1 /* Copyright (c) 2004-2014. The SimGrid Team.
2 * All rights reserved. */
4 /* This program is free software; you can redistribute it and/or modify it
5 * under the terms of the license (GNU LGPL) which comes with this package. */
11 #include "xbt/dynar.h"
13 #include "xbt/graph.h"
16 #include "xbt/config.h"
17 #include "surf/datatypes.h"
19 #include "surf/surf_routing.h"
20 #include "simgrid/platf_interface.h"
21 #include "simgrid/datatypes.h"
22 #include "simgrid/plugins.h"
25 /* Actions and models are highly connected structures... */
27 /* user-visible parameters */
28 extern double sg_tcp_gamma;
29 extern double sg_sender_gap;
30 extern double sg_latency_factor;
31 extern double sg_bandwidth_factor;
32 extern double sg_weight_S_parameter;
33 extern int sg_network_crosstraffic;
35 extern double sg_gtnets_jitter;
36 extern int sg_gtnets_jitter_seed;
38 extern xbt_dynar_t surf_path;
41 SURF_NETWORK_ELEMENT_NULL = 0, /* NULL */
42 SURF_NETWORK_ELEMENT_HOST, /* host type */
43 SURF_NETWORK_ELEMENT_ROUTER, /* router type */
44 SURF_NETWORK_ELEMENT_AS /* AS type */
45 } e_surf_network_element_type_t;
50 class WorkstationModel;
51 class WorkstationVMModel;
56 class WorkstationCLM03;
57 class NetworkCm02Link;
61 class StorageActionLmm;
66 typedef struct Model Model;
67 typedef struct CpuModel CpuModel;
68 typedef struct WorkstationModel WorkstationModel;
69 typedef struct WorkstationVMModel WorkstationVMModel;
70 typedef struct NetworkModel NetworkModel;
71 typedef struct StorageModel StorageModel;
72 typedef struct Resource Resource;
73 typedef struct ResourceLmm ResourceLmm;
74 typedef struct WorkstationCLM03 WorkstationCLM03;
75 typedef struct NetworkCm02Link NetworkCm02Link;
76 typedef struct Cpu Cpu;
77 typedef struct Action Action;
78 typedef struct ActionLmm ActionLmm;
79 typedef struct StorageActionLmm StorageActionLmm;
81 typedef struct RoutingEdge RoutingEdge;
82 typedef struct RoutingPlatf RoutingPlatf;
85 /** @ingroup SURF_c_bindings
86 * \brief Model datatype
88 * Generic data structure for a model. The workstations,
89 * the CPUs and the network links are examples of models.
91 typedef Model *surf_model_t;
92 typedef CpuModel *surf_cpu_model_t;
93 typedef WorkstationModel *surf_workstation_model_t;
94 typedef WorkstationVMModel *surf_vm_workstation_model_t;
96 typedef NetworkModel *surf_network_model_t;
97 typedef StorageModel *surf_storage_model_t;
99 typedef xbt_dictelm_t surf_resource_t;
100 typedef Resource *surf_cpp_resource_t;
101 typedef WorkstationCLM03 *surf_workstation_CLM03_t;
102 typedef NetworkCm02Link *surf_network_link_t;
103 typedef Cpu *surf_cpu_t;
105 /** @ingroup SURF_c_bindings
106 * \brief Action structure
108 * Never create s_surf_action_t by yourself ! The actions are created
109 * on the fly when you call execute or communicate on a model.
111 * \see e_surf_action_state_t
113 typedef Action *surf_action_t;
116 typedef RoutingEdge *routing_edge_t;
117 typedef RoutingPlatf *routing_platf_t;
119 typedef struct surf_file *surf_file_t;
121 XBT_PUBLIC(e_surf_network_element_type_t)
122 routing_get_network_element_type(const char* name);
124 /** @Brief Specify that we use that action */
125 XBT_PUBLIC(void) surf_action_ref(surf_action_t action);
127 /** @brief Creates a new action.
129 * @param size The size is the one of the subtype you want to create
130 * @param cost initial value
131 * @param model to which model we should attach this action
132 * @param failed whether we should start this action in failed mode
134 XBT_PUBLIC(void *) surf_action_new(size_t size, double cost,
135 surf_model_t model, int failed);
137 /** \brief Resource model description
139 typedef struct surf_model_description {
141 const char *description;
142 void_f_void_t model_init_preparse;
143 } s_surf_model_description_t, *surf_model_description_t;
145 XBT_PUBLIC(int) find_model_description(s_surf_model_description_t * table,
147 XBT_PUBLIC(void) model_help(const char *category,
148 s_surf_model_description_t * table);
150 /** @ingroup SURF_interface
151 * @brief Action states
158 SURF_ACTION_READY = 0, /**< Ready */
159 SURF_ACTION_RUNNING, /**< Running */
160 SURF_ACTION_FAILED, /**< Task Failure */
161 SURF_ACTION_DONE, /**< Completed */
162 SURF_ACTION_TO_FREE, /**< Action to free in next cleanup */
163 SURF_ACTION_NOT_IN_THE_SYSTEM
164 /**< Not in the system anymore. Why did you ask ? */
165 } e_surf_action_state_t;
167 /** @ingroup SURF_vm_interface
171 /* FIXME: Where should the VM state be defined? */
173 SURF_VM_STATE_CREATED, /**< created, but not yet started */
174 SURF_VM_STATE_RUNNING,
175 SURF_VM_STATE_SUSPENDED, /**< Suspend/resume does not involve disk I/O, so we assume there is no transition states. */
177 SURF_VM_STATE_SAVING, /**< Save/restore involves disk I/O, so there should be transition states. */
179 SURF_VM_STATE_RESTORING,
182 /***************************/
183 /* Generic model object */
184 /***************************/
186 //FIXME:REMOVE typedef struct s_routing_platf s_routing_platf_t, *routing_platf_t;
187 XBT_PUBLIC_DATA(routing_platf_t) routing_platf;
189 static inline void *surf_cpu_resource_priv(const void *host) {
190 return xbt_lib_get_level((xbt_dictelm_t)host, SURF_CPU_LEVEL);
192 static inline void *surf_workstation_resource_priv(const void *host){
193 return (void*)xbt_lib_get_level((xbt_dictelm_t)host, SURF_WKS_LEVEL);
195 static inline void *surf_routing_resource_priv(const void *host){
196 return (void*)xbt_lib_get_level((xbt_dictelm_t)host, ROUTING_HOST_LEVEL);
198 static inline void *surf_storage_resource_priv(const void *storage){
199 return (void*)xbt_lib_get_level((xbt_dictelm_t)storage, SURF_STORAGE_LEVEL);
202 static inline void *surf_cpu_resource_by_name(const char *name) {
203 return xbt_lib_get_elm_or_null(host_lib, name);
205 static inline void *surf_workstation_resource_by_name(const char *name){
206 return xbt_lib_get_elm_or_null(host_lib, name);
208 static inline void *surf_storage_resource_by_name(const char *name){
209 return xbt_lib_get_elm_or_null(storage_lib, name);
213 XBT_PUBLIC(char *) surf_routing_edge_name(sg_routing_edge_t edge);
214 XBT_PUBLIC(void *) surf_as_cluster_get_backbone(AS_t as);
215 XBT_PUBLIC(void) surf_as_cluster_set_backbone(AS_t as, void* backbone);
217 /** @{ @ingroup SURF_c_bindings */
220 * @brief Get the name of a surf model
222 * @param model A model
223 * @return The name of the model
225 XBT_PUBLIC(const char *) surf_model_name(surf_model_t model);
228 * @brief Pop an action from the done actions set
230 * @param model The model from which the action is extracted
231 * @return An action in done state
233 XBT_PUBLIC(surf_action_t) surf_model_extract_done_action_set(surf_model_t model);
236 * @brief Pop an action from the failed actions set
238 * @param model The model from which the action is extracted
239 * @return An action in failed state
241 XBT_PUBLIC(surf_action_t) surf_model_extract_failed_action_set(surf_model_t model);
244 * @brief Pop an action from the ready actions set
246 * @param model The model from which the action is extracted
247 * @return An action in ready state
249 XBT_PUBLIC(surf_action_t) surf_model_extract_ready_action_set(surf_model_t model);
252 * @brief Pop an action from the running actions set
254 * @param model The model from which the action is extracted
255 * @return An action in running state
257 XBT_PUBLIC(surf_action_t) surf_model_extract_running_action_set(surf_model_t model);
260 * @brief Get the size of the running action set of a model
262 * @param model The model
263 * @return The size of the running action set
265 XBT_PUBLIC(int) surf_model_running_action_set_size(surf_model_t model);
268 * @brief Execute a parallel task
269 * @details [long description]
271 * @param model The model which handle the parallelisation
272 * @param workstation_nb The number of workstations
273 * @param workstation_list The list of workstations on which the task is executed
274 * @param computation_amount The processing amount (in flop) needed to process
275 * @param communication_amount The amount of data (in bytes) needed to transfer
276 * @param rate [description]
277 * @return The action corresponding to the parallele execution task
279 XBT_PUBLIC(surf_action_t) surf_workstation_model_execute_parallel_task(surf_workstation_model_t model,
281 void **workstation_list,
282 double *computation_amount,
283 double *communication_amount,
287 * @brief Create a communication between two hosts
289 * @param model The model which handle the communication
290 * @param src The source host
291 * @param dst The destination host
292 * @param size The amount of data (in bytes) needed to transfer
293 * @param rate [description]
294 * @return The action corresponding to the communication
296 XBT_PUBLIC(surf_action_t) surf_workstation_model_communicate(surf_workstation_model_t model, surf_resource_t src, surf_resource_t dst, double size, double rate);
299 * @brief Get the route between two hosts
300 * @details [long description]
302 * @param model The model which handle the routes
303 * @param src The source host
304 * @param dst The destination host
305 * @return The list of [TODO] from the source to the host
307 XBT_PUBLIC(xbt_dynar_t) surf_workstation_model_get_route(surf_workstation_model_t model, surf_resource_t src, surf_resource_t dst);
310 * @brief Create a new VM on the specified host
312 * @param name The name of the workstation
313 * @param ind_phys_host The host on which the VM is created
315 XBT_PUBLIC(void) surf_vm_workstation_model_create(const char *name, surf_resource_t ind_phys_host);
318 * @brief Create a communication between two routing edges [TODO]
319 * @details [long description]
321 * @param model The model which handle the communication
322 * @param src The source host
323 * @param dst The destination host
324 * @param size The amount of data (in bytes) needed to transfer
325 * @param rate [description]
326 * @return The action corresponding to the communication
328 XBT_PUBLIC(surf_action_t) surf_network_model_communicate(surf_network_model_t model, sg_routing_edge_t src, sg_routing_edge_t dst, double size, double rate);
331 * @brief Get the name of a surf resource (cpu, workstation, network, …)
333 * @param resource The surf resource
334 * @return The name of the surf resource
336 XBT_PUBLIC(const char * ) surf_resource_name(surf_cpp_resource_t resource);
339 * @brief Get the properties of a surf resource (cpu, workstation, network, …)
341 * @param resource The surf resource
342 * @return The properties of the surf resource
344 XBT_PUBLIC(xbt_dict_t) surf_resource_get_properties(surf_cpp_resource_t resource);
347 * @brief Get the state of a surf resource (cpu, workstation, network, …)
349 * @param resource The surf resource
350 * @return The state of the surf resource
352 XBT_PUBLIC(e_surf_resource_state_t) surf_resource_get_state(surf_cpp_resource_t resource);
355 * @brief Set the state of a surf resource (cpu, workstation, network, …)
357 * @param resource The surf resource
358 * @param state The new state of the surf resource
360 XBT_PUBLIC(void) surf_resource_set_state(surf_cpp_resource_t resource, e_surf_resource_state_t state);
363 * @brief Get the speed of the cpu associtated to a workstation
365 * @param resource The surf workstation
366 * @param load [description]
368 * @return [description]
370 XBT_PUBLIC(double) surf_workstation_get_speed(surf_resource_t resource, double load);
373 * @brief Get the available speed of cpu associtated to a workstation
375 * @param resource The surf workstation
376 * @return [description]
378 XBT_PUBLIC(double) surf_workstation_get_available_speed(surf_resource_t resource);
381 * @brief Get the number of cores of the cpu associated to a workstation
383 * @param resource The surf workstation
384 * @return The number of cores
386 XBT_PUBLIC(int) surf_workstation_get_core(surf_resource_t resource);
389 * @brief Execute some quantity of computation
391 * @param resource The surf workstation
392 * @param size The value of the processing amount (in flop) needed to process
394 * @return The surf action corresponding to the processing
396 XBT_PUBLIC(surf_action_t) surf_workstation_execute(surf_resource_t resource, double size);
399 * @brief Make the workstation sleep
401 * @param resource The surf workstation
402 * @param duration The number of seconds to sleep
403 * @return The surf action corresponding to the sleep
405 XBT_PUBLIC(surf_action_t) surf_workstation_sleep(surf_resource_t resource, double duration);
408 * @brief Open a file on a workstation
410 * @param workstation The surf workstation
411 * @param fullpath The path to the file
412 * @return The surf action corresponding to the openning
414 XBT_PUBLIC(surf_action_t) surf_workstation_open(surf_resource_t workstation, const char* fullpath);
417 * @brief Close a file descriptor on a workstation
419 * @param workstation The surf workstation
420 * @param fd The file descriptor
422 * @return The surf action corresponding to the closing
424 XBT_PUBLIC(surf_action_t) surf_workstation_close(surf_resource_t workstation, surf_file_t fd);
429 * @param resource The surf workstation
430 * @param fd The file descriptor to read
431 * @param size The size in bytes to read
432 * @return The surf action corresponding to the reading
434 XBT_PUBLIC(surf_action_t) surf_workstation_read(surf_resource_t resource, surf_file_t fd, sg_size_t size);
437 * @brief Write a file
439 * @param resource The surf workstation
440 * @param fd The file descriptor to write
441 * @param size The size in bytes to write
442 * @return The surf action corresponding to the writing
444 XBT_PUBLIC(surf_action_t) surf_workstation_write(surf_resource_t resource, surf_file_t fd, sg_size_t size);
447 * @brief Get the informations of a file descriptor
448 * @details The returned xbt_dynar_t contains:
449 * - the size of the file,
451 * - the storage name,
452 * - the storage typeId,
453 * - the storage content type
455 * @param resource The surf workstation
456 * @param fd The file descriptor
457 * @return An xbt_dynar_t with the file informations
459 XBT_PUBLIC(xbt_dynar_t) surf_workstation_get_info(surf_resource_t resource, surf_file_t fd);
462 * @brief Get the available space of the storage at the mount point
464 * @param resource The surf workstation
465 * @param name The mount point
466 * @return The amount of availble space in bytes
468 XBT_PUBLIC(sg_size_t) surf_workstation_get_free_size(surf_resource_t resource, const char* name);
471 * @brief Get the used space of the storage at the mount point
473 * @param resource The surf workstation
474 * @param name The mount point
475 * @return The amount of used space in bytes
477 XBT_PUBLIC(sg_size_t) surf_workstation_get_used_size(surf_resource_t resource, const char* name);
480 * @brief Get the VMs hosted on the workstation
482 * @param resource The surf workstation
483 * @return The list of VMs on the workstation
485 XBT_PUBLIC(xbt_dynar_t) surf_workstation_get_vms(surf_resource_t resource);
488 * @brief [brief description]
489 * @details [long description]
491 * @param resource [description]
492 * @param params [description]
494 XBT_PUBLIC(void) surf_workstation_get_params(surf_resource_t resource, ws_params_t params);
497 * @brief [brief description]
498 * @details [long description]
500 * @param resource [description]
501 * @param params [description]
503 XBT_PUBLIC(void) surf_workstation_set_params(surf_resource_t resource, ws_params_t params);
506 * @brief Destroy a Workstation VM
508 * @param resource The surf workstation vm
510 XBT_PUBLIC(void) surf_vm_workstation_destroy(surf_resource_t resource);
513 * @brief Suspend a Workstation VM
515 * @param resource The surf workstation vm
517 XBT_PUBLIC(void) surf_vm_workstation_suspend(surf_resource_t resource);
520 * @brief Resume a Workstation VM
522 * @param resource The surf workstation vm
524 XBT_PUBLIC(void) surf_vm_workstation_resume(surf_resource_t resource);
527 * @brief Save the Workstation VM (Not yet implemented)
529 * @param resource The surf workstation vm
531 XBT_PUBLIC(void) surf_vm_workstation_save(surf_resource_t resource);
534 * @brief Restore the Workstation VM (Not yet implemented)
536 * @param resource The surf workstation vm
538 XBT_PUBLIC(void) surf_vm_workstation_restore(surf_resource_t resource);
541 * @brief Migrate the VM to the destination host
543 * @param resource The surf workstation vm
544 * @param ind_vm_ws_dest The destination host
546 XBT_PUBLIC(void) surf_vm_workstation_migrate(surf_resource_t resource, surf_resource_t ind_vm_ws_dest);
549 * @brief Get the physical machine hosting the VM
551 * @param resource The surf workstation vm
552 * @return The physical machine hosting the VM
554 XBT_PUBLIC(surf_resource_t) surf_vm_workstation_get_pm(surf_resource_t resource);
557 * @brief [brief description]
558 * @details [long description]
560 * @param resource [description]
561 * @param bound [description]
563 XBT_PUBLIC(void) surf_vm_workstation_set_bound(surf_resource_t resource, double bound);
566 * @brief [brief description]
567 * @details [long description]
569 * @param resource [description]
570 * @param cpu [description]
571 * @param mask [description]
573 XBT_PUBLIC(void) surf_vm_workstation_set_affinity(surf_resource_t resource, surf_resource_t cpu, unsigned long mask);
576 * @brief Execute some quantity of computation
578 * @param cpu The surf cpu
579 * @param size The value of the processing amount (in flop) needed to process
580 * @return The surf action corresponding to the processing
582 XBT_PUBLIC(surf_action_t) surf_cpu_execute(surf_resource_t cpu, double size);
585 * @brief Make the cpu sleep for duration (in seconds)
586 * @details [long description]
588 * @param cpu The surf cpu
589 * @param duration The number of seconds to sleep
590 * @return The surf action corresponding to the sleeping
592 XBT_PUBLIC(surf_action_t) surf_cpu_sleep(surf_resource_t cpu, double duration);
595 * @brief Get the workstation power peak
596 * @details [long description]
598 * @param host The surf workstation
599 * @return The power peak
601 XBT_PUBLIC(double) surf_workstation_get_current_power_peak(surf_resource_t host);
604 * @brief [brief description]
605 * @details [long description]
607 * @param host [description]
608 * @param pstate_index [description]
610 * @return [description]
612 XBT_PUBLIC(double) surf_workstation_get_power_peak_at(surf_resource_t host, int pstate_index);
615 * @brief [brief description]
616 * @details [long description]
618 * @param host [description]
619 * @return [description]
621 XBT_PUBLIC(int) surf_workstation_get_nb_pstates(surf_resource_t host);
624 * @brief [brief description]
625 * @details [long description]
627 * @param host [description]
628 * @param pstate_index [description]
630 XBT_PUBLIC(void) surf_workstation_set_power_peak_at(surf_resource_t host, int pstate_index);
633 * @brief Get the consumed energy (in joules) of a workstation
635 * @param host The surf workstation
636 * @return The consumed energy
638 XBT_PUBLIC(double) surf_workstation_get_consumed_energy(surf_resource_t host);
641 * @brief Get the list of storages mounted on a workstation
643 * @param workstation The surf workstation
644 * @return Dictionary of mount point, Storage
646 XBT_PUBLIC(xbt_dict_t) surf_workstation_get_mounted_storage_list(surf_resource_t workstation);
649 * @brief Get the list of storages attached to a workstation
651 * @param workstation The surf workstation
652 * @return Dictionary of storage
654 XBT_PUBLIC(xbt_dynar_t) surf_workstation_get_attached_storage_list(surf_resource_t workstation);
657 * @brief Unlink a file descriptor
659 * @param workstation The surf workstation
660 * @param fd The file descriptor
662 * @return 0 if failed to unlink, 1 otherwise
664 XBT_PUBLIC(int) surf_workstation_unlink(surf_resource_t workstation, surf_file_t fd);
667 * @brief Get the size of a file on a workstation
669 * @param workstation The surf workstation
670 * @param fd The file descriptor
672 * @return The size in bytes of the file
674 XBT_PUBLIC(size_t) surf_workstation_get_size(surf_resource_t workstation, surf_file_t fd);
677 * @brief Get the current position of the file descriptor
679 * @param workstation The surf workstation
680 * @param fd The file descriptor
681 * @return The current position of the file descriptor
683 XBT_PUBLIC(size_t) surf_workstation_file_tell(surf_resource_t workstation, surf_file_t fd);
686 * @brief Move a file to another location on the *same mount point*.
687 * @details [long description]
689 * @param workstation The surf workstation
690 * @param fd The file descriptor
691 * @param fullpath The new full path
693 * @return MSG_OK if successful, otherwise MSG_TASK_CANCELED
695 XBT_PUBLIC(int) surf_workstation_file_move(surf_resource_t workstation, surf_file_t fd, const char* fullpath);
698 * @brief Set the position indictator assiociated with the file descriptor to a new position
699 * @details [long description]
701 * @param workstation The surf workstation
702 * @param fd The file descriptor
703 * @param offset The offset from the origin
704 * @param origin Position used as a reference for the offset
705 * - SEEK_SET: beginning of the file
706 * - SEEK_CUR: current position indicator
707 * - SEEK_END: end of the file
708 * @return MSG_OK if successful, otherwise MSG_TASK_CANCELED
710 XBT_PUBLIC(int) surf_workstation_file_seek(surf_resource_t workstation,
711 surf_file_t fd, sg_offset_t offset,
715 * @brief [brief description]
716 * @details [long description]
718 * @param link [description]
719 * @return [description]
721 XBT_PUBLIC(int) surf_network_link_is_shared(surf_cpp_resource_t link);
724 * @brief Get the bandwidth of a link in bytes per second
726 * @param link The surf link
727 * @return The bandwidth in bytes per second
729 XBT_PUBLIC(double) surf_network_link_get_bandwidth(surf_cpp_resource_t link);
732 * @brief Get the latency of a link in seconds
734 * @param link The surf link
735 * @return The latency in seconds
737 XBT_PUBLIC(double) surf_network_link_get_latency(surf_cpp_resource_t link);
740 * @brief Get the content of a storage
742 * @param resource The surf storage
743 * @return A xbt_dict_t with path as keys and size in bytes as values
745 XBT_PUBLIC(xbt_dict_t) surf_storage_get_content(surf_resource_t resource);
748 * @brief Get the size in bytes of a storage
750 * @param resource The surf storage
751 * @return The size in bytes of the storage
753 XBT_PUBLIC(sg_size_t) surf_storage_get_size(surf_resource_t resource);
756 * @brief Get the available size in bytes of a storage
758 * @param resource The surf storage
759 * @return The available size in bytes of the storage
761 XBT_PUBLIC(sg_size_t) surf_storage_get_free_size(surf_resource_t resource);
764 * @brief Get the size in bytes of a storage
766 * @param resource The surf storage
767 * @return The used size in bytes of the storage
769 XBT_PUBLIC(sg_size_t) surf_storage_get_used_size(surf_resource_t resource);
773 * @brief Get the data associated to the action
775 * @param action The surf action
776 * @return The data associated to the action
778 XBT_PUBLIC(void*) surf_action_get_data(surf_action_t action);
781 * @brief Set the data associated to the action
782 * @details [long description]
784 * @param action The surf action
785 * @param data The new data associated to the action
787 XBT_PUBLIC(void) surf_action_set_data(surf_action_t action, void *data);
790 * @brief Unreference an action
792 * @param action The surf action
794 XBT_PUBLIC(void) surf_action_unref(surf_action_t action);
797 * @brief Get the start time of an action
799 * @param action The surf action
800 * @return The start time in seconds from the beginning of the simulation
802 XBT_PUBLIC(double) surf_action_get_start_time(surf_action_t action);
805 * @brief Get the finish time of an action
807 * @param action The surf action
808 * @return The finish time in seconds from the beginning of the simulation
810 XBT_PUBLIC(double) surf_action_get_finish_time(surf_action_t action);
813 * @brief Get the remains amount of work to do of an action
815 * @param action The surf action
816 * @return The remains amount of work to do
818 XBT_PUBLIC(double) surf_action_get_remains(surf_action_t action);
821 * @brief Suspend an action
823 * @param action The surf action
825 XBT_PUBLIC(void) surf_action_suspend(surf_action_t action);
828 * @brief Resume an action
830 * @param action The surf action
832 XBT_PUBLIC(void) surf_action_resume(surf_action_t action);
835 * @brief Cancel an action
837 * @param action The surf action
839 XBT_PUBLIC(void) surf_action_cancel(surf_action_t action);
842 * @brief Set the priority of an action
843 * @details [long description]
845 * @param action The surf action
846 * @param priority The new priority [TODO]
848 XBT_PUBLIC(void) surf_action_set_priority(surf_action_t action, double priority);
851 * @brief Set the category of an action
852 * @details [long description]
854 * @param action The surf action
855 * @param category The new category of the action
857 XBT_PUBLIC(void) surf_action_set_category(surf_action_t action, const char *category);
860 * @brief Get the state of an action
862 * @param action The surf action
863 * @return The state of the action
865 XBT_PUBLIC(e_surf_action_state_t) surf_action_get_state(surf_action_t action);
868 * @brief Get the cost of an action
870 * @param action The surf action
871 * @return The cost of the action
873 XBT_PUBLIC(double) surf_action_get_cost(surf_action_t action);
876 * @brief [brief desrciption]
877 * @details [long description]
879 * @param action The surf cpu action
880 * @param cpu [description]
881 * @param mask [description]
883 XBT_PUBLIC(void) surf_cpu_action_set_affinity(surf_action_t action, surf_resource_t cpu, unsigned long mask);
886 * @brief [brief description]
887 * @details [long description]
889 * @param action The surf cpu action
890 * @param bound [description]
892 XBT_PUBLIC(void) surf_cpu_action_set_bound(surf_action_t action, double bound);
895 * @brief [brief description]
896 * @details [long description]
898 * @param action The surf network action
900 XBT_PUBLIC(double) surf_network_action_get_latency_limited(surf_action_t action);
903 * @brief Get the file associated to a storage action
905 * @param action The surf storage action
906 * @return The file associated to a storage action
908 XBT_PUBLIC(surf_file_t) surf_storage_action_get_file(surf_action_t action);
911 * @brief Get the result dictionary of an ls action
913 * @param action The surf storage action
914 * @return The dictionry listing a path
916 XBT_PUBLIC(xbt_dict_t) surf_storage_action_get_ls_dict(surf_action_t action);
920 * @brief Get the host the storage is attached to
922 * @param resource The surf storage
923 * @return The host name
925 XBT_PUBLIC(const char * ) surf_storage_get_host(surf_resource_t resource);
927 XBT_PUBLIC(surf_model_t) surf_resource_model(const void *host, int level);
931 /**************************************/
932 /* Implementations of model object */
933 /**************************************/
935 XBT_PUBLIC_DATA(int) autoload_surf_cpu_model;
936 XBT_PUBLIC_DATA(void_f_void_t) surf_cpu_model_init_preparse;
938 /** \ingroup SURF_models
939 * \brief The CPU model object for the physical machine layer
941 XBT_PUBLIC_DATA(surf_cpu_model_t) surf_cpu_model_pm;
943 /** \ingroup SURF_models
944 * \brief The CPU model object for the virtual machine layer
946 XBT_PUBLIC_DATA(surf_cpu_model_t) surf_cpu_model_vm;
949 /** \ingroup SURF_models
950 * \brief Initializes the CPU model with the model Cas01
952 * By default, this model uses the lazy optimization mechanism that
953 * relies on partial invalidation in LMM and a heap for lazy action update.
954 * You can change this behavior by setting the cpu/optim configuration
955 * variable to a different value.
957 * You shouldn't have to call it by yourself.
959 XBT_PUBLIC(void) surf_cpu_model_init_Cas01(void);
961 /** \ingroup SURF_models
962 * \brief Initializes the CPU model with trace integration [Deprecated]
964 * You shouldn't have to call it by yourself.
966 XBT_PUBLIC(void) surf_cpu_model_init_ti(void);
968 /** \ingroup SURF_models
969 * \brief The list of all available optimization modes (both for cpu and networks).
970 * These optimization modes can be set using --cfg=cpu/optim:... and --cfg=network/optim:...
972 XBT_PUBLIC_DATA(s_surf_model_description_t) surf_optimization_mode_description[];
974 /** \ingroup SURF_plugins
975 * \brief The list of all available surf plugins
977 XBT_PUBLIC_DATA(s_surf_model_description_t) surf_plugin_description[];
979 /** \ingroup SURF_models
980 * \brief The list of all available cpu model models
982 XBT_PUBLIC_DATA(s_surf_model_description_t) surf_cpu_model_description[];
984 /**\brief create new host bypass the parser
989 /** \ingroup SURF_models
990 * \brief The network model
992 * When creating a new API on top on SURF, you shouldn't use the
993 * network model unless you know what you are doing. Only the workstation
994 * model should be accessed because depending on the platform model,
995 * the network model can be NULL.
997 XBT_PUBLIC_DATA(surf_network_model_t) surf_network_model;
999 /** \ingroup SURF_models
1000 * \brief Same as network model 'LagrangeVelho', only with different correction factors.
1002 * This model is proposed by Pierre-Nicolas Clauss and Martin Quinson and Stéphane Génaud
1003 * based on the model 'LV08' and different correction factors depending on the communication
1004 * size (< 1KiB, < 64KiB, >= 64KiB).
1005 * See comments in the code for more information.
1007 * \see surf_workstation_model_init_SMPI()
1009 XBT_PUBLIC(void) surf_network_model_init_SMPI(void);
1011 /** \ingroup SURF_models
1012 * \brief Initializes the platform with the network model 'LegrandVelho'
1014 * This model is proposed by Arnaud Legrand and Pedro Velho based on
1015 * the results obtained with the GTNets simulator for onelink and
1016 * dogbone sharing scenarios. See comments in the code for more information.
1018 * \see surf_workstation_model_init_LegrandVelho()
1020 XBT_PUBLIC(void) surf_network_model_init_LegrandVelho(void);
1022 /** \ingroup SURF_models
1023 * \brief Initializes the platform with the network model 'Constant'
1025 * In this model, the communication time between two network cards is
1026 * constant, hence no need for a routing table. This is particularly
1027 * usefull when simulating huge distributed algorithms where
1028 * scalability is really an issue. This function is called in
1029 * conjunction with surf_workstation_model_init_compound.
1031 * \see surf_workstation_model_init_compound()
1033 XBT_PUBLIC(void) surf_network_model_init_Constant(void);
1035 /** \ingroup SURF_models
1036 * \brief Initializes the platform with the network model CM02
1038 * You sould call this function by yourself only if you plan using
1039 * surf_workstation_model_init_compound.
1040 * See comments in the code for more information.
1042 XBT_PUBLIC(void) surf_network_model_init_CM02(void);
1045 /** \ingroup SURF_models
1046 * \brief Initializes the platform with the network model GTNETS
1047 * \param filename XML platform file name
1049 * This function is called by surf_workstation_model_init_GTNETS
1050 * or by yourself only if you plan using surf_workstation_model_init_compound
1052 * \see surf_workstation_model_init_GTNETS()
1054 XBT_PUBLIC(void) surf_network_model_init_GTNETS(void);
1058 /** \ingroup SURF_models
1059 * \brief Initializes the platform with the network model NS3
1060 * \param filename XML platform file name
1062 * This function is called by surf_workstation_model_init_NS3
1063 * or by yourself only if you plan using surf_workstation_model_init_compound
1065 * \see surf_workstation_model_init_NS3()
1067 XBT_PUBLIC(void) surf_network_model_init_NS3(void);
1070 /** \ingroup SURF_models
1071 * \brief Initializes the platform with the network model Reno
1072 * \param filename XML platform file name
1074 * The problem is related to max( sum( arctan(C * Df * xi) ) ).
1077 * [LOW03] S. H. Low. A duality model of TCP and queue management algorithms.
1078 * IEEE/ACM Transaction on Networking, 11(4):525-536, 2003.
1080 * Call this function only if you plan using surf_workstation_model_init_compound.
1083 XBT_PUBLIC(void) surf_network_model_init_Reno(void);
1085 /** \ingroup SURF_models
1086 * \brief Initializes the platform with the network model Reno2
1087 * \param filename XML platform file name
1089 * The problem is related to max( sum( arctan(C * Df * xi) ) ).
1092 * [LOW01] S. H. Low. A duality model of TCP and queue management algorithms.
1093 * IEEE/ACM Transaction on Networking, 11(4):525-536, 2003.
1095 * Call this function only if you plan using surf_workstation_model_init_compound.
1098 XBT_PUBLIC(void) surf_network_model_init_Reno2(void);
1100 /** \ingroup SURF_models
1101 * \brief Initializes the platform with the network model Vegas
1102 * \param filename XML platform file name
1104 * This problem is related to max( sum( a * Df * ln(xi) ) ) which is equivalent
1105 * to the proportional fairness.
1108 * [LOW03] S. H. Low. A duality model of TCP and queue management algorithms.
1109 * IEEE/ACM Transaction on Networking, 11(4):525-536, 2003.
1111 * Call this function only if you plan using surf_workstation_model_init_compound.
1114 XBT_PUBLIC(void) surf_network_model_init_Vegas(void);
1116 /** \ingroup SURF_models
1117 * \brief The list of all available network model models
1119 XBT_PUBLIC_DATA(s_surf_model_description_t)
1120 surf_network_model_description[];
1122 /** \ingroup SURF_models
1123 * \brief The storage model
1125 XBT_PUBLIC(void) surf_storage_model_init_default(void);
1127 /** \ingroup SURF_models
1128 * \brief The list of all available storage modes.
1129 * This storage mode can be set using --cfg=storage/model:...
1131 XBT_PUBLIC_DATA(s_surf_model_description_t) surf_storage_model_description[];
1133 XBT_PUBLIC_DATA(surf_storage_model_t) surf_storage_model;
1135 /** \ingroup SURF_models
1136 * \brief The workstation model
1138 * Note that when you create an API on top of SURF,
1139 * the workstation model should be the only one you use
1140 * because depending on the platform model, the network model and the CPU model
1143 XBT_PUBLIC_DATA(surf_workstation_model_t) surf_workstation_model;
1145 /** \ingroup SURF_models
1146 * \brief The vm_workstation model
1148 * Note that when you create an API on top of SURF,
1149 * the vm_workstation model should be the only one you use
1150 * because depending on the platform model, the network model and the CPU model
1153 XBT_PUBLIC_DATA(surf_vm_workstation_model_t) surf_vm_workstation_model;
1155 /** \ingroup SURF_models
1156 * \brief Initializes the platform with a compound workstation model
1158 * This function should be called after a cpu_model and a
1159 * network_model have been set up.
1162 XBT_PUBLIC(void) surf_workstation_model_init_compound(void);
1164 /** \ingroup SURF_models
1165 * \brief Initializes the platform with the current best network and cpu models at hand
1167 * This platform model seperates the workstation model and the network model.
1168 * The workstation model will be initialized with the model compound, the network
1169 * model with the model LV08 (with cross traffic support) and the CPU model with
1171 * Such model is subject to modification with warning in the ChangeLog so monitor it!
1174 XBT_PUBLIC(void) surf_workstation_model_init_current_default(void);
1176 /** \ingroup SURF_models
1177 * \brief Initializes the platform with the model KCCFLN05
1179 * With this model, only parallel tasks can be used. Resource sharing
1180 * is done by identifying bottlenecks and giving an equal share of
1181 * the model to each action.
1184 XBT_PUBLIC(void) surf_workstation_model_init_ptask_L07(void);
1186 /** \ingroup SURF_models
1187 * \brief The list of all available workstation model models
1189 XBT_PUBLIC_DATA(s_surf_model_description_t)
1190 surf_workstation_model_description[];
1192 /** \ingroup SURF_models
1193 * \brief Initializes the platform with the current best network and cpu models at hand
1195 * This platform model seperates the workstation model and the network model.
1196 * The workstation model will be initialized with the model compound, the network
1197 * model with the model LV08 (with cross traffic support) and the CPU model with
1199 * Such model is subject to modification with warning in the ChangeLog so monitor it!
1202 XBT_PUBLIC(void) surf_vm_workstation_model_init_HL13(void);
1204 /** \ingroup SURF_models
1205 * \brief The list of all available vm workstation model models
1207 XBT_PUBLIC_DATA(s_surf_model_description_t)
1208 surf_vm_workstation_model_description[];
1210 /*******************************************/
1212 /** \ingroup SURF_models
1213 * \brief List of initialized models
1215 XBT_PUBLIC_DATA(xbt_dynar_t) model_list;
1216 XBT_PUBLIC_DATA(xbt_dynar_t) model_list_invoke;
1218 /** \ingroup SURF_simulation
1219 * \brief List of hosts that have juste restarted and whose autorestart process should be restarted.
1221 XBT_PUBLIC_DATA(xbt_dynar_t) host_that_restart;
1223 /** \ingroup SURF_simulation
1224 * \brief List of hosts for which one want to be notified if they ever restart.
1226 XBT_PUBLIC(xbt_dict_t) watched_hosts_lib;
1228 /*******************************************/
1229 /*** SURF Platform *************************/
1230 /*******************************************/
1231 XBT_PUBLIC_DATA(AS_t) surf_AS_get_routing_root(void);
1232 XBT_PUBLIC_DATA(const char *) surf_AS_get_name(AS_t as);
1233 XBT_PUBLIC_DATA(AS_t) surf_AS_get_by_name(const char * name);
1234 XBT_PUBLIC_DATA(xbt_dict_t) surf_AS_get_routing_sons(AS_t as);
1235 XBT_PUBLIC_DATA(const char *) surf_AS_get_model(AS_t as);
1236 XBT_PUBLIC_DATA(xbt_dynar_t) surf_AS_get_hosts(AS_t as);
1237 XBT_PUBLIC_DATA(void) surf_AS_get_graph(AS_t as, xbt_graph_t graph, xbt_dict_t nodes, xbt_dict_t edges);
1238 XBT_PUBLIC_DATA(AS_t) surf_platf_get_root(routing_platf_t platf);
1239 XBT_PUBLIC_DATA(e_surf_network_element_type_t) surf_routing_edge_get_rc_type(sg_routing_edge_t edge);
1241 /*******************************************/
1242 /*** SURF Globals **************************/
1243 /*******************************************/
1245 /** \ingroup SURF_simulation
1246 * \brief Initialize SURF
1247 * \param argc argument number
1248 * \param argv arguments
1250 * This function has to be called to initialize the common
1251 * structures. Then you will have to create the environment by
1253 * e.g. surf_workstation_model_init_CM02()
1255 * \see surf_workstation_model_init_CM02(), surf_workstation_model_init_compound(), surf_exit()
1257 XBT_PUBLIC(void) surf_init(int *argc, char **argv); /* initialize common structures */
1259 /** \ingroup SURF_simulation
1260 * \brief Finish simulation initialization
1262 * This function must be called before the first call to surf_solve()
1264 XBT_PUBLIC(void) surf_presolve(void);
1266 /** \ingroup SURF_simulation
1267 * \brief Performs a part of the simulation
1268 * \param max_date Maximum date to update the simulation to, or -1
1269 * \return the elapsed time, or -1.0 if no event could be executed
1271 * This function execute all possible events, update the action states
1272 * and returns the time elapsed.
1273 * When you call execute or communicate on a model, the corresponding actions
1274 * are not executed immediately but only when you call surf_solve.
1275 * Note that the returned elapsed time can be zero.
1277 XBT_PUBLIC(double) surf_solve(double max_date);
1279 /** \ingroup SURF_simulation
1280 * \brief Return the current time
1282 * Return the current time in millisecond.
1284 XBT_PUBLIC(double) surf_get_clock(void);
1286 /** \ingroup SURF_simulation
1293 XBT_PUBLIC(void) surf_exit(void);
1295 /* Prototypes of the functions that handle the properties */
1296 XBT_PUBLIC_DATA(xbt_dict_t) current_property_set; /* the prop set for the currently parsed element (also used in SIMIX) */
1298 /* The same for model_prop set*/
1299 XBT_PUBLIC_DATA(xbt_dict_t) current_model_property_set;
1301 /* surf parse file related (public because called from a test suite) */
1302 XBT_PUBLIC(void) parse_platform_file(const char *file);
1304 /* For the trace and trace:connect tag (store their content till the end of the parsing) */
1305 XBT_PUBLIC_DATA(xbt_dict_t) traces_set_list;
1306 XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_host_avail;
1307 XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_power;
1308 XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_link_avail;
1309 XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_bandwidth;
1310 XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_latency;
1313 XBT_PUBLIC(double) get_cpu_power(const char *power);
1315 XBT_PUBLIC(xbt_dict_t) get_as_router_properties(const char* name);
1317 int surf_get_nthreads(void);
1318 void surf_set_nthreads(int nthreads);
1321 * Returns the initial path. On Windows the initial path is
1322 * the current directory for the current process in the other
1323 * case the function returns "./" that represents the current
1324 * directory on Unix/Linux platforms.
1326 const char *__surf_get_initial_path(void);
1328 /********** Tracing **********/
1329 /* from surf_instr.c */
1330 void TRACE_surf_action(surf_action_t surf_action, const char *category);
1331 void TRACE_surf_alloc(void);
1332 void TRACE_surf_release(void);
1334 /* instr_routing.c */
1335 void instr_routing_define_callbacks (void);
1336 void instr_new_variable_type (const char *new_typename, const char *color);
1337 void instr_new_user_variable_type (const char *father_type, const char *new_typename, const char *color);
1338 void instr_new_user_state_type (const char *father_type, const char *new_typename);
1339 void instr_new_value_for_user_state_type (const char *_typename, const char *value, const char *color);
1340 int instr_platform_traced (void);
1341 xbt_graph_t instr_routing_platform_graph (void);
1342 void instr_routing_platform_graph_export_graphviz (xbt_graph_t g, const char *filename);
1345 #endif /* _SURF_SURF_H */