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 and joel porquet |
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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 nano-kernel. |
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8 | // They contain the code of the _int_demux function that handle |
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9 | // the ICU (Interupt Controler Unit), and the various ISRs associated |
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10 | // to the CoCLib 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 <drivers.h> |
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17 | #include <common.h> |
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18 | #include <ctx_handler.h> |
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19 | #include <hwr_mapping.h> |
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20 | |
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21 | /////////////////////////////////////////////////////////////////////////////////// |
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22 | // Initialize the whole interrupt vector with the default ISR |
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23 | /////////////////////////////////////////////////////////////////////////////////// |
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24 | |
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25 | _isr_func_t _interrupt_vector[32] = { [0 ... 31] = &_isr_default }; |
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26 | |
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27 | /////////////////////////////////////////////////////////////////////////////////// |
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28 | // _int_demux() |
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29 | // This functions uses an external ICU component (Interrupt Controler Unit) |
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30 | // that concentrates up to 32 input interrupts lines. This component |
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31 | // can support up to NB_PROCS output IRQ. |
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32 | // |
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33 | // This component returns the highest priority active interrupt index (smaller |
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34 | // indexes have the highest priority) by reading the ICU_IT_VECTOR register. |
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35 | // Any value larger than 31 means "no active interrupt", and the default ISR |
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36 | // (that does nothing) is executed. |
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37 | // |
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38 | // The interrupt vector (32 ISR addresses array stored at _interrupt_vector |
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39 | // address) is initialised with the default ISR address. The actual ISR |
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40 | // addresses are supposed to be written in the interrupt vector array |
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41 | // during system initialisation. |
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42 | /////////////////////////////////////////////////////////////////////////////////// |
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43 | void _int_demux(void) |
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44 | { |
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45 | int interrupt_index; |
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46 | _isr_func_t isr; |
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47 | unsigned int pid = _procid(); |
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48 | |
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49 | // retrieves the highest priority active interrupt index |
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50 | if (!_icu_read( pid / NB_PROCS, |
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51 | pid % NB_PROCS, |
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52 | ICU_IT_VECTOR, |
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53 | (unsigned int*)&interrupt_index ) ) |
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54 | { |
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55 | if (interrupt_index == -1) // no interrupt is active |
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56 | return; |
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57 | |
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58 | isr = _interrupt_vector[interrupt_index]; |
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59 | isr(); |
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60 | } |
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61 | else |
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62 | { |
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63 | _puts("\n[GIET ERROR] In _demux function : wrong arguments in _icu_read()\n"); |
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64 | _exit(); |
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65 | } |
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66 | } |
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67 | /////////////////////////////////////////////////////////////////////////////////// |
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68 | // _isr_default() |
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69 | // The default ISR is called when no specific ISR has been installed in the |
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70 | // interrupt vector. It simply displays a message on TTY0. |
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71 | /////////////////////////////////////////////////////////////////////////////////// |
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72 | void _isr_default() |
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73 | { |
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74 | _puts("\n\n!!! Default ISR !!!\n"); |
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75 | } |
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76 | |
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77 | /////////////////////////////////////////////////////////////////////////////////// |
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78 | // _isr_dma() |
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79 | // This ISR handles up to 8 IRQs generated by 8 independant channels of the |
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80 | // multi_dma component. It acknowledges the interrupt and reset the synchronisation |
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81 | // variable _dma_busy[i], after copying the status into the _dma_status[i] variable. |
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82 | /////////////////////////////////////////////////////////////////////////////////// |
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83 | void _isr_dma_indexed( unsigned int dma_id ) |
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84 | { |
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85 | volatile unsigned int* dma_address; |
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86 | |
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87 | dma_address = (unsigned int*)&seg_dma_base + (dma_id * DMA_SPAN); |
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88 | |
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89 | dma_address[DMA_RESET] = 0; /* reset IRQ */ |
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90 | |
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91 | _dma_status[dma_id] = dma_address[DMA_LEN]; /* save status */ |
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92 | _dma_busy[dma_id] = 0; /* release DMA */ |
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93 | } |
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94 | |
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95 | void _isr_dma_0() { _isr_dma_indexed(0); } |
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96 | void _isr_dma_1() { _isr_dma_indexed(1); } |
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97 | void _isr_dma_2() { _isr_dma_indexed(2); } |
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98 | void _isr_dma_3() { _isr_dma_indexed(3); } |
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99 | void _isr_dma_4() { _isr_dma_indexed(4); } |
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100 | void _isr_dma_5() { _isr_dma_indexed(5); } |
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101 | void _isr_dma_6() { _isr_dma_indexed(6); } |
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102 | void _isr_dma_7() { _isr_dma_indexed(7); } |
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103 | |
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104 | /////////////////////////////////////////////////////////////////////////////////// |
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105 | // _isr_ioc() |
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106 | // There is only one IOC controler shared by all tasks. It acknowledge the IRQ |
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107 | // using the ioc base address, save the status, and set the _ioc_done variable |
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108 | // to signal completion. |
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109 | /////////////////////////////////////////////////////////////////////////////////// |
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110 | void _isr_ioc() |
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111 | { |
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112 | volatile unsigned int* ioc_address; |
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113 | |
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114 | ioc_address = (unsigned int*)&seg_ioc_base; |
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115 | |
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116 | _ioc_status = ioc_address[BLOCK_DEVICE_STATUS]; /* save status & reset IRQ */ |
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117 | _ioc_done = 1; /* signals completion */ |
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118 | } |
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119 | |
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120 | /////////////////////////////////////////////////////////////////////////////////// |
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121 | // _isr_timer_* (* = 0,1,2,3,4,5,6,7) |
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122 | // This ISR handles up to 8 IRQs generated by 8 independant timers. |
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123 | // It acknowledges the IRQ on TIMER[*] and displays a message on TTY0 |
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124 | /////////////////////////////////////////////////////////////////////////////////// |
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125 | void _isr_timer_indexed(unsigned int timer_id) |
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126 | { |
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127 | volatile unsigned int *timer_address; |
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128 | |
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129 | timer_address = (unsigned int*)&seg_timer_base + (timer_id * TIMER_SPAN); |
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130 | |
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131 | timer_address[TIMER_RESETIRQ] = 0; /* reset IRQ */ |
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132 | |
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133 | _puts("\n\n!!! Interrupt timer received from timer "); |
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134 | _putw( timer_id ); |
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135 | _puts(" at cycle "); |
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136 | _putw( _proctime() ); |
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137 | _puts("\n\n"); |
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138 | } |
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139 | |
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140 | void _isr_timer_0() { _isr_timer_indexed(0); } |
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141 | void _isr_timer_1() { _isr_timer_indexed(1); } |
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142 | void _isr_timer_2() { _isr_timer_indexed(2); } |
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143 | void _isr_timer_3() { _isr_timer_indexed(3); } |
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144 | void _isr_timer_4() { _isr_timer_indexed(4); } |
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145 | void _isr_timer_5() { _isr_timer_indexed(5); } |
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146 | void _isr_timer_6() { _isr_timer_indexed(6); } |
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147 | void _isr_timer_7() { _isr_timer_indexed(7); } |
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148 | |
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149 | /////////////////////////////////////////////////////////////////////////////////// |
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150 | // _isr_tty_get_* (* = 0,1,2,3,4,5,6,7,9,10,11,12,13,14,15) |
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151 | // The Giet supports up to 16 TTY terminals. |
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152 | // These 16 ISRs handle the up to 16 IRQs associated to 16 independant |
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153 | // terminals, signaling that a character is available. |
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154 | // There is one communication buffer _tty_get_buf[tty_id] per terminal. |
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155 | // The sychronisation variable _tty_get_full[tty_id], is set by the ISR, |
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156 | // and reset by the OS. |
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157 | // A character is lost if the buffer is full when the ISR is executed. |
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158 | /////////////////////////////////////////////////////////////////////////////////// |
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159 | void _isr_tty_get_indexed(unsigned int tty_id) |
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160 | { |
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161 | volatile unsigned int *tty_address; |
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162 | |
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163 | /* compute terminal base address */ |
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164 | tty_address = (unsigned int*)&seg_tty_base + (tty_id * TTY_SPAN); |
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165 | |
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166 | /* save character and reset IRQ */ |
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167 | _tty_get_buf[tty_id] = (unsigned char)tty_address[TTY_READ]; |
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168 | |
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169 | /* signals character available */ |
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170 | _tty_get_full[tty_id] = 1; |
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171 | } |
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172 | |
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173 | void _isr_tty_get_0() { _isr_tty_get_indexed(0); } |
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174 | void _isr_tty_get_1() { _isr_tty_get_indexed(1); } |
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175 | void _isr_tty_get_2() { _isr_tty_get_indexed(2); } |
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176 | void _isr_tty_get_3() { _isr_tty_get_indexed(3); } |
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177 | void _isr_tty_get_4() { _isr_tty_get_indexed(4); } |
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178 | void _isr_tty_get_5() { _isr_tty_get_indexed(5); } |
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179 | void _isr_tty_get_6() { _isr_tty_get_indexed(6); } |
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180 | void _isr_tty_get_7() { _isr_tty_get_indexed(7); } |
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181 | void _isr_tty_get_8() { _isr_tty_get_indexed(8); } |
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182 | void _isr_tty_get_9() { _isr_tty_get_indexed(9); } |
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183 | void _isr_tty_get_10() { _isr_tty_get_indexed(10); } |
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184 | void _isr_tty_get_11() { _isr_tty_get_indexed(11); } |
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185 | void _isr_tty_get_12() { _isr_tty_get_indexed(12); } |
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186 | void _isr_tty_get_13() { _isr_tty_get_indexed(13); } |
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187 | void _isr_tty_get_14() { _isr_tty_get_indexed(14); } |
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188 | void _isr_tty_get_15() { _isr_tty_get_indexed(15); } |
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189 | |
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190 | ///////////////////////////////////////////////////////////////////////////////////// |
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191 | // _isr_switch |
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192 | // This ISR is in charge of context switch. |
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193 | // It acknowledges the IRQ on TIMER[proc_id] and calls the _ctx_switch() function. |
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194 | ///////////////////////////////////////////////////////////////////////////////////// |
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195 | void _isr_switch() |
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196 | { |
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197 | volatile unsigned int *timer_address; |
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198 | unsigned int proc_id; |
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199 | |
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200 | proc_id = _procid(); |
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201 | timer_address = (unsigned int*)&seg_timer_base + (proc_id * TIMER_SPAN); |
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202 | |
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203 | timer_address[TIMER_RESETIRQ] = 0; /* reset IRQ */ |
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204 | _ctx_switch(); |
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205 | } |
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206 | |
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