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2 | pj | 1 | /* |
2 | * Project: S.Ha.R.K. |
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3 | * |
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4 | * Coordinators: |
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5 | * Giorgio Buttazzo <giorgio@sssup.it> |
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6 | * Paolo Gai <pj@gandalf.sssup.it> |
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7 | * |
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8 | * Authors : |
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9 | * Paolo Gai <pj@gandalf.sssup.it> |
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10 | * Massimiliano Giorgi <massy@gandalf.sssup.it> |
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11 | * Luca Abeni <luca@gandalf.sssup.it> |
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12 | * (see the web pages for full authors list) |
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13 | * |
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14 | * ReTiS Lab (Scuola Superiore S.Anna - Pisa - Italy) |
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15 | * |
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16 | * http://www.sssup.it |
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17 | * http://retis.sssup.it |
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18 | * http://shark.sssup.it |
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19 | */ |
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20 | |||
21 | |||
22 | /** |
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23 | ------------ |
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1005 | mauro | 24 | CVS : $Id: func.h,v 1.19 2005-05-10 17:15:52 mauro Exp $ |
2 | pj | 25 | |
26 | File: $File$ |
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1005 | mauro | 27 | Revision: $Revision: 1.19 $ |
28 | Last update: $Date: 2005-05-10 17:15:52 $ |
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2 | pj | 29 | ------------ |
30 | |||
31 | Kernel functions: |
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32 | |||
33 | - Debug stuff |
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34 | |||
35 | - Primitives called at initialization time |
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36 | |||
37 | - Kernel global functions (scheduler, queues) |
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38 | |||
39 | - Kernel VM hooks |
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40 | |||
41 | - IRQ, errors & exception handling |
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42 | |||
43 | - System management primitives |
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44 | |||
45 | - Jet management primitives |
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46 | |||
47 | - Task management primitives |
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48 | |||
49 | - Mutex primitives |
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50 | |||
51 | **/ |
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52 | |||
53 | /* |
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54 | * Copyright (C) 2000 Paolo Gai |
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55 | * |
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56 | * This program is free software; you can redistribute it and/or modify |
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57 | * it under the terms of the GNU General Public License as published by |
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58 | * the Free Software Foundation; either version 2 of the License, or |
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59 | * (at your option) any later version. |
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60 | * |
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61 | * This program is distributed in the hope that it will be useful, |
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62 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
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63 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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64 | * GNU General Public License for more details. |
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65 | * |
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66 | * You should have received a copy of the GNU General Public License |
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67 | * along with this program; if not, write to the Free Software |
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68 | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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69 | * |
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70 | */ |
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71 | |||
72 | #ifndef __KERNEL_FUNC_H__ |
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73 | #define __KERNEL_FUNC_H__ |
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74 | |||
75 | #include <ll/ll.h> |
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1621 | fabio | 76 | #include <arch/stdio.h> |
2 | pj | 77 | #include <kernel/types.h> |
78 | #include <kernel/model.h> |
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79 | #include <kernel/mem.h> |
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80 | #include <signal.h> |
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81 | #include <kernel/var.h> |
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82 | #include <errno.h> |
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83 | |||
84 | |||
85 | /*---------------------------------------------------------------------*/ |
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86 | /* Debug stuff */ |
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87 | /*---------------------------------------------------------------------*/ |
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88 | |||
89 | /* if a source use printk() it should include log.h not func.h */ |
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90 | #include <kernel/log.h> |
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91 | |||
1621 | fabio | 92 | #include <arch/sys/cdefs.h> |
79 | pj | 93 | |
94 | __BEGIN_DECLS |
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95 | |||
2 | pj | 96 | /*---------------------------------------------------------------------*/ |
97 | /* Kernel global functions: initialization & termination... */ |
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98 | /*---------------------------------------------------------------------*/ |
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99 | |||
100 | /*+ this function is called by __kernel_init__. |
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101 | It register the modules in the system at init time +*/ |
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102 | TIME __kernel_register_levels__(void *arg); |
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103 | |||
104 | /*+ This function returns a level_des **. the value returned shall be |
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38 | pj | 105 | used to register a level module. |
2 | pj | 106 | |
38 | pj | 107 | The function is usually called at module registration time. The |
108 | function can also be called when the system is already started, to |
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109 | allow the implementation of dynamic module registration. |
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110 | |||
111 | The argument must be the size of the data block that have to be allocated |
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112 | |||
113 | The function returns the number of the descriptor allocated for the module |
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114 | or -1 in case there are no free descriptors. |
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115 | |||
116 | The function also reserves a descriptor with size s, initialized |
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117 | with default function pointers. |
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118 | |||
119 | +*/ |
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120 | LEVEL level_alloc_descriptor(size_t s); |
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121 | |||
122 | /*+ This function release a level descriptor previously allocated using |
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123 | level_alloc_descriptor(). |
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124 | |||
125 | The function returns 0 if the level has been freed, or -1 if someone is |
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126 | using it, -2 if the level has never been registered. |
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127 | |||
128 | +*/ |
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129 | int level_free_descriptor(LEVEL l); |
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130 | |||
131 | /* Call this if you want to say that your module is using module l |
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132 | (e.g., for calling its private functions) */ |
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133 | int level_use_descriptor(LEVEL l); |
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134 | |||
135 | /* Call this when you no more need the module l */ |
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136 | int level_unuse_descriptor(LEVEL l); |
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137 | |||
2 | pj | 138 | /*+ This function returns a resource_des **. the value returned shall be |
139 | used to register a resource module. The function shall be called only at |
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923 | pj | 140 | module registration time. +*/ |
2 | pj | 141 | RLEVEL resource_alloc_descriptor(); |
142 | |||
143 | /*+ This function compute the command line parameters from the multiboot_info |
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144 | NOTE: this function modify the multiboot struct, so this function and |
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145 | __call_main__ are mutually exclusives!!! +*/ |
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146 | void __compute_args__(struct multiboot_info *mbi, int *_argc, char **_argv); |
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147 | |||
148 | /*+ This function calls the standard C main() function, with a |
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149 | parameter list up to 100 parameters +*/ |
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150 | int __call_main__(struct multiboot_info *mb); |
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151 | |||
152 | /*+ This task initialize the system and calls the main() with |
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153 | __call_mail__ . |
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154 | It should be created by a level registered in the system by |
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155 | __kernel_register_levels__ +*/ |
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156 | TASK __init__(void *arg); |
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157 | |||
158 | /*+ Use this function to post your own exit operations |
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159 | (when uses some defines contained in const.h) +*/ |
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160 | int sys_atrunlevel(void (*func_code)(void *),void *parm, BYTE when); |
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161 | |||
162 | /*---------------------------------------------------------------------*/ |
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29 | pj | 163 | /* Kernel global functions: scheduler, */ |
2 | pj | 164 | /*---------------------------------------------------------------------*/ |
165 | |||
166 | /*+ This is the generic scheduler. |
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167 | The scheduler calls the appropriates level schedulers and then |
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168 | dispatch the task chosen. +*/ |
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169 | void scheduler(void); |
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170 | |||
171 | /*+ called in the events to force the system to execute the scheduler at |
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172 | the end of an event list +*/ |
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173 | void event_need_reschedule(); |
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174 | |||
175 | void task_makefree(void *ret); |
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176 | void check_killed_async(void); |
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177 | |||
178 | int guarantee(); |
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179 | |||
38 | pj | 180 | void levels_init(void); /* see init.c */ |
181 | |||
2 | pj | 182 | void runlevel_init(); |
183 | void call_runlevel_func(int runlevel, int aborting); |
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184 | |||
185 | // in kill.c |
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186 | void kill_user_tasks(); |
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187 | |||
188 | void event_resetepilogue(); |
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189 | |||
190 | |||
191 | void call_task_specific_data_destructors(); |
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192 | void task_specific_data_init(); |
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193 | |||
194 | // in kill.c |
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195 | void register_cancellation_point(int (*func)(PID p, void *arg), void *arg); |
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196 | |||
197 | // in signal.c |
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198 | void register_interruptable_point(int (*func)(PID p, void *arg), void *arg); |
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199 | |||
200 | |||
201 | /*---------------------------------------------------------------------*/ |
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202 | /* Kernel VM hooks */ |
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203 | /*---------------------------------------------------------------------*/ |
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204 | |||
205 | /* this hooks redefines the VM functions to use them into the kernel... |
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206 | |||
207 | the only VM functions called directly from the kernel are VM_init and |
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208 | VM_end |
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209 | */ |
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210 | |||
646 | mauro | 211 | /* Advanced Timer adjust */ |
212 | #define kern_scale_timer ll_scale_advtimer |
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213 | |||
620 | mauro | 214 | /* Exit mode selection */ |
215 | #define sys_set_reboot ll_set_reboot |
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216 | |||
2 | pj | 217 | /* Context management routines */ |
218 | #define kern_context_create ll_context_create |
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219 | #define kern_context_delete ll_context_delete |
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220 | |||
221 | extern __inline__ CONTEXT kern_context_save() |
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222 | { |
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223 | cli(); |
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224 | return ll_context_from(); |
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225 | } |
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226 | |||
227 | /*+ this functions are called every time a context is changed +*/ |
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228 | void kern_after_dispatch(void); |
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229 | |||
230 | /* Warning: if modified, modify also: |
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231 | - task_join |
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232 | - cond_wait |
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233 | - cond_timedwait |
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234 | - internal_sem_wait |
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235 | */ |
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82 | pj | 236 | extern __inline__ void kern_context_load(CONTEXT c) |
2 | pj | 237 | { |
238 | ll_context_to(c); |
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239 | kern_after_dispatch(); |
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240 | sti(); |
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241 | } |
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242 | |||
243 | |||
244 | /* Interrupt enabling/disabling */ |
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245 | #define kern_cli cli |
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246 | #define kern_sti sti |
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247 | |||
248 | /* Interrupt enabling/disabling with flag save */ |
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249 | #define kern_fsave ll_fsave |
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250 | #define kern_frestore ll_frestore |
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251 | |||
252 | /* interrupt handling */ |
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253 | #define kern_irq_unmask VM_irq_unmask |
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254 | #define kern_irq_mask VM_irq_mask |
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255 | |||
256 | extern __inline__ int kern_event_post(const struct timespec *time, |
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257 | void (*handler)(void *p), |
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258 | void *par) |
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259 | { |
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260 | int e; |
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261 | e = event_post(*time,handler,par); |
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262 | |||
263 | if (e == -1) |
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264 | kern_raise(XNOMORE_EVENTS,exec_shadow); |
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265 | |||
266 | return e; |
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267 | } |
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268 | |||
38 | pj | 269 | #define kern_event_delete event_delete |
270 | |||
2 | pj | 271 | /*+ the default capacity timer used by the kernel... +*/ |
272 | void capacity_timer(void *arg); |
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273 | |||
274 | |||
275 | #define kern_printf message |
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276 | |||
38 | pj | 277 | extern __inline__ TIME kern_gettime(struct timespec *t) |
278 | { |
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45 | pj | 279 | return ll_gettime(TIME_NEW, t); |
38 | pj | 280 | } |
281 | |||
282 | |||
283 | |||
2 | pj | 284 | /*---------------------------------------------------------------------*/ |
38 | pj | 285 | /* Kernel global functions: IRQ handling */ |
2 | pj | 286 | /*---------------------------------------------------------------------*/ |
287 | |||
288 | /*+ Interrupt handler installation +*/ |
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1005 | mauro | 289 | int handler_set(int no, void (*fast)(int n), BYTE lock, PID pi, void (*intdrv)(int n)); |
2 | pj | 290 | |
291 | /*+ Interrupt handler removal +*/ |
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292 | int handler_remove(int no); |
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293 | |||
1005 | mauro | 294 | /*+ Return the Interrupt handler for intdrive module +*/ |
295 | void *handler_get_intdrive(int no); |
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2 | pj | 296 | |
297 | /*---------------------------------------------------------------------*/ |
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298 | /* System management primitives */ |
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299 | /*---------------------------------------------------------------------*/ |
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300 | |||
923 | pj | 301 | void exit(int status); |
302 | void _exit(int status); |
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2 | pj | 303 | |
923 | pj | 304 | /*+ Shuts down the system when in RUNLEVEL SHUTDOWN +*/ |
571 | giacomo | 305 | void sys_abort_shutdown(int err); |
306 | |||
923 | pj | 307 | /*+ Print a message then call exit(333). |
2 | pj | 308 | Can be called from all the tasks... +*/ |
309 | void sys_panic(const char * fmt, ...) __attribute__ ((format (printf, 1, 2))); |
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310 | |||
311 | /*+ prints an error message (see perror.c) +*/ |
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312 | void perror (const char *s); |
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313 | |||
314 | /*+ this primitive returns the time read from the system timer +*/ |
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315 | TIME sys_gettime(struct timespec *t); |
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316 | |||
158 | pj | 317 | /*+ this primitive can be used to set a message that will be printed |
318 | at shutdown +*/ |
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319 | int sys_shutdown_message(char *fmt,...); |
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320 | |||
2 | pj | 321 | /*---------------------------------------------------------------------*/ |
322 | /* Jet management primitives */ |
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323 | /*---------------------------------------------------------------------*/ |
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324 | |||
325 | /*+ This primitive returns the maximum execution time and the total |
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326 | execution time from the task_create or the last jet_delstat |
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327 | It returns also the number of instances to use to calculate the mean |
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328 | time and the current job execution time. |
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329 | The value returned is 0 if all ok, -1 if the PID is not correct or |
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330 | the task doesn't have the JET_ENABLE bit set. |
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331 | +*/ |
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332 | int jet_getstat(PID p, TIME *sum, TIME *max, int *n, TIME *curr); |
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333 | |||
334 | /*+ This primitive reset to 0 the maximum execution time and the mean |
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335 | execution time of the task p, and reset to 0 all the entries in |
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336 | jet_table. |
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337 | The value returned is 0 if all ok, -1 if the PID is not correct or |
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338 | the task doesn't have the JET_ENABLE bit set. +*/ |
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339 | int jet_delstat(PID p); |
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340 | |||
341 | /*+ This primitive returns the last n values of the task execution time |
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342 | recorded after the last call to jet_gettable or jet_delstat. |
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343 | If n is |
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344 | <0 it will be set only the last values inserted in the table |
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345 | since the last call of jet_gettable. |
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346 | >0 it will be set up to JET_TABLE_DIM datas. |
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347 | |||
348 | The value returned is -1 if the PID is not correct or |
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349 | the task doesn't have the JET_ENABLE bit set, otherwise it returns the |
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350 | number of values set in the parameter table. |
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351 | (can be from 0 to JET_TABLE_DIM-1) |
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352 | +*/ |
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353 | int jet_gettable(PID p, TIME *table, int n); |
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354 | |||
355 | /*+ This function updates the jet information. +*/ |
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356 | void jet_update_slice(TIME t); |
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357 | |||
358 | /*+ This function updates the jet information at the task end period |
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359 | it is called in task_endcycle and task_sleep +*/ |
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360 | void jet_update_endcycle(); |
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361 | |||
362 | /*---------------------------------------------------------------------*/ |
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38 | pj | 363 | /* Internal Macros */ |
364 | /*---------------------------------------------------------------------*/ |
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365 | |||
366 | extern __inline__ void kern_epilogue_macro(void) |
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367 | { |
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368 | TIME tx; /* a dummy used for time computation */ |
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369 | struct timespec ty; /* a dummy used for time computation */ |
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370 | |||
371 | kern_gettime(&schedule_time); |
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372 | |||
373 | /* manage the capacity event */ |
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374 | SUBTIMESPEC(&schedule_time, &cap_lasttime, &ty); |
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375 | tx = TIMESPEC2USEC(&ty); |
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393 | giacomo | 376 | if (proc_table[exec_shadow].control & CONTROL_CAP) proc_table[exec_shadow].avail_time -= tx; |
38 | pj | 377 | jet_update_slice(tx); |
378 | |||
379 | /* if the event didn't fire before, we delete it. */ |
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380 | if (cap_timer != NIL) { |
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381 | kern_event_delete(cap_timer); |
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382 | cap_timer = NIL; |
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383 | } |
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384 | } |
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385 | |||
386 | /* This function is called by the kernel into kern.c to register a default |
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387 | exception handler */ |
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388 | int set_default_exception_handler(void); |
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567 | giacomo | 389 | int remove_default_exception_handler(void); |
38 | pj | 390 | |
391 | /*---------------------------------------------------------------------*/ |
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2 | pj | 392 | /* Task management primitives */ |
393 | /*---------------------------------------------------------------------*/ |
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394 | |||
395 | |||
396 | /*+ This primitive: |
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397 | - Reserve a task descriptor |
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398 | - Create the task based on the task model passed |
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399 | - Initialize the resources used by the task |
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400 | - Guarantees the task set |
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401 | +*/ |
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402 | PID task_createn(char *name, /*+ the symbolic name of the task +*/ |
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403 | TASK (*body)(), /*+ a pointer to the task body +*/ |
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404 | TASK_MODEL *m, /*+ the task model +*/ |
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405 | /*+ the resources models, a list +*/ |
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406 | ...); /*+ of models terminated by NULL +*/ |
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407 | |||
408 | |||
409 | /*+ a redefinition of task_createn +*/ |
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410 | extern __inline PID task_create(char *name, TASK (*body)(), |
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411 | void *m, void *r) |
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412 | { |
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413 | return task_createn(name, body, (TASK_MODEL *)m, (RES_MODEL *)r, NULL); |
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414 | } |
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415 | |||
416 | |||
417 | /* This function allow to create a set of tasks without guarantee. |
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418 | It must be called with interrupts disabled and it must be used with |
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419 | group_create_accept and group_create_reject. |
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420 | |||
421 | This function allocates a task descriptor and fills it. |
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422 | After that, the guarantee() function should be called to check for task(s) |
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423 | admission. |
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424 | Next, each task created with group_create must be accepted with a call to |
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425 | group_create_accept() or rejected with a call to group_create_reject. |
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426 | |||
427 | The function returns the PID of the allocated descriptor, or NIL(-1) |
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428 | if the descriptor cannot be allocated or some problems arises the creation. |
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429 | If -1 is returned, errno is set to a value that represent the error: |
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430 | ENO_AVAIL_TASK -> no free descriptors available |
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431 | ENO_AVAIL_SCHEDLEVEL -> there were no scheduling modules that can handle |
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432 | the TASK_MODEL *m passed as parameter |
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433 | ETASK_CREATE -> there was an error during the creation of the |
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434 | task into the scheduling module |
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435 | ENO_AVAIL_RESLEVEL -> there were no resource modules that can handle |
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436 | one of the RES_MODEL * passed as parameter |
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437 | */ |
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438 | PID group_create(char *name, |
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439 | TASK (*body)(), |
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440 | TASK_MODEL *m, |
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441 | ...); |
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442 | |||
443 | |||
444 | /* |
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445 | This function should be called when a task created with group_create |
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446 | is successfully guaranteed and accepted in the system. |
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447 | This function finish the creation process allocating the last resources |
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448 | for the task (i.e., the stack and the context). |
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449 | it returns: |
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450 | |||
451 | -1 if something goes wrong. In this case, THE TASK IS AUTOMATICALLY REJECTED |
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452 | AND THE GROUP_CREATE_REJECT MUST NOT BE CALLED. |
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453 | errno is set to a value that explains the problem occurred: |
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454 | |||
455 | ENO_AVAIL_STACK_MEM -> No stack memory available for the task |
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456 | ENO_AVAIL_TSS -> No context available for the task (This is a |
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457 | CRITICAL error, and usually never happens...) |
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458 | */ |
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459 | int group_create_accept(PID i, TASK_MODEL *m); |
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460 | |||
461 | /* |
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462 | This function should be called when a task created with group_create |
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463 | can not be successfully guaranteed. |
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464 | This function reject the task from the system. |
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465 | You cannot use the PID of a rejected task after this call. |
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466 | */ |
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467 | void group_create_reject(PID i); |
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468 | |||
469 | /*+ |
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470 | It blocks all explicit activation of a task made with task_activate and |
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471 | group_activate. These activations are registered in an internal counter, |
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472 | returned by task_unblock_activation. |
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473 | it returns 0 if all ok, or -1 otherwise. errno is set accordingly. |
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474 | +*/ |
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475 | int task_block_activation(PID p); |
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476 | |||
477 | /*+ |
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478 | It unblocks all explicit activations of a task, and returns the number of |
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479 | "frozen" activations. It not call the task_activate!!!! |
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480 | it returns -1 if an error occurs. errno is set accordingly. |
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481 | +*/ |
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482 | int task_unblock_activation(PID p); |
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483 | |||
484 | |||
485 | /*+ Activate a task specified via pid returned from task_create +*/ |
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486 | int task_activate(PID pid); |
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487 | |||
690 | anton | 488 | /*+ Activate a task specified via pid from task_create at time t +*/ |
489 | int task_activate_at(PID pid, struct timespec *t); |
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490 | |||
2 | pj | 491 | /*+ Kill a task specified via pid returned from task_create +*/ |
492 | int task_kill(PID pid); |
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493 | |||
494 | /*+ |
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495 | This primitive autokills the excuting task; it was used to avoid |
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496 | that returning from a task cause a jmp to an unpredictable location. |
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497 | |||
498 | Now it is obsolete, the task_create_stub do all the works. |
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499 | |||
500 | It is used by the Posix layer to implement pthread_exit |
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501 | +*/ |
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502 | void task_abort(void *returnvalue); |
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503 | |||
504 | /*+ Creates a cancellation point in the calling task +*/ |
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505 | void task_testcancel(void); |
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506 | |||
507 | /*+ Set the cancellation state of the task +*/ |
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508 | int task_setcancelstate(int state, int *oldstate); |
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509 | |||
510 | /*+ Set the cancellation type of the task +*/ |
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511 | int task_setcanceltype(int type, int *oldtype); |
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512 | |||
513 | /*+ this function suspends execution of the calling task until the target |
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514 | task terminates, unless the target task has already terminated. |
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515 | It works like the pthread_join +*/ |
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516 | int task_join(PID p, void **value); |
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517 | |||
518 | /*+ this function set the detach state of a task to joinable. This function |
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519 | is not present in Posix standard... |
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520 | returns ESRCH if p is non correct +*/ |
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521 | int task_joinable(PID p); |
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522 | |||
523 | /*+ this function set the detach state of a task to detached. This function |
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524 | works as the posix's pthread_detach |
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525 | returns EINVAL if p can't be joined (or currently a task has done a |
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526 | join on it (condition not provided in posix) |
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527 | ESRCH if p is not correct +*/ |
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528 | int task_unjoinable(PID p); |
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529 | |||
530 | /*+ Disable the preemption mechanism on the task. |
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531 | This primitive is very dangerous!!!! +*/ |
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532 | void task_nopreempt(void); |
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533 | |||
534 | /*+ Enable the preemption mechanism on the task. +*/ |
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535 | void task_preempt(void); |
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536 | |||
38 | pj | 537 | /*+ sends a message to the scheduling module that is handling the task +*/ |
208 | giacomo | 538 | int task_message(void *m, PID p, int reschedule); |
38 | pj | 539 | |
2 | pj | 540 | /*+ This function signals to the kernel that the current istance of |
541 | the task (periodic or aperiodic) is ended; so the task can be |
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542 | suspended until it is activated again. Pending activations may be saved |
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543 | depending on the task model +*/ |
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38 | pj | 544 | extern __inline__ void task_endcycle(void) |
545 | { |
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912 | pj | 546 | task_testcancel(); |
210 | giacomo | 547 | task_message(NULL, NIL, 1); |
38 | pj | 548 | } |
2 | pj | 549 | |
208 | giacomo | 550 | /*+ This function signals to the kernel that the current istance of |
551 | the task (periodic or aperiodic) is ended; so the task can be |
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552 | suspended until it is activated again. Pending activations may be saved |
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553 | depending on the task model +*/ |
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554 | extern __inline__ void task_disable(PID p) |
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555 | { |
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556 | task_message((void *)(1), p, 0); |
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557 | } |
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558 | |||
2 | pj | 559 | /*+ This primitives refers the group id which is supplied |
560 | by the application, not by the kernel +*/ |
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561 | int group_activate(WORD g); |
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690 | anton | 562 | int group_activate_at(WORD g, struct timespec *t); |
2 | pj | 563 | int group_kill(WORD g); |
564 | |||
565 | |||
566 | /*---------------------------------------------------------------------*/ |
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567 | /* Mutex primitives */ |
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568 | /*---------------------------------------------------------------------*/ |
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569 | |||
570 | /* This primitives manages a mutex in the system. |
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571 | The behavior of the functions is similar to the POSIX ones. */ |
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572 | |||
573 | |||
574 | /*+ Alloc a mutex descriptor +*/ |
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575 | int mutex_init(mutex_t *mutex, const mutexattr_t *attr); |
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576 | |||
577 | /*+ Free a mutex descriptor +*/ |
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578 | int mutex_destroy(mutex_t *mutex); |
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579 | |||
580 | /*+ Block wait +*/ |
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581 | int mutex_lock(mutex_t *mutex); |
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582 | |||
583 | /*+ Non-block wait +*/ |
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584 | int mutex_trylock(mutex_t *mutex); |
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585 | |||
586 | /*+ unlock primitive +*/ |
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587 | int mutex_unlock(mutex_t *mutex); |
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588 | |||
589 | /*---------------------------------------------------------------------*/ |
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590 | /* Condition variables */ |
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591 | /*---------------------------------------------------------------------*/ |
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592 | |||
593 | /*+ Initialization of the condition variable +*/ |
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594 | int cond_init(cond_t *cond); |
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595 | |||
596 | /*+ free a condition variable descriptor +*/ |
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597 | int cond_destroy(cond_t *cond); |
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598 | |||
599 | /*+ signal on a condition variable, it unlocks only one task +*/ |
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600 | int cond_signal(cond_t *cond); |
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601 | |||
602 | /*+ broadcast on a condition variable, it unlocks all the blocked tasks +*/ |
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603 | int cond_broadcast(cond_t *cond); |
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604 | |||
605 | /*+ wait on a condition variable +*/ |
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606 | int cond_wait(cond_t *cond, mutex_t *mutex); |
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607 | |||
608 | /*+ wait on a condition variable (with timer) +*/ |
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609 | int cond_timedwait(cond_t *cond, mutex_t *mutex, |
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610 | const struct timespec *abstime); |
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611 | |||
612 | /*---------------------------------------------------------------------*/ |
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613 | /* Task specific data primitives */ |
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614 | /*---------------------------------------------------------------------*/ |
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615 | |||
616 | /* they are similar to the POSIX standard */ |
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617 | |||
618 | int task_key_create(task_key_t *key, void (*destructor)(void *)); |
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619 | void *task_getspecific(task_key_t key); |
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620 | int task_setspecific(task_key_t key, const void *value); |
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621 | int task_key_delete(task_key_t key); |
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622 | |||
623 | /*---------------------------------------------------------------------*/ |
||
624 | /* Task cancellation handlers */ |
||
625 | /*---------------------------------------------------------------------*/ |
||
626 | |||
627 | /*+ push the specified cancellation cleanup handler routine onto |
||
628 | the cancellation cleanup stack |
||
629 | void task_cleanup_push(void (*routine)(void *), void *arg); +*/ |
||
630 | #define task_cleanup_push(rtn,arg) { \ |
||
631 | struct _task_handler_rec __cleanup_handler, **__head; \ |
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632 | __cleanup_handler.f = rtn; \ |
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633 | __cleanup_handler.a = arg; \ |
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634 | __head = task_getspecific(0); \ |
||
635 | __cleanup_handler.next = *__head; \ |
||
636 | *__head = &__cleanup_handler; |
||
637 | |||
638 | /*+ |
||
639 | removes the routine at the top of the cancellation cleanup stack |
||
640 | of the calling thread |
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641 | void task_cleanup_pop(int execute); +*/ |
||
642 | #define task_cleanup_pop(ex) \ |
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643 | *__head = __cleanup_handler.next; \ |
||
644 | if (ex) (*__cleanup_handler.f) (__cleanup_handler.a); \ |
||
645 | } |
||
646 | |||
79 | pj | 647 | __END_DECLS |
2 | pj | 648 | #endif /* __FUNC_H__ */ |