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mirror of https://github.com/SoftEtherVPN/SoftEtherVPN.git synced 2024-11-22 17:39:53 +03:00

Perform TCP connection attempts via IPv6 and IPv4 in parallel

This commit is contained in:
Yihong Wu 2021-12-07 12:45:12 +08:00
parent e6bf956806
commit 384ab07996
3 changed files with 439 additions and 176 deletions

View File

@ -380,6 +380,7 @@ typedef struct RUDP_STACK RUDP_STACK;
typedef struct RUDP_SOURCE_IP RUDP_SOURCE_IP;
typedef struct RUDP_SESSION RUDP_SESSION;
typedef struct RUDP_SEGMENT RUDP_SEGMENT;
typedef struct CONNECT_SERIAL_PARAM CONNECT_SERIAL_PARAM;
typedef struct CONNECT_TCP_RUDP_PARAM CONNECT_TCP_RUDP_PARAM;
typedef struct TCP_PAIR_HEADER TCP_PAIR_HEADER;
typedef struct NIC_ENTRY NIC_ENTRY;

View File

@ -44,7 +44,7 @@
#ifdef UNIX
#ifdef UNIX_SOLARIS
#define USE_STATVFS
#include <sys/statvfs.h>'
#include <sys/statvfs.h>
#else
#define MAYAQUA_SUPPORTS_GETIFADDRS
#include <ifaddrs.h>
@ -13870,163 +13870,73 @@ void ConnectThreadForRUDP(THREAD *thread, void *param)
Set(p->FinishEvent);
}
// TCP connection
SOCK *Connect(char *hostname, UINT port)
// IPv4 connection thread (multiple protocols, multiple addresses)
void ConnectThreadForIPv4(THREAD *thread, void *param)
{
return ConnectEx(hostname, port, 0);
}
SOCK *ConnectEx(char *hostname, UINT port, UINT timeout)
{
return ConnectEx2(hostname, port, timeout, NULL);
}
SOCK *ConnectEx2(char *hostname, UINT port, UINT timeout, bool *cancel_flag)
{
return ConnectEx3(hostname, port, timeout, cancel_flag, NULL, NULL, false, true);
}
SOCK *ConnectEx3(char *hostname, UINT port, UINT timeout, bool *cancel_flag, char *nat_t_svc_name, UINT *nat_t_error_code, bool try_start_ssl, bool no_get_hostname)
{
return ConnectEx4(hostname, port, timeout, cancel_flag, nat_t_svc_name, nat_t_error_code, try_start_ssl, no_get_hostname, NULL);
}
SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, char *nat_t_svc_name, UINT *nat_t_error_code, bool try_start_ssl, bool no_get_hostname, IP *ret_ip)
{
SOCK *sock;
SOCKET s;
struct linger ling;
IP ip4;
IP ip6;
char tmp[MAX_SIZE];
SOCKET s = INVALID_SOCKET;
IP current_ip;
bool is_ipv6 = false;
bool dummy = false;
bool use_natt = false;
char hostname_original[MAX_SIZE];
char hint_str[MAX_SIZE];
bool force_use_natt = false;
UINT dummy_int = 0;
IP dummy_ret_ip;
// Validate arguments
if (hostname == NULL || port == 0 || port >= 65536 || IsEmptyStr(hostname))
UINT i;
CONNECT_SERIAL_PARAM *p = (CONNECT_SERIAL_PARAM *)param;
if (thread == NULL || p == NULL)
{
return NULL;
}
if (timeout == 0)
{
timeout = TIMEOUT_TCP_PORT_CHECK;
}
if (cancel_flag == NULL)
{
cancel_flag = &dummy;
}
if (nat_t_error_code == NULL)
{
nat_t_error_code = &dummy_int;
return;
}
Zero(&dummy_ret_ip, sizeof(IP));
if (ret_ip == NULL)
// Delay before start
if (p->Delay >= 1)
{
ret_ip = &dummy_ret_ip;
}
Zero(hint_str, sizeof(hint_str));
StrCpy(hostname_original, sizeof(hostname_original), hostname);
use_natt = (IsEmptyStr(nat_t_svc_name) ? false : true);
if (use_natt)
{
// In case of using NAT-T, split host name if the '/' is included in the host name
UINT i = SearchStrEx(hostname, "/", 0, false);
if (i == INFINITE)
{
// Not included
StrCpy(hostname_original, sizeof(hostname_original), hostname);
}
else
{
// Included
StrCpy(hostname_original, sizeof(hostname_original), hostname);
hostname_original[i] = 0;
// Force to use the NAT-T
force_use_natt = true;
// Copy the hint string
StrCpy(hint_str, sizeof(hint_str), hostname + i + 1);
if (StrCmpi(hint_str, "tcp") == 0 || StrCmpi(hint_str, "disable") == 0
|| StrCmpi(hint_str, "disabled") == 0
|| StrCmpi(hint_str, "no") == 0 || StrCmpi(hint_str, "none") == 0)
{
// Force not to use the NAT-T
force_use_natt = false;
use_natt = false;
}
}
}
else
{
StrCpy(hostname_original, sizeof(hostname_original), hostname);
WaitEx(NULL, p->Delay, p->NoDelayFlag);
}
Zero(&current_ip, sizeof(current_ip));
Zero(&ip4, sizeof(ip4));
Zero(&ip6, sizeof(ip6));
for (i = 0; i < LIST_NUM(p->IpList); ++i)
{
IP *ip = LIST_DATA(p->IpList, i);
if (IsZeroIp(ret_ip) == false)
if (IsZeroIp(ip))
{
// Skip name resolution
if (IsIP6(ret_ip))
{
Copy(&ip6, ret_ip, sizeof(IP));
}
else
{
Copy(&ip4, ret_ip, sizeof(IP));
continue;
}
//Debug("Using cached IP address: %s = %r\n", hostname_original, ret_ip);
}
else
// Delay before retry
if (i > 0 && p->RetryDelay >= 1)
{
// Forward resolution
if (DnsResolve(&ip6, &ip4, hostname_original, 0, cancel_flag) == false)
{
return NULL;
}
WaitEx(NULL, p->RetryDelay, p->CancelFlag);
}
if (IsZeroIp(&ip4) == false && IsIPLocalHostOrMySelf(&ip4))
if (*p->CancelFlag)
{
// Cancel by the user
break;
}
bool use_natt = p->Use_NatT;
bool force_use_natt = p->Force_NatT;
if (IsIPLocalHostOrMySelf(ip))
{
// NAT-T isn't used in the case of connection to localhost
force_use_natt = false;
use_natt = false;
}
s = INVALID_SOCKET;
// Attempt to connect with IPv4
if (IsZeroIp(&ip4) == false)
{
if (use_natt == false)
{
// Normal connection without using NAT-T
s = ConnectTimeoutIPv4(&ip4, port, timeout, cancel_flag);
s = ConnectTimeoutIPv4(ip, p->Port, p->Timeout, p->CancelFlag);
if (s != INVALID_SOCKET)
{
Copy(&current_ip, &ip4, sizeof(IP));
Copy(&current_ip, ip, sizeof(IP));
Copy(ret_ip, &ip4, sizeof(IP));
Copy(p->Ret_Ip, ip, sizeof(IP));
}
}
else if (force_use_natt)
{
// The connection by forcing the use of NAT-T (not to connection with normal TCP)
SOCK *nat_t_sock = NewRUDPClientNatT(nat_t_svc_name, &ip4, nat_t_error_code, timeout, cancel_flag,
hint_str, hostname);
SOCK *nat_t_sock = NewRUDPClientNatT(p->NatT_SvcName, ip, p->NatT_ErrorCode, p->Timeout, p->CancelFlag, p->HintStr, p->Hostname);
if (nat_t_sock != NULL)
{
@ -14034,9 +13944,10 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
AddProtocolDetailsStr(nat_t_sock->ProtocolDetails, sizeof(nat_t_sock->ProtocolDetails), "RUDP");
}
Copy(ret_ip, &ip4, sizeof(IP));
Copy(p->Ret_Ip, ip, sizeof(IP));
return nat_t_sock;
p->Sock = nat_t_sock;
break;
}
else
{
@ -14058,47 +13969,47 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
Zero(&p4, sizeof(p4));
// p1: TCP
StrCpy(p1.Hostname, sizeof(p1.Hostname), hostname_original);
Copy(&p1.Ip, &ip4, sizeof(IP));
p1.Port = port;
p1.Timeout = timeout;
StrCpy(p1.Hostname, sizeof(p1.Hostname), p->Hostname_Original);
Copy(&p1.Ip, ip, sizeof(IP));
p1.Port = p->Port;
p1.Timeout = p->Timeout;
p1.CancelFlag = &cancel_flag2;
p1.FinishEvent = finish_event;
p1.Tcp_TryStartSsl = try_start_ssl;
p1.Tcp_TryStartSsl = p->Tcp_TryStartSsl;
p1.CancelLock = NewLock();
// p2: NAT-T
StrCpy(p2.Hostname, sizeof(p2.Hostname), hostname_original);
Copy(&p2.Ip, &ip4, sizeof(IP));
p2.Port = port;
p2.Timeout = timeout;
StrCpy(p2.Hostname, sizeof(p2.Hostname), p->Hostname_Original);
Copy(&p2.Ip, ip, sizeof(IP));
p2.Port = p->Port;
p2.Timeout = p->Timeout;
p2.CancelFlag = &cancel_flag2;
p2.FinishEvent = finish_event;
StrCpy(p2.HintStr, sizeof(p2.HintStr), hint_str);
StrCpy(p2.TargetHostname, sizeof(p2.TargetHostname), hostname);
StrCpy(p2.SvcName, sizeof(p2.SvcName), nat_t_svc_name);
StrCpy(p2.HintStr, sizeof(p2.HintStr), p->HintStr);
StrCpy(p2.TargetHostname, sizeof(p2.TargetHostname), p->Hostname);
StrCpy(p2.SvcName, sizeof(p2.SvcName), p->NatT_SvcName);
p2.Delay = 30; // Delay by 30ms
// p3: over ICMP
StrCpy(p3.Hostname, sizeof(p3.Hostname), hostname_original);
Copy(&p3.Ip, &ip4, sizeof(IP));
p3.Port = port;
p3.Timeout = timeout;
StrCpy(p3.Hostname, sizeof(p3.Hostname), p->Hostname_Original);
Copy(&p3.Ip, ip, sizeof(IP));
p3.Port = p->Port;
p3.Timeout = p->Timeout;
p3.CancelFlag = &cancel_flag2;
p3.FinishEvent = finish_event;
StrCpy(p3.SvcName, sizeof(p3.SvcName), nat_t_svc_name);
StrCpy(p3.SvcName, sizeof(p3.SvcName), p->NatT_SvcName);
p3.RUdpProtocol = RUDP_PROTOCOL_ICMP;
p3.Delay = 200; // Delay by 200ms
// p4: over DNS
StrCpy(p4.Hostname, sizeof(p4.Hostname), hostname_original);
Copy(&p4.Ip, &ip4, sizeof(IP));
p4.Port = port;
p4.Timeout = timeout;
StrCpy(p4.Hostname, sizeof(p4.Hostname), p->Hostname_Original);
Copy(&p4.Ip, ip, sizeof(IP));
p4.Port = p->Port;
p4.Timeout = p->Timeout;
p4.CancelFlag = &cancel_flag2;
p4.FinishEvent = finish_event;
StrCpy(p4.SvcName, sizeof(p4.SvcName), nat_t_svc_name);
StrCpy(p4.SvcName, sizeof(p4.SvcName), p->NatT_SvcName);
p4.RUdpProtocol = RUDP_PROTOCOL_DNS;
p4.Delay = 100; // Delay by 100ms
@ -14111,7 +14022,7 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
{
UINT64 now = Tick64();
if (*cancel_flag)
if (*p->CancelFlag)
{
// Cancel by the user
break;
@ -14209,7 +14120,7 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
DeleteLock(p1.CancelLock);
if (*cancel_flag)
if (*p->CancelFlag)
{
// Abandon all the results because the user canceled
Disconnect(p1.Result_Nat_T_Sock);
@ -14221,7 +14132,7 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
Disconnect(p4.Result_Nat_T_Sock);
ReleaseSock(p4.Result_Nat_T_Sock);
return NULL;
break;
}
if (p1.Ok)
@ -14237,15 +14148,16 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
Disconnect(p4.Result_Nat_T_Sock);
ReleaseSock(p4.Result_Nat_T_Sock);
if (GetHostName(hostname, sizeof(hostname), &ip4))
if (GetHostName(hostname, sizeof(hostname), ip))
{
Free(p1.Result_Tcp_Sock->RemoteHostname);
p1.Result_Tcp_Sock->RemoteHostname = CopyStr(hostname);
}
Copy(ret_ip, &ip4, sizeof(IP));
Copy(p->Ret_Ip, ip, sizeof(IP));
return p1.Result_Tcp_Sock;
p->Sock = p1.Result_Tcp_Sock;
break;
}
else if (p2.Ok)
{
@ -14259,9 +14171,10 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
StrCpy(p2.Result_Nat_T_Sock->UnderlayProtocol, sizeof(p2.Result_Nat_T_Sock->UnderlayProtocol), SOCK_UNDERLAY_NAT_T);
AddProtocolDetailsStr(p2.Result_Nat_T_Sock->UnderlayProtocol, sizeof(p2.Result_Nat_T_Sock->UnderlayProtocol), "RUDP/UDP");
Copy(ret_ip, &ip4, sizeof(IP));
Copy(p->Ret_Ip, ip, sizeof(IP));
return p2.Result_Nat_T_Sock;
p->Sock = p2.Result_Nat_T_Sock;
break;
}
else if (p4.Ok)
{
@ -14273,9 +14186,10 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
StrCpy(p4.Result_Nat_T_Sock->UnderlayProtocol, sizeof(p4.Result_Nat_T_Sock->UnderlayProtocol), SOCK_UNDERLAY_DNS);
AddProtocolDetailsStr(p4.Result_Nat_T_Sock->UnderlayProtocol, sizeof(p4.Result_Nat_T_Sock->UnderlayProtocol), "RUDP/DNS");
Copy(ret_ip, &ip4, sizeof(IP));
Copy(p->Ret_Ip, ip, sizeof(IP));
return p4.Result_Nat_T_Sock;
p->Sock = p4.Result_Nat_T_Sock;
break;
}
else if (p3.Ok)
{
@ -14283,21 +14197,73 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
StrCpy(p3.Result_Nat_T_Sock->UnderlayProtocol, sizeof(p3.Result_Nat_T_Sock->UnderlayProtocol), SOCK_UNDERLAY_ICMP);
AddProtocolDetailsStr(p3.Result_Nat_T_Sock->UnderlayProtocol, sizeof(p3.Result_Nat_T_Sock->UnderlayProtocol), "RUDP/ICMP");
Copy(ret_ip, &ip4, sizeof(IP));
Copy(p->Ret_Ip, ip, sizeof(IP));
return p3.Result_Nat_T_Sock;
p->Sock = p3.Result_Nat_T_Sock;
break;
}
else
{
// Continue the process if all trials failed
*nat_t_error_code = p2.NatT_ErrorCode;
}
*p->NatT_ErrorCode = p2.NatT_ErrorCode;
}
}
// Attempt to connect with IPv6
if (s == INVALID_SOCKET && IsZeroIp(&ip6) == false)
if (s != INVALID_SOCKET)
{
p->Sock = CreateTCPSock(s, false, &current_ip, p->No_Get_Hostname, p->Hostname_Original);
break;
}
}
p->Ok = (p->Sock == NULL ? false : true);
p->FinishedTick = Tick64();
p->Finished = true;
Set(p->FinishEvent);
}
// IPv6 connection thread (multiple addresses)
void ConnectThreadForIPv6(THREAD *thread, void *param)
{
SOCKET s = INVALID_SOCKET;
IP current_ip;
UINT i;
CONNECT_SERIAL_PARAM *p = (CONNECT_SERIAL_PARAM *)param;
if (thread == NULL || p == NULL)
{
return;
}
// Delay before start
if (p->Delay >= 1)
{
WaitEx(NULL, p->Delay, p->NoDelayFlag);
}
Zero(&current_ip, sizeof(current_ip));
for (i = 0; i < LIST_NUM(p->IpList); ++i)
{
IP *ip = LIST_DATA(p->IpList, i);
if (IsZeroIp(ip))
{
continue;
}
// Delay before retry
if (i > 0 && p->RetryDelay >= 1)
{
WaitEx(NULL, p->RetryDelay, p->CancelFlag);
}
if (*p->CancelFlag)
{
// Cancel by the user
break;
}
struct sockaddr_in6 sockaddr6;
struct in6_addr addr6;
@ -14305,10 +14271,10 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
Zero(&addr6, sizeof(addr6));
// Generation of the sockaddr_in6
IPToInAddr6(&addr6, &ip6);
sockaddr6.sin6_port = htons((USHORT)port);
IPToInAddr6(&addr6, ip);
sockaddr6.sin6_port = htons((USHORT)p->Port);
sockaddr6.sin6_family = AF_INET6;
sockaddr6.sin6_scope_id = ip6.ipv6_scope_id;
sockaddr6.sin6_scope_id = ip->ipv6_scope_id;
Copy(&sockaddr6.sin6_addr, &addr6, sizeof(addr6));
// Socket creation
@ -14316,7 +14282,7 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
if (s != INVALID_SOCKET)
{
// Connection
if (connect_timeout(s, (struct sockaddr *)&sockaddr6, sizeof(struct sockaddr_in6), timeout, cancel_flag) != 0)
if (connect_timeout(s, (struct sockaddr *)&sockaddr6, sizeof(struct sockaddr_in6), p->Timeout, p->CancelFlag) != 0)
{
// Connection failure
closesocket(s);
@ -14324,18 +14290,35 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
}
else
{
Copy(&current_ip, &ip6, sizeof(IP));
Copy(&current_ip, ip, sizeof(IP));
is_ipv6 = true;
Copy(p->Ret_Ip, ip, sizeof(IP));
}
}
Copy(ret_ip, &ip6, sizeof(IP));
if (s != INVALID_SOCKET)
{
p->Sock = CreateTCPSock(s, true, &current_ip, p->No_Get_Hostname, p->Hostname_Original);
break;
}
}
p->Ok = (p->Sock == NULL ? false : true);
p->FinishedTick = Tick64();
p->Finished = true;
Set(p->FinishEvent);
}
// Creating a TCP SOCK from a SOCKET
SOCK *CreateTCPSock(SOCKET s, bool is_ipv6, IP *current_ip, bool no_get_hostname, char *hostname_original)
{
struct linger ling;
char tmp[MAX_SIZE];
SOCK *sock;
if (s == INVALID_SOCKET)
{
// Connection fails on both of IPv4, IPv6
return NULL;
}
@ -14349,7 +14332,7 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
AddProtocolDetailsStr(sock->ProtocolDetails, sizeof(sock->ProtocolDetails), is_ipv6 ? "IPv6" : "IPv4");
// Host name resolution
if (no_get_hostname || (GetHostName(tmp, sizeof(tmp), &current_ip) == false))
if (no_get_hostname || (GetHostName(tmp, sizeof(tmp), current_ip) == false))
{
StrCpy(tmp, sizeof(tmp), hostname_original);
}
@ -14399,6 +14382,255 @@ SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, cha
return sock;
}
// TCP connection
SOCK *Connect(char *hostname, UINT port)
{
return ConnectEx(hostname, port, 0);
}
SOCK *ConnectEx(char *hostname, UINT port, UINT timeout)
{
return ConnectEx2(hostname, port, timeout, NULL);
}
SOCK *ConnectEx2(char *hostname, UINT port, UINT timeout, bool *cancel_flag)
{
return ConnectEx3(hostname, port, timeout, cancel_flag, NULL, NULL, false, true);
}
SOCK *ConnectEx3(char *hostname, UINT port, UINT timeout, bool *cancel_flag, char *nat_t_svc_name, UINT *nat_t_error_code, bool try_start_ssl, bool no_get_hostname)
{
return ConnectEx4(hostname, port, timeout, cancel_flag, nat_t_svc_name, nat_t_error_code, try_start_ssl, no_get_hostname, NULL);
}
SOCK *ConnectEx4(char *hostname, UINT port, UINT timeout, bool *cancel_flag, char *nat_t_svc_name, UINT *nat_t_error_code, bool try_start_ssl, bool no_get_hostname, IP *ret_ip)
{
bool dummy = false;
bool use_natt = false;
char hostname_original[MAX_SIZE];
char hint_str[MAX_SIZE];
bool force_use_natt = false;
UINT dummy_int = 0;
IP dummy_ret_ip;
// Validate arguments
if (hostname == NULL || port == 0 || port >= 65536 || IsEmptyStr(hostname))
{
return NULL;
}
if (timeout == 0)
{
timeout = TIMEOUT_TCP_PORT_CHECK;
}
if (cancel_flag == NULL)
{
cancel_flag = &dummy;
}
if (nat_t_error_code == NULL)
{
nat_t_error_code = &dummy_int;
}
Zero(&dummy_ret_ip, sizeof(IP));
if (ret_ip == NULL)
{
ret_ip = &dummy_ret_ip;
}
Zero(hint_str, sizeof(hint_str));
StrCpy(hostname_original, sizeof(hostname_original), hostname);
use_natt = (IsEmptyStr(nat_t_svc_name) ? false : true);
if (use_natt)
{
// In case of using NAT-T, split host name if the '/' is included in the host name
UINT i = SearchStrEx(hostname, "/", 0, false);
if (i == INFINITE)
{
// Not included
StrCpy(hostname_original, sizeof(hostname_original), hostname);
}
else
{
// Included
StrCpy(hostname_original, sizeof(hostname_original), hostname);
hostname_original[i] = 0;
// Force to use the NAT-T
force_use_natt = true;
// Copy the hint string
StrCpy(hint_str, sizeof(hint_str), hostname + i + 1);
if (StrCmpi(hint_str, "tcp") == 0 || StrCmpi(hint_str, "disable") == 0
|| StrCmpi(hint_str, "disabled") == 0
|| StrCmpi(hint_str, "no") == 0 || StrCmpi(hint_str, "none") == 0)
{
// Force not to use the NAT-T
force_use_natt = false;
use_natt = false;
}
}
}
else
{
StrCpy(hostname_original, sizeof(hostname_original), hostname);
}
LIST *iplist_v6 = NewListFast(NULL);
LIST *iplist_v4 = NewListFast(NULL);
if (IsZeroIp(ret_ip) == false)
{
// Skip name resolution
if (IsIP6(ret_ip))
{
AddHostIPAddressToList(iplist_v6, ret_ip);
}
else
{
AddHostIPAddressToList(iplist_v4, ret_ip);
}
//Debug("Using cached IP address: %s = %r\n", hostname_original, ret_ip);
}
else
{
// Forward resolution
if (DnsResolveEx(iplist_v6, iplist_v4, hostname_original, 0, cancel_flag) == false)
{
FreeHostIPAddressList(iplist_v6);
FreeHostIPAddressList(iplist_v4);
return NULL;
}
}
CONNECT_SERIAL_PARAM p4, p6;
EVENT *finish_event;
THREAD *t4 = NULL;
THREAD *t6 = NULL;
UINT64 start_tick = Tick64();
bool cancel_flag2 = false;
bool no_delay_flag = false;
finish_event = NewEvent();
Zero(&p4, sizeof(p4));
Zero(&p6, sizeof(p6));
// IPv6 connection thread
if (LIST_NUM(iplist_v6) > 0)
{
p6.IpList = iplist_v6;
p6.Port = port;
p6.Timeout = timeout;
StrCpy(p6.Hostname, sizeof(p6.Hostname), hostname);
StrCpy(p6.Hostname_Original, sizeof(p6.Hostname_Original), hostname_original);
p6.No_Get_Hostname = no_get_hostname;
p6.CancelFlag = &cancel_flag2;
p6.NoDelayFlag = &no_delay_flag;
p6.FinishEvent = finish_event;
p6.Tcp_TryStartSsl = try_start_ssl;
p6.Ret_Ip = ret_ip;
p6.RetryDelay = 250;
p6.Delay = 0;
t6 = NewThread(ConnectThreadForIPv6, &p6);
}
// IPv4 connection thread
if (LIST_NUM(iplist_v4) > 0)
{
p4.IpList = iplist_v4;
p4.Port = port;
p4.Timeout = timeout;
StrCpy(p4.Hostname, sizeof(p4.Hostname), hostname);
StrCpy(p4.Hostname_Original, sizeof(p4.Hostname_Original), hostname_original);
StrCpy(p4.HintStr, sizeof(p4.HintStr), hint_str);
p4.No_Get_Hostname = no_get_hostname;
p4.CancelFlag = &cancel_flag2;
p4.NoDelayFlag = &no_delay_flag;
p4.NatT_ErrorCode = nat_t_error_code;
StrCpy(p4.NatT_SvcName, sizeof(p4.NatT_SvcName), nat_t_svc_name);
p4.FinishEvent = finish_event;
p4.Tcp_TryStartSsl = try_start_ssl;
p4.Use_NatT = use_natt;
p4.Force_NatT = force_use_natt;
p4.Ret_Ip = ret_ip;
p4.RetryDelay = 250;
p4.Delay = 250; // Delay by 250ms to prioritize IPv6 (RFC 6555 recommends 150-250ms, Chrome uses 300ms)
t4 = NewThread(ConnectThreadForIPv4, &p4);
}
if (t6 == NULL || t4 == NULL)
{
// No need to delay if there is only one thread
no_delay_flag = true;
}
while (true)
{
if (*cancel_flag)
{
break;
}
if ((t6 == NULL || p6.Finished) && (t4 == NULL || p4.Finished))
{
break;
}
if ((p6.Finished && p6.Ok) || (p4.Finished && p4.Ok))
{
break;
}
// This check must be placed last to avoid race condition with cancel flag
if (no_delay_flag == false && (p6.Finished || p4.Finished))
{
no_delay_flag = true;
}
Wait(finish_event, 25);
}
cancel_flag2 = true;
no_delay_flag = true;
WaitThread(t6, INFINITE);
WaitThread(t4, INFINITE);
ReleaseThread(t6);
ReleaseThread(t4);
ReleaseEvent(finish_event);
FreeHostIPAddressList(iplist_v6);
FreeHostIPAddressList(iplist_v4);
if (*cancel_flag)
{
// Abandon all the results because the user canceled
Disconnect(p6.Sock);
ReleaseSock(p6.Sock);
Disconnect(p4.Sock);
ReleaseSock(p4.Sock);
return NULL;
}
if (p6.Ok)
{
Disconnect(p4.Sock);
ReleaseSock(p4.Sock);
return p6.Sock;
}
if (p4.Ok)
{
Disconnect(p6.Sock);
ReleaseSock(p6.Sock);
return p4.Sock;
}
return NULL;
}
// Add a protocol details strings
void AddProtocolDetailsStr(char *dst, UINT dst_size, char *str)
{

View File

@ -795,6 +795,33 @@ struct RUDP_STACK
USHORT Client_IcmpId, Client_IcmpSeqNo; // Sequence number and ICMP ID that is randomly generated on the client side
};
// Data for the thread for serial connection attempts to a list of addresses
struct CONNECT_SERIAL_PARAM
{
LIST *IpList;
UINT Port;
UINT Timeout;
char Hostname[MAX_SIZE];
char Hostname_Original[MAX_SIZE];
char HintStr[MAX_SIZE];
bool No_Get_Hostname;
bool *CancelFlag;
bool *NoDelayFlag;
UINT *NatT_ErrorCode;
char NatT_SvcName[MAX_SIZE];
SOCK *Sock;
bool Finished;
bool Ok;
UINT64 FinishedTick;
EVENT *FinishEvent;
UINT Delay;
UINT RetryDelay;
bool Tcp_TryStartSsl;
bool Use_NatT;
bool Force_NatT;
IP *Ret_Ip;
};
// Data for the thread for concurrent connection attempts for the R-UDP and TCP
struct CONNECT_TCP_RUDP_PARAM
{
@ -895,6 +922,9 @@ bool DetectIsServerSoftEtherVPN(SOCK *s);
void ConnectThreadForTcp(THREAD *thread, void *param);
void ConnectThreadForRUDP(THREAD *thread, void *param);
void ConnectThreadForOverDnsOrIcmp(THREAD *thread, void *param);
void ConnectThreadForIPv4(THREAD *thread, void *param);
void ConnectThreadForIPv6(THREAD *thread, void *param);
SOCK *CreateTCPSock(SOCKET s, bool is_ipv6, IP *current_ip, bool no_get_hostname, char *hostname_original);
SOCK *NewRUDPClientNatT(char *svc_name, IP *ip, UINT *error_code, UINT timeout, bool *cancel, char *hint_str, char *target_hostname);
RUDP_STACK *NewRUDPServer(char *svc_name, RUDP_STACK_INTERRUPTS_PROC *proc_interrupts, RUDP_STACK_RPC_RECV_PROC *proc_rpc_recv, void *param, UINT port, bool no_natt_register, bool over_dns_mode, volatile UINT *natt_global_udp_port, UCHAR rand_port_id, IP *listen_ip);
SOCK *NewRUDPClientDirect(char *svc_name, IP *ip, UINT port, UINT *error_code, UINT timeout, bool *cancel, SOCK *sock, SOCK_EVENT *sock_event, UINT local_port, bool over_dns_mode);