printfd(__FILE__, "%s\n", errorStr.c_str());
return -1;
}
- freeMbShowType = (FREEMB)(freeMb0 + n);
+ freeMbShowType = static_cast<FREEMB>(n);
}
else
{
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
AUTH_IA::AUTH_IA()
- : nonstop(false),
- isRunningRun(false),
+ : isRunningRun(false),
isRunningRunTimeouter(false),
users(NULL),
stgSettings(NULL),
listenSocket(-1),
enabledDirs(0xFFffFFff),
- onDelUserNotifier(*this),
logger(STG::PluginLogger::get("auth_ia"))
{
InitContext("pr7Hhen", 7, &ctxS);
-pthread_mutexattr_t attr;
-pthread_mutexattr_init(&attr);
-pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE);
-pthread_mutex_init(&mutex, &attr);
-
memset(&connSynAck6, 0, sizeof(CONN_SYN_ACK_6));
memset(&connSynAck8, 0, sizeof(CONN_SYN_ACK_8));
memset(&disconnSynAck6, 0, sizeof(DISCONN_SYN_ACK_6));
//-----------------------------------------------------------------------------
AUTH_IA::~AUTH_IA()
{
-pthread_mutex_destroy(&mutex);
}
//-----------------------------------------------------------------------------
int AUTH_IA::Start()
{
-users->AddNotifierUserDel(&onDelUserNotifier);
-nonstop = true;
+m_onDelUserConn = users->onDel([this](auto user){ DelUser(user); });
if (PrepareNet())
- {
return -1;
- }
-if (!isRunningRun)
- {
- if (pthread_create(&recvThread, NULL, Run, this))
- {
- errorStr = "Cannot create thread.";
- printfd(__FILE__, "Cannot create recv thread\n");
- logger("Cannot create recv thread.");
- return -1;
- }
- }
+if (!m_thread.joinable())
+ m_thread = std::jthread([this](auto token){ Run(std::move(token)); });
+
+if (!m_timeouterThread.joinable())
+ m_timeouterThread = std::jthread([this](auto token){ RunTimeouter(std::move(token)); });
-if (!isRunningRunTimeouter)
- {
- if (pthread_create(&timeouterThread, NULL, RunTimeouter, this))
- {
- errorStr = "Cannot create thread.";
- printfd(__FILE__, "Cannot create timeouter thread\n");
- logger("Cannot create timeouter thread.");
- return -1;
- }
- }
errorStr = "";
return 0;
}
if (!IsRunning())
return 0;
-nonstop = false;
+m_thread.request_stop();
+m_timeouterThread.request_stop();
std::for_each(
ip2user.begin(),
}
}
-users->DelNotifierUserDel(&onDelUserNotifier);
+m_onDelUserConn.disconnect();
+
+if (isRunningRun)
+ m_thread.detach();
+else
+ m_thread.join();
+
+if (isRunningRunTimeouter)
+ m_timeouterThread.detach();
+else
+ m_timeouterThread.join();
if (isRunningRun || isRunningRunTimeouter)
return -1;
return 0;
}
//-----------------------------------------------------------------------------
-void * AUTH_IA::Run(void * d)
+void AUTH_IA::Run(std::stop_token token)
{
sigset_t signalSet;
sigfillset(&signalSet);
pthread_sigmask(SIG_BLOCK, &signalSet, NULL);
-AUTH_IA * ia = static_cast<AUTH_IA *>(d);
-
-ia->isRunningRun = true;
+isRunningRun = true;
char buffer[512];
time_t touchTime = stgTime - MONITOR_TIME_DELAY_SEC;
-while (ia->nonstop)
+while (!token.stop_requested())
{
- ia->RecvData(buffer, sizeof(buffer));
- if ((touchTime + MONITOR_TIME_DELAY_SEC <= stgTime) && ia->stgSettings->GetMonitoring())
+ RecvData(buffer, sizeof(buffer));
+ if ((touchTime + MONITOR_TIME_DELAY_SEC <= stgTime) && stgSettings->GetMonitoring())
{
touchTime = stgTime;
- std::string monFile = ia->stgSettings->GetMonitorDir() + "/inetaccess_r";
+ std::string monFile = stgSettings->GetMonitorDir() + "/inetaccess_r";
TouchFile(monFile);
}
}
-ia->isRunningRun = false;
-return NULL;
+isRunningRun = false;
}
//-----------------------------------------------------------------------------
-void * AUTH_IA::RunTimeouter(void * d)
+void AUTH_IA::RunTimeouter(std::stop_token token)
{
sigset_t signalSet;
sigfillset(&signalSet);
pthread_sigmask(SIG_BLOCK, &signalSet, NULL);
-AUTH_IA * ia = static_cast<AUTH_IA *>(d);
-
-ia->isRunningRunTimeouter = true;
+isRunningRunTimeouter = true;
int a = -1;
-std::string monFile = ia->stgSettings->GetMonitorDir() + "/inetaccess_t";
-while (ia->nonstop)
+std::string monFile = stgSettings->GetMonitorDir() + "/inetaccess_t";
+while (!token.stop_requested())
{
struct timespec ts = {0, 20000000};
nanosleep(&ts, NULL);
- ia->Timeouter();
+ Timeouter();
// TODO change counter to timer and MONITOR_TIME_DELAY_SEC
- if (++a % (50 * 60) == 0 && ia->stgSettings->GetMonitoring())
+ if (++a % (50 * 60) == 0 && stgSettings->GetMonitoring())
{
TouchFile(monFile);
}
}
-ia->isRunningRunTimeouter = false;
-return NULL;
+isRunningRunTimeouter = false;
}
//-----------------------------------------------------------------------------
int AUTH_IA::ParseSettings()
}
listenAddr.sin_family = AF_INET;
-listenAddr.sin_port = htons(static_cast<uint16_t>(iaSettings.GetUserPort()));
+listenAddr.sin_port = htons(iaSettings.GetUserPort());
listenAddr.sin_addr.s_addr = inet_addr("0.0.0.0");
-if (bind(listenSocket, (struct sockaddr*)&listenAddr, sizeof(listenAddr)) < 0)
+if (bind(listenSocket, reinterpret_cast<sockaddr*>(&listenAddr), sizeof(listenAddr)) < 0)
{
errorStr = "AUTH_IA: Bind failed.";
logger("Cannot bind the socket: %s", strerror(errno));
struct sockaddr_in outerAddr;
socklen_t outerAddrLen(sizeof(outerAddr));
-ssize_t dataLen = recvfrom(listenSocket, buffer, bufferSize, 0, (struct sockaddr *)&outerAddr, &outerAddrLen);
+ssize_t dataLen = recvfrom(listenSocket, buffer, bufferSize, 0, reinterpret_cast<sockaddr *>(&outerAddr), &outerAddrLen);
if (!dataLen) // EOF
{
//-----------------------------------------------------------------------------
int AUTH_IA::Timeouter()
{
-STG_LOCKER lock(&mutex);
+std::lock_guard lock(m_mutex);
std::map<uint32_t, IA_USER>::iterator it;
it = ip2user.begin();
std::string login(user->GetLogin());
const size_t offset = LOGIN_LEN + 2 + 6; // LOGIN_LEN + sizeOfMagic + sizeOfVer;
-STG_LOCKER lock(&mutex);
+std::lock_guard lock(m_mutex);
std::map<uint32_t, IA_USER>::iterator it(ip2user.find(sip));
if (it == ip2user.end())
std::map<uint32_t, IA_USER>::iterator it;
-STG_LOCKER lock(&mutex);
+std::lock_guard lock(m_mutex);
it = ip2user.find(ip);
if (it == ip2user.end())
{
sendAddr.sin_addr.s_addr = ip;
err.len = 1;
- strncpy((char*)err.type, "ERR", 16);
- strncpy((char*)err.text, text.c_str(), MAX_MSG_LEN);
+ memcpy(err.type, "ERR", 3);
+ memcpy(err.text, text.c_str(), std::min<size_t>(text.length(), MAX_MSG_LEN));
#ifdef ARCH_BE
SwapBytes(err.len);
#endif
- res = sendto(listenSocket, &err, sizeof(err), 0, (struct sockaddr*)&sendAddr, sizeof(sendAddr));
+ res = sendto(listenSocket, &err, sizeof(err), 0, reinterpret_cast<sockaddr*>(&sendAddr), sizeof(sendAddr));
printfd(__FILE__, "SendError %d bytes sent\n", res);
break;
sendAddr.sin_addr.s_addr = ip;
err8.len = 256;
- strncpy((char*)err8.type, "ERR", 16);
- strncpy((char*)err8.text, text.c_str(), MAX_MSG_LEN);
+ memcpy(err8.type, "ERR", 3);
+ memcpy(err8.text, text.c_str(), std::min<size_t>(text.length(), MAX_MSG_LEN));
#ifdef ARCH_BE
SwapBytes(err8.len);
#endif
- res = sendto(listenSocket, &err8, sizeof(err8), 0, (struct sockaddr*)&sendAddr, sizeof(sendAddr));
+ res = sendto(listenSocket, &err8, sizeof(err8), 0, reinterpret_cast<sockaddr*>(&sendAddr), sizeof(sendAddr));
printfd(__FILE__, "SendError_8 %d bytes sent\n", res);
break;
}
return 0;
}
//-----------------------------------------------------------------------------
-int AUTH_IA::Send(uint32_t ip, uint16_t port, const char * buffer, size_t len)
+int AUTH_IA::Send(uint32_t ip, uint16_t port, const void* buffer, size_t len)
{
struct sockaddr_in sendAddr;
sendAddr.sin_port = htons(port);
sendAddr.sin_addr.s_addr = ip;
-if (sendto(listenSocket, buffer, len, 0, (struct sockaddr*)&sendAddr, sizeof(sendAddr)) == static_cast<ssize_t>(len))
+if (sendto(listenSocket, buffer, len, 0, reinterpret_cast<sockaddr*>(&sendAddr), sizeof(sendAddr)) == static_cast<ssize_t>(len))
return 0;
return -1;
std::map<uint32_t, IA_USER>::iterator it;
-STG_LOCKER lock(&mutex);
+std::lock_guard lock(m_mutex);
it = ip2user.find(ip);
if (it == ip2user.end())
{
memset(&info, 0, sizeof(INFO_6));
info.len = 256;
-strncpy((char*)info.type, "INFO", 16);
+memcpy(info.type, "INFO", 4);
info.infoType = 'I';
-strncpy((char*)info.text, msg.text.c_str(), 235);
+memcpy(info.text, msg.text.c_str(), std::min<size_t>(msg.text.length(), 235));
info.text[234] = 0;
size_t len = info.len;
memset(&info, 0, sizeof(INFO_7));
info.len = 264;
-strncpy((char*)info.type, "INFO_7", 16);
+memcpy(info.type, "INFO_7", 6);
info.infoType = static_cast<int8_t>(msg.header.type);
info.showTime = static_cast<int8_t>(msg.header.showTime);
info.sendTime = msg.header.creationTime;
SwapBytes(info.sendTime);
#endif
-strncpy((char*)info.text, msg.text.c_str(), MAX_MSG_LEN - 1);
+memcpy(info.text, msg.text.c_str(), std::min<size_t>(msg.text.length(), MAX_MSG_LEN - 1));
info.text[MAX_MSG_LEN - 1] = 0;
char buffer[300];
memset(&info, 0, sizeof(INFO_8));
info.len = 1056;
-strncpy((char*)info.type, "INFO_8", 16);
+memcpy(info.type, "INFO_8", 6);
info.infoType = static_cast<int8_t>(msg.header.type);
info.showTime = static_cast<int8_t>(msg.header.showTime);
info.sendTime = msg.header.creationTime;
-strncpy((char*)info.text, msg.text.c_str(), IA_MAX_MSG_LEN_8 - 1);
+memcpy(info.text, msg.text.c_str(), std::min<size_t>(msg.text.length(), IA_MAX_MSG_LEN_8 - 1));
info.text[IA_MAX_MSG_LEN_8 - 1] = 0;
size_t len = info.len;
//+++ Fill static data in connSynAck +++
// TODO Move this code. It must be executed only once
connSynAck6.len = Min8(sizeof(CONN_SYN_ACK_6));
-strcpy((char*)connSynAck6.type, "CONN_SYN_ACK");
+memcpy(connSynAck6.type, "CONN_SYN_ACK", 12);
for (int j = 0; j < DIR_NUM; j++)
{
- strncpy((char*)connSynAck6.dirName[j],
- stgSettings->GetDirName(j).c_str(),
- sizeof(string16));
+ memcpy(connSynAck6.dirName[j],
+ stgSettings->GetDirName(j).c_str(),
+ std::min(stgSettings->GetDirName(j).length(), sizeof(string16)));
connSynAck6.dirName[j][sizeof(string16) - 1] = 0;
}
SwapBytes(connSynAck6.aliveDelay);
#endif
-EncryptString((char*)&connSynAck6, (char*)&connSynAck6, Min8(sizeof(CONN_SYN_ACK_6)), &iaUser->ctx);
-return Send(sip, iaSettings.GetUserPort(), (char*)&connSynAck6, Min8(sizeof(CONN_SYN_ACK_6)));;
+EncryptString(&connSynAck6, &connSynAck6, Min8(sizeof(CONN_SYN_ACK_6)), &iaUser->ctx);
+return Send(sip, iaSettings.GetUserPort(), &connSynAck6, Min8(sizeof(CONN_SYN_ACK_6)));;
}
//-----------------------------------------------------------------------------
int AUTH_IA::Send_CONN_SYN_ACK_7(IA_USER * iaUser, uint32_t sip)
//-----------------------------------------------------------------------------
int AUTH_IA::Send_CONN_SYN_ACK_8(IA_USER * iaUser, uint32_t sip)
{
-strcpy((char*)connSynAck8.hdr.magic, IA_ID);
+memcpy(connSynAck8.hdr.magic, IA_ID, strlen(IA_ID));
connSynAck8.hdr.protoVer[0] = 0;
connSynAck8.hdr.protoVer[1] = 8;
//+++ Fill static data in connSynAck +++
// TODO Move this code. It must be executed only once
connSynAck8.len = Min8(sizeof(CONN_SYN_ACK_8));
-strcpy((char*)connSynAck8.type, "CONN_SYN_ACK");
+memcpy(connSynAck8.type, "CONN_SYN_ACK", 12);
for (int j = 0; j < DIR_NUM; j++)
{
- strncpy((char*)connSynAck8.dirName[j],
- stgSettings->GetDirName(j).c_str(),
- sizeof(string16));
+ memcpy(connSynAck8.dirName[j],
+ stgSettings->GetDirName(j).c_str(),
+ std::min(stgSettings->GetDirName(j).length(), sizeof(string16)));
connSynAck8.dirName[j][sizeof(string16) - 1] = 0;
}
SwapBytes(connSynAck8.aliveDelay);
#endif
-EncryptString((char*)&connSynAck8, (char*)&connSynAck8, Min8(sizeof(CONN_SYN_ACK_8)), &iaUser->ctx);
-return Send(sip, iaUser->port, (char*)&connSynAck8, Min8(sizeof(CONN_SYN_ACK_8)));
+EncryptString(&connSynAck8, &connSynAck8, Min8(sizeof(CONN_SYN_ACK_8)), &iaUser->ctx);
+return Send(sip, iaUser->port, &connSynAck8, Min8(sizeof(CONN_SYN_ACK_8)));
}
//-----------------------------------------------------------------------------
int AUTH_IA::Send_ALIVE_SYN_6(IA_USER * iaUser, uint32_t sip)
aliveSyn6.len = Min8(sizeof(ALIVE_SYN_6));
aliveSyn6.rnd = iaUser->rnd = static_cast<uint32_t>(random());
-strcpy((char*)aliveSyn6.type, "ALIVE_SYN");
+memcpy(aliveSyn6.type, "ALIVE_SYN", 9);
for (int i = 0; i < DIR_NUM; i++)
{
p *= 1024 * 1024;
if (std::fabs(p) < 1.0e-3)
{
- snprintf((char*)aliveSyn6.freeMb, IA_FREEMB_LEN, "---");
+ memcpy(aliveSyn6.freeMb, "---", 3);
}
else
{
double fmb = iaUser->user->GetProperties().freeMb;
fmb = fmb < 0 ? 0 : fmb;
- snprintf((char*)aliveSyn6.freeMb, IA_FREEMB_LEN, "%.3f", fmb / p);
+ snprintf(reinterpret_cast<char*>(aliveSyn6.freeMb), IA_FREEMB_LEN, "%.3f", fmb / p);
}
}
else
{
double fmb = iaUser->user->GetProperties().freeMb;
fmb = fmb < 0 ? 0 : fmb;
- snprintf((char*)aliveSyn6.freeMb, IA_FREEMB_LEN, "C%.3f", fmb);
+ snprintf(reinterpret_cast<char*>(aliveSyn6.freeMb), IA_FREEMB_LEN, "C%.3f", fmb);
}
}
iaUser->aliveSent = true;
#endif
-aliveSyn6.cash =(int64_t) (iaUser->user->GetProperties().cash.Get() * 1000.0);
+aliveSyn6.cash = static_cast<int64_t>(iaUser->user->GetProperties().cash.Get() * 1000.0);
if (!stgSettings->GetShowFeeInCash())
- aliveSyn6.cash -= (int64_t)(tf->GetFee() * 1000.0);
+ aliveSyn6.cash -= static_cast<int64_t>((tf->GetFee() * 1000.0));
#ifdef ARCH_BE
SwapBytes(aliveSyn6.len);
}
#endif
-EncryptString((char*)&aliveSyn6, (char*)&aliveSyn6, Min8(sizeof(aliveSyn6)), &iaUser->ctx);
-return Send(sip, iaSettings.GetUserPort(), (char*)&aliveSyn6, Min8(sizeof(aliveSyn6)));
+EncryptString(&aliveSyn6, &aliveSyn6, Min8(sizeof(aliveSyn6)), &iaUser->ctx);
+return Send(sip, iaSettings.GetUserPort(), &aliveSyn6, Min8(sizeof(aliveSyn6)));
}
//-----------------------------------------------------------------------------
int AUTH_IA::Send_ALIVE_SYN_7(IA_USER * iaUser, uint32_t sip)
//-----------------------------------------------------------------------------
int AUTH_IA::Send_ALIVE_SYN_8(IA_USER * iaUser, uint32_t sip)
{
-strcpy((char*)aliveSyn8.hdr.magic, IA_ID);
+memcpy(aliveSyn8.hdr.magic, IA_ID, strlen(IA_ID));
aliveSyn8.hdr.protoVer[0] = 0;
aliveSyn8.hdr.protoVer[1] = 8;
aliveSyn8.len = Min8(sizeof(ALIVE_SYN_8));
aliveSyn8.rnd = iaUser->rnd = static_cast<uint32_t>(random());
-strcpy((char*)aliveSyn8.type, "ALIVE_SYN");
+memcpy(aliveSyn8.type, "ALIVE_SYN", 9);
for (int i = 0; i < DIR_NUM; i++)
{
p *= 1024 * 1024;
if (std::fabs(p) < 1.0e-3)
{
- snprintf((char*)aliveSyn8.freeMb, IA_FREEMB_LEN, "---");
+ memcpy(aliveSyn8.freeMb, "---", 3);
}
else
{
double fmb = iaUser->user->GetProperties().freeMb;
fmb = fmb < 0 ? 0 : fmb;
- snprintf((char*)aliveSyn8.freeMb, IA_FREEMB_LEN, "%.3f", fmb / p);
+ snprintf(reinterpret_cast<char*>(aliveSyn8.freeMb), IA_FREEMB_LEN, "%.3f", fmb / p);
}
}
else
{
double fmb = iaUser->user->GetProperties().freeMb;
fmb = fmb < 0 ? 0 : fmb;
- snprintf((char*)aliveSyn8.freeMb, IA_FREEMB_LEN, "C%.3f", fmb);
+ snprintf(reinterpret_cast<char*>(aliveSyn8.freeMb), IA_FREEMB_LEN, "C%.3f", fmb);
}
}
const auto tf = iaUser->user->GetTariff();
-aliveSyn8.cash =(int64_t) (iaUser->user->GetProperties().cash.Get() * 1000.0);
+aliveSyn8.cash = static_cast<int64_t>(iaUser->user->GetProperties().cash.Get() * 1000.0);
if (!stgSettings->GetShowFeeInCash())
- aliveSyn8.cash -= (int64_t)(tf->GetFee() * 1000.0);
+ aliveSyn8.cash -= static_cast<int64_t>(tf->GetFee() * 1000.0);
#ifdef ARCH_BE
SwapBytes(aliveSyn8.len);
}
#endif
-EncryptString((char*)&aliveSyn8, (char*)&aliveSyn8, Min8(sizeof(aliveSyn8)), &iaUser->ctx);
-return Send(sip, iaUser->port, (char*)&aliveSyn8, Min8(sizeof(aliveSyn8)));
+EncryptString(&aliveSyn8, &aliveSyn8, Min8(sizeof(aliveSyn8)), &iaUser->ctx);
+return Send(sip, iaUser->port, &aliveSyn8, Min8(sizeof(aliveSyn8)));
}
//-----------------------------------------------------------------------------
int AUTH_IA::Send_DISCONN_SYN_ACK_6(IA_USER * iaUser, uint32_t sip)
{
disconnSynAck6.len = Min8(sizeof(DISCONN_SYN_ACK_6));
-strcpy((char*)disconnSynAck6.type, "DISCONN_SYN_ACK");
+memcpy(disconnSynAck6.type, "DISCONN_SYN_ACK", 15);
disconnSynAck6.rnd = iaUser->rnd = static_cast<uint32_t>(random());
#ifdef ARCH_BE
SwapBytes(disconnSynAck6.rnd);
#endif
-EncryptString((char*)&disconnSynAck6, (char*)&disconnSynAck6, Min8(sizeof(disconnSynAck6)), &iaUser->ctx);
-return Send(sip, iaSettings.GetUserPort(), (char*)&disconnSynAck6, Min8(sizeof(disconnSynAck6)));
+EncryptString(&disconnSynAck6, &disconnSynAck6, Min8(sizeof(disconnSynAck6)), &iaUser->ctx);
+return Send(sip, iaSettings.GetUserPort(), &disconnSynAck6, Min8(sizeof(disconnSynAck6)));
}
//-----------------------------------------------------------------------------
int AUTH_IA::Send_DISCONN_SYN_ACK_7(IA_USER * iaUser, uint32_t sip)
//-----------------------------------------------------------------------------
int AUTH_IA::Send_DISCONN_SYN_ACK_8(IA_USER * iaUser, uint32_t sip)
{
-strcpy((char*)disconnSynAck8.hdr.magic, IA_ID);
+memcpy(disconnSynAck8.hdr.magic, IA_ID, strlen(IA_ID));
disconnSynAck8.hdr.protoVer[0] = 0;
disconnSynAck8.hdr.protoVer[1] = 8;
disconnSynAck8.len = Min8(sizeof(DISCONN_SYN_ACK_8));
-strcpy((char*)disconnSynAck8.type, "DISCONN_SYN_ACK");
+memcpy(disconnSynAck8.type, "DISCONN_SYN_ACK", 15);
disconnSynAck8.rnd = iaUser->rnd = static_cast<uint32_t>(random());
#ifdef ARCH_BE
SwapBytes(disconnSynAck8.rnd);
#endif
-EncryptString((char*)&disconnSynAck8, (char*)&disconnSynAck8, Min8(sizeof(disconnSynAck8)), &iaUser->ctx);
-return Send(sip, iaUser->port, (char*)&disconnSynAck8, Min8(sizeof(disconnSynAck8)));
+EncryptString(&disconnSynAck8, &disconnSynAck8, Min8(sizeof(disconnSynAck8)), &iaUser->ctx);
+return Send(sip, iaUser->port, &disconnSynAck8, Min8(sizeof(disconnSynAck8)));
}
//-----------------------------------------------------------------------------
int AUTH_IA::Send_FIN_6(IA_USER * iaUser, uint32_t sip, std::map<uint32_t, IA_USER>::iterator it)
{
fin6.len = Min8(sizeof(FIN_6));
-strcpy((char*)fin6.type, "FIN");
-strcpy((char*)fin6.ok, "OK");
+memcpy(fin6.type, "FIN", 3);
+memcpy(fin6.ok, "OK", 2);
#ifdef ARCH_BE
SwapBytes(fin6.len);
#endif
-EncryptString((char*)&fin6, (char*)&fin6, Min8(sizeof(fin6)), &iaUser->ctx);
+EncryptString(&fin6, &fin6, Min8(sizeof(fin6)), &iaUser->ctx);
users->Unauthorize(iaUser->login, this);
-int res = Send(sip, iaSettings.GetUserPort(), (char*)&fin6, Min8(sizeof(fin6)));
+int res = Send(sip, iaSettings.GetUserPort(), &fin6, Min8(sizeof(fin6)));
ip2user.erase(it);
//-----------------------------------------------------------------------------
int AUTH_IA::Send_FIN_8(IA_USER * iaUser, uint32_t sip, std::map<uint32_t, IA_USER>::iterator it)
{
-strcpy((char*)fin8.hdr.magic, IA_ID);
+memcpy(fin8.hdr.magic, IA_ID, strlen(IA_ID));
fin8.hdr.protoVer[0] = 0;
fin8.hdr.protoVer[1] = 8;
fin8.len = Min8(sizeof(FIN_8));
-strcpy((char*)fin8.type, "FIN");
-strcpy((char*)fin8.ok, "OK");
+memcpy(fin8.type, "FIN", 3);
+memcpy(fin8.ok, "OK", 2);
#ifdef ARCH_BE
SwapBytes(fin8.len);
#endif
-EncryptString((char*)&fin8, (char*)&fin8, Min8(sizeof(fin8)), &iaUser->ctx);
+EncryptString(&fin8, &fin8, Min8(sizeof(fin8)), &iaUser->ctx);
users->Unauthorize(iaUser->login, this);
-int res = Send(sip, iaUser->port, (char*)&fin8, Min8(sizeof(fin8)));
+int res = Send(sip, iaUser->port, &fin8, Min8(sizeof(fin8)));
ip2user.erase(it);