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toshiba_ir.c

toshiba_ir.c 5.0 KB
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  1. #include "toshiba_ir.h"
    2. 

  2. #include <stdint.h>
    3. 

  3. #include <stdio.h>
    4. 

  4. #include "esp_log.h"
    5. 

  5. #include "rxTimer.h"
    6. 

  6. #include <string.h>
    7. 

  7. 

  8. /**
    9. 

  9.  * @Analys of Toshiba IR Rx:
    10. 

  10.  *  0  1  2  3  4  5  6  7  8
    11. 

  11.  * F2 0D 03 FC 01 D0 A3 00 72       30 Grader
    12. 

  12.  * F2 0D 03 FC 01 90 A3 00 32       26 Grader
    13. 

  13.  * F2 0D 03 FC 01 40 A3 00 E2       21 Grader
    14. 

  14.  * F2 0D 03 FC 01 30 A3 00 92       20 Grader
    15. 

  15.  * F2 0D 03 FC 01 20 A3 00 82       19 Grader
    16. 

  16.  * F2 0D 03 FC 01 10 A3 00 B2       18
    17. 

  17.  * F2 0D 03 FC 01 00 A3 00 A2       17
    18. 

  18.  * 
    19. 

  19.  * F2 0D 03 FC 01 D0 03 00 D2       Auto Fan  0000  0 (0 is Auto, 2-6 is the speed, 6 is Max)
    20. 

  20.  * F2 0D 03 FC 01 D0 43 00 92       1         0100  2
    21. 

  21.  *                                  2         0110  3
    22. 

  22.  * F2 0D 03 FC 01 D0 83 00 52       3         1000  4
    23. 

  23.  *                                  4         1010  5
    24. 

  24.  * F2 0D 03 FC 01 D0 C3 00 12       5         1100  6
    25. 

  25.  * 
    26. 

  26.  * F2 0D 03 FC 01 60 83 00 E2       ON        1000 0011 (3 is ON, 7 is OFF)
    27. 

  27.  * F2 0D 03 FC 01 60 87 00 E6       OFF       1000 0111
    28. 

  28.  * 
    29. 

  29.  */
    30. 

  30. 

  31. // Toshiba A/C
    32. 

  32. const uint16_t kToshibaAcHdrMark = 4400;
    33. 

  33. const uint16_t kToshibaAcHdrSpace = 4480;
    34. 

  34. const uint16_t kToshibaAcBitMark = 530;
    35. 

  35. const uint16_t kToshibaAcOneSpace = 1600;
    36. 

  36. const uint16_t kToshibaAcZeroSpace = 530;
    37. 

  37. // Some models have a different inter-message gap.
    38. 

  38. // See: https://github.com/crankyoldgit/IRremoteESP8266/issues/1420
    39. 

  39. const uint16_t kToshibaAcMinGap = 4600;    // WH-UB03NJ remote
    40. 

  40. const uint16_t kToshibaAcUsualGap = 7400;  // Others
    41. 

  41. 

  42. 

  43. uint8_t data[kToshibaNumberOfBytes];            // Temp data during rx
    44. 

  44. uint8_t dataTransfer[kToshibaNumberOfBytes];    // Send as pointer to receiver
    45. 

  45. 

  46. enum
    47. 

  47. {
    48. 

  48.     UNKNOWN,
    49. 

  49.     STARTER,
    50. 

  50.     T0,
    51. 

  51.     T1,
    52. 

  52.     DONE
    53. 

  53. };
    54. 

  54. 

  55. static uint8_t rx_state = UNKNOWN;
    56. 

  56. 

  57. static uint32_t rx_numBits;
    58. 

  58. 

  59. 

  60. void Toshiba_ir_ResetDecoder()
    61. 

  61. {
    62. 

  62.     //ESP_LOGI("T", "Reset decoder");
    63. 

  63.     rx_numBits = kToshibaNumberOfBits;
    64. 

  64.     rx_state = UNKNOWN;
    65. 

  65.     memset(data,0,kToshibaNumberOfBytes);
    66. 

  66. }
    67. 

  67. 

  68. static void addBit(uint8_t value)
    69. 

  69. {
    70. 

  70.     if( value == 1 ) {
    71. 

  71. 

  72. 

  73.         const uint8_t byteNo = (rx_numBits+7) / 8;
    74. 

  74.         const uint8_t shiftBits = (int)rx_numBits - (byteNo*8) + 7;
    75. 

  75. 

  76.     //ESP_LOGI("BIT RX:","%u  %u", byteNo, shiftBits);
    77. 

  77. 

  78. 

  79.         data[byteNo-1] |= ((uint8_t)1u) << shiftBits;
    80. 

  80.     }
    81. 

  81. 

  82.     rx_numBits--;
    83. 

  83. }
    84. 

  84. 

  85. #define START_PULSE_MIN (kToshibaAcHdrMark-200)
    86. 

  86. #define START_PULSE_MAX (kToshibaAcHdrMark+200)
    87. 

  87. 

  88. #define T0_PULSE_MIN (kToshibaAcBitMark-100)
    89. 

  89. #define T0_PULSE_MAX (kToshibaAcBitMark+100)
    90. 

  90. 

  91. #define SHORT_PULSE_MIN (kToshibaAcZeroSpace-100)
    92. 

  92. #define SHORT_PULSE_MAX (kToshibaAcZeroSpace+100)
    93. 

  93. 

  94. #define LONG_PULSE_MIN (kToshibaAcOneSpace-100)
    95. 

  95. #define LONG_PULSE_MAX (kToshibaAcOneSpace+100)
    96. 

  96. 

  97. 

  98. static int32_t rx_decode(uint32_t width)
    99. 

  99. {
    100. 

  100.     switch (rx_state) {
    101. 

  101.         case UNKNOWN: // Start of frame A
    102. 

  102.             if ( START_PULSE_MIN <= width && width <= START_PULSE_MAX )
    103. 

  103.             {
    104. 

  104.                 rx_state = STARTER;
    105. 

  105.                 //ESP_LOGI("T", "->STARTER");
    106. 

  106.             }
    107. 

  107.             else
    108. 

  108.             {
    109. 

  109.                 return -1; // error, reset
    110. 

  110.             }
    111. 

  111.             break;
    112. 

  112.         
    113. 

  113.         case STARTER: // Start of frame B
    114. 

  114.             if ( START_PULSE_MIN <= width && width <= START_PULSE_MAX )
    115. 

  115.             {
    116. 

  116.                 rx_state = T0;
    117. 

  117.                 //ESP_LOGI("T", "STARTER");
    118. 

  118.             }
    119. 

  119.             else
    120. 

  120.             {
    121. 

  121.                 return -1; // error, reset
    122. 

  122.             }
    123. 

  123.             break;
    124. 

  124. 

  125. 

  126.         case T0: // First half of pulse : HIGH around 230us
    127. 

  127. 

  128.             if(rx_numBits == 0)
    129. 

  129.             { // end of frame
    130. 

  130.                 //ESP_LOGI("T", "END OF FRAME");
    131. 

  131.                 rx_state = DONE;
    132. 

  132. 

  133.                 /*for(uint8_t i=9; i>0 ;i--) {
    134. 

  134.                     ESP_LOGI("DATA","Byte %u   :  %02x", i-1, data[i-1]);
    135. 

  135.                 }*/
    136. 

  136.                 return 1;
    137. 

  137.             }
    138. 

  138.             else if( T0_PULSE_MIN <= width && width <= T0_PULSE_MAX )
    139. 

  139.             {
    140. 

  140.                 rx_state = T1;
    141. 

  141.                 //ESP_LOGI("T", "T0");
    142. 

  142.             }
    143. 

  143.             else
    144. 

  144.             {
    145. 

  145.                 return -1; // error, reset
    146. 

  146.             }
    147. 

  147.             break;
    148. 

  148. 

  149.         case T1:
    150. 

  150.             if( SHORT_PULSE_MIN <= width && width <= SHORT_PULSE_MAX )
    151. 

  151.             {
    152. 

  152.                 addBit(0);
    153. 

  153.                 //ESP_LOGI("T", "Short %u",rx_numBits);
    154. 

  154.             }
    155. 

  155.             else if( LONG_PULSE_MIN <= width && width <= LONG_PULSE_MAX )
    156. 

  156.             {
    157. 

  157.                 addBit(1);
    158. 

  158.                 //ESP_LOGI("T", "Long %u", rx_numBits);
    159. 

  159.             }
    160. 

  160.             else
    161. 

  161.             {
    162. 

  162.                 return -1; // error, reset
    163. 

  163.             }
    164. 

  164.             rx_state = T0;
    165. 

  165.             break;
    166. 

  166.     }
    167. 

  167.     return 0;
    168. 

  168. }
    169. 

  169. 

  170. 

  171. 

  172. uint8_t* nextPulseToshiba_ir(uint32_t width)
    173. 

  173. {
    174. 

  174.     uint8_t* retVal = NULL;
    175. 

  175. 

  176.     if (width > 0)
    177. 

  177.     {
    178. 

  178.         if (rx_state != DONE)
    179. 

  179.         {
    180. 

  180.             switch (rx_decode(width))
    181. 

  181.             {
    182. 

  182.             case -1:
    183. 

  183.                 Toshiba_ir_ResetDecoder();
    184. 

  184.                 break;
    185. 

  185.             case 1:
    186. 

  186.                 rx_state = DONE;
    187. 

  187.                 memcpy(dataTransfer,data,kToshibaNumberOfBytes);
    188. 

  188.                 Toshiba_ir_ResetDecoder();
    189. 

  189.                 retVal = dataTransfer;
    190. 

  190.                 break;
    191. 

  191.             }
    192. 

  192.         }
    193. 

  193.     }
    194. 

  194.     
    195. 

  195.     return retVal;
    196. 

  196. }
    197.