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26 * Mach Operating System
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53 * File: mach/mach_port.defs
56 * Exported kernel calls.
65 #include <mach/std_types.defs>
66 #include <mach/mach_types.defs>
68 * Create a new task with an empty set of IPC rights,
69 * and having an address space constructed from the
70 * target task (or empty, if inherit_memory is FALSE).
74 ledgers : ledger_array_t;
75 inherit_memory : boolean_t;
76 out child_task : task_t);
79 * Destroy the target task, causing all of its threads
80 * to be destroyed, all of its IPC rights to be deallocated,
81 * and all of its address space to be deallocated.
83 routine task_terminate(
84 target_task : task_t);
87 * Returns the set of threads belonging to the target task.
91 out act_list : thread_act_array_t);
94 * Stash a handful of ports for the target task; child
95 * tasks inherit this stash at task_create time.
97 routine mach_ports_register(
99 init_port_set : mach_port_array_t =
100 ^array[] of mach_port_t);
103 * Retrieve the stashed ports for the target task.
105 routine mach_ports_lookup(
106 target_task : task_t;
107 out init_port_set : mach_port_array_t =
108 ^array[] of mach_port_t);
111 * Returns information about the target task.
114 target_task : task_t;
115 flavor : task_flavor_t;
116 out task_info_out : task_info_t, CountInOut);
119 * Set task information.
121 routine task_set_info(
122 target_task : task_t;
123 flavor : task_flavor_t;
124 task_info_in : task_info_t);
127 * Increment the suspend count for the target task.
128 * No threads within a task may run when the suspend
129 * count for that task is non-zero.
131 routine task_suspend(
132 target_task : task_t);
136 * Decrement the suspend count for the target task,
137 * if the count is currently non-zero. If the resulting
138 * suspend count is zero, then threads within the task
139 * that also have non-zero suspend counts may execute.
142 target_task : task_t);
145 * Returns the current value of the selected special port
146 * associated with the target task.
148 routine task_get_special_port(
151 out special_port : mach_port_t);
154 * Set one of the special ports associated with the
157 routine task_set_special_port(
160 special_port : mach_port_t);
163 * Create a new thread within the target task, returning
164 * the port representing the first thr_act in that new thread. The
165 * initial execution state of the thread is undefined.
167 routine thread_create(
168 parent_task : task_t;
169 out child_act : thread_act_t);
172 * Create a new thread within the target task, returning
173 * the port representing that new thread. The new thread
174 * is not suspended; its initial execution state is given
175 * by flavor and new_state. Returns the port representing
178 routine thread_create_running(
179 parent_task : task_t;
180 flavor : thread_state_flavor_t;
181 new_state : thread_state_t;
182 out child_act : thread_act_t);
185 * Set an exception handler for a task on one or more exception types.
186 * These handlers are invoked for all threads in the task if there are
187 * no thread-specific exception handlers or those handlers returned an
190 routine task_set_exception_ports(
192 exception_mask : exception_mask_t;
193 new_port : mach_port_t;
194 behavior : exception_behavior_t;
195 new_flavor : thread_state_flavor_t);
199 * Lookup some of the old exception handlers for a task
201 routine task_get_exception_ports(
203 exception_mask : exception_mask_t;
204 out masks : exception_mask_array_t;
205 out old_handlers : exception_handler_array_t, SameCount;
206 out old_behaviors : exception_behavior_array_t, SameCount;
207 out old_flavors : exception_flavor_array_t, SameCount);
211 * Set an exception handler for a thread on one or more exception types.
212 * At the same time, return the previously defined exception handlers for
215 routine task_swap_exception_ports(
217 exception_mask : exception_mask_t;
218 new_port : mach_port_t;
219 behavior : exception_behavior_t;
220 new_flavor : thread_state_flavor_t;
221 out masks : exception_mask_array_t;
222 out old_handlerss : exception_handler_array_t, SameCount;
223 out old_behaviors : exception_behavior_array_t, SameCount;
224 out old_flavors : exception_flavor_array_t, SameCount);
227 * Create and destroy lock_set and semaphore synchronizers on a
228 * per-task basis (i.e. the task owns them).
230 routine lock_set_create(
232 out new_lock_set : lock_set_t;
236 routine lock_set_destroy(
238 lock_set : lock_set_t);
240 routine semaphore_create(
242 out semaphore : semaphore_t;
246 routine semaphore_destroy(
248 semaphore : semaphore_consume_ref_t);
251 * Set/get policy information for a task.
252 * (Approved Mac OS X microkernel interface)
255 routine task_policy_set(
257 flavor : task_policy_flavor_t;
258 policy_info : task_policy_t);
260 routine task_policy_get(
262 flavor : task_policy_flavor_t;
263 out policy_info : task_policy_t, CountInOut;
264 inout get_default : boolean_t);
271 reply : mach_port_make_send_t);
274 * JMM - Everything from here down is likely to go away soon
277 * OBSOLETE interface.
282 base : policy_base_t;
283 set_limit : boolean_t;
288 * Establish a user-level handler for the specified
291 routine task_set_emulation(
292 target_port : task_t;
293 routine_entry_pt: vm_address_t;
294 routine_number : int);
297 * Get user-level handler entry points for all
298 * emulated system calls.
300 routine task_get_emulation_vector(
302 out vector_start : int;
303 out emulation_vector: emulation_vector_t);
306 * Establish user-level handlers for the specified
307 * system calls. Non-emulated system calls are specified
308 * with emulation_vector[i] == EML_ROUTINE_NULL.
310 routine task_set_emulation_vector(
313 emulation_vector: emulation_vector_t);
317 * Establish restart pc for interrupted atomic sequences.
319 routine task_set_ras_pc(
320 target_task : task_t;
321 basepc : vm_address_t;
322 boundspc : vm_address_t);
326 * JMM - Want to eliminate kernel tasks and processor_set so
327 * keep them at the end.
330 * Create a new task in the kernel's address space with
331 * an empty set of IPC rights, with a map allocated from
332 * the kernel's map starting at map_base of length map_size.
334 routine kernel_task_create(
335 target_task : task_t;
336 map_base : vm_offset_t;
337 map_size : vm_size_t;
338 out child_task : task_t);
341 * Assign task to processor set.
345 new_set : processor_set_t;
346 assign_threads : boolean_t);
349 * Assign task to default set.
351 routine task_assign_default(
353 assign_threads : boolean_t);
356 * Get current assignment for task.
358 routine task_get_assignment(
360 out assigned_set : processor_set_name_t);
363 * OBSOLETE interface.
365 routine task_set_policy(
367 pset : processor_set_t;
369 base : policy_base_t;
370 limit : policy_limit_t;
374 * Registers the caller-specified RPC subsystem attributes
377 routine mach_subsystem_create(
379 user_subsys : user_subsystem_t;
380 out subsys : subsystem_t);