Annotation of embedaddon/strongswan/src/libcharon/sa/task_manager.h, revision 1.1
1.1 ! misho 1: /*
! 2: * Copyright (C) 2013-2018 Tobias Brunner
! 3: * Copyright (C) 2006 Martin Willi
! 4: * HSR 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_manager task_manager
! 19: * @{ @ingroup sa
! 20: */
! 21:
! 22: #ifndef TASK_MANAGER_H_
! 23: #define TASK_MANAGER_H_
! 24:
! 25: typedef struct task_manager_t task_manager_t;
! 26: typedef enum task_queue_t task_queue_t;
! 27:
! 28: #include <limits.h>
! 29:
! 30: #include <library.h>
! 31: #include <encoding/message.h>
! 32: #include <sa/ike_sa.h>
! 33: #include <sa/task.h>
! 34:
! 35: /**
! 36: * First retransmit timeout in seconds.
! 37: */
! 38: #define RETRANSMIT_TIMEOUT 4.0
! 39:
! 40: /**
! 41: * Base which is raised to the power of the retransmission try.
! 42: */
! 43: #define RETRANSMIT_BASE 1.8
! 44:
! 45: /**
! 46: * Number of retransmits done before giving up.
! 47: */
! 48: #define RETRANSMIT_TRIES 5
! 49:
! 50: /**
! 51: * Maximum jitter in percent.
! 52: */
! 53: #define RETRANSMIT_JITTER_MAX 20
! 54:
! 55: /**
! 56: * Interval for mobike routability checks in ms.
! 57: */
! 58: #define ROUTABILITY_CHECK_INTERVAL 2500
! 59:
! 60: /**
! 61: * Number of routability checks before giving up
! 62: */
! 63: #define ROUTABILITY_CHECK_TRIES 10
! 64:
! 65: /**
! 66: * Type of task queues the task manager uses to handle tasks
! 67: */
! 68: enum task_queue_t {
! 69: /** tasks currently active, initiated by us */
! 70: TASK_QUEUE_ACTIVE,
! 71: /** passive tasks initiated by the remote peer */
! 72: TASK_QUEUE_PASSIVE,
! 73: /** tasks queued for initiated, but not yet activated */
! 74: TASK_QUEUE_QUEUED,
! 75: };
! 76:
! 77: /**
! 78: * The task manager, juggles task and handles message exchanges.
! 79: *
! 80: * On incoming requests, the task manager creates new tasks on demand and
! 81: * juggles the request through all available tasks. Each task inspects the
! 82: * request and adds payloads as necessary to the response.
! 83: * On outgoing requests, the task manager delivers the request through the tasks
! 84: * to build it, the response gets processed by each task to complete.
! 85: * The task manager has an internal Queue to store task which should get
! 86: * completed.
! 87: * For the initial IKE_SA setup, several tasks are queued: One for the
! 88: * unauthenticated IKE_SA setup, one for authentication, one for CHILD_SA setup
! 89: * and maybe one for virtual IP assignment.
! 90: * The task manager is also responsible for retransmission. It uses a backoff
! 91: * algorithm. The timeout is calculated using
! 92: * RETRANSMIT_TIMEOUT * (RETRANSMIT_BASE ** try).
! 93: * When try reaches RETRANSMIT_TRIES, retransmission is given up.
! 94: *
! 95: * Using an initial TIMEOUT of 4s, a BASE of 1.8, and 5 TRIES gives us:
! 96: * @verbatim
! 97: | relative | absolute
! 98: ---------------------------------------------------------
! 99: 4s * (1.8 ** 0) = 4s 4s
! 100: 4s * (1.8 ** 1) = 7s 11s
! 101: 4s * (1.8 ** 2) = 13s 24s
! 102: 4s * (1.8 ** 3) = 23s 47s
! 103: 4s * (1.8 ** 4) = 42s 89s
! 104: 4s * (1.8 ** 5) = 76s 165s
! 105:
! 106: @endverbatim
! 107: * The peer is considered dead after 2min 45s when no reply comes in.
! 108: */
! 109: struct task_manager_t {
! 110:
! 111: /**
! 112: * Process an incoming message.
! 113: *
! 114: * @param message message to add payloads to
! 115: * @return
! 116: * - DESTROY_ME if IKE_SA must be closed
! 117: * - SUCCESS otherwise
! 118: */
! 119: status_t (*process_message) (task_manager_t *this, message_t *message);
! 120:
! 121: /**
! 122: * Initiate an exchange with the currently queued tasks.
! 123: */
! 124: status_t (*initiate) (task_manager_t *this);
! 125:
! 126: /**
! 127: * Queue a task in the manager.
! 128: *
! 129: * @param task task to queue
! 130: */
! 131: void (*queue_task)(task_manager_t *this, task_t *task);
! 132:
! 133: /**
! 134: * Queue a task in the manager, but delay its initiation for at least the
! 135: * given number of seconds.
! 136: *
! 137: * @param task task to queue
! 138: * @param delay minimum delay in s before initiating the task
! 139: */
! 140: void (*queue_task_delayed)(task_manager_t *this, task_t *task,
! 141: uint32_t delay);
! 142:
! 143: /**
! 144: * Queue IKE_SA establishing tasks.
! 145: */
! 146: void (*queue_ike)(task_manager_t *this);
! 147:
! 148: /**
! 149: * Queue IKE_SA rekey tasks.
! 150: */
! 151: void (*queue_ike_rekey)(task_manager_t *this);
! 152:
! 153: /**
! 154: * Queue IKE_SA reauth tasks.
! 155: */
! 156: void (*queue_ike_reauth)(task_manager_t *this);
! 157:
! 158: /**
! 159: * Queue MOBIKE task
! 160: *
! 161: * @param roam TRUE to switch to new address
! 162: * @param address TRUE to include address list update
! 163: */
! 164: void (*queue_mobike)(task_manager_t *this, bool roam, bool address);
! 165:
! 166: /**
! 167: * Queue IKE_SA delete tasks.
! 168: */
! 169: void (*queue_ike_delete)(task_manager_t *this);
! 170:
! 171: /**
! 172: * Queue CHILD_SA establishing tasks.
! 173: *
! 174: * @param cfg CHILD_SA config to establish
! 175: * @param reqid reqid to use for CHILD_SA
! 176: * @param tsi initiator traffic selector, if packet-triggered
! 177: * @param tsr responder traffic selector, if packet-triggered
! 178: */
! 179: void (*queue_child)(task_manager_t *this, child_cfg_t *cfg, uint32_t reqid,
! 180: traffic_selector_t *tsi, traffic_selector_t *tsr);
! 181:
! 182: /**
! 183: * Queue CHILD_SA rekeying tasks.
! 184: *
! 185: * @param protocol CHILD_SA protocol, AH|ESP
! 186: * @param spi CHILD_SA SPI to rekey
! 187: */
! 188: void (*queue_child_rekey)(task_manager_t *this, protocol_id_t protocol,
! 189: uint32_t spi);
! 190:
! 191: /**
! 192: * Queue CHILD_SA delete tasks.
! 193: *
! 194: * @param protocol CHILD_SA protocol, AH|ESP
! 195: * @param spi CHILD_SA SPI to rekey
! 196: * @param expired TRUE if SA already expired
! 197: */
! 198: void (*queue_child_delete)(task_manager_t *this, protocol_id_t protocol,
! 199: uint32_t spi, bool expired);
! 200:
! 201: /**
! 202: * Queue liveness checking tasks.
! 203: */
! 204: void (*queue_dpd)(task_manager_t *this);
! 205:
! 206: /**
! 207: * Retransmit a request if it hasn't been acknowledged yet.
! 208: *
! 209: * A return value of INVALID_STATE means that the message was already
! 210: * acknowledged and has not to be retransmitted. A return value of SUCCESS
! 211: * means retransmission was required and the message has been resent.
! 212: *
! 213: * @param message_id ID of the message to retransmit
! 214: * @return
! 215: * - INVALID_STATE if retransmission not required
! 216: * - SUCCESS if retransmission sent
! 217: */
! 218: status_t (*retransmit) (task_manager_t *this, uint32_t message_id);
! 219:
! 220: /**
! 221: * Migrate all queued tasks from other to this.
! 222: *
! 223: * To rekey or reestablish an IKE_SA completely, all queued or active
! 224: * tasks should get migrated to the new IKE_SA.
! 225: *
! 226: * @param other manager which gives away its tasks
! 227: */
! 228: void (*adopt_tasks) (task_manager_t *this, task_manager_t *other);
! 229:
! 230: /**
! 231: * Increment a message ID counter, in- or outbound.
! 232: *
! 233: * If a message is processed outside of the manager, this call increments
! 234: * the message ID counters of the task manager.
! 235: *
! 236: * @param initiate TRUE to increment the initiating ID
! 237: */
! 238: void (*incr_mid)(task_manager_t *this, bool initiate);
! 239:
! 240: /**
! 241: * Get the current message ID counter, in- or outbound.
! 242: *
! 243: * @param initiate TRUE to get the initiating ID
! 244: * @return current message ID
! 245: */
! 246: uint32_t (*get_mid)(task_manager_t *this, bool initiate);
! 247:
! 248: /**
! 249: * Reset message ID counters of the task manager.
! 250: *
! 251: * The IKEv2 protocol requires to restart exchanges with message IDs
! 252: * reset to zero (INVALID_KE_PAYLOAD, COOKIES, ...). The reset() method
! 253: * resets the message IDs and resets all active tasks using the migrate()
! 254: * method.
! 255: * Use a value of UINT_MAX to keep the current message ID.
! 256: * For IKEv1, the arguments do not set the message ID, but the DPD sequence
! 257: * number counters.
! 258: *
! 259: * @param initiate message ID / DPD seq to initiate exchanges (send)
! 260: * @param respond message ID / DPD seq to respond to exchanges (expect)
! 261: */
! 262: void (*reset)(task_manager_t *this, uint32_t initiate, uint32_t respond);
! 263:
! 264: /**
! 265: * Check if we are currently waiting for a reply.
! 266: *
! 267: * @return TRUE if we are waiting, FALSE otherwise
! 268: */
! 269: bool (*busy) (task_manager_t *this);
! 270:
! 271: /**
! 272: * Create an enumerator over tasks in a specific queue.
! 273: *
! 274: * @param queue queue to create an enumerator over
! 275: * @return enumerator over task_t
! 276: */
! 277: enumerator_t* (*create_task_enumerator)(task_manager_t *this,
! 278: task_queue_t queue);
! 279:
! 280: /**
! 281: * Remove the task the given enumerator points to.
! 282: *
! 283: * @note This should be used with caution, in particular, for tasks in the
! 284: * active and passive queues.
! 285: *
! 286: * @param enumerator enumerator created with the method above
! 287: */
! 288: void (*remove_task)(task_manager_t *this, enumerator_t *enumerator);
! 289:
! 290: /**
! 291: * Flush all tasks, regardless of the queue.
! 292: */
! 293: void (*flush)(task_manager_t *this);
! 294:
! 295: /**
! 296: * Flush a queue, cancelling all tasks.
! 297: *
! 298: * @param queue queue to flush
! 299: */
! 300: void (*flush_queue)(task_manager_t *this, task_queue_t queue);
! 301:
! 302: /**
! 303: * Destroy the task_manager_t.
! 304: */
! 305: void (*destroy) (task_manager_t *this);
! 306: };
! 307:
! 308: /**
! 309: * Calculate total timeout of the retransmission mechanism.
! 310: *
! 311: * This is affected by modifications of retransmit_base, retransmit_timeout,
! 312: * retransmit_limit or retransmit_tries. The resulting value can then be used
! 313: * e.g. in kernel plugins to set the system's acquire timeout properly.
! 314: *
! 315: * @return calculated total retransmission timeout in seconds
! 316: */
! 317: u_int task_manager_total_retransmit_timeout();
! 318:
! 319: /**
! 320: * Create a task manager instance for the correct IKE version.
! 321: *
! 322: * @param ike_sa IKE_SA to create a task manager for
! 323: * @return task manager implementation for IKE version
! 324: */
! 325: task_manager_t *task_manager_create(ike_sa_t *ike_sa);
! 326:
! 327: #endif /** TASK_MANAGER_H_ @}*/
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