MdeModulePkg/Include/Library/NetLib.h - edk2 - Git at Google

 /** @file

 Copyright (c) 2005 - 2007, Intel Corporation
 All rights reserved. This program and the accompanying materials
 are licensed and made available under the terms and conditions of the BSD License
 which accompanies this distribution.  The full text of the license may be found at
 http://opensource.org/licenses/bsd-license.php

 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.

 Module Name:

   NetLib.h

 Abstract:

   Library for the UEFI network stack.


 **/

 #ifndef _NET_LIB_H_
 #define _NET_LIB_H_

 #include <PiDxe.h>
 #include <Library/BaseMemoryLib.h>
 #include <Library/MemoryAllocationLib.h>
 #include <Protocol/DriverBinding.h>
 #include <Protocol/ComponentName.h>
 #include <Protocol/DriverConfiguration.h>
 #include <Protocol/DriverDiagnostics.h>
 #include <Protocol/Dpc.h>

 #define EFI_NET_LITTLE_ENDIAN

 typedef UINT32          IP4_ADDR;
 typedef UINT32          TCP_SEQNO;
 typedef UINT16          TCP_PORTNO;

 enum {
   NET_ETHER_ADDR_LEN    = 6,
   NET_IFTYPE_ETHERNET   = 0x01,

   EFI_IP_PROTO_UDP      = 0x11,
   EFI_IP_PROTO_TCP      = 0x06,
   EFI_IP_PROTO_ICMP     = 0x01,

   //
   // The address classfication
   //
   IP4_ADDR_CLASSA       = 1,
   IP4_ADDR_CLASSB,
   IP4_ADDR_CLASSC,
   IP4_ADDR_CLASSD,
   IP4_ADDR_CLASSE,

   IP4_MASK_NUM          = 33,
 };

 #pragma pack(1)

 //
 // Ethernet head definition
 //
 typedef struct {
   UINT8                 DstMac [NET_ETHER_ADDR_LEN];
   UINT8                 SrcMac [NET_ETHER_ADDR_LEN];
   UINT16                EtherType;
 } ETHER_HEAD;


 //
 // The EFI_IP4_HEADER is hard to use because the source and
 // destination address are defined as EFI_IPv4_ADDRESS, which
 // is a structure. Two structures can't be compared or masked
 // directly. This is why there is an internal representation.
 //
 typedef struct {
 #ifdef EFI_NET_LITTLE_ENDIAN
   UINT8                 HeadLen : 4;
   UINT8                 Ver     : 4;
 #else
   UINT8                 Ver     : 4;
   UINT8                 HeadLen : 4;
 #endif
   UINT8                 Tos;
   UINT16                TotalLen;
   UINT16                Id;
   UINT16                Fragment;
   UINT8                 Ttl;
   UINT8                 Protocol;
   UINT16                Checksum;
   IP4_ADDR              Src;
   IP4_ADDR              Dst;
 } IP4_HEAD;


 //
 // ICMP head definition. ICMP message is categoried as either an error
 // message or query message. Two message types have their own head format.
 //
 typedef struct {
   UINT8                 Type;
   UINT8                 Code;
   UINT16                Checksum;
 } IP4_ICMP_HEAD;

 typedef struct {
   IP4_ICMP_HEAD         Head;
   UINT32                Fourth; // 4th filed of the head, it depends on Type.
   IP4_HEAD              IpHead;
 } IP4_ICMP_ERROR_HEAD;

 typedef struct {
   IP4_ICMP_HEAD         Head;
   UINT16                Id;
   UINT16                Seq;
 } IP4_ICMP_QUERY_HEAD;


 //
 // UDP header definition
 //
 typedef struct {
   UINT16                SrcPort;
   UINT16                DstPort;
   UINT16                Length;
   UINT16                Checksum;
 } EFI_UDP4_HEADER;


 //
 // TCP header definition
 //
 typedef struct {
   TCP_PORTNO            SrcPort;
   TCP_PORTNO            DstPort;
   TCP_SEQNO             Seq;
   TCP_SEQNO             Ack;
 #ifdef EFI_NET_LITTLE_ENDIAN
   UINT8                 Res     : 4;
   UINT8                 HeadLen : 4;
 #else
   UINT8                 HeadLen : 4;
   UINT8                 Res     : 4;
 #endif
   UINT8                 Flag;
   UINT16                Wnd;
   UINT16                Checksum;
   UINT16                Urg;
 } TCP_HEAD;

 #pragma pack()

 #define NET_MAC_EQUAL(pMac1, pMac2, Len)     \
     (NetCompareMem ((pMac1), (pMac2), Len) == 0)

 #define NET_MAC_IS_MULTICAST(Mac, BMac, Len) \
     (((*((UINT8 *) Mac) & 0x01) == 0x01) && (!NET_MAC_EQUAL (Mac, BMac, Len)))

 #ifdef EFI_NET_LITTLE_ENDIAN
 #define NTOHL(x) (UINT32)((((UINT32) (x) & 0xff)     << 24) | \
                           (((UINT32) (x) & 0xff00)   << 8)  | \
                           (((UINT32) (x) & 0xff0000) >> 8)  | \
                           (((UINT32) (x) & 0xff000000) >> 24))

 #define HTONL(x)  NTOHL(x)

 #define NTOHS(x)  (UINT16)((((UINT16) (x) & 0xff) << 8) | \
                            (((UINT16) (x) & 0xff00) >> 8))

 #define HTONS(x)  NTOHS(x)
 #else
 #define NTOHL(x)  (UINT32)(x)
 #define HTONL(x)  (UINT32)(x)
 #define NTOHS(x)  (UINT16)(x)
 #define HTONS(x)  (UINT16)(x)
 #endif

 //
 // Test the IP's attribute, All the IPs are in host byte order.
 //
 #define IP4_IS_MULTICAST(Ip)              (((Ip) & 0xF0000000) == 0xE0000000)
 #define IP4_IS_LOCAL_BROADCAST(Ip)        ((Ip) == 0xFFFFFFFF)
 #define IP4_NET_EQUAL(Ip1, Ip2, NetMask)  (((Ip1) & (NetMask)) == ((Ip2) & (NetMask)))
 #define IP4_IS_VALID_NETMASK(Ip)          (NetGetMaskLength (Ip) != IP4_MASK_NUM)

 //
 // Convert the EFI_IP4_ADDRESS to plain UINT32 IP4 address.
 //
 #define EFI_IP4(EfiIpAddr)       (*(IP4_ADDR *) ((EfiIpAddr).Addr))
 #define EFI_NTOHL(EfiIp)         (NTOHL (EFI_IP4 ((EfiIp))))
 #define EFI_IP4_EQUAL(Ip1, Ip2)  (NetCompareMem ((Ip1), (Ip2), sizeof (EFI_IPv4_ADDRESS)) == 0)

 INTN
 NetGetMaskLength (
   IN IP4_ADDR               Mask
   );

 INTN
 NetGetIpClass (
   IN IP4_ADDR               Addr
   );

 BOOLEAN
 Ip4IsUnicast (
   IN IP4_ADDR               Ip,
   IN IP4_ADDR               NetMask
   );

 extern IP4_ADDR mIp4AllMasks [IP4_MASK_NUM];


 extern EFI_IPv4_ADDRESS  mZeroIp4Addr;

 #define NET_IS_DIGIT(Ch)            (('0' <= (Ch)) && ((Ch) <= '9'))
 #define NET_ROUNDUP(size, unit)     (((size) + (unit) - 1) & (~((unit) - 1)))
 #define NET_IS_LOWER_CASE_CHAR(Ch)  (('a' <= (Ch)) && ((Ch) <= 'z'))
 #define NET_IS_UPPER_CASE_CHAR(Ch)  (('A' <= (Ch)) && ((Ch) <= 'Z'))

 //
 // Wrap functions to ease the impact of EFI library changes.
 //
 #define NetAllocateZeroPool     AllocateZeroPool
 #define NetAllocatePool         AllocatePool
 #define NetFreePool             gBS->FreePool
 #define NetCopyMem              CopyMem
 #define NetSetMem               SetMem
 #define NetZeroMem(Dest, Len)   SetMem ((Dest), (Len), 0)
 #define NetCompareMem           CompareMem

 //
 // Lock primitives: the stack implements its lock primitives according
 // to the standard EFI enviornment. It will NOT consider multiprocessor.
 //
 #define NET_TPL_LOCK            TPL_CALLBACK
 #define NET_TPL_EVENT           TPL_NOTIFY
 #define NET_TPL_RECYCLE         TPL_NOTIFY
 #define NET_TPL_TIMER           NET_TPL_LOCK

 #define NET_LOCK                 EFI_LOCK
 #define NET_LOCK_INIT(x)         EfiInitializeLock (x, NET_TPL_LOCK)
 #define NET_RECYCLE_LOCK_INIT(x) EfiInitializeLock (x, NET_TPL_RECYCLE)
 #define NET_TRYLOCK(x)           EfiAcquireLockOrFail (x)
 #define NET_UNLOCK(x)            EfiReleaseLock (x)

 #define NET_RAISE_TPL(x)        (gBS->RaiseTPL (x))
 #define NET_RESTORE_TPL(x)      (gBS->RestoreTPL (x))

 #define TICKS_PER_MS            10000U
 #define TICKS_PER_SECOND        10000000U

 #define NET_RANDOM(Seed)        ((UINT32) ((UINT32) (Seed) * 1103515245UL + 12345) % 4294967295UL)


 UINT32
 NetGetUint32 (
   IN UINT8                  *Buf
   );

 VOID
 NetPutUint32 (
   IN UINT8                  *Buf,
   IN UINT32                 Data
   );

 UINT32
 NetRandomInitSeed (
   VOID
   );


 //
 // Double linked list entry functions, this extends the
 // EFI list functions.
 //
 typedef LIST_ENTRY      NET_LIST_ENTRY;

 #define NetListInit(Head)              InitializeListHead(Head)
 #define NetListInsertHead(Head, Entry) InsertHeadList((Head), (Entry))
 #define NetListInsertTail(Head, Entry) InsertTailList((Head), (Entry))
 #define NetListIsEmpty(List)           IsListEmpty(List)

 #define NET_LIST_USER_STRUCT(Entry, Type, Field)        \
           _CR(Entry, Type, Field)

 #define NET_LIST_USER_STRUCT_S(Entry, Type, Field, Sig)  \
           CR(Entry, Type, Field, Sig)

 //
 // Iterate through the doule linked list. It is NOT delete safe
 //
 #define NET_LIST_FOR_EACH(Entry, ListHead) \
   for(Entry = (ListHead)->ForwardLink; Entry != (ListHead); Entry = Entry->ForwardLink)

 //
 // Iterate through the doule linked list. This is delete-safe.
 // Don't touch NextEntry. Also, don't use this macro if list
 // entries other than the Entry may be deleted when processing
 // the current Entry.
 //
 #define NET_LIST_FOR_EACH_SAFE(Entry, NextEntry, ListHead) \
   for(Entry = (ListHead)->ForwardLink, NextEntry = Entry->ForwardLink; \
       Entry != (ListHead); \
       Entry = NextEntry, NextEntry = Entry->ForwardLink \
      )

 //
 // Make sure the list isn't empty before get the frist/last record.
 //
 #define NET_LIST_HEAD(ListHead, Type, Field)  \
           NET_LIST_USER_STRUCT((ListHead)->ForwardLink, Type, Field)

 #define NET_LIST_TAIL(ListHead, Type, Field)  \
           NET_LIST_USER_STRUCT((ListHead)->BackLink, Type, Field)

 #define NetListRemoveEntry(Entry) RemoveEntryList (Entry)

 NET_LIST_ENTRY*
 NetListRemoveHead (
   NET_LIST_ENTRY            *Head
   );

 NET_LIST_ENTRY*
 NetListRemoveTail (
   NET_LIST_ENTRY            *Head
   );

 VOID
 NetListInsertAfter (
   IN NET_LIST_ENTRY         *PrevEntry,
   IN NET_LIST_ENTRY         *NewEntry
   );

 VOID
 NetListInsertBefore (
   IN NET_LIST_ENTRY         *PostEntry,
   IN NET_LIST_ENTRY         *NewEntry
   );


 //
 // Object container: EFI network stack spec defines various kinds of
 // tokens. The drivers can share code to manage those objects.
 //
 typedef struct {
   NET_LIST_ENTRY            Link;
   VOID                      *Key;
   VOID                      *Value;
 } NET_MAP_ITEM;

 typedef struct {
   NET_LIST_ENTRY            Used;
   NET_LIST_ENTRY            Recycled;
   UINTN                     Count;
 } NET_MAP;

 #define NET_MAP_INCREAMENT  64

 VOID
 NetMapInit (
   IN NET_MAP                *Map
   );

 VOID
 NetMapClean (
   IN NET_MAP                *Map
   );

 BOOLEAN
 NetMapIsEmpty (
   IN NET_MAP                *Map
   );

 UINTN
 NetMapGetCount (
   IN NET_MAP                *Map
   );

 EFI_STATUS
 NetMapInsertHead (
   IN NET_MAP                *Map,
   IN VOID                   *Key,
   IN VOID                   *Value    OPTIONAL
   );

 EFI_STATUS
 NetMapInsertTail (
   IN NET_MAP                *Map,
   IN VOID                   *Key,
   IN VOID                   *Value    OPTIONAL
   );

 NET_MAP_ITEM  *
 NetMapFindKey (
   IN  NET_MAP               *Map,
   IN  VOID                  *Key
   );

 VOID *
 NetMapRemoveItem (
   IN  NET_MAP               *Map,
   IN  NET_MAP_ITEM          *Item,
   OUT VOID                  **Value   OPTIONAL
   );

 VOID *
 NetMapRemoveHead (
   IN  NET_MAP               *Map,
   OUT VOID                  **Value   OPTIONAL
   );

 VOID *
 NetMapRemoveTail (
   IN  NET_MAP               *Map,
   OUT VOID                  **Value OPTIONAL
   );

 typedef
 EFI_STATUS
 (*NET_MAP_CALLBACK) (
   IN NET_MAP                *Map,
   IN NET_MAP_ITEM           *Item,
   IN VOID                   *Arg
   );

 EFI_STATUS
 NetMapIterate (
   IN NET_MAP                *Map,
   IN NET_MAP_CALLBACK       CallBack,
   IN VOID                   *Arg      OPTIONAL
   );


 //
 // Helper functions to implement driver binding and service binding protocols.
 //
 EFI_STATUS
 NetLibCreateServiceChild (
   IN  EFI_HANDLE            ControllerHandle,
   IN  EFI_HANDLE            ImageHandle,
   IN  EFI_GUID              *ServiceBindingGuid,
   OUT EFI_HANDLE            *ChildHandle
   );

 EFI_STATUS
 NetLibDestroyServiceChild (
   IN  EFI_HANDLE            ControllerHandle,
   IN  EFI_HANDLE            ImageHandle,
   IN  EFI_GUID              *ServiceBindingGuid,
   IN  EFI_HANDLE            ChildHandle
   );

 EFI_STATUS
 NetLibGetMacString (
   IN           EFI_HANDLE  SnpHandle,
   IN           EFI_HANDLE  ImageHandle,
   IN OUT       CHAR16      **MacString
   );

 VOID
 NetLibCreateIPv4DPathNode (
   IN OUT IPv4_DEVICE_PATH  *Node,
   IN EFI_HANDLE            Controller,
   IN IP4_ADDR              LocalIp,
   IN UINT16                LocalPort,
   IN IP4_ADDR              RemoteIp,
   IN UINT16                RemotePort,
   IN UINT16                Protocol,
   IN BOOLEAN               UseDefaultAddress
   );

 EFI_HANDLE
 NetLibGetNicHandle (
   IN EFI_HANDLE             Controller,
   IN EFI_GUID               *ProtocolGuid
   );

 EFI_STATUS
 NetLibQueueDpc (
   IN EFI_TPL            DpcTpl,
   IN EFI_DPC_PROCEDURE  DpcProcedure,
   IN VOID               *DpcContext    OPTIONAL
   );

 EFI_STATUS
 NetLibDispatchDpc (
   VOID
   );

 EFI_STATUS
 EFIAPI
 NetLibDefaultUnload (
   IN EFI_HANDLE             ImageHandle
   );

 enum {
   //
   //Various signatures
   //
   NET_BUF_SIGNATURE    = EFI_SIGNATURE_32 ('n', 'b', 'u', 'f'),
   NET_VECTOR_SIGNATURE = EFI_SIGNATURE_32 ('n', 'v', 'e', 'c'),
   NET_QUE_SIGNATURE    = EFI_SIGNATURE_32 ('n', 'b', 'q', 'u'),


   NET_PROTO_DATA       = 64,   // Opaque buffer for protocols
   NET_BUF_HEAD         = 1,    // Trim or allocate space from head
   NET_BUF_TAIL         = 0,    // Trim or allocate space from tail
   NET_VECTOR_OWN_FIRST = 0x01, // We allocated the 1st block in the vector
 };

 #define NET_CHECK_SIGNATURE(PData, SIGNATURE) \
   ASSERT (((PData) != NULL) && ((PData)->Signature == (SIGNATURE)))

 #define NET_SWAP_SHORT(Value) \
   ((((Value) & 0xff) << 8) | (((Value) >> 8) & 0xff))

 //
 // Single memory block in the vector.
 //
 typedef struct {
   UINT32              Len;        // The block's length
   UINT8               *Bulk;      // The block's Data
 } NET_BLOCK;

 typedef VOID (*NET_VECTOR_EXT_FREE) (VOID *Arg);

 //
 //NET_VECTOR contains several blocks to hold all packet's
 //fragments and other house-keeping stuff for sharing. It
 //doesn't specify the where actual packet fragment begins.
 //
 typedef struct {
   UINT32              Signature;
   INTN                RefCnt;  // Reference count to share NET_VECTOR.
   NET_VECTOR_EXT_FREE Free;    // external function to free NET_VECTOR
   VOID                *Arg;    // opeque argument to Free
   UINT32              Flag;    // Flags, NET_VECTOR_OWN_FIRST
   UINT32              Len;     // Total length of the assocated BLOCKs

   UINT32              BlockNum;
   NET_BLOCK           Block[1];
 } NET_VECTOR;

 //
 //NET_BLOCK_OP operate on the NET_BLOCK, It specifies
 //where the actual fragment begins and where it ends
 //
 typedef struct {
   UINT8               *BlockHead;   // Block's head, or the smallest valid Head
   UINT8               *BlockTail;   // Block's tail. BlockTail-BlockHead=block length
   UINT8               *Head;        // 1st byte of the data in the block
   UINT8               *Tail;        // Tail of the data in the block, Tail-Head=Size
   UINT32              Size;         // The size of the data
 } NET_BLOCK_OP;


 //
 //NET_BUF is the buffer manage structure used by the
 //network stack. Every network packet may be fragmented,
 //and contains multiple fragments. The Vector points to
 //memory blocks used by the each fragment, and BlockOp
 //specifies where each fragment begins and ends.
 //
 //It also contains a opaque area for protocol to store
 //per-packet informations. Protocol must be caution not
 //to overwrite the members after that.
 //
 typedef struct {
   UINT32              Signature;
   INTN                RefCnt;
   NET_LIST_ENTRY      List;       // The List this NET_BUF is on

   IP4_HEAD            *Ip;        // Network layer header, for fast access
   TCP_HEAD            *Tcp;       // Transport layer header, for fast access
   UINT8               ProtoData [NET_PROTO_DATA]; //Protocol specific data

   NET_VECTOR          *Vector;    // The vector containing the packet

   UINT32              BlockOpNum; // Total number of BlockOp in the buffer
   UINT32              TotalSize;  // Total size of the actual packet
   NET_BLOCK_OP        BlockOp[1]; // Specify the position of actual packet
 } NET_BUF;


 //
 //A queue of NET_BUFs, It is just a thin extension of
 //NET_BUF functions.
 //
 typedef struct {
   UINT32              Signature;
   INTN                RefCnt;
   NET_LIST_ENTRY      List;       // The List this buffer queue is on

   NET_LIST_ENTRY      BufList;    // list of queued buffers
   UINT32              BufSize;    // total length of DATA in the buffers
   UINT32              BufNum;     // total number of buffers on the chain
 } NET_BUF_QUEUE;

 //
 // Pseudo header for TCP and UDP checksum
 //
 #pragma pack(1)
 typedef struct {
   IP4_ADDR            SrcIp;
   IP4_ADDR            DstIp;
   UINT8               Reserved;
   UINT8               Protocol;
   UINT16              Len;
 } NET_PSEUDO_HDR;
 #pragma pack()

 //
 // The fragment entry table used in network interfaces. This is
 // the same as NET_BLOCK now. Use two different to distinguish
 // the two in case that NET_BLOCK be enhanced later.
 //
 typedef struct {
   UINT32              Len;
   UINT8               *Bulk;
 } NET_FRAGMENT;

 #define NET_GET_REF(PData)      ((PData)->RefCnt++)
 #define NET_PUT_REF(PData)      ((PData)->RefCnt--)
 #define NETBUF_FROM_PROTODATA(Info) _CR((Info), NET_BUF, ProtoData)

 #define NET_BUF_SHARED(Buf) \
   (((Buf)->RefCnt > 1) || ((Buf)->Vector->RefCnt > 1))

 #define NET_VECTOR_SIZE(BlockNum) \
   (sizeof (NET_VECTOR) + ((BlockNum) - 1) * sizeof (NET_BLOCK))

 #define NET_BUF_SIZE(BlockOpNum)  \
   (sizeof (NET_BUF) + ((BlockOpNum) - 1) * sizeof (NET_BLOCK_OP))

 #define NET_HEADSPACE(BlockOp)  \
   (UINTN)((BlockOp)->Head - (BlockOp)->BlockHead)

 #define NET_TAILSPACE(BlockOp)  \
   (UINTN)((BlockOp)->BlockTail - (BlockOp)->Tail)

 NET_BUF  *
 NetbufAlloc (
   IN UINT32                 Len
   );

 VOID
 NetbufFree (
   IN NET_BUF                *Nbuf
   );


 UINT8  *
 NetbufGetByte (
   IN  NET_BUF               *Nbuf,
   IN  UINT32                Offset,
   OUT UINT32                *Index      OPTIONAL
   );

 NET_BUF  *
 NetbufClone (
   IN NET_BUF                *Nbuf
   );

 NET_BUF  *
 NetbufDuplicate (
   IN NET_BUF                *Nbuf,
   IN NET_BUF                *Duplicate    OPTIONAL,
   IN UINT32                 HeadSpace
   );

 NET_BUF  *
 NetbufGetFragment (
   IN NET_BUF                *Nbuf,
   IN UINT32                 Offset,
   IN UINT32                 Len,
   IN UINT32                 HeadSpace
   );

 VOID
 NetbufReserve (
   IN NET_BUF                *Nbuf,
   IN UINT32                 Len
   );

 UINT8  *
 NetbufAllocSpace (
   IN NET_BUF                *Nbuf,
   IN UINT32                 Len,
   IN BOOLEAN                FromHead
   );

 UINT32
 NetbufTrim (
   IN NET_BUF                *Nbuf,
   IN UINT32                 Len,
   IN BOOLEAN                FromHead
   );

 UINT32
 NetbufCopy (
   IN NET_BUF                *Nbuf,
   IN UINT32                 Offset,
   IN UINT32                 Len,
   IN UINT8                  *Dest
   );

 NET_BUF  *
 NetbufFromExt (
   IN NET_FRAGMENT           *ExtFragment,
   IN UINT32                 ExtNum,
   IN UINT32                 HeadSpace,
   IN UINT32                 HeadLen,
   IN NET_VECTOR_EXT_FREE    ExtFree,
   IN VOID                   *Arg          OPTIONAL
   );

 EFI_STATUS
 NetbufBuildExt (
   IN NET_BUF                *Nbuf,
   IN NET_FRAGMENT           *ExtFragment,
   IN UINT32                 *ExtNum
   );

 NET_BUF  *
 NetbufFromBufList (
   IN NET_LIST_ENTRY         *BufList,
   IN UINT32                 HeadSpace,
   IN UINT32                 HeaderLen,
   IN NET_VECTOR_EXT_FREE    ExtFree,
   IN VOID                   *Arg                OPTIONAL
   );

 VOID
 NetbufFreeList (
   IN NET_LIST_ENTRY         *Head
   );

 VOID
 NetbufQueInit (
   IN NET_BUF_QUEUE          *NbufQue
   );

 NET_BUF_QUEUE  *
 NetbufQueAlloc (
   VOID
   );

 VOID
 NetbufQueFree (
   IN NET_BUF_QUEUE          *NbufQue
   );

 NET_BUF  *
 NetbufQueRemove (
   IN NET_BUF_QUEUE          *NbufQue
   );

 VOID
 NetbufQueAppend (
   IN NET_BUF_QUEUE          *NbufQue,
   IN NET_BUF                *Nbuf
   );

 UINT32
 NetbufQueCopy (
   IN NET_BUF_QUEUE          *NbufQue,
   IN UINT32                 Offset,
   IN UINT32                 Len,
   IN UINT8                  *Dest
   );

 UINT32
 NetbufQueTrim (
   IN NET_BUF_QUEUE          *NbufQue,
   IN UINT32                 Len
   );

 VOID
 NetbufQueFlush (
   IN NET_BUF_QUEUE          *NbufQue
   );

 UINT16
 NetblockChecksum (
   IN UINT8                  *Bulk,
   IN UINT32                 Len
   );

 UINT16
 NetAddChecksum (
   IN UINT16                 Checksum1,
   IN UINT16                 Checksum2
   );

 UINT16
 NetbufChecksum (
   IN NET_BUF                *Nbuf
   );

 UINT16
 NetPseudoHeadChecksum (
   IN IP4_ADDR               Src,
   IN IP4_ADDR               Dst,
   IN UINT8                  Proto,
   IN UINT16                 Len
   );

 //
 // The debug level definition. This value is also used as the
 // syslog's servity level. Don't change it.
 //
 enum {
   NETDEBUG_LEVEL_TRACE   = 5,
   NETDEBUG_LEVEL_WARNING = 4,
   NETDEBUG_LEVEL_ERROR   = 3,
 };

 #ifdef EFI_NETWORK_STACK_DEBUG

 //
 // The debug output expects the ASCII format string, Use %a to print ASCII
 // string, and %s to print UNICODE string. PrintArg must be enclosed in ().
 // For example: NET_DEBUG_TRACE ("Tcp", ("State transit to %a\n", Name));
 //
 #define NET_DEBUG_TRACE(Module, PrintArg) \
   NetDebugOutput ( \
     NETDEBUG_LEVEL_TRACE, \
     Module, \
     __FILE__, \
     __LINE__, \
     NetDebugASPrint PrintArg \
     )

 #define NET_DEBUG_WARNING(Module, PrintArg) \
   NetDebugOutput ( \
     NETDEBUG_LEVEL_WARNING, \
     Module, \
     __FILE__, \
     __LINE__, \
     NetDebugASPrint PrintArg \
     )

 #define NET_DEBUG_ERROR(Module, PrintArg) \
   NetDebugOutput ( \
     NETDEBUG_LEVEL_ERROR, \
     Module, \
     __FILE__, \
     __LINE__, \
     NetDebugASPrint PrintArg \
     )

 #else
 #define NET_DEBUG_TRACE(Module, PrintString)
 #define NET_DEBUG_WARNING(Module, PrintString)
 #define NET_DEBUG_ERROR(Module, PrintString)
 #endif

 UINT8 *
 NetDebugASPrint (
   UINT8                     *Format,
   ...
   );

 EFI_STATUS
 NetDebugOutput (
   UINT32                    Level,
   UINT8                     *Module,
   UINT8                     *File,
   UINT32                    Line,
   UINT8                     *Message
   );

 //
 // Network debug message is sent out as syslog.
 //
 enum {
   NET_SYSLOG_FACILITY       = 16,             // Syslog local facility local use
   NET_SYSLOG_PACKET_LEN     = 512,
   NET_DEBUG_MSG_LEN         = 470,            // 512 - (ether+ip+udp head length)
   NET_SYSLOG_TX_TIMEOUT     = 500 *1000 *10,  // 500ms
 };
 #endif
	/** @file

	Copyright (c) 2005 - 2007, Intel Corporation
	All rights reserved. This program and the accompanying materials
	are licensed and made available under the terms and conditions of the BSD License
	which accompanies this distribution. The full text of the license may be found at
	http://opensource.org/licenses/bsd-license.php

	THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
	WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.

	Module Name:

	NetLib.h

	Abstract:

	Library for the UEFI network stack.


	**/

	#ifndef _NET_LIB_H_
	#define _NET_LIB_H_

	#include <PiDxe.h>
	#include <Library/BaseMemoryLib.h>
	#include <Library/MemoryAllocationLib.h>
	#include <Protocol/DriverBinding.h>
	#include <Protocol/ComponentName.h>
	#include <Protocol/DriverConfiguration.h>
	#include <Protocol/DriverDiagnostics.h>
	#include <Protocol/Dpc.h>

	#define EFI_NET_LITTLE_ENDIAN

	typedef UINT32 IP4_ADDR;
	typedef UINT32 TCP_SEQNO;
	typedef UINT16 TCP_PORTNO;

	enum {
	NET_ETHER_ADDR_LEN = 6,
	NET_IFTYPE_ETHERNET = 0x01,

	EFI_IP_PROTO_UDP = 0x11,
	EFI_IP_PROTO_TCP = 0x06,
	EFI_IP_PROTO_ICMP = 0x01,

	//
	// The address classfication
	//
	IP4_ADDR_CLASSA = 1,
	IP4_ADDR_CLASSB,
	IP4_ADDR_CLASSC,
	IP4_ADDR_CLASSD,
	IP4_ADDR_CLASSE,

	IP4_MASK_NUM = 33,
	};

	#pragma pack(1)

	//
	// Ethernet head definition
	//
	typedef struct {
	UINT8 DstMac [NET_ETHER_ADDR_LEN];
	UINT8 SrcMac [NET_ETHER_ADDR_LEN];
	UINT16 EtherType;
	} ETHER_HEAD;


	//
	// The EFI_IP4_HEADER is hard to use because the source and
	// destination address are defined as EFI_IPv4_ADDRESS, which
	// is a structure. Two structures can't be compared or masked
	// directly. This is why there is an internal representation.
	//
	typedef struct {
	#ifdef EFI_NET_LITTLE_ENDIAN
	UINT8 HeadLen : 4;
	UINT8 Ver : 4;
	#else
	UINT8 Ver : 4;
	UINT8 HeadLen : 4;
	#endif
	UINT8 Tos;
	UINT16 TotalLen;
	UINT16 Id;
	UINT16 Fragment;
	UINT8 Ttl;
	UINT8 Protocol;
	UINT16 Checksum;
	IP4_ADDR Src;
	IP4_ADDR Dst;
	} IP4_HEAD;


	//
	// ICMP head definition. ICMP message is categoried as either an error
	// message or query message. Two message types have their own head format.
	//
	typedef struct {
	UINT8 Type;
	UINT8 Code;
	UINT16 Checksum;
	} IP4_ICMP_HEAD;

	typedef struct {
	IP4_ICMP_HEAD Head;
	UINT32 Fourth; // 4th filed of the head, it depends on Type.
	IP4_HEAD IpHead;
	} IP4_ICMP_ERROR_HEAD;

	typedef struct {
	IP4_ICMP_HEAD Head;
	UINT16 Id;
	UINT16 Seq;
	} IP4_ICMP_QUERY_HEAD;


	//
	// UDP header definition
	//
	typedef struct {
	UINT16 SrcPort;
	UINT16 DstPort;
	UINT16 Length;
	UINT16 Checksum;
	} EFI_UDP4_HEADER;


	//
	// TCP header definition
	//
	typedef struct {
	TCP_PORTNO SrcPort;
	TCP_PORTNO DstPort;
	TCP_SEQNO Seq;
	TCP_SEQNO Ack;
	#ifdef EFI_NET_LITTLE_ENDIAN
	UINT8 Res : 4;
	UINT8 HeadLen : 4;
	#else
	UINT8 HeadLen : 4;
	UINT8 Res : 4;
	#endif
	UINT8 Flag;
	UINT16 Wnd;
	UINT16 Checksum;
	UINT16 Urg;
	} TCP_HEAD;

	#pragma pack()

	#define NET_MAC_EQUAL(pMac1, pMac2, Len) \
	(NetCompareMem ((pMac1), (pMac2), Len) == 0)

	#define NET_MAC_IS_MULTICAST(Mac, BMac, Len) \
	(((((UINT8 ) Mac) & 0x01) == 0x01) && (!NET_MAC_EQUAL (Mac, BMac, Len)))

	#ifdef EFI_NET_LITTLE_ENDIAN
	#define NTOHL(x) (UINT32)((((UINT32) (x) & 0xff) << 24) \| \
	(((UINT32) (x) & 0xff00) << 8) \| \
	(((UINT32) (x) & 0xff0000) >> 8) \| \
	(((UINT32) (x) & 0xff000000) >> 24))

	#define HTONL(x) NTOHL(x)

	#define NTOHS(x) (UINT16)((((UINT16) (x) & 0xff) << 8) \| \
	(((UINT16) (x) & 0xff00) >> 8))

	#define HTONS(x) NTOHS(x)
	#else
	#define NTOHL(x) (UINT32)(x)
	#define HTONL(x) (UINT32)(x)
	#define NTOHS(x) (UINT16)(x)
	#define HTONS(x) (UINT16)(x)
	#endif

	//
	// Test the IP's attribute, All the IPs are in host byte order.
	//
	#define IP4_IS_MULTICAST(Ip) (((Ip) & 0xF0000000) == 0xE0000000)
	#define IP4_IS_LOCAL_BROADCAST(Ip) ((Ip) == 0xFFFFFFFF)
	#define IP4_NET_EQUAL(Ip1, Ip2, NetMask) (((Ip1) & (NetMask)) == ((Ip2) & (NetMask)))
	#define IP4_IS_VALID_NETMASK(Ip) (NetGetMaskLength (Ip) != IP4_MASK_NUM)

	//
	// Convert the EFI_IP4_ADDRESS to plain UINT32 IP4 address.
	//
	#define EFI_IP4(EfiIpAddr) ((IP4_ADDR ) ((EfiIpAddr).Addr))
	#define EFI_NTOHL(EfiIp) (NTOHL (EFI_IP4 ((EfiIp))))
	#define EFI_IP4_EQUAL(Ip1, Ip2) (NetCompareMem ((Ip1), (Ip2), sizeof (EFI_IPv4_ADDRESS)) == 0)

	INTN
	NetGetMaskLength (
	IN IP4_ADDR Mask
	);

	INTN
	NetGetIpClass (
	IN IP4_ADDR Addr
	);

	BOOLEAN
	Ip4IsUnicast (
	IN IP4_ADDR Ip,
	IN IP4_ADDR NetMask
	);

	extern IP4_ADDR mIp4AllMasks [IP4_MASK_NUM];


	extern EFI_IPv4_ADDRESS mZeroIp4Addr;

	#define NET_IS_DIGIT(Ch) (('0' <= (Ch)) && ((Ch) <= '9'))
	#define NET_ROUNDUP(size, unit) (((size) + (unit) - 1) & (~((unit) - 1)))
	#define NET_IS_LOWER_CASE_CHAR(Ch) (('a' <= (Ch)) && ((Ch) <= 'z'))
	#define NET_IS_UPPER_CASE_CHAR(Ch) (('A' <= (Ch)) && ((Ch) <= 'Z'))

	//
	// Wrap functions to ease the impact of EFI library changes.
	//
	#define NetAllocateZeroPool AllocateZeroPool
	#define NetAllocatePool AllocatePool
	#define NetFreePool gBS->FreePool
	#define NetCopyMem CopyMem
	#define NetSetMem SetMem
	#define NetZeroMem(Dest, Len) SetMem ((Dest), (Len), 0)
	#define NetCompareMem CompareMem

	//
	// Lock primitives: the stack implements its lock primitives according
	// to the standard EFI enviornment. It will NOT consider multiprocessor.
	//
	#define NET_TPL_LOCK TPL_CALLBACK
	#define NET_TPL_EVENT TPL_NOTIFY
	#define NET_TPL_RECYCLE TPL_NOTIFY
	#define NET_TPL_TIMER NET_TPL_LOCK

	#define NET_LOCK EFI_LOCK
	#define NET_LOCK_INIT(x) EfiInitializeLock (x, NET_TPL_LOCK)
	#define NET_RECYCLE_LOCK_INIT(x) EfiInitializeLock (x, NET_TPL_RECYCLE)
	#define NET_TRYLOCK(x) EfiAcquireLockOrFail (x)
	#define NET_UNLOCK(x) EfiReleaseLock (x)

	#define NET_RAISE_TPL(x) (gBS->RaiseTPL (x))
	#define NET_RESTORE_TPL(x) (gBS->RestoreTPL (x))

	#define TICKS_PER_MS 10000U
	#define TICKS_PER_SECOND 10000000U

	#define NET_RANDOM(Seed) ((UINT32) ((UINT32) (Seed) * 1103515245UL + 12345) % 4294967295UL)


	UINT32
	NetGetUint32 (
	IN UINT8 *Buf
	);

	VOID
	NetPutUint32 (
	IN UINT8 *Buf,
	IN UINT32 Data
	);

	UINT32
	NetRandomInitSeed (
	VOID
	);


	//
	// Double linked list entry functions, this extends the
	// EFI list functions.
	//
	typedef LIST_ENTRY NET_LIST_ENTRY;

	#define NetListInit(Head) InitializeListHead(Head)
	#define NetListInsertHead(Head, Entry) InsertHeadList((Head), (Entry))
	#define NetListInsertTail(Head, Entry) InsertTailList((Head), (Entry))
	#define NetListIsEmpty(List) IsListEmpty(List)

	#define NET_LIST_USER_STRUCT(Entry, Type, Field) \
	_CR(Entry, Type, Field)

	#define NET_LIST_USER_STRUCT_S(Entry, Type, Field, Sig) \
	CR(Entry, Type, Field, Sig)

	//
	// Iterate through the doule linked list. It is NOT delete safe
	//
	#define NET_LIST_FOR_EACH(Entry, ListHead) \
	for(Entry = (ListHead)->ForwardLink; Entry != (ListHead); Entry = Entry->ForwardLink)

	//
	// Iterate through the doule linked list. This is delete-safe.
	// Don't touch NextEntry. Also, don't use this macro if list
	// entries other than the Entry may be deleted when processing
	// the current Entry.
	//
	#define NET_LIST_FOR_EACH_SAFE(Entry, NextEntry, ListHead) \
	for(Entry = (ListHead)->ForwardLink, NextEntry = Entry->ForwardLink; \
	Entry != (ListHead); \
	Entry = NextEntry, NextEntry = Entry->ForwardLink \
	)

	//
	// Make sure the list isn't empty before get the frist/last record.
	//
	#define NET_LIST_HEAD(ListHead, Type, Field) \
	NET_LIST_USER_STRUCT((ListHead)->ForwardLink, Type, Field)

	#define NET_LIST_TAIL(ListHead, Type, Field) \
	NET_LIST_USER_STRUCT((ListHead)->BackLink, Type, Field)

	#define NetListRemoveEntry(Entry) RemoveEntryList (Entry)

	NET_LIST_ENTRY*
	NetListRemoveHead (
	NET_LIST_ENTRY *Head
	);

	NET_LIST_ENTRY*
	NetListRemoveTail (
	NET_LIST_ENTRY *Head
	);

	VOID
	NetListInsertAfter (
	IN NET_LIST_ENTRY *PrevEntry,
	IN NET_LIST_ENTRY *NewEntry
	);

	VOID
	NetListInsertBefore (
	IN NET_LIST_ENTRY *PostEntry,
	IN NET_LIST_ENTRY *NewEntry
	);


	//
	// Object container: EFI network stack spec defines various kinds of
	// tokens. The drivers can share code to manage those objects.
	//
	typedef struct {
	NET_LIST_ENTRY Link;
	VOID *Key;
	VOID *Value;
	} NET_MAP_ITEM;

	typedef struct {
	NET_LIST_ENTRY Used;
	NET_LIST_ENTRY Recycled;
	UINTN Count;
	} NET_MAP;

	#define NET_MAP_INCREAMENT 64

	VOID
	NetMapInit (
	IN NET_MAP *Map
	);

	VOID
	NetMapClean (
	IN NET_MAP *Map
	);

	BOOLEAN
	NetMapIsEmpty (
	IN NET_MAP *Map
	);

	UINTN
	NetMapGetCount (
	IN NET_MAP *Map
	);

	EFI_STATUS
	NetMapInsertHead (
	IN NET_MAP *Map,
	IN VOID *Key,
	IN VOID *Value OPTIONAL
	);

	EFI_STATUS
	NetMapInsertTail (
	IN NET_MAP *Map,
	IN VOID *Key,
	IN VOID *Value OPTIONAL
	);

	NET_MAP_ITEM *
	NetMapFindKey (
	IN NET_MAP *Map,
	IN VOID *Key
	);

	VOID *
	NetMapRemoveItem (
	IN NET_MAP *Map,
	IN NET_MAP_ITEM *Item,
	OUT VOID **Value OPTIONAL
	);

	VOID *
	NetMapRemoveHead (
	IN NET_MAP *Map,
	OUT VOID **Value OPTIONAL
	);

	VOID *
	NetMapRemoveTail (
	IN NET_MAP *Map,
	OUT VOID **Value OPTIONAL
	);

	typedef
	EFI_STATUS
	(*NET_MAP_CALLBACK) (
	IN NET_MAP *Map,
	IN NET_MAP_ITEM *Item,
	IN VOID *Arg
	);

	EFI_STATUS
	NetMapIterate (
	IN NET_MAP *Map,
	IN NET_MAP_CALLBACK CallBack,
	IN VOID *Arg OPTIONAL
	);


	//
	// Helper functions to implement driver binding and service binding protocols.
	//
	EFI_STATUS
	NetLibCreateServiceChild (
	IN EFI_HANDLE ControllerHandle,
	IN EFI_HANDLE ImageHandle,
	IN EFI_GUID *ServiceBindingGuid,
	OUT EFI_HANDLE *ChildHandle
	);

	EFI_STATUS
	NetLibDestroyServiceChild (
	IN EFI_HANDLE ControllerHandle,
	IN EFI_HANDLE ImageHandle,
	IN EFI_GUID *ServiceBindingGuid,
	IN EFI_HANDLE ChildHandle
	);

	EFI_STATUS
	NetLibGetMacString (
	IN EFI_HANDLE SnpHandle,
	IN EFI_HANDLE ImageHandle,
	IN OUT CHAR16 **MacString
	);

	VOID
	NetLibCreateIPv4DPathNode (
	IN OUT IPv4_DEVICE_PATH *Node,
	IN EFI_HANDLE Controller,
	IN IP4_ADDR LocalIp,
	IN UINT16 LocalPort,
	IN IP4_ADDR RemoteIp,
	IN UINT16 RemotePort,
	IN UINT16 Protocol,
	IN BOOLEAN UseDefaultAddress
	);

	EFI_HANDLE
	NetLibGetNicHandle (
	IN EFI_HANDLE Controller,
	IN EFI_GUID *ProtocolGuid
	);

	EFI_STATUS
	NetLibQueueDpc (
	IN EFI_TPL DpcTpl,
	IN EFI_DPC_PROCEDURE DpcProcedure,
	IN VOID *DpcContext OPTIONAL
	);

	EFI_STATUS
	NetLibDispatchDpc (
	VOID
	);

	EFI_STATUS
	EFIAPI
	NetLibDefaultUnload (
	IN EFI_HANDLE ImageHandle
	);

	enum {
	//
	//Various signatures
	//
	NET_BUF_SIGNATURE = EFI_SIGNATURE_32 ('n', 'b', 'u', 'f'),
	NET_VECTOR_SIGNATURE = EFI_SIGNATURE_32 ('n', 'v', 'e', 'c'),
	NET_QUE_SIGNATURE = EFI_SIGNATURE_32 ('n', 'b', 'q', 'u'),


	NET_PROTO_DATA = 64, // Opaque buffer for protocols
	NET_BUF_HEAD = 1, // Trim or allocate space from head
	NET_BUF_TAIL = 0, // Trim or allocate space from tail
	NET_VECTOR_OWN_FIRST = 0x01, // We allocated the 1st block in the vector
	};

	#define NET_CHECK_SIGNATURE(PData, SIGNATURE) \
	ASSERT (((PData) != NULL) && ((PData)->Signature == (SIGNATURE)))

	#define NET_SWAP_SHORT(Value) \
	((((Value) & 0xff) << 8) \| (((Value) >> 8) & 0xff))

	//
	// Single memory block in the vector.
	//
	typedef struct {
	UINT32 Len; // The block's length
	UINT8 *Bulk; // The block's Data
	} NET_BLOCK;

	typedef VOID (NET_VECTOR_EXT_FREE) (VOID Arg);

	//
	//NET_VECTOR contains several blocks to hold all packet's
	//fragments and other house-keeping stuff for sharing. It
	//doesn't specify the where actual packet fragment begins.
	//
	typedef struct {
	UINT32 Signature;
	INTN RefCnt; // Reference count to share NET_VECTOR.
	NET_VECTOR_EXT_FREE Free; // external function to free NET_VECTOR
	VOID *Arg; // opeque argument to Free
	UINT32 Flag; // Flags, NET_VECTOR_OWN_FIRST
	UINT32 Len; // Total length of the assocated BLOCKs

	UINT32 BlockNum;
	NET_BLOCK Block[1];
	} NET_VECTOR;

	//
	//NET_BLOCK_OP operate on the NET_BLOCK, It specifies
	//where the actual fragment begins and where it ends
	//
	typedef struct {
	UINT8 *BlockHead; // Block's head, or the smallest valid Head
	UINT8 *BlockTail; // Block's tail. BlockTail-BlockHead=block length
	UINT8 *Head; // 1st byte of the data in the block
	UINT8 *Tail; // Tail of the data in the block, Tail-Head=Size
	UINT32 Size; // The size of the data
	} NET_BLOCK_OP;


	//
	//NET_BUF is the buffer manage structure used by the
	//network stack. Every network packet may be fragmented,
	//and contains multiple fragments. The Vector points to
	//memory blocks used by the each fragment, and BlockOp
	//specifies where each fragment begins and ends.
	//
	//It also contains a opaque area for protocol to store
	//per-packet informations. Protocol must be caution not
	//to overwrite the members after that.
	//
	typedef struct {
	UINT32 Signature;
	INTN RefCnt;
	NET_LIST_ENTRY List; // The List this NET_BUF is on

	IP4_HEAD *Ip; // Network layer header, for fast access
	TCP_HEAD *Tcp; // Transport layer header, for fast access
	UINT8 ProtoData [NET_PROTO_DATA]; //Protocol specific data

	NET_VECTOR *Vector; // The vector containing the packet

	UINT32 BlockOpNum; // Total number of BlockOp in the buffer
	UINT32 TotalSize; // Total size of the actual packet
	NET_BLOCK_OP BlockOp[1]; // Specify the position of actual packet
	} NET_BUF;


	//
	//A queue of NET_BUFs, It is just a thin extension of
	//NET_BUF functions.
	//
	typedef struct {
	UINT32 Signature;
	INTN RefCnt;
	NET_LIST_ENTRY List; // The List this buffer queue is on

	NET_LIST_ENTRY BufList; // list of queued buffers
	UINT32 BufSize; // total length of DATA in the buffers
	UINT32 BufNum; // total number of buffers on the chain
	} NET_BUF_QUEUE;

	//
	// Pseudo header for TCP and UDP checksum
	//
	#pragma pack(1)
	typedef struct {
	IP4_ADDR SrcIp;
	IP4_ADDR DstIp;
	UINT8 Reserved;
	UINT8 Protocol;
	UINT16 Len;
	} NET_PSEUDO_HDR;
	#pragma pack()

	//
	// The fragment entry table used in network interfaces. This is
	// the same as NET_BLOCK now. Use two different to distinguish
	// the two in case that NET_BLOCK be enhanced later.
	//
	typedef struct {
	UINT32 Len;
	UINT8 *Bulk;
	} NET_FRAGMENT;

	#define NET_GET_REF(PData) ((PData)->RefCnt++)
	#define NET_PUT_REF(PData) ((PData)->RefCnt--)
	#define NETBUF_FROM_PROTODATA(Info) _CR((Info), NET_BUF, ProtoData)

	#define NET_BUF_SHARED(Buf) \
	(((Buf)->RefCnt > 1) \|\| ((Buf)->Vector->RefCnt > 1))

	#define NET_VECTOR_SIZE(BlockNum) \
	(sizeof (NET_VECTOR) + ((BlockNum) - 1) * sizeof (NET_BLOCK))

	#define NET_BUF_SIZE(BlockOpNum) \
	(sizeof (NET_BUF) + ((BlockOpNum) - 1) * sizeof (NET_BLOCK_OP))

	#define NET_HEADSPACE(BlockOp) \
	(UINTN)((BlockOp)->Head - (BlockOp)->BlockHead)

	#define NET_TAILSPACE(BlockOp) \
	(UINTN)((BlockOp)->BlockTail - (BlockOp)->Tail)

	NET_BUF *
	NetbufAlloc (
	IN UINT32 Len
	);

	VOID
	NetbufFree (
	IN NET_BUF *Nbuf
	);


	UINT8 *
	NetbufGetByte (
	IN NET_BUF *Nbuf,
	IN UINT32 Offset,
	OUT UINT32 *Index OPTIONAL
	);

	NET_BUF *
	NetbufClone (
	IN NET_BUF *Nbuf
	);

	NET_BUF *
	NetbufDuplicate (
	IN NET_BUF *Nbuf,
	IN NET_BUF *Duplicate OPTIONAL,
	IN UINT32 HeadSpace
	);

	NET_BUF *
	NetbufGetFragment (
	IN NET_BUF *Nbuf,
	IN UINT32 Offset,
	IN UINT32 Len,
	IN UINT32 HeadSpace
	);

	VOID
	NetbufReserve (
	IN NET_BUF *Nbuf,
	IN UINT32 Len
	);

	UINT8 *
	NetbufAllocSpace (
	IN NET_BUF *Nbuf,
	IN UINT32 Len,
	IN BOOLEAN FromHead
	);

	UINT32
	NetbufTrim (
	IN NET_BUF *Nbuf,
	IN UINT32 Len,
	IN BOOLEAN FromHead
	);

	UINT32
	NetbufCopy (
	IN NET_BUF *Nbuf,
	IN UINT32 Offset,
	IN UINT32 Len,
	IN UINT8 *Dest
	);

	NET_BUF *
	NetbufFromExt (
	IN NET_FRAGMENT *ExtFragment,
	IN UINT32 ExtNum,
	IN UINT32 HeadSpace,
	IN UINT32 HeadLen,
	IN NET_VECTOR_EXT_FREE ExtFree,
	IN VOID *Arg OPTIONAL
	);

	EFI_STATUS
	NetbufBuildExt (
	IN NET_BUF *Nbuf,
	IN NET_FRAGMENT *ExtFragment,
	IN UINT32 *ExtNum
	);

	NET_BUF *
	NetbufFromBufList (
	IN NET_LIST_ENTRY *BufList,
	IN UINT32 HeadSpace,
	IN UINT32 HeaderLen,
	IN NET_VECTOR_EXT_FREE ExtFree,
	IN VOID *Arg OPTIONAL
	);

	VOID
	NetbufFreeList (
	IN NET_LIST_ENTRY *Head
	);

	VOID
	NetbufQueInit (
	IN NET_BUF_QUEUE *NbufQue
	);

	NET_BUF_QUEUE *
	NetbufQueAlloc (
	VOID
	);

	VOID
	NetbufQueFree (
	IN NET_BUF_QUEUE *NbufQue
	);

	NET_BUF *
	NetbufQueRemove (
	IN NET_BUF_QUEUE *NbufQue
	);

	VOID
	NetbufQueAppend (
	IN NET_BUF_QUEUE *NbufQue,
	IN NET_BUF *Nbuf
	);

	UINT32
	NetbufQueCopy (
	IN NET_BUF_QUEUE *NbufQue,
	IN UINT32 Offset,
	IN UINT32 Len,
	IN UINT8 *Dest
	);

	UINT32
	NetbufQueTrim (
	IN NET_BUF_QUEUE *NbufQue,
	IN UINT32 Len
	);

	VOID
	NetbufQueFlush (
	IN NET_BUF_QUEUE *NbufQue
	);

	UINT16
	NetblockChecksum (
	IN UINT8 *Bulk,
	IN UINT32 Len
	);

	UINT16
	NetAddChecksum (
	IN UINT16 Checksum1,
	IN UINT16 Checksum2
	);

	UINT16
	NetbufChecksum (
	IN NET_BUF *Nbuf
	);

	UINT16
	NetPseudoHeadChecksum (
	IN IP4_ADDR Src,
	IN IP4_ADDR Dst,
	IN UINT8 Proto,
	IN UINT16 Len
	);

	//
	// The debug level definition. This value is also used as the
	// syslog's servity level. Don't change it.
	//
	enum {
	NETDEBUG_LEVEL_TRACE = 5,
	NETDEBUG_LEVEL_WARNING = 4,
	NETDEBUG_LEVEL_ERROR = 3,
	};

	#ifdef EFI_NETWORK_STACK_DEBUG

	//
	// The debug output expects the ASCII format string, Use %a to print ASCII
	// string, and %s to print UNICODE string. PrintArg must be enclosed in ().
	// For example: NET_DEBUG_TRACE ("Tcp", ("State transit to %a\n", Name));
	//
	#define NET_DEBUG_TRACE(Module, PrintArg) \
	NetDebugOutput ( \
	NETDEBUG_LEVEL_TRACE, \
	Module, \
	__FILE__, \
	__LINE__, \
	NetDebugASPrint PrintArg \
	)

	#define NET_DEBUG_WARNING(Module, PrintArg) \
	NetDebugOutput ( \
	NETDEBUG_LEVEL_WARNING, \
	Module, \
	__FILE__, \
	__LINE__, \
	NetDebugASPrint PrintArg \
	)

	#define NET_DEBUG_ERROR(Module, PrintArg) \
	NetDebugOutput ( \
	NETDEBUG_LEVEL_ERROR, \
	Module, \
	__FILE__, \
	__LINE__, \
	NetDebugASPrint PrintArg \
	)

	#else
	#define NET_DEBUG_TRACE(Module, PrintString)
	#define NET_DEBUG_WARNING(Module, PrintString)
	#define NET_DEBUG_ERROR(Module, PrintString)
	#endif

	UINT8 *
	NetDebugASPrint (
	UINT8 *Format,
	...
	);

	EFI_STATUS
	NetDebugOutput (
	UINT32 Level,
	UINT8 *Module,
	UINT8 *File,
	UINT32 Line,
	UINT8 *Message
	);

	//
	// Network debug message is sent out as syslog.
	//
	enum {
	NET_SYSLOG_FACILITY = 16, // Syslog local facility local use
	NET_SYSLOG_PACKET_LEN = 512,
	NET_DEBUG_MSG_LEN = 470, // 512 - (ether+ip+udp head length)
	NET_SYSLOG_TX_TIMEOUT = 500 1000 10, // 500ms
	};
	#endif