source: trunk/kernel/syscalls/syscalls.h @ 653

Last change on this file since 653 was 651, checked in by alain, 5 years ago

1) Improve the VMM MMAP allocator: implement the "buddy" algorithm
to allocate only aligned blocks.
2) fix a bug in the pthread_join() / pthread_exit() mmechanism.

File size: 45.6 KB
RevLine 
[1]1/*
[407]2 * syscalls.h - Kernel side services for syscall handling.
[1]3 *
[626]4 * Author     Alain Greiner (2016,2017,2018,2019)
[1]5 *
6 * Copyright (c) UPMC Sorbonne Universites
7 *
8 * This file is part of ALMOS-MKH.
9 *
10 * ALMOS-MKH is free software; you can redistribute it and/or modify it
11 * under the terms of the GNU General Public License as published by
12 * the Free Software Foundation; version 2.0 of the License.
13 *
14 * ALMOS-MKH is distributed in the hope that it will be useful, but
15 * WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
17 * General Public License for more details.
18 *
19 * You should have received a copy of the GNU General Public License
20 * along with ALMOS-MKH; if not, write to the Free Software Foundation,
21 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
22 */
23
[16]24#ifndef _SYSCALLS_H_
25#define _SYSCALLS_H_
[1]26
[457]27#include <hal_kernel_types.h>
[407]28#include <shared_syscalls.h>
[23]29
[407]30/**   Forward declarations  *****/
[23]31
32struct thread_s;                  // defined in thread.h
33struct pthread_attr_s;            // defined in thread.h
34struct vfs_stat_s;                // defined in vfs.h
35struct vfs_dirent_s;              // defined in vfs.h
36struct mmap_attr_s;               // defined in vmm.h
37
[407]38/******************************************************************************************
[651]39 * [0] This function terminates the execution of the calling user thread, and makes
40 * the <exit_status> pointer available to any successful pthread_join() with the
[23]41 * terminating thread.
[651]42 * - If the calling thread is the main thread, it calls the sys_exit() function to delete
43 *   completely the user process. 
44 * - if the calling thread is not the main thread, it registers the <exit_status> pointer
45 *   in the thread descriptor, and calls the thread_delete() function, that will set the
46 *   THREAD_SIG_EXIT signal, set the THREAD_BLOCKED_GLOBAL bit in thread descriptor, and
47 *   deschedules. All memory allocated to the thread is released later by the scheduler.
48 *   If the thread is in "detached" mode, the thread_delete() function implements
49 *   the synchonisation with the joining thread.
[407]50 ******************************************************************************************
[651]51 * @ exit_status  : pointer to be returned to joining thread if thread is attached.
[409]52 * @ return 0 if success / return -1 if all locks not released or illegal argument.
[407]53 *****************************************************************************************/
[651]54int sys_thread_exit( void * exit_status );
[16]55
[407]56/******************************************************************************************
57 * [1] This function calls the scheduler for the core running the calling thread.
58 ******************************************************************************************
59 * @ x_size   : [out] number of clusters in a row.
60 * @ y_size   : [out] number of clusters in a column.
61 * @ ncores   : [out] number of cores per cluster.
62 * @ return always 0.
63 *****************************************************************************************/
[479]64int sys_thread_yield( void );
[16]65
[407]66/******************************************************************************************
[23]67 * [2] This function creates a new user thread. The <user_attr> argument is a pointer
68 * on astructure containing the thread attributes, defined in thread.h file.
[407]69 ******************************************************************************************
[566]70 * @ trdid_ptr   : [out] pointer on buffer for created thread trdid.
[23]71 * @ user_attr   : [in]  pointer on thread attributes structure.
72 * @ start_func  : [in]  pointer on start function.
73 * @ start_args  : [in]  pointer on start function arguments.
74 * @ return 0 if success / return -1 if failure.
[407]75 *****************************************************************************************/
[566]76int sys_thread_create( trdid_t               * trdid_ptr,
77                       struct pthread_attr_s * user_attr,
78                       void                  * start_func,
79                       void                  * start_args );
[16]80
[407]81/******************************************************************************************
[23]82 * [3] This blocking function suspend execution of the calling thread until completion
83 * of another target thread identified by the <trdid> argument.
[421]84 * The target thread must be joinable (running in ATTACHED mode), and must be different
85 * from the calling thread.
[23]86 * If the <exit_value> argument is not NULL, the value passed to pthread_exit() by the
87 * target thread is stored in the location referenced by exit_value.
[407]88 ******************************************************************************************
[23]89 * @ trdid     : [in]  target thread identifier.
90 * @ thread    : [out] buffer for exit_value returned by target thread.
91 * @ return 0 if success / return -1 if failure.
[407]92 *****************************************************************************************/
[23]93int sys_thread_join( trdid_t    trdid,
94                     void    ** exit_value );
[16]95
[407]96/******************************************************************************************
[23]97 * [4] This function detach a joinable thread.
[407]98 ******************************************************************************************
[409]99 * @ trdid   : thread identifier.
[23]100 * @ return 0 if success / return -1 if failure.
[407]101 *****************************************************************************************/
[23]102int sys_thread_detach( trdid_t  trdid );
[16]103
[407]104/******************************************************************************************
[409]105 * [5] This function requests a target thread identified by its <trdid> argument
[436]106 * to be cancelled. It calls the thread_kill() function to block the target thread
107 * on the THREAD_BLOCKED_GLOBAL condition, and to set the THREAD_FLAG_REQ_DELETE.
[409]108 * The thread will be detached from its process, and the memory allocated to the thread
[436]109 * descriptor will be released by the scheduler at the next scheduling point.
[409]110 ******************************************************************************************
111 * @ trdid   : thread identifier.
112 * @ return 0 if success / return -1 if illegal argument.
[407]113 *****************************************************************************************/
[409]114int sys_thread_cancel( trdid_t  trdid );
[16]115
[407]116/******************************************************************************************
[23]117 * [6] This function implement all operations on a POSIX unnamed semaphore,
118 * that can be shared by threads running in different clusters.
119 * The kernel structure representing a remote semaphore is in the remote_sem.h file,
120 * and the code implementing the operations is in the remore_sem.c file.
[407]121 ******************************************************************************************
[457]122 * @ vaddr         : semaphore virtual address in user space == identifier.
123 * @ operation     : SEM_INIT / SEM_DESTROY / SEM_GETVALUE / SEM_POST / SEM_WAIT.
124 * @ init_value    : initial semaphore value.
125 * @ current_value : pointer on buffer for current semaphore value.
[23]126 * @ return 0 if success / return -1 if failure.
[407]127 *****************************************************************************************/
[23]128int sys_sem( void       * vaddr,
129             uint32_t     operation,
[457]130             uint32_t     init_value,
131             uint32_t   * current_value );
[16]132
[407]133/******************************************************************************************
[23]134 * [7] This function implement all operations on a POSIX condition variable.
[566]135 * The kernel structure representing a condvar is defined in the remote_condvar.h file,
136 * The code implementing the operations is defined in the remote_condvar.c file.
[407]137 ******************************************************************************************
[23]138 * @ vaddr     : condvar virtual address in user space == identifier.
139 * @ operation : operation type (see below).
140 * @ attr      : mutex virtual address in user space == identifier.
141 * @ return 0 if success / return -1 if failure.
[407]142 *****************************************************************************************/
[23]143int sys_condvar( void     * condvar,
144                 uint32_t   operation,
145                 void     * mutex );
[16]146
[407]147/******************************************************************************************
[23]148 * [8] This function implement all operations on a POSIX barrier.
149 * The kernel structure representing a barrier is defined in the remote_barrier.h file.
150 * The code implementting the operations is defined in the remote_barrier.c file.
[407]151 ******************************************************************************************
[619]152 * @ vaddr     : barrier address in user space == identifier.
[23]153 * @ operation : BARRIER_INIT / BARRIER_DESTROY / BARRIER_WAIT.
[619]154 * @ count     : number of expected threads (only used by BARRIER_INIT).
155 * @ attr      : barrier attributes address in user space (only used by BARRIER_INIT).
[23]156 * @ return 0 if success / return -1 if failure.
[407]157 *****************************************************************************************/
[619]158int sys_barrier( intptr_t   vaddr,
[23]159                 uint32_t   operation,
[619]160                 uint32_t   count,
161                 intptr_t   attr );
[16]162
[407]163/******************************************************************************************
[23]164 * [9] This function implement all operations on a POSIX mutex.
165 * The kernel structure representing a barrier is defined in the remote_barrier.h file.
166 * The code implementting the operations is defined in the remote_barrier.c file.
[407]167 ******************************************************************************************
[23]168 * @ vaddr     : mutex virtual address in user space == identifier.
169 * @ operation : MUTEX_INIT / MUTEX_DESTROY / MUTEX_LOCK / MUTEX_UNLOCK
170 * @ attr      : mutex attributes (non supported yet => must be 0).
171 * @ return 0 if success / return -1 if failure.
[407]172 *****************************************************************************************/
[23]173int sys_mutex( void     * vaddr,
174               uint32_t   operation,
175               uint32_t   count );
[16]176
[407]177/******************************************************************************************
[610]178 * [10] This function causes the file named <old> to be renamed as <new>.
179 * If new exists, it is first removed.  Both old and new must be of the same type (both
180 * must be either directories or non-directories) and must reside on the same file system.
181 * It guarantees that an instance of <new> will always exist, even if the system should
182 * crash in the middle of the operation.
[407]183 ******************************************************************************************
[610]184 * @ old      : old file name.
185 * @ new      : new file name.
186 * @ return 0 if success / return -1 if failure.
[407]187 *****************************************************************************************/
[610]188int sys_rename( char *old,
189                char *new );
[16]190
[407]191/******************************************************************************************
[408]192 * [11] This function remove an existing mapping defined by the <addr> and <size>
[640]193 * arguments in user space. This can modify the number of vsegs:
194 * (a) if the region is not entirely mapped in one existing vseg, it's an error.
195 * (b) if the region has same base and size as an existing vseg, the vseg is removed.
196 * (c) if the removed region cut the exiting vseg in two parts, it is resized.
197 * (d) if the removed region cut the vseg in three parts, it is modified, and a new
198 *     vseg is created with same type.
199 * All existing VSL copies are updated.
200******************************************************************************************
[407]201 * @ addr  : base address in user space.
[640]202 * @ size  : number of bytes.
[23]203 * @ return 0 if success / return -1 if failure.
[407]204 *****************************************************************************************/
205int sys_munmap( void     * addr,
206                uint32_t   size );
[16]207
[407]208/******************************************************************************************
209 * [12] This function open or create an open file descriptor.
210 ******************************************************************************************
[23]211 * @ pathname   : pathname (can be relative or absolute).
[445]212 * @ flags      : bit vector attributes (see in shared_fcntl.h file)
[23]213 * @ mode       : access rights.
214 * @ return file descriptor index in fd_array if success / return -1 if failure.
[407]215 *****************************************************************************************/
[566]216int sys_open( char       * pathname,
[506]217              uint32_t     flags,
218              uint32_t     mode );
[16]219
[407]220/******************************************************************************************
221 * [13] This function map physical memory (or a file) in the calling thread virtual space.
[637]222 * The <attr> argument is a pointer on a structure for arguments (see shared_mman.h).
[594]223 * The user defined virtual address (MAP_FIXED flag) is not supported.
224 * TODO : the access rights checking is not implemented yet [AG]
225 * TODO : the Copy on Write for MAP_PRIVATE is not implemented yet [AG]
[407]226 ******************************************************************************************
227 * @ attr       : pointer on attributes structure.
[651]228 * @ returns 0 if success / returns -1 if failure.
[407]229 *****************************************************************************************/
230int sys_mmap( mmap_attr_t * attr );
[23]231
[407]232/******************************************************************************************
[23]233 * [14] This function read bytes from an open file identified by its file descriptor.
[407]234 * The file can be a regular file or character oriented device.
[408]235 * IRQs are enabled during this system call.
[407]236 ******************************************************************************************
[23]237 * @ file_id  : open file index in fd_array.
238 * @ buf      : buffer virtual address in user space.
239 * @ count    : number of bytes.
[651]240 * @ returns number of bytes actually read if success / returns -1 if failure.
[407]241 *****************************************************************************************/
[23]242int sys_read( uint32_t   file_id,
243              void     * buf,
244              uint32_t   count );
[16]245
[407]246/******************************************************************************************
[23]247 * [15] This function writes bytes to an open file identified by its file descriptor.
[623]248 * The file can be a regular file or character oriented device. For a regular file,
249 * the target inode "size" field is updated if (offset + count) is larger than the
250 * current "size" value. The size value registered in the mappers of the parent(s)
251 * directory are not modified and will be asynchronously updated when the file is closed.
[408]252 * IRQs are enabled during this system call.
[407]253 ******************************************************************************************
[23]254 * @ file_id  : open file index in fd_array.
255 * @ buf      : buffer virtual address in user space.
256 * @ count    : number of bytes.
[651]257 * @ returns number of bytes actually written if success / returns -1 if failure.
[407]258 *****************************************************************************************/
[23]259int sys_write( uint32_t   file_id,
260               void     * buf,
261               uint32_t   count );
[16]262
[407]263/******************************************************************************************
[651]264 * [16] This function repositions the offset of the file descriptor identified by the
265 * <file_id> argument, according to the operation type defined by the <whence> argument.
[407]266 ******************************************************************************************
[23]267 * @ file_id  : open file index in fd_array.
[407]268 * @ offset   : used to compute new offset value.
[23]269 * @ whence   : operation type (see below).
[651]270 * @ returns new offset value if success / returns -1 if failure.
[407]271 *****************************************************************************************/
[23]272int sys_lseek( xptr_t    file_id,
273               uint32_t  offset,
274               uint32_t  whence );
[16]275
[407]276/******************************************************************************************
[23]277 * [17] This function release the memory allocated for the file descriptor identified by
278 * the <file_id> argument, and remove the fd array_entry in all copies of the process
279 * descriptor.
[407]280 ******************************************************************************************
[23]281  file_id   : file descriptor index in fd_array.
[651]282 * @ returns 0 if success / returns -1 if failure.
[407]283 *****************************************************************************************/
[23]284int sys_close( uint32_t file_id );
[16]285
[407]286/******************************************************************************************
287 * [18] This function removes a directory entry identified by the <pathname> from the
[23]288 * directory, and decrement the link count of the file referenced by the link.
289 * If the link count reduces to zero, and no process has the file open, then all resources
290 * associated with the file are reclaimed.  If one or more process have the file open when
291 * the last link is removed, the link is removed, but the removal of the file is delayed
292 * until all references to it have been closed.
[407]293 ******************************************************************************************
[23]294 * @ pathname   : pathname (can be relative or absolute).
[651]295 * @ returns 0 if success / returns -1 if failure.
[407]296 *****************************************************************************************/
[566]297int sys_unlink( char * pathname );
[16]298
[407]299/******************************************************************************************
[23]300 * [19] This function creates in the calling thread cluster an unnamed pipe, and two
301 * (read and write) file descriptors.
[594]302 * TODO not implemented yet [AG]
[407]303 ******************************************************************************************
[23]304 * @ file_id[0] : [out] read only file descriptor index.
305 * @ file_id[1] : [out] write only file descriptor index.
306 * @ return 0 if success / return -1 if failure.
[407]307 *****************************************************************************************/
[23]308int sys_pipe( uint32_t file_id[2] );
[16]309
[407]310/******************************************************************************************
[23]311 * [20] This function change the current working directory in reference process descriptor.
[407]312 ******************************************************************************************
[23]313 * @ pathname   : pathname (can be relative or absolute).
314 * @ return 0 if success / returns -1 if failure.
[407]315 *****************************************************************************************/
[566]316int sys_chdir( char * pathname );
[16]317
[407]318/******************************************************************************************
[610]319 * [21] This function implements the "mkdir" system call, creating a new directory in
320 * the file system, as defined by the <pathname> argument, with the access permission
321 * defined by the <rights> argument. All nodes but the last in the pathname must exist.
322 * It can be called by any thread running in any cluster.
[407]323 ******************************************************************************************
[610]324 * @ pathname  : pathname defining the new directory location in file system.
325 * @ rights    : access rights (non used yet).
326 * @ return 0 if success / return -1 if failure.
[407]327 *****************************************************************************************/
[610]328int sys_mkdir( char     * pathname,
329               uint32_t   rights );
[16]330
[407]331/******************************************************************************************
[23]332 * [22] This function creates a named FIFO file in the calling thread cluster.
333 * The associated read and write file descriptors mut be be  explicitely created
[407]334 * using the sys_open() function.
335 ******************************************************************************************
[23]336 * @ pathname   : pathname (can be relative or absolute).
337 * @ mode       : access rights (as defined in chmod).
338 * @ return 0 if success / returns -1 if failure.
[407]339 *****************************************************************************************/
[23]340int sys_mkfifo( char     * pathname,
341                uint32_t   mode );
[16]342
[407]343/******************************************************************************************
[623]344 * [23] This function creates an user level directory descriptor (including the associated
345 * array of user level dirents), and intialise it from the kernel directory mapper, that
346 * contains all entries in this directory). The directory is identified by the <pathname>
347 * argument. If the corresponding inode is missing in the Inode Tree, the inode is created,
348 * but the directory must exist in the file system.
349 * It returns a DIR pointer <dirp> on the dirent array in user space.
[407]350 ******************************************************************************************
[611]351 * @ pathname   : [in]  pathname (can be relative or absolute).
[407]352 * @ dirp       : [out] buffer for pointer on user directory (DIR).
[23]353 * @ return 0 if success / returns -1 if failure.
[407]354 *****************************************************************************************/
355int sys_opendir( char * pathname,
356                 DIR ** dirp );
[16]357
[407]358/******************************************************************************************
359 * [24] This function returns an user pointer on the dirent structure describing the
360 * next directory entry in the directory identified by the <dirp> argument.
361 ******************************************************************************************
[611]362 * @ dirp     : [in]  user pointer on dirent array identifying the open directory.
363 * @ buffer   : [out] pointer on user buffer for a pointer on dirent in user space.
[407]364 * @ return O if success / returns -1 if failure.
365 *****************************************************************************************/
366int sys_readdir( DIR            * dirp,
[611]367                 struct dirent ** buffer );
[407]368
369/******************************************************************************************
370 * [25] This function closes the directory identified by the <dirp> argument, and releases
371 * all structures associated with the <dirp> pointer.
372 ******************************************************************************************
[611]373 * @ dirp     : [in] user pointer on dirent array identifying the open directory.
[23]374 * @ return 0 if success / returns -1 if failure.
[407]375 *****************************************************************************************/
376int sys_closedir( DIR * dirp );
[16]377
[407]378/******************************************************************************************
[23]379 * [26] This function returns the pathname of the current working directory.
[407]380 ******************************************************************************************
[23]381 * buf     : buffer addres in user space.
382 * nbytes  : user buffer size in bytes.
383 * @ return 0 if success / returns -1 if failure.
[407]384 *****************************************************************************************/
[23]385int sys_getcwd( char     * buf,
386                uint32_t   nbytes );
[16]387
[407]388/******************************************************************************************
[437]389 * [27] This function tests whether a given file descriptor dentified by the <file_id>
390 * argument is an open file descriptor referring to a terminal.
391 ******************************************************************************************
392 * @ file_id   : file descriptor index
393 * @ return 1 if it is a TXT device / return 0 if it is not a TXT device.
[407]394 *****************************************************************************************/
[437]395int sys_isatty( uint32_t file_id );
[16]396
[407]397/******************************************************************************************
[23]398 * [28] This function forces the calling thread to sleep, for a fixed number of cycles.
[407]399 ******************************************************************************************
[23]400 * cycles   : number of cycles.
[407]401 *****************************************************************************************/
[23]402int sys_alarm( uint32_t cycles );
[16]403
[407]404/******************************************************************************************
405 * [29] This function removes a directory file whose name is given by <pathname>.
406 * The directory must not have any entries other than `.' and `..'.
407 ******************************************************************************************
[23]408 * @ pathname   : pathname (can be relative or absolute).
409 * @ return 0 if success / returns -1 if failure.
[407]410 *****************************************************************************************/
[566]411int sys_rmdir( char * pathname );
[16]412
[407]413/******************************************************************************************
[23]414 * [30] This function implement the operations related to User Thread Local Storage.
415 * It is actually implemented as an uint32_t variable in the thread descriptor.
[407]416 ******************************************************************************************
[23]417 * @ operation  : UTLS operation type as defined below.
418 * @ value      : argument value for the UTLS_SET operation.
419 * @ return value for the UTLS_GET and UTLS_GET_ERRNO / return -1 if failure.
[407]420 *****************************************************************************************/
[23]421int sys_utls( uint32_t operation,
422              uint32_t value );
[16]423
[407]424/******************************************************************************************
[23]425 * [31] This function change the acces rights for the file/dir identified by the
426 * pathname argument.
[407]427 ******************************************************************************************
[23]428 * @ pathname   : pathname (can be relative or absolute).
429 * @ rights     : acces rights.
430 * @ return 0 if success / returns -1 if failure.
[407]431 *****************************************************************************************/
[566]432int sys_chmod( char       * pathname,
[506]433               uint32_t     rights );
[16]434
[407]435/******************************************************************************************
[23]436 * [32] This function associate a specific signal handler to a given signal type.
[584]437 * The handlers for the SIGKILL and SIGSTOP signals cannot be redefined.
[407]438 ******************************************************************************************
[23]439 * @ sig_id    : index defining signal type (from 1 to 31).
440 * @ handler   : pointer on fonction implementing the specific handler.
441 * @ return 0 if success / returns -1 if failure.
[407]442 *****************************************************************************************/
[23]443int sys_signal( uint32_t   sig_id,
444                void     * handler );
[16]445
[407]446/******************************************************************************************
[23]447 * [33] This function returns in the structure <tv>, defined in the time.h file,
448 * the current time (in seconds & micro-seconds).
449 * It is computed from the calling core descriptor.
450 * The timezone is not supported.
[407]451 ******************************************************************************************
[23]452 * @ tv      : pointer on the timeval structure.
453 * @ tz      : pointer on the timezone structure : must be NULL.       
454 * @ return 0 if success / returns -1 if failure.
[407]455 *****************************************************************************************/
[50]456int sys_timeofday( struct timeval  * tv,
457                   struct timezone * tz );
[16]458
[407]459/******************************************************************************************
[433]460 * [34] This function implements the "kill" system call on the kernel side.
[23]461 * It register the signal defined by the <sig_id> argument in all thread descriptors
462 * of a target process identified by the <pid> argument. This is done in all clusters
463 * containing threads for the target process.
464 * It can be executed by any thread running in any cluster, as this function uses
[407]465 * remote access to traverse the list of process copies stored in the owner cluster,
[23]466 * and the RPC_SIGNAL_RISE to signal the remote threads.
[421]467 * This function does nothing for (sig_id == 0). This can be used to check process pid.
468 * TODO : This first implementation supports only SIGKILL / SIGSTOP / SIGCONT values.
[407]469 ******************************************************************************************
[16]470 * @ pid      : target process identifier.
[433]471 * @ sig_id   : index defining the signal type.
[23]472 * @ return 0 if success / returns -1 if failure.
[407]473 *****************************************************************************************/
[16]474int sys_kill( pid_t    pid,
[23]475              uint32_t sig_id );
[16]476
[407]477/******************************************************************************************
[433]478 * [35] This function implements the "getpid" system call on the kernel side.
[407]479 ******************************************************************************************
480 * @ returns the process PID for the calling thread.
481 *****************************************************************************************/
[479]482int sys_getpid( void );
[1]483
[407]484/******************************************************************************************
[433]485 * [36] This function implement the "fork" system call on the kernel side.
486 * The calling process descriptor (parent process), and the associated thread descriptor
487 * are replicated in a - likely - remote cluster, that becomes the child process owner.
488 * The child process get a new PID, and is linked to the parent PID. The child process
489 * inherit from its parent the memory image, and all open files (including the TXT).
490 * The child process becomes the TXT terminal owner.
[1]491 * The target cluster depends on the "fork_user" flag and "fork_cxy" variable that can be
492 * stored in the calling thread descriptor by the specific fork_place() system call.
[433]493 * If not, the kernel function makes a query to the DQDT to select the target cluster.
[407]494 ******************************************************************************************
495 * @ if success, returns child process PID to parent, and return O to child.
496 * @ if failure, returns -1 to parent / no child process is created.
497 *****************************************************************************************/
[479]498int sys_fork( void );
[1]499
[407]500/******************************************************************************************
[433]501 * [37] This function implement the "exec" system call on the kernel side.
502 * It creates, in the same cluster as the calling thread, a new process descriptor,
503 * and a new associated main thread descriptor, executing a new memory image defined
504 * by the <filename> argument. This new process inherit from the old process the PID
505 * and the PPID, as well as all open files (including the TXT).
506 * The old process descriptor, and all its threads are blocked, and marked for deletion.
507 * Therefore the exec syscall does not return to the calling thread in case of success.
508 * This function build an exec_info_t structure containing the new process arguments,
509 * as defined by the <arv> argument, and the new process environment variables,
510 * as defined by the <envp>  argument.
511 * TODO : the <argv> and <envp> arguments are not supported yet (both must be NULL).
[407]512 ******************************************************************************************
513 * @ filename : string pointer on .elf filename (pointer in user space)
514 * @ argv     : array of strings on process arguments (pointers in user space)
515 * @ envp     : array of strings on environment variables (pointers in user space)
[433]516 * @ does not return if success / returns -1 if failure.
[407]517 *****************************************************************************************/
[566]518int sys_exec( char  * filename,
519              char ** argv,
520              char ** envp );
[1]521
[407]522/******************************************************************************************
523 * [38] This function  returns in the <stat> structure, defined in the "shared_syscalls.h"
524 * file, various informations on the file/directory identified by the <pathname> argument.
[594]525 * TODO only the <st_ino>, <st_mode>,<st_uid>,<st_gid>,<st_size> are set.
[407]526 ******************************************************************************************
527 * @ pathname  : user pointer on file pathname.
528 * @ stat      : user pointer on the stat structure.
[23]529 * @ returns O if success / returns -1 if failure.
[407]530 *****************************************************************************************/
[566]531int sys_stat( char        * pathname,
[407]532              struct stat * stat );
[1]533
[407]534/******************************************************************************************
[433]535 * [39] This blocking function waits a change of a child process state, that can be:
536 * - a termination of child following a process_make_exit().
537 * - a termination of child following a process_make_kill().
[421]538 * - a blocking of child following a SIGSTOP signal.
[433]539 * In case of a multi-thread process, this function must be called by the main thread
540 * runningin the reference cluster.
541 * When a change has been observed, it returns the PID of the child process, and stores
542 * in the <status> argument relevant information on the child state change.
[421]543 * The following macros can be used to extract information from status:
544 * - WIFEXITED(status)   : is true if the child process terminated with an exit().
[435]545 * - WIFSIGNALED(status) : is true if the child process killed by a signal.
[421]546 * - WIFSTOPPED(status)  : is true if the child process is stopped by a signal.
547 * - WEXITSTATUS(status) : returns the low-order 8 bits of the exit() argument.
548 * If a parent process terminates without waiting for all child processes to terminate,
549 * the remaining child processes are attached to the init process.
[433]550 * WARNING: negative values for the <pid> argument are not supported.
[421]551 ******************************************************************************************
[433]552 * @ searched_pid : searched child process identifier.
553 * @ status       : [out] child termination status.
554 * @ return child PID if success / return -1 if searched PID not found.
[407]555 *****************************************************************************************/
[421]556int sys_wait( uint32_t * status );
[1]557
[407]558/******************************************************************************************
[584]559 * [40] This function implement the non-standard get_config() syscall.
560 * It returns in <x_size>, <y_size>, <ncores> the hardware platform parameters.
[407]561 ******************************************************************************************
562 * @ x_size   : [out] number of clusters in a row.
563 * @ y_size   : [out] number of clusters in a column.
564 * @ ncores   : [out] number of cores per cluster.
565 * @ return 0 if success / return -1 if illegal arguments
566 *****************************************************************************************/
567int sys_get_config( uint32_t * x_size,
568                    uint32_t * y_size,
569                    uint32_t * ncores );
[1]570
[407]571/******************************************************************************************
[637]572 * [41] This function implements the non-standard get_core_id() syscall.
[584]573 * It returns in <cxy> and <lid> the calling core cluster and local index.
[407]574 ******************************************************************************************
575 * @ cxy      : [out] cluster identifier (fixed format)
576 * @ lid      : [out] core local index in cluster.
577 * @ return 0 if success / return -1 if illegal arguments
578 *****************************************************************************************/
[637]579int sys_get_core_id( uint32_t * cxy,
580                     uint32_t * lid );
[1]581
[407]582/******************************************************************************************
[584]583 * [42] This function implements the non-standard get_cycle() syscall.
584 * It returns in a 64 bits user buffer the calling core cycles count.
[407]585 * It uses both the hardware register and the core descriptor cycles count to take
586 * into account a possible harware register overflow  in 32 bits architectures.
587 ******************************************************************************************
588 * cycle    : [out] address of buffer in user space.
589 * @ return 0 if success / return -1 if illegal arguments
590 *****************************************************************************************/
591int sys_get_cycle( uint64_t * cycle );
592
593/******************************************************************************************
[421]594 * [43] This debug function displays on the kernel terminal TXT0 an user defined string,
595 * or the current state of a kernel structure, identified by the <type> argument.
[626]596 * The <arg0>, <arg1>, and <arg2> arguments depends on the structure type.
[407]597 ******************************************************************************************
[435]598 * type      : [in] type of display
[421]599 * arg0      : [in] type dependant argument.
600 * arg1      : [in] type dependant argument.
[611]601 * arg2      : [in] type dependant argument.
[407]602 * @ return 0 if success / return -1 if illegal arguments
603 *****************************************************************************************/
[421]604int sys_display( reg_t  type,
605                 reg_t  arg0,
[611]606                 reg_t  arg1,
607                 reg_t  arg2 );
[407]608
609/******************************************************************************************
[584]610 * [44] This function implements the non-standard place_fork() syscall.
611 * It can be used to specify the target cluster <cxy> for a new process created
612 * by a subsequent fork() syscall.
613 * WARNING: it must be called before each fork() syscall, as the placement specification
614 *          is reset by the fork syscall.
[457]615 ******************************************************************************************
616 * @ cxy    : cluster identifier.
617 * @ return 0 if success / return -1 if failure.
618 *****************************************************************************************/
[584]619int sys_place_fork( uint32_t cxy );
[457]620
621/******************************************************************************************
[407]622 * [45] This function block the calling thread on the THREAD_BLOCKED_GLOBAL condition,
623 * and deschedule.
624 ******************************************************************************************
625 * @ return 0 if success / returns -1 if failure.
626 *****************************************************************************************/
[479]627int sys_thread_sleep( void );
[407]628
629/******************************************************************************************
630 * [46] This function unblock the thread identified by its <trdid> from the
631 * THREAD_BLOCKED_GLOBAL condition.
632 ******************************************************************************************
633 * @ trdid  : target thread identifier.
634 * @ return 0 if success / return -1 if failure.
635 *****************************************************************************************/
[506]636int sys_thread_wakeup( trdid_t trdid );
[407]637
[421]638/******************************************************************************************
[443]639 * [47] This debug function is used to activate / desactivate the context switches trace
640 * for a core identified by the <cxy> and <lid> arguments.
[421]641 * It can be called by any other thread in the same process.
642 ******************************************************************************************
[443]643 * @ active     : activate trace if true / desactivate trace if false.
644 * @ cxy        : cluster identifier.
645 * @ lid        : core local index.
[421]646 * @ returns O if success / returns -1 if failure.
647 *****************************************************************************************/
[443]648int sys_trace( bool_t   active,
649               cxy_t    cxy, 
650               lid_t    lid );
[407]651
[421]652/******************************************************************************************
653 * [48] This function gives the process identified by the <pid> argument
654 * the exclusive ownership of its TXT_TX terminal (put it in foreground).
655 ******************************************************************************************
656 * @ pid    : process identifier.
657 * @ return 0 if success / return -1 if failure.
658 *****************************************************************************************/
659int sys_fg( pid_t   pid );
660
[445]661/******************************************************************************************
[457]662 * [49] This function returns a non-zero value in the <is_fg> buffer when the process
663 * identified by the <pid> argument is the current TXT owner.
[445]664 ******************************************************************************************
[457]665 * @ pid      : process identifier.
666 * @ is_fg    : pointer on buffer.
[445]667 * @ return 0 if success / return -1 if failure.
668 *****************************************************************************************/
[457]669int sys_is_fg( pid_t      pid,
670               uint32_t * is_fg );
[421]671
[610]672/******************************************************************************************
[626]673 * [50] This function implements the "exit" system call terminating a POSIX process.
[610]674 * It can be called by any thread running in any cluster.
675 * It uses both remote accesses to access the owner process descriptor, and the
[626]676 * RPC_PROCESS_SIGACTION to delete remote process copies and thread descriptors.
[610]677 * In the present implementation, this function implements actually the _exit():
678 * - it does not flush open output streams.
679 * - it does not close open streams.
680 ******************************************************************************************
[626]681 * @ status   : terminaison status returned to parent process.
682 * @ return 0 if success / return -1 if failure.
[610]683 *****************************************************************************************/
684int sys_exit( uint32_t status );
685
[626]686/******************************************************************************************
687 * [51] This function implements the "sync" system call.
688 * It forces all modified pages in all kernel mappers to be copied to the IOC device.
689 * It can be called by any thread running in any cluster.
690 * TODO not implemented yet.
691 ******************************************************************************************
692 * @ return 0 if success / return -1 if failure.
693 *****************************************************************************************/
694int sys_sync( void );
695
696/******************************************************************************************
697 * [52] This function implements the "fsync" system call.
698 * It forces all modified pages of the file mapper identified by the <fd> argument
699 * to be copied to the IOC device.
700 * It can be called by any thread running in any cluster.
701 * TODO not implemented yet.
702 ******************************************************************************************
703 * @ file_id   : file descriptor index in fd_array.
704 * @ return 0 if success / return -1 if failure.
705 *****************************************************************************************/
706int sys_fsync( uint32_t file_id );
707
[637]708/******************************************************************************************
709 * [53] This function implements the non-standard "get_best_core" syscall.
710 * It selects, in a macro-cluster specified by the <base_cxy> and <level> arguments,
711 * the core that has the lowest load.
712 * When an active core has been found in the target macro-cluster, it writes into the
713 * <cxy> and <lid> buffers the cluster identifier and the core local index, and return 0.
714 * It returns -1 in case of illegal arguments (level / cxy / lid).
715 * It returns +1 if there is no active core in specified macro-cluster.
716 ******************************************************************************************
717 * @ base_cxy : [in]  any cluster identifier in macro-cluster.
718 * @ level    : [in]  macro-cluster level in [1,2,3,4,5].
719 * @ cxy      : [out] selected core cluster identifier.
720 * @ lid      : [out] selected core local index in cluster.
721 * @ return 0 if success / -1 if illegal arguments / +1 if no core in macro-clusters.
722 *****************************************************************************************/
723int sys_get_best_core( uint32_t   base_cxy,
724                       uint32_t   level,
725                       uint32_t * cxy,
726                       uint32_t * lid );
727
728/******************************************************************************************
729 * [54] This function implements the non-standard "get_nb_cores" syscall.
730 * It writes in the <ncores> buffer the number of cores in the target cluster <cxy>.
731 ******************************************************************************************
732 * @ cxy      : [in]  target cluster identifier.
733 * @ ncores   : [out] number of cores / 0 if cluster cxy undefined in architecture.
734 * @ return 0 if success / return -1 if illegal "ncores" arguments.
735 *****************************************************************************************/
736int sys_get_nb_cores( uint32_t   cxy,
737                      uint32_t * ncores );
738
[641]739/******************************************************************************************
740 * [55] This function implements the non-standard "get_thread_info" syscall.
741 * It copies in the user structure defined by the <info> argument the values registered
742 * in the calling thread "thread_info_t" kernel structure.
743 ******************************************************************************************
744 * @ info      : [out] pointer on thread_info_t structure in user space.
745 * @ return 0 if success / return -1 if illegal argument.
746 *****************************************************************************************/
747int sys_get_thread_info( thread_info_t * info );
748
[642]749/******************************************************************************************
750 * [56] This function implements the non-standard "fbf_get_config", "fbf_read" and
751 * "fbf_write" syscalls, used to access the frame buffer peripheral.
752 ******************************************************************************************
753 * @ operation  : [in] operation type (defined in shared_fbf.h)
754 * @ arg0       : if config : pointer on width   / else : pointer on user buffer 
755 * @ arg1       : if config : pointer on height  / else : number of bytes to move
756 * @ arg2       : if config : pointer on type    / else : offset in frame buffer
757 * @ return 0 if success / return -1 if illegal argument.
758 *****************************************************************************************/
759int sys_fbf( uint32_t   operation,
760             void     * arg0,
761             void     * arg1,
762             void     * arg2 );
763
[16]764#endif  // _SYSCALLS_H_
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