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1 /** @file
2   EFI IPsec Configuration Protocol Definition
3   The EFI_IPSEC_CONFIG_PROTOCOL provides the mechanism to set and retrieve security and
4   policy related information for the EFI IPsec protocol driver.
5 
6   Copyright (c) 2009 - 2011, Intel Corporation. All rights reserved.<BR>
7   This program and the accompanying materials
8   are licensed and made available under the terms and conditions of the BSD License
9   which accompanies this distribution.  The full text of the license may be found at
10   http://opensource.org/licenses/bsd-license.php
11 
12   THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
13   WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
14 
15   @par Revision Reference:
16   This Protocol is introduced in UEFI Specification 2.2
17 
18 **/
19 
20 #ifndef __EFI_IPSE_CCONFIG_PROTOCOL_H__
21 #define __EFI_IPSE_CCONFIG_PROTOCOL_H__
22 
23 
24 #define EFI_IPSEC_CONFIG_PROTOCOL_GUID \
25   { \
26     0xce5e5929, 0xc7a3, 0x4602, {0xad, 0x9e, 0xc9, 0xda, 0xf9, 0x4e, 0xbf, 0xcf } \
27   }
28 
29 typedef struct _EFI_IPSEC_CONFIG_PROTOCOL EFI_IPSEC_CONFIG_PROTOCOL;
30 
31 ///
32 /// EFI_IPSEC_CONFIG_DATA_TYPE
33 ///
34 typedef enum {
35   ///
36   /// The IPsec Security Policy Database (aka SPD) setting.  In IPsec,
37   /// an essential element of Security Association (SA) processing is
38   /// underlying SPD that specifies what services are to be offered to
39   /// IP datagram and in what fashion. The SPD must be consulted
40   /// during the processing of all traffic (inbound and outbound),
41   /// including traffic not protected by IPsec, that traverses the IPsec
42   /// boundary. With this DataType, SetData() function is to set
43   /// the SPD entry information, which may add one new entry, delete
44   /// one existed entry or flush the whole database according to the
45   /// parameter values. The corresponding Data is of type
46   /// EFI_IPSEC_SPD_DATA
47   ///
48   IPsecConfigDataTypeSpd,
49   ///
50   /// The IPsec Security Association Database (aka SAD) setting. A
51   /// SA is a simplex connection that affords security services to the
52   /// traffic carried by it. Security services are afforded to an SA by the
53   /// use of AH, or ESP, but not both. The corresponding Data is of
54   /// type EFI_IPSEC_SAD_DATA.
55   ///
56   IPsecConfigDataTypeSad,
57   ///
58   /// The IPsec Peer Authorization Database (aka PAD) setting, which
59   /// provides the link between the SPD and a security association
60   /// management protocol. The PAD entry specifies the
61   /// authentication protocol (e.g. IKEv1, IKEv2) method used and the
62   /// authentication data. The corresponding Data is of type
63   /// EFI_IPSEC_PAD_DATA.
64   ///
65   IPsecConfigDataTypePad,
66   IPsecConfigDataTypeMaximum
67 } EFI_IPSEC_CONFIG_DATA_TYPE;
68 
69 ///
70 /// EFI_IP_ADDRESS_INFO
71 ///
72 typedef struct _EFI_IP_ADDRESS_INFO {
73   EFI_IP_ADDRESS  Address;      ///< The IPv4 or IPv6 address
74   UINT8           PrefixLength; ///< The length of the prefix associated with the Address.
75 } EFI_IP_ADDRESS_INFO;
76 
77 
78 ///
79 /// EFI_IPSEC_SPD_SELECTOR
80 ///
81 typedef struct _EFI_IPSEC_SPD_SELECTOR {
82   ///
83   /// Specifies the actual number of entries in LocalAddress.
84   ///
85   UINT32                          LocalAddressCount;
86   ///
87   /// A list of ranges of IPv4 or IPv6 addresses, which refers to the
88   /// addresses being protected by IPsec policy.
89   ///
90   EFI_IP_ADDRESS_INFO             *LocalAddress;
91   ///
92   /// Specifies the actual number of entries in RemoteAddress.
93   ///
94   UINT32                          RemoteAddressCount;
95   ///
96   /// A list of ranges of IPv4 or IPv6 addresses, which are peer entities
97   /// to LocalAddress.
98   ///
99   EFI_IP_ADDRESS_INFO             *RemoteAddress;
100   ///
101   /// Next layer protocol. Obtained from the IPv4 Protocol or the IPv6
102   /// Next Header fields. The next layer protocol is whatever comes
103   /// after any IP extension headers that are present. A zero value is a
104   /// wildcard that matches any value in NextLayerProtocol field.
105   ///
106   UINT16                          NextLayerProtocol;
107   ///
108   /// Local Port if the Next Layer Protocol uses two ports (as do TCP,
109   /// UDP, and others). A zero value is a wildcard that matches any
110   /// value in LocalPort field.
111   ///
112   UINT16                          LocalPort;
113   ///
114   /// A designed port range size. The start port is LocalPort, and
115   /// the total number of ports is described by LocalPortRange.
116   /// This field is ignored if NextLayerProtocol does not use
117   /// ports.
118   ///
119   UINT16                          LocalPortRange;
120   ///
121   /// Remote Port if the Next Layer Protocol uses two ports. A zero
122   /// value is a wildcard that matches any value in RemotePort field.
123   ///
124   UINT16                          RemotePort;
125   ///
126   /// A designed port range size. The start port is RemotePort, and
127   /// the total number of ports is described by RemotePortRange.
128   /// This field is ignored if NextLayerProtocol does not use ports.
129   ///
130   UINT16                          RemotePortRange;
131 } EFI_IPSEC_SPD_SELECTOR;
132 
133 ///
134 /// EFI_IPSEC_TRAFFIC_DIR
135 /// represents the directionality in an SPD entry.
136 ///
137 typedef enum {
138   ///
139   /// The EfiIPsecInBound refers to traffic entering an IPsec implementation via
140   /// the unprotected interface or emitted by the implementation on the unprotected
141   /// side of the boundary and directed towards the protected interface.
142   ///
143   EfiIPsecInBound,
144   ///
145   /// The EfiIPsecOutBound refers to traffic entering the implementation via
146   /// the protected interface, or emitted by the implementation on the protected side
147   /// of the boundary and directed toward the unprotected interface.
148   ///
149   EfiIPsecOutBound
150 } EFI_IPSEC_TRAFFIC_DIR;
151 
152 ///
153 /// EFI_IPSEC_ACTION
154 /// represents three possible processing choices.
155 ///
156 typedef enum {
157   ///
158   /// Refers to traffic that is not allowed to traverse the IPsec boundary.
159   ///
160   EfiIPsecActionDiscard,
161   ///
162   /// Refers to traffic that is allowed to cross the IPsec boundary
163   /// without protection.
164   ///
165   EfiIPsecActionBypass,
166   ///
167   /// Refers to traffic that is afforded IPsec protection, and for such
168   /// traffic the SPD must specify the security protocols to be
169   /// employed, their mode, security service options, and the
170   /// cryptographic algorithms to be used.
171   ///
172   EfiIPsecActionProtect
173 } EFI_IPSEC_ACTION;
174 
175 ///
176 /// EFI_IPSEC_SA_LIFETIME
177 /// defines the lifetime of an SA, which represents when a SA must be
178 /// replaced or terminated. A value of all 0 for each field removes
179 /// the limitation of a SA lifetime.
180 ///
181 typedef struct _EFI_IPSEC_SA_LIFETIME {
182   ///
183   /// The number of bytes to which the IPsec cryptographic algorithm
184   /// can be applied. For ESP, this is the encryption algorithm and for
185   /// AH, this is the authentication algorithm. The ByteCount
186   /// includes pad bytes for cryptographic operations.
187   ///
188   UINT64        ByteCount;
189   ///
190   /// A time interval in second that warns the implementation to
191   /// initiate action such as setting up a replacement SA.
192   ///
193   UINT64        SoftLifetime;
194   ///
195   /// A time interval in second when the current SA ends and is
196   /// destroyed.
197   ///
198   UINT64        HardLifetime;
199 } EFI_IPSEC_SA_LIFETIME;
200 
201 ///
202 /// EFI_IPSEC_MODE
203 /// There are two modes of IPsec operation: transport mode and tunnel mode. In
204 /// EfiIPsecTransport mode, AH and ESP provide protection primarily for next layer protocols;
205 /// In EfiIPsecTunnel mode, AH and ESP are applied to tunneled IP packets.
206 ///
207 typedef enum {
208   EfiIPsecTransport,
209   EfiIPsecTunnel
210 } EFI_IPSEC_MODE;
211 
212 ///
213 /// EFI_IPSEC_TUNNEL_DF_OPTION
214 /// The option of copying the DF bit from an outbound package to
215 /// the tunnel mode header that it emits, when traffic is carried
216 /// via a tunnel mode SA. This applies to SAs where both inner and
217 /// outer headers are IPv4.
218 ///
219 typedef enum {
220   EfiIPsecTunnelClearDf,  ///< Clear DF bit from inner header.
221   EfiIPsecTunnelSetDf,    ///< Set DF bit from inner header.
222   EfiIPsecTunnelCopyDf    ///< Copy DF bit from inner header.
223 } EFI_IPSEC_TUNNEL_DF_OPTION;
224 
225 ///
226 /// EFI_IPSEC_TUNNEL_OPTION
227 ///
228 typedef struct _EFI_IPSEC_TUNNEL_OPTION {
229   ///
230   /// Local tunnel address when IPsec mode is EfiIPsecTunnel.
231   ///
232   EFI_IP_ADDRESS              LocalTunnelAddress;
233   ///
234   /// Remote tunnel address when IPsec mode is EfiIPsecTunnel.
235   ///
236   EFI_IP_ADDRESS              RemoteTunnelAddress;
237   ///
238   /// The option of copying the DF bit from an outbound package
239   /// to the tunnel mode header that it emits, when traffic is
240   /// carried via a tunnel mode SA.
241   ///
242   EFI_IPSEC_TUNNEL_DF_OPTION  DF;
243 } EFI_IPSEC_TUNNEL_OPTION;
244 
245 ///
246 /// EFI_IPSEC_PROTOCOL_TYPE
247 ///
248 typedef enum {
249   EfiIPsecAH,  ///< IP Authentication Header protocol which is specified in RFC 4302.
250   EfiIPsecESP  ///< IP Encapsulating Security Payload which is specified in RFC 4303.
251 } EFI_IPSEC_PROTOCOL_TYPE;
252 
253 ///
254 /// EFI_IPSEC_PROCESS_POLICY
255 /// describes a policy list for traffic processing.
256 ///
257 typedef struct _EFI_IPSEC_PROCESS_POLICY {
258   ///
259   /// Extended Sequence Number. Is this SA using extended sequence
260   /// numbers. 64 bit counter is used if TRUE.
261   ///
262   BOOLEAN                 ExtSeqNum;
263   ///
264   /// A flag indicating whether overflow of the sequence number
265   /// counter should generate an auditable event and prevent
266   /// transmission of additional packets on the SA, or whether rollover
267   /// is permitted.
268   ///
269   BOOLEAN                 SeqOverflow;
270   ///
271   /// Is this SA using stateful fragment checking. TRUE represents
272   /// stateful fragment checking.
273   ///
274   BOOLEAN                 FragCheck;
275   ///
276   /// A time interval after which a SA must be replaced with a new SA
277   /// (and new SPI) or terminated.
278   ///
279   EFI_IPSEC_SA_LIFETIME   SaLifetime;
280   ///
281   /// IPsec mode: tunnel or transport.
282   ///
283   EFI_IPSEC_MODE          Mode;
284   ///
285   /// Tunnel Option. TunnelOption is ignored if Mode is EfiIPsecTransport.
286   ///
287   EFI_IPSEC_TUNNEL_OPTION *TunnelOption;
288   ///
289   /// IPsec protocol: AH or ESP
290   ///
291   EFI_IPSEC_PROTOCOL_TYPE Proto;
292   ///
293   /// Cryptographic algorithm type used for authentication.
294   ///
295   UINT8                   AuthAlgoId;
296   ///
297   /// Cryptographic algorithm type used for encryption. EncAlgo is
298   /// NULL when IPsec protocol is AH. For ESP protocol, EncAlgo
299   /// can also be used to describe the algorithm if a combined mode
300   /// algorithm is used.
301   ///
302   UINT8                   EncAlgoId;
303 } EFI_IPSEC_PROCESS_POLICY;
304 
305 ///
306 /// EFI_IPSEC_SA_ID
307 /// A triplet to identify an SA, consisting of the following members.
308 ///
309 typedef struct _EFI_IPSEC_SA_ID {
310   ///
311   /// Security Parameter Index (aka SPI).  An arbitrary 32-bit value
312   /// that is used by a receiver to identity the SA to which an incoming
313   /// package should be bound.
314   ///
315   UINT32                          Spi;
316   ///
317   /// IPsec protocol: AH or ESP
318   ///
319   EFI_IPSEC_PROTOCOL_TYPE         Proto;
320   ///
321   /// Destination IP address.
322   ///
323   EFI_IP_ADDRESS                  DestAddress;
324 } EFI_IPSEC_SA_ID;
325 
326 
327 #define MAX_PEERID_LEN     128
328 
329 ///
330 /// EFI_IPSEC_SPD_DATA
331 ///
332 typedef struct _EFI_IPSEC_SPD_DATA {
333   ///
334   /// A null-terminated ASCII name string which is used as a symbolic
335   /// identifier for an IPsec Local or Remote address.
336   ///
337   UINT8                           Name[MAX_PEERID_LEN];
338   ///
339   /// Bit-mapped list describing Populate from Packet flags. When
340   /// creating a SA, if PackageFlag bit is set to TRUE, instantiate
341   /// the selector from the corresponding field in the package that
342   /// triggered the creation of the SA, else from the value(s) in the
343   /// corresponding SPD entry. The PackageFlag bit setting for
344   /// corresponding selector field of EFI_IPSEC_SPD_SELECTOR:
345   ///     Bit 0: EFI_IPSEC_SPD_SELECTOR.LocalAddress
346   ///     Bit 1: EFI_IPSEC_SPD_SELECTOR.RemoteAddress
347   ///     Bit 2:
348   /// EFI_IPSEC_SPD_SELECTOR.NextLayerProtocol
349   ///     Bit 3: EFI_IPSEC_SPD_SELECTOR.LocalPort
350   ///     Bit 4: EFI_IPSEC_SPD_SELECTOR.RemotePort
351   ///     Others: Reserved.
352   ///
353   UINT32                          PackageFlag;
354   ///
355   /// The traffic direction of data gram.
356   ///
357   EFI_IPSEC_TRAFFIC_DIR           TrafficDirection;
358   ///
359   /// Processing choices to indicate which action is required by this
360   /// policy.
361   ///
362   EFI_IPSEC_ACTION                Action;
363   ///
364   /// The policy and rule information for a SPD entry.
365   ///
366   EFI_IPSEC_PROCESS_POLICY        *ProcessingPolicy;
367   ///
368   /// Specifies the actual number of entries in SaId list.
369   ///
370   UINTN                           SaIdCount;
371   ///
372   /// The SAD entry used for the traffic processing. The
373   /// existed SAD entry links indicate this is the manual key case.
374   ///
375   EFI_IPSEC_SA_ID                 SaId[1];
376 } EFI_IPSEC_SPD_DATA;
377 
378 ///
379 /// EFI_IPSEC_AH_ALGO_INFO
380 /// The security algorithm selection for IPsec AH authentication.
381 /// The required authentication algorithm is specified in RFC 4305.
382 ///
383 typedef struct _EFI_IPSEC_AH_ALGO_INFO {
384   UINT8                           AuthAlgoId;
385   UINTN                           AuthKeyLength;
386   VOID                            *AuthKey;
387 } EFI_IPSEC_AH_ALGO_INFO;
388 
389 ///
390 /// EFI_IPSEC_ESP_ALGO_INFO
391 /// The security algorithm selection for IPsec ESP encryption and authentication.
392 /// The required authentication algorithm is specified in RFC 4305.
393 /// EncAlgoId fields can also specify an ESP combined mode algorithm
394 /// (e.g. AES with CCM mode, specified in RFC 4309), which provides both
395 /// confidentiality and authentication services.
396 ///
397 typedef struct _EFI_IPSEC_ESP_ALGO_INFO {
398   UINT8                     EncAlgoId;
399   UINTN                     EncKeyLength;
400   VOID                      *EncKey;
401   UINT8                     AuthAlgoId;
402   UINTN                     AuthKeyLength;
403   VOID                      *AuthKey;
404 } EFI_IPSEC_ESP_ALGO_INFO;
405 
406 ///
407 /// EFI_IPSEC_ALGO_INFO
408 ///
409 typedef union {
410   EFI_IPSEC_AH_ALGO_INFO          AhAlgoInfo;
411   EFI_IPSEC_ESP_ALGO_INFO         EspAlgoInfo;
412 } EFI_IPSEC_ALGO_INFO;
413 
414 ///
415 /// EFI_IPSEC_SA_DATA
416 ///
417 typedef struct _EFI_IPSEC_SA_DATA {
418   ///
419   /// IPsec mode: tunnel or transport.
420   ///
421   EFI_IPSEC_MODE                  Mode;
422   ///
423   /// Sequence Number Counter. A 64-bit counter used to generate the
424   /// sequence number field in AH or ESP headers.
425   ///
426   UINT64                          SNCount;
427   ///
428   /// Anti-Replay Window. A 64-bit counter and a bit-map used to
429   /// determine whether an inbound AH or ESP packet is a replay.
430   ///
431   UINT8                           AntiReplayWindows;
432   ///
433   /// AH/ESP cryptographic algorithm, key and parameters.
434   ///
435   EFI_IPSEC_ALGO_INFO             AlgoInfo;
436   ///
437   /// Lifetime of this SA.
438   ///
439   EFI_IPSEC_SA_LIFETIME           SaLifetime;
440   ///
441   /// Any observed path MTU and aging variables. The Path MTU
442   /// processing is defined in section 8 of RFC 4301.
443   ///
444   UINT32                          PathMTU;
445   ///
446   /// Link to one SPD entry.
447   ///
448   EFI_IPSEC_SPD_SELECTOR          *SpdSelector;
449   ///
450   /// Indication of whether it's manually set or negotiated automatically.
451   /// If ManualSet is FALSE, the corresponding SA entry is inserted through
452   /// IKE protocol negotiation.
453   ///
454   BOOLEAN                         ManualSet;
455 } EFI_IPSEC_SA_DATA;
456 
457 ///
458 /// EFI_IPSEC_SA_DATA2
459 ///
460 typedef struct _EFI_IPSEC_SA_DATA2 {
461   ///
462   /// IPsec mode: tunnel or transport
463   ///
464   EFI_IPSEC_MODE             Mode;
465   ///
466   /// Sequence Number Counter. A 64-bit counter used to generate the sequence
467   /// number field in AH or ESP headers.
468   ///
469   UINT64                     SNCount;
470   ///
471   /// Anti-Replay Window. A 64-bit counter and a bit-map used to determine
472   /// whether an inbound AH or ESP packet is a replay.
473   ///
474   UINT8                      AntiReplayWindows;
475   ///
476   /// AH/ESP cryptographic algorithm, key and parameters.
477   ///
478   EFI_IPSEC_ALGO_INFO        AlgoInfo;
479   ///
480   /// Lifetime of this SA.
481   ///
482   EFI_IPSEC_SA_LIFETIME      SaLifetime;
483   ///
484   /// Any observed path MTU and aging variables. The Path MTU processing is
485   /// defined in section 8 of RFC 4301.
486   ///
487   UINT32                     PathMTU;
488   ///
489   /// Link to one SPD entry
490   ///
491   EFI_IPSEC_SPD_SELECTOR     *SpdSelector;
492   ///
493   /// Indication of whether it's manually set or negotiated automatically.
494   /// If ManualSet is FALSE, the corresponding SA entry is inserted through IKE
495   /// protocol negotiation
496   ///
497   BOOLEAN                    ManualSet;
498   ///
499   /// The tunnel header IP source address.
500   ///
501   EFI_IP_ADDRESS             TunnelSourceAddress;
502   ///
503   /// The tunnel header IP destination address.
504   ///
505   EFI_IP_ADDRESS             TunnelDestinationAddress;
506 } EFI_IPSEC_SA_DATA2;
507 
508 
509 ///
510 /// EFI_IPSEC_PAD_ID
511 /// specifies the identifier for PAD entry, which is also used for SPD lookup.
512 /// IpAddress Pointer to the IPv4 or IPv6 address range.
513 ///
514 typedef struct _EFI_IPSEC_PAD_ID {
515   ///
516   /// Flag to identify which type of PAD Id is used.
517   ///
518   BOOLEAN               PeerIdValid;
519   union {
520     ///
521     /// Pointer to the IPv4 or IPv6 address range.
522     ///
523     EFI_IP_ADDRESS_INFO   IpAddress;
524     ///
525     /// Pointer to a null terminated ASCII string
526     /// representing the symbolic names. A PeerId can be a DNS
527     /// name, Distinguished Name, RFC 822 email address or Key ID
528     /// (specified in section 4.4.3.1 of RFC 4301)
529     ///
530     UINT8                 PeerId[MAX_PEERID_LEN];
531   } Id;
532 } EFI_IPSEC_PAD_ID;
533 
534 ///
535 /// EFI_IPSEC_CONFIG_SELECTOR
536 /// describes the expected IPsec configuration data selector
537 /// of type EFI_IPSEC_CONFIG_DATA_TYPE.
538 ///
539 typedef union {
540   EFI_IPSEC_SPD_SELECTOR              SpdSelector;
541   EFI_IPSEC_SA_ID                     SaId;
542   EFI_IPSEC_PAD_ID                    PadId;
543 } EFI_IPSEC_CONFIG_SELECTOR;
544 
545 ///
546 /// EFI_IPSEC_AUTH_PROTOCOL_TYPE
547 /// defines the possible authentication protocol for IPsec
548 /// security association management.
549 ///
550 typedef enum {
551   EfiIPsecAuthProtocolIKEv1,
552   EfiIPsecAuthProtocolIKEv2,
553   EfiIPsecAuthProtocolMaximum
554 } EFI_IPSEC_AUTH_PROTOCOL_TYPE;
555 
556 ///
557 /// EFI_IPSEC_AUTH_METHOD
558 ///
559 typedef enum {
560   ///
561   /// Using Pre-shared Keys for manual security associations.
562   ///
563   EfiIPsecAuthMethodPreSharedSecret,
564   ///
565   /// IKE employs X.509 certificates for SA establishment.
566   ///
567   EfiIPsecAuthMethodCertificates,
568   EfiIPsecAuthMethodMaximum
569 } EFI_IPSEC_AUTH_METHOD;
570 
571 ///
572 /// EFI_IPSEC_PAD_DATA
573 ///
574 typedef struct _EFI_IPSEC_PAD_DATA {
575   ///
576   /// Authentication Protocol for IPsec security association  management.
577   ///
578   EFI_IPSEC_AUTH_PROTOCOL_TYPE  AuthProtocol;
579   ///
580   /// Authentication method used.
581   ///
582   EFI_IPSEC_AUTH_METHOD         AuthMethod;
583   ///
584   /// The IKE ID payload will be used as a symbolic name for SPD
585   /// lookup if IkeIdFlag is TRUE. Otherwise, the remote IP
586   /// address provided in traffic selector playloads will be used.
587   ///
588   BOOLEAN                       IkeIdFlag;
589   ///
590   /// The size of Authentication data buffer, in bytes.
591   ///
592   UINTN                         AuthDataSize;
593   ///
594   /// Buffer for Authentication data, (e.g., the pre-shared secret or the
595   /// trust anchor relative to which the peer's certificate will be
596   /// validated).
597   ///
598   VOID                          *AuthData;
599   ///
600   /// The size of RevocationData, in bytes
601   ///
602   UINTN                         RevocationDataSize;
603   ///
604   /// Pointer to CRL or OCSP data, if certificates are used for
605   /// authentication method.
606   ///
607   VOID                          *RevocationData;
608 } EFI_IPSEC_PAD_DATA;
609 
610 
611 /**
612   Set the security association, security policy and peer authorization configuration
613   information for the EFI IPsec driver.
614 
615   This function is used to set the IPsec configuration information of type DataType for
616   the EFI IPsec driver.
617   The IPsec configuration data has a unique selector/identifier separately to identify
618   a data entry. The selector structure depends on DataType's definition.
619   Using SetData() with a Data of NULL causes the IPsec configuration data entry identified
620   by DataType and Selector to be deleted.
621 
622   @param[in] This               Pointer to the EFI_IPSEC_CONFIG_PROTOCOL instance.
623   @param[in] DataType           The type of data to be set.
624   @param[in] Selector           Pointer to an entry selector on operated configuration data
625                                 specified by DataType. A NULL Selector causes the entire
626                                 specified-type configuration information to be flushed.
627   @param[in] Data               The data buffer to be set. The structure of the data buffer is
628                                 associated with the DataType.
629   @param[in] InsertBefore       Pointer to one entry selector which describes the expected
630                                 position the new data entry will be added. If InsertBefore is NULL,
631                                 the new entry will be appended the end of database.
632 
633   @retval EFI_SUCCESS           The specified configuration entry data is set successfully.
634   @retval EFI_INVALID_PARAMETER One or more of the following are TRUE:
635                                 - This is NULL.
636   @retval EFI_UNSUPPORTED       The specified DataType is not supported.
637   @retval EFI_OUT_OF_RESOURCED  The required system resource could not be allocated.
638 
639 **/
640 typedef
641 EFI_STATUS
642 (EFIAPI *EFI_IPSEC_CONFIG_SET_DATA)(
643   IN EFI_IPSEC_CONFIG_PROTOCOL        *This,
644   IN EFI_IPSEC_CONFIG_DATA_TYPE       DataType,
645   IN EFI_IPSEC_CONFIG_SELECTOR        *Selector,
646   IN VOID                             *Data,
647   IN EFI_IPSEC_CONFIG_SELECTOR        *InsertBefore   OPTIONAL
648   );
649 
650 /**
651   Return the configuration value for the EFI IPsec driver.
652 
653   This function lookup the data entry from IPsec database or IKEv2 configuration
654   information. The expected data type and unique identification are described in
655   DataType and Selector parameters.
656 
657   @param[in]      This          Pointer to the EFI_IPSEC_CONFIG_PROTOCOL instance.
658   @param[in]      DataType      The type of data to retrieve.
659   @param[in]      Selector      Pointer to an entry selector which is an identifier of the IPsec
660                                 configuration data entry.
661   @param[in, out] DataSize      On output the size of data returned in Data.
662   @param[out]     Data          The buffer to return the contents of the IPsec configuration data.
663                                 The type of the data buffer is associated with the DataType.
664 
665   @retval EFI_SUCCESS           The specified configuration data is got successfully.
666   @retval EFI_INVALID_PARAMETER One or more of the followings are TRUE:
667                                 - This is NULL.
668                                 - Selector is NULL.
669                                 - DataSize is NULL.
670                                 - Data is NULL and *DataSize is not zero
671   @retval EFI_NOT_FOUND         The configuration data specified by Selector is not found.
672   @retval EFI_UNSUPPORTED       The specified DataType is not supported.
673   @retval EFI_BUFFER_TOO_SMALL  The DataSize is too small for the result. DataSize has been
674                                 updated with the size needed to complete the request.
675 
676 **/
677 typedef
678 EFI_STATUS
679 (EFIAPI *EFI_IPSEC_CONFIG_GET_DATA)(
680   IN EFI_IPSEC_CONFIG_PROTOCOL        *This,
681   IN EFI_IPSEC_CONFIG_DATA_TYPE       DataType,
682   IN EFI_IPSEC_CONFIG_SELECTOR        *Selector,
683   IN OUT UINTN                        *DataSize,
684   OUT VOID                            *Data
685   );
686 
687 /**
688   Enumerates the current selector for IPsec configuration data entry.
689 
690   This function is called multiple times to retrieve the entry Selector in IPsec
691   configuration database. On each call to GetNextSelector(), the next entry
692   Selector are retrieved into the output interface.
693 
694   If the entire IPsec configuration database has been iterated, the error
695   EFI_NOT_FOUND is returned.
696   If the Selector buffer is too small for the next Selector copy, an
697   EFI_BUFFER_TOO_SMALL error is returned, and SelectorSize is updated to reflect
698   the size of buffer needed.
699 
700   On the initial call to GetNextSelector() to start the IPsec configuration database
701   search, a pointer to the buffer with all zero value is passed in Selector. Calls
702   to SetData() between calls to GetNextSelector may produce unpredictable results.
703 
704   @param[in]      This          Pointer to the EFI_IPSEC_CONFIG_PROTOCOL instance.
705   @param[in]      DataType      The type of IPsec configuration data to retrieve.
706   @param[in, out] SelectorSize  The size of the Selector buffer.
707   @param[in, out] Selector      On input, supplies the pointer to last Selector that was
708                                 returned by GetNextSelector().
709                                 On output, returns one copy of the current entry Selector
710                                 of a given DataType.
711 
712   @retval EFI_SUCCESS           The specified configuration data is got successfully.
713   @retval EFI_INVALID_PARAMETER One or more of the followings are TRUE:
714                                 - This is NULL.
715                                 - SelectorSize is NULL.
716                                 - Selector is NULL.
717   @retval EFI_NOT_FOUND         The next configuration data entry was not found.
718   @retval EFI_UNSUPPORTED       The specified DataType is not supported.
719   @retval EFI_BUFFER_TOO_SMALL  The SelectorSize is too small for the result. This parameter
720                                 has been updated with the size needed to complete the search
721                                 request.
722 
723 **/
724 typedef
725 EFI_STATUS
726 (EFIAPI *EFI_IPSEC_CONFIG_GET_NEXT_SELECTOR)(
727   IN EFI_IPSEC_CONFIG_PROTOCOL        *This,
728   IN EFI_IPSEC_CONFIG_DATA_TYPE       DataType,
729   IN OUT UINTN                        *SelectorSize,
730   IN OUT EFI_IPSEC_CONFIG_SELECTOR    *Selector
731   );
732 
733 /**
734   Register an event that is to be signaled whenever a configuration process on the
735   specified IPsec configuration information is done.
736 
737   This function registers an event that is to be signaled whenever a configuration
738   process on the specified IPsec configuration data is done (e.g. IPsec security
739   policy database configuration is ready). An event can be registered for different
740   DataType simultaneously and the caller is responsible for determining which type
741   of configuration data causes the signaling of the event in such case.
742 
743   @param[in] This               Pointer to the EFI_IPSEC_CONFIG_PROTOCOL instance.
744   @param[in] DataType           The type of data to be registered the event for.
745   @param[in] Event              The event to be registered.
746 
747   @retval EFI_SUCCESS           The event is registered successfully.
748   @retval EFI_INVALID_PARAMETER This is NULL or Event is NULL.
749   @retval EFI_ACCESS_DENIED     The Event is already registered for the DataType.
750   @retval EFI_UNSUPPORTED       The notify registration unsupported or the specified
751                                 DataType is not supported.
752 
753 **/
754 typedef
755 EFI_STATUS
756 (EFIAPI *EFI_IPSEC_CONFIG_REGISTER_NOTIFY)(
757   IN EFI_IPSEC_CONFIG_PROTOCOL        *This,
758   IN EFI_IPSEC_CONFIG_DATA_TYPE       DataType,
759   IN EFI_EVENT                        Event
760   );
761 
762 /**
763   Remove the specified event that is previously registered on the specified IPsec
764   configuration data.
765 
766   This function removes a previously registered event for the specified configuration data.
767 
768   @param[in] This               Pointer to the EFI_IPSEC_CONFIG_PROTOCOL instance.
769   @param[in] DataType           The configuration data type to remove the registered event for.
770   @param[in] Event              The event to be unregistered.
771 
772   @retval EFI_SUCCESS           The event is removed successfully.
773   @retval EFI_NOT_FOUND         The Event specified by DataType could not be found in the
774                                 database.
775   @retval EFI_INVALID_PARAMETER This is NULL or Event is NULL.
776   @retval EFI_UNSUPPORTED       The notify registration unsupported or the specified
777                                 DataType is not supported.
778 
779 **/
780 typedef
781 EFI_STATUS
782 (EFIAPI *EFI_IPSEC_CONFIG_UNREGISTER_NOTIFY)(
783   IN EFI_IPSEC_CONFIG_PROTOCOL        *This,
784   IN EFI_IPSEC_CONFIG_DATA_TYPE       DataType,
785   IN EFI_EVENT                        Event
786   );
787 
788 ///
789 /// EFI_IPSEC_CONFIG_PROTOCOL
790 /// provides the ability to set and lookup the IPsec SAD (Security Association Database),
791 /// SPD (Security Policy Database) data entry and configure the security association
792 /// management protocol such as IKEv2. This protocol is used as the central
793 /// repository of any policy-specific configuration for EFI IPsec driver.
794 /// EFI_IPSEC_CONFIG_PROTOCOL can be bound to both IPv4 and IPv6 stack. User can use this
795 /// protocol for IPsec configuration in both IPv4 and IPv6 environment.
796 ///
797 struct _EFI_IPSEC_CONFIG_PROTOCOL {
798   EFI_IPSEC_CONFIG_SET_DATA           SetData;
799   EFI_IPSEC_CONFIG_GET_DATA           GetData;
800   EFI_IPSEC_CONFIG_GET_NEXT_SELECTOR  GetNextSelector;
801   EFI_IPSEC_CONFIG_REGISTER_NOTIFY    RegisterDataNotify;
802   EFI_IPSEC_CONFIG_UNREGISTER_NOTIFY  UnregisterDataNotify;
803 };
804 
805 extern EFI_GUID gEfiIpSecConfigProtocolGuid;
806 
807 #endif
808