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SoftEtherVPN/src/Cedar/Proto_IPsec.c
2021-04-05 04:48:25 +02:00

698 lines
13 KiB
C

// SoftEther VPN Source Code - Developer Edition Master Branch
// Cedar Communication Module
// Proto_IPsec.c
// IPsec module
#include "Proto_IPsec.h"
#include "Hub.h"
#include "Proto_IKE.h"
#include "Proto_L2TP.h"
#include "Proto_Win7.h"
#include "Server.h"
#include "Mayaqua/Kernel.h"
#include "Mayaqua/Memory.h"
#include "Mayaqua/Microsoft.h"
#include "Mayaqua/Object.h"
#include "Mayaqua/Str.h"
#include "Mayaqua/Tick64.h"
#include "Mayaqua/Unix.h"
static bool ipsec_disable = false;
// Monitor the IPsec service of the OS, and stop it if it will conflict
void IPsecOsServiceCheckThread(THREAD *t, void *p)
{
UINT interval = IPSEC_CHECK_OS_SERVICE_INTERVAL_INITIAL;
IPSEC_SERVER *s = (IPSEC_SERVER *)p;
// Validate arguments
if (t == NULL || p == NULL)
{
return;
}
s->HostIPAddressListChanged = true;
s->OsServiceStoped = false;
while (s->Halt == false)
{
if (IPsecCheckOsService(s))
{
interval = IPSEC_CHECK_OS_SERVICE_INTERVAL_INITIAL;
}
if (Wait(s->OsServiceCheckThreadEvent, interval) == false)
{
interval = MIN(interval * 2, IPSEC_CHECK_OS_SERVICE_INTERVAL_MAX);
}
else
{
interval = IPSEC_CHECK_OS_SERVICE_INTERVAL_INITIAL;
}
}
IPsecCheckOsService(s);
}
// Monitoring process main
bool IPsecCheckOsService(IPSEC_SERVER *s)
{
bool b_ipsec;
IPSEC_SERVICES sl;
bool ret = false;
// Validate arguments
if (s == NULL)
{
return false;
}
IPsecServerGetServices(s, &sl);
b_ipsec = (sl.EtherIP_IPsec || sl.L2TP_IPsec);
if (b_ipsec != s->Check_LastEnabledStatus)
{
s->Check_LastEnabledStatus = b_ipsec;
if (b_ipsec)
{
// Use of IPsec has been started
#ifdef OS_WIN32
if (s->Win7 == NULL)
{
s->Win7 = IPsecWin7Init();
s->HostIPAddressListChanged = true;
}
s->OsServiceStoped = false;
#else // OS_WIN32
#endif // OS_WIN32
}
else
{
// Use of IPsec is stopped
#ifdef OS_WIN32
if (s->Win7 != NULL)
{
IPsecWin7Free(s->Win7);
s->Win7 = NULL;
}
if (s->OsServiceStoped)
{
MsStartIPsecService();
s->OsServiceStoped = false;
}
#else // OS_WIN32
UnixSetEnableKernelEspProcessing(true);
#endif // OS_WIN32
}
}
if (b_ipsec)
{
#ifdef OS_WIN32
if (MsStopIPsecService())
{
s->OsServiceStoped = true;
ret = true;
}
#else // OS_WIN32
UnixSetEnableKernelEspProcessing(false);
#endif // OS_WIN32
}
#ifdef OS_WIN32
if (s->Win7 != NULL)
{
IPsecWin7UpdateHostIPAddressList(s->Win7);
s->HostIPAddressListChanged = false;
}
#endif // OS_WIN32
return ret;
}
// Processing of UDP packets (one by one)
void IPsecProcPacket(IPSEC_SERVER *s, UDPPACKET *p)
{
L2TP_SERVER *l2tp;
IKE_SERVER *ike;
void *old_data_ptr;
UINT old_data_size;
bool proc_this_packet = true;
// Validate arguments
if (s == NULL || p == NULL)
{
return;
}
old_data_ptr = p->Data;
old_data_size = p->Size;
l2tp = s->L2TP;
ike = s->Ike;
// UDP decapsulation process
if (p->DestPort == IPSEC_PORT_IPSEC_ESP_UDP)
{
#ifdef OS_WIN32
if (p->Size >= 12 && IsZero(p->Data, 4))
{
if (((*((UINT *)(((UCHAR *)p->Data) + sizeof(UINT) * 1))) == WFP_ESP_PACKET_TAG_1) &&
((*((UINT *)(((UCHAR *)p->Data) + sizeof(UINT) * 2))) == WFP_ESP_PACKET_TAG_2))
{
// Truncate the head because the packet was modified by WFP
p->Data = ((UCHAR *)p->Data) + 12;
p->Size -= 12;
}
}
#endif // OS_WIN32
if (p->Size >= 4 && IsZero(p->Data, 4))
{
// Truncate the Non-ESP Marker
p->Data = ((UCHAR *)p->Data) + 4;
p->Size -= 4;
p->Type = IKE_UDP_TYPE_ISAKMP;
}
else
{
p->Type = IKE_UDP_TYPE_ESP;
}
}
else if (p->DestPort == IPSEC_PORT_IPSEC_ISAKMP)
{
if (p->Size >= 8 && IsZero(p->Data, 8))
{
// Truncate the Non-IKE Maker
p->Data = ((UCHAR *)p->Data) + 8;
p->Size -= 8;
p->Type = IKE_UDP_TYPE_ESP;
}
else
{
p->Type = IKE_UDP_TYPE_ISAKMP;
}
}
else if (p->DestPort == IPSEC_PORT_IPSEC_ESP_RAW)
{
// Raw ESP
p->Type = IKE_UDP_TYPE_ESP;
}
if (proc_this_packet)
{
switch (p->DestPort)
{
case IPSEC_PORT_L2TP:
// L2TP
ProcL2TPPacketRecv(l2tp, p);
break;
case IPSEC_PORT_IPSEC_ISAKMP:
case IPSEC_PORT_IPSEC_ESP_UDP:
case IPSEC_PORT_IPSEC_ESP_RAW:
// IPsec
ProcIKEPacketRecv(ike, p);
break;
}
}
p->Data = old_data_ptr;
p->Size = old_data_size;
}
// Packet reception procedure of UDP listener
void IPsecServerUdpPacketRecvProc(UDPLISTENER *u, LIST *packet_list)
{
UINT i;
IPSEC_SERVER *s;
L2TP_SERVER *l2tp;
IKE_SERVER *ike;
UINT64 now;
static UCHAR zero8[8] = {0, 0, 0, 0, 0, 0, 0, 0, };
// Validate arguments
if (u == NULL || packet_list == NULL)
{
return;
}
s = (IPSEC_SERVER *)u->Param;
if (s == NULL)
{
return;
}
if (u->HostIPAddressListChanged)
{
u->HostIPAddressListChanged = false;
s->HostIPAddressListChanged = true;
Set(s->OsServiceCheckThreadEvent);
}
now = Tick64();
// Adjustment about L2TP server timing
l2tp = s->L2TP;
if (l2tp->Interrupts == NULL)
{
l2tp->Interrupts = u->Interrupts;
}
if (l2tp->SockEvent == NULL)
{
SetL2TPServerSockEvent(l2tp, u->Event);
}
l2tp->Now = now;
// Adjustment about IKE server timing
ike = s->Ike;
if (ike->Interrupts == NULL)
{
ike->Interrupts = u->Interrupts;
}
if (ike->SockEvent == NULL)
{
SetIKEServerSockEvent(ike, u->Event);
}
ike->Now = now;
if (ipsec_disable == false)
{
{
// Process the received packet
for (i = 0;i < LIST_NUM(packet_list);i++)
{
UDPPACKET *p = LIST_DATA(packet_list, i);
IPsecProcPacket(s, p);
}
}
}
// Interrupt processing of L2TP server
L2TPProcessInterrupts(l2tp);
// L2TP packet transmission processing
UdpListenerSendPackets(u, l2tp->SendPacketList);
DeleteAll(l2tp->SendPacketList);
// Interrupt processing of IKE server
ProcessIKEInterrupts(ike);
// UDP encapsulation process of IKE server packet scheduled for transmission
for (i = 0;i < LIST_NUM(ike->SendPacketList);i++)
{
UDPPACKET *p = LIST_DATA(ike->SendPacketList, i);
if (p->Type == IKE_UDP_TYPE_ISAKMP && p->SrcPort == IPSEC_PORT_IPSEC_ESP_UDP)
{
// Add the Non-ESP Marker
void *old_data = p->Data;
p->Data = AddHead(p->Data, p->Size, zero8, 4);
p->Size += 4;
Free(old_data);
}
else if (p->Type == IKE_UDP_TYPE_ESP && p->SrcPort == IPSEC_PORT_IPSEC_ISAKMP)
{
// Add the Non-IKE Marker
void *old_data = p->Data;
p->Data = AddHead(p->Data, p->Size, zero8, 8);
p->Size += 8;
Free(old_data);
}
}
// IKE server packet transmission processing
UdpListenerSendPackets(u, ike->SendPacketList);
DeleteAll(ike->SendPacketList);
}
// Get the service list
void IPsecServerGetServices(IPSEC_SERVER *s, IPSEC_SERVICES *sl)
{
// Validate arguments
if (s == NULL || sl == NULL)
{
return;
}
Lock(s->LockSettings);
{
IPsecNormalizeServiceSetting(s);
Copy(sl, &s->Services, sizeof(IPSEC_SERVICES));
}
Unlock(s->LockSettings);
}
// Normalize the IPsec service setttings
void IPsecNormalizeServiceSetting(IPSEC_SERVER *s)
{
CEDAR *c;
// Validate arguments
if (s == NULL)
{
return;
}
c = s->Cedar;
Lock(s->LockSettings);
{
bool reset_hub_setting = false;
if (IsEmptyStr(s->Services.IPsec_Secret))
{
// If the secret is not set, set the default one
StrCpy(s->Services.IPsec_Secret, sizeof(s->Services.IPsec_Secret), IPSEC_DEFAULT_SECRET);
}
LockList(c->HubList);
{
if (IsEmptyStr(s->Services.L2TP_DefaultHub))
{
reset_hub_setting = true;
}
else
{
if (IsHub(c, s->Services.L2TP_DefaultHub) == false)
{
reset_hub_setting = true;
}
}
if (reset_hub_setting)
{
// Select the first Virtual HUB if there is no HUB
HUB *h = NULL;
if (LIST_NUM(c->HubList) >= 1)
{
h = LIST_DATA(c->HubList, 0);
}
if (h != NULL)
{
StrCpy(s->Services.L2TP_DefaultHub, sizeof(s->Services.L2TP_DefaultHub), h->Name);
}
else
{
StrCpy(s->Services.L2TP_DefaultHub, sizeof(s->Services.L2TP_DefaultHub), "");
}
}
}
UnlockList(c->HubList);
}
Unlock(s->LockSettings);
}
// Set the service list
void IPsecServerSetServices(IPSEC_SERVER *s, IPSEC_SERVICES *sl)
{
// Validate arguments
if (s == NULL || sl == NULL)
{
return;
}
if (IsZero(sl, sizeof(IPSEC_SERVICES)) == false)
{
if (s->NoMoreChangeSettings)
{
return;
}
}
Lock(s->LockSettings);
{
Copy(&s->Services, sl, sizeof(IPSEC_SERVICES));
Copy(&s->UdpListener->ListenIP, &s->Cedar->Server->ListenIP, sizeof(IP));
if (sl->L2TP_Raw)
{
AddPortToUdpListener(s->UdpListener, IPSEC_PORT_L2TP);
}
else
{
DeletePortFromUdpListener(s->UdpListener, IPSEC_PORT_L2TP);
}
if (sl->L2TP_IPsec || sl->EtherIP_IPsec)
{
AddPortToUdpListener(s->UdpListener, IPSEC_PORT_IPSEC_ISAKMP);
AddPortToUdpListener(s->UdpListener, IPSEC_PORT_IPSEC_ESP_UDP);
AddPortToUdpListener(s->UdpListener, IPSEC_PORT_IPSEC_ESP_RAW);
AddPortToUdpListener(s->UdpListener, IPSEC_PORT_IPSEC_ESP_RAW_WPF);
}
else
{
DeletePortFromUdpListener(s->UdpListener, IPSEC_PORT_IPSEC_ISAKMP);
DeletePortFromUdpListener(s->UdpListener, IPSEC_PORT_IPSEC_ESP_UDP);
DeletePortFromUdpListener(s->UdpListener, IPSEC_PORT_IPSEC_ESP_RAW);
DeletePortFromUdpListener(s->UdpListener, IPSEC_PORT_IPSEC_ESP_RAW_WPF);
}
if (IsEmptyStr(sl->IPsec_Secret) == false)
{
StrCpy(s->Ike->Secret, sizeof(s->Ike->Secret), sl->IPsec_Secret);
}
IPsecNormalizeServiceSetting(s);
}
Unlock(s->LockSettings);
Set(s->OsServiceCheckThreadEvent);
}
// Add the EtherIP key
void AddEtherIPId(IPSEC_SERVER *s, ETHERIP_ID *id)
{
// Validate arguments
if (s == NULL || id == NULL)
{
return;
}
Lock(s->LockSettings);
{
// If there is the same key, remove them
ETHERIP_ID t, *k;
Zero(&t, sizeof(t));
StrCpy(t.Id, sizeof(t.Id), id->Id);
k = Search(s->EtherIPIdList, &t);
if (k != NULL)
{
Delete(s->EtherIPIdList, k);
Free(k);
}
// Add
k = Clone(id, sizeof(ETHERIP_ID));
Insert(s->EtherIPIdList, k);
s->EtherIPIdListSettingVerNo++;
}
Unlock(s->LockSettings);
}
// Delete the EtherIP key
bool DeleteEtherIPId(IPSEC_SERVER *s, char *id_str)
{
bool ret = false;
// Validate arguments
if (s == NULL || id_str == NULL)
{
return false;
}
Lock(s->LockSettings);
{
// If there is the same key, remove them
ETHERIP_ID t, *k;
Zero(&t, sizeof(t));
StrCpy(t.Id, sizeof(t.Id), id_str);
k = Search(s->EtherIPIdList, &t);
if (k != NULL)
{
Delete(s->EtherIPIdList, k);
Free(k);
ret = true;
s->EtherIPIdListSettingVerNo++;
}
}
Unlock(s->LockSettings);
return ret;
}
// Search the EtherIP key
bool SearchEtherIPId(IPSEC_SERVER *s, ETHERIP_ID *id, char *id_str)
{
bool ret = false;
// Validate arguments
if (s == NULL || id == NULL || id_str == NULL)
{
return false;
}
Lock(s->LockSettings);
{
ETHERIP_ID t, *k;
Zero(&t, sizeof(t));
StrCpy(t.Id, sizeof(t.Id), id_str);
k = Search(s->EtherIPIdList, &t);
if (k != NULL)
{
Copy(id, k, sizeof(ETHERIP_ID));
ret = true;
}
}
Unlock(s->LockSettings);
return ret;
}
// Comparison of key EtherIP list entries
int CmpEtherIPId(void *p1, void *p2)
{
ETHERIP_ID *k1, *k2;
// Validate arguments
if (p1 == NULL || p2 == NULL)
{
return 0;
}
k1 = *(ETHERIP_ID **)p1;
k2 = *(ETHERIP_ID **)p2;
if (k1 == NULL || k2 == NULL)
{
return 0;
}
return StrCmpi(k1->Id, k2->Id);
}
// Release and stop the IPsec server
void FreeIPsecServer(IPSEC_SERVER *s)
{
UINT i;
IPSEC_SERVICES sl;
// Validate arguments
if (s == NULL)
{
return;
}
s->NoMoreChangeSettings = true;
// Stopp the L2TP server
StopL2TPServer(s->L2TP, false);
// Stop the IKE server
StopIKEServer(s->Ike);
// Stop all the services explicitly
Zero(&sl, sizeof(sl));
IPsecServerSetServices(s, &sl);
// Releasing process
FreeUdpListener(s->UdpListener);
ReleaseCedar(s->Cedar);
FreeL2TPServer(s->L2TP);
FreeIKEServer(s->Ike);
for (i = 0;i < LIST_NUM(s->EtherIPIdList);i++)
{
ETHERIP_ID *k = LIST_DATA(s->EtherIPIdList, i);
Free(k);
}
ReleaseList(s->EtherIPIdList);
// Stop the OS monitoring thread
s->Halt = true;
Set(s->OsServiceCheckThreadEvent);
WaitThread(s->OsServiceCheckThread, INFINITE);
ReleaseThread(s->OsServiceCheckThread);
ReleaseEvent(s->OsServiceCheckThreadEvent);
DeleteLock(s->LockSettings);
Free(s);
}
// Initialize the IPsec server
IPSEC_SERVER *NewIPsecServer(CEDAR *cedar)
{
IPSEC_SERVER *s;
// Validate arguments
if (cedar == NULL)
{
return NULL;
}
s = ZeroMalloc(sizeof(IPSEC_SERVER));
s->LockSettings = NewLock();
s->Cedar = cedar;
AddRef(s->Cedar->ref);
s->L2TP = NewL2TPServer(cedar);
s->Ike = NewIKEServer(cedar, s);
StrCpy(s->Ike->Secret, sizeof(s->Ike->Secret), IPSEC_DEFAULT_SECRET);
s->UdpListener = NewUdpListener(IPsecServerUdpPacketRecvProc, s, &cedar->Server->ListenIP);
s->EtherIPIdList = NewList(CmpEtherIPId);
// Start an OS service monitoring thread
s->OsServiceCheckThreadEvent = NewEvent();
s->OsServiceCheckThread = NewThread(IPsecOsServiceCheckThread, s);
return s;
}