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[strongswan.git] / src / libcharon / sa / task.h
1 /*
2 * Copyright (C) 2007 Tobias Brunner
3 * Copyright (C) 2006 Martin Willi
4 * Hochschule fuer Technik Rapperswil
5 *
6 * This program is free software; you can redistribute it and/or modify it
7 * under the terms of the GNU General Public License as published by the
8 * Free Software Foundation; either version 2 of the License, or (at your
9 * option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
10 *
11 * This program is distributed in the hope that it will be useful, but
12 * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
13 * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 * for more details.
15 */
16
17 /**
18 * @defgroup task task
19 * @{ @ingroup sa
20 */
21
22 #ifndef TASK_H_
23 #define TASK_H_
24
25 typedef enum task_type_t task_type_t;
26 typedef struct task_t task_t;
27
28 #include <library.h>
29 #include <sa/ike_sa.h>
30 #include <encoding/message.h>
31
32 /**
33 * Different kinds of tasks.
34 */
35 enum task_type_t {
36 /** establish an unauthenticated IKE_SA */
37 TASK_IKE_INIT,
38 /** detect NAT situation */
39 TASK_IKE_NATD,
40 /** handle MOBIKE stuff */
41 TASK_IKE_MOBIKE,
42 /** authenticate the initiated IKE_SA */
43 TASK_IKE_AUTH,
44 /** AUTH_LIFETIME negotiation, RFC4478 */
45 TASK_IKE_AUTH_LIFETIME,
46 /** certificate processing before authentication (certreqs, cert parsing) */
47 TASK_IKE_CERT_PRE,
48 /** certificate processing after authentication (certs payload generation) */
49 TASK_IKE_CERT_POST,
50 /** Configuration payloads, virtual IP and such */
51 TASK_IKE_CONFIG,
52 /** rekey an IKE_SA */
53 TASK_IKE_REKEY,
54 /** reestablish a complete IKE_SA */
55 TASK_IKE_REAUTH,
56 /** delete an IKE_SA */
57 TASK_IKE_DELETE,
58 /** liveness check */
59 TASK_IKE_DPD,
60 /** Vendor ID processing */
61 TASK_IKE_VENDOR,
62 #ifdef ME
63 /** handle ME stuff */
64 TASK_IKE_ME,
65 #endif /* ME */
66 /** establish a CHILD_SA within an IKE_SA */
67 TASK_CHILD_CREATE,
68 /** delete an established CHILD_SA */
69 TASK_CHILD_DELETE,
70 /** rekey a CHILD_SA */
71 TASK_CHILD_REKEY,
72 /** IKEv1 main mode */
73 TASK_MAIN_MODE,
74 /** IKEv1 aggressive mode */
75 TASK_AGGRESSIVE_MODE,
76 /** IKEv1 informational exchange */
77 TASK_INFORMATIONAL,
78 /** IKEv1 delete using an informational */
79 TASK_ISAKMP_DELETE,
80 /** IKEv1 XAUTH authentication */
81 TASK_XAUTH,
82 /** IKEv1 Mode Config */
83 TASK_MODE_CONFIG,
84 /** IKEv1 quick mode */
85 TASK_QUICK_MODE,
86 /** IKEv1 delete of a quick mode SA */
87 TASK_QUICK_DELETE,
88 /** IKEv1 vendor ID payload handling */
89 TASK_ISAKMP_VENDOR,
90 /** IKEv1 NAT detection */
91 TASK_ISAKMP_NATD,
92 /** IKEv1 DPD */
93 TASK_ISAKMP_DPD,
94 /** IKEv1 pre-authentication certificate handling */
95 TASK_ISAKMP_CERT_PRE,
96 /** IKEv1 post-authentication certificate handling */
97 TASK_ISAKMP_CERT_POST,
98 };
99
100 /**
101 * enum names for task_type_t.
102 */
103 extern enum_name_t *task_type_names;
104
105 /**
106 * Interface for a task, an operation handled within exchanges.
107 *
108 * A task is an elemantary operation. It may be handled by a single or by
109 * multiple exchanges. An exchange may even complete multiple tasks.
110 * A task has a build() and an process() operation. The build() operation
111 * creates payloads and adds it to the message. The process() operation
112 * inspects a message and handles its payloads. An initiator of an exchange
113 * first calls build() to build the request, and processes the response message
114 * with the process() method.
115 * A responder does the opposite; it calls process() first to handle an incoming
116 * request and secondly calls build() to build an appropriate response.
117 * Both methods return either SUCCESS, NEED_MORE or FAILED. A SUCCESS indicates
118 * that the task completed, even when the task completed unsuccessfully. The
119 * manager then removes the task from the list. A NEED_MORE is returned when
120 * the task needs further build()/process() calls to complete, the manager
121 * leaves the taks in the queue. A returned FAILED indicates a critical failure.
122 * The manager closes the IKE_SA whenever a task returns FAILED.
123 */
124 struct task_t {
125
126 /**
127 * Build a request or response message for this task.
128 *
129 * @param message message to add payloads to
130 * @return
131 * - FAILED if a critical error occurred
132 * - DESTROY_ME if IKE_SA has been properly deleted
133 * - NEED_MORE if another call to build/process needed
134 * - ALREADY_DONE to cancel task processing
135 * - SUCCESS if task completed
136 */
137 status_t (*build) (task_t *this, message_t *message);
138
139 /**
140 * Process a request or response message for this task.
141 *
142 * @param message message to read payloads from
143 * @return
144 * - FAILED if a critical error occurred
145 * - DESTROY_ME if IKE_SA has been properly deleted
146 * - NEED_MORE if another call to build/process needed
147 * - ALREADY_DONE to cancel task processing
148 * - SUCCESS if task completed
149 */
150 status_t (*process) (task_t *this, message_t *message);
151
152 /**
153 * Get the type of the task implementation.
154 */
155 task_type_t (*get_type) (task_t *this);
156
157 /**
158 * Migrate a task to a new IKE_SA.
159 *
160 * After migrating a task, it goes back to a state where it can be
161 * used again to initate an exchange. This is useful when a task
162 * has to get migrated to a new IKE_SA.
163 * A special usage is when a INVALID_KE_PAYLOAD is received. A call
164 * to reset resets the task, but uses another DH group for the next
165 * try.
166 * The ike_sa is the new IKE_SA this task belongs to and operates on.
167 *
168 * @param ike_sa new IKE_SA this task works for
169 */
170 void (*migrate) (task_t *this, ike_sa_t *ike_sa);
171
172 /**
173 * Destroys a task_t object.
174 */
175 void (*destroy) (task_t *this);
176 };
177
178 #endif /** TASK_H_ @}*/