// === PROTOTYPES ===
void TCP_Initialise();
void TCP_StartConnection(tTCPConnection *Conn);
+void TCP_SendPacket( tTCPConnection *Conn, size_t Length, tTCPHeader *Data );
void TCP_GetPacket(tInterface *Interface, void *Address, int Length, void *Buffer);
void TCP_INT_HandleConnectionPacket(tTCPConnection *Connection, tTCPHeader *Header);
Uint16 TCP_GetUnusedPort();
* \brief Open a connection to another host using TCP
*/
void TCP_StartConnection(tTCPConnection *Conn)
-{
+{
+ tTCPHeader hdr;
+
+ hdr.SourcePort = Conn->LocalPort;
+ hdr.DestPort = Conn->RemotePort;
+ Conn->NextSequenceSend = rand();
+ hdr.SequenceNumber = Conn->NextSequenceSend;
+ hdr.DataOffset = (sizeof(tTCPHeader)+3)/4;
+ hdr.Flags = TCP_FLAG_SYN;
+ hdr.WindowSize = 0; // TODO
+ hdr.Checksum = 0; // TODO
+ hdr.UrgentPointer = 0;
// SEND PACKET
- // Send a TCP SYN to the target to open the connection
+ TCP_SendPacket( Conn, sizeof(tTCPHeader), &hdr );
return ;
}
+/**
+ * \brief Sends a packet from the specified connection, calculating the checksums
+ * \param Conn Connection
+ * \param Length Length of data
+ * \param Data Packet data
+ */
+void TCP_SendPacket( tTCPConnection *Conn, size_t Length, tTCPHeader *Data )
+{
+ size_t buflen;
+ Uint32 *buf;
+ switch( Conn->Interface->Type )
+ {
+ case 4: // Append IPv4 Pseudo Header
+ buflen = 4 + 4 + 4 + ((Length+1)&1);
+ buf = malloc( buflen );
+ buf[0] = Conn->Interface->IP4.Address.L;
+ buf[1] = Conn->RemoteIP.v4.L;
+ buf[2] = (htons(Length)<<16) | (6<<8) | 0;
+ Data->Checksum = 0;
+ memcpy( &buf[3], Data, Length );
+ Data->Checksum = IPv4_Checksum( buf, buflen );
+ free(buf);
+ IPv4_SendPacket(Conn->Interface, Conn->RemoteIP.v4, IP4PROT_TCP, 0, buflen, buf);
+ break;
+ }
+}
+
/**
* \fn void TCP_GetPacket(tInterface *Interface, void *Address, int Length, void *Buffer)
* \brief Handles a packet from the IP Layer
tTCPHeader *hdr = Buffer;
tTCPListener *srv;
tTCPConnection *conn;
-
+
Log("[TCP ] sizeof(tTCPHeader) = %i", sizeof(tTCPHeader));
+ Log("[TCP ] SourcePort = %i", ntohs(hdr->SourcePort));
Log("[TCP ] DestPort = %i", ntohs(hdr->DestPort));
- Log("[TCP ] DestPort = %i", ntohs(hdr->DestPort));
- Log("[TCP ] SequenceNumber = %i", ntohl(hdr->SequenceNumber));
- Log("[TCP ] AcknowlegementNumber = %i", ntohl(hdr->AcknowlegementNumber));
+ Log("[TCP ] SequenceNumber = 0x%x", ntohl(hdr->SequenceNumber));
+ Log("[TCP ] AcknowlegementNumber = 0x%x", ntohl(hdr->AcknowlegementNumber));
Log("[TCP ] DataOffset = %i", hdr->DataOffset >> 4);
Log("[TCP ] Flags = {");
Log("[TCP ] CWR = %B", !!(hdr->Flags & TCP_FLAG_CWR));
Log("[TCP ] WindowSize = %i", htons(hdr->WindowSize));
Log("[TCP ] Checksum = 0x%x", htons(hdr->Checksum));
Log("[TCP ] UrgentPointer = 0x%x", htons(hdr->UrgentPointer));
-
+
// Check Servers
{
for( srv = gTCP_Listeners; srv; srv = srv->Next )
{
+ // Check if the server is active
+ if(srv->Port == 0) continue;
// Check the interface
if(srv->Interface && srv->Interface != Interface) continue;
// Check the destination port
if(srv->Port != hdr->DestPort) continue;
-
+
// Is this in an established connection?
for( conn = srv->Connections; conn; conn = conn->Next )
{
// Check that it is coming in on the same interface
if(conn->Interface != Interface) continue;
-
+
// Check Source Port
if(conn->RemotePort != hdr->SourcePort) continue;
-
+
// Check Source IP
if(conn->Interface->Type == 6 && !IP6_EQU(conn->RemoteIP.v6, *(tIPv6*)Address))
continue;
if(conn->Interface->Type == 4 && !IP4_EQU(conn->RemoteIP.v4, *(tIPv4*)Address))
continue;
-
+
// We have a response!
- TCP_INT_HandleConnectionPacket(conn, hdr)
-
+ TCP_INT_HandleConnectionPacket(conn, hdr);
+
return;
}
-
+
// Open a new connection (well, check that it's a SYN)
- //TODO
+ if(hdr->Flags != TCP_FLAG_SYN) {
+ Log("[TCP ] Packet is not a SYN");
+ continue;
+ }
+
+ conn = calloc(1, sizeof(tTCPConnection));
+ conn->State = TCP_ST_HALFOPEN;
+ conn->LocalPort = srv->Port;
+ conn->RemotePort = hdr->SourcePort;
+ conn->Interface = Interface;
+
+ switch(Interface->Type)
+ {
+ case 4: conn->RemoteIP.v4 = *(tIPv4*)Address; break;
+ case 6: conn->RemoteIP.v6 = *(tIPv6*)Address; break;
+ }
+
+ conn->NextSequenceRcv = ntohl( hdr->SequenceNumber );
+ conn->NextSequenceSend = rand();
+ // Create node
+ conn->Node.NumACLs = 1;
+ conn->Node.ACLs = &gVFS_ACL_EveryoneRW;
+ conn->Node.ImplInt = srv->NextID ++;
+ conn->Node.Read = TCP_Client_Read;
+ conn->Node.Write = TCP_Client_Write;
+ //conn->Node.Close = TCP_SrvConn_Close;
+
+ // Hmm... Theoretically, this lock will never have to wait,
+ // as the interface is locked to the watching thread, and this
+ // runs in the watching thread. But, it's a good idea to have
+ // it, just in case
+ LOCK(&srv->lConnections);
+ conn->Next = srv->Connections;
+ srv->Connections = conn;
+ RELEASE(&srv->lConnections);
+
+ // Send the SYN ACK
+ Log("[TCP ] TODO: Sending SYN ACK");
+ hdr->Flags |= TCP_FLAG_ACK;
+ hdr->AcknowlegementNumber = hdr->SequenceNumber;
+ hdr->SequenceNumber = conn->NextSequenceSend;
+ hdr->DestPort = hdr->SourcePort;
+ hdr->SourcePort = srv->Port;
+ TCP_SendPacket( conn, sizeof(tTCPHeader), hdr );
+
break;
}
}
-
-
+
+
// Check Open Connections
{
for( conn = gTCP_OutbountCons; conn; conn = conn->Next )
{
// Check that it is coming in on the same interface
if(conn->Interface != Interface) continue;
-
+
// Check Source Port
if(conn->RemotePort != hdr->SourcePort) continue;
-
+
// Check Source IP
if(conn->Interface->Type == 6 && !IP6_EQU(conn->RemoteIP.v6, *(tIPv6*)Address))
continue;
if(conn->Interface->Type == 4 && !IP4_EQU(conn->RemoteIP.v4, *(tIPv4*)Address))
continue;
-
- TCP_INT_HandleConnectionPacket(conn, hdr)
+
+ TCP_INT_HandleConnectionPacket(conn, hdr);
}
}
}
*/
void TCP_INT_HandleConnectionPacket(tTCPConnection *Connection, tTCPHeader *Header)
{
-
+
}
/**
Uint16 TCP_GetUnusedPort()
{
Uint16 ret;
-
+
// Get Next outbound port
ret = giTCP_NextOutPort++;
while( gaTCP_PortBitmap[ret/32] & (1 << (ret%32)) )
ret = giTCP_NextOutPort = TCP_MIN_DYNPORT;
}
}
-
+
// Mark the new port as used
gaTCP_PortBitmap[ret/32] |= 1 << (ret%32);
-
+
return ret;
}
// Check if the port has already been allocated
if( gaTCP_PortBitmap[Port/32] & (1 << (Port%32)) )
return 0;
-
+
// Allocate
gaTCP_PortBitmap[Port/32] |= 1 << (Port%32);
-
+
return 1;
}
// Check if the port has already been allocated
if( !(gaTCP_PortBitmap[Port/32] & (1 << (Port%32))) )
return 0;
-
+
// Allocate
gaTCP_PortBitmap[Port/32] &= ~(1 << (Port%32));
-
+
return 1;
}
tVFS_Node *TCP_Server_Init(tInterface *Interface)
{
tTCPListener *srv = malloc( sizeof(tTCPListener) );
-
+
srv->Interface = Interface;
srv->Port = 0;
+ srv->NextID = 0;
srv->Connections = NULL;
srv->Next = NULL;
srv->Node.ImplPtr = srv;
srv->Node.FindDir = TCP_Server_FindDir;
srv->Node.IOCtl = TCP_Server_IOCtl;
srv->Node.Close = TCP_Server_Close;
-
+
LOCK(&glTCP_Listeners);
srv->Next = gTCP_Listeners;
gTCP_Listeners = srv;
RELEASE(&glTCP_Listeners);
-
+
return &srv->Node;
}
+/**
+ * \brief Wait for a new connection and return the connection ID
+ * \note Blocks until a new connection is made
+ * \param Node Server node
+ * \param Pos Position (ignored)
+ */
char *TCP_Server_ReadDir(tVFS_Node *Node, int Pos)
{
- return NULL;
+ tTCPListener *srv = Node->ImplPtr;
+ tTCPConnection *conn;
+ char *ret;
+
+ while( srv->NewConnections == NULL ) Threads_Yield();
+
+ conn = srv->NewConnections;
+ srv->NewConnections = conn->Next;
+
+ ret = malloc(9);
+ itoa(ret, Node->ImplInt, 16, '0', 8);
+ return ret;
}
+/**
+ * \brief Gets a client connection node
+ * \param Node Server node
+ * \param Name Hexadecimal ID of the node
+ */
tVFS_Node *TCP_Server_FindDir(tVFS_Node *Node, char *Name)
{
return NULL;
int TCP_Server_IOCtl(tVFS_Node *Node, int ID, void *Data)
{
tTCPListener *srv = Node->ImplPtr;
-
+
switch(ID)
{
case 4: // Get/Set Port
- if(!Data)
+ if(!Data) // Get Port
return srv->Port;
-
- if(srv->Port)
+
+ if(srv->Port) // Wait, you can't CHANGE the port
return -1;
-
- if(!CheckMem(Data, sizeof(Uint16)))
+
+ if(!CheckMem(Data, sizeof(Uint16))) // Sanity check
return -1;
-
- if(Threads_GetUID() != 0 && *(Uint16*)Data < 1024)
+
+ // Permissions check
+ if(Threads_GetUID() != 0
+ && *(Uint16*)Data != 0
+ && *(Uint16*)Data < 1024)
return -1;
-
+
+ // TODO: Check if a port is in use
+
+ // Set Port
srv->Port = *(Uint16*)Data;
- if(srv->Port == 0)
+ if(srv->Port == 0) // Allocate a random port
srv->Port = TCP_GetUnusedPort();
- else
+ else // Else, mark this as used
TCP_AllocatePort(srv->Port);
return srv->Port;
}
tVFS_Node *TCP_Client_Init(tInterface *Interface)
{
tTCPConnection *conn = malloc( sizeof(tTCPConnection) );
-
+
conn->State = TCP_ST_CLOSED;
conn->Interface = Interface;
conn->LocalPort = 0;
conn->RemotePort = 0;
memset( &conn->RemoteIP, 0, sizeof(conn->RemoteIP) );
-
+
conn->Node.ImplPtr = conn;
conn->Node.NumACLs = 1;
conn->Node.ACLs = &gVFS_ACL_EveryoneRW;
conn->Node.Write = TCP_Client_Write;
conn->Node.IOCtl = TCP_Client_IOCtl;
conn->Node.Close = TCP_Client_Close;
-
+
LOCK(&glTCP_OutbountCons);
conn->Next = gTCP_OutbountCons;
gTCP_OutbountCons = conn;
RELEASE(&glTCP_OutbountCons);
-
+
return &conn->Node;
}
return 0;
}
+/**
+ * \brief Control a client socket
+ */
int TCP_Client_IOCtl(tVFS_Node *Node, int ID, void *Data)
{
tTCPConnection *conn = Node->ImplPtr;
-
+
switch(ID)
{
case 4: // Get/Set local port
return -1;
if(!CheckMem(Data, sizeof(Uint16)))
return -1;
-
+
if(Threads_GetUID() != 0 && *(Uint16*)Data < 1024)
return -1;
-
+
conn->LocalPort = *(Uint16*)Data;
return 0;
-
+
case 5: // Get/Set remote port
if(!Data) return conn->RemotePort;
if(conn->State != TCP_ST_CLOSED) return -1;
if(!CheckMem(Data, sizeof(Uint16))) return -1;
conn->RemotePort = *(Uint16*)Data;
return 0;
-
+
case 6: // Set Remote IP
if( conn->State != TCP_ST_CLOSED )
return -1;
conn->RemoteIP.v6 = *(tIPv6*)Data;
}
return 0;
-
+
case 7: // Connect
if(conn->LocalPort == -1)
conn->LocalPort = TCP_GetUnusedPort();
if(conn->RemotePort == -1)
return 0;
-
+
TCP_StartConnection(conn);
return 1;
}
-
+
return 0;
}