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internalsocket.c
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internalsocket.c
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#include <string.h>
#include "internalsocket.h"
#include "addresslist.h"
#include "querydnsbase.h"
#include "dnsparser.h"
#include "utils.h"
int INTERNAL_INTERFACE_PRIMARY;
int INTERNAL_INTERFACE_SECONDARY;
sa_family_t MAIN_FAMILY = AF_UNSPEC;
const char *MAIN_WORKING_ADDRESS = NULL;
int MAIN_WORKING_PORT = -1;
static Address_Type LocalWorkingAddress;
static InternalInterface Interfaces[7];
int InternalInterface_Init(int PrimaryProtocal, const char *WorkingAddress, int Port)
{
int loop;
for( loop = 0; loop != 7; ++loop )
{
Interfaces[loop].Socket = INVALID_SOCKET;
}
if( PrimaryProtocal == DNS_QUARY_PROTOCOL_UDP )
{
INTERNAL_INTERFACE_PRIMARY = INTERNAL_INTERFACE_UDP_QUERY;
INTERNAL_INTERFACE_SECONDARY = INTERNAL_INTERFACE_TCP_QUERY;
} else {
INTERNAL_INTERFACE_PRIMARY = INTERNAL_INTERFACE_TCP_QUERY;
INTERNAL_INTERFACE_SECONDARY = INTERNAL_INTERFACE_UDP_QUERY;
}
MAIN_FAMILY = AddressList_ConvertToAddressFromString(&LocalWorkingAddress, WorkingAddress, Port);
if( MAIN_FAMILY == AF_UNSPEC )
{
return -1;
}
MAIN_WORKING_ADDRESS = WorkingAddress;
MAIN_WORKING_PORT = Port;
return 0;
}
SOCKET InternalInterface_OpenASocket(sa_family_t Family, struct sockaddr *Address)
{
SOCKET ret = socket(Family, SOCK_DGRAM, IPPROTO_UDP);
if( ret == INVALID_SOCKET )
{
return INVALID_SOCKET;
}
if( Address != NULL && bind(ret, Address, GetAddressLength(Family)) != 0 )
{
int OriginalErrorCode;
OriginalErrorCode = GET_LAST_ERROR();
CLOSE_SOCKET(ret);
SET_LAST_ERROR(OriginalErrorCode);
return INVALID_SOCKET;
}
return ret;
}
SOCKET InternalInterface_Open(const char *AddressPort, InternalInterfaceType Type, int DefaultPort)
{
sa_family_t Family = AddressList_ConvertToAddressFromString(&(Interfaces[Type].Address), AddressPort, DefaultPort);
if( Family == AF_UNSPEC )
{
return -1;
}
Interfaces[Type].Socket = InternalInterface_OpenASocket(Family, (struct sockaddr *)&(Interfaces[Type].Address));
return Interfaces[Type].Socket;
}
SOCKET InternalInterface_Open2(const char *Address, int Port, InternalInterfaceType Type)
{
return InternalInterface_Open(Address, Type, Port);
}
SOCKET InternalInterface_TryBindAddress(const char *Address_Str, int Port, Address_Type *Address)
{
int MaxTime = 10000;
Address_Type Address1;
SOCKET ret;
do {
AddressList_ConvertToAddressFromString(&Address1, Address_Str, Port);
ret = InternalInterface_OpenASocket(MAIN_FAMILY, (struct sockaddr *)&(Address1.Addr));
++Port;
--MaxTime;
} while( ret == INVALID_SOCKET && MaxTime > 0 );
if( ret == INVALID_SOCKET )
{
return INVALID_SOCKET;
} else {
if( Address != NULL )
{
memcpy(Address, &Address1, sizeof(Address_Type));
}
return ret;
}
}
SOCKET InternalInterface_TryBindLocal(int Port, Address_Type *Address)
{
const char *LocalAddress;
if( MAIN_FAMILY == AF_INET )
{
LocalAddress = "127.0.0.1";
} else {
LocalAddress = "[::1]";
}
return InternalInterface_TryBindAddress(LocalAddress, Port, Address);
}
SOCKET InternalInterface_TryOpenLocal(int Port, InternalInterfaceType Type)
{
Interfaces[Type].Socket = InternalInterface_TryBindLocal(Port, &(Interfaces[Type].Address));
return Interfaces[Type].Socket;
}
SOCKET InternalInterface_OpenTCP(const char *AddressPort, InternalInterfaceType Type, int DefaultPort)
{
sa_family_t Family = AddressList_ConvertToAddressFromString(&(Interfaces[Type].Address), AddressPort, DefaultPort);
if( Family == AF_UNSPEC )
{
return -1;
}
Interfaces[Type].Socket = socket(Family, SOCK_STREAM, IPPROTO_TCP);
if( Interfaces[Type].Socket == INVALID_SOCKET )
{
return INVALID_SOCKET;
}
if( bind(Interfaces[Type].Socket, (struct sockaddr*)&(Interfaces[Type].Address.Addr), GetAddressLength(Family)) != 0 )
{
return INVALID_SOCKET;
}
if( listen(Interfaces[Type].Socket, 16) == SOCKET_ERROR )
{
return INVALID_SOCKET;
}
return Interfaces[Type].Socket;
}
SOCKET InternalInterface_GetSocket(InternalInterfaceType Type)
{
return Interfaces[Type].Socket;
}
sa_family_t InternalInterface_GetAddress(InternalInterfaceType Type, struct sockaddr **Out)
{
if( Interfaces[Type].Socket == INVALID_SOCKET )
{
return AF_UNSPEC;
}
if( Out != NULL )
{
*Out = (struct sockaddr *)&(Interfaces[Type].Address.Addr);
}
return Interfaces[Type].Address.family;
}
Address_Type *InternalInterface_GetAddress_Union(InternalInterfaceType Type)
{
if( Interfaces[Type].Socket == INVALID_SOCKET )
{
return NULL;
}
return &(Interfaces[Type].Address);
}
int InternalInterface_SendTo(InternalInterfaceType Type, SOCKET ThisSocket, char *Content, int ContentLength)
{
struct sockaddr *Address = NULL;
sa_family_t Family;
Family = InternalInterface_GetAddress(Type, &Address);
return sendto(ThisSocket, Content, ContentLength, 0, Address, GetAddressLength(Family));
}
void InternalInterface_InitControlHeader(ControlHeader *Header)
{
Header -> _Pad = CONTROLHEADER__PAD;
}
static int QueryContextCompare(const QueryContextEntry *_1, const QueryContextEntry *_2)
{
if( _1 -> Identifier != _2 -> Identifier )
{
return (int)(_1 -> Identifier) - (int)(_2 -> Identifier);
} else {
return (_1 -> HashValue) - (int)(_2 -> HashValue);
}
}
int InternalInterface_InitQueryContext(QueryContext *Context)
{
return Bst_Init(Context, NULL, sizeof(QueryContextEntry), (int (*)(const void *, const void *))QueryContextCompare);
}
int InternalInterface_QueryContextAddUDP(QueryContext *Context, ControlHeader *Header)
{
const char *RequestingEntity = (const char *)(Header + 1);
QueryContextEntry New;
New.Identifier = *(uint16_t *)RequestingEntity;
New.HashValue = Header -> RequestingDomainHashValue;
New.TimeAdd = time(NULL);
New.NeededHeader = Header -> NeededHeader;
strcpy(New.Agent, Header -> Agent);
New.Type = Header -> RequestingType;
strcpy(New.Domain, Header -> RequestingDomain);
if( DNSGetAdditionalCount(RequestingEntity) > 0 )
{
New.EDNSEnabled = TRUE;
} else {
New.EDNSEnabled = FALSE;
}
memcpy(&(New.Context.BackAddress), &(Header -> BackAddress), sizeof(Address_Type));
return Bst_Add(Context, &New);
}
int InternalInterface_QueryContextAddTCP(QueryContext *Context, ControlHeader *Header, SOCKET Socket)
{
const char *RequestingEntity = (const char *)(Header + 1);
QueryContextEntry New;
New.Identifier = *(uint16_t *)RequestingEntity;
New.HashValue = Header -> RequestingDomainHashValue;
New.TimeAdd = time(NULL);
New.NeededHeader = Header -> NeededHeader;
strcpy(New.Agent, Header -> Agent);
New.Type = Header -> RequestingType;
strcpy(New.Domain, Header -> RequestingDomain);
if( DNSGetAdditionalCount(RequestingEntity) > 0 )
{
New.EDNSEnabled = TRUE;
} else {
New.EDNSEnabled = FALSE;
}
New.Context.Socket = Socket;
return Bst_Add(Context, &New);
}
int InternalInterface_QueryContextAddHosts(QueryContext *Context, ControlHeader *Header, uint32_t Identifier, int32_t HashValue)
{
const char *RequestingEntity = (const char *)(Header + 1);
QueryContextEntry New;
New.Identifier = Identifier;
New.HashValue = HashValue;
New.TimeAdd = time(NULL);
New.NeededHeader = Header -> NeededHeader;
strcpy(New.Agent, Header -> Agent);
if( DNSGetAdditionalCount(RequestingEntity) > 0 )
{
New.EDNSEnabled = TRUE;
} else {
New.EDNSEnabled = FALSE;
}
memcpy(&(New.Context.Hosts.BackAddress), &(Header -> BackAddress), sizeof(Address_Type));
New.Context.Hosts.Identifier = *(uint16_t *)(Header + 1);
New.Context.Hosts.HashValue = Header -> RequestingDomainHashValue;
New.Type = Header -> RequestingType;
strcpy(New.Domain, Header -> RequestingDomain);
return Bst_Add(Context, &New);
}
int32_t InternalInterface_QueryContextFind(QueryContext *Context, uint32_t Identifier, int32_t HashValue)
{
QueryContextEntry Key;
Key.Identifier = Identifier;
Key.HashValue = HashValue;
return Bst_Search(Context, &Key, NULL);
}
void InternalInterface_QueryContextRemove(QueryContext *Context, uint32_t Identifier, int32_t HashValue)
{
int32_t NodeNumber;
NodeNumber = InternalInterface_QueryContextFind(Context, Identifier, HashValue);
if( NodeNumber > 0 )
{
Bst_Delete_ByNumber(Context, NodeNumber);
}
}
BOOL InternalInterface_QueryContextSwep(QueryContext *Context, time_t TimeOut, void (*OutputFunction)(QueryContextEntry *, int))
{
int32_t Start = -1;
int Number = 1;
QueryContextEntry *Entry;
time_t Now = time(NULL);
Entry = Bst_Enum(Context, &Start);
while( Entry != NULL )
{
if( Now - Entry -> TimeAdd > TimeOut )
{
if( OutputFunction != NULL )
{
OutputFunction(Entry, Number);
}
Bst_Delete_ByNumber(Context, Start);
++Number;
}
Entry = Bst_Enum(Context, &Start);
}
return Bst_IsEmpty(Context);
}