1 | ///////////////////////////////////////////////////////////////////////////////// |
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2 | // File : ctx_handler.h |
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3 | // Date : 01/04/2012 |
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4 | // Authors : alain greiner & joel porquet |
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5 | // Copyright (c) UPMC-LIP6 |
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6 | ///////////////////////////////////////////////////////////////////////////////// |
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7 | // The ctx_handler.h and ctx_handler.c files are part of the GIET-VM nano-kernel. |
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8 | // This code is used to support context switch when several threads are executing |
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9 | // in time multiplexing on a single processor. |
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10 | // The threads are statically allocated to a processor in the boot phase, and |
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11 | // there is one private scheduler per processor. Each sheduler occupies 8K bytes, |
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12 | // and contains up to 14 thread contexts (thread_id is from 0 to 13). |
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13 | // The thread context [13] is reserved for the "idle" thread that is |
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14 | // launched by the scheduler when there is no other runable thread. |
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15 | ///////////////////////////////////////////////////////////////////////////////// |
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16 | // A thread context is an array of 64 uint32 words => 256 bytes. |
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17 | // It contains copies of processor registers (when the thread is preempted) |
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18 | // and some general informations associated to a thread, such as the private |
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19 | // peripheral channels allocated to the thread, the vspace index, the two |
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20 | // thread index, and the runnable status. |
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21 | ///////////////////////////////////////////////////////////////////////////////// |
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22 | // ctx[0] <- *** |ctx[8] <- $8 |ctx[16]<- $16 |ctx[24]<- $24 |
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23 | // ctx[1] <- $1 |ctx[9] <- $9 |ctx[17]<- $17 |ctx[25]<- $25 |
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24 | // ctx[2] <- $2 |ctx[10]<- $10 |ctx[18]<- $18 |ctx[26]<- LO |
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25 | // ctx[3] <- $3 |ctx[11]<- $11 |ctx[19]<- $19 |ctx[27]<- HI |
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26 | // ctx[4] <- A0 |ctx[12]<- $12 |ctx[20]<- $20 |ctx[28]<- $28 |
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27 | // ctx[5] <- A1 |ctx[13]<- $13 |ctx[21]<- $21 |ctx[29]<- SP |
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28 | // ctx[6] <- A2 |ctx[14]<- $14 |ctx[22]<- $22 |ctx[30]<- $30 |
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29 | // ctx[7] <- A3 |ctx[15]<- $15 |ctx[23]<- $23 |ctx[31]<- RA |
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30 | // |
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31 | // ctx[32]<- EPC |ctx[40]<- TTY |ctx[48]<- TRDID |ctx[56]<- *** |
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32 | // ctx[33]<- CR |ctx[41]<- CMA_FB |ctx[49]<- LTID |ctx[57]<- *** |
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33 | // ctx[34]<- SR |ctx[42]<- CMA_RX |ctx[50]<- NORUN |ctx[58]<- *** |
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34 | // ctx[35]<- BVAR |ctx[43]<- CMA_TX |ctx[51]<- COPROC |ctx[59]<- *** |
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35 | // ctx[36]<- PTAB |ctx[44]<- NIC_RX |ctx[52]<- ENTRY |ctx[60]<- *** |
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36 | // ctx[37]<- *** |ctx[45]<- NIC_TX |ctx[53]<- SIGS |ctx[61]<- *** |
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37 | // ctx[38]<- *** |ctx[46]<- TIM |ctx[54]<- VSID |ctx[62]<- *** |
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38 | // ctx[39]<- PTPR |ctx[47]<- HBA |ctx[55]<- LOCKS |ctx[63]<- *** |
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39 | ///////////////////////////////////////////////////////////////////////////////// |
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40 | |
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41 | #ifndef _CTX_HANDLER_H |
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42 | #define _CTX_HANDLER_H |
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43 | |
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44 | #include <giet_config.h> |
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45 | |
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46 | ///////////////////////////////////////////////////////////////////////////////// |
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47 | // Definition of some thread context slots indexes |
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48 | ///////////////////////////////////////////////////////////////////////////////// |
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49 | |
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50 | #define CTX_A0_ID 4 // Argument 0 |
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51 | #define CTX_A1_ID 5 // Argument 1 |
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52 | #define CTX_A2_ID 6 // Argument 2 |
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53 | #define CTX_A3_ID 7 // Argument 3 |
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54 | |
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55 | #define CTX_SP_ID 29 // Stack Pointer |
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56 | #define CTX_RA_ID 31 // Return Address |
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57 | |
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58 | #define CTX_EPC_ID 32 // Exception Program Counter (CP0) |
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59 | #define CTX_CR_ID 33 // Cause Register (CP0) |
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60 | #define CTX_SR_ID 34 // Status Register (CP0) |
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61 | #define CTX_BVAR_ID 35 // Bad Virtual Address Register (CP0) |
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62 | #define CTX_PTAB_ID 36 // Page Table Virtual address |
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63 | // 37 |
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64 | // 38 |
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65 | #define CTX_PTPR_ID 39 // Page Table Pointer Register (PADDR>>13) |
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66 | |
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67 | #define CTX_TTY_ID 40 // private TTY channel index |
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68 | #define CTX_CMA_FB_ID 41 // private CMA channel index for FBF write |
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69 | #define CTX_CMA_RX_ID 42 // private CMA channel index for NIC_TX |
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70 | #define CTX_CMA_TX_ID 43 // private CMA channel index for NIC_RX |
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71 | #define CTX_NIC_RX_ID 44 // private NIC channel index RX transfer |
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72 | #define CTX_NIC_TX_ID 45 // private NIC channel index TX transfer |
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73 | #define CTX_TIM_ID 46 // ptivate TIM channel index |
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74 | #define CTX_HBA_ID 47 // private HBA channel index |
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75 | |
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76 | #define CTX_TRDID_ID 48 // Global Thread Index ( x | y | p | ltid ) |
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77 | #define CTX_LTID_ID 49 // Local Thread Index in scheduler |
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78 | #define CTX_NORUN_ID 50 // bit-vector : thread runable if all zero |
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79 | #define CTX_COPROC_ID 51 // coprocessor coordinates (cluster_xy) |
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80 | #define CTX_ENTRY_ID 52 // Virtual address of thread entry point |
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81 | #define CTX_SIGS_ID 53 // bit-vector : pending signals |
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82 | #define CTX_VSID_ID 54 // Vspace Index |
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83 | #define CTX_LOCKS_ID 55 // bit-vector : kernel locks taken |
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84 | |
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85 | ///////////////////////////////////////////////////////////////////////////////// |
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86 | // Definition of the NORUN bit-vector masks |
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87 | ///////////////////////////////////////////////////////////////////////////////// |
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88 | |
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89 | #define NORUN_MASK_THREAD 0x00000001 // Task not active |
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90 | #define NORUN_MASK_IOC 0x00000002 // Task blocked on IOC transfer |
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91 | #define NORUN_MASK_COPROC 0x00000004 // Task blocked on COPROC transfer |
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92 | #define NORUN_MASK_TTY 0x00000008 // Task blocked on TTY_RX transfer |
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93 | |
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94 | ///////////////////////////////////////////////////////////////////////////////// |
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95 | // Definition of the SIGS bit-vector masks |
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96 | ///////////////////////////////////////////////////////////////////////////////// |
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97 | |
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98 | #define SIGS_MASK_KILL 0x00000001 // Task desactivated at next tick |
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99 | |
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100 | ///////////////////////////////////////////////////////////////////////////////// |
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101 | // Definition of the LOCKS bit-vector masks |
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102 | ///////////////////////////////////////////////////////////////////////////////// |
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103 | |
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104 | #define LOCKS_MASK_BDV 0x00000001 // BDV kernel lock taken |
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105 | #define LOCKS_MASK_FAT 0x00000002 // FAT kernel lock taken |
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106 | #define LOCKS_MASK_FBF 0x00000004 // FBF kernel lock taken |
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107 | |
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108 | ///////////////////////////////////////////////////////////////////////////////// |
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109 | // Task context and scheduler structures |
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110 | ///////////////////////////////////////////////////////////////////////////////// |
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111 | |
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112 | typedef struct thread_context_s // 256 bytes |
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113 | { |
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114 | unsigned int slot[64]; |
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115 | } thread_context_t; |
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116 | |
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117 | |
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118 | typedef struct static_scheduler_s // 8 Kbytes |
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119 | { |
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120 | thread_context_t context[14]; // at most 14 threads (including idle_thread) |
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121 | unsigned int threads; // actual number of allocated threads |
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122 | unsigned int current; // current thread index |
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123 | unsigned int hwi_vector[32]; // hardware interrupt vector |
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124 | unsigned int pti_vector[32]; // timer interrupt vector |
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125 | unsigned int wti_vector[32]; // software interrupt vector |
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126 | unsigned int reserved[30]; // padding to 4 Kbytes |
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127 | unsigned int idle_stack[1024]; // private stack for idle stack (4Kbytes) |
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128 | } static_scheduler_t; |
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129 | |
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130 | #define IDLE_THREAD_INDEX 13 |
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131 | |
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132 | |
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133 | ///////////////////////////////////////////////////////////////////////////////// |
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134 | // Extern Functions |
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135 | ///////////////////////////////////////////////////////////////////////////////// |
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136 | |
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137 | ///////////////////////////////////////////////////////////////////////////////// |
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138 | // This function performs a context switch between the running thread |
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139 | // and another thread, using a round-robin sheduling policy between all |
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140 | // threads allocated to a given processor (static allocation). |
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141 | // It selects the next runable thread to resume execution. |
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142 | // If the only runable thread is the current thread, return without context switch. |
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143 | // If there is no runable thread, the scheduler switch to the default "idle" thread. |
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144 | // The return address contained in $31 is saved in the current thread context |
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145 | // (in the ctx[31] slot), and the function actually returns to the address |
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146 | // contained in the ctx[31] slot of the next thread context. |
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147 | ///////////////////////////////////////////////////////////////////////////////// |
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148 | extern void _ctx_switch(); |
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149 | |
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150 | ///////////////////////////////////////////////////////////////////////////////// |
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151 | // The address of this function is used to initialise the return address |
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152 | // in the "idle" thread context. |
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153 | ///////////////////////////////////////////////////////////////////////////////// |
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154 | extern void _ctx_eret(); |
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155 | |
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156 | ///////////////////////////////////////////////////////////////////////////////// |
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157 | // This function is executed thread when no other thread can be executed. |
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158 | ///////////////////////////////////////////////////////////////////////////////// |
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159 | extern void _idle_thread(); |
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160 | |
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161 | #endif |
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