateFolder(NULL, TAG_ROOT);
CiWriteSettingToCfg(c, root);
SaveCfgRw(c->CfgRw, root);
CfgDeleteFolder(root);
}
// Set the CM_SETTING
bool CtSetCmSetting(CLIENT *c, CM_SETTING *s)
{
// Validate arguments
if (c == NULL || s == NULL)
{
return false;
}
Copy(c->CmSetting, s, sizeof(CM_SETTING));
CiSaveConfigurationFile(c);
return true;
}
// Get the CM_SETTING
bool CtGetCmSetting(CLIENT *c, CM_SETTING *s)
{
// Validate arguments
if (c == NULL || s == NULL)
{
return false;
}
Copy(s, c->CmSetting, sizeof(CM_SETTING));
return true;
}
// Get the client version
bool CtGetClientVersion(CLIENT *c, RPC_CLIENT_VERSION *ver)
{
// Validate arguments
if (ver == NULL)
{
return false;
}
Zero(ver, sizeof(RPC_CLIENT_VERSION));
StrCpy(ver->ClientProductName, sizeof(ver->ClientProductName), CEDAR_CLIENT_STR);
StrCpy(ver->ClientVersionString, sizeof(ver->ClientVersionString), c->Cedar->VerString);
StrCpy(ver->ClientBuildInfoString, sizeof(ver->ClientBuildInfoString), c->Cedar->BuildInfo);
ver->ClientVerInt = c->Cedar->Version;
ver->ClientBuildInt = c->Cedar->Build;
#ifdef OS_WIN32
ver->ProcessId = MsGetProcessId();
ver->IsVLanNameRegulated = MsIsInfCatalogRequired();
#endif // OS_WIN32
ver->OsType = GetOsInfo()->OsType;
return true;
}
// Creating a Client object
CLIENT *CiNewClient()
{
CLIENT *c = ZeroMalloc(sizeof(CLIENT));
// StartCedarLog();
if (ci_active_sessions_lock == NULL)
{
ci_active_sessions_lock = NewLock();
ci_num_active_sessions = 0;
}
#ifdef OS_WIN32
if (MsIsWindows7())
{
c->MsSuspendHandler = MsNewSuspendHandler();
}
#endif // OS_WIN32
c->CmSetting = ZeroMalloc(sizeof(CM_SETTING));
c->SockList = NewSockList();
c->lock = NewLock();
c->lockForConnect = NewLock();
c->ref = NewRef();
c->Cedar = NewCedar(NULL, NULL);
c->Cedar->Client = c;
c->NotifyCancelList = NewList(NULL);
Sha0(c->EncryptedPassword, "", 0);
#ifdef OS_WIN32
c->GlobalPulse = MsOpenOrCreateGlobalPulse(CLIENT_GLOBAL_PULSE_NAME);
#endif // OS_WIN32
if (c->GlobalPulse != NULL)
{
c->PulseRecvThread = NewThread(CiPulseRecvThread, c);
}
CiLoadIniSettings(c);
// Log Settings
if(c->NoSaveLog == false)
{
MakeDir(CLIENT_LOG_DIR_NAME);
c->Logger = NewLog(CLIENT_LOG_DIR_NAME, CLIENT_LOG_PREFIX, LOG_SWITCH_DAY);
}
CLog(c, "L_LINE");
CLog(c, "LC_START_2", CEDAR_CLIENT_STR, c->Cedar->VerString);
CLog(c, "LC_START_3", c->Cedar->BuildInfo);
CLog(c, "LC_START_1");
#ifdef OS_WIN32
{
// Initialize the Win32 UI
wchar_t tmp[MAX_SIZE];
StrToUni(tmp, sizeof(tmp), CEDAR_CLIENT_STR);
InitWinUi(tmp, _SS("DEFAULT_FONT"), _II("DEFAULT_FONT_SIZE"));
}
#endif // OS_WIN32
// Initialize the settings
CiInitConfiguration(c);
// Raise the priority
OSSetHighPriority();
#ifdef OS_WIN32
// For Win9x, release the DHCP address of all the virtual LAN card
if (MsIsNt() == false)
{
Win32ReleaseAllDhcp9x(true);
}
#endif // OS_WIN32
CiChangeAllVLanMacAddressIfMachineChanged(c);
CiChangeAllVLanMacAddressIfCleared(c);
// Initialize the internal VPN server
CiApplyInnerVPNServerConfig(c);
return c;
}
// Send a global pulse
void CiSendGlobalPulse(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
#ifdef OS_WIN32
MsSendGlobalPulse(c->GlobalPulse);
#endif // OS_WIN32
}
// Pulse reception thread
void CiPulseRecvThread(THREAD *thread, void *param)
{
#ifdef OS_WIN32
CLIENT *c = (CLIENT *)param;
if (c == NULL)
{
return;
}
while (true)
{
if (c->HaltPulseThread)
{
break;
}
MsWaitForGlobalPulse(c->GlobalPulse, INFINITE);
if (c->HaltPulseThread)
{
break;
}
CiNotifyInternal(c);
}
#endif // OS_WIN32
}
// Clean-up the client
void CiCleanupClient(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
// Release the settings
CiFreeConfiguration(c);
#ifdef OS_WIN32
// Release the Win32 UI
FreeWinUi();
#endif // OS_WIN32
CLog(c, "LC_END");
CLog(c, "L_LINE");
FreeEraser(c->Eraser);
FreeLog(c->Logger);
c->Logger = NULL;
ReleaseCedar(c->Cedar);
DeleteLock(c->lockForConnect);
DeleteLock(c->lock);
c->HaltPulseThread = true;
if (c->GlobalPulse != NULL)
{
#ifdef OS_WIN32
MsSendGlobalPulse(c->GlobalPulse);
#endif // OS_WIN32
}
if (c->PulseRecvThread != NULL)
{
WaitThread(c->PulseRecvThread, INFINITE);
ReleaseThread(c->PulseRecvThread);
}
if (c->GlobalPulse != NULL)
{
#ifdef OS_WIN32
MsCloseGlobalPulse(c->GlobalPulse);
#endif // OS_WIN32
}
ReleaseList(c->NotifyCancelList);
FreeSockList(c->SockList);
Free(c->CmSetting);
#ifdef OS_WIN32
if (c->MsSuspendHandler != NULL)
{
MsFreeSuspendHandler(c->MsSuspendHandler);
}
#endif // OS_WIN32
Free(c);
#ifdef OS_WIN32
// For Win9x, release the DHCP address of all the virtual LAN card
if (MsIsNt() == false)
{
Win32ReleaseAllDhcp9x(true);
}
#endif // OS_WIN32
StopCedarLog();
if (ci_active_sessions_lock != NULL)
{
DeleteLock(ci_active_sessions_lock);
ci_active_sessions_lock = NULL;
ci_num_active_sessions = 0;
}
}
// Increment of the number of active sessions
void CiIncrementNumActiveSessions()
{
Lock(ci_active_sessions_lock);
{
ci_num_active_sessions++;
}
Unlock(ci_active_sessions_lock);
}
// Decrement of the number of active sessions
void CiDecrementNumActiveSessions()
{
Lock(ci_active_sessions_lock);
{
if (ci_num_active_sessions >= 1)
{
ci_num_active_sessions--;
}
}
Unlock(ci_active_sessions_lock);
}
// Release the client
void CtReleaseClient(CLIENT *c)
{
// Validate arguments
if (c == NULL)
{
return;
}
if (Release(c->ref) == 0)
{
CiCleanupClient(c);
}
}
// Start the operation of the client program
void CtStartClient()
{
UINT i;
LIST *o;
if (client != NULL)
{
// It is already in running
return;
}
// OS check
CiCheckOs();
#ifdef OS_WIN32
RegistWindowsFirewallAll();
#endif
// Creating a client
client = CiNewClient();
// Start the Keep
CiInitKeep(client);
// Start the RPC server
CiStartRpcServer(client);
// Start the Saver
CiInitSaver(client);
// Start the startup connection
o = NewListFast(NULL);
LockList(client->AccountList);
{
for (i = 0;i < LIST_NUM(client->AccountList);i++)
{
ACCOUNT *a = LIST_DATA(client->AccountList, i);
Lock(a->lock);
{
if (a->StartupAccount)
{
Add(o, CopyUniStr(a->ClientOption->AccountName));
}
}
Unlock(a->lock);
}
}
UnlockList(client->AccountList);
for (i = 0;i < LIST_NUM(o);i++)
{
wchar_t *s = LIST_DATA(o, i);
RPC_CLIENT_CONNECT c;
Zero(&c, sizeof(c));
UniStrCpy(c.AccountName, sizeof(c.AccountName), s);
CtConnect(client, &c);
Free(s);
}
ReleaseList(o);
}
// Stop the operation of the client program
void CtStopClient()
{
UINT i, num;
ACCOUNT **account_list;
if (client == NULL)
{
// It is not running yet
return;
}
// Halting flag
client->Halt = true;
// Disconnect all the RPC
CiStopRpcServer(client);
// Exit the client notification service
CncExit();
// Exit the Keep
CiFreeKeep(client);
// Disconnect all accounts connected
LockList(client->AccountList);
{
num = LIST_NUM(client->AccountList);
account_list = ToArray(client->AccountList);
}
UnlockList(client->AccountList);
for (i = 0;i < num;i++)
{
ACCOUNT *a = account_list[i];
SESSION *s = NULL;
Lock(a->lock);
{
if (a->ClientSession != NULL)
{
s = a->ClientSession;
AddRef(s->ref);
}
}
Unlock(a->lock);
if (s != NULL)
{
StopSession(s);
ReleaseSession(s);
Lock(a->lock);
{
if (a->ClientSession != NULL)
{
ReleaseSession(a->ClientSession);
a->ClientSession = NULL;
}
}
Unlock(a->lock);
}
}
Free(account_list);
// Stop the Saver
CiFreeSaver(client);
// Release the client
CtReleaseClient(client);
client = NULL;
}
// OS check
void CiCheckOs()
{
// Get the OS type
OS_INFO *info = GetOsInfo();
if (OS_IS_WINDOWS(info->OsType))
{
bool ok = IS_CLIENT_SUPPORTED_OS(info->OsType);
if (ok == false)
{
Alert(
CEDAR_PRODUCT_STR " VPN Client doesn't support this Windows Operating System.\n"
CEDAR_PRODUCT_STR " VPN Client requires Windows 98, Windows Me, Windows 2000, Windows XP, Windows Server 2003 or Greater.\n\n"
"Please contact your system administrator.", CEDAR_PRODUCT_STR " VPN Client");
exit(0);
}
}
}
// Client status indicator
void CiClientStatusPrinter(SESSION *s, wchar_t *status)
{
#ifdef OS_WIN32
ACCOUNT *a;
// Validate arguments
if (s == NULL || status == NULL)
{
return;
}
a = s->Account;
if (a == NULL)
{
return;
}
if (UniStrCmpi(status, L"init") == 0)
{
if (a->StatusWindow == NULL && s->Win32HideConnectWindow == false)
{
a->StatusWindow = CncStatusPrinterWindowStart(s);
}
}
else if (UniStrCmpi(status, L"free") == 0)
{
if (a->StatusWindow != NULL)
{
CncStatusPrinterWindowStop(a->StatusWindow);
a->StatusWindow = NULL;
}
}
else
{
if (a->StatusWindow != NULL)
{
CncStatusPrinterWindowPrint(a->StatusWindow, status);
}
}
#else // OS_WIN32
UniPrint(L"Status: %s\n", status);
#endif // OS_WIN32
}