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1063 | tullio | 1 | |
2 | /* |
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3 | * This program is free software; you can redistribute it and/or modify |
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4 | * it under the terms of the GNU General Public License as published by |
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5 | * the Free Software Foundation; either version 2 of the License, or |
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6 | * (at your option) any later version. |
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7 | * |
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8 | * This program is distributed in the hope that it will be useful, |
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9 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
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10 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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11 | * GNU General Public License for more details. |
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12 | * |
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13 | * You should have received a copy of the GNU General Public License |
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14 | * along with this program; if not, write to the Free Software |
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15 | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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16 | * |
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17 | */ |
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18 | |||
881 | trimarchi | 19 | //==================================================================================== |
20 | // FFFFFFIII RRRRR SSTTTTTTT |
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21 | // FF IIR RR SS |
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22 | // FF IR SS |
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23 | // FFFFFF RRRR SSSSST |
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24 | // FF FI RRR SS |
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25 | // FF II RRR SS |
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26 | // FF IIIIIR RS |
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27 | // |
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28 | // Basic FSF(FIRST Scheduling Framework) contract management |
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29 | // S.Ha.R.K. Implementation |
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30 | //===================================================================== |
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31 | |||
32 | #include <time.h> |
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33 | #include <sys/boolean.h> |
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34 | #include <sys/types.h> |
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35 | |||
36 | #include "fsf_configuration_parameters.h" |
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37 | #include "fsf_opaque_types.h" |
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38 | |||
39 | #include "edfstar.h" |
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40 | #include "rmstar.h" |
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41 | #include "posixstar.h" |
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42 | #include "nonestar.h" |
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43 | |||
44 | #ifndef _FSF_CONTRACT_H_ |
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45 | #define _FSF_CONTRACT_H_ |
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46 | |||
47 | |||
48 | |||
49 | /* S.Ha.R.K. Init */ |
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50 | int FSF_register_module(int server_level, bandwidth_t max_bw); |
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51 | |||
52 | ////////////////////////////////////////////////////////////////// |
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53 | // BASIC TYPES AND CONSTANTS |
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54 | ////////////////////////////////////////////////////////////////// |
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55 | |||
56 | typedef enum {FSF_BOUNDED, FSF_INDETERMINATE} fsf_workload_t; |
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57 | |||
58 | typedef enum {FSF_CONTINUOUS, FSF_DISCRETE} fsf_granularity_t; |
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59 | |||
60 | typedef struct { |
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61 | struct timespec budget; // Execution time |
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62 | struct timespec period; // Period |
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63 | } fsf_utilization_value_t; |
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64 | |||
65 | typedef struct { |
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66 | int size; // = 0 |
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67 | fsf_utilization_value_t unit[FSF_MAX_N_UTILIZATION_VALUES]; |
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68 | } fsf_utilization_set_t; |
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69 | |||
70 | typedef unsigned long fsf_preemption_level_t; // range 1..2**32-1 |
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71 | |||
72 | typedef struct { |
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73 | struct timespec wcet; // Execution time |
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74 | fsf_preemption_level_t plevel; // Preemption_Level, range 1..2**32-1 |
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75 | } fsf_critical_section_data_t; |
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76 | |||
77 | |||
78 | // Definition of basic types |
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79 | |||
80 | typedef unsigned int fsf_shared_op_id_t; |
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81 | typedef unsigned int fsf_shared_obj_id_t; |
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82 | |||
83 | // Operations |
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84 | // The first field contains the id of the related object |
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85 | // the second field contains an identifier of the operation |
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86 | // this identifier is unique for the object but needs not to be unique |
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87 | // for the system. In other words, there can be two operations with the |
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88 | // same identifier belonging to different shared objects: they are |
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89 | // effectively two distinct operations; two different operations on the |
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90 | // same object must have different identifiers |
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91 | |||
92 | typedef struct { |
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93 | fsf_shared_obj_id_t obj_id; // Object identification |
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94 | fsf_shared_op_id_t op_id; // Operation Identification |
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95 | struct timespec wcet; // Execution time |
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96 | } fsf_shared_operation_t; |
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97 | |||
98 | // Shared object |
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99 | // the first field is the number of distinct operations on the |
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100 | // shared object. It is initialized to 0. |
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101 | // the second field is the id of the object, must be unique in the system. |
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102 | // the third field is a list of shared operations. |
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103 | |||
104 | |||
105 | |||
106 | |||
107 | typedef struct { |
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108 | int size; // = 0 |
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109 | fsf_critical_section_data_t section[FSF_MAX_N_CRITICAL_SECTIONS]; |
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110 | } fsf_critical_sections_t; |
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111 | |||
112 | typedef struct { |
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113 | int size; // = 0 |
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114 | fsf_shared_obj_id_t obj_id; // object id |
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115 | fsf_shared_operation_t shared_op[FSF_MAX_SHARED_OPERATION]; |
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116 | } fsf_shared_object_t; |
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117 | |||
118 | typedef struct { |
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119 | int size; // =0 |
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120 | fsf_shared_operation_t operation[FSF_MAX_SHARED_OPERATION]; |
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121 | } fsf_shared_operations_t; |
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122 | |||
123 | typedef int fsf_scheduler_id_t; |
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124 | |||
125 | #define FSF_SCHEDULER_POSIX 0 |
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126 | #define FSF_SCHEDULER_EDF 1 |
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127 | #define FSF_SCHEDULER_RM 2 |
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128 | #define FSF_SCHEDULER_NONE 3 |
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129 | |||
130 | // Constants for assigning default values |
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131 | #define FSF_DEFAULT_WORKLOAD FSF_INDETERMINATE |
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132 | #define FSF_DEFAULT_GRANULARITY FSF_CONTINUOUS |
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133 | #define FSF_DEFAULT_QUALITY 0 |
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134 | #define FSF_DEFAULT_IMPORTANCE 1 |
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135 | #define FSF_DEFAULT_D_EQUALS_T TRUE |
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136 | #define FSF_DEFAULT_DEADLINE {0,0} |
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137 | #define FSF_DEFAULT_SCHEDULER FSF_SCHEDULER_NONE |
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138 | |||
139 | // Constants for omitting the assignment of values to specific arguments |
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140 | // in calls to initialization functions |
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141 | #define FSF_NULL_CRITICAL_SECTIONS (fsf_critical_sections_t *)NULL |
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142 | #define FSF_NULL_UTILIZATION_SET (fsf_utilization_set_t *)NULL |
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143 | #define FSF_NULL_DEADLINE (struct timespec *)NULL |
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144 | #define FSF_NULL_SIGNAL 0 |
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145 | |||
146 | |||
147 | // Error codes |
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148 | #define FSF_ERR_NOT_INITIALIZED 2003001 |
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149 | #define FSF_ERR_TOO_MANY_TASKS 2003002 |
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150 | #define FSF_ERR_ALREADY_INITIALIZED 2003003 |
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151 | #define FSF_ERR_BAD_ARGUMENT 2003004 |
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152 | #define FSF_ERR_INVALID_SYNCH_OBJECT_HANDLE 2003005 |
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153 | #define FSF_ERR_NO_RENEGOTIATION_REQUESTED 2003006 |
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154 | #define FSF_ERR_CONTRACT_REJECTED 2003007 |
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155 | #define FSF_ERR_TOO_MANY_SERVERS 2003008 |
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156 | #define FSF_ERR_CREATE_THREAD 2003009 |
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157 | #define FSF_ERR_SERVER_USED 2003010 |
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158 | #define FSF_ERR_INVALID_SERVER 2003011 |
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159 | #define FSF_ERR_CREATE_SERVER 2003012 |
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160 | |||
161 | ////////////////////////////////////////////////////////////// |
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162 | // CONTRACT PARAMETERS |
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163 | ////////////////////////////////////////////////////////////// |
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164 | |||
165 | // Contract parameters type; it is an opaque type |
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166 | typedef FSF_CONTRACT_PARAMETERS_T_OPAQUE fsf_contract_parameters_t; |
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167 | |||
168 | int |
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169 | fsf_initialize_contract(fsf_contract_parameters_t *contract); |
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170 | |||
171 | //Description: The operation receives a pointer to a contract parameters |
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172 | //object and initializes it, setting it to the default values. |
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173 | // budget_min => {0,0}; |
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174 | // period_max => {0,0}; |
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175 | // budget_max => {0,0}; |
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176 | // period_min => {0,0}; |
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177 | // workload => DEFAULT_WORKLOAD; |
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178 | |||
179 | // d_equals_t => DEFAULT_D_EQUALS_T; (false or true) |
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180 | // deadline => DEFAULT_DEADLINE; |
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181 | // budget_overrun_sig_notify => 0; (signal number) |
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182 | // budget_overrun_sig_value => {0, NULL}; |
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183 | // deadline_miss_sig_notify => 0; (signal number) |
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184 | // deadline_miss_sig_value => {0, NULL}; |
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185 | // |
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186 | // granularity => DEFAULT_GRANULARITY; |
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187 | // utilization_set; => size = 0 |
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188 | // quality => DEFAULT_QUALITY; (range 0..100) |
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189 | // importance => DEFAULT_IMPORTANCE; (range 1..5) |
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190 | // |
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191 | // preemption_level => 0; (range 1..2**32-1) |
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192 | // critical_sections; => size = 0 |
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193 | |||
194 | |||
195 | int |
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196 | fsf_set_contract_basic_parameters |
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197 | (fsf_contract_parameters_t *contract, |
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198 | const struct timespec *budget_min, |
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199 | const struct timespec *period_max, |
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200 | const struct timespec *budget_max, |
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201 | const struct timespec *period_min, |
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202 | fsf_workload_t workload); |
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203 | |||
204 | //Description: The operation updates the specified contract parameters |
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205 | //object by setting its budget, period, and workload to the specified |
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206 | //input parameters. (Note: the workload is a basic parameter because |
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207 | //bounded tasks are triggered by the scheduler (see the Timed Schedule |
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208 | //Next Job operation, later), while indeterminate tasks are not; |
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209 | //therefore, their programming model is quite different). |
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210 | |||
211 | int |
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212 | fsf_get_contract_basic_parameters |
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213 | (const fsf_contract_parameters_t *contract, |
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214 | struct timespec *budget_min, |
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215 | struct timespec *period_max, |
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216 | struct timespec *budget_max, |
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217 | struct timespec *period_min, |
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218 | fsf_workload_t *workload); |
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219 | |||
220 | //Description: This operation obtains from the specified contract parameters |
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221 | //object its budget, period, and workload, and copies them to the places |
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222 | //pointed to by the corresponding input parameters. |
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223 | |||
224 | int |
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225 | fsf_set_contract_timing_requirements |
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226 | (fsf_contract_parameters_t *contract, |
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227 | bool d_equals_t, |
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228 | const struct timespec *deadline, |
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229 | int budget_overrun_sig_notify, |
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230 | union sigval budget_overrun_sig_value, |
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231 | int deadline_miss_sig_notify, |
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232 | union sigval deadline_miss_sig_value); |
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233 | |||
234 | //Description: The operation updates the specified contract parameters |
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235 | //object. d_equals_t is used as a boolean, deadline must be |
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236 | //NULL_DEADLINE if d_equals_t is true, budget_overrun_sig_notify or |
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237 | //deadline_miss_sig_notify may be NULL_SIGNAL (no notification) or any |
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238 | //posix signal. budget_overrun_sig_value and deadline_miss_sig_value |
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239 | //are the values to be delivered with the signal. |
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240 | |||
241 | int |
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242 | fsf_get_contract_timing_requirements |
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243 | (const fsf_contract_parameters_t *contract, |
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244 | bool *d_equals_t, |
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245 | struct timespec *deadline, |
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246 | int *budget_overrun_sig_notify, |
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247 | union sigval *budget_overrun_sig_value, |
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248 | int *deadline_miss_sig_notify, |
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249 | union sigval *deadline_miss_sig_value); |
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250 | |||
251 | //Description: The operation obtains the corresponding input |
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252 | //parameters from the specified contract parameters object. If |
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253 | //d_equals_t is true, the deadline will not be updated. |
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254 | |||
255 | int |
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256 | fsf_set_contract_reclamation_parameters |
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257 | (fsf_contract_parameters_t *contract, |
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258 | fsf_granularity_t granularity, |
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259 | const fsf_utilization_set_t *utilization_set, |
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260 | int quality, |
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261 | int importance); |
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262 | |||
263 | //Description: The operation updates the specified contract parameters |
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264 | //object by setting its granularity, utilization set, quality, and |
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265 | //importance to the specified input parameters. |
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266 | |||
267 | int |
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268 | fsf_get_contract_reclamation_parameters |
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269 | (const fsf_contract_parameters_t *contract, |
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270 | fsf_granularity_t *granularity, |
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271 | fsf_utilization_set_t *utilization_set, |
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272 | int *quality, |
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273 | int *importance); |
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274 | |||
275 | //Description: The operation obtains from the specified contract parameters |
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276 | //object its granularity, utilization set, quality, and importance. Then |
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277 | //copies them to the places pointed to by the specified input parameters. |
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278 | //Only the utilization_values of the utilization_set that are in use, are |
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279 | //copied (according to its size field). |
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280 | |||
281 | |||
282 | /* OLD VERSION |
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283 | int |
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284 | fsf_set_contract_synchronization_parameters |
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285 | (fsf_contract_parameters_t *contract, |
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286 | fsf_preemption_level_t preemption_level, |
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287 | const fsf_critical_sections_t *critical_sections); |
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288 | |||
289 | //Description: The operation updates the specified contract parameters |
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290 | //object by setting its preemption level and critical sections to the |
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291 | //specified input parameters. |
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292 | |||
293 | */ |
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294 | |||
295 | int |
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296 | fsf_get_contract_synchronization_parameters |
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297 | (const fsf_contract_parameters_t *contract, |
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298 | fsf_preemption_level_t *preemption_level, |
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299 | fsf_critical_sections_t *critical_sections); |
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300 | |||
301 | //Description: The operation obtains from the specified contract |
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302 | //parameters object its preemption level and critical sections, and |
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303 | //copies them to the places pointed to by the specified input |
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304 | //parameters. Only those critical_section_data records that are in use |
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305 | //in the critical_sections structure are copied (according to its size |
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306 | //field). |
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307 | |||
308 | int |
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309 | fsf_set_local_scheduler_parameter |
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310 | (fsf_contract_parameters_t *contract, |
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311 | fsf_scheduler_id_t local_scheduler_id); |
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312 | |||
313 | //Description: Set the local scheduler |
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314 | |||
315 | int |
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316 | fsf_get_local_scheduler_parameter |
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317 | (const fsf_contract_parameters_t *contract, |
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318 | fsf_scheduler_id_t *local_scheduler_id); |
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319 | |||
320 | //Description: Get the local scheduler |
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321 | |||
322 | ////////////////////////////////////////////////////////////// |
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323 | // SYNCHRONIZATION OBJECTS |
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324 | ////////////////////////////////////////////////////////////// |
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325 | |||
326 | //An abstract synchronization object is defined by the application. |
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327 | //This object can be used by an application to wait for an event to |
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328 | //arrive by invoking the Event Triggered Schedule Next Job operation. |
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329 | //It can also be used to signal the event either causing a waiting |
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330 | //server to wake up, or the event to be queued if no server is waiting |
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331 | //for it. It is defined by the following opaque type and has the |
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332 | //following operations: |
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333 | |||
334 | typedef FSF_SYNCH_OBJECT_HANDLE_T_OPAQUE fsf_synch_object_handle_t; |
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335 | |||
336 | int |
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337 | fsf_create_synchobject(fsf_synch_object_handle_t *synch_handle); |
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338 | |||
339 | //Description: This operation creates and initializes a |
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340 | //synchronization object variable managed by the scheduler, and |
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341 | //returns a handle to it in the variable pointed to by synch_handle. |
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342 | |||
343 | int |
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344 | fsf_signal_synchobject(fsf_synch_object_handle_t *synch_handle); |
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345 | |||
346 | //Description: If one or more servers are waiting upon the specified |
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347 | //synchronization object one of them is awakened; if not, the event is |
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348 | //queued at the synchronization object. |
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349 | |||
350 | int |
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351 | fsf_destroy_synchobject(fsf_synch_object_handle_t *synch_handle); |
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352 | |||
353 | //This operation destroys the synchronization object (created by a |
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354 | //previous call to fsf_create_synchobject) that is referenced by the |
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355 | //synch_handle variable. After calling this operation, the |
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356 | //synch_handle variable can not be used until it is initialized again |
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357 | //by a call to fsf_create_synchobject. |
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358 | |||
359 | |||
360 | /////////////////////////////////////////////////////////////// |
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361 | // CONTRACT NEGOCIATION OPERATIONS |
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362 | /////////////////////////////////////////////////////////////// |
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363 | |||
364 | // Server Id type, that identifies a server created to manage a |
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365 | // given contract |
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366 | |||
367 | typedef int fsf_server_id_t; |
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368 | |||
369 | |||
370 | typedef struct { |
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371 | fsf_server_id_t server; |
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372 | TIME actual_period; |
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373 | TIME actual_budget; |
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374 | int Qs; // quality of service |
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375 | int Is; // importance of service |
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376 | bandwidth_t U; // actual bandwidth |
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377 | bandwidth_t Umin; // min bandwidth |
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378 | bandwidth_t Umax; // max bandwidth |
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379 | TIME Cmin; |
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380 | TIME Tmin; |
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381 | TIME Tmax; |
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382 | TIME deadline; |
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383 | bool d_equals_t; |
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384 | } server_elem; |
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385 | |||
386 | int recalculate_contract(bandwidth_t U); |
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387 | |||
388 | |||
389 | // The following type references a function that may become |
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390 | // a thread's code |
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391 | |||
392 | typedef void * (*fsf_thread_code_t) (void *); |
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393 | |||
394 | // Negotiate contract functions: The following functions are used to |
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395 | // create servers for a contract parameters specification and also to |
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396 | // assign one or more threads to a server (Note: the current |
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397 | // implementation only supports one thread per server; this limitation |
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398 | // will be removed in the next phase of the project) |
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399 | |||
400 | // The first time that any of these operations is called, it creates |
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401 | // all the internal management structures that are necessary for the |
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402 | // FIRST Scheduling Framework to operate properly. |
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403 | |||
404 | int |
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405 | fsf_negotiate_contract |
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406 | (const fsf_contract_parameters_t *contract, |
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407 | fsf_server_id_t *server); |
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408 | |||
409 | //Description: The operation negotiates a contract for a new |
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410 | //server. If the on-line admission test is enabled it determines |
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411 | //whether the contract can be admitted or not based on the current |
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412 | //contracts established in the system. Then it creates the server and |
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413 | //recalculates all necessary parameters for the contracts already |
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414 | //present in the system. This is a potentially blocking operation; it |
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415 | //returns when the system has either rejected the contract, or |
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416 | //admitted it and made it effective. It returns zero and places the |
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417 | //server identification number in the location pointed to by the |
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418 | //server input parameter if accepted, or an error if rejected. No |
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419 | //thread is bound to the newly created server, which will be idle |
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420 | //until a thread is bound to it. This operation can only be executed |
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421 | //by threads that are already bound to an active server and therefore |
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422 | //are being scheduled by the fsf scheduler. |
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423 | |||
424 | int |
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425 | fsf_create_thread |
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426 | (fsf_server_id_t server, |
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427 | pthread_t *thread, |
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428 | pthread_attr_t *attr, |
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429 | fsf_thread_code_t thread_code, |
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430 | void *arg, |
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431 | void *local_scheduler_arg); |
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432 | |||
433 | //Description: This operation creates a new thread inside a specific |
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434 | //server. The local_scheduler_arg parameter is used to pass specific |
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435 | //parameters to local scheduler. These parameters are application |
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436 | //depented. |
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437 | |||
438 | int |
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439 | fsf_get_server |
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440 | (fsf_server_id_t *server, |
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441 | pthread_t thread); |
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442 | |||
443 | //Description: This operation returns the server associated with a |
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444 | //thread. It returns an error if the thread does not exist, it is not |
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445 | //under the control of the scheduling framework, or is not bound. |
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446 | |||
447 | int |
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448 | fsf_cancel_contract (fsf_server_id_t *server); |
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449 | |||
450 | //Description: The operation eliminates the specified server and |
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451 | //recalculates all necessary parameters for the contracts remaining in |
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452 | //the system. This is a potentially blocking operation; it returns when |
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453 | //the system has made the changes effective. |
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454 | |||
455 | int |
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456 | fsf_renegotiate_contract |
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457 | (const fsf_contract_parameters_t *new_contract, |
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458 | fsf_server_id_t server); |
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459 | |||
460 | //Description: The operation renegotiates a contract for an existing |
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461 | //server. If the on-line admission test is enabled it determines |
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462 | //whether the contract can be admitted or not based on the current |
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463 | //contracts established in the system. If it cannot be admitted, the |
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464 | //old contract remains in effect and an error is returned. If it can |
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465 | //be admitted, it recalculates all necessary parameters for the |
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466 | //contracts already present in the system anr returns zero. This is a |
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467 | //potentially blocking operation; it returns when the system has |
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468 | //either rejected the new contract, or admitted it and made it |
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469 | //effective. |
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470 | |||
471 | int |
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472 | fsf_request_contract_renegotiation |
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473 | (const fsf_contract_parameters_t *new_contract, |
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474 | fsf_server_id_t server, |
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475 | int sig_notify, |
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476 | union sigval sig_value); |
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477 | |||
478 | //Description: The operation enqueues a renegotiate operation for an |
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479 | //existing server, and returns immediately. The renegotiate operation |
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480 | //is performed asynchronously, as soon as it is practical; meanwhile |
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481 | //the system operation will continue normally. When the renegotiation |
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482 | //is made, if the on-line admission test is enabled it determines |
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483 | //whether the contract can be admitted or not based on the current |
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484 | //contracts established in the system. If it cannot be admitted, the |
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485 | //old contract remains in effect. If it can be admitted, it |
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486 | //recalculates all necessary parameters for the contracts already |
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487 | //present in the system. When the operation is completed, notification |
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488 | //is made to the caller, if requested, via a signal. The status of the |
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489 | //operation (in progress, admitted, rejected) can be checked with the |
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490 | //get_renegotiation_status operation. The argument sig_notify can be |
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491 | //NULL_SIGNAL (no notification), or any posix signal; and in this case |
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492 | //sig_value is to be sent with the signal. |
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493 | |||
494 | typedef enum {FSF_IN_PROGRESS, |
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495 | FSF_REJECTED, |
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496 | FSF_ADMITTED} fsf_renegotiation_status_t; |
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497 | |||
498 | int |
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499 | fsf_get_renegotiation_status |
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500 | (fsf_server_id_t server, |
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501 | fsf_renegotiation_status_t *renegotiation_status); |
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502 | |||
503 | //Description: The operation reports on the status of the last |
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504 | //renegotiation operation enqueued for the specified server. It is |
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505 | //callable even after notification of the completion of such operation, |
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506 | //if requested. |
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507 | |||
508 | int |
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509 | fsf_request_change_quality_and_importance |
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510 | (fsf_server_id_t server, |
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511 | int new_importance, |
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512 | int new_quality); |
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513 | |||
514 | //Description: The operation enqueues a request to change the quality and |
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515 | //importance parameters of the specified server, and returns immediately. |
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516 | //The change operation is performed as soon as it is practical; |
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517 | //meanwhile the system operation will continue normally. |
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518 | |||
519 | |||
520 | //////////////////////////////////////////////////////////// |
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521 | // SCHEDULING BOUNDED WORKLOADS |
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522 | //////////////////////////////////////////////////////////// |
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523 | |||
524 | int |
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525 | fsf_schedule_next_timed_job |
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526 | (const struct timespec *at_absolute_time, |
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527 | struct timespec *next_budget, |
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528 | struct timespec *next_period, |
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529 | bool *was_deadline_missed, |
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530 | bool *was_budget_overran); |
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531 | |||
532 | //Description: This operation is invoked by threads associated with |
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533 | //bounded workload servers to indicate that a job has been completed |
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534 | //(and that the scheduler may reassign the unused capacity of the |
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535 | //current job to other servers), and also when the first job require |
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536 | //to be scheduled. The system will activate the job at the specified |
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537 | //absolute time, and will then use the scheduling rules to determine |
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538 | //when the job can run, at which time the call returns. Upon return, |
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539 | //the system reports the current period and budget for the current |
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540 | //job, whether the deadline of the previous job was missed or not, |
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541 | //and whether the budget of the previous job was overrun or not. |
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542 | |||
543 | |||
544 | int |
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545 | fsf_schedule_next_event_triggered_job |
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546 | (fsf_synch_object_handle_t *synch_handle, |
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547 | struct timespec *next_budget, |
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548 | struct timespec *next_period, |
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549 | bool *was_deadline_missed, |
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550 | bool *was_budget_overran); |
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551 | |||
552 | //Description: This operation is invoked by threads associated with |
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553 | //bounded workload servers to indicate that a job has been completed |
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554 | //(and that the scheduler may reassign the unused capacity of the |
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555 | //current job to other servers), and also when the first job require |
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556 | //to be scheduled. If the specified synchronization object has events |
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557 | //queued, one of them is dequeued; otherwise the server will wait upon |
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558 | //the specified synchronization object until it is signalled. Then, the |
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559 | //system will use the scheduling rules to determine when the job can run |
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560 | //and the call will return at that time. Upon return, the system reports |
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561 | //the current period and budget for the current job, whether the deadline |
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562 | //of the previous job was missed or not, and whether the budget of the |
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563 | //previous job was overrun or not. |
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564 | |||
565 | |||
566 | ////////////////////////////////////////////////////////////// |
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567 | // OBTAINING INFORMATION FROM THE SCHEDULER |
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568 | ////////////////////////////////////////////////////////////// |
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569 | |||
570 | int |
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571 | fsf_get_available_capacity (fsf_server_id_t server, float *capacity); |
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572 | |||
573 | //Description: This operation returns the current spare capacity (in |
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574 | //percentage of processor or network utilization), currently assigned |
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575 | //to the importance level of the specified server. |
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576 | |||
577 | int |
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578 | fsf_get_total_quality (fsf_server_id_t server, int *total_quality); |
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579 | |||
580 | //Description: This operation returns the sum of the quality parameters |
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581 | //for all servers in the system of importance level equal to that of |
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582 | //the specified server. |
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583 | |||
584 | int |
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585 | fsf_is_admission_test_enabled(); |
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586 | |||
587 | //Description: Returns true if the system is configured with the |
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588 | //on-line admission test enabled, or false otherwise. |
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589 | |||
590 | |||
591 | // Mutex function |
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592 | |||
593 | // Initialization |
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594 | // here we initialize the second and third field of the structure |
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595 | void fsf_init_shared_op(fsf_shared_operation_t *op, |
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596 | fsf_shared_op_id_t op_id, |
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597 | struct timespec wcet); |
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598 | |||
599 | // initialization |
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600 | // The shared object id is set equal to the second parameter. |
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601 | int fsf_init_shared_object(fsf_shared_object_t *obj, |
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602 | fsf_shared_obj_id_t id); |
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603 | |||
604 | // Declare an operation |
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605 | // This function is used to declare that a shared object has |
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606 | // a synchronized operation on it. |
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607 | // It checks if another operation with the same id has already been |
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608 | // declared; if so, return false (-1). |
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609 | // The obj_id field of the operation is set equal to the shared object id. |
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610 | // the structure op is copied in the first free element in the array |
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611 | // shared_op pof the structure obj. If there are no more free element, |
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612 | // returns -1. |
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613 | // Returns 0 if the operation has been completed, -1 otherwise. |
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614 | |||
615 | int fsf_declare_shared_object_operation(fsf_shared_object_t *obj, |
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616 | fsf_shared_operation_t *op); |
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617 | |||
618 | |||
619 | int fsf_lock_object(fsf_shared_operation_t *op); |
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620 | |||
621 | int fsf_unlock_object(fsf_shared_operation_t *op); |
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622 | |||
623 | // set contract parameters |
||
624 | // specify a list of operations for each contract |
||
625 | // the list is specified as a pointer to an array. |
||
626 | // the size of the array is specified as third parameter |
||
627 | // returns 0 if all operations are correctly initialized |
||
628 | // returns -1 otherwise. |
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629 | |||
630 | int fsf_set_contract_synchronization_parameters( |
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631 | fsf_contract_parameters_t *contract, |
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632 | const fsf_shared_operation_t *shared_ops, |
||
633 | size_t op_num); |
||
634 | |||
635 | |||
636 | |||
637 | #endif // _FSF_CONTRACT_H_ |