/*++ Copyright (c) 2013 Minoca Corp. All Rights Reserved Module Name: netcore.h Abstract: This header contains internal definitions for the core networking library. Author: Evan Green 4-Apr-2013 --*/ // // ------------------------------------------------------------------- Includes // // // Redefine the API define into an export. // #define NET_API __DLLEXPORT #include // // ---------------------------------------------------------------- Definitions // // // Define the allocation tag used across the networking core library. // #define NET_CORE_ALLOCATION_TAG 0x4374654E // 'CteN' // // Define the maximum number of incoming but not accepted connections that are // allowed to accumulate in a socket. // #define NET_MAX_INCOMING_CONNECTIONS 512 #define NET_PRINT_ADDRESS_STRING_LENGTH 200 // // ------------------------------------------------------ Data Type Definitions // // // -------------------------------------------------------------------- Globals // // // Define the global debug flag, which propagates throughout the networking // subsystem. // extern BOOL NetGlobalDebug; // // Define the list of supported socket types. // extern LIST_ENTRY NetProtocolList; extern LIST_ENTRY NetNetworkList; extern LIST_ENTRY NetDataLinkList; extern PSHARED_EXCLUSIVE_LOCK NetPluginListLock; // // Define the list of raw sockets. These do not get put in the socket trees. // extern LIST_ENTRY NetRawSocketsList; extern PSHARED_EXCLUSIVE_LOCK NetRawSocketsLock; // // -------------------------------------------------------- Function Prototypes // KSTATUS NetpInitializeNetworkLayer ( VOID ); /*++ Routine Description: This routine initialize support for generic Network layer functionality. Arguments: None. Return Value: Status code. --*/ KSTATUS NetpInitializeBuffers ( VOID ); /*++ Routine Description: This routine initializes support for network buffers. Arguments: None. Return Value: Status code. --*/ VOID NetpDestroyBuffers ( VOID ); /*++ Routine Description: This routine destroys any allocations made during network buffer initialization. Arguments: None. Return Value: None. --*/ COMPARISON_RESULT NetpCompareNetworkAddresses ( PNETWORK_ADDRESS FirstAddress, PNETWORK_ADDRESS SecondAddress ); /*++ Routine Description: This routine compares two network addresses. Arguments: FirstAddress - Supplies a pointer to the left side of the comparison. SecondAddress - Supplies a pointer to the second side of the comparison. Return Value: Same if the two nodes have the same value. Ascending if the first node is less than the second node. Descending if the second node is less than the first node. --*/ COMPARISON_RESULT NetpCompareFullyBoundSockets ( PRED_BLACK_TREE Tree, PRED_BLACK_TREE_NODE FirstNode, PRED_BLACK_TREE_NODE SecondNode ); /*++ Routine Description: This routine compares two fully bound sockets, where both the local and remote addresses are fixed. Arguments: Tree - Supplies a pointer to the Red-Black tree that owns both nodes. FirstNode - Supplies a pointer to the left side of the comparison. SecondNode - Supplies a pointer to the second side of the comparison. Return Value: Same if the two nodes have the same value. Ascending if the first node is less than the second node. Descending if the second node is less than the first node. --*/ COMPARISON_RESULT NetpCompareLocallyBoundSockets ( PRED_BLACK_TREE Tree, PRED_BLACK_TREE_NODE FirstNode, PRED_BLACK_TREE_NODE SecondNode ); /*++ Routine Description: This routine compares two locally bound sockets, where the local address and port are fixed. Arguments: Tree - Supplies a pointer to the Red-Black tree that owns both nodes. FirstNode - Supplies a pointer to the left side of the comparison. SecondNode - Supplies a pointer to the second side of the comparison. Return Value: Same if the two nodes have the same value. Ascending if the first node is less than the second node. Descending if the second node is less than the first node. --*/ COMPARISON_RESULT NetpCompareUnboundSockets ( PRED_BLACK_TREE Tree, PRED_BLACK_TREE_NODE FirstNode, PRED_BLACK_TREE_NODE SecondNode ); /*++ Routine Description: This routine compares two unbound sockets, meaning only the local port number is known. Arguments: Tree - Supplies a pointer to the Red-Black tree that owns both nodes. FirstNode - Supplies a pointer to the left side of the comparison. SecondNode - Supplies a pointer to the second side of the comparison. Return Value: Same if the two nodes have the same value. Ascending if the first node is less than the second node. Descending if the second node is less than the first node. --*/ // // Prototypes to the entry points for built in protocols. // VOID NetpUdpInitialize ( VOID ); /*++ Routine Description: This routine initializes support for UDP sockets. Arguments: None. Return Value: None. --*/ VOID NetpTcpInitialize ( VOID ); /*++ Routine Description: This routine initializes support for TCP sockets. Arguments: None. Return Value: None. --*/ VOID NetpRawInitialize ( VOID ); /*++ Routine Description: This routine initializes support for raw sockets. Arguments: None. Return Value: None. --*/ VOID NetpNetlinkGenericInitialize ( ULONG Phase ); /*++ Routine Description: This routine initializes support for UDP sockets. Arguments: Phase - Supplies the phase of the initialization. Phase 0 happens before the networking core registers with the kernel, meaning sockets cannot be created. Phase 1 happens after the networking core has registered with the kernel allowing socket creation. Return Value: None. --*/ // // Prototypes to entry points for built in networks. // VOID NetpIp4Initialize ( VOID ); /*++ Routine Description: This routine initializes support for IPv4 packets. Arguments: None. Return Value: None. --*/ VOID NetpArpInitialize ( VOID ); /*++ Routine Description: This routine initializes support for ARP packets. Arguments: None. Return Value: None. --*/ VOID NetpNetlinkInitialize ( VOID ); /*++ Routine Description: This routine initializes support for netlink packets. Arguments: None. Return Value: None. --*/ // // Prototypes to entry points for built in data link layers. // VOID NetpEthernetInitialize ( VOID ); /*++ Routine Description: This routine initializes support for Ethernet frames. Arguments: None. Return Value: None. --*/ // // Prototypes to entry points for built in components. // VOID NetpDhcpInitialize ( VOID ); /*++ Routine Description: This routine initializes support for DHCP. Arguments: None. Return Value: None. --*/