amiro-os / components / power / bq27500.cpp @ bc91a128
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1 | 58fe0e0b | Thomas Schöpping | #include <amiro/power/bq27500.hpp> |
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2 | |||
3 | #include <ch.hpp> |
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4 | #include <chprintf.h> |
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5 | |||
6 | #include <cstring> |
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7 | |||
8 | using namespace chibios_rt; |
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9 | using namespace amiro; |
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10 | using namespace BQ27500; |
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11 | |||
12 | Driver::Driver(I2CDriver &i2c_driver, const GPIO_TypeDef &batgd_pingrp, const uint8_t batgd_pin, const GPIO_TypeDef &batlow_pingrp, const uint8_t batlow_pin) : |
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13 | BaseSensor<BQ27500::InitData,BQ27500::CalibData>(), i2c_driver(&i2c_driver), tx_params({I2C_ADDR, NULL, 0, NULL, 0}), |
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14 | batgd_pingrp(&batgd_pingrp), batgd_pin(batgd_pin), batlow_pingrp(&batlow_pingrp), batlow_pin(batlow_pin) |
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15 | {} |
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16 | |||
17 | Driver::~Driver() |
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18 | {} |
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19 | |||
20 | chibios_rt::EvtSource* |
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21 | Driver::getEventSource() |
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22 | { |
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23 | return &this->eventSource; |
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24 | } |
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25 | |||
26 | msg_t |
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27 | Driver::init(InitData* initialization_data) |
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28 | { |
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29 | chprintf((BaseSequentialStream*) &SD1, "%s(%d): TODO\n", __FILE__, __LINE__);
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30 | return NOT_IMPLEMENTED;
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31 | } |
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32 | |||
33 | msg_t |
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34 | Driver::update() |
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35 | { |
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36 | msg_t res = SUCCESS; |
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37 | res |= this->stdCommand(STD_CMD_TimeToEmpty, this->status.minutes_to_empty); |
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38 | res |= this->stdCommand(STD_CMD_TimeToFull, this->status.minutes_to_full); |
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39 | res |= this->stdCommand(STD_CMD_AveragePower, this->status.average_power_mW); |
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40 | uint16_t tmp; |
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41 | res |= this->stdCommand(STD_CMD_StateOfCharge, tmp);
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42 | this->status.state_of_charge = tmp;
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43 | return (res == SUCCESS)? SUCCESS : ERROR;
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44 | } |
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45 | |||
46 | msg_t |
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47 | Driver::wakeup() |
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48 | { |
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49 | const msg_t res = this->subCommand(SUB_CMD_CLEAR_HIBERNATE); |
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50 | return (res? ERROR : SUCCESS);
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51 | } |
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52 | |||
53 | msg_t |
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54 | Driver::hibernate() |
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55 | { |
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56 | const msg_t res = this->subCommand(SUB_CMD_SET_HIBERNATE); |
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57 | return (res? ERROR : SUCCESS);
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58 | } |
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59 | |||
60 | #ifndef AMIRO_NCALIBRATION
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61 | msg_t |
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62 | Driver::calibration(CalibData* calibration_data) |
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63 | { |
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64 | DataFlashBlock block; |
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65 | this->readDataFlashBlock(block, CONFIGURATION_Safety);
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66 | |||
67 | chprintf((BaseSequentialStream*) &SD1, "%s(%d):\n", __FILE__, __LINE__);
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68 | for(uint8_t i = 0; i < 32; ++i) { |
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69 | chprintf((BaseSequentialStream*) &SD1, "%02X ", block.content.data[i]);
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70 | } |
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71 | chprintf((BaseSequentialStream*) &SD1, "\n");
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72 | chprintf((BaseSequentialStream*) &SD1, "%02X\n", block.content.checksum);
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73 | |||
74 | chprintf((BaseSequentialStream*) &SD1, "%s(%d): TODO\n", __FILE__, __LINE__);
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75 | return NOT_IMPLEMENTED;
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76 | } |
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77 | #endif
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78 | |||
79 | #ifndef AMIRO_NSELFTEST
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80 | msg_t |
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81 | Driver::selftest() |
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82 | { |
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83 | uint16_t val = 0;
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84 | Version version; |
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85 | |||
86 | // read hardware version
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87 | version.value = 0;
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88 | if (this->subCommand(SUB_CMD_HW_VERSION, &version.value)) |
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89 | { |
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90 | return ST_FAIL_READ_HW_VERSION;
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91 | } |
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92 | chprintf((BaseSequentialStream*) &SD1, "hardware version: %X%X-%X%X (0x%04X)\n", version.content.major_high, version.content.major_low, version.content.minor_high, version.content.minor_low, version.value);
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93 | |||
94 | // read firmware version
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95 | version.value = 0;
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96 | if (this->subCommand(SUB_CMD_FW_VERSION, &version.value)) |
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97 | { |
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98 | return ST_FAIL_READ_FW_VERSION;
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99 | } |
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100 | chprintf((BaseSequentialStream*) &SD1, "firmware version: %X%X-%X%X (0x%04X)\n", version.content.major_high, version.content.major_low, version.content.minor_high, version.content.minor_low, version.value);
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101 | |||
102 | // read device name
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103 | uint8_t name_length = 0;
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104 | if (this->extCommand(EXT_CMD_DNAMELEN, EXT_CMD_READ, &name_length)) |
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105 | { |
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106 | return ST_FAIL_READ_DEVICENAMELENGTH;
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107 | } |
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108 | char name_buffer[9]; // maximum name length is 8 |
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109 | if (this->extCommand(EXT_CMD_DNAME, EXT_CMD_READ, (uint8_t*)name_buffer, name_length)) |
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110 | { |
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111 | return ST_FAIL_READ_DEVICENAME;
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112 | } |
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113 | name_buffer[name_length] = '\0';
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114 | chprintf((BaseSequentialStream*) &SD1, "device name: %s (%u characters)\n", name_buffer, name_length);
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115 | |||
116 | // read the current flags
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117 | Flags flags; |
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118 | if (this->stdCommand(STD_CMD_FLAGS, flags.value)) |
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119 | { |
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120 | return ST_FAIL_READ_FLAGS;
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121 | } |
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122 | chprintf((BaseSequentialStream*) &SD1, "flags: 0x%04X\n", flags.value);
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123 | chprintf((BaseSequentialStream*) &SD1, " OTC : %u\n", flags.content.otc);
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124 | chprintf((BaseSequentialStream*) &SD1, " OTD : %u\n", flags.content.otd);
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125 | chprintf((BaseSequentialStream*) &SD1, " CHG_INH : %u\n", flags.content.chg_inh);
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126 | chprintf((BaseSequentialStream*) &SD1, " XCHG : %u\n", flags.content.xchg);
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127 | chprintf((BaseSequentialStream*) &SD1, " FC : %u\n", flags.content.fc);
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128 | chprintf((BaseSequentialStream*) &SD1, " CHG : %u\n", flags.content.chg);
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129 | chprintf((BaseSequentialStream*) &SD1, " OCV_GD : %u\n", flags.content.ocv_gd);
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130 | chprintf((BaseSequentialStream*) &SD1, " WAIT_ID : %u\n", flags.content.wait_id);
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131 | chprintf((BaseSequentialStream*) &SD1, " BAT_DET : %u\n", flags.content.bat_det);
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132 | chprintf((BaseSequentialStream*) &SD1, " SOC1 : %u\n", flags.content.soc1);
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133 | chprintf((BaseSequentialStream*) &SD1, " SOCF : %u\n", flags.content.socf);
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134 | chprintf((BaseSequentialStream*) &SD1, " DSG : %u\n", flags.content.dsg);
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135 | |||
136 | // read the current controller status
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137 | ControlStatus ctrl_status; |
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138 | if (this->subCommand(SUB_CMD_CONTROL_STATUS, &ctrl_status.value)) |
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139 | { |
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140 | return ST_FAIL_READ_STATUS;
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141 | } |
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142 | chprintf((BaseSequentialStream*) &SD1, "control status: 0x%04X\n", ctrl_status.value);
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143 | chprintf((BaseSequentialStream*) &SD1, " FAS : %u\n", ctrl_status.content.fas);
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144 | chprintf((BaseSequentialStream*) &SD1, " SS : %u\n", ctrl_status.content.ss);
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145 | chprintf((BaseSequentialStream*) &SD1, " CSV : %u\n", ctrl_status.content.csv);
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146 | chprintf((BaseSequentialStream*) &SD1, " CSA : %u\n", ctrl_status.content.cca);
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147 | chprintf((BaseSequentialStream*) &SD1, " BCA : %u\n", ctrl_status.content.bca);
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148 | chprintf((BaseSequentialStream*) &SD1, " HIBERNATE : %u\n", ctrl_status.content.hibernate);
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149 | chprintf((BaseSequentialStream*) &SD1, " SNOOZE : %u\n", ctrl_status.content.snooze);
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150 | chprintf((BaseSequentialStream*) &SD1, " SLEEP : %u\n", ctrl_status.content.sleep);
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151 | chprintf((BaseSequentialStream*) &SD1, " LDMD : %u\n", ctrl_status.content.ldmd);
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152 | chprintf((BaseSequentialStream*) &SD1, " RUP_DIS : %u\n", ctrl_status.content.rup_dis);
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153 | chprintf((BaseSequentialStream*) &SD1, " VOK : %u\n", ctrl_status.content.vok);
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154 | chprintf((BaseSequentialStream*) &SD1, " QEN : %u\n", ctrl_status.content.qen);
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155 | |||
156 | // if no battery was detected, abort
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157 | if (!flags.content.bat_det)
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158 | { |
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159 | return ST_ABORT_NO_BAT;
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160 | } |
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161 | |||
162 | // read the BATGD_N pin
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163 | chprintf((BaseSequentialStream*) &SD1, "battery good: %s\n", (this->isBatteryGood()? "yes" : "no")); |
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164 | |||
165 | // read temperature
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166 | if (this->stdCommand(STD_CMD_TEMP, val)) |
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167 | { |
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168 | return ST_FAIL_READ_TEMP;
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169 | } |
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170 | chprintf((BaseSequentialStream*) &SD1, "temperature: %fK (%fC)\n", float(val)/10.0f, float(val)/10.0f - 273.15f); |
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171 | |||
172 | // read the full available capacity
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173 | if (this->stdCommand(STD_CMD_FAC, val)) |
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174 | { |
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175 | return ST_FAIL_READ_FAC;
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176 | } |
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177 | chprintf((BaseSequentialStream*) &SD1, "full available capacity: %umAh\n", val);
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178 | |||
179 | // read the full charge capacity
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180 | if (this->stdCommand(STD_CMD_FCC, val)) |
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181 | { |
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182 | return ST_FAIL_READ_FCC;
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183 | } |
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184 | chprintf((BaseSequentialStream*) &SD1, "full charge capacity: %umAh\n", val);
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185 | |||
186 | // read the remaining capacity
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187 | if (this->stdCommand(STD_CMD_RM, val)) |
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188 | { |
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189 | return ST_FAIL_READ_RM;
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190 | } |
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191 | chprintf((BaseSequentialStream*) &SD1, "remaining capacity capacity: %umAh\n", val);
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192 | |||
193 | // read the state of charge
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194 | if (this->stdCommand(STD_CMD_SOC, val)) |
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195 | { |
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196 | return ST_FAIL_READ_SOC;
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197 | } |
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198 | chprintf((BaseSequentialStream*) &SD1, "state of charge: %3u%%\n", val);
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199 | |||
200 | // read voltage
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201 | if (this->stdCommand(STD_CMD_VOLT, val)) |
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202 | { |
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203 | return ST_FAIL_READ_VOLT;
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204 | } |
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205 | chprintf((BaseSequentialStream*) &SD1, "voltage: %umV\n", val);
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206 | |||
207 | // read average current
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208 | if (this->stdCommand(STD_CMD_AI, val)) |
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209 | { |
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210 | return ST_FAIL_READ_AI;
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211 | } |
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212 | chprintf((BaseSequentialStream*) &SD1, "average current: %dmA\n", *reinterpret_cast<int8_t*>(&val)); |
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213 | |||
214 | // read average power
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215 | if (this->stdCommand(STD_CMD_AP, val)) |
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216 | { |
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217 | return ST_FAIL_READ_AP;
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218 | } |
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219 | chprintf((BaseSequentialStream*) &SD1, "average power: %dmW\n", *reinterpret_cast<int8_t*>(&val)); |
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220 | |||
221 | // read the BATLOW pin
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222 | chprintf((BaseSequentialStream*) &SD1, "battery low: %s\n", (this->isBatteryLow()? "yes" : "no")); |
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223 | |||
224 | // read the time to empty
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225 | if (this->stdCommand(STD_CMD_TTE, val)) |
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226 | { |
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227 | return ST_FAIL_READ_TTE;
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228 | } |
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229 | chprintf((BaseSequentialStream*) &SD1, "time to empty: ");
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230 | if (uint16_t(~val)) {
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231 | chprintf((BaseSequentialStream*) &SD1, "%u minutes", val);
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232 | } else {
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233 | chprintf((BaseSequentialStream*) &SD1, "(not discharging)");
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234 | } |
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235 | chprintf((BaseSequentialStream*) &SD1, "\n");
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236 | |||
237 | // read the time to full
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238 | if (this->stdCommand(STD_CMD_TTF, val)) |
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239 | { |
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240 | return ST_FAIL_READ_TTF;
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241 | } |
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242 | chprintf((BaseSequentialStream*) &SD1, "time to full: ");
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243 | if (uint16_t(~val)) {
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244 | chprintf((BaseSequentialStream*) &SD1, "%u minutes", val);
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245 | } else {
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246 | chprintf((BaseSequentialStream*) &SD1, "(not charging)");
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247 | } |
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248 | chprintf((BaseSequentialStream*) &SD1, "\n");
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249 | |||
250 | return ST_OK;
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251 | } |
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252 | #endif
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253 | |||
254 | bool
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255 | Driver::isBatteryGood() const
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256 | { |
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257 | return (palReadPad(this->batgd_pingrp, this->batgd_pin) == PAL_LOW); |
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258 | } |
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259 | |||
260 | bool
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261 | Driver::isBatteryLow() const
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262 | { |
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263 | return (palReadPad(this->batlow_pingrp, this->batlow_pin) == PAL_HIGH); |
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264 | } |
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265 | |||
266 | const Driver::UpdateData&
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267 | Driver::getStatus() const
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268 | { |
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269 | return this->status; |
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270 | } |
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271 | |||
272 | msg_t |
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273 | Driver::main(void)
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274 | { |
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275 | while (!this->shouldTerminate()) |
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276 | { |
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277 | this->update();
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278 | this->eventSource.broadcastFlags(0); |
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279 | |||
280 | this->waitAnyEventTimeout(ALL_EVENTS, MS2ST(1000)); |
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281 | } |
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282 | |||
283 | return RDY_OK;
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284 | } |
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285 | |||
286 | msg_t |
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287 | Driver::stdCommand(const StandardCommand cmd, uint16_t &dst)
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288 | { |
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289 | uint8_t buffer[2];
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290 | this->tx_params.txbuf = reinterpret_cast<const uint8_t*>(&cmd); |
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291 | this->tx_params.txbytes = 1; |
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292 | this->tx_params.rxbuf = buffer;
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293 | this->tx_params.rxbytes = 2; |
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294 | |||
295 | this->i2c_driver->acquireBus();
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296 | const msg_t res = this->i2c_driver->masterTransmit(&this->tx_params); |
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297 | this->i2c_driver->releaseBus();
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298 | |||
299 | if (!res) {
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300 | dst = uint16_t((buffer[1] << 8) | buffer[0]); |
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301 | #ifndef NDEBUG
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302 | } else {
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303 | chprintf((BaseSequentialStream*) &SD1, "%s(%d): ERROR: i2c transmit failed (%d)\n", __FILE__ , __LINE__ , res);
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304 | #endif
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305 | } |
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306 | |||
307 | return res;
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308 | } |
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309 | |||
310 | msg_t |
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311 | Driver::readName() |
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312 | { |
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313 | uint8_t buffer[9];
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314 | uint8_t reg = 0x62u;
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315 | this->tx_params.txbuf = ®
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316 | this->tx_params.txbytes = 1; |
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317 | this->tx_params.rxbuf = &buffer[0]; |
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318 | this->tx_params.rxbytes = 8; |
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319 | |||
320 | this->i2c_driver->acquireBus();
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321 | const msg_t res = this->i2c_driver->masterTransmit(&this->tx_params); |
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322 | this->i2c_driver->releaseBus();
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323 | |||
324 | buffer[buffer[0] + 1] = '\0'; |
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325 | |||
326 | chprintf((BaseSequentialStream*) &SD1, "name: %u - %s\n", buffer[0], (char*)&buffer[1]); |
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327 | |||
328 | return res;
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329 | } |
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330 | |||
331 | msg_t |
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332 | Driver::subCommand(const ControlSubcommand cmd, uint16_t *dst)
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333 | { |
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334 | uint8_t buffer[3] = {STD_CMD_CNTL, uint8_t(cmd & 0x00FFu), uint8_t((cmd & 0xFF00u) >> 8)}; |
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335 | this->tx_params.txbuf = buffer;
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336 | this->tx_params.txbytes = 3; |
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337 | this->tx_params.rxbytes = 0; |
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338 | |||
339 | this->i2c_driver->acquireBus();
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340 | msg_t res = this->i2c_driver->masterTransmit(&this->tx_params); |
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341 | this->i2c_driver->releaseBus();
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342 | if (dst) {
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343 | this->tx_params.txbytes = 1; |
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344 | |||
345 | this->tx_params.rxbuf = &buffer[1]; |
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346 | this->tx_params.rxbytes = 2; |
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347 | |||
348 | BaseThread::sleep(US2ST(2));
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349 | this->i2c_driver->acquireBus();
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350 | res |= this->i2c_driver->masterTransmit(&this->tx_params); |
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351 | this->i2c_driver->releaseBus();
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352 | } |
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353 | |||
354 | #ifndef NDEBUG
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355 | if (res) {
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356 | chprintf((BaseSequentialStream*) &SD1, "%s(%d): ERROR: i2c transmit failed (%d)\n", __FILE__ , __LINE__ , res);
|
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357 | } |
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358 | #endif
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359 | |||
360 | if (dst && !res) {
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361 | *dst = uint16_t((buffer[2] << 8) | buffer[1]); |
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362 | } |
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363 | |||
364 | return res;
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365 | } |
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366 | |||
367 | msg_t |
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368 | Driver::extCommand(const ExtendedCommand cmd, const ExtendedCommandAccess rw, uint8_t* buf, const uint8_t length, const uint8_t offset) |
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369 | { |
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370 | if (!buf) {
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371 | #ifndef NDEBUG
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372 | chprintf((BaseSequentialStream*) &SD1, "%s(%d): ERROR: received NULL-pointer as buffer\n", __FILE__ , __LINE__);
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373 | #endif
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374 | return ~RDY_OK;
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375 | } |
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376 | if (rw != EXT_CMD_WRITE && rw != EXT_CMD_READ) {
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377 | #ifndef NDEBUG
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378 | chprintf((BaseSequentialStream*) &SD1, "%s(%d): ERROR: invalid access mode selected\n", __FILE__ , __LINE__);
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379 | #endif
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380 | return ~RDY_OK;
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381 | } |
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382 | if (length > 33) { |
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383 | #ifndef NDEBUG
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384 | chprintf((BaseSequentialStream*) &SD1, "%s(%d): ERROR: length exceeds maximum of 33 bytes\n", __FILE__ , __LINE__);
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385 | #endif
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386 | return ~RDY_OK;
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387 | } |
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388 | |||
389 | uint8_t in_buffer[34];
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390 | in_buffer[0] = cmd + offset;
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391 | if (rw == EXT_CMD_WRITE) {
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392 | strncpy((char*)&in_buffer[1], (char*)buf, length); |
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393 | } |
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394 | this->tx_params.txbuf = in_buffer;
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395 | this->tx_params.txbytes = 1 + ((rw == EXT_CMD_WRITE)? length : 0); |
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396 | this->tx_params.rxbuf = (rw == EXT_CMD_READ)? buf : NULL; |
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397 | this->tx_params.rxbytes = (rw == EXT_CMD_READ)? length : 0; |
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398 | |||
399 | this->i2c_driver->acquireBus();
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400 | const msg_t res = this->i2c_driver->masterTransmit(&this->tx_params); |
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401 | this->i2c_driver->releaseBus();
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402 | |||
403 | #ifndef NDEBUG
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404 | if (res) {
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405 | chprintf((BaseSequentialStream*) &SD1, "%s(%d): ERROR: i2c transmit failed (%d)\n", __FILE__ , __LINE__ , res);
|
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406 | } |
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407 | #endif
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408 | |||
409 | return res;
|
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410 | } |
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411 | |||
412 | msg_t |
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413 | Driver::readDataFlashBlock(DataFlashBlock &block, const DataFlashSubClassID sub_id, const uint8_t sub_block) |
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414 | { |
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415 | block.raw[0] = sub_id;
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416 | block.raw[1] = sub_block;
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417 | msg_t res = this->extCommand(EXT_CMD_DFCLS, EXT_CMD_WRITE, &block.raw[0]); |
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418 | res |= this->extCommand(EXT_CMD_DFBLK, EXT_CMD_WRITE, &block.raw[1]); |
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419 | |||
420 | BaseThread::sleep(US2ST(1)); // Without this delay the whole block is shifted and the first byte is lost. TODO: investigate |
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421 | res |= this->extCommand(EXT_CMD_DFD, EXT_CMD_READ, block.raw, 33); |
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422 | |||
423 | return res;
|
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424 | } |