amiro-os / devices / DiWheelDrive / main.cpp @ a47d64ad
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1 | b8b3a9c9 | galberding | #include <cstdint> |
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2 | 58fe0e0b | Thomas Schöpping | #define BL_CALLBACK_TABLE_ADDR (0x08000000 + 0x01C0) |
3 | #define BL_MAGIC_NUMBER ((uint32_t)0xFF669900u) |
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4 | |||
5 | #define SHUTDOWN_NONE 0 |
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6 | #define SHUTDOWN_TRANSPORTATION 1 |
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7 | #define SHUTDOWN_DEEPSLEEP 2 |
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8 | #define SHUTDOWN_HIBERNATE 3 |
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9 | #define SHUTDOWN_RESTART 4 |
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10 | #define SHUTDOWN_HANDLE_REQUEST 5 |
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11 | |||
12 | #include <ch.hpp> |
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13 | |||
14 | #include <amiro/util/util.h> |
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15 | #include <global.hpp> |
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16 | #include <exti.hpp> |
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17 | |||
18 | #include <chprintf.h> |
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19 | #include <shell.h> |
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20 | |||
21 | b8b3a9c9 | galberding | #include "linefollow.hpp" |
22 | #include "amiro_map.hpp" |
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23 | 58fe0e0b | Thomas Schöpping | using namespace chibios_rt; |
24 | |||
25 | Global global; |
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26 | |||
27 | 10687985 | Thomas Schöpping | struct blVersion_t {
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28 | const uint8_t identifier;
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29 | const uint8_t major;
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30 | const uint8_t minor;
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31 | const uint8_t patch;
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32 | } __attribute__((packed)); |
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33 | |||
34 | 58fe0e0b | Thomas Schöpping | void systemShutdown() {
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35 | types::kinematic k; |
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36 | uint8_t i; |
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37 | |||
38 | // // make sure we assert SYS_PD_N to delay shutdown until we're done.
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39 | // boardRequestShutdown();
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40 | |||
41 | // stop the user thread
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42 | global.userThread.requestTerminate(); |
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43 | global.userThread.wait(); |
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44 | |||
45 | k.x = 0x00u;
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46 | k.w_z = 0x00u;
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47 | |||
48 | // stop wheels
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49 | global.robot.setTargetSpeed(k); |
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50 | global.robot.terminate(); |
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51 | |||
52 | for (i = 0x00; i < global.vcnl4020.size(); i++) { |
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53 | global.vcnl4020[i].requestTerminate(); |
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54 | global.vcnl4020[i].wait(); |
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55 | } |
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56 | |||
57 | global.ina219.requestTerminate(); |
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58 | global.ina219.wait(); |
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59 | global.hmc5883l.requestTerminate(); |
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60 | global.hmc5883l.wait(); |
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61 | global.l3g4200d.requestTerminate(); |
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62 | global.l3g4200d.wait(); |
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63 | |||
64 | global.motorcontrol.requestTerminate(); |
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65 | global.motorcontrol.wait(); |
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66 | global.odometry.requestTerminate(); |
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67 | global.odometry.wait(); |
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68 | |||
69 | // stop I²C
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70 | for (i = 0; i < global.V_I2C2.size(); ++i) |
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71 | global.V_I2C2[i].stop(); |
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72 | global.HW_I2C2.stop(); |
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73 | |||
74 | global.lis331dlh.requestTerminate(); |
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75 | global.lis331dlh.wait(); |
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76 | |||
77 | global.lis331dlh.configure(&global.accel_sleep_config); |
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78 | // global.lis331dlh.start(NORMALPRIO +4);
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79 | |||
80 | // boardWriteIoPower(0);
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81 | // boardStandby();
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82 | |||
83 | return;
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84 | } |
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85 | |||
86 | |||
87 | //void (*shellcmd_t)(BaseSequentialStream *chp, int argc, char *argv[]);
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88 | |||
89 | void shellRequestShutdown(BaseSequentialStream *chp, int argc, char *argv[]) { |
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90 | |||
91 | chprintf(chp, "shellRequestShutdown\n");
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92 | |||
93 | /* if nor argument was given, print some help text */
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94 | if (argc == 0 || strcmp(argv[0], "help") == 0) { |
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95 | chprintf(chp, "\tUSAGE:\n");
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96 | chprintf(chp, "> shutdown <type>\n");
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97 | chprintf(chp, "\n");
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98 | chprintf(chp, "\ttype\n");
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99 | chprintf(chp, "The type of shutdown to perform.\n");
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100 | chprintf(chp, "Choose one of the following types:\n");
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101 | chprintf(chp, " transportation - Ultra low-power mode with all wakeups disabled.\n");
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102 | chprintf(chp, " The robot can not be charged.\n");
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103 | chprintf(chp, " deepsleep - Ultra low-power mode with several wakeups enabled.\n");
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104 | chprintf(chp, " The robot can only be charged via the power plug.\n");
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105 | chprintf(chp, " hibernate - Medium low-power mode, but with full charging capabilities.\n");
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106 | chprintf(chp, " restart - Performs a system restart.\n");
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107 | chprintf(chp, "Alternatively, you can use the shortcuts 't', 'd', 'h', and 'r' respectively.");
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108 | chprintf(chp, "\n");
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109 | return;
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110 | } |
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111 | |||
112 | if (strcmp(argv[0],"transportation") == 0 || strcmp(argv[0],"t") == 0) { |
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113 | shutdown_now = SHUTDOWN_TRANSPORTATION; |
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114 | chprintf(chp, "shutdown to transportation mode initialized\n");
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115 | } else if (strcmp(argv[0],"deepsleep") == 0 || strcmp(argv[0],"d") == 0) { |
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116 | shutdown_now = SHUTDOWN_DEEPSLEEP; |
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117 | chprintf(chp, "shutdown to deepsleep mode initialized\n");
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118 | } else if (strcmp(argv[0],"hibernate") == 0 || strcmp(argv[0],"h") == 0) { |
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119 | shutdown_now = SHUTDOWN_HIBERNATE; |
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120 | chprintf(chp, "shutdown to hibernate mode initialized\n");
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121 | } else if (strcmp(argv[0],"restart") == 0 || strcmp(argv[0],"r") == 0) { |
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122 | chprintf(chp, "restart initialized\n");
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123 | shutdown_now = SHUTDOWN_RESTART; |
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124 | } else {
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125 | chprintf(chp, "ERROR: unknown argument!\n");
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126 | shutdown_now = SHUTDOWN_NONE; |
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127 | } |
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128 | |||
129 | return;
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130 | } |
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131 | |||
132 | void shellRequestWakeup(BaseSequentialStream *chp, int argc, char *argv[]) { |
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133 | int i;
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134 | chprintf(chp, "shellRequestWakeup\n");
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135 | |||
136 | for (i = 0x00u; i < argc; i++) |
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137 | chprintf(chp, "%s\n", argv[i]);
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138 | |||
139 | boardWakeup(); |
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140 | } |
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141 | |||
142 | void shellRequestGetMemoryData(BaseSequentialStream *chp, int argc, char *argv[]) { |
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143 | enum Type {HEX, U8, U16, U32, S8, S16, S32};
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144 | |||
145 | chprintf(chp, "shellRequestReadData\n");
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146 | |||
147 | if (argc < 2 || strcmp(argv[0],"help") == 0) |
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148 | { |
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149 | chprintf(chp, "Usage: %s\n","get_memory_data <type> <start> [<count>]"); |
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150 | chprintf(chp, "\n");
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151 | chprintf(chp, "\ttype\n");
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152 | chprintf(chp, "The data type as which to interpret the data.\n");
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153 | chprintf(chp, "Choose one of the following types:\n");
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154 | chprintf(chp, " hex - one byte as hexadecimal value\n");
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155 | chprintf(chp, " u8 - unsigned integer (8 bit)\n");
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156 | chprintf(chp, " u16 - unsigned integer (16 bit)\n");
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157 | chprintf(chp, " u32 - unsigned integer (32 bit)\n");
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158 | chprintf(chp, " s8 - signed integer (8 bit)\n");
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159 | chprintf(chp, " s16 - signed integer (16 bit)\n");
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160 | chprintf(chp, " s32 - signed integer (32 bit)\n");
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161 | chprintf(chp, "\tstart\n");
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162 | chprintf(chp, "The first byte to read from the memory.\n");
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163 | chprintf(chp, "\tcount [default = 1]\n");
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164 | chprintf(chp, "The number of elements to read.\n");
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165 | chprintf(chp, "\n");
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166 | chprintf(chp, "\tNOTE\n");
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167 | chprintf(chp, "Type conversions of this function might fail.\n");
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168 | chprintf(chp, "If so, use type=hex and convert by hand.\n");
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169 | chprintf(chp, "\n");
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170 | return;
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171 | } |
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172 | |||
173 | uint8_t type_size = 0;
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174 | Type type = HEX; |
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175 | if (strcmp(argv[0],"hex") == 0) { |
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176 | type_size = sizeof(unsigned char); |
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177 | type = HEX; |
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178 | } else if(strcmp(argv[0],"u8") == 0) { |
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179 | type_size = sizeof(uint8_t);
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180 | type = U8; |
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181 | } else if(strcmp(argv[0],"u16") == 0) { |
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182 | type_size = sizeof(uint16_t);
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183 | type = U16; |
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184 | } else if(strcmp(argv[0],"u32") == 0) { |
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185 | type_size = sizeof(uint32_t);
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186 | type = U32; |
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187 | } else if(strcmp(argv[0],"s8") == 0) { |
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188 | type_size = sizeof(int8_t);
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189 | type = S8; |
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190 | } else if(strcmp(argv[0],"s16") == 0) { |
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191 | type_size = sizeof(int16_t);
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192 | type = S16; |
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193 | } else if(strcmp(argv[0],"s32") == 0) { |
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194 | type_size = sizeof(int32_t);
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195 | type = S32; |
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196 | } else {
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197 | chprintf(chp, "First argument invalid. Use 'get_memory_data help' for help.\n");
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198 | return;
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199 | } |
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200 | |||
201 | unsigned int start_byte = atoi(argv[1]); |
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202 | |||
203 | unsigned int num_elements = 1; |
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204 | if (argc >= 3) |
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205 | num_elements = atoi(argv[2]);
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206 | |||
207 | const size_t eeprom_size = EEPROM::getsize(&global.at24c01);
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208 | uint8_t buffer[eeprom_size]; |
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209 | if (start_byte + (type_size * num_elements) > eeprom_size) {
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210 | num_elements = (eeprom_size - start_byte) / type_size; |
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211 | chprintf(chp, "Warning: request exceeds eeprom size -> limiting to %u values.\n", num_elements);
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212 | } |
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213 | |||
214 | chFileStreamSeek((BaseFileStream*)&global.at24c01, start_byte); |
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215 | |||
216 | // Work around, because stm32f1 cannot read a single byte
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217 | if (type_size*num_elements < 2) |
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218 | type_size = 2;
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219 | |||
220 | uint32_t bytes_read = chSequentialStreamRead((BaseFileStream*)&global.at24c01, buffer, type_size*num_elements); |
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221 | |||
222 | if (bytes_read != type_size*num_elements)
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223 | chprintf(chp, "Warning: %u of %u requested bytes were read.\n", bytes_read, type_size*num_elements);
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224 | |||
225 | for (unsigned int i = 0; i < num_elements; ++i) { |
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226 | switch (type) {
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227 | case HEX:
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228 | chprintf(chp, "%02X ", buffer[i]);
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229 | break;
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230 | case U8:
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231 | chprintf(chp, "%03u ", ((uint8_t*)buffer)[i]);
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232 | break;
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233 | case U16:
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234 | chprintf(chp, "%05u ", ((uint16_t*)buffer)[i]);
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235 | break;
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236 | case U32:
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237 | chprintf(chp, "%010u ", ((uint32_t*)buffer)[i]);
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238 | break;
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239 | case S8:
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240 | chprintf(chp, "%+03d ", ((int8_t*)buffer)[i]);
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241 | break;
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242 | case S16:
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243 | chprintf(chp, "%+05d ", ((int16_t*)buffer)[i]);
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244 | break;
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245 | case S32:
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246 | chprintf(chp, "%+010d ", ((int32_t*)buffer)[i]);
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247 | break;
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248 | default:
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249 | break;
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250 | } |
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251 | } |
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252 | chprintf(chp, "\n");
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253 | |||
254 | return;
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255 | } |
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256 | |||
257 | void shellRequestSetLights(BaseSequentialStream *chp, int argc, char *argv[]) { |
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258 | |||
259 | if (argc < 2 || argc == 3 ||strcmp(argv[0],"help") == 0) { |
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260 | chprintf(chp, "\tUSAGE:\n");
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261 | chprintf(chp, "> set_lights <led mask> <white/red> [<green> <blue>]\n");
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262 | chprintf(chp, "\n");
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263 | chprintf(chp, "\tled mask\n");
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264 | chprintf(chp, "The LEDs to be set.\n");
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265 | chprintf(chp, "You can set multiple LEDs at once by adding the following values:\n");
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266 | chprintf(chp, " 0x01 - rear left LED (SSW)\n");
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267 | chprintf(chp, " 0x02 - left rear LED (WSW)\n");
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268 | chprintf(chp, " 0x04 - left front LED (WNW)\n");
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269 | chprintf(chp, " 0x08 - front left LED (NNW)\n");
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270 | chprintf(chp, " 0x10 - front right LED (NNE)\n");
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271 | chprintf(chp, " 0x20 - right front LED (ENE)\n");
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272 | chprintf(chp, " 0x40 - right rear LED (ESE)\n");
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273 | chprintf(chp, " 0x80 - rear right LED (SSE)\n");
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274 | chprintf(chp, "\twhite/red\n");
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275 | chprintf(chp, "If no optional argument is given, this arguments sets the white value of the selected LEDs.\n");
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276 | chprintf(chp, "Otherwise this arguments sets the red color channel value.\n");
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277 | chprintf(chp, "\tgreen\n");
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278 | chprintf(chp, "Sets the green color channel value.\n");
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279 | chprintf(chp, "\tblue\n");
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280 | chprintf(chp, "Sets the blue color channel value.\n");
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281 | chprintf(chp, "\n");
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282 | chprintf(chp, "\tExample:\n");
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283 | chprintf(chp, "This line will set the two most left and two most right LEDs to bright cyan.\n");
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284 | chprintf(chp, "> set_lights 0x66 0 255 255\n");
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285 | chprintf(chp, "\n");
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286 | return;
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287 | } |
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288 | |||
289 | int arg_mask = strtol(argv[0], NULL, 0); |
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290 | int red = strtol(argv[1], NULL, 0); |
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291 | int green = red;
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292 | int blue = red;
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293 | if (argc >= 4) { |
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294 | green = strtol(argv[2], NULL, 0); |
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295 | blue = strtol(argv[3], NULL, 0); |
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296 | } |
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297 | Color color(red, green, blue); |
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298 | |||
299 | if (arg_mask & 0x01) { |
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300 | global.robot.setLightColor(constants::LightRing::LED_SSW, color); |
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301 | } |
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302 | if (arg_mask & 0x02) { |
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303 | global.robot.setLightColor(constants::LightRing::LED_WSW, color); |
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304 | } |
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305 | if (arg_mask & 0x04) { |
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306 | global.robot.setLightColor(constants::LightRing::LED_WNW, color); |
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307 | } |
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308 | if (arg_mask & 0x08) { |
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309 | global.robot.setLightColor(constants::LightRing::LED_NNW, color); |
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310 | } |
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311 | if (arg_mask & 0x10) { |
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312 | global.robot.setLightColor(constants::LightRing::LED_NNE, color); |
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313 | } |
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314 | if (arg_mask & 0x20) { |
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315 | global.robot.setLightColor(constants::LightRing::LED_ENE, color); |
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316 | } |
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317 | if (arg_mask & 0x40) { |
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318 | global.robot.setLightColor(constants::LightRing::LED_ESE, color); |
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319 | } |
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320 | if (arg_mask & 0x80) { |
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321 | global.robot.setLightColor(constants::LightRing::LED_SSE, color); |
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322 | } |
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323 | |||
324 | return;
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325 | } |
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326 | |||
327 | void boardPeripheryCheck(BaseSequentialStream *chp) {
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328 | msg_t result; |
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329 | chprintf(chp, "\nCHECK: START\n");
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330 | // Check the accelerometer
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331 | result = global.lis331dlh.getCheck(); |
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332 | if (result == global.lis331dlh.CHECK_OK)
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333 | chprintf(chp, "LIS331DLH: OK\n");
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334 | else
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335 | chprintf(chp, "LIS331DLH: FAIL\n");
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336 | |||
337 | // Self-test accelerometer
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338 | // lis331dlh.printSelfTest(NULL);
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339 | |||
340 | // Check the eeprom
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341 | result = global.memory.getCheck(); |
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342 | if ( result != global.memory.OK)
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343 | chprintf(chp, "Memory Structure: FAIL\n");
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344 | else
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345 | chprintf(chp, "Memory Structure: OK\n");
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346 | |||
347 | // Check the gyroscope
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348 | result = global.l3g4200d.getCheck(); |
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349 | if (result == global.l3g4200d.CHECK_OK)
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350 | chprintf(chp, "L3G4200D: OK\n");
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351 | else
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352 | chprintf(chp, "L3G4200D: FAIL\n");
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353 | |||
354 | // Check the magnetometer
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355 | result = global.hmc5883l.getCheck(); |
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356 | if (result == global.hmc5883l.CHECK_OK)
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357 | chprintf(chp, "HMC5883L: OK\n");
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358 | else
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359 | chprintf(chp, "HMC5883L: FAIL\n");
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360 | |||
361 | // Check the MUX
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362 | result = global.HW_PCA9544.getCheck(); |
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363 | if (result == global.HW_PCA9544.CHECK_OK)
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364 | chprintf(chp, "PCA9544: OK\n");
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365 | else
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366 | chprintf(chp, "PCA9544: FAIL\n");
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367 | |||
368 | // Check the power monitor
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369 | chprintf(chp, "INA219:\tVDD (3.3V):\n");
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370 | result = global.ina219.selftest(); |
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371 | if (result == BaseSensor<>::NOT_IMPLEMENTED)
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372 | chprintf(chp, "->\tnot implemented\n");
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373 | else if (result != INA219::Driver::ST_OK) |
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374 | chprintf(chp, "->\tFAIL (error code 0x%02X)\n", result);
|
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375 | else
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376 | chprintf(chp, "->\tOK\n");
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377 | |||
378 | // Check the proximitysensors
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379 | for (uint8_t i = 0x00; i < global.vcnl4020.size(); i++) { |
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380 | result = global.vcnl4020[i].getCheck(); |
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381 | if (result == global.vcnl4020[i].CHECK_OK)
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382 | chprintf(chp, "VCNL4020: %d OK\n", i);
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383 | else
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384 | chprintf(chp, "VCNL4020: %d FAIL\n", i);
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385 | } |
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386 | chprintf(chp, "CHECK: FINISH\n");
|
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387 | } |
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388 | |||
389 | void shellRequestCheck(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) { |
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390 | chprintf(chp, "shellRequestCheck\n");
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391 | boardPeripheryCheck(chp); |
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392 | } |
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393 | |||
394 | void shellRequestResetMemory(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) { |
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395 | chprintf(chp, "shellRequestInitMemory\n");
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396 | |||
397 | msg_t res = global.memory.resetMemory(); |
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398 | if ( res != global.memory.OK)
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399 | chprintf(chp, "Memory Init: FAIL\n");
|
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400 | else
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401 | chprintf(chp, "Memory Init: OK\n");
|
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402 | } |
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403 | |||
404 | void shellRequestGetBoardId(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) { |
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405 | chprintf(chp, "shellRequestGetBoardId\n");
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406 | uint8_t id = 0xFFu;
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407 | |||
408 | msg_t res = global.memory.getBoardId(&id); |
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409 | |||
410 | if (res != global.memory.OK)
|
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411 | chprintf(chp, "Get Board ID: FAIL\n");
|
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412 | else
|
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413 | chprintf(chp, "Get Board ID: %u\n", id);
|
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414 | } |
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415 | |||
416 | void shellRequestSetBoardId(BaseSequentialStream *chp, int argc, char *argv[]) { |
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417 | chprintf(chp, "shellRequestSetBoardId\n");
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418 | |||
419 | if (argc == 0) { |
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420 | chprintf(chp, "Usage: %s\n","set_board_id <idx>"); |
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421 | } else {
|
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422 | msg_t res = global.memory.setBoardId(atoi(argv[0]));
|
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423 | if (res != global.memory.OK)
|
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424 | chprintf(chp, "Set Board ID: FAIL\n");
|
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425 | else
|
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426 | chprintf(chp, "Set Board ID: OK\n");
|
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427 | } |
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428 | } |
||
429 | |||
430 | void shellRequestResetCalibrationConstants(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) { |
||
431 | chprintf(chp, "shellRequestResetCalibrationConstants\n");
|
||
432 | chprintf(chp, "Setting Ed=1.0f, Eb=1.0f\n");
|
||
433 | msg_t res; |
||
434 | |||
435 | res = global.memory.setEd(1.0f); |
||
436 | if (res != global.memory.OK)
|
||
437 | chprintf(chp, "Set Ed: FAIL\n");
|
||
438 | else
|
||
439 | chprintf(chp, "Set Ed: OK\n");
|
||
440 | |||
441 | res = global.memory.setEb(1.0f); |
||
442 | if (res != global.memory.OK)
|
||
443 | chprintf(chp, "Set Eb: FAIL\n");
|
||
444 | else
|
||
445 | chprintf(chp, "Set Eb: OK\n");
|
||
446 | } |
||
447 | |||
448 | void shellRequestGetCalibrationConstants(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) { |
||
449 | chprintf(chp, "shellRequestGetCalibrationConstants\n");
|
||
450 | msg_t res; |
||
451 | float Ed, Eb;
|
||
452 | |||
453 | res = global.memory.getEd(&Ed); |
||
454 | if (res != global.memory.OK)
|
||
455 | chprintf(chp, "Get Ed: FAIL\n");
|
||
456 | else
|
||
457 | chprintf(chp, "Get Ed: OK \t Ed=%f\n", Ed);
|
||
458 | |||
459 | res = global.memory.getEb(&Eb); |
||
460 | if (res != global.memory.OK)
|
||
461 | chprintf(chp, "Get Eb: FAIL\n");
|
||
462 | else
|
||
463 | chprintf(chp, "Get Eb: OK \t Eb=%f\n", Eb);
|
||
464 | } |
||
465 | |||
466 | void shellRequestSetCalibrationConstants(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
467 | chprintf(chp, "shellRequestSetCalibrationConstants\n");
|
||
468 | msg_t res; |
||
469 | |||
470 | if (argc != 3) { |
||
471 | chprintf(chp, "Usage: %s\n","set_Ed_Eb <Ed> <Eb> <Write To Eeprom ? 1 : 0>"); |
||
472 | chprintf(chp, "(Call with floating point values for Ed and Eb values and write condition):\n");
|
||
473 | return;
|
||
474 | } |
||
475 | // Get the write condition
|
||
476 | const float Ed = atof(argv[0]); |
||
477 | const float Eb = atof(argv[1]); |
||
478 | bool_t writeToMemory = atoi(argv[2]) == 1 ? true : false; |
||
479 | |||
480 | res = global.motorcontrol.setWheelDiameterCorrectionFactor(Ed, writeToMemory); |
||
481 | if (res != global.memory.OK)
|
||
482 | chprintf(chp, "Set Ed: FAIL\n");
|
||
483 | else
|
||
484 | chprintf(chp, "Set Ed: OK \t Ed=%f\n", Ed);
|
||
485 | |||
486 | res = global.motorcontrol.setActualWheelBaseDistance(Eb, writeToMemory); |
||
487 | if (res != global.memory.OK)
|
||
488 | chprintf(chp, "Set Eb: FAIL\n");
|
||
489 | else
|
||
490 | chprintf(chp, "Set Eb: OK \t Ed=%f\n", Eb);
|
||
491 | } |
||
492 | |||
493 | void shellRequestGetVcnl(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
494 | chprintf(chp, "shellRequestGetVcnl\n");
|
||
495 | // Print the sensor information
|
||
496 | if (argc != 1) { |
||
497 | chprintf(chp, "Usage: %s\n","get_vcnl <rep>"); |
||
498 | return;
|
||
499 | } |
||
500 | for (int32_t rep = 0x00; rep < atoi(argv[0]); ++rep) { |
||
501 | for (uint8_t idx = 0x00; idx < global.vcnl4020.size(); idx++) { |
||
502 | chprintf(chp, "%d: Ambi %d\tProx raw %d\tProx scaled %d\n", idx, global.vcnl4020[idx].getAmbientLight(), global.vcnl4020[idx].getProximity(), global.vcnl4020[idx].getProximityScaledWoOffset());
|
||
503 | } |
||
504 | chprintf(chp, "\n\n");
|
||
505 | BaseThread::sleep(MS2ST(250));
|
||
506 | } |
||
507 | } |
||
508 | |||
509 | void shellRequestSetVcnlOffset(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
510 | chprintf(chp, "shellRequestSetVcnlOffset\n");
|
||
511 | if (argc != 2) { |
||
512 | chprintf(chp, "Usage: %s\n","set_vcnl <idx> <offset>"); |
||
513 | return;
|
||
514 | } |
||
515 | |||
516 | uint8_t vcnlIdx = static_cast<uint8_t>(atoi(argv[0])); |
||
517 | uint16_t vcnlOffset = static_cast<uint16_t>(atoi(argv[1])); |
||
518 | |||
519 | if (vcnlIdx >= global.vcnl4020.size()) {
|
||
520 | chprintf(chp, "Wrong VCNL index: Choose [0 .. %d]\n", global.vcnl4020.size()-1); |
||
521 | return;
|
||
522 | } |
||
523 | |||
524 | msg_t res = global.memory.setVcnl4020Offset(vcnlOffset, vcnlIdx); |
||
525 | if (res != global.memory.OK) {
|
||
526 | chprintf(chp, "Set Offset: FAIL\n");
|
||
527 | } else {
|
||
528 | chprintf(chp, "Set Offset: OK\n");
|
||
529 | global.vcnl4020[vcnlIdx].setProximityOffset(vcnlOffset); |
||
530 | } |
||
531 | } |
||
532 | |||
533 | void shellRequestResetVcnlOffset(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
534 | msg_t res = global.memory.OK; |
||
535 | for (uint8_t idx = 0; idx < 4; ++idx) { |
||
536 | msg_t r = global.memory.setVcnl4020Offset(0, idx);
|
||
537 | if (r == global.memory.OK) {
|
||
538 | global.vcnl4020[idx].setProximityOffset(0);
|
||
539 | } else {
|
||
540 | chprintf(chp, "Reset Offset %u: FAIL\n", idx);
|
||
541 | res = r; |
||
542 | } |
||
543 | } |
||
544 | |||
545 | if (res == global.memory.OK) {
|
||
546 | chprintf(chp, "Reset Offset: DONE\n");
|
||
547 | } |
||
548 | |||
549 | return;
|
||
550 | } |
||
551 | |||
552 | void shellRequestGetVcnlOffset(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
553 | chprintf(chp, "shellRequestGetVcnlOffset\n");
|
||
554 | if (argc != 1) { |
||
555 | chprintf(chp, "Call with decimal numbers: get_vcnl <idx>\n");
|
||
556 | return;
|
||
557 | } |
||
558 | |||
559 | uint8_t vcnlIdx = static_cast<uint8_t>(atoi(argv[0])); |
||
560 | |||
561 | if (vcnlIdx >= global.vcnl4020.size()) {
|
||
562 | chprintf(chp, "Wrong VCNL index: Choose [0 .. %d]\n", global.vcnl4020.size()-1); |
||
563 | return;
|
||
564 | } |
||
565 | |||
566 | uint16_t vcnlOffset; |
||
567 | msg_t res = global.memory.getVcnl4020Offset(&vcnlOffset, vcnlIdx); |
||
568 | if (res != global.memory.OK) {
|
||
569 | chprintf(chp, "Get Offset: FAIL\n");
|
||
570 | } else {
|
||
571 | chprintf(chp, "Get Offset: OK \t Offset=%d\n", vcnlOffset);
|
||
572 | } |
||
573 | } |
||
574 | |||
575 | void shellRequestCalib(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) { |
||
576 | chprintf(chp, "shellRequestCalib\n");
|
||
577 | global.robot.calibrate(); |
||
578 | } |
||
579 | |||
580 | void shellRequestGetRobotId(BaseSequentialStream *chp, int __unused argc, char __unused *argv[]) { |
||
581 | chprintf(chp, "shellRequestGetRobotId\n");
|
||
582 | chprintf(chp, "Robot ID: %u\n", global.robot.getRobotID());
|
||
583 | if (global.robot.getRobotID() == 0) |
||
584 | chprintf(chp, "Warning: The board ID seems to be uninitialized.\n");
|
||
585 | } |
||
586 | |||
587 | void shellRequestGetSystemLoad(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
588 | chprintf(chp, "shellRequestGetSystemLoad\n");
|
||
589 | uint8_t seconds = 1;
|
||
590 | if (argc >= 1) { |
||
591 | seconds = atoi(argv[0]);
|
||
592 | } |
||
593 | chprintf(chp, "measuring CPU load for %u %s...\n", seconds, (seconds>1)? "seconds" : "second"); |
||
594 | |||
595 | const systime_t before = chThdGetTicks(chSysGetIdleThread());
|
||
596 | BaseThread::sleep(S2ST(seconds)); |
||
597 | const systime_t after = chThdGetTicks(chSysGetIdleThread());
|
||
598 | const float usage = 1.0f - (float(after - before) / float(seconds * CH_FREQUENCY)); |
||
599 | |||
600 | chprintf(chp, "CPU load: %3.2f%%\n", usage * 100); |
||
601 | const uint32_t memory_total = 0x10000; |
||
602 | const uint32_t memory_load = memory_total - chCoreStatus();
|
||
603 | chprintf(chp, "RAM load: %3.2f%% (%u / %u Byte)\n", float(memory_load)/float(memory_total) * 100, memory_load, memory_total); |
||
604 | } |
||
605 | |||
606 | void shellSwitchBoardCmd(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
607 | if (argc != 1) { |
||
608 | chprintf(chp, "Call with decimal numbers: shell_board <idx>\n");
|
||
609 | return;
|
||
610 | } |
||
611 | uint8_t boardIdx = static_cast<uint8_t>(atoi(argv[0])); |
||
612 | |||
613 | chprintf(chp, "shellSwitchBoardCmd\n");
|
||
614 | global.sercanmux1.sendSwitchCmd(boardIdx); |
||
615 | } |
||
616 | |||
617 | void shellRequestGetBootloaderInfo(BaseSequentialStream* chp, int argc, char *argv[]) { |
||
618 | // check the magic number
|
||
619 | 10687985 | Thomas Schöpping | switch (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR))) {
|
620 | case (('A'<<24) | ('-'<<16) | ('B'<<8) | ('L'<<0)): |
||
621 | chprintf((BaseSequentialStream*) &SD1, "Bootloader %u.%u.%u\n",
|
||
622 | ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->major, |
||
623 | ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->minor, |
||
624 | ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->patch); |
||
625 | break;
|
||
626 | |||
627 | case BL_MAGIC_NUMBER:
|
||
628 | chprintf((BaseSequentialStream*) &SD1, "Bootloader %u.%u.%u\n",
|
||
629 | *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))), |
||
630 | *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))), |
||
631 | *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))); |
||
632 | break;
|
||
633 | |||
634 | default:
|
||
635 | chprintf((BaseSequentialStream*) &SD1, "Bootloader incompatible\n");
|
||
636 | break;
|
||
637 | 58fe0e0b | Thomas Schöpping | } |
638 | |||
639 | return;
|
||
640 | } |
||
641 | |||
642 | void shellRequestMotorDrive(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
643 | types::kinematic tmp; |
||
644 | tmp.w_z = 0;
|
||
645 | tmp.x = 0;
|
||
646 | if (argc == 1){ |
||
647 | chprintf(chp, "Set speed to %i um/s \n", atoi(argv[0])); |
||
648 | tmp.x = atoi(argv[0]);
|
||
649 | } else {
|
||
650 | if(argc == 2){ |
||
651 | chprintf(chp, "Set speed to %i \n um/s", atoi(argv[0])); |
||
652 | chprintf(chp, "Set angular speed to %i \n urad/s", atoi(argv[1])); |
||
653 | tmp.x = atoi(argv[0]);
|
||
654 | tmp.w_z= atoi(argv[1]);
|
||
655 | } else {
|
||
656 | chprintf(chp, "Wrong number of parameters given (%i), stopping robot \n", argc);
|
||
657 | } |
||
658 | } |
||
659 | |||
660 | global.motorcontrol.setTargetSpeed(tmp); |
||
661 | return;
|
||
662 | } |
||
663 | |||
664 | void shellRequestMotorStop(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
665 | types::kinematic tmp; |
||
666 | tmp.x = 0;
|
||
667 | tmp.w_z = 0;
|
||
668 | |||
669 | global.motorcontrol.setTargetSpeed(tmp); |
||
670 | |||
671 | chprintf(chp, "stop");
|
||
672 | return;
|
||
673 | } |
||
674 | |||
675 | void shellRequestMotorCalibrate(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
676 | ff7ad65b | Thomas Schöpping | global.motorcontrol.resetGains(); |
677 | chprintf((BaseSequentialStream*)&global.sercanmux1, "motor calibration starts in five seconds...\n");
|
||
678 | BaseThread::sleep(MS2ST(5000));
|
||
679 | 58fe0e0b | Thomas Schöpping | global.motorcontrol.isCalibrating = true;
|
680 | |||
681 | return;
|
||
682 | } |
||
683 | |||
684 | void shellRequestMotorGetGains(BaseSequentialStream *chp, int argc, char *argv[]){ |
||
685 | global.motorcontrol.printGains(); |
||
686 | |||
687 | return;
|
||
688 | } |
||
689 | |||
690 | ff7ad65b | Thomas Schöpping | void shellRequestMotorResetGains(BaseSequentialStream *chp, int argc, char *argv[]) { |
691 | global.motorcontrol.resetGains();; |
||
692 | |||
693 | return;
|
||
694 | } |
||
695 | |||
696 | 12463563 | galberding | |
697 | /**
|
||
698 | * Calibrate the thresholds for left and right sensor to get the maximum threshold and to
|
||
699 | * be able to detect the correction direction.
|
||
700 | * In this case it is expected that the FL-Sensor sould be in the white part of the edge and the FR-Sensor in the black one.
|
||
701 | b8b3a9c9 | galberding | *
|
702 | 12463563 | galberding | * Note: invert the threshs to drive on the other edge.
|
703 | b8b3a9c9 | galberding | *
|
704 | 12463563 | galberding | * */
|
705 | 98e7c69b | galberding | void shellRequestCalibrateLineSensores(BaseSequentialStream *chp, int argc, char *argv[]) { |
706 | 1b3adcdd | galberding | // int vcnl4020AmbientLight[4];
|
707 | 12463563 | galberding | int vcnl4020Proximity[4]; |
708 | int rounds = 1; |
||
709 | int proxyL = 0; |
||
710 | int proxyR = 0; |
||
711 | int maxDelta = 0; |
||
712 | 22b85da1 | galberding | int sensorL = 0; |
713 | int sensorR = 0; |
||
714 | b8b3a9c9 | galberding | |
715 | 12463563 | galberding | if (argc == 1){ |
716 | chprintf(chp, "Test %i rounds \n", atoi(argv[0])); |
||
717 | rounds = atoi(argv[0]);
|
||
718 | b8b3a9c9 | galberding | |
719 | 12463563 | galberding | }else{
|
720 | chprintf(chp, "Usage: calbrate_line_sensors [1,n]\nThis will calibrate the thresholds for the left and right sensor\naccording to the maximum delta value recorded.\n");
|
||
721 | return;
|
||
722 | } |
||
723 | af93a91c | galberding | for (uint8_t led = 0; led < 8; ++led) { |
724 | global.robot.setLightColor(led, Color(Color::BLACK)); |
||
725 | } |
||
726 | 12463563 | galberding | |
727 | for (int j = 0; j < rounds; j++) { |
||
728 | for (int i = 0; i < 4; i++) { |
||
729 | 1b3adcdd | galberding | // vcnl4020AmbientLight[i] = global.vcnl4020[i].getAmbientLight();
|
730 | 12463563 | galberding | vcnl4020Proximity[i] = global.vcnl4020[i].getProximityScaledWoOffset(); |
731 | } |
||
732 | af93a91c | galberding | global.robot.setLightColor(j % 8, Color(Color::BLACK));
|
733 | global.robot.setLightColor(j+1 % 8, Color(Color::WHITE)); |
||
734 | 12463563 | galberding | int delta = abs(vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_LEFT]
|
735 | - vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_RIGHT]); |
||
736 | // Update proximity thresh
|
||
737 | if (delta > maxDelta) {
|
||
738 | af93a91c | galberding | for (uint8_t led = 0; led < 8; ++led) { |
739 | global.robot.setLightColor(led, Color(Color::GREEN)); |
||
740 | } |
||
741 | 12463563 | galberding | maxDelta = delta; |
742 | proxyL = vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_LEFT]; |
||
743 | proxyR = vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_RIGHT]; |
||
744 | } |
||
745 | 22b85da1 | galberding | sensorL += global.vcnl4020[constants::DiWheelDrive::PROX_FRONT_LEFT].getProximityScaledWoOffset(); |
746 | sensorR += global.vcnl4020[constants::DiWheelDrive::PROX_FRONT_RIGHT].getProximityScaledWoOffset(); |
||
747 | 12463563 | galberding | |
748 | // if (vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_RIGHT] > proxyR && vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_LEFT] > proxyL ){
|
||
749 | // delta *= -1;
|
||
750 | // }
|
||
751 | |||
752 | b8b3a9c9 | galberding | chprintf(chp,"FL: 0x%x, FR: 0x%x, Delta: %d, ProxyL: %x, ProxyR: %x, MaxDelta: %d\n",
|
753 | 12463563 | galberding | vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_LEFT], |
754 | vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_RIGHT], |
||
755 | delta, |
||
756 | proxyL, |
||
757 | proxyR, |
||
758 | maxDelta); |
||
759 | // sleep(CAN::UPDATE_PERIOD);
|
||
760 | BaseThread::sleep(CAN::UPDATE_PERIOD); |
||
761 | } |
||
762 | b8b3a9c9 | galberding | |
763 | 12463563 | galberding | |
764 | 06c41883 | galberding | global.linePID.threshProxyL = sensorL / rounds; |
765 | global.linePID.threshProxyR = sensorR / rounds; |
||
766 | chprintf(chp,"Thresh FL: %d, FR: %d\n", global.linePID.threshProxyL, global.linePID.threshProxyR);
|
||
767 | 12463563 | galberding | return;
|
768 | } |
||
769 | |||
770 | |||
771 | |||
772 | 98e7c69b | galberding | void sellRequestgetBottomSensorData(BaseSequentialStream *chp, int argc, char *argv[]) { |
773 | 1b3adcdd | galberding | // uint16_t vcnl4020AmbientLight[4];
|
774 | af93a91c | galberding | uint16_t vcnl4020Proximity[4];
|
775 | uint16_t rounds = 1;
|
||
776 | 1b3adcdd | galberding | // int sensorR = 0;
|
777 | 12463563 | galberding | if (argc == 1){ |
778 | chprintf(chp, "Test %i rounds \n", atoi(argv[0])); |
||
779 | rounds = atoi(argv[0]);
|
||
780 | b8b3a9c9 | galberding | |
781 | 7f4e10f7 | galberding | } else {
|
782 | chprintf(chp, "Usage: dev_proxi_sensor_data <rounds> \n");
|
||
783 | 12463563 | galberding | } |
784 | 98e7c69b | galberding | global.motorcontrol.setMotorEnable(false);
|
785 | 12463563 | galberding | |
786 | for (int j = 0; j < rounds; j++) { |
||
787 | for (int i = 0; i < 4; i++) { |
||
788 | 1b3adcdd | galberding | // vcnl4020AmbientLight[i] = global.vcnl4020[i].getAmbientLight();
|
789 | 12463563 | galberding | vcnl4020Proximity[i] = global.vcnl4020[i].getProximityScaledWoOffset(); |
790 | } |
||
791 | b8b3a9c9 | galberding | |
792 | 06c41883 | galberding | int32_t delta = (vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_LEFT] |
793 | 12463563 | galberding | - vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_RIGHT]); |
794 | |||
795 | b8b3a9c9 | galberding | chprintf(chp,"WL:%d,FL:%d,FR:%d,WR:%d,Delta:%d\n",
|
796 | 12463563 | galberding | vcnl4020Proximity[constants::DiWheelDrive::PROX_WHEEL_LEFT], |
797 | vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_LEFT], |
||
798 | vcnl4020Proximity[constants::DiWheelDrive::PROX_FRONT_RIGHT], |
||
799 | vcnl4020Proximity[constants::DiWheelDrive::PROX_WHEEL_RIGHT], |
||
800 | delta); |
||
801 | // sleep(CAN::UPDATE_PERIOD);
|
||
802 | BaseThread::sleep(CAN::UPDATE_PERIOD); |
||
803 | } |
||
804 | 98e7c69b | galberding | global.motorcontrol.setMotorEnable(true);
|
805 | af93a91c | galberding | // chprintf(chp,"Summary: MaxDelta: %d, FL: %x, FR: %d\n", maxDelta, proxyL, proxyR);
|
806 | 12463563 | galberding | return;
|
807 | } |
||
808 | |||
809 | 98e7c69b | galberding | void shellRequestCheckPower(BaseSequentialStream *chp, int argc, char *argv[]){ |
810 | 9c46b728 | galberding | int steps = 2000; |
811 | int led = 0; |
||
812 | 98e7c69b | galberding | |
813 | 7f4e10f7 | galberding | chprintf(chp, "Power over Pins: %s Pins Enabled: %s, Power: %d\n", global.ltc4412.isPluggedIn() ? "y" : "n", global.ltc4412.isEnabled() ? "y" : "n", global.robot.getPowerStatus().state_of_charge); |
814 | } |
||
815 | |||
816 | 84b4c632 | galberding | #define window 5 |
817 | int32_t counter = 0;
|
||
818 | int32_t proxbuf[window]= { 0 };
|
||
819 | int32_t meanDeviation(uint16_t a, uint16_t b){ |
||
820 | int32_t diff = a-b; |
||
821 | b8b3a9c9 | galberding | int32_t res = 0;
|
822 | 84b4c632 | galberding | proxbuf[counter] = (diff*100)/((a+b)/2); |
823 | for (int i = 0; i< window; i++){ |
||
824 | res += proxbuf[i]; |
||
825 | } |
||
826 | counter++; |
||
827 | counter = counter % window; |
||
828 | return res / window;
|
||
829 | } |
||
830 | |||
831 | 7f4e10f7 | galberding | |
832 | 98e7c69b | galberding | void shellRequestProxyRingValues(BaseSequentialStream *chp, int argc, char *argv[]){ |
833 | 06c41883 | galberding | int steps = 100; |
834 | 7f4e10f7 | galberding | int i;
|
835 | 84b4c632 | galberding | int16_t old3 = 0;
|
836 | int16_t old4 = 0;
|
||
837 | 7f4e10f7 | galberding | uint16_t prox[8];
|
838 | uint32_t prox_sum = 0;
|
||
839 | |||
840 | if (argc == 1){ |
||
841 | chprintf(chp, "%i steps \n", atoi(argv[0])); |
||
842 | steps = atoi(argv[0]);
|
||
843 | 9c46b728 | galberding | }else{
|
844 | 7f4e10f7 | galberding | chprintf(chp, "Usage: proxyRing <steps> \n");
|
845 | } |
||
846 | for (int j=0; j<steps; j++){ |
||
847 | prox_sum = 0;
|
||
848 | 84b4c632 | galberding | old3 = prox[3];
|
849 | old4 = prox[4];
|
||
850 | 7f4e10f7 | galberding | for(i=0; i<8;i++){ |
851 | prox[i] = global.robot.getProximityRingValue(i); |
||
852 | prox_sum += prox[i]; |
||
853 | 9c46b728 | galberding | } |
854 | 84b4c632 | galberding | int32_t deviation = meanDeviation(prox[3] & 0xFFF0 , prox[4] & 0xFFF0); |
855 | // int32_t deviation = meanDeviation((prox[3]+old3) / 2 , (prox[4]+old4) / 2);
|
||
856 | 7f4e10f7 | galberding | // uint16_t notouch = 100;
|
857 | // uint16_t toucht = 20031;
|
||
858 | b8b3a9c9 | galberding | // sign =
|
859 | 7f4e10f7 | galberding | // i = 0;
|
860 | 84b4c632 | galberding | chprintf(chp, "0:%i 1:%i 2:%i 3:%i 4:%i 5:%i 6:%i 7:%i Deviation:%i \n", prox[0], prox[1], prox[2], prox[3], prox[4], prox[5], prox[6], prox[7], deviation); |
861 | 9c46b728 | galberding | BaseThread::sleep(CAN::UPDATE_PERIOD); |
862 | } |
||
863 | } |
||
864 | 84b4c632 | galberding | int buf[10][3] = { 0 }; |
865 | void shellRequestMagnetoMeter(BaseSequentialStream *chp, int argc, char *argv[]){ |
||
866 | int steps = 10; |
||
867 | // int i;
|
||
868 | |||
869 | // uint16_t prox[8];
|
||
870 | // uint32_t prox_sum = 0;
|
||
871 | |||
872 | if (argc == 1){ |
||
873 | chprintf(chp, "%i steps \n", atoi(argv[0])); |
||
874 | steps = atoi(argv[0]);
|
||
875 | }else{
|
||
876 | chprintf(chp, "Usage: proxyRing <steps> \n");
|
||
877 | } |
||
878 | chprintf((BaseSequentialStream*)&global.sercanmux1, "motor calibration starts in five seconds...\n");
|
||
879 | BaseThread::sleep(MS2ST(5000));
|
||
880 | for (int j=0; j<steps; j++){ |
||
881 | // prox_sum = 0;
|
||
882 | // for(i=0; i<8;i++){
|
||
883 | // prox[i] = global.robot.getProximityRingValue(i);
|
||
884 | // prox_sum += prox[i];
|
||
885 | // }
|
||
886 | // uint16_t notouch = 100;
|
||
887 | // uint16_t toucht = 20031;
|
||
888 | b8b3a9c9 | galberding | // sign =
|
889 | 84b4c632 | galberding | // i = 0;
|
890 | |||
891 | if (j < 10){ |
||
892 | buf[j][0] = global.hmc5883l.getMagnetizationGauss(0x00u); |
||
893 | buf[j][1] = global.hmc5883l.getMagnetizationGauss(0x02u); |
||
894 | buf[j][2] = global.hmc5883l.getMagnetizationGauss(0x01u); |
||
895 | } |
||
896 | chprintf(chp, "X:%i Y:%i Z:%i\n", global.hmc5883l.getMagnetizationGauss(0x00u), global.hmc5883l.getMagnetizationGauss(0x02u), global.hmc5883l.getMagnetizationGauss(0x01u)); |
||
897 | BaseThread::sleep(CAN::UPDATE_PERIOD); |
||
898 | } |
||
899 | } |
||
900 | void shellRequestMagnetoMeterPrint(BaseSequentialStream *chp, int argc, char *argv[]){ |
||
901 | for (int j=0; j<10; j++){ |
||
902 | chprintf(chp, "X:%i Y:%i Z:%i\n", buf[j][0], buf[j][1], buf[j][2]); |
||
903 | BaseThread::sleep(CAN::UPDATE_PERIOD); |
||
904 | } |
||
905 | } |
||
906 | |||
907 | void shellRequestPrintCoordinate(BaseSequentialStream *chp, int argc, char *argv[]){ |
||
908 | types::position oldPos = global.odometry.getPosition(); |
||
909 | chprintf(chp, "X:%i Y:%i\n",oldPos.x, oldPos.y);
|
||
910 | } |
||
911 | 9c46b728 | galberding | |
912 | d4c6efa9 | galberding | |
913 | void shellRequestErrorInfo(BaseSequentialStream *chp, int argc, char *argv[]){ |
||
914 | // Print out the error info collected. Clear buffer after calling
|
||
915 | chprintf(chp, "Error Info\n");
|
||
916 | chprintf(chp, "\n");
|
||
917 | e404e6c0 | galberding | // uint8_t IDLE = 0;
|
918 | // uint8_t FOLLOW_LINE = 1;
|
||
919 | // uint8_t DETECT_STATION = 2;
|
||
920 | // uint8_t REVERSE = 3;
|
||
921 | // uint8_t PUSH_BACK = 4;
|
||
922 | // uint8_t CHECK_POSITIONING = 5;
|
||
923 | // uint8_t CHECK_VOLTAGE = 6;
|
||
924 | // uint8_t CHARGING = 7;
|
||
925 | // uint8_t RELEASE = 8;
|
||
926 | // uint8_t RELEASE_TO_CORRECT = 9;
|
||
927 | // uint8_t CORRECT_POSITIONING = 10;
|
||
928 | // uint8_t TURN = 12;
|
||
929 | // uint8_t INACTIVE = 13;
|
||
930 | // uint8_t CALIBRATION = 14;
|
||
931 | // uint8_t CALIBRATION_CHECK = 15;
|
||
932 | // uint8_t DEVIATION_CORRECTION = 16;
|
||
933 | // uint8_t DOCKING_ERROR = 16+1;
|
||
934 | // uint8_t REVERSE_TIMEOUT_ERROR = 16+2;
|
||
935 | // uint8_t CALIBRATION_ERROR = 16+3;
|
||
936 | // uint8_t WHITE_DETECTION_ERROR = 16+4;
|
||
937 | // uint8_t PROXY_DETECTION_ERROR = 16+5;
|
||
938 | // uint8_t NO_CHARGING_POWER_ERROR = 16+6;
|
||
939 | // uint8_t UNKNOWN_STATE_ERROR = 16+7;
|
||
940 | |||
941 | // chprintf(chp, "IDLE: %d\n", global.stateTracker[IDLE]);
|
||
942 | // chprintf(chp, "FOLLOW_LINE: %d\n", global.stateTracker[FOLLOW_LINE]);
|
||
943 | // chprintf(chp, "DETECT_STATION: %d\n", global.stateTracker[DETECT_STATION]);
|
||
944 | // chprintf(chp, "REVERSE: %d\n", global.stateTracker[REVERSE]);
|
||
945 | // chprintf(chp, "PUSH_BACK: %d\n", global.stateTracker[PUSH_BACK]);
|
||
946 | // chprintf(chp, "CHECK_POSITIONING: %d\n", global.stateTracker[CHECK_POSITIONING]);
|
||
947 | // chprintf(chp, "CHECK_VOLTAGE: %d\n", global.stateTracker[CHECK_VOLTAGE]);
|
||
948 | // chprintf(chp, "CHARGING: %d\n", global.stateTracker[CHARGING]);
|
||
949 | // chprintf(chp, "RELEASE: %d\n", global.stateTracker[RELEASE]);
|
||
950 | // chprintf(chp, "RELEASE_TO_CORRECT: %d\n", global.stateTracker[RELEASE_TO_CORRECT]);
|
||
951 | // chprintf(chp, "CORRECT_POSITIONING: %d\n", global.stateTracker[CORRECT_POSITIONING]);
|
||
952 | // chprintf(chp, "TURN: %d\n", global.stateTracker[TURN]);
|
||
953 | // chprintf(chp, "INACTIVE: %d\n", global.stateTracker[INACTIVE]);
|
||
954 | // chprintf(chp, "CALIBRATION: %d\n", global.stateTracker[CALIBRATION]);
|
||
955 | // chprintf(chp, "CALIBRATION_CHECK: %d\n", global.stateTracker[CALIBRATION_CHECK]);
|
||
956 | // chprintf(chp, "DEVIATION_CORRECTION: %d\n", global.stateTracker[DEVIATION_CORRECTION]);
|
||
957 | // chprintf(chp, "DOCKING_ERROR: %d\n", global.stateTracker[DOCKING_ERROR]);
|
||
958 | // chprintf(chp, "REVERSE_TIMEOUT_ERROR: %d\n", global.stateTracker[REVERSE_TIMEOUT_ERROR]);
|
||
959 | // chprintf(chp, "CALIBRATION_ERROR: %d\n", global.stateTracker[CALIBRATION_ERROR]);
|
||
960 | // chprintf(chp, "WHITE_DETECTION_ERROR: %d\n", global.stateTracker[WHITE_DETECTION_ERROR]);
|
||
961 | // chprintf(chp, "PROXY_DETECTION_ERROR: %d\n", global.stateTracker[PROXY_DETECTION_ERROR]);
|
||
962 | // chprintf(chp, "NO_CHARGING_POWER_ERROR: %d\n", global.stateTracker[NO_CHARGING_POWER_ERROR]);
|
||
963 | // chprintf(chp, "UNKNOWN_STATE_ERROR: %d\n", global.stateTracker[UNKNOWN_STATE_ERROR]);
|
||
964 | |||
965 | // for (int i=0; i<24;i++){
|
||
966 | // global.stateTracker[i] = 0;
|
||
967 | |||
968 | // }
|
||
969 | b8b3a9c9 | galberding | } |
970 | d4c6efa9 | galberding | |
971 | b8b3a9c9 | galberding | |
972 | void shellRequestMapTest(BaseSequentialStream *chp, int argc, char *argv[]) { |
||
973 | |||
974 | // TODO:
|
||
975 | // For now see everything fixed. Create array with pointer to all node structs. Determine
|
||
976 | |||
977 | e404e6c0 | galberding | chprintf(chp, " +-------------------+\n");
|
978 | chprintf(chp, " | |\n");
|
||
979 | chprintf(chp, " | |\n");
|
||
980 | chprintf(chp, "+-v--+ |\n");
|
||
981 | chprintf(chp, "| 0 | +-++\n");
|
||
982 | chprintf(chp, "+-+--+ +--------+2 | <-------+\n");
|
||
983 | chprintf(chp, " | | +--+ |\n");
|
||
984 | chprintf(chp, " | | ^ |\n");
|
||
985 | chprintf(chp, " | | | |\n");
|
||
986 | chprintf(chp, " | v | |\n");
|
||
987 | chprintf(chp, " | +-+-+------+ |\n");
|
||
988 | chprintf(chp, " +------> 1 | |\n");
|
||
989 | chprintf(chp, " +---+-------------------+\n");
|
||
990 | // BaseThread::sleep(MS2ST(250));
|
||
991 | global.lfStrategy = msg_content::MSG_TEST_MAP_STATE; |
||
992 | global.msgReceived = true;
|
||
993 | |||
994 | } |
||
995 | d4c6efa9 | galberding | |
996 | 58fe0e0b | Thomas Schöpping | static const ShellCommand commands[] = { |
997 | b8b3a9c9 | galberding | {"shutdown", shellRequestShutdown},
|
998 | {"wakeup", shellRequestWakeup},
|
||
999 | {"check", shellRequestCheck},
|
||
1000 | {"reset_memory", shellRequestResetMemory},
|
||
1001 | {"get_board_id", shellRequestGetBoardId},
|
||
1002 | {"set_board_id", shellRequestSetBoardId},
|
||
1003 | {"get_memory_data", shellRequestGetMemoryData},
|
||
1004 | {"get_vcnl", shellRequestGetVcnl},
|
||
1005 | {"calib_vcnl_offset", shellRequestCalib},
|
||
1006 | {"set_vcnl_offset", shellRequestSetVcnlOffset},
|
||
1007 | {"reset_vcnl_offset", shellRequestResetVcnlOffset},
|
||
1008 | {"get_vcnl_offset", shellRequestGetVcnlOffset},
|
||
1009 | {"reset_Ed_Eb", shellRequestResetCalibrationConstants},
|
||
1010 | {"get_Ed_Eb", shellRequestGetCalibrationConstants},
|
||
1011 | {"set_Ed_Eb", shellRequestSetCalibrationConstants},
|
||
1012 | {"get_robot_id", shellRequestGetRobotId},
|
||
1013 | {"get_system_load", shellRequestGetSystemLoad},
|
||
1014 | {"set_lights", shellRequestSetLights},
|
||
1015 | {"shell_board", shellSwitchBoardCmd},
|
||
1016 | {"get_bootloader_info", shellRequestGetBootloaderInfo},
|
||
1017 | {"motor_drive", shellRequestMotorDrive},
|
||
1018 | {"motor_stop", shellRequestMotorStop},
|
||
1019 | {"motor_calibrate", shellRequestMotorCalibrate},
|
||
1020 | {"motor_getGains", shellRequestMotorGetGains},
|
||
1021 | {"motor_resetGains", shellRequestMotorResetGains},
|
||
1022 | {"calibrate_line_sensors", shellRequestCalibrateLineSensores},
|
||
1023 | {"printProxyBottom", sellRequestgetBottomSensorData},
|
||
1024 | {"printProxyRing", shellRequestProxyRingValues},
|
||
1025 | {"printMagnetometer", shellRequestMagnetoMeter},
|
||
1026 | {"printMagnetometerRes", shellRequestMagnetoMeterPrint},
|
||
1027 | {"printLocation", shellRequestPrintCoordinate},
|
||
1028 | {"checkPowerPins", shellRequestCheckPower},
|
||
1029 | {"stateInfos", shellRequestErrorInfo},
|
||
1030 | e404e6c0 | galberding | {"test", shellRequestMapTest},
|
1031 | b8b3a9c9 | galberding | {NULL, NULL}}; |
1032 | 58fe0e0b | Thomas Schöpping | |
1033 | static const ShellConfig shell_cfg1 = { |
||
1034 | (BaseSequentialStream *) &global.sercanmux1, |
||
1035 | commands |
||
1036 | }; |
||
1037 | |||
1038 | void initPowermonitor(INA219::Driver &ina219, const float shuntResistance_O, const float maxExpectedCurrent_A, const uint16_t currentLsb_uA) |
||
1039 | { |
||
1040 | INA219::CalibData calibData; |
||
1041 | INA219::InitData initData; |
||
1042 | |||
1043 | calibData.input.configuration.content.brng = INA219::Configuration::BRNG_16V; |
||
1044 | calibData.input.configuration.content.pg = INA219::Configuration::PGA_40mV; |
||
1045 | calibData.input.configuration.content.badc = INA219::Configuration::ADC_68100us; |
||
1046 | calibData.input.configuration.content.sadc = INA219::Configuration::ADC_68100us; |
||
1047 | calibData.input.configuration.content.mode = INA219::Configuration::MODE_ShuntBus_Continuous; |
||
1048 | calibData.input.shunt_resistance_O = shuntResistance_O; |
||
1049 | calibData.input.max_expected_current_A = maxExpectedCurrent_A; |
||
1050 | calibData.input.current_lsb_uA = currentLsb_uA; |
||
1051 | if (ina219.calibration(&calibData) != BaseSensor<>::SUCCESS)
|
||
1052 | { |
||
1053 | chprintf((BaseSequentialStream*)&SD1, "WARNING: calibration of INA219 failed.\n");
|
||
1054 | } |
||
1055 | |||
1056 | initData.configuration.value = calibData.input.configuration.value; |
||
1057 | initData.calibration = calibData.output.calibration_value; |
||
1058 | initData.current_lsb_uA = calibData.output.current_lsb_uA; |
||
1059 | if (ina219.init(&initData) != BaseSensor<>::SUCCESS)
|
||
1060 | { |
||
1061 | chprintf((BaseSequentialStream*)&SD1, "WARNING: initialization of INA219 failed.\n");
|
||
1062 | } |
||
1063 | |||
1064 | if (calibData.input.current_lsb_uA != initData.current_lsb_uA)
|
||
1065 | { |
||
1066 | chprintf((BaseSequentialStream*)&SD1, "NOTE: LSB for current measurement was limited when initializing INA219 (%u -> %u)", calibData.input.current_lsb_uA, initData.current_lsb_uA);
|
||
1067 | } |
||
1068 | |||
1069 | return;
|
||
1070 | } |
||
1071 | |||
1072 | /*
|
||
1073 | * Application entry point.
|
||
1074 | */
|
||
1075 | int main(void) { |
||
1076 | |||
1077 | // int16_t accel;
|
||
1078 | Thread *shelltp = NULL;
|
||
1079 | |||
1080 | /*
|
||
1081 | * System initializations.
|
||
1082 | * - HAL initialization, this also initializes the configured device drivers
|
||
1083 | * and performs the board-specific initializations.
|
||
1084 | * - Kernel initialization, the main() function becomes a thread and the
|
||
1085 | * RTOS is active.
|
||
1086 | */
|
||
1087 | halInit(); |
||
1088 | qeiInit(); |
||
1089 | System::init(); |
||
1090 | |||
1091 | // boardWakeup();
|
||
1092 | // boardWriteIoPower(1);
|
||
1093 | |||
1094 | /*
|
||
1095 | * Activates the serial driver 2 using the driver default configuration.
|
||
1096 | */
|
||
1097 | sdStart(&SD1, &global.sd1_config); |
||
1098 | |||
1099 | chprintf((BaseSequentialStream*) &SD1, "\n");
|
||
1100 | chprintf((BaseSequentialStream*) &SD1, BOARD_NAME " " BOARD_VERSION "\n"); |
||
1101 | 10687985 | Thomas Schöpping | switch (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR))) {
|
1102 | case (('A'<<24) | ('-'<<16) | ('B'<<8) | ('L'<<0)): |
||
1103 | chprintf((BaseSequentialStream*) &SD1, "Bootloader %u.%u.%u\n",
|
||
1104 | ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->major, |
||
1105 | ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->minor, |
||
1106 | ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->patch); |
||
1107 | break;
|
||
1108 | |||
1109 | case BL_MAGIC_NUMBER:
|
||
1110 | chprintf((BaseSequentialStream*) &SD1, "Bootloader %u.%u.%u\n",
|
||
1111 | *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))), |
||
1112 | *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))), |
||
1113 | *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))); |
||
1114 | break;
|
||
1115 | |||
1116 | default:
|
||
1117 | chprintf((BaseSequentialStream*) &SD1, "Bootloader incompatible\n");
|
||
1118 | break;
|
||
1119 | 58fe0e0b | Thomas Schöpping | } |
1120 | chprintf((BaseSequentialStream*) &SD1, "ChibiOS " CH_KERNEL_VERSION "\n"); |
||
1121 | // make sure that the info text is completetly printed
|
||
1122 | BaseThread::sleep(10);
|
||
1123 | |||
1124 | extStart(&EXTD1, &extcfg); |
||
1125 | |||
1126 | /*
|
||
1127 | * Wait for a certain amount of time, so that the PowerBoard can activate
|
||
1128 | * the IO voltages for the I2C Bus
|
||
1129 | */
|
||
1130 | BaseThread::sleep(MS2ST(2000));
|
||
1131 | |||
1132 | b4885314 | Thomas Schöpping | boardClearI2CBus(GPIOB_COMPASS_SCL, GPIOB_COMPASS_SDA); |
1133 | boardClearI2CBus(GPIOB_IR_SCL, GPIOB_IR_SDA); |
||
1134 | 58fe0e0b | Thomas Schöpping | |
1135 | global.HW_I2C1.start(&global.i2c1_config); |
||
1136 | global.HW_I2C2.start(&global.i2c2_config); |
||
1137 | |||
1138 | global.memory.init(); |
||
1139 | |||
1140 | uint8_t i = 0;
|
||
1141 | if (global.memory.getBoardId(&i) == fileSystemIo::FileSystemIoBase::OK) {
|
||
1142 | chprintf((BaseSequentialStream*) &SD1, "Board ID: %u\n", i);
|
||
1143 | } else {
|
||
1144 | chprintf((BaseSequentialStream*) &SD1, "Error reading board ID\n");
|
||
1145 | } |
||
1146 | chprintf((BaseSequentialStream*) &SD1, "\n");
|
||
1147 | |||
1148 | initPowermonitor(global.ina219, 0.1f, 0.075f, 10); |
||
1149 | |||
1150 | for (i = 0x00u; i < global.vcnl4020.size(); i++) { |
||
1151 | uint16_t buffer; |
||
1152 | global.memory.getVcnl4020Offset(&buffer,i); |
||
1153 | global.vcnl4020[i].setProximityOffset(buffer); |
||
1154 | global.vcnl4020[i].start(NORMALPRIO); |
||
1155 | } |
||
1156 | |||
1157 | global.ina219.start(NORMALPRIO); |
||
1158 | |||
1159 | global.hmc5883l.start(NORMALPRIO + 8);
|
||
1160 | |||
1161 | global.increments.start(); // Start the qei driver
|
||
1162 | |||
1163 | f336542d | Timo Korthals | // Start the three axes gyroscope
|
1164 | global.l3g4200d.configure(&global.gyro_run_config); |
||
1165 | global.l3g4200d.start(NORMALPRIO+5);
|
||
1166 | |||
1167 | 58fe0e0b | Thomas Schöpping | global.odometry.start(NORMALPRIO + 20);
|
1168 | |||
1169 | global.robot.start(HIGHPRIO - 1);
|
||
1170 | |||
1171 | global.motorcontrol.start(NORMALPRIO + 7);
|
||
1172 | |||
1173 | global.distcontrol.start(NORMALPRIO + 9);
|
||
1174 | |||
1175 | // Set target velocity
|
||
1176 | types::kinematic velocity; |
||
1177 | velocity.x = 0; // E.g. "100*1e3" equals "10 cm/s" |
||
1178 | velocity.w_z = 0; // E.g. "2*1e6" equals "2 rad/s" |
||
1179 | global.motorcontrol.setTargetSpeed(velocity); |
||
1180 | |||
1181 | // Start the three axes linear accelerometer
|
||
1182 | global.lis331dlh.configure(&global.accel_run_config); |
||
1183 | global.lis331dlh.start(NORMALPRIO+4);
|
||
1184 | |||
1185 | // Start the user thread
|
||
1186 | global.userThread.start(NORMALPRIO); |
||
1187 | |||
1188 | /* let the SYS_SYNC_N pin go, to signal that the initialization of the module is done */
|
||
1189 | palWritePad(GPIOC, GPIOC_SYS_INT_N, PAL_HIGH); |
||
1190 | |||
1191 | /* wait until all modules are done */
|
||
1192 | while (palReadPad(GPIOC, GPIOC_SYS_INT_N) == PAL_LOW) {
|
||
1193 | continue;
|
||
1194 | } |
||
1195 | |||
1196 | while (true) { |
||
1197 | |||
1198 | if (!shelltp)
|
||
1199 | shelltp = shellCreate(&shell_cfg1, THD_WA_SIZE(1024), NORMALPRIO);
|
||
1200 | else if (chThdTerminated(shelltp)) { |
||
1201 | chThdRelease(shelltp); /* Recovers memory of the previous shell. */
|
||
1202 | shelltp = NULL; /* Triggers spawning of a new shell. */ |
||
1203 | } |
||
1204 | |||
1205 | // Let the LED just blink as an alive signal
|
||
1206 | boardWriteLed(1);
|
||
1207 | BaseThread::sleep(MS2ST(250));
|
||
1208 | boardWriteLed(0);
|
||
1209 | BaseThread::sleep(MS2ST(250));
|
||
1210 | |||
1211 | if (shutdown_now != SHUTDOWN_NONE) {
|
||
1212 | 10687985 | Thomas Schöpping | if ((*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) != (('A'<<24) | ('-'<<16) | ('B'<<8) | ('L'<<0))) && (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) != BL_MAGIC_NUMBER)) { |
1213 | 58fe0e0b | Thomas Schöpping | chprintf((BaseSequentialStream*) &SD1, "ERROR: unable to shut down (bootloader deprecated).\n");
|
1214 | shutdown_now = SHUTDOWN_NONE; |
||
1215 | } else {
|
||
1216 | uint32_t blCallbackPtrAddr = BL_CALLBACK_TABLE_ADDR; |
||
1217 | 10687985 | Thomas Schöpping | // handle bootloader version 0.2.x
|
1218 | if ((*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) == BL_MAGIC_NUMBER) &&
|
||
1219 | (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))) == 0 && *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (2*4))) == 2)) { |
||
1220 | 58fe0e0b | Thomas Schöpping | switch (shutdown_now) {
|
1221 | case SHUTDOWN_TRANSPORTATION:
|
||
1222 | blCallbackPtrAddr += 6 * 4; |
||
1223 | break;
|
||
1224 | case SHUTDOWN_DEEPSLEEP:
|
||
1225 | blCallbackPtrAddr += 5 * 4; |
||
1226 | break;
|
||
1227 | case SHUTDOWN_HIBERNATE:
|
||
1228 | blCallbackPtrAddr += 4 * 4; |
||
1229 | break;
|
||
1230 | case SHUTDOWN_HANDLE_REQUEST:
|
||
1231 | case SHUTDOWN_RESTART:
|
||
1232 | blCallbackPtrAddr += 10 * 4; |
||
1233 | break;
|
||
1234 | default:
|
||
1235 | blCallbackPtrAddr = 0;
|
||
1236 | break;
|
||
1237 | } |
||
1238 | 10687985 | Thomas Schöpping | } |
1239 | // handle bootloader version 0.3.x
|
||
1240 | else if ((*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) == BL_MAGIC_NUMBER) && |
||
1241 | (*((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (1*4))) == 0 && *((uint32_t*)(BL_CALLBACK_TABLE_ADDR + (2*4))) == 3)) { |
||
1242 | switch (shutdown_now) {
|
||
1243 | case SHUTDOWN_TRANSPORTATION:
|
||
1244 | blCallbackPtrAddr += 6 * 4; |
||
1245 | break;
|
||
1246 | case SHUTDOWN_DEEPSLEEP:
|
||
1247 | blCallbackPtrAddr += 5 * 4; |
||
1248 | break;
|
||
1249 | case SHUTDOWN_HIBERNATE:
|
||
1250 | blCallbackPtrAddr += 4 * 4; |
||
1251 | break;
|
||
1252 | case SHUTDOWN_RESTART:
|
||
1253 | blCallbackPtrAddr += 7 * 4; |
||
1254 | break;
|
||
1255 | case SHUTDOWN_HANDLE_REQUEST:
|
||
1256 | blCallbackPtrAddr += 8 * 4; |
||
1257 | break;
|
||
1258 | default:
|
||
1259 | blCallbackPtrAddr = 0;
|
||
1260 | break;
|
||
1261 | } |
||
1262 | } |
||
1263 | 5b1b6715 | Thomas Schöpping | // handle bootloader version 1.0.x and 1.1.x
|
1264 | 10687985 | Thomas Schöpping | else if ((*((uint32_t*)(BL_CALLBACK_TABLE_ADDR)) == (('A'<<24) | ('-'<<16) | ('B'<<8) | ('L'<<0))) && |
1265 | 5b1b6715 | Thomas Schöpping | ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->major == 1 && (((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->minor == 0 || ((blVersion_t*)(BL_CALLBACK_TABLE_ADDR + (1*4)))->minor == 1)) { |
1266 | 58fe0e0b | Thomas Schöpping | switch (shutdown_now) {
|
1267 | case SHUTDOWN_TRANSPORTATION:
|
||
1268 | blCallbackPtrAddr += 6 * 4; |
||
1269 | break;
|
||
1270 | case SHUTDOWN_DEEPSLEEP:
|
||
1271 | blCallbackPtrAddr += 5 * 4; |
||
1272 | break;
|
||
1273 | case SHUTDOWN_HIBERNATE:
|
||
1274 | blCallbackPtrAddr += 4 * 4; |
||
1275 | break;
|
||
1276 | case SHUTDOWN_RESTART:
|
||
1277 | blCallbackPtrAddr += 7 * 4; |
||
1278 | break;
|
||
1279 | case SHUTDOWN_HANDLE_REQUEST:
|
||
1280 | blCallbackPtrAddr += 8 * 4; |
||
1281 | break;
|
||
1282 | default:
|
||
1283 | blCallbackPtrAddr = 0;
|
||
1284 | break;
|
||
1285 | } |
||
1286 | } |
||
1287 | |||
1288 | void (*blCallback)(void) = NULL; |
||
1289 | 10687985 | Thomas Schöpping | if (blCallbackPtrAddr > BL_CALLBACK_TABLE_ADDR) {
|
1290 | 58fe0e0b | Thomas Schöpping | blCallback = (void (*)(void))(*((uint32_t*)blCallbackPtrAddr)); |
1291 | |||
1292 | if (!blCallback) {
|
||
1293 | chprintf((BaseSequentialStream*) &SD1, "ERROR: Requested shutdown not supported.\n");
|
||
1294 | shutdown_now = SHUTDOWN_NONE; |
||
1295 | } else {
|
||
1296 | chprintf((BaseSequentialStream*)&SD1, "initiating shutdown sequence...\n");
|
||
1297 | palWritePad(GPIOC, GPIOC_SYS_INT_N, PAL_LOW); |
||
1298 | palWritePad(GPIOC, GPIOC_SYS_PD_N, PAL_LOW); |
||
1299 | |||
1300 | chprintf((BaseSequentialStream*)&SD1, "stopping all threads and periphery...");
|
||
1301 | systemShutdown(); |
||
1302 | chprintf((BaseSequentialStream*)&SD1, "\tdone\n");
|
||
1303 | BaseThread::sleep(MS2ST(10)); // sleep to print everything |
||
1304 | |||
1305 | blCallback(); |
||
1306 | } |
||
1307 | |||
1308 | } else {
|
||
1309 | chprintf((BaseSequentialStream*) &SD1, "ERROR: invalid shutdown requested (%u).\n", shutdown_now);
|
||
1310 | shutdown_now = SHUTDOWN_NONE; |
||
1311 | } |
||
1312 | } |
||
1313 | |||
1314 | // for (uint8_t i = LIS331DLH::AXIS_X; i <= LIS331DLH::AXIS_Z; i++) {
|
||
1315 | // accel = lis331dlh.getAcceleration(i);
|
||
1316 | // chprintf((BaseSequentialStream*) &SD1, "%c%04X ", accel < 0 ? '-' : '+', accel < 0 ? -accel : accel);
|
||
1317 | // }
|
||
1318 | //
|
||
1319 | // chprintf((BaseSequentialStream*) &SD1, "\n");
|
||
1320 | //
|
||
1321 | // // Print out an alive signal
|
||
1322 | // chprintf((BaseSequentialStream*) &SD1, ".");
|
||
1323 | } |
||
1324 | } |
||
1325 | |||
1326 | return 0; |
||
1327 | } |