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961 | 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 | /** |
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22 | ------------ |
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23 | CVS : $Id: ds.c,v 1.1 2005-02-25 10:53:02 pj Exp $ |
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24 | |||
25 | File: $File$ |
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26 | Revision: $Revision: 1.1 $ |
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27 | Last update: $Date: 2005-02-25 10:53:02 $ |
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28 | ------------ |
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29 | |||
30 | This file contains the aperiodic server DS (Deferrable Server) |
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31 | |||
32 | This module is directly derived from the Polling server one. |
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33 | All the notes writed for the PS are valid for the DS. |
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34 | |||
35 | The difference between DS and PS is that when there are not task to |
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36 | schedule the capacity is not reset to 0... |
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37 | |||
38 | **/ |
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39 | |||
40 | /* |
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41 | * Copyright (C) 2000 Paolo Gai |
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42 | * |
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43 | * This program is free software; you can redistribute it and/or modify |
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44 | * it under the terms of the GNU General Public License as published by |
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45 | * the Free Software Foundation; either version 2 of the License, or |
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46 | * (at your option) any later version. |
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47 | * |
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48 | * This program is distributed in the hope that it will be useful, |
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49 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
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50 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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51 | * GNU General Public License for more details. |
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52 | * |
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53 | * You should have received a copy of the GNU General Public License |
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54 | * along with this program; if not, write to the Free Software |
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55 | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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56 | * |
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57 | */ |
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58 | |||
59 | |||
60 | #include <ds/ds/ds.h> |
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61 | #include <ll/stdio.h> |
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62 | #include <ll/string.h> |
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63 | #include <kernel/model.h> |
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64 | #include <kernel/descr.h> |
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65 | #include <kernel/var.h> |
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66 | #include <kernel/func.h> |
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67 | |||
68 | #include <tracer.h> |
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69 | |||
70 | /*+ Status used in the level +*/ |
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71 | #define DS_WAIT APER_STATUS_BASE /*+ waiting the service +*/ |
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72 | |||
73 | /*+ the level redefinition for the Total Bandwidth Server level +*/ |
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74 | typedef struct { |
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75 | level_des l; /*+ the standard level descriptor +*/ |
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76 | |||
77 | /* The wcet are stored in the task descriptor's priority |
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78 | field, so no other fields are needed */ |
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79 | |||
80 | int nact[MAX_PROC]; /*+ number of pending activations +*/ |
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81 | |||
82 | struct timespec lastdline; /*+ the last deadline assigned to |
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83 | a DS task +*/ |
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84 | |||
85 | int Cs; /*+ server capacity +*/ |
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86 | int availCs; /*+ server avail time +*/ |
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87 | |||
88 | IQUEUE wait; /*+ the wait queue of the DS +*/ |
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89 | PID activated; /*+ the task inserted in another queue +*/ |
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90 | |||
91 | int flags; /*+ the init flags... +*/ |
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92 | |||
93 | bandwidth_t U; /*+ the used bandwidth by the server +*/ |
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94 | int period; |
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95 | |||
96 | LEVEL scheduling_level; |
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97 | |||
98 | } DS_level_des; |
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99 | |||
100 | /* This static function activates the task pointed by lev->activated) */ |
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101 | static __inline__ void DS_activation(DS_level_des *lev) |
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102 | { |
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103 | PID p; /* for readableness */ |
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104 | JOB_TASK_MODEL j; /* the guest model */ |
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105 | LEVEL m; /* the master level... only for readableness*/ |
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106 | |||
107 | p = lev->activated; |
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108 | m = lev->scheduling_level; |
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109 | job_task_default_model(j,lev->lastdline); |
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110 | job_task_def_period(j,lev->period); |
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111 | level_table[m]->private_insert(m,p,(TASK_MODEL *)&j); |
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112 | // kern_printf("(%d %d)",lev->lastdline.tv_sec,lev->lastdline.tv_nsec); |
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113 | } |
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114 | |||
115 | static void DS_deadline_timer(void *a) |
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116 | { |
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117 | DS_level_des *lev = (DS_level_des *)(level_table[(LEVEL)a]); |
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118 | |||
119 | ADDUSEC2TIMESPEC(lev->period, &lev->lastdline); |
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120 | |||
121 | // kern_printf("(%d:%d %d)",lev->lastdline.tv_sec,lev->lastdline.tv_nsec, lev->period); |
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122 | if (lev->availCs >= 0) |
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123 | lev->availCs = lev->Cs; |
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124 | else |
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125 | lev->availCs += lev->Cs; |
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126 | |||
127 | /* availCs may be <0 because a task executed via a shadow fo many time |
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128 | lev->activated == NIL only if the prec task was finished and there |
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129 | was not any other task to be put in the ready queue |
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130 | ... we are now activating the next task */ |
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131 | if (lev->availCs > 0 && lev->activated == NIL) { |
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132 | if (iq_query_first(&lev->wait) != NIL) { |
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133 | lev->activated = iq_getfirst(&lev->wait); |
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134 | DS_activation(lev); |
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135 | event_need_reschedule(); |
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136 | } |
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137 | } |
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138 | |||
139 | kern_event_post(&lev->lastdline, DS_deadline_timer, a); |
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140 | // kern_printf("!"); |
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141 | } |
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142 | |||
143 | static PID DS_public_schedulerbackground(LEVEL l) |
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144 | { |
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145 | /* the DS catch the background time to exec aperiodic activities */ |
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146 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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147 | |||
148 | lev->flags |= DS_BACKGROUND; |
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149 | |||
150 | if (lev->flags & DS_BACKGROUND_BLOCK) |
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151 | return NIL; |
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152 | else |
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153 | return iq_query_first(&lev->wait); |
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154 | } |
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155 | |||
156 | /* The on-line guarantee is enabled only if the appropriate flag is set... */ |
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157 | static int DS_public_guaranteeEDF(LEVEL l, bandwidth_t *freebandwidth) |
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158 | { |
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159 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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160 | |||
161 | if (*freebandwidth >= lev->U) { |
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162 | *freebandwidth -= lev->U; |
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163 | return 1; |
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164 | } |
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165 | else |
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166 | return 0; |
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167 | } |
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168 | |||
169 | static int DS_public_guaranteeRM(LEVEL l, bandwidth_t *freebandwidth) |
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170 | { |
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171 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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172 | |||
173 | if (*freebandwidth > lev->U + RM_MINFREEBANDWIDTH) { |
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174 | *freebandwidth -= lev->U; |
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175 | return 1; |
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176 | } |
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177 | else |
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178 | return 0; |
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179 | } |
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180 | |||
181 | static int DS_public_create(LEVEL l, PID p, TASK_MODEL *m) |
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182 | { |
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183 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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184 | |||
185 | SOFT_TASK_MODEL *s; |
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186 | |||
187 | if (m->pclass != SOFT_PCLASS) return -1; |
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188 | if (m->level != 0 && m->level != l) return -1; |
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189 | s = (SOFT_TASK_MODEL *)m; |
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190 | if (s->periodicity != APERIODIC) return -1; |
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191 | |||
192 | s = (SOFT_TASK_MODEL *)m; |
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193 | |||
194 | if (s->arrivals == SAVE_ARRIVALS) |
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195 | lev->nact[p] = 0; |
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196 | else |
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197 | lev->nact[p] = -1; |
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198 | |||
199 | return 0; /* OK, also if the task cannot be guaranteed... */ |
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200 | } |
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201 | |||
202 | static void DS_public_dispatch(LEVEL l, PID p, int nostop) |
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203 | { |
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204 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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205 | struct timespec ty; |
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206 | |||
207 | // if (nostop) kern_printf("NOSTOP!!!!!!!!!!!!"); |
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208 | /* there is at least one task ready inserted in an EDF or similar |
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209 | level note that we can't check the status because the scheduler set it |
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210 | to exe before calling task_dispatch. we have to check |
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211 | lev->activated != p instead */ |
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212 | if (lev->activated != p) { |
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213 | iq_extract(p, &lev->wait); |
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214 | //kern_printf("#%d#",p); |
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215 | } |
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216 | else { |
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217 | //if (nostop) kern_printf("(gd status=%d)",proc_table[p].status); |
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218 | level_table[ lev->scheduling_level ]-> |
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219 | private_dispatch(lev->scheduling_level,p,nostop); |
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220 | } |
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221 | |||
222 | /* set the capacity timer */ |
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223 | if (!nostop) { |
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224 | TIMESPEC_ASSIGN(&ty, &schedule_time); |
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225 | ADDUSEC2TIMESPEC(lev->availCs,&ty); |
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226 | cap_timer = kern_event_post(&ty, capacity_timer, NULL); |
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227 | } |
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228 | |||
229 | // kern_printf("(disp %d %d)",ty.tv_sec, ty.tv_nsec); |
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230 | } |
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231 | |||
232 | static void DS_public_epilogue(LEVEL l, PID p) |
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233 | { |
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234 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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235 | struct timespec ty; |
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236 | TIME tx; |
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237 | |||
238 | /* update the server capacity */ |
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239 | if (lev->flags & DS_BACKGROUND) |
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240 | lev->flags &= ~DS_BACKGROUND; |
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241 | else { |
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242 | SUBTIMESPEC(&schedule_time, &cap_lasttime, &ty); |
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243 | tx = TIMESPEC2USEC(&ty); |
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244 | lev->availCs -= tx; |
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245 | } |
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246 | |||
247 | // kern_printf("(epil %d %d)",lev->availCs, proc_table[p].avail_time); |
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248 | |||
249 | /* check if the server capacity is finished... */ |
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250 | if (lev->availCs < 0) { |
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251 | // kern_printf("(epil Cs%d %d:%d act%d p%d)", |
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252 | // lev->availCs,proc_table[p].timespec_priority.tv_sec, |
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253 | // proc_table[p].timespec_priority.tv_nsec, |
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254 | // lev->activated,p); |
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255 | /* the server slice has finished... do the task_end!!! |
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256 | a first version of the module used the task_endcycle, but it was |
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257 | not conceptually correct because the task didn't stop because it |
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258 | finished all the work but because the server didn't have budget! |
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259 | So, if the task_endcycle is called, the task remain into the |
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260 | master level, and we can't wake him up if, for example, another |
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261 | task point the shadow to it!!!*/ |
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262 | if (lev->activated == p) |
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263 | level_table[ lev->scheduling_level ]-> |
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264 | private_extract(lev->scheduling_level,p); |
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265 | iq_insertfirst(p, &lev->wait); |
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266 | proc_table[p].status = DS_WAIT; |
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267 | lev->activated = NIL; |
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268 | } |
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269 | else |
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270 | /* the task has been preempted. it returns into the ready queue or to the |
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271 | wait queue by calling the guest_epilogue... */ |
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272 | if (lev->activated == p) {//kern_printf("Û1"); |
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273 | level_table[ lev->scheduling_level ]-> |
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274 | private_epilogue(lev->scheduling_level,p); |
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275 | } else { //kern_printf("Û2"); |
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276 | iq_insertfirst(p, &lev->wait); |
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277 | proc_table[p].status = DS_WAIT; |
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278 | } |
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279 | } |
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280 | |||
281 | static void DS_public_activate(LEVEL l, PID p, struct timespec *t) |
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282 | { |
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283 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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284 | |||
285 | if (lev->activated == p || proc_table[p].status == DS_WAIT) { |
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286 | if (lev->nact[p] != -1) |
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287 | lev->nact[p]++; |
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288 | } |
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289 | else if (proc_table[p].status == SLEEP) { |
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290 | |||
291 | if (lev->activated == NIL && lev->availCs > 0) { |
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292 | lev->activated = p; |
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293 | DS_activation(lev); |
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294 | } |
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295 | else { |
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296 | iq_insertlast(p, &lev->wait); |
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297 | proc_table[p].status = DS_WAIT; |
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298 | } |
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299 | } |
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300 | else |
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301 | { kern_printf("DS_REJ%d %d %d %d ",p, proc_table[p].status, lev->activated, lev->wait.first); |
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302 | return; } |
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303 | |||
304 | } |
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305 | |||
306 | static void DS_public_unblock(LEVEL l, PID p) |
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307 | { |
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308 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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309 | |||
310 | lev->flags &= ~DS_BACKGROUND_BLOCK; |
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311 | |||
312 | lev->activated = -1; |
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313 | |||
314 | /* when we reinsert the task into the system, the server capacity |
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315 | is always 0 because nobody executes with the DS before... */ |
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316 | iq_insertfirst(p, &lev->wait); |
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317 | proc_table[p].status = DS_WAIT; |
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318 | } |
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319 | |||
320 | static void DS_public_block(LEVEL l, PID p) |
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321 | { |
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322 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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323 | |||
324 | /* update the server capacity */ |
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325 | lev->availCs = 0; |
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326 | |||
327 | lev->flags |= DS_BACKGROUND_BLOCK; |
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328 | |||
329 | if (lev->activated == p) |
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330 | level_table[ lev->scheduling_level ]-> |
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331 | private_extract(lev->scheduling_level,p); |
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332 | } |
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333 | |||
334 | static int DS_public_message(LEVEL l, PID p, void *m) |
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335 | { |
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336 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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337 | struct timespec ty; |
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338 | TIME tx; |
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339 | |||
340 | /* update the server capacity */ |
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341 | if (lev->flags & DS_BACKGROUND) |
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342 | lev->flags &= ~DS_BACKGROUND; |
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343 | else { |
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344 | SUBTIMESPEC(&schedule_time, &cap_lasttime, &ty); |
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345 | tx = TIMESPEC2USEC(&ty); |
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346 | lev->availCs -= tx; |
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347 | } |
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348 | |||
349 | if (lev->activated == p) |
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350 | level_table[ lev->scheduling_level ]-> |
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351 | private_extract(lev->scheduling_level,p); |
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352 | else |
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353 | iq_extract(p, &lev->wait); |
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354 | |||
355 | if (lev->nact[p] > 0) |
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356 | { |
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357 | lev->nact[p]--; |
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358 | iq_insertlast(p, &lev->wait); |
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359 | proc_table[p].status = DS_WAIT; |
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360 | } |
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361 | else |
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362 | proc_table[p].status = SLEEP; |
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363 | |||
364 | lev->activated = iq_getfirst(&lev->wait); |
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365 | if (lev->activated != NIL) |
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366 | DS_activation(lev); |
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367 | |||
368 | jet_update_endcycle(); /* Update the Jet data... */ |
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369 | TRACER_LOGEVENT(FTrace_EVT_task_end_cycle,(unsigned short int)proc_table[p].context,(unsigned int)l); |
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370 | |||
371 | return 0; |
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372 | } |
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373 | |||
374 | static void DS_public_end(LEVEL l, PID p) |
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375 | { |
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376 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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377 | struct timespec ty; |
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378 | TIME tx; |
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379 | |||
380 | /* update the server capacity */ |
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381 | if (lev->flags & DS_BACKGROUND) |
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382 | lev->flags &= ~DS_BACKGROUND; |
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383 | else { |
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384 | SUBTIMESPEC(&schedule_time, &cap_lasttime, &ty); |
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385 | tx = TIMESPEC2USEC(&ty); |
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386 | lev->availCs -= tx; |
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387 | } |
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388 | |||
389 | if (lev->activated == p) |
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390 | level_table[ lev->scheduling_level ]-> |
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391 | private_extract(lev->scheduling_level,p); |
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392 | |||
393 | proc_table[p].status = FREE; |
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394 | iq_insertfirst(p,&freedesc); |
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395 | |||
396 | lev->activated = iq_getfirst(&lev->wait); |
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397 | if (lev->activated != NIL) |
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398 | DS_activation(lev); |
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399 | } |
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400 | |||
401 | /* Registration functions */ |
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402 | |||
403 | |||
404 | /*+ This init function install the DS deadline timer |
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405 | +*/ |
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406 | static void DS_dline_install(void *l) |
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407 | { |
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408 | DS_level_des *lev = (DS_level_des *)(level_table[(LEVEL)l]); |
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409 | |||
410 | kern_gettime(&lev->lastdline); |
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411 | ADDUSEC2TIMESPEC(lev->period, &lev->lastdline); |
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412 | |||
413 | kern_event_post(&lev->lastdline, DS_deadline_timer, l); |
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414 | } |
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415 | |||
416 | |||
417 | |||
418 | /*+ Registration function: |
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419 | int flags the init flags ... see DS.h +*/ |
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420 | LEVEL DS_register_level(int flags, LEVEL master, int Cs, int per) |
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421 | { |
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422 | LEVEL l; /* the level that we register */ |
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423 | DS_level_des *lev; /* for readableness only */ |
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424 | PID i; /* a counter */ |
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425 | |||
426 | printk("DS_register_level\n"); |
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427 | |||
428 | /* request an entry in the level_table */ |
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429 | l = level_alloc_descriptor(sizeof(DS_level_des)); |
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430 | |||
431 | lev = (DS_level_des *)level_table[l]; |
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432 | |||
433 | /* fill the standard descriptor */ |
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434 | |||
435 | if (flags & DS_ENABLE_BACKGROUND) |
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436 | lev->l.public_scheduler = DS_public_schedulerbackground; |
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437 | |||
438 | if (flags & DS_ENABLE_GUARANTEE_EDF) |
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439 | lev->l.public_guarantee = DS_public_guaranteeEDF; |
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440 | else if (flags & DS_ENABLE_GUARANTEE_RM) |
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441 | lev->l.public_guarantee = DS_public_guaranteeRM; |
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442 | else |
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443 | lev->l.public_guarantee = NULL; |
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444 | |||
445 | lev->l.public_create = DS_public_create; |
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446 | lev->l.public_end = DS_public_end; |
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447 | lev->l.public_dispatch = DS_public_dispatch; |
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448 | lev->l.public_epilogue = DS_public_epilogue; |
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449 | lev->l.public_activate = DS_public_activate; |
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450 | lev->l.public_unblock = DS_public_unblock; |
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451 | lev->l.public_block = DS_public_block; |
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452 | lev->l.public_message = DS_public_message; |
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453 | |||
454 | /* fill the DS descriptor part */ |
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455 | |||
456 | for (i=0; i<MAX_PROC; i++) |
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457 | lev->nact[i] = -1; |
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458 | |||
459 | lev->Cs = Cs; |
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460 | lev->availCs = 0; |
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461 | |||
462 | lev->period = per; |
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463 | |||
464 | iq_init(&lev->wait, &freedesc, 0); |
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465 | lev->activated = NIL; |
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466 | |||
467 | lev->U = (MAX_BANDWIDTH / per) * Cs; |
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468 | |||
469 | lev->scheduling_level = master; |
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470 | |||
471 | lev->flags = flags & 0x07; |
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472 | |||
473 | sys_atrunlevel(DS_dline_install,(void *) l, RUNLEVEL_INIT); |
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474 | |||
475 | return l; |
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476 | } |
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477 | |||
478 | bandwidth_t DS_usedbandwidth(LEVEL l) |
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479 | { |
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480 | DS_level_des *lev = (DS_level_des *)(level_table[l]); |
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481 | return lev->U; |
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482 | } |
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483 |