1 | /////////////////////////////////////////////////////////////////////////////////// |
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2 | // File : irq_handler.c |
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3 | // Date : 01/04/2012 |
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4 | // Author : alain greiner |
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5 | // Copyright (c) UPMC-LIP6 |
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6 | /////////////////////////////////////////////////////////////////////////////////// |
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7 | // The irq_handler.c and irq_handler.h files are part of the GIET-VM nano-kernel. |
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8 | // They contain the code of the _irq_demux() function that access the XICU or |
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9 | // ICU component (Interupt Controler Unit), and the various ISRs (Interrupt |
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10 | // Service Routine) associated to the peripherals. |
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11 | /////////////////////////////////////////////////////////////////////////////////// |
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12 | |
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13 | #include <giet_config.h> |
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14 | #include <irq_handler.h> |
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15 | #include <sys_handler.h> |
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16 | #include <ctx_handler.h> |
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17 | #include <tim_driver.h> |
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18 | #include <icu_driver.h> |
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19 | #include <xcu_driver.h> |
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20 | #include <tty_driver.h> |
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21 | #include <ioc_driver.h> |
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22 | #include <dma_driver.h> |
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23 | #include<mapping_info.h> |
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24 | #include <utils.h> |
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25 | |
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26 | #if !defined( USE_XICU ) |
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27 | # error: You must define USE_XICU in the hard_config.h file |
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28 | #endif |
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29 | |
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30 | #if NB_TIM_CHANNELS |
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31 | extern volatile unsigned char _user_timer_event[X_SIZE*Y_SIZE*NB_TIM_CHANNELS] ; |
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32 | #endif |
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33 | |
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34 | /////////////////////////////////////////////////////////////////////////////////// |
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35 | // This function uses the ICU or XICU component (Interrupt Controler Unit) |
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36 | // to get the interrupt vector entry. There is one ICU or XICU component per |
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37 | // cluster, and this component can support up to NB_PROCS_MAX output IRQs. |
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38 | // It returns the highest priority active interrupt index (smaller |
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39 | // indexes have the highest priority). |
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40 | // Any value larger than 31 means "no active interrupt", and no ISR is executed. |
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41 | // |
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42 | // There is one interrupt vector per processor (stored in the scheduler associated |
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43 | // to the processor. Each interrupt vector entry contains four bits fields: |
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44 | // - isr_id bits[7:0] : defines the type of ISR to be executed. |
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45 | // - type_id bits[15:8] : IRQ_TYPE_HWI / IRQ_TYPE_SWI / IRQ_TYPE_PTI |
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46 | // - channel_id bits[30:16] : defines the channel for multi-channels peripherals. |
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47 | // - valid bit 31 : valid interrupt vector entry |
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48 | // If the peripheral is replicated in clusters (TIMER or DMA), the channel_id is |
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49 | // a global index : channel_id = cluster_id * NB_CHANNELS_MAX + loc_id |
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50 | /////////////////////////////////////////////////////////////////////////////////// |
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51 | void _irq_demux() |
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52 | { |
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53 | unsigned int gpid = _get_procid(); |
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54 | unsigned int cluster_id = gpid / NB_PROCS_MAX; |
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55 | unsigned int local_id = gpid % NB_PROCS_MAX; |
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56 | unsigned int irq_id; |
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57 | unsigned int ko; |
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58 | |
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59 | // get the highest priority active IRQ index |
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60 | |
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61 | #if USE_XICU |
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62 | ko = _xcu_get_index( cluster_id, local_id, &irq_id ); |
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63 | #else |
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64 | ko = _icu_get_index( cluster_id, local_id, &irq_id ); |
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65 | #endif |
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66 | |
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67 | if ( ko ) |
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68 | { |
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69 | _tty_get_lock( 0 ); |
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70 | _puts("\n[GIET ERROR] Wrong _icu_read in _irq_demux()\n"); |
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71 | _tty_release_lock( 0 ); |
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72 | } |
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73 | |
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74 | // do nothing if no interrupt active, or |
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75 | if (irq_id < 32) |
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76 | { |
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77 | static_scheduler_t* psched = (static_scheduler_t*)_get_sched(); |
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78 | unsigned int entry = psched->interrupt_vector[irq_id]; |
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79 | unsigned int isr_id = (entry ) & 0x000000FF; |
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80 | unsigned int type_id = (entry>> 8) & 0x000000FF; |
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81 | unsigned int channel_id = (entry>>16) & 0x00007FFF; |
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82 | |
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83 | if(type_id == IRQ_TYPE_HWI) // HWI |
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84 | { |
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85 | if ( isr_id == ISR_SWITCH) _isr_switch(channel_id); |
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86 | else if ( isr_id == ISR_IOC ) _isr_ioc(); |
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87 | else if ( isr_id == ISR_TTY ) _isr_tty(channel_id); |
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88 | else if ( isr_id == ISR_TIMER ) _isr_timer(channel_id); |
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89 | else if ( isr_id == ISR_WAKUP ) _isr_timer(channel_id); |
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90 | else _isr_default( irq_id, isr_id, type_id ); |
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91 | } |
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92 | else if(type_id == IRQ_TYPE_PTI) // PTI |
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93 | { |
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94 | if ( isr_id == ISR_SWITCH) _isr_switch(irq_id); |
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95 | else if ( isr_id == ISR_TIMER ) _isr_timer(irq_id); |
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96 | else _isr_default( irq_id, isr_id, type_id ); |
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97 | } |
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98 | else if(type_id == IRQ_TYPE_SWI) // SWI |
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99 | { |
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100 | if ( isr_id == ISR_WAKUP ) return; |
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101 | else _isr_default( irq_id, isr_id, type_id ); |
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102 | } |
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103 | } |
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104 | } |
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105 | |
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106 | /////////////////////////////////////////////////////////////////////////////////// |
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107 | // The default ISR is called when no specific ISR has been installed in the |
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108 | // interrupt vector. It simply displays an error message on kernel TTY[0]. |
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109 | /////////////////////////////////////////////////////////////////////////////////// |
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110 | void _isr_default( unsigned int irq_id, |
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111 | unsigned int isr_id, |
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112 | unsigned int type_id ) |
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113 | { |
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114 | _tty_get_lock( 0 ); |
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115 | _puts("\n[GIET ERROR] Undefined ISR index = "); |
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116 | _putd( isr_id ); |
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117 | if(type_id == IRQ_TYPE_HWI) _puts(" / type = HWI "); |
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118 | if(type_id == IRQ_TYPE_SWI) _puts(" / type = SWI "); |
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119 | if(type_id == IRQ_TYPE_PTI) _puts(" / type = PTI "); |
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120 | _puts(" / IRQ index = "); |
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121 | _putd( irq_id ); |
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122 | _puts(" / processor = "); |
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123 | _putd( _get_procid() ); |
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124 | _puts("\n"); |
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125 | _tty_release_lock( 0 ); |
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126 | _exit(); |
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127 | } |
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128 | |
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129 | |
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130 | /////////////////////////////////////////////////////////////////////////////////// |
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131 | // This ISR is executed when a processor wakes up after a SWI interrup. |
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132 | /////////////////////////////////////////////////////////////////////////////////// |
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133 | void _isr_wakup() |
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134 | { |
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135 | _tty_get_lock( 0 ); |
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136 | _puts("\n Processor "); |
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137 | _putd( _get_procid() ); |
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138 | _puts(" wake up\n"); |
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139 | _tty_release_lock( 0 ); |
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140 | } |
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141 | |
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142 | /////////////////////////////////////////////////////////////////////////////////// |
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143 | // There is only one IOC controler shared by all tasks. |
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144 | // This ISR save the status, acknowledge the IRQ. |
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145 | // and activates the task waiting on IO transfer. |
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146 | // |
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147 | // TODO the _set_task_slot access should be replaced by an atomic LL/SC |
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148 | // when the CTX_RUN bool will be replaced by a bit_vector. |
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149 | /////////////////////////////////////////////////////////////////////////////////// |
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150 | void _isr_ioc() |
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151 | { |
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152 | // save status in _ioc_status variable and reset IRQ |
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153 | _ioc_status = _ioc_get_status(); |
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154 | |
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155 | // reactivate task waiting on IOC |
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156 | unsigned int gpid = _ioc_gtid>>16; |
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157 | unsigned int ltid = _ioc_gtid & 0xFFFF; |
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158 | |
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159 | _set_task_slot( gpid, // global processor index |
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160 | ltid, // local task index (on processor) |
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161 | CTX_RUN_ID, // CTX_RUN slot |
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162 | 1 ); // running |
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163 | } |
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164 | |
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165 | /////////////////////////////////////////////////////////////////////////////////// |
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166 | // This ISR handles the IRQs generated by the "user" timers (the IRQs generated |
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167 | // by the "system" timers should be handled by the _isr_switch(). |
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168 | // These timers are distributed in all clusters, and can be implemented |
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169 | // in a vci_multi_timer component, or in a vci_xicu component. |
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170 | // The timer_id argument is the user timer local index. |
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171 | // timer_globa_id = cluster_id*(NB_TIM_CHANNELS) + timer_id |
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172 | // The ISR acknowledges the IRQ and registers the event in the proper entry |
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173 | // of the _timer_event[] array, and a log message is displayed on kernel terminal. |
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174 | /////////////////////////////////////////////////////////////////////////////////// |
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175 | void _isr_timer(unsigned int timer_id) |
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176 | { |
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177 | // compute cluster_id |
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178 | unsigned int cluster_id = _get_procid() / NB_PROCS_MAX; |
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179 | |
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180 | // aknowledge IRQ |
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181 | if (_timer_reset_irq( cluster_id, timer_id)) |
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182 | { |
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183 | _tty_get_lock( 0 ); |
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184 | _puts("[GIET ERROR] illegal timer index detected by _isr_timer\n"); |
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185 | _tty_release_lock( 0 ); |
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186 | return; |
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187 | } |
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188 | |
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189 | #if NB_TIM_CHANNELS |
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190 | // register the event |
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191 | unsigned int timer_global_id = cluster_id * NB_TIM_CHANNELS + timer_id; |
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192 | _user_timer_event[timer_global_id] = 1; |
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193 | #endif |
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194 | |
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195 | // display a message on TTY 0 |
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196 | _tty_get_lock( 0 ); |
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197 | _puts("\n[GIET] User Timer IRQ at cycle "); |
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198 | _putd(_get_proctime()); |
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199 | _puts("\n - cluster_id = "); |
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200 | _putd(cluster_id); |
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201 | _puts("\n - timer_id = "); |
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202 | _putd(timer_id); |
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203 | _puts("\n"); |
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204 | _tty_release_lock( 0 ); |
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205 | } |
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206 | |
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207 | |
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208 | /////////////////////////////////////////////////////////////////////////////////// |
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209 | // This ISR handles the IRQs generated by the multi_tty controler, |
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210 | // signaling that a character is available. |
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211 | // There is one single multi_tty component controling all TTYs, |
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212 | // and the tty_id argument is the global TTY index. |
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213 | // There is one communication buffer _tty_buf[tty_id] per terminal. |
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214 | // The sychronisation variable _tty_full[tty_id], is set by the ISR, |
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215 | // and reset by the OS. |
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216 | // A character is lost if the buffer is full when the ISR is executed. |
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217 | /////////////////////////////////////////////////////////////////////////////////// |
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218 | void _isr_tty(unsigned int tty_id) |
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219 | { |
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220 | // read character and reset IRQ in one read access |
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221 | _tty_get_buf[tty_id] = _tty_read_data( tty_id ); |
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222 | |
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223 | // signals character available |
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224 | _tty_get_full[tty_id] = 1; |
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225 | } |
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226 | |
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227 | |
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228 | ///////////////////////////////////////////////////////////////////////////////////// |
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229 | // This ISR is in charge of context switch, and handle the IRQs generated by |
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230 | // the "system" timers. |
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231 | // The IRQs can be generated by the MULTI_TIMER component or by the XICU component, |
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232 | // that are distributed in all clusters. |
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233 | // The ISR acknowledges the IRQ and calls the _ctx_switch() function. |
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234 | ///////////////////////////////////////////////////////////////////////////////////// |
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235 | void _isr_switch( unsigned int timer_id) |
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236 | { |
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237 | // get cluster index |
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238 | unsigned int cluster_id = _get_procid() / NB_PROCS_MAX; |
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239 | |
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240 | // acknowledge IRQ |
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241 | |
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242 | #if USE_XICU |
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243 | if ( _xcu_timer_reset_irq( cluster_id, timer_id) ) |
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244 | { |
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245 | _tty_get_lock( 0 ); |
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246 | _puts("[GIET ERROR] illegal proc index detected by _isr_switch\n"); |
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247 | _tty_release_lock( 0 ); |
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248 | return; |
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249 | } |
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250 | #else |
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251 | if (_timer_reset_irq(cluster_id, timer_id)) |
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252 | { |
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253 | _tty_get_lock( 0 ); |
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254 | _puts("[GIET ERROR] illegal proc index detected by _isr_switch\n"); |
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255 | _tty_release_lock( 0 ); |
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256 | return; |
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257 | } |
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258 | #endif |
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259 | |
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260 | // performs the context switch |
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261 | _ctx_switch(); |
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262 | } |
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263 | |
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264 | |
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265 | // Local Variables: |
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266 | // tab-width: 4 |
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267 | // c-basic-offset: 4 |
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268 | // c-file-offsets:((innamespace . 0)(inline-open . 0)) |
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269 | // indent-tabs-mode: nil |
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270 | // End: |
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271 | // vim: filetype=c:expandtab:shiftwidth=4:tabstop=4:softtabstop=4 |
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272 | |
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