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1 /** @file
2   Definitions for the Socket layer driver.
3 
4   Copyright (c) 2011, Intel Corporation
5   All rights reserved. This program and the accompanying materials
6   are licensed and made available under the terms and conditions of the BSD License
7   which accompanies this distribution.  The full text of the license may be found at
8   http://opensource.org/licenses/bsd-license
9 
10   THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
11   WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
12 
13 **/
14 #ifndef _SOCKET_H_
15 #define _SOCKET_H_
16 
17 #include <Efi/EfiSocketLib.h>
18 
19 //------------------------------------------------------------------------------
20 //  Constants
21 //------------------------------------------------------------------------------
22 
23 #define DEBUG_SOCKET        0x20000000  ///<  Display Socket related messages
24 #define DEBUG_BIND          0x10000000  ///<  Display bind related messages
25 #define DEBUG_LISTEN        0x08000000  ///<  Display listen related messages
26 #define DEBUG_CONNECTION    0x04000000  ///<  Display connection list related messages
27 #define DEBUG_POLL          0x02000000  ///<  Display poll messages
28 #define DEBUG_ACCEPT        0x01000000  ///<  Display accept related messages
29 #define DEBUG_RX            0x00800000  ///<  Display receive messages
30 #define DEBUG_TX            0x00400000  ///<  Display transmit messages
31 #define DEBUG_CLOSE         0x00200000  ///<  Display close messages
32 #define DEBUG_CONNECT       0x00100000  ///<  Display connect messages
33 #define DEBUG_OPTION        0x00080000  ///<  Display option messages
34 
35 #define MAX_PENDING_CONNECTIONS     1   ///<  Maximum connection FIFO depth
36 #define MAX_RX_DATA         0x01000000  ///<  Maximum receive data size
37 #define MAX_TX_DATA         ( MAX_RX_DATA * 2 ) ///<  Maximum buffered transmit data in bytes
38 #define RX_PACKET_DATA      0x00100000  ///<  Maximum number of bytes in a RX packet
39 #define MAX_UDP_RETRANSMIT  16          ///<  UDP retransmit attempts to handle address not mapped
40 
41 #define ESL_STRUCTURE_ALIGNMENT_BYTES   15  ///<  Number of bytes for structure alignment
42 #define ESL_STRUCTURE_ALIGNMENT_MASK    ( ~ESL_STRUCTURE_ALIGNMENT_BYTES )  ///<  Mask to align structures
43 
44 #define LAYER_SIGNATURE           SIGNATURE_32 ('S','k','t','L')  ///<  ESL_LAYER memory signature
45 #define SERVICE_SIGNATURE         SIGNATURE_32 ('S','k','t','S')  ///<  ESL_SERVICE memory signature
46 #define SOCKET_SIGNATURE          SIGNATURE_32 ('S','c','k','t')  ///<  ESL_SOCKET memory signature
47 #define PORT_SIGNATURE            SIGNATURE_32 ('P','o','r','t')  ///<  ESL_PORT memory signature
48 
49 
50 /**
51   Socket states
52 **/
53 typedef enum
54 {
55   SOCKET_STATE_NOT_CONFIGURED = 0,  ///<  socket call was successful
56   SOCKET_STATE_BOUND,               ///<  bind call was successful
57   SOCKET_STATE_LISTENING,           ///<  listen call was successful
58   SOCKET_STATE_NO_PORTS,            ///<  No ports available
59   SOCKET_STATE_IN_FIFO,             ///<  Socket on FIFO
60   SOCKET_STATE_CONNECTING,          ///<  Connecting to a remote system
61   SOCKET_STATE_CONNECTED,           ///<  Accept or connect call was successful
62 
63   //
64   //  Close state must be the last in the list
65   //
66   SOCKET_STATE_CLOSED               ///<  Close call was successful
67 } SOCKET_STATE;
68 
69 
70 /**
71   Port states
72 **/
73 typedef enum
74 {
75   PORT_STATE_ALLOCATED = 0, ///<  Port allocated
76   PORT_STATE_OPEN,          ///<  Port opened
77   PORT_STATE_RX_ERROR,      ///<  Receive error detected
78 
79   //
80   //  Close state must be last in the list!
81   //
82   //  Using < <= > >= in tests code to detect port close state
83   //  machine has started
84   //
85   PORT_STATE_CLOSE_STARTED, ///<  Close started on port
86   PORT_STATE_CLOSE_TX_DONE, ///<  Transmits shutdown
87   PORT_STATE_CLOSE_DONE,    ///<  Port close operation complete
88   PORT_STATE_CLOSE_RX_DONE  ///<  Receives shutdown
89 } PORT_STATE;
90 
91 //------------------------------------------------------------------------------
92 //  Data Types
93 //------------------------------------------------------------------------------
94 
95 typedef struct _ESL_IO_MGMT ESL_IO_MGMT;///<  Forward declaration
96 typedef struct _ESL_PACKET ESL_PACKET;  ///<  Forward declaration
97 typedef struct _ESL_PORT ESL_PORT;      ///<  Forward declaration
98 typedef struct _ESL_SOCKET ESL_SOCKET;  ///<  Forward declaration
99 
100 /**
101   Receive context for SOCK_RAW sockets using IPv4.
102 **/
103 typedef struct
104 {
105   EFI_IP4_RECEIVE_DATA * pRxData;       ///<  Receive operation description
106 } ESL_IP4_RX_DATA;
107 
108 
109 /**
110   Transmit context for SOCK_RAW sockets using IPv4.
111 **/
112 typedef struct
113 {
114   EFI_IP4_OVERRIDE_DATA Override;       ///<  Override data
115   EFI_IP4_TRANSMIT_DATA TxData;         ///<  Transmit operation description
116   UINT8 Buffer[ 1 ];                    ///<  Data buffer
117 } ESL_IP4_TX_DATA;
118 
119 
120 /**
121   Receive context for SOCK_STREAM and SOCK_SEQPACKET sockets using TCPv4.
122 **/
123 typedef struct
124 {
125   EFI_TCP4_RECEIVE_DATA RxData;         ///<  Receive operation description
126   UINT8 Buffer[ RX_PACKET_DATA ];       ///<  Data buffer
127 } ESL_TCP4_RX_DATA;
128 
129 
130 /**
131   Transmit context for SOCK_STREAM and SOCK_SEQPACKET sockets using TCPv4.
132 **/
133 typedef struct
134 {
135   EFI_TCP4_TRANSMIT_DATA TxData;        ///<  Transmit operation description
136   UINT8 Buffer[ 1 ];                    ///<  Data buffer
137 } ESL_TCP4_TX_DATA;
138 
139 
140 /**
141   Receive context for SOCK_STREAM and SOCK_SEQPACKET sockets using TCPv6.
142 **/
143 typedef struct
144 {
145   EFI_TCP6_RECEIVE_DATA RxData;         ///<  Receive operation description
146   UINT8 Buffer[ RX_PACKET_DATA ];       ///<  Data buffer
147 } ESL_TCP6_RX_DATA;
148 
149 
150 /**
151   Transmit context for SOCK_STREAM and SOCK_SEQPACKET sockets using TCPv6.
152 **/
153 typedef struct
154 {
155   EFI_TCP6_TRANSMIT_DATA TxData;        ///<  Transmit operation description
156   UINT8 Buffer[ 1 ];                    ///<  Data buffer
157 } ESL_TCP6_TX_DATA;
158 
159 
160 /**
161   Receive context for SOCK_DGRAM sockets using UDPv4.
162 **/
163 typedef struct
164 {
165   EFI_UDP4_SESSION_DATA Session;        ///<  Remote network address
166   EFI_UDP4_RECEIVE_DATA * pRxData;      ///<  Receive operation description
167 } ESL_UDP4_RX_DATA;
168 
169 
170 /**
171   Transmit context for SOCK_DGRAM sockets using UDPv4.
172 **/
173 typedef struct
174 {
175   EFI_UDP4_SESSION_DATA Session;        ///<  Remote network address
176   EFI_UDP4_TRANSMIT_DATA TxData;        ///<  Transmit operation description
177   UINTN RetransmitCount;                ///<  Retransmit to handle ARP negotiation
178   UINT8 Buffer[ 1 ];                    ///<  Data buffer
179 } ESL_UDP4_TX_DATA;
180 
181 
182 /**
183   Receive context for SOCK_DGRAM sockets using UDPv6.
184 **/
185 typedef struct
186 {
187   EFI_UDP6_SESSION_DATA Session;        ///<  Remote network address
188   EFI_UDP6_RECEIVE_DATA * pRxData;      ///<  Receive operation description
189 } ESL_UDP6_RX_DATA;
190 
191 
192 /**
193   Transmit context for SOCK_DGRAM sockets using UDPv6.
194 **/
195 typedef struct
196 {
197   EFI_UDP6_SESSION_DATA Session;        ///<  Remote network address
198   EFI_UDP6_TRANSMIT_DATA TxData;        ///<  Transmit operation description
199   UINTN RetransmitCount;                ///<  Retransmit to handle ARP negotiation
200   UINT8 Buffer[ 1 ];                    ///<  Data buffer
201 } ESL_UDP6_TX_DATA;
202 
203 
204 /**
205   Network specific context for transmit and receive packets.
206 **/
207 typedef struct _ESL_PACKET {
208   ESL_PACKET * pNext;                   ///<  Next packet in the receive list
209   size_t PacketSize;                    ///<  Size of this data structure
210   size_t ValidBytes;                    ///<  Length of valid data in bytes
211   UINT8 * pBuffer;                      ///<  Current data pointer
212   union {
213     ESL_IP4_RX_DATA Ip4Rx;              ///<  Receive operation description
214     ESL_IP4_TX_DATA Ip4Tx;              ///<  Transmit operation description
215     ESL_TCP4_RX_DATA Tcp4Rx;            ///<  Receive operation description
216     ESL_TCP4_TX_DATA Tcp4Tx;            ///<  Transmit operation description
217     ESL_TCP6_RX_DATA Tcp6Rx;            ///<  Receive operation description
218     ESL_TCP6_TX_DATA Tcp6Tx;            ///<  Transmit operation description
219     ESL_UDP4_RX_DATA Udp4Rx;            ///<  Receive operation description
220     ESL_UDP4_TX_DATA Udp4Tx;            ///<  Transmit operation description
221     ESL_UDP6_RX_DATA Udp6Rx;            ///<  Receive operation description
222     ESL_UDP6_TX_DATA Udp6Tx;            ///<  Transmit operation description
223   } Op;                                 ///<  Network specific context
224 } GCC_ESL_PACKET;
225 
226 /**
227   Service control structure
228 
229   The driver uses this structure to manage the network devices.
230 **/
231 typedef struct _ESL_SERVICE {
232   UINTN Signature;          ///<  Structure identification
233 
234   //
235   //  Links
236   //
237   ESL_SERVICE * pNext;      ///<  Next service in the service list
238 
239   //
240   //  Service data
241   //
242   CONST ESL_SOCKET_BINDING * pSocketBinding;      ///<  Name and shutdown routine
243   EFI_HANDLE Controller;                          ///<  Controller for the service
244   EFI_SERVICE_BINDING_PROTOCOL * pServiceBinding; ///<  Network layer service binding interface
245 
246   //
247   //  Network data
248   //
249   ESL_PORT * pPortList;     ///<  List of ports using this service
250 }GCC_ESL_SERVICE;
251 
252 /**
253   IO management structure
254 
255   This structure manages a single operation with the network.
256 **/
257 typedef struct _ESL_IO_MGMT {
258   ESL_IO_MGMT * pNext;                ///<  Next TX management structure
259   ESL_PORT * pPort;                   ///<  Port structure address
260   ESL_PACKET * pPacket;               ///<  Packet structure address
261   union {
262     EFI_IP4_COMPLETION_TOKEN Ip4Rx;   ///<  IP4 receive token
263     EFI_IP4_COMPLETION_TOKEN Ip4Tx;   ///<  IP4 transmit token
264     EFI_TCP4_IO_TOKEN Tcp4Rx;         ///<  TCP4 receive token
265     EFI_TCP4_IO_TOKEN Tcp4Tx;         ///<  TCP4 transmit token
266     EFI_TCP6_IO_TOKEN Tcp6Rx;         ///<  TCP6 receive token
267     EFI_TCP6_IO_TOKEN Tcp6Tx;         ///<  TCP6 transmit token
268     EFI_UDP4_COMPLETION_TOKEN Udp4Rx; ///<  UDP4 receive token
269     EFI_UDP4_COMPLETION_TOKEN Udp4Tx; ///<  UDP4 transmit token
270     EFI_UDP6_COMPLETION_TOKEN Udp6Rx; ///<  UDP6 receive token
271     EFI_UDP6_COMPLETION_TOKEN Udp6Tx; ///<  UDP6 transmit token
272   } Token;                            ///<  Completion token for the network operation
273 } GCC_IO_MGMT;
274 
275 /**
276   IP4 context structure
277 
278   The driver uses this structure to manage the IP4 connections.
279 **/
280 typedef struct {
281   //
282   //  IP4 context
283   //
284   EFI_IP4_MODE_DATA ModeData;           ///<  IP4 mode data, includes configuration data
285   EFI_IPv4_ADDRESS DestinationAddress;  ///<  Default destination address
286 } ESL_IP4_CONTEXT;
287 
288 
289 /**
290   TCP4 context structure
291 
292   The driver uses this structure to manage the TCP4 connections.
293 **/
294 typedef struct {
295   //
296   //  TCP4 context
297   //
298   EFI_TCP4_CONFIG_DATA ConfigData;        ///<  TCP4 configuration data
299   EFI_TCP4_OPTION Option;                 ///<  TCP4 port options
300 
301   //
302   //  Tokens
303   //
304   EFI_TCP4_LISTEN_TOKEN ListenToken;      ///<  Listen control
305   EFI_TCP4_CONNECTION_TOKEN ConnectToken; ///<  Connection control
306   EFI_TCP4_CLOSE_TOKEN CloseToken;        ///<  Close control
307 } ESL_TCP4_CONTEXT;
308 
309 /**
310   TCP6 context structure
311 
312   The driver uses this structure to manage the TCP6 connections.
313 **/
314 typedef struct {
315   //
316   //  TCP6 context
317   //
318   EFI_TCP6_CONFIG_DATA ConfigData;        ///<  TCP6 configuration data
319   EFI_TCP6_OPTION Option;                 ///<  TCP6 port options
320 
321   //
322   //  Tokens
323   //
324   EFI_TCP6_LISTEN_TOKEN ListenToken;      ///<  Listen control
325   EFI_TCP6_CONNECTION_TOKEN ConnectToken; ///<  Connection control
326   EFI_TCP6_CLOSE_TOKEN CloseToken;        ///<  Close control
327 } ESL_TCP6_CONTEXT;
328 
329 /**
330   UDP4 context structure
331 
332   The driver uses this structure to manage the UDP4 connections.
333 **/
334 typedef struct {
335   //
336   //  UDP4 context
337   //
338   EFI_UDP4_CONFIG_DATA ConfigData;  ///<  UDP4 configuration data
339 } ESL_UDP4_CONTEXT;
340 
341 /**
342   UDP6 context structure
343 
344   The driver uses this structure to manage the UDP6 connections.
345 **/
346 typedef struct {
347   //
348   //  UDP6 context
349   //
350   EFI_UDP6_CONFIG_DATA ConfigData;  ///<  UDP6 configuration data
351 } ESL_UDP6_CONTEXT;
352 
353 
354 /**
355   Configure the network layer.
356 
357   @param [in] pProtocol   Protocol structure address
358   @param [in] pConfigData Address of the confiuration data
359 
360   @return   Returns EFI_SUCCESS if the operation is successfully
361             started.
362 **/
363 typedef
364 EFI_STATUS
365 (EFIAPI * PFN_NET_CONFIGURE) (
366   IN VOID * pProtocol,
367   IN VOID * pConfigData
368   );
369 
370 /**
371   Hand an I/O operation to the network layer.
372 
373   @param [in] pProtocol   Protocol structure address
374   @param [in] pToken      Completion token address
375 
376   @return   Returns EFI_SUCCESS if the operation is successfully
377             started.
378 **/
379 typedef
380 EFI_STATUS
381 (EFIAPI * PFN_NET_IO_START) (
382   IN VOID * pProtocol,
383   IN VOID * pToken
384   );
385 
386 /**
387   Poll the LAN adapter for receive packets.
388 
389   @param [in] pProtocol   Protocol structure address
390   @param [in] pToken      Completion token address
391 
392   @return   Returns EFI_SUCCESS if the operation is successfully
393             started.
394 **/
395 typedef
396 EFI_STATUS
397 (EFIAPI * PFN_NET_POLL) (
398   IN VOID * pProtocol
399   );
400 
401 /**
402   Port control structure
403 
404   The driver uses this structure to manager the socket's connection
405   with the network driver.
406 **/
407 typedef struct _ESL_PORT {
408   UINTN Signature;              ///<  Structure identification
409 
410   //
411   //  List links
412   //
413   ESL_PORT * pLinkService;      ///<  Link in service port list
414   ESL_PORT * pLinkSocket;       ///<  Link in socket port list
415 
416   //
417   //  Structures
418   //
419   ESL_SERVICE * pService;       ///<  Service for this port
420   ESL_SOCKET * pSocket;         ///<  Socket for this port
421 
422   //
423   //  Eliminate the pService references during port close
424   //
425   EFI_SERVICE_BINDING_PROTOCOL * pServiceBinding; ///<  Service binding for network layer
426   CONST ESL_SOCKET_BINDING * pSocketBinding;      ///<  Socket binding for network layer
427 
428   //
429   //  Port management
430   //
431   EFI_HANDLE Handle;              ///<  Network port handle
432   PORT_STATE State;               ///<  State of the port
433   UINTN DebugFlags;               ///<  Debug flags used to close the port
434   BOOLEAN bCloseNow;              ///<  TRUE = Close the port immediately
435   BOOLEAN bConfigured;            ///<  TRUE = Configure call made to network layer
436   PFN_NET_CONFIGURE pfnConfigure; ///<  Configure the network layer
437 
438   //
439   //  Transmit data management
440   //
441   BOOLEAN bTxFlowControl;       ///<  TX flow control applied
442   PFN_NET_IO_START pfnTxStart;  ///<  Start a transmit on the network
443   ESL_IO_MGMT * pTxActive;      ///<  Normal data queue
444   ESL_IO_MGMT * pTxFree;        ///<  Normal free queue
445 
446   ESL_IO_MGMT * pTxOobActive;   ///<  Urgent data queue
447   ESL_IO_MGMT * pTxOobFree;     ///<  Urgent free queue
448 
449   //
450   //  Receive data management
451   //
452   PFN_NET_IO_START pfnRxCancel; ///<  Cancel a receive on the network
453   PFN_NET_POLL pfnRxPoll;       ///<  Poll the LAN adapter for receive packets
454   PFN_NET_IO_START pfnRxStart;  ///<  Start a receive on the network
455   ESL_IO_MGMT * pRxActive;      ///<  Active receive operation queue
456   ESL_IO_MGMT * pRxFree;        ///<  Free structure queue
457 
458   //
459   //  Protocol specific management data
460   //
461   union {
462     VOID * v;                   ///<  VOID pointer
463     EFI_IP4_PROTOCOL * IPv4;    ///<  IP4 protocol pointer
464     EFI_TCP4_PROTOCOL * TCPv4;  ///<  TCP4 protocol pointer
465     EFI_TCP6_PROTOCOL * TCPv6;  ///<  TCP6 protocol pointer
466     EFI_UDP4_PROTOCOL * UDPv4;  ///<  UDP4 protocol pointer
467     EFI_UDP6_PROTOCOL * UDPv6;  ///<  UDP6 protocol pointer
468   } pProtocol;                  ///<  Protocol structure address
469   union {
470     ESL_IP4_CONTEXT Ip4;        ///<  IPv4 management data
471     ESL_TCP4_CONTEXT Tcp4;      ///<  TCPv4 management data
472     ESL_TCP6_CONTEXT Tcp6;      ///<  TCPv6 management data
473     ESL_UDP4_CONTEXT Udp4;      ///<  UDPv4 management data
474     ESL_UDP6_CONTEXT Udp6;      ///<  UDPv6 management data
475   } Context;                    ///<  Network specific context
476 }GCC_ESL_PORT;
477 
478 /**
479   Accept a network connection.
480 
481   @param [in] pSocket   Address of the socket structure.
482 
483   @param [in] pSockAddr       Address of a buffer to receive the remote
484                               network address.
485 
486   @param [in, out] pSockAddrLength  Length in bytes of the address buffer.
487                                     On output specifies the length of the
488                                     remote network address.
489 
490   @retval EFI_SUCCESS   Remote address is available
491   @retval Others        Remote address not available
492 
493  **/
494 typedef
495 EFI_STATUS
496 (* PFN_API_ACCEPT) (
497   IN ESL_SOCKET * pSocket,
498   IN struct sockaddr * pSockAddr,
499   IN OUT socklen_t * pSockAddrLength
500   );
501 
502 /**
503   Poll for completion of the connection attempt.
504 
505   @param [in] pSocket   Address of an ::ESL_SOCKET structure.
506 
507   @retval EFI_SUCCESS   The connection was successfully established.
508   @retval EFI_NOT_READY The connection is in progress, call this routine again.
509   @retval Others        The connection attempt failed.
510 
511  **/
512 typedef
513 EFI_STATUS
514 (* PFN_API_CONNECT_POLL) (
515   IN ESL_SOCKET * pSocket
516   );
517 
518 /**
519   Attempt to connect to a remote TCP port
520 
521   This routine starts the connection processing for a SOCK_STREAM
522   or SOCK_SEQPAKCET socket using the TCP network layer.
523 
524   This routine is called by ::EslSocketConnect to initiate the TCP
525   network specific connect operations.
526 
527   @param [in] pSocket   Address of an ::ESL_SOCKET structure.
528 
529   @retval EFI_SUCCESS   The connection was successfully established.
530   @retval EFI_NOT_READY The connection is in progress, call this routine again.
531   @retval Others        The connection attempt failed.
532 
533  **/
534 typedef
535 EFI_STATUS
536 (* PFN_API_CONNECT_START) (
537   IN ESL_SOCKET * pSocket
538   );
539 
540 /**
541   Get the local socket address
542 
543   @param [in] pPort       Address of an ::ESL_PORT structure.
544 
545   @param [out] pAddress   Network address to receive the local system address
546 
547 **/
548 typedef
549 VOID
550 (* PFN_API_LOCAL_ADDR_GET) (
551   IN ESL_PORT * pPort,
552   OUT struct sockaddr * pAddress
553   );
554 
555 /**
556   Set the local port address.
557 
558   This routine sets the local port address.
559 
560   This support routine is called by ::EslSocketPortAllocate.
561 
562   @param [in] ppPort      Address of an ESL_PORT structure
563   @param [in] pSockAddr   Address of a sockaddr structure that contains the
564                           connection point on the local machine.  An IPv4 address
565                           of INADDR_ANY specifies that the connection is made to
566                           all of the network stacks on the platform.  Specifying a
567                           specific IPv4 address restricts the connection to the
568                           network stack supporting that address.  Specifying zero
569                           for the port causes the network layer to assign a port
570                           number from the dynamic range.  Specifying a specific
571                           port number causes the network layer to use that port.
572   @param [in] bBindTest   TRUE = run bind testing
573 
574   @retval EFI_SUCCESS     The operation was successful
575 
576  **/
577 typedef
578 EFI_STATUS
579 (* PFN_API_LOCAL_ADDR_SET) (
580   IN ESL_PORT * pPort,
581   IN CONST struct sockaddr * pSockAddr,
582   IN BOOLEAN bBindTest
583   );
584 
585 /**
586   Process the completion event
587 
588   This routine handles the I/O completion event.
589 
590   This routine is called by the low level network driver when
591   the operation is completed.
592 
593   @param [in] Event     The receive completion event
594 
595   @param [in] pIo       The address of an ::ESL_IO_MGMT structure
596 
597 **/
598 typedef
599 VOID
600 (* PFN_API_IO_COMPLETE) (
601   IN EFI_EVENT Event,
602   IN ESL_IO_MGMT * pIo
603   );
604 
605 /**
606   Determine if the socket is configured.
607 
608 
609   @param [in] pSocket         Address of a ESL_SOCKET structure
610 
611   @retval EFI_SUCCESS - The port is connected
612   @retval EFI_NOT_STARTED - The port is not connected
613 
614  **/
615  typedef
616  EFI_STATUS
617  (* PFN_API_IS_CONFIGURED) (
618   IN ESL_SOCKET * pSocket
619   );
620 
621 /**
622   Establish the known port to listen for network connections.
623 
624   @param [in] pSocket     Address of the socket structure.
625 
626   @retval EFI_SUCCESS - Socket successfully created
627   @retval Other - Failed to enable the socket for listen
628 
629 **/
630 typedef
631 EFI_STATUS
632 (* PFN_API_LISTEN) (
633   IN ESL_SOCKET * pSocket
634   );
635 
636 /**
637   Get the option value
638 
639   Retrieve the protocol options one at a time by name.
640 
641   @param [in] pSocket           Address of a ESL_SOCKET structure
642   @param [in] OptionName        Name of the option
643   @param [out] ppOptionData     Buffer to receive address of option value
644   @param [out] pOptionLength    Buffer to receive the option length
645 
646   @retval EFI_SUCCESS - Socket data successfully received
647 
648  **/
649 typedef
650 EFI_STATUS
651 (* PFN_API_OPTION_GET) (
652   IN ESL_SOCKET * pSocket,
653   IN int OptionName,
654   OUT CONST void ** __restrict ppOptionData,
655   OUT socklen_t * __restrict pOptionLength
656   );
657 
658 /**
659   Set the option value
660 
661   Adjust the protocol options one at a time by name.
662 
663   @param [in] pSocket         Address of a ESL_SOCKET structure
664   @param [in] OptionName      Name of the option
665   @param [in] pOptionValue    Buffer containing the option value
666   @param [in] OptionLength    Length of the buffer in bytes
667 
668   @retval EFI_SUCCESS - Option successfully set
669 
670  **/
671 typedef
672 EFI_STATUS
673 (* PFN_API_OPTION_SET) (
674   IN ESL_SOCKET * pSocket,
675   IN int OptionName,
676   IN CONST void * pOptionValue,
677   IN socklen_t OptionLength
678   );
679 
680 /**
681   Free a receive packet
682 
683   This routine performs the network specific operations necessary
684   to free a receive packet.
685 
686   This routine is called by ::EslSocketPortCloseTxDone to free a
687   receive packet.
688 
689   @param [in] pPacket         Address of an ::ESL_PACKET structure.
690   @param [in, out] pRxBytes   Address of the count of RX bytes
691 
692 **/
693 typedef
694 VOID
695 (* PFN_API_PACKET_FREE) (
696   IN ESL_PACKET * pPacket,
697   IN OUT size_t * pRxBytes
698   );
699 
700 /**
701   Initialize the network specific portions of an ::ESL_PORT structure.
702 
703   This routine initializes the network specific portions of an
704   ::ESL_PORT structure for use by the socket.
705 
706   This support routine is called by ::EslSocketPortAllocate
707   to connect the socket with the underlying network adapter
708   running the IPv4 protocol.
709 
710   @param [in] ppPort      Address of an ESL_PORT structure
711   @param [in] DebugFlags  Flags for debug messages
712 
713   @retval EFI_SUCCESS - Socket successfully created
714 
715  **/
716 typedef
717 EFI_STATUS
718 (* PFN_API_PORT_ALLOC) (
719   IN ESL_PORT * pPort,
720   IN UINTN DebugFlags
721   );
722 
723 /**
724   Close a network specific port.
725 
726   This routine releases the resources allocated by the
727   network specific PortAllocate routine.
728 
729   This routine is called by ::EslSocketPortCloseRxDone as
730   the last step of closing processing.
731   See the \ref PortCloseStateMachine section.
732 
733   @param [in] pPort       Address of an ::ESL_PORT structure.
734 
735   @retval EFI_SUCCESS     The port is closed
736   @retval other           Port close error
737 
738 **/
739 typedef
740 EFI_STATUS
741 (* PFN_API_PORT_CLOSE) (
742   IN ESL_PORT * pPort
743   );
744 
745 /**
746   Perform the network specific close operation on the port.
747 
748   This routine performs the network specific operation to
749   shutdown receive operations on the port.
750 
751   This routine is called by the ::EslSocketPortCloseTxDone
752   routine after the port completes all of the transmission.
753 
754   @param [in] pPort           Address of an ::ESL_PORT structure.
755 
756   @retval EFI_SUCCESS         The port is closed, not normally returned
757   @retval EFI_NOT_READY       The port is still closing
758   @retval EFI_ALREADY_STARTED Error, the port is in the wrong state,
759                               most likely the routine was called already.
760 
761 **/
762 typedef
763 EFI_STATUS
764 (* PFN_API_PORT_CLOSE_OP) (
765   IN ESL_PORT * pPort
766   );
767 
768 /**
769   Receive data from a network connection.
770 
771   This routine attempts to return buffered data to the caller.  The
772   data is removed from the urgent queue if the message flag MSG_OOB
773   is specified, otherwise data is removed from the normal queue.
774   See the \ref ReceiveEngine section.
775 
776   This routine is called by ::EslSocketReceive to handle the network
777   specific receive operation.
778 
779   @param [in] pPort           Address of an ::ESL_PORT structure.
780 
781   @param [in] pPacket         Address of an ::ESL_PACKET structure.
782 
783   @param [in] pbConsumePacket Address of a BOOLEAN indicating if the packet is to be consumed
784 
785   @param [in] BufferLength    Length of the the buffer
786 
787   @param [in] pBuffer         Address of a buffer to receive the data.
788 
789   @param [in] pDataLength     Number of received data bytes in the buffer.
790 
791   @param [out] pAddress       Network address to receive the remote system address
792 
793   @param [out] pSkipBytes     Address to receive the number of bytes skipped
794 
795   @return   Returns the address of the next free byte in the buffer.
796 
797  **/
798 typedef
799 UINT8 *
800 (* PFN_API_RECEIVE) (
801   IN ESL_PORT * pPort,
802   IN ESL_PACKET * pPacket,
803   IN BOOLEAN * pbConsumePacket,
804   IN size_t BufferLength,
805   IN UINT8 * pBuffer,
806   OUT size_t * pDataLength,
807   OUT struct sockaddr * pAddress,
808   OUT size_t * pSkipBytes
809   );
810 
811 /**
812   Get the remote socket address
813 
814   @param [in] pPort       Address of an ::ESL_PORT structure.
815 
816   @param [out] pAddress   Network address to receive the remote system address
817 
818 **/
819 typedef
820 VOID
821 (* PFN_API_REMOTE_ADDR_GET) (
822   IN ESL_PORT * pPort,
823   OUT struct sockaddr * pAddress
824   );
825 
826 /**
827   Set the remote address
828 
829   This routine sets the remote address in the port.
830 
831   This routine is called by ::EslSocketConnect to specify the
832   remote network address.
833 
834   @param [in] pPort           Address of an ::ESL_PORT structure.
835 
836   @param [in] pSockAddr       Network address of the remote system.
837 
838   @param [in] SockAddrLength  Length in bytes of the network address.
839 
840   @retval EFI_SUCCESS     The operation was successful
841 
842  **/
843 typedef
844 EFI_STATUS
845 (* PFN_API_REMOTE_ADDR_SET) (
846   IN ESL_PORT * pPort,
847   IN CONST struct sockaddr * pSockAddr,
848   IN socklen_t SockAddrLength
849   );
850 
851 /**
852   Start a receive operation
853 
854   This routine prepares a packet for the receive operation.
855   See the \ref ReceiveEngine section.
856 
857   This support routine is called by EslSocketRxStart.
858 
859   @param [in] pPort       Address of an ::ESL_PORT structure.
860   @param [in] pIo         Address of an ::ESL_IO_MGMT structure.
861 
862  **/
863 typedef
864 VOID
865 (* PFN_API_RX_START) (
866   IN ESL_PORT * pPort,
867   IN ESL_IO_MGMT * pIo
868   );
869 
870 /**
871   Buffer data for transmission over a network connection.
872 
873   @param [in] pSocket         Address of a ESL_SOCKET structure
874 
875   @param [in] Flags           Message control flags
876 
877   @param [in] BufferLength    Length of the the buffer
878 
879   @param [in] pBuffer         Address of a buffer to receive the data.
880 
881   @param [in] pDataLength     Number of received data bytes in the buffer.
882 
883   @param [in] pAddress        Network address of the remote system address
884 
885   @param [in] AddressLength   Length of the remote network address structure
886 
887   @retval EFI_SUCCESS - Socket data successfully buffered
888 
889 **/
890 typedef
891 EFI_STATUS
892 (* PFN_API_TRANSMIT) (
893   IN ESL_SOCKET * pSocket,
894   IN int Flags,
895   IN size_t BufferLength,
896   IN CONST UINT8 * pBuffer,
897   OUT size_t * pDataLength,
898   IN const struct sockaddr * pAddress,
899   IN socklen_t AddressLength
900   );
901 
902 /**
903   Process the transmit completion
904 
905   This routine calls ::EslSocketTxComplete to handle the
906   transmit completion.
907 
908   This routine is called by the network layers upon the completion
909   of a transmit operation.
910 
911   @param [in] Event     The urgent transmit completion event
912 
913   @param [in] pIo       The ESL_IO_MGMT structure address
914 
915 **/
916 typedef
917 VOID
918 (* PFN_API_TX_COMPLETE) (
919   IN EFI_EVENT Event,
920   IN ESL_IO_MGMT * pIo
921   );
922 
923 /**
924   Verify the adapter's IP address
925 
926   This support routine is called by EslSocketBindTest.
927 
928   @param [in] pPort       Address of an ::ESL_PORT structure.
929   @param [in] pConfigData Address of the configuration data
930 
931   @retval EFI_SUCCESS - The IP address is valid
932   @retval EFI_NOT_STARTED - The IP address is invalid
933 
934  **/
935 typedef
936 EFI_STATUS
937 (* PFN_API_VERIFY_LOCAL_IP_ADDRESS) (
938   IN ESL_PORT * pPort,
939   IN VOID * pConfigData
940   );
941 
942 /**
943   Socket type control structure
944 
945   This driver uses this structure to define the API for the socket type.
946 **/
947 typedef struct {
948   CONST CHAR8 * pName;                      ///<  Protocol name
949   int DefaultProtocol;                      ///<  Default protocol
950   UINTN ConfigDataOffset;                   ///<  Offset in ::ESL_PORT to the configuration data
951   UINTN ServiceListOffset;                  ///<  Offset in ::ESL_LAYER for the list of services
952   socklen_t MinimumAddressLength;           ///<  Minimum address length in bytes
953   socklen_t AddressLength;                  ///<  Address length in bytes
954   sa_family_t AddressFamily;                ///<  Address family
955   UINTN RxPacketBytes;                      ///<  Length of the RX packet allocation
956   UINTN RxZeroBytes;                        ///<  Number of bytes to zero in RX packet
957   UINTN RxBufferOffset;                     ///<  Offset of buffer address in ESL_IO_MGMT structure
958   BOOLEAN bOobSupported;                    ///<  TRUE if out-of-band messages are supported
959   int BindTestErrno;                        ///<  errno value if EslSocketBindTest fails
960   PFN_API_ACCEPT pfnAccept;                 ///<  Accept a network connection
961   PFN_API_CONNECT_POLL pfnConnectPoll;      ///<  Poll for connection complete
962   PFN_API_CONNECT_START pfnConnectStart;    ///<  Start the connection to a remote system
963   PFN_API_IS_CONFIGURED pfnIsConfigured;    ///<  Determine if the socket is configured
964   PFN_API_LOCAL_ADDR_GET pfnLocalAddrGet;   ///<  Get the local address
965   PFN_API_LOCAL_ADDR_SET pfnLocalAddrSet;   ///<  Set the local address
966   PFN_API_LISTEN pfnListen;                 ///<  Listen for connections on known server port
967   PFN_API_OPTION_GET pfnOptionGet;          ///<  Get the option value
968   PFN_API_OPTION_SET pfnOptionSet;          ///<  Set the option value
969   PFN_API_PACKET_FREE pfnPacketFree;        ///<  Free the receive packet
970   PFN_API_PORT_ALLOC pfnPortAllocate;       ///<  Allocate the network specific resources for the port
971   PFN_API_PORT_CLOSE pfnPortClose;          ///<  Close the network specific resources for the port
972   PFN_API_PORT_CLOSE_OP pfnPortCloseOp;     ///<  Perform the close operation on the port
973   BOOLEAN bPortCloseComplete;               ///<  TRUE = Close is complete after close operation
974   PFN_API_RECEIVE pfnReceive;               ///<  Attempt to receive some data
975   PFN_API_REMOTE_ADDR_GET pfnRemoteAddrGet; ///<  Get remote address
976   PFN_API_REMOTE_ADDR_SET pfnRemoteAddrSet; ///<  Set the remote system address
977   PFN_API_IO_COMPLETE pfnRxComplete;        ///<  RX completion
978   PFN_API_RX_START pfnRxStart;              ///<  Start a network specific receive operation
979   PFN_API_TRANSMIT pfnTransmit;             ///<  Attempt to buffer a packet for transmit
980   PFN_API_TX_COMPLETE pfnTxComplete;        ///<  TX completion for normal data
981   PFN_API_TX_COMPLETE pfnTxOobComplete;     ///<  TX completion for urgent data
982   PFN_API_VERIFY_LOCAL_IP_ADDRESS pfnVerifyLocalIpAddress;  ///< Verify the local IP address
983 } ESL_PROTOCOL_API;
984 
985 
986 /**
987   Socket control structure
988 
989   The driver uses this structure to manage the socket.
990 **/
991 typedef struct _ESL_SOCKET {
992   UINTN Signature;          ///<  Structure identification
993 
994   //
995   //  Protocol binding
996   //
997   EFI_SOCKET_PROTOCOL SocketProtocol; ///<  Socket protocol declaration
998   CONST ESL_PROTOCOL_API * pApi;      ///<  API for the protocol
999 
1000   //
1001   //  Socket management
1002   //
1003   ESL_SOCKET * pNext;           ///<  Next socket in the list of sockets
1004   int errno;                    ///<  Error information for this socket
1005   EFI_STATUS Status;            ///<  Asyncronous error information for this socket
1006   SOCKET_STATE State;           ///<  Socket state
1007   UINT32 DebugFlags;            ///<  Debug flags
1008 
1009   //
1010   //  Socket options
1011   //
1012   BOOLEAN bIncludeHeader;       ///<  TRUE if including the IP header
1013   BOOLEAN bListenCalled;        ///<  TRUE if listen was successfully called
1014   BOOLEAN bOobInLine;           ///<  TRUE if out-of-band messages are to be received inline with normal data
1015   BOOLEAN bReUseAddr;           ///<  TRUE if using same address is allowed
1016 
1017   //
1018   //  Socket data
1019   //
1020   int Domain;                   ///<  Specifies family of protocols
1021   int Type;                     ///<  Specifies how to make network connection
1022   int Protocol;                 ///<  Specifies lower layer protocol to use
1023   BOOLEAN bAddressSet;          ///<  Set when the address is specified
1024   BOOLEAN bConfigured;          ///<  Set after the socket is configured
1025 
1026   BOOLEAN bRxDisable;           ///<  Receive disabled via shutdown
1027   size_t RxBytes;               ///<  Total Rx bytes
1028   size_t RxOobBytes;            ///<  Urgent Rx bytes
1029   EFI_STATUS RxError;           ///<  Error during receive
1030 
1031   BOOLEAN bTxDisable;           ///<  Transmit disabled via shutdown
1032   size_t TxBytes;               ///<  Normal Tx bytes
1033   size_t TxOobBytes;            ///<  Urgent Tx bytes
1034   EFI_STATUS TxError;           ///<  Error during transmit
1035 
1036   //
1037   //  Pending connection data
1038   //
1039   BOOLEAN bConnected;           ///<  Set when connected, cleared by poll
1040   EFI_STATUS ConnectStatus;     ///<  Connection status
1041   UINTN MaxFifoDepth;           ///<  Maximum FIFO depth
1042   UINTN FifoDepth;              ///<  Number of sockets in the FIFO
1043   ESL_SOCKET * pFifoHead;       ///<  Head of the FIFO
1044   ESL_SOCKET * pFifoTail;       ///<  Tail of the FIFO
1045   ESL_SOCKET * pNextConnection; ///<  Link in the FIFO
1046 
1047   //
1048   //  Network use
1049   //
1050   ESL_PORT * pPortList;         ///<  List of ports managed by this socket
1051   EFI_EVENT WaitAccept;         ///<  Wait for accept completion
1052 
1053   //
1054   //  Receive data management
1055   //
1056   UINT32 MaxRxBuf;                  ///<  Maximum size of the receive buffer
1057   struct timeval RxTimeout;         ///<  Receive timeout
1058   ESL_PACKET * pRxFree;             ///<  Free packet list
1059   ESL_PACKET * pRxOobPacketListHead;///<  Urgent data list head
1060   ESL_PACKET * pRxOobPacketListTail;///<  Urgent data list tail
1061   ESL_PACKET * pRxPacketListHead;   ///<  Normal data list head
1062   ESL_PACKET * pRxPacketListTail;   ///<  Normal data list tail
1063 
1064   //
1065   //  Transmit data management
1066   //
1067   UINTN TxPacketOffset;             ///<  Offset for data pointer in ::ESL_PACKET
1068   UINTN TxTokenEventOffset;         ///<  Offset to the Event in the TX token
1069   UINTN TxTokenOffset;              ///<  Offset for data pointer in TX token
1070   UINT32 MaxTxBuf;                  ///<  Maximum size of the transmit buffer
1071   ESL_PACKET * pTxOobPacketListHead;///<  Urgent data list head
1072   ESL_PACKET * pTxOobPacketListTail;///<  Urgent data list tail
1073   ESL_PACKET * pTxPacketListHead;   ///<  Normal data list head
1074   ESL_PACKET * pTxPacketListTail;   ///<  Normal data list tail
1075 }GCC_ESL_SOCKET;
1076 
1077 #define SOCKET_FROM_PROTOCOL(a)  CR (a, ESL_SOCKET, SocketProtocol, SOCKET_SIGNATURE)  ///< Locate ESL_SOCKET from protocol
1078 
1079 /**
1080   Socket layer control structure
1081 
1082   The driver uses this structure to manage the driver.
1083 **/
1084 typedef struct {
1085   UINTN Signature;              ///<  Structure identification
1086 
1087   //
1088   //  Service binding interface
1089   //
1090   CONST EFI_SERVICE_BINDING_PROTOCOL * pServiceBinding; ///<  Driver's binding
1091 
1092   //
1093   //  Image data
1094   //
1095   EFI_HANDLE ImageHandle;       ///<  Image handle
1096 
1097   //
1098   //  Network services
1099   //
1100   ESL_SERVICE * pIp4List;       ///<  List of Ip4 services
1101   ESL_SERVICE * pTcp4List;      ///<  List of Tcp4 services
1102   ESL_SERVICE * pTcp6List;      ///<  List of Tcp6 services
1103   ESL_SERVICE * pUdp4List;      ///<  List of Udp4 services
1104   ESL_SERVICE * pUdp6List;      ///<  List of Udp6 services
1105 
1106   //
1107   //  Socket management
1108   //
1109   ESL_SOCKET * pSocketList;     ///<  List of sockets
1110 } ESL_LAYER;
1111 
1112 #define LAYER_FROM_SERVICE(a) CR (a, ESL_LAYER, ServiceBinding, LAYER_SIGNATURE) ///< Locate ESL_LAYER from service binding
1113 
1114 //------------------------------------------------------------------------------
1115 // Data
1116 //------------------------------------------------------------------------------
1117 
1118 extern ESL_LAYER mEslLayer;
1119 
1120 extern CONST ESL_PROTOCOL_API cEslIp4Api;
1121 extern CONST ESL_PROTOCOL_API cEslIp6Api;
1122 extern CONST ESL_PROTOCOL_API cEslTcp4Api;
1123 extern CONST ESL_PROTOCOL_API cEslTcp6Api;
1124 extern CONST ESL_PROTOCOL_API cEslUdp4Api;
1125 extern CONST ESL_PROTOCOL_API cEslUdp6Api;
1126 
1127 extern CONST EFI_SERVICE_BINDING_PROTOCOL mEfiServiceBinding;
1128 
1129 //------------------------------------------------------------------------------
1130 // Socket Support Routines
1131 //------------------------------------------------------------------------------
1132 
1133 /**
1134   Allocate and initialize a ESL_SOCKET structure.
1135 
1136   This support function allocates an ::ESL_SOCKET structure
1137   and installs a protocol on ChildHandle.  If pChildHandle is a
1138   pointer to NULL, then a new handle is created and returned in
1139   pChildHandle.  If pChildHandle is not a pointer to NULL, then
1140   the protocol installs on the existing pChildHandle.
1141 
1142   @param [in, out] pChildHandle Pointer to the handle of the child to create.
1143                                 If it is NULL, then a new handle is created.
1144                                 If it is a pointer to an existing UEFI handle,
1145                                 then the protocol is added to the existing UEFI
1146                                 handle.
1147   @param [in] DebugFlags        Flags for debug messages
1148   @param [in, out] ppSocket     The buffer to receive an ::ESL_SOCKET structure address.
1149 
1150   @retval EFI_SUCCESS           The protocol was added to ChildHandle.
1151   @retval EFI_INVALID_PARAMETER ChildHandle is NULL.
1152   @retval EFI_OUT_OF_RESOURCES  There are not enough resources available to create
1153                                 the child
1154   @retval other                 The child handle was not created
1155 
1156 **/
1157 EFI_STATUS
1158 EFIAPI
1159 EslSocketAllocate (
1160   IN OUT EFI_HANDLE * pChildHandle,
1161   IN     UINTN DebugFlags,
1162   IN OUT ESL_SOCKET ** ppSocket
1163   );
1164 
1165 /**
1166   Test the bind configuration.
1167 
1168   @param [in] pPort       Address of the ::ESL_PORT structure.
1169   @param [in] ErrnoValue  errno value if test fails
1170 
1171   @retval EFI_SUCCESS   The connection was successfully established.
1172   @retval Others        The connection attempt failed.
1173 
1174  **/
1175 EFI_STATUS
1176 EslSocketBindTest (
1177   IN ESL_PORT * pPort,
1178   IN int ErrnoValue
1179   );
1180 
1181 /**
1182   Copy a fragmented buffer into a destination buffer.
1183 
1184   This support routine copies a fragmented buffer to the caller specified buffer.
1185 
1186   This routine is called by ::EslIp4Receive and ::EslUdp4Receive.
1187 
1188   @param [in] FragmentCount   Number of fragments in the table
1189 
1190   @param [in] pFragmentTable  Address of an EFI_IP4_FRAGMENT_DATA structure
1191 
1192   @param [in] BufferLength    Length of the the buffer
1193 
1194   @param [in] pBuffer         Address of a buffer to receive the data.
1195 
1196   @param [in] pDataLength     Number of received data bytes in the buffer.
1197 
1198   @return   Returns the address of the next free byte in the buffer.
1199 
1200 **/
1201 UINT8 *
1202 EslSocketCopyFragmentedBuffer (
1203   IN UINT32 FragmentCount,
1204   IN EFI_IP4_FRAGMENT_DATA * pFragmentTable,
1205   IN size_t BufferLength,
1206   IN UINT8 * pBuffer,
1207   OUT size_t * pDataLength
1208   );
1209 
1210 /**
1211   Free the socket.
1212 
1213   This routine frees the socket structure and handle resources.
1214 
1215   The ::close routine calls EslServiceFreeProtocol which then calls
1216   this routine to free the socket context structure and close the
1217   handle.
1218 
1219   @param [in] pSocketProtocol Address of an ::EFI_SOCKET_PROTOCOL structure.
1220 
1221   @param [out] pErrno         Address to receive the errno value upon completion.
1222 
1223   @retval EFI_SUCCESS   The socket resources were returned successfully.
1224 
1225  **/
1226 EFI_STATUS
1227 EslSocketFree (
1228   IN EFI_SOCKET_PROTOCOL * pSocketProtocol,
1229   IN int * pErrno
1230   );
1231 
1232 /**
1233   Free the ESL_IO_MGMT event and structure
1234 
1235   This support routine walks the free list to close the event in
1236   the ESL_IO_MGMT structure and remove the structure from the free
1237   list.
1238 
1239   See the \ref TransmitEngine section.
1240 
1241   @param [in] pPort         Address of an ::ESL_PORT structure
1242   @param [in] ppFreeQueue   Address of the free queue head
1243   @param [in] DebugFlags    Flags for debug messages
1244   @param [in] pEventName    Zero terminated string containing the event name
1245 
1246   @retval EFI_SUCCESS - The structures were properly initialized
1247 
1248 **/
1249 EFI_STATUS
1250 EslSocketIoFree (
1251   IN ESL_PORT * pPort,
1252   IN ESL_IO_MGMT ** ppFreeQueue,
1253   IN UINTN DebugFlags,
1254   IN CHAR8 * pEventName
1255   );
1256 
1257 /**
1258   Initialize the ESL_IO_MGMT structures
1259 
1260   This support routine initializes the ESL_IO_MGMT structure and
1261   places them on to a free list.
1262 
1263   This routine is called by the PortAllocate routines to prepare
1264   the transmit engines.  See the \ref TransmitEngine section.
1265 
1266   @param [in] pPort         Address of an ::ESL_PORT structure
1267   @param [in, out] ppIo     Address containing the first structure address.  Upon
1268                             return this buffer contains the next structure address.
1269   @param [in] TokenCount    Number of structures to initialize
1270   @param [in] ppFreeQueue   Address of the free queue head
1271   @param [in] DebugFlags    Flags for debug messages
1272   @param [in] pEventName    Zero terminated string containing the event name
1273   @param [in] pfnCompletion Completion routine address
1274 
1275   @retval EFI_SUCCESS - The structures were properly initialized
1276 
1277 **/
1278 EFI_STATUS
1279 EslSocketIoInit (
1280   IN ESL_PORT * pPort,
1281   IN ESL_IO_MGMT ** ppIo,
1282   IN UINTN TokenCount,
1283   IN ESL_IO_MGMT ** ppFreeQueue,
1284   IN UINTN DebugFlags,
1285   IN CHAR8 * pEventName,
1286   IN PFN_API_IO_COMPLETE pfnCompletion
1287   );
1288 
1289 /**
1290   Determine if the socket is configured
1291 
1292   This support routine is called to determine if the socket if the
1293   configuration call was made to the network layer.  The following
1294   routines call this routine to verify that they may be successful
1295   in their operations:
1296   <ul>
1297     <li>::EslSocketGetLocalAddress</li>
1298     <li>::EslSocketGetPeerAddress</li>
1299     <li>::EslSocketPoll</li>
1300     <li>::EslSocketReceive</li>
1301     <li>::EslSocketTransmit</li>
1302   </ul>
1303 
1304   @param [in] pSocket       Address of an ::ESL_SOCKET structure
1305 
1306   @retval EFI_SUCCESS - The socket is configured
1307 
1308 **/
1309 EFI_STATUS
1310 EslSocketIsConfigured (
1311   IN ESL_SOCKET * pSocket
1312   );
1313 
1314 /**
1315   Allocate a packet for a receive or transmit operation
1316 
1317   This support routine is called by ::EslSocketRxStart and the
1318   network specific TxBuffer routines to get buffer space for the
1319   next operation.
1320 
1321   @param [in] ppPacket      Address to receive the ::ESL_PACKET structure
1322   @param [in] LengthInBytes Length of the packet structure
1323   @param [in] ZeroBytes     Length of packet to zero
1324   @param [in] DebugFlags    Flags for debug messages
1325 
1326   @retval EFI_SUCCESS - The packet was allocated successfully
1327 
1328  **/
1329 EFI_STATUS
1330 EslSocketPacketAllocate (
1331   IN ESL_PACKET ** ppPacket,
1332   IN size_t LengthInBytes,
1333   IN size_t ZeroBytes,
1334   IN UINTN DebugFlags
1335   );
1336 
1337 /**
1338   Free a packet used for receive or transmit operation
1339 
1340   This support routine is called by the network specific Close
1341   and TxComplete routines and during error cases in RxComplete
1342   and TxBuffer.  Note that the network layers typically place
1343   receive packets on the ESL_SOCKET::pRxFree list for reuse.
1344 
1345   @param [in] pPacket     Address of an ::ESL_PACKET structure
1346   @param [in] DebugFlags  Flags for debug messages
1347 
1348   @retval EFI_SUCCESS - The packet was allocated successfully
1349 
1350  **/
1351 EFI_STATUS
1352 EslSocketPacketFree (
1353   IN ESL_PACKET * pPacket,
1354   IN UINTN DebugFlags
1355   );
1356 
1357 /**
1358   Allocate and initialize a ESL_PORT structure.
1359 
1360   This routine initializes an ::ESL_PORT structure for use by
1361   the socket.  This routine calls a routine via
1362   ESL_PROTOCOL_API::pfnPortAllocate to initialize the network
1363   specific resources.  The resources are released later by the
1364   \ref PortCloseStateMachine.
1365 
1366   This support routine is called by ::EslSocketBind and
1367   ::EslTcp4ListenComplete to connect the socket with the
1368   underlying network adapter to the socket.
1369 
1370   @param [in] pSocket     Address of an ::ESL_SOCKET structure.
1371   @param [in] pService    Address of an ::ESL_SERVICE structure.
1372   @param [in] ChildHandle TCP4 child handle
1373   @param [in] pSockAddr   Address of a sockaddr structure that contains the
1374                           connection point on the local machine.  An IPv4 address
1375                           of INADDR_ANY specifies that the connection is made to
1376                           all of the network stacks on the platform.  Specifying a
1377                           specific IPv4 address restricts the connection to the
1378                           network stack supporting that address.  Specifying zero
1379                           for the port causes the network layer to assign a port
1380                           number from the dynamic range.  Specifying a specific
1381                           port number causes the network layer to use that port.
1382   @param [in] bBindTest   TRUE if EslSocketBindTest should be called
1383   @param [in] DebugFlags  Flags for debug messages
1384   @param [out] ppPort     Buffer to receive new ::ESL_PORT structure address
1385 
1386   @retval EFI_SUCCESS - Socket successfully created
1387 
1388  **/
1389 EFI_STATUS
1390 EslSocketPortAllocate (
1391   IN ESL_SOCKET * pSocket,
1392   IN ESL_SERVICE * pService,
1393   IN EFI_HANDLE ChildHandle,
1394   IN CONST struct sockaddr * pSockAddr,
1395   IN BOOLEAN bBindTest,
1396   IN UINTN DebugFlags,
1397   OUT ESL_PORT ** ppPort
1398   );
1399 
1400 /**
1401   Close a port.
1402 
1403   This routine releases the resources allocated by ::EslSocketPortAllocate.
1404   This routine calls ESL_PROTOCOL_API::pfnPortClose to release the network
1405   specific resources.
1406 
1407   This routine is called by:
1408   <ul>
1409     <li>::EslIp4PortAllocate - Port initialization failure</li>
1410     <li>::EslSocketPortCloseRxDone - Last step of close processing</li>
1411     <li>::EslTcp4ConnectComplete - Connection failure and reducint the port list to a single port</li>
1412     <li>::EslTcp4PortAllocate - Port initialization failure</li>
1413     <li>::EslUdp4PortAllocate - Port initialization failure</li>
1414   </ul>
1415   See the \ref PortCloseStateMachine section.
1416 
1417   @param [in] pPort       Address of an ::ESL_PORT structure.
1418 
1419   @retval EFI_SUCCESS     The port is closed
1420   @retval other           Port close error
1421 
1422 **/
1423 EFI_STATUS
1424 EslSocketPortClose (
1425   IN ESL_PORT * pPort
1426   );
1427 
1428 /**
1429   Process the port close completion event
1430 
1431   This routine attempts to complete the port close operation.
1432 
1433   This routine is called by the TCP layer upon completion of
1434   the close operation.
1435   See the \ref PortCloseStateMachine section.
1436 
1437   @param [in] Event     The close completion event
1438 
1439   @param [in] pPort     Address of an ::ESL_PORT structure.
1440 
1441 **/
1442 VOID
1443 EslSocketPortCloseComplete (
1444   IN EFI_EVENT Event,
1445   IN ESL_PORT * pPort
1446   );
1447 
1448 /**
1449   Port close state 3
1450 
1451   This routine determines the state of the receive operations and
1452   continues the close operation after the pending receive operations
1453   are cancelled.
1454 
1455   This routine is called by
1456   <ul>
1457     <li>::EslIp4RxComplete</li>
1458     <li>::EslSocketPortCloseComplete</li>
1459     <li>::EslSocketPortCloseTxDone</li>
1460     <li>::EslUdp4RxComplete</li>
1461   </ul>
1462   to determine the state of the receive operations.
1463   See the \ref PortCloseStateMachine section.
1464 
1465   @param [in] pPort       Address of an ::ESL_PORT structure.
1466 
1467   @retval EFI_SUCCESS         The port is closed
1468   @retval EFI_NOT_READY       The port is still closing
1469   @retval EFI_ALREADY_STARTED Error, the port is in the wrong state,
1470                               most likely the routine was called already.
1471 
1472 **/
1473 EFI_STATUS
1474 EslSocketPortCloseRxDone (
1475   IN ESL_PORT * pPort
1476   );
1477 
1478 /**
1479   Start the close operation on a port, state 1.
1480 
1481   This routine marks the port as closed and initiates the \ref
1482   PortCloseStateMachine. The first step is to allow the \ref
1483   TransmitEngine to run down.
1484 
1485   This routine is called by ::EslSocketCloseStart to initiate the socket
1486   network specific close operation on the socket.
1487 
1488   @param [in] pPort       Address of an ::ESL_PORT structure.
1489   @param [in] bCloseNow   Set TRUE to abort active transfers
1490   @param [in] DebugFlags  Flags for debug messages
1491 
1492   @retval EFI_SUCCESS         The port is closed, not normally returned
1493   @retval EFI_NOT_READY       The port has started the closing process
1494   @retval EFI_ALREADY_STARTED Error, the port is in the wrong state,
1495                               most likely the routine was called already.
1496 
1497 **/
1498 EFI_STATUS
1499 EslSocketPortCloseStart (
1500   IN ESL_PORT * pPort,
1501   IN BOOLEAN bCloseNow,
1502   IN UINTN DebugFlags
1503   );
1504 
1505 /**
1506   Port close state 2
1507 
1508   This routine determines the state of the transmit engine and
1509   continue the close operation after the transmission is complete.
1510   The next step is to stop the \ref ReceiveEngine.
1511   See the \ref PortCloseStateMachine section.
1512 
1513   This routine is called by ::EslSocketPortCloseStart to determine
1514   if the transmission is complete.
1515 
1516   @param [in] pPort           Address of an ::ESL_PORT structure.
1517 
1518   @retval EFI_SUCCESS         The port is closed, not normally returned
1519   @retval EFI_NOT_READY       The port is still closing
1520   @retval EFI_ALREADY_STARTED Error, the port is in the wrong state,
1521                               most likely the routine was called already.
1522 
1523 **/
1524 EFI_STATUS
1525 EslSocketPortCloseTxDone (
1526   IN ESL_PORT * pPort
1527   );
1528 
1529 /**
1530   Cancel the receive operations
1531 
1532   This routine cancels a pending receive operation.
1533   See the \ref ReceiveEngine section.
1534 
1535   This routine is called by ::EslSocketShutdown when the socket
1536   layer is being shutdown.
1537 
1538   @param [in] pPort     Address of an ::ESL_PORT structure
1539   @param [in] pIo       Address of an ::ESL_IO_MGMT structure
1540 
1541  **/
1542 VOID
1543 EslSocketRxCancel (
1544   IN ESL_PORT * pPort,
1545   IN ESL_IO_MGMT * pIo
1546   );
1547 
1548 /**
1549   Process the receive completion
1550 
1551   This routine queues the data in FIFO order in either the urgent
1552   or normal data queues depending upon the type of data received.
1553   See the \ref ReceiveEngine section.
1554 
1555   This routine is called when some data is received by:
1556   <ul>
1557     <li>::EslIp4RxComplete</li>
1558     <li>::EslTcp4RxComplete</li>
1559     <li>::EslUdp4RxComplete</li>
1560   </ul>
1561 
1562   @param [in] pIo           Address of an ::ESL_IO_MGMT structure
1563   @param [in] Status        Receive status
1564   @param [in] LengthInBytes Length of the receive data
1565   @param [in] bUrgent       TRUE if urgent data is received and FALSE
1566                             for normal data.
1567 
1568 **/
1569 VOID
1570 EslSocketRxComplete (
1571   IN ESL_IO_MGMT * pIo,
1572   IN EFI_STATUS Status,
1573   IN UINTN LengthInBytes,
1574   IN BOOLEAN bUrgent
1575   );
1576 
1577 /**
1578   Poll a socket for pending receive activity.
1579 
1580   This routine is called at elivated TPL and extends the idle
1581   loop which polls a socket down into the LAN driver layer to
1582   determine if there is any receive activity.
1583 
1584   The ::EslSocketPoll, ::EslSocketReceive and ::EslSocketTransmit
1585   routines call this routine when there is nothing to do.
1586 
1587   @param [in] pSocket   Address of an ::EFI_SOCKET structure.
1588 
1589  **/
1590 VOID
1591 EslSocketRxPoll (
1592   IN ESL_SOCKET * pSocket
1593   );
1594 
1595 /**
1596   Start a receive operation
1597 
1598   This routine posts a receive buffer to the network adapter.
1599   See the \ref ReceiveEngine section.
1600 
1601   This support routine is called by:
1602   <ul>
1603     <li>::EslIp4Receive to restart the receive engine to release flow control.</li>
1604     <li>::EslIp4RxComplete to continue the operation of the receive engine if flow control is not being applied.</li>
1605     <li>::EslIp4SocketIsConfigured to start the recevie engine for the new socket.</li>
1606     <li>::EslTcp4ListenComplete to start the recevie engine for the new socket.</li>
1607     <li>::EslTcp4Receive to restart the receive engine to release flow control.</li>
1608     <li>::EslTcp4RxComplete to continue the operation of the receive engine if flow control is not being applied.</li>
1609     <li>::EslUdp4Receive to restart the receive engine to release flow control.</li>
1610     <li>::EslUdp4RxComplete to continue the operation of the receive engine if flow control is not being applied.</li>
1611     <li>::EslUdp4SocketIsConfigured to start the recevie engine for the new socket.</li>
1612   </ul>
1613 
1614   @param [in] pPort       Address of an ::ESL_PORT structure.
1615 
1616  **/
1617 VOID
1618 EslSocketRxStart (
1619   IN ESL_PORT * pPort
1620   );
1621 
1622 /**
1623   Complete the transmit operation
1624 
1625   This support routine handles the transmit completion processing for
1626   the various network layers.  It frees the ::ESL_IO_MGMT structure
1627   and and frees packet resources by calling ::EslSocketPacketFree.
1628   Transmit errors are logged in ESL_SOCKET::TxError.
1629   See the \ref TransmitEngine section.
1630 
1631   This routine is called by:
1632   <ul>
1633     <li>::EslIp4TxComplete</li>
1634     <li>::EslTcp4TxComplete</li>
1635     <li>::EslTcp4TxOobComplete</li>
1636     <li>::EslUdp4TxComplete</li>
1637   </ul>
1638 
1639   @param [in] pIo             Address of an ::ESL_IO_MGMT structure
1640   @param [in] LengthInBytes   Length of the data in bytes
1641   @param [in] Status          Transmit operation status
1642   @param [in] pQueueType      Zero terminated string describing queue type
1643   @param [in] ppQueueHead     Transmit queue head address
1644   @param [in] ppQueueTail     Transmit queue tail address
1645   @param [in] ppActive        Active transmit queue address
1646   @param [in] ppFree          Free transmit queue address
1647 
1648  **/
1649 VOID
1650 EslSocketTxComplete (
1651   IN ESL_IO_MGMT * pIo,
1652   IN UINT32 LengthInBytes,
1653   IN EFI_STATUS Status,
1654   IN CONST CHAR8 * pQueueType,
1655   IN ESL_PACKET ** ppQueueHead,
1656   IN ESL_PACKET ** ppQueueTail,
1657   IN ESL_IO_MGMT ** ppActive,
1658   IN ESL_IO_MGMT ** ppFree
1659   );
1660 
1661 /**
1662   Transmit data using a network connection.
1663 
1664   This support routine starts a transmit operation on the
1665   underlying network layer.
1666 
1667   The network specific code calls this routine to start a
1668   transmit operation.  See the \ref TransmitEngine section.
1669 
1670   @param [in] pPort           Address of an ::ESL_PORT structure
1671   @param [in] ppQueueHead     Transmit queue head address
1672   @param [in] ppQueueTail     Transmit queue tail address
1673   @param [in] ppActive        Active transmit queue address
1674   @param [in] ppFree          Free transmit queue address
1675 
1676  **/
1677 VOID
1678 EslSocketTxStart (
1679   IN ESL_PORT * pPort,
1680   IN ESL_PACKET ** ppQueueHead,
1681   IN ESL_PACKET ** ppQueueTail,
1682   IN ESL_IO_MGMT ** ppActive,
1683   IN ESL_IO_MGMT ** ppFree
1684   );
1685 
1686 //------------------------------------------------------------------------------
1687 
1688 #endif  //  _SOCKET_H_
1689