amiro-blt / Target / Modules / PowerManagement_1-2 / Boot / main.c @ 01c0bf56
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1 | a270d48f | Thomas Schöpping | /************************************************************************************//** |
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2 | * \file Demo\ARMCM4_STM32_Olimex_STM32E407_GCC\Boot\main.c
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3 | * \brief Bootloader application source file.
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4 | * \ingroup Boot_ARMCM4_STM32_Olimex_STM32E407_GCC
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5 | * \internal
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6 | *----------------------------------------------------------------------------------------
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7 | * C O P Y R I G H T
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8 | *----------------------------------------------------------------------------------------
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9 | * Copyright (c) 2013 by Feaser http://www.feaser.com All rights reserved
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10 | *
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11 | *----------------------------------------------------------------------------------------
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12 | * L I C E N S E
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13 | *----------------------------------------------------------------------------------------
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14 | * This file is part of OpenBLT. OpenBLT is free software: you can redistribute it and/or
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15 | * modify it under the terms of the GNU General Public License as published by the Free
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16 | * Software Foundation, either version 3 of the License, or (at your option) any later
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17 | * version.
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18 | *
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19 | * OpenBLT is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
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20 | * without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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21 | * PURPOSE. See the GNU General Public License for more details.
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22 | *
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23 | * You should have received a copy of the GNU General Public License along with OpenBLT.
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24 | * If not, see <http://www.gnu.org/licenses/>.
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25 | *
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26 | * A special exception to the GPL is included to allow you to distribute a combined work
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27 | * that includes OpenBLT without being obliged to provide the source code for any
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28 | * proprietary components. The exception text is included at the bottom of the license
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29 | * file <license.html>.
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30 | *
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31 | * \endinternal
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32 | ****************************************************************************************/
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33 | |||
34 | /****************************************************************************************
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35 | * Include files
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36 | ****************************************************************************************/
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37 | #include "boot.h" /* bootloader generic header */ |
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38 | #include "com.h" |
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39 | #include "ARMCM4_STM32/types.h" |
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40 | #include "AMiRo/amiroblt.h" |
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41 | #include "helper.h" |
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42 | #include "iodef.h" |
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43 | |||
44 | /****************************************************************************************
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45 | * Defines
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46 | ****************************************************************************************/
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47 | #define HIBERNATE_TIME_MS 5000 |
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48 | |||
49 | /****************************************************************************************
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50 | * Function prototypes and static variables
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51 | ****************************************************************************************/
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52 | static void Init(void); |
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53 | |||
54 | 2b9a14a2 | Thomas Schöpping | static void initGpio(void); |
55 | static void initExti(void); |
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56 | void configGpioForShutdown(void); |
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57 | void systemPowerDown(void); |
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58 | a270d48f | Thomas Schöpping | |
59 | 2b9a14a2 | Thomas Schöpping | ErrorStatus handleColdReset(void);
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60 | ErrorStatus handleSoftwareReset(void);
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61 | ErrorStatus handleUartDnWakeup(void);
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62 | ErrorStatus handlePathDcWakeup(void);
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63 | ErrorStatus handleTouchWakeup(void);
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64 | ErrorStatus handleIwdgWakeup(void);
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65 | a270d48f | Thomas Schöpping | |
66 | 2b9a14a2 | Thomas Schöpping | static void indicateHibernate(void); |
67 | static void AdcSingleMeasurement(void); |
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68 | a270d48f | Thomas Schöpping | |
69 | ADC_TypeDef* setupADC(ADC_TypeDef* adc, const uint16_t low_th, const uint16_t high_th); |
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70 | uint16_t configIwdg(const uint16_t ms);
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71 | |||
72 | ErrorStatus shutdownDisambiguationProcedure(const uint8_t type);
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73 | 2b9a14a2 | Thomas Schöpping | void shutdownToTransportation(void); |
74 | void shutdownToDeepsleep(void); |
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75 | void shutdownToHibernate(void); |
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76 | void shutdownAndRestart(void); |
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77 | a270d48f | Thomas Schöpping | |
78 | volatile blBackupRegister_t backup_reg;
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79 | |||
80 | /****************************************************************************************
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81 | * Callback configuration
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82 | ****************************************************************************************/
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83 | void blCallbackShutdownTransportation(void); |
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84 | void blCallbackShutdownDeepsleep(void); |
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85 | void blCallbackShutdownHibernate(void); |
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86 | void blCallbackShutdownRestart(void); |
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87 | void blCallbackHandleShutdownRequest(void); |
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88 | |||
89 | const blCallbackTable_t cbtable __attribute__ ((section ("_callback_table"))) = { |
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90 | .magicNumber = BL_MAGIC_NUMBER, |
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91 | 4745cc4c | Thomas Schöpping | .vBootloader = {BL_VERSION_ID_AMiRoBLT_Release, BL_VERSION_MAJOR, BL_VERSION_MINOR, 0},
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92 | a270d48f | Thomas Schöpping | .vSSSP = {BL_VERSION_ID_SSSP, BL_SSSP_VERSION_MAJOR, BL_SSSP_VERSION_MINOR, 0},
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93 | .vCompiler = {BL_VERSION_ID_GCC, __GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__}, // currently only GCC is supported
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94 | .cbShutdownHibernate = blCallbackShutdownHibernate, |
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95 | .cbShutdownDeepsleep = blCallbackShutdownDeepsleep, |
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96 | .cbShutdownTransportation = blCallbackShutdownTransportation, |
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97 | .cbShutdownRestart = blCallbackShutdownRestart, |
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98 | .cbHandleShutdownRequest = blCallbackHandleShutdownRequest, |
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99 | .cb5 = (void*)0, |
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100 | .cb6 = (void*)0, |
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101 | .cb7 = (void*)0, |
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102 | .cb8 = (void*)0, |
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103 | .cb9 = (void*)0, |
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104 | .cb10 = (void*)0, |
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105 | .cb11 = (void*)0 |
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106 | }; |
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107 | |||
108 | /************************************************************************************//** |
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109 | ** \brief This is the entry point for the bootloader application and is called
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110 | ** by the reset interrupt vector after the C-startup routines executed.
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111 | ** \return none.
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112 | **
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113 | ****************************************************************************************/
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114 | void main(void) |
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115 | { |
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116 | /* initialize the microcontroller */
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117 | Init(); |
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118 | |||
119 | /* activate some required clocks */
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120 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA | RCC_AHB1Periph_GPIOB | RCC_AHB1Periph_GPIOC | RCC_AHB1Periph_GPIOD, ENABLE); |
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121 | RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, ENABLE); |
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122 | RCC_APB2PeriphClockCmd(RCC_APB2Periph_SYSCFG, ENABLE); |
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123 | |||
124 | /* initialize GPIOs and EXTI lines */
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125 | initGpio(); |
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126 | setLed(BLT_TRUE); |
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127 | initExti(); |
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128 | |||
129 | /* initialize the timer */
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130 | TimerInit(); // do not use saTimerInit() in order to initialize the static variable.
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131 | |||
132 | /* read the backup register */
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133 | backup_reg.raw = RTC_ReadBackupRegister(BL_RTC_BACKUP_REG); |
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134 | |||
135 | /* detect the primary reason for this wakeup/restart */
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136 | backup_reg.wakeup_pri_reason = |
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137 | ((RCC_GetFlagStatus(RCC_FLAG_LPWRRST) == SET) ? BL_WAKEUP_PRI_RSN_LPWRRST : 0) |
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138 | ((RCC_GetFlagStatus(RCC_FLAG_WWDGRST) == SET) ? BL_WAKEUP_PRI_RSN_WWDGRST : 0) |
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139 | ((RCC_GetFlagStatus(RCC_FLAG_IWDGRST) == SET) ? BL_WAKEUP_PRI_RSN_IWDGRST : 0) |
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140 | ((RCC_GetFlagStatus(RCC_FLAG_SFTRST) == SET) ? BL_WAKEUP_PRI_RSN_SFTRST : 0) |
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141 | ((RCC_GetFlagStatus(RCC_FLAG_PORRST) == SET) ? BL_WAKEUP_PRI_RSN_PORRST : 0) |
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142 | ((RCC_GetFlagStatus(RCC_FLAG_PINRST) == SET) ? BL_WAKEUP_PRI_RSN_PINRST : 0) |
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143 | ((RCC_GetFlagStatus(RCC_FLAG_BORRST) == SET) ? BL_WAKEUP_PRI_RSN_BORRST : 0) |
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144 | ((PWR_GetFlagStatus(PWR_FLAG_WU) == SET) ? BL_WAKEUP_PRI_RSN_WKUP : 0);
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145 | |||
146 | /* when woken from standby mode, detect the secondary reason for this wakeup/reset */
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147 | if ( (backup_reg.wakeup_pri_reason & BL_WAKEUP_PRI_RSN_WKUP) && (PWR_GetFlagStatus(PWR_FLAG_SB) == SET) ) {
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148 | if (GPIO_ReadInputDataBit(SYS_UART_DN_GPIO, SYS_UART_DN_PIN) == Bit_RESET) {
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149 | backup_reg.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_UART; |
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150 | } else if (GPIO_ReadInputDataBit(PATH_DC_GPIO, PATH_DC_PIN) == Bit_SET) { |
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151 | backup_reg.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_PWRPLUG; |
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152 | } else {
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153 | backup_reg.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_TOUCH; |
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154 | } |
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155 | } else {
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156 | backup_reg.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_UNKNOWN; |
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157 | } |
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158 | |||
159 | /* store the information about this wakeup/restart in the backup register */
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160 | PWR_BackupAccessCmd(ENABLE); |
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161 | RTC_WriteBackupRegister(BL_RTC_BACKUP_REG, backup_reg.raw); |
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162 | |||
163 | /* clear the flags */
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164 | RCC_ClearFlag(); |
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165 | PWR_ClearFlag(PWR_FLAG_WU); |
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166 | |||
167 | setLed(BLT_FALSE); |
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168 | |||
169 | 2b9a14a2 | Thomas Schöpping | /*
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170 | * Measure the current voltage of VSYS and enable the chargers if it was found to be > 9V.
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171 | */
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172 | AdcSingleMeasurement(); |
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173 | if ( (((float)(ADC_GetConversionValue(ADC1)) / (float)0x0FFF) * 3.3f * 5.33f) > 9.0f ) { |
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174 | /* VSYS was found to be > 9V */
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175 | setLed(BLT_TRUE); |
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176 | GPIO_ResetBits(CHARGE_EN1_N_GPIO, CHARGE_EN1_N_PIN); |
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177 | GPIO_ResetBits(CHARGE_EN2_N_GPIO, CHARGE_EN2_N_PIN); |
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178 | } |
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179 | |||
180 | a270d48f | Thomas Schöpping | /* handle different wakeup/reset reasons */
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181 | ErrorStatus status = ERROR; |
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182 | if (backup_reg.wakeup_pri_reason & BL_WAKEUP_PRI_RSN_SFTRST) {
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183 | /* system was reset by software */
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184 | status = handleSoftwareReset(); |
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185 | } else if (backup_reg.wakeup_pri_reason & BL_WAKEUP_PRI_RSN_WKUP) { |
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186 | /* system was woken via WKUP pin */
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187 | /* differeciate between thre wakeup types */
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188 | switch (backup_reg.wakeup_sec_reason) {
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189 | case BL_WAKEUP_SEC_RSN_UART:
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190 | status = handleUartDnWakeup(); |
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191 | break;
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192 | case BL_WAKEUP_SEC_RSN_PWRPLUG:
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193 | status = handlePathDcWakeup(); |
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194 | break;
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195 | case BL_WAKEUP_SEC_RSN_TOUCH:
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196 | status = handleTouchWakeup(); |
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197 | break;
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198 | default:
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199 | status = ERROR; |
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200 | break;
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201 | } |
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202 | } else if (backup_reg.wakeup_pri_reason & BL_WAKEUP_PRI_RSN_IWDGRST) { |
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203 | /* system was woken by IWDG */
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204 | status = handleIwdgWakeup(); |
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205 | } else if (backup_reg.wakeup_pri_reason == BL_WAKEUP_PRI_RSN_PINRST) { |
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206 | /* system was reset via NRST pin */
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207 | status = handleColdReset(); |
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208 | } else {
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209 | /* system was woken/reset for an unexpected reason.
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210 | * In this case the LED blinks "SOS" (... --- ...) and the system resets.
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211 | */
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212 | blinkSOS(1);
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213 | status = ERROR; |
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214 | backup_reg.shutdown_pri_reason = BL_SHUTDOWN_PRI_RSN_RESTART; |
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215 | backup_reg.shutdown_sec_reason = BL_SHUTDOWN_SEC_RSN_UNKNOWN; |
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216 | RTC_WriteBackupRegister(BL_RTC_BACKUP_REG, backup_reg.raw); |
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217 | NVIC_SystemReset(); |
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218 | } |
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219 | |||
220 | /* if something went wrong, signal this failure */
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221 | if (status != SUCCESS) {
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222 | blinkSOSinf(); |
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223 | } |
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224 | |||
225 | return;
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226 | } /*** end of main ***/
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227 | |||
228 | |||
229 | /************************************************************************************//** |
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230 | ** \brief Initializes the microcontroller.
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231 | ** \return none.
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232 | **
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233 | ****************************************************************************************/
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234 | static void Init(void) |
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235 | { |
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236 | #if (BOOT_COM_UART_ENABLE > 0 || BOOT_GATE_UART_ENABLE > 0) |
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237 | GPIO_InitTypeDef GPIO_InitStructure; |
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238 | #elif (BOOT_FILE_SYS_ENABLE > 0) |
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239 | GPIO_InitTypeDef GPIO_InitStructure; |
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240 | USART_InitTypeDef USART_InitStructure; |
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241 | #elif (BOOT_COM_CAN_ENABLE > 0 || BOOT_GATE_CAN_ENABLE > 0) |
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242 | GPIO_InitTypeDef GPIO_InitStructure; |
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243 | #endif
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244 | |||
245 | /* initialize the system and its clocks */
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246 | SystemInit(); |
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247 | #if (BOOT_COM_UART_ENABLE > 0 || BOOT_GATE_UART_ENABLE > 0) |
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248 | /* enable UART peripheral clock */
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249 | RCC_APB2PeriphClockCmd(RCC_APB2Periph_USART1, ENABLE); |
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250 | /* enable GPIO peripheral clock for transmitter and receiver pins */
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251 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA, ENABLE); |
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252 | /* connect the pin to the peripherals alternate function */
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253 | GPIO_PinAFConfig(GPIOA, GPIO_PinSource9, GPIO_AF_USART1); |
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254 | GPIO_PinAFConfig(GPIOA, GPIO_PinSource10, GPIO_AF_USART1); |
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255 | /* configure USART Tx as alternate function */
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256 | GPIO_InitStructure.GPIO_OType = GPIO_OType_PP; |
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257 | GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP; |
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258 | GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF; |
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259 | GPIO_InitStructure.GPIO_Pin = GPIO_Pin_9; |
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260 | GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; |
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261 | GPIO_Init(GPIOA, &GPIO_InitStructure); |
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262 | /* configure USART Rx as alternate function */
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263 | GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF; |
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264 | GPIO_InitStructure.GPIO_Pin = GPIO_Pin_10; |
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265 | GPIO_Init(GPIOA, &GPIO_InitStructure); |
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266 | #endif
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267 | |||
268 | #if (BOOT_COM_BLUETOOTH_UART_ENABLE > 0) |
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269 | /* enable UART peripheral clock */
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270 | RCC_APB1PeriphClockCmd(RCC_APB1Periph_USART3, ENABLE); |
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271 | |||
272 | /* enable GPIO peripheral clock for transmitter and receiver pins */
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273 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOC, ENABLE); |
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274 | /* connect the pin to the peripherals alternate function */
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275 | GPIO_PinAFConfig(GPIOC, GPIO_PinSource10, GPIO_AF_USART3); |
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276 | GPIO_PinAFConfig(GPIOC, GPIO_PinSource11, GPIO_AF_USART3); |
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277 | /* configure USART Tx as alternate function */
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278 | GPIO_InitStructure.GPIO_OType = GPIO_OType_PP; |
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279 | GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP; |
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280 | GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF; |
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281 | GPIO_InitStructure.GPIO_Pin = GPIO_Pin_10; |
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282 | GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; |
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283 | GPIO_Init(GPIOC, &GPIO_InitStructure); |
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284 | /* configure USART Rx as alternate function */
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285 | GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF; |
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286 | GPIO_InitStructure.GPIO_Pin = GPIO_Pin_11; |
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287 | GPIO_Init(GPIOC, &GPIO_InitStructure); |
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288 | |||
289 | /* Configure Bluetooth reset pin */
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290 | GPIO_InitTypeDef gpio_init; |
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291 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOC, ENABLE); |
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292 | gpio_init.GPIO_Pin = BT_RST_PIN; |
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293 | gpio_init.GPIO_OType = GPIO_OType_OD; |
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294 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
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295 | gpio_init.GPIO_Mode = GPIO_Mode_OUT; |
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296 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
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297 | GPIO_Init(BT_RST_GPIO, &gpio_init); |
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298 | /* Reset Bluetooth reset pin */
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299 | GPIO_ResetBits(BT_RST_GPIO, BT_RST_PIN); |
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300 | #endif
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301 | |||
302 | |||
303 | #if (BOOT_COM_CAN_ENABLE > 0 || BOOT_GATE_CAN_ENABLE > 0) |
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304 | /* enable clocks for CAN transmitter and receiver pins */
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305 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA, ENABLE); |
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306 | /* select alternate function for the CAN pins */
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307 | GPIO_PinAFConfig(GPIOA, GPIO_PinSource11, GPIO_AF_CAN1); |
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308 | GPIO_PinAFConfig(GPIOA, GPIO_PinSource12, GPIO_AF_CAN1); |
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309 | /* configure CAN RX and TX pins */
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310 | GPIO_InitStructure.GPIO_Pin = GPIO_Pin_11; |
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311 | GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; |
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312 | GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF; |
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313 | GPIO_InitStructure.GPIO_OType = GPIO_OType_PP; |
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314 | GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_NOPULL; |
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315 | GPIO_Init(GPIOA, &GPIO_InitStructure); |
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316 | GPIO_InitStructure.GPIO_Pin = GPIO_Pin_12; |
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317 | GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF; |
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318 | GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; |
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319 | GPIO_InitStructure.GPIO_OType = GPIO_OType_PP; |
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320 | GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_NOPULL; |
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321 | GPIO_Init(GPIOA, &GPIO_InitStructure); |
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322 | #endif
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323 | } /*** end of Init ***/
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324 | |||
325 | /*
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326 | * Initializes all GPIO used by the bootloader
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327 | */
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328 | 2b9a14a2 | Thomas Schöpping | static void initGpio(void) { |
329 | a270d48f | Thomas Schöpping | GPIO_InitTypeDef gpio_init; |
330 | |||
331 | /*
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332 | * OUTPUTS
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333 | */
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334 | |||
335 | /* initialize LED and push it up (inactive) */
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336 | GPIO_SetBits(LED_GPIO, LED_PIN); |
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337 | gpio_init.GPIO_Pin = LED_PIN; |
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338 | gpio_init.GPIO_Mode = GPIO_Mode_OUT; |
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339 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
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340 | gpio_init.GPIO_OType = GPIO_OType_PP; |
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341 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
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342 | GPIO_Init(LED_GPIO, &gpio_init); |
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343 | |||
344 | /* initialize SYS_PD_N and push it up (inactive) */
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345 | GPIO_SetBits(SYS_PD_N_GPIO, SYS_PD_N_PIN); |
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346 | gpio_init.GPIO_Pin = SYS_PD_N_PIN; |
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347 | gpio_init.GPIO_Mode = GPIO_Mode_OUT; |
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348 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
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349 | gpio_init.GPIO_OType = GPIO_OType_OD; |
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350 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
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351 | GPIO_Init(SYS_PD_N_GPIO, &gpio_init); |
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352 | |||
353 | /* initialize SYS_SYNC_N and pull it down (active) */
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354 | GPIO_ResetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
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355 | gpio_init.GPIO_Pin = SYS_SYNC_N_PIN; |
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356 | gpio_init.GPIO_Mode = GPIO_Mode_OUT; |
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357 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
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358 | gpio_init.GPIO_OType = GPIO_OType_OD; |
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359 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
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360 | GPIO_Init(SYS_SYNC_N_GPIO, &gpio_init); |
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361 | |||
362 | /* initialize SYS_WARMRST_N and pull it down (active) */
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363 | GPIO_ResetBits(SYS_WARMRST_N_GPIO, SYS_WARMRST_N_PIN); |
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364 | gpio_init.GPIO_Pin = SYS_WARMRST_N_PIN; |
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365 | gpio_init.GPIO_Mode = GPIO_Mode_OUT; |
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366 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
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367 | gpio_init.GPIO_OType = GPIO_OType_OD; |
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368 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
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369 | GPIO_Init(SYS_WARMRST_N_GPIO, &gpio_init); |
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370 | |||
371 | /* initialize SYS_UART_DN and push it up (inactive) */
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372 | GPIO_SetBits(SYS_UART_DN_GPIO, SYS_UART_DN_PIN); |
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373 | gpio_init.GPIO_Pin = SYS_UART_DN_PIN; |
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374 | gpio_init.GPIO_Mode = GPIO_Mode_OUT; |
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375 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
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376 | gpio_init.GPIO_OType = GPIO_OType_OD; |
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377 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
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378 | GPIO_Init(SYS_UART_DN_GPIO, &gpio_init); |
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379 | |||
380 | /* initialize POWER_EN and pull it down (inactive) */
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381 | GPIO_ResetBits(POWER_EN_GPIO, POWER_EN_PIN); |
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382 | gpio_init.GPIO_Pin = POWER_EN_PIN; |
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383 | gpio_init.GPIO_Mode = GPIO_Mode_OUT; |
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384 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
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385 | gpio_init.GPIO_OType = GPIO_OType_PP; |
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386 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
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387 | GPIO_Init(POWER_EN_GPIO, &gpio_init); |
||
388 | |||
389 | /* initialize SYS_REG_EN and pull it down (inactive) */
|
||
390 | GPIO_ResetBits(SYS_REG_EN_GPIO, SYS_REG_EN_PIN); |
||
391 | gpio_init.GPIO_Pin = SYS_REG_EN_PIN; |
||
392 | gpio_init.GPIO_Mode = GPIO_Mode_OUT; |
||
393 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
||
394 | gpio_init.GPIO_OType = GPIO_OType_PP; |
||
395 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
||
396 | GPIO_Init(SYS_REG_EN_GPIO, &gpio_init); |
||
397 | |||
398 | /* initialize CHARGE_EN1_N and CHARGE_EN2_N and push them up (inactive) */
|
||
399 | GPIO_SetBits(CHARGE_EN1_N_GPIO, CHARGE_EN1_N_PIN); |
||
400 | GPIO_SetBits(CHARGE_EN2_N_GPIO, CHARGE_EN2_N_PIN); |
||
401 | gpio_init.GPIO_Pin = CHARGE_EN1_N_PIN; |
||
402 | gpio_init.GPIO_Mode = GPIO_Mode_OUT; |
||
403 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
||
404 | gpio_init.GPIO_OType = GPIO_OType_PP; |
||
405 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
||
406 | GPIO_Init(CHARGE_EN1_N_GPIO, &gpio_init); |
||
407 | gpio_init.GPIO_Pin = CHARGE_EN2_N_PIN; |
||
408 | GPIO_Init(CHARGE_EN2_N_GPIO, &gpio_init); |
||
409 | |||
410 | /*
|
||
411 | * INPUTS
|
||
412 | */
|
||
413 | |||
414 | /* initialize SWITCH_STATUS_N */
|
||
415 | gpio_init.GPIO_Pin = SWITCH_STATUS_N_PIN; |
||
416 | gpio_init.GPIO_Mode = GPIO_Mode_IN; |
||
417 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
||
418 | gpio_init.GPIO_OType = GPIO_OType_PP; |
||
419 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
||
420 | GPIO_Init(SWITCH_STATUS_N_GPIO, &gpio_init); |
||
421 | |||
422 | /* initialize PATH_DC */
|
||
423 | gpio_init.GPIO_Pin = PATH_DC_PIN; |
||
424 | gpio_init.GPIO_Mode = GPIO_Mode_IN; |
||
425 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
||
426 | gpio_init.GPIO_OType = GPIO_OType_PP; |
||
427 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
||
428 | GPIO_Init(PATH_DC_GPIO, &gpio_init); |
||
429 | |||
430 | /* initialize TOUCH_INT_N */
|
||
431 | gpio_init.GPIO_Pin = TOUCH_INT_N_PIN; |
||
432 | gpio_init.GPIO_Mode = GPIO_Mode_IN; |
||
433 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
||
434 | gpio_init.GPIO_OType = GPIO_OType_PP; |
||
435 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
||
436 | GPIO_Init(TOUCH_INT_N_GPIO, &gpio_init); |
||
437 | |||
438 | /* initialize VSYS_SENSE as analog input */
|
||
439 | gpio_init.GPIO_Pin = VSYS_SENSE_PIN; |
||
440 | gpio_init.GPIO_Mode = GPIO_Mode_AN; |
||
441 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
||
442 | gpio_init.GPIO_OType = GPIO_OType_PP; |
||
443 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
||
444 | GPIO_Init(VSYS_SENSE_GPIO, &gpio_init); |
||
445 | |||
446 | /* initialize GPIOB4, since it is configured in alternate function mode on reset */
|
||
447 | gpio_init.GPIO_Pin = CHARGE_STAT2A_PIN; |
||
448 | gpio_init.GPIO_Mode = GPIO_Mode_IN; |
||
449 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
||
450 | gpio_init.GPIO_OType = GPIO_OType_PP; |
||
451 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
||
452 | GPIO_Init(CHARGE_STAT2A_GPIO, &gpio_init); |
||
453 | |||
454 | return;
|
||
455 | } /*** end of initGpio ***/
|
||
456 | |||
457 | /*
|
||
458 | * Initialize all EXTI lines
|
||
459 | */
|
||
460 | 2b9a14a2 | Thomas Schöpping | static void initExti(void) { |
461 | a270d48f | Thomas Schöpping | /* configure EXTI lines */
|
462 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOB, EXTI_PinSource0); // IR_INT1_N
|
||
463 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource0); // CHARGE_STAT1A
|
||
464 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource1); // GAUGE_BATLOW1
|
||
465 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource2); // GAUGE_BATGD1_N
|
||
466 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOB, EXTI_PinSource3); // SYS_UART_DN
|
||
467 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOB, EXTI_PinSource4); // CHARGE_STAT2A
|
||
468 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource4); // IR_INT2_N
|
||
469 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource5); // TOUCH_INT_N
|
||
470 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOB, EXTI_PinSource6); // GAUGE_BATLOW2
|
||
471 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOB, EXTI_PinSource7); // GAUGE_BATGD2_N
|
||
472 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource8); // PATH_DC
|
||
473 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource9); // SYS_SPI_DIR
|
||
474 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource12); // SYS_SYNC_N
|
||
475 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource13); // SYS_PD_N
|
||
476 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOC, EXTI_PinSource14); // SYS_WARMRST_N
|
||
477 | SYSCFG_EXTILineConfig(EXTI_PortSourceGPIOB, EXTI_PinSource15); // SYS_UART_UP
|
||
478 | |||
479 | return;
|
||
480 | } /*** end of initExti ***/
|
||
481 | |||
482 | /*
|
||
483 | * Signals, which type of low-power mode the system shall enter after the shutdown sequence.
|
||
484 | */
|
||
485 | ErrorStatus shutdownDisambiguationProcedure(const uint8_t type) {
|
||
486 | GPIO_SetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
487 | ErrorStatus ret_val = ERROR; |
||
488 | |||
489 | switch (type) {
|
||
490 | case BL_SHUTDOWN_PRI_RSN_UNKNOWN:
|
||
491 | case BL_SHUTDOWN_PRI_RSN_HIBERNATE:
|
||
492 | case BL_SHUTDOWN_PRI_RSN_DEEPSLEEP:
|
||
493 | case BL_SHUTDOWN_PRI_RSN_TRANSPORT:
|
||
494 | { |
||
495 | // broadcast a number of pulses, depending on the argument
|
||
496 | uint8_t pulse_counter = 0;
|
||
497 | for (pulse_counter = 0; pulse_counter < type; ++pulse_counter) { |
||
498 | msleep(1);
|
||
499 | GPIO_ResetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
500 | msleep(1);
|
||
501 | GPIO_SetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
502 | } |
||
503 | // wait for timeout
|
||
504 | msleep(10);
|
||
505 | ret_val = SUCCESS; |
||
506 | break;
|
||
507 | } |
||
508 | case BL_SHUTDOWN_PRI_RSN_RESTART:
|
||
509 | { |
||
510 | // since there is no ambiguity for restart requests, no pulses are generated
|
||
511 | msleep(10);
|
||
512 | ret_val = SUCCESS; |
||
513 | break;
|
||
514 | } |
||
515 | default:
|
||
516 | ret_val = ERROR; |
||
517 | break;
|
||
518 | } |
||
519 | |||
520 | return ret_val;
|
||
521 | } /*** end of shutdownDisambiguationProcedure ***/
|
||
522 | |||
523 | /*
|
||
524 | * Final shutdown of the system to enter transportation mode.
|
||
525 | */
|
||
526 | 2b9a14a2 | Thomas Schöpping | void shutdownToTransportation(void) { |
527 | a270d48f | Thomas Schöpping | /* configure some criticpal GPIOs as input
|
528 | * This is required, because otherwise some hardware might be powered through these signals */
|
||
529 | configGpioForShutdown(); |
||
530 | |||
531 | /* power down the system */
|
||
532 | systemPowerDown(); |
||
533 | |||
534 | /* deactivate the WKUP pin */
|
||
535 | PWR_WakeUpPinCmd(DISABLE); |
||
536 | |||
537 | /* deactivate any RTC related events */
|
||
538 | RTC_WakeUpCmd(DISABLE); |
||
539 | RTC_TamperCmd(RTC_Tamper_1, DISABLE); |
||
540 | RTC_TimeStampCmd(RTC_TimeStampEdge_Rising, DISABLE); |
||
541 | RTC_TimeStampCmd(RTC_TimeStampEdge_Falling, DISABLE); |
||
542 | RTC_ClearFlag(~0);
|
||
543 | |||
544 | /* disable the IWDG */
|
||
545 | IWDG_ReloadCounter(); |
||
546 | |||
547 | /* write some information to the backup register */
|
||
548 | blBackupRegister_t backup; |
||
549 | backup.shutdown_pri_reason = BL_SHUTDOWN_PRI_RSN_TRANSPORT; |
||
550 | backup.shutdown_sec_reason = BL_SHUTDOWN_SEC_RSN_UNKNOWN; |
||
551 | backup.wakeup_pri_reason = BL_WAKEUP_PRI_RSN_UNKNOWN; |
||
552 | backup.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_UNKNOWN; |
||
553 | PWR_BackupAccessCmd(ENABLE); |
||
554 | RTC_WriteBackupRegister(BL_RTC_BACKUP_REG, backup.raw); |
||
555 | |||
556 | /* morse 'OK' via the LED to signal that shutdown was successful */
|
||
557 | blinkOK(1);
|
||
558 | |||
559 | /* enter standby mode */
|
||
560 | PWR_EnterSTANDBYMode(); |
||
561 | |||
562 | return;
|
||
563 | } /*** end of shutdownToTransportation ***/
|
||
564 | |||
565 | /*
|
||
566 | fc7151bb | Thomas Schöpping | * Final shutdown of the system to enter deepsleep mode.
|
567 | a270d48f | Thomas Schöpping | */
|
568 | 2b9a14a2 | Thomas Schöpping | void shutdownToDeepsleep(void) { |
569 | a270d48f | Thomas Schöpping | /* configure some criticpal GPIOs as input
|
570 | * This is required, because otherwise some hardware might be powered through these signals */
|
||
571 | configGpioForShutdown(); |
||
572 | |||
573 | /* power down the system */
|
||
574 | systemPowerDown(); |
||
575 | |||
576 | /* activate the WKUP pin */
|
||
577 | PWR_WakeUpPinCmd(ENABLE); |
||
578 | |||
579 | /*
|
||
580 | * Configuration of RTC and IWDG belongs to the OS.
|
||
581 | */
|
||
582 | |||
583 | /* write some information to the backup register */
|
||
584 | blBackupRegister_t backup; |
||
585 | backup.shutdown_pri_reason = BL_SHUTDOWN_PRI_RSN_DEEPSLEEP; |
||
586 | backup.shutdown_sec_reason = BL_SHUTDOWN_SEC_RSN_UNKNOWN; |
||
587 | backup.wakeup_pri_reason = BL_WAKEUP_PRI_RSN_UNKNOWN; |
||
588 | backup.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_UNKNOWN; |
||
589 | PWR_BackupAccessCmd(ENABLE); |
||
590 | RTC_WriteBackupRegister(BL_RTC_BACKUP_REG, backup.raw); |
||
591 | |||
592 | /* morse 'OK' via the LED to signal that shutdown was successful */
|
||
593 | blinkOK(1);
|
||
594 | |||
595 | /* enter standby mode or restart the system in case a power plug is already present */
|
||
596 | if (GPIO_ReadInputDataBit(PATH_DC_GPIO, PATH_DC_PIN) != Bit_SET) {
|
||
597 | PWR_EnterSTANDBYMode(); |
||
598 | } else {
|
||
599 | NVIC_SystemReset(); |
||
600 | } |
||
601 | |||
602 | return;
|
||
603 | } /*** end of shutdownToDeepsleep ***/
|
||
604 | |||
605 | /*
|
||
606 | * Final shutdown of the system to enter hibernate mode.
|
||
607 | */
|
||
608 | 2b9a14a2 | Thomas Schöpping | void shutdownToHibernate(void) { |
609 | a270d48f | Thomas Schöpping | /* configure some criticpal GPIOs as input
|
610 | * This is required, because otherwise some hardware might be powered through these signals */
|
||
611 | configGpioForShutdown(); |
||
612 | |||
613 | /* power down the system */
|
||
614 | systemPowerDown(); |
||
615 | |||
616 | /* write some information to the backup register */
|
||
617 | blBackupRegister_t backup; |
||
618 | backup.shutdown_pri_reason = BL_SHUTDOWN_PRI_RSN_HIBERNATE; |
||
619 | backup.shutdown_sec_reason = BL_SHUTDOWN_SEC_RSN_UNKNOWN; |
||
620 | backup.wakeup_pri_reason = BL_WAKEUP_PRI_RSN_UNKNOWN; |
||
621 | backup.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_UNKNOWN; |
||
622 | PWR_BackupAccessCmd(ENABLE); |
||
623 | RTC_WriteBackupRegister(BL_RTC_BACKUP_REG, backup.raw); |
||
624 | |||
625 | fc7151bb | Thomas Schöpping | /* morse 'OK' via the LED to signal that shutdown was successful */
|
626 | a270d48f | Thomas Schöpping | blinkOK(1);
|
627 | |||
628 | /* reset the MCU */
|
||
629 | NVIC_SystemReset(); |
||
630 | |||
631 | return;
|
||
632 | } /*** end of shutdownToHibernate ***/
|
||
633 | |||
634 | /*
|
||
635 | * Final shutdown of the system and restart.
|
||
636 | */
|
||
637 | 2b9a14a2 | Thomas Schöpping | void shutdownAndRestart(void) { |
638 | a270d48f | Thomas Schöpping | /* configure some criticpal GPIOs as input
|
639 | * This is required, because otherwise some hardware might be powered through these signals */
|
||
640 | configGpioForShutdown(); |
||
641 | |||
642 | /* power down the system */
|
||
643 | systemPowerDown(); |
||
644 | |||
645 | /* write some information to the backup register */
|
||
646 | blBackupRegister_t backup; |
||
647 | backup.shutdown_pri_reason = BL_SHUTDOWN_PRI_RSN_RESTART; |
||
648 | backup.shutdown_sec_reason = BL_SHUTDOWN_SEC_RSN_UNKNOWN; |
||
649 | backup.wakeup_pri_reason = BL_WAKEUP_PRI_RSN_UNKNOWN; |
||
650 | backup.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_UNKNOWN; |
||
651 | PWR_BackupAccessCmd(ENABLE); |
||
652 | RTC_WriteBackupRegister(BL_RTC_BACKUP_REG, backup.raw); |
||
653 | |||
654 | fc7151bb | Thomas Schöpping | /* morse 'OK' via the LED to signal that shutdown was successful */
|
655 | a270d48f | Thomas Schöpping | blinkOK(1);
|
656 | |||
657 | /* reset the MCU */
|
||
658 | NVIC_SystemReset(); |
||
659 | |||
660 | return;
|
||
661 | } /*** end of shutdownAndRestart ***/
|
||
662 | |||
663 | /*
|
||
664 | * Configures some GPIO pins as inputs for safety reasons.
|
||
665 | * Under certain circumstances, these pins might power hardware that is supposed to be shut down.
|
||
666 | */
|
||
667 | 2b9a14a2 | Thomas Schöpping | void configGpioForShutdown(void) { |
668 | a270d48f | Thomas Schöpping | /* setup the configuration */
|
669 | fc7151bb | Thomas Schöpping | GPIO_InitTypeDef gpio_init; |
670 | a270d48f | Thomas Schöpping | gpio_init.GPIO_Mode = GPIO_Mode_IN; |
671 | gpio_init.GPIO_Speed = GPIO_Speed_50MHz; |
||
672 | gpio_init.GPIO_OType = GPIO_OType_PP; |
||
673 | gpio_init.GPIO_PuPd = GPIO_PuPd_NOPULL; |
||
674 | |||
675 | /* configure SYS_UART_TX */
|
||
676 | gpio_init.GPIO_Pin = SYS_UART_TX_PIN; |
||
677 | GPIO_Init(SYS_UART_TX_GPIO, &gpio_init); |
||
678 | |||
679 | /* configure all SYS_SPI signals */
|
||
680 | gpio_init.GPIO_Pin = SYS_SPI_SS0_N_PIN; |
||
681 | GPIO_Init(SYS_SPI_SS0_N_GPIO, &gpio_init); |
||
682 | gpio_init.GPIO_Pin = SYS_SPI_SCLK_PIN; |
||
683 | GPIO_Init(SYS_SPI_SCLK_GPIO, &gpio_init); |
||
684 | gpio_init.GPIO_Pin = SYS_SPI_MISO_PIN; |
||
685 | GPIO_Init(SYS_SPI_MISO_GPIO, &gpio_init); |
||
686 | gpio_init.GPIO_Pin = SYS_SPI_MOSI_PIN; |
||
687 | GPIO_Init(SYS_SPI_MOSI_GPIO, &gpio_init); |
||
688 | gpio_init.GPIO_Pin = SYS_SPI_SS1_N_PIN; |
||
689 | GPIO_Init(SYS_SPI_SS1_N_GPIO, &gpio_init); |
||
690 | gpio_init.GPIO_Pin = SYS_SPI_DIR_PIN; |
||
691 | GPIO_Init(SYS_SPI_DIR_GPIO, &gpio_init); |
||
692 | |||
693 | /* configure CAN_TX */
|
||
694 | gpio_init.GPIO_Pin = CAN_TX_PIN; |
||
695 | GPIO_Init(CAN_TX_GPIO, &gpio_init); |
||
696 | |||
697 | /* configure all Bluetooth signals */
|
||
698 | gpio_init.GPIO_Pin = BT_CTS_PIN; |
||
699 | GPIO_Init(BT_CTS_GPIO, &gpio_init); |
||
700 | gpio_init.GPIO_Pin = BT_RX_PIN; |
||
701 | GPIO_Init(BT_RX_GPIO, &gpio_init); |
||
702 | |||
703 | return;
|
||
704 | } /*** end of configGpioForShutdown ***/
|
||
705 | |||
706 | /*
|
||
707 | * Disables all regulated voltages and finally cuts power to the rest of the system.
|
||
708 | */
|
||
709 | 2b9a14a2 | Thomas Schöpping | void systemPowerDown(void) { |
710 | a270d48f | Thomas Schöpping | setLed(BLT_TRUE); |
711 | |||
712 | /* make sure that all other modules are shut down */
|
||
713 | msleep(10);
|
||
714 | |||
715 | /* reset slave modules */
|
||
716 | GPIO_ResetBits(SYS_WARMRST_N_GPIO, SYS_WARMRST_N_PIN); |
||
717 | |||
718 | /* disable voltage regulators */
|
||
719 | GPIO_ResetBits(SYS_REG_EN_GPIO, SYS_REG_EN_PIN); |
||
720 | |||
721 | /* cut power */
|
||
722 | GPIO_ResetBits(POWER_EN_GPIO, POWER_EN_PIN); |
||
723 | |||
724 | /* make sure, all capacitors are discharged */
|
||
725 | msleep(100);
|
||
726 | |||
727 | setLed(BLT_FALSE); |
||
728 | |||
729 | return;
|
||
730 | } /*** end of systemPowerDown ***/
|
||
731 | |||
732 | /*
|
||
733 | * Cofigures the independent watchdog (IWDG) to fire after the specified time when it is enabled.
|
||
734 | * The argument is the requested time in milliseconds.
|
||
735 | * The time that was actually set for the IWDG is returned by the function (again in milliseconds).
|
||
736 | * In some cases the returned value might differ from the requested one, but if so, it will alwyas be smaller.
|
||
737 | * Although the IWDG provides higher resolutions than milliseconds, these are not supported by this function.
|
||
738 | */
|
||
739 | uint16_t configIwdg(const uint16_t ms) {
|
||
740 | /* apply an upper bound to the ms argument */
|
||
741 | uint16_t ms_capped = (ms >= 0x8000) ? 0x7FFF : ms; |
||
742 | |||
743 | /* detect the best fitting prescaler and compute the according reload value */
|
||
744 | uint8_t prescaler = 0;
|
||
745 | uint16_t reload_val = 0;
|
||
746 | if (ms_capped >= 0x4000) { |
||
747 | prescaler = IWDG_Prescaler_256; |
||
748 | reload_val = ms_capped >> 3; // note: this corresponds to a floor function |
||
749 | ms_capped = reload_val << 3; // this applies the floor function to ms_capped |
||
750 | } else if (ms_capped >= 0x2000) { |
||
751 | prescaler = IWDG_Prescaler_128; |
||
752 | reload_val = ms_capped >> 2; // note: this corresponds to a floor function |
||
753 | ms_capped = reload_val << 2; // this applies the floor function to ms_capped |
||
754 | } else if (ms_capped >= 0x1000) { |
||
755 | ms_capped &= ~(0x0001);
|
||
756 | prescaler = IWDG_Prescaler_64; |
||
757 | reload_val = ms_capped >> 1; // note: this corresponds to a floor function |
||
758 | ms_capped = reload_val << 1; // this applies the floor function to ms_capped |
||
759 | } else {
|
||
760 | prescaler = IWDG_Prescaler_32; |
||
761 | reload_val = ms_capped; |
||
762 | } |
||
763 | |||
764 | /* configure the IWDG */
|
||
765 | if (reload_val > 0) { |
||
766 | IWDG_WriteAccessCmd(IWDG_WriteAccess_Enable); |
||
767 | IWDG_SetPrescaler(prescaler); |
||
768 | IWDG_SetReload(reload_val); |
||
769 | IWDG_WriteAccessCmd(IWDG_WriteAccess_Disable); |
||
770 | } |
||
771 | |||
772 | return ms_capped;
|
||
773 | } /*** end of configIWDG ***/
|
||
774 | |||
775 | /*
|
||
776 | * System was reset via the NRST pin or the reason could not be detected.
|
||
777 | * In this case, everything is started up.
|
||
778 | * If an attempt for an OS update is detected, flashing mode is entered.
|
||
779 | * Otherwise, the system will boot the OS.
|
||
780 | */
|
||
781 | 2b9a14a2 | Thomas Schöpping | ErrorStatus handleColdReset(void) {
|
782 | a270d48f | Thomas Schöpping | /* activate system power and wait some time to ensure stable voltages */
|
783 | setLed(BLT_TRUE); |
||
784 | GPIO_SetBits(POWER_EN_GPIO, POWER_EN_PIN); |
||
785 | msleep(10);
|
||
786 | GPIO_SetBits(SYS_REG_EN_GPIO, SYS_REG_EN_PIN); |
||
787 | msleep(10);
|
||
788 | setLed(BLT_FALSE); |
||
789 | |||
790 | /* drive SYS_WARMRST_N high (inactive) */
|
||
791 | GPIO_SetBits(SYS_WARMRST_N_GPIO, SYS_WARMRST_N_PIN); |
||
792 | |||
793 | /* enable CAN clock
|
||
794 | * Note that CAN1 shares reception filters with CAN1 so for CAN2 the CAN1 peripheral also needs to be enabled. */
|
||
795 | RCC_APB1PeriphClockCmd(RCC_APB1Periph_CAN2 | RCC_APB1Periph_CAN1, ENABLE); |
||
796 | |||
797 | /* wait 1ms to make sure that all modules are running and started the bootloader */
|
||
798 | msleep(1);
|
||
799 | |||
800 | /* initialize the bootloader */
|
||
801 | BootInit(); |
||
802 | |||
803 | /* start the infinite program loop */
|
||
804 | uint32_t loopStartTime = 0;
|
||
805 | saTimerUpdate(&loopStartTime); |
||
806 | uint32_t currentTime = loopStartTime; |
||
807 | while (1) |
||
808 | { |
||
809 | // /* make the LED "double-blink" */
|
||
810 | // saTimerUpdate(¤tTime);
|
||
811 | // if (currentTime < loopStartTime + 50) {
|
||
812 | // setLed(BLT_TRUE);
|
||
813 | // } else if (currentTime < loopStartTime + 50+100) {
|
||
814 | // setLed(BLT_FALSE);
|
||
815 | // } else if (currentTime < loopStartTime + 50+100+50) {
|
||
816 | // setLed(BLT_TRUE);
|
||
817 | // } else if (currentTime < loopStartTime + 50+100+50+300) {
|
||
818 | // setLed(BLT_FALSE);
|
||
819 | // } else {
|
||
820 | // loopStartTime = currentTime;
|
||
821 | // }
|
||
822 | |||
823 | /* run the bootloader task */
|
||
824 | BootTask(); |
||
825 | |||
826 | /* check the SYS_PD_N signal */
|
||
827 | if (GPIO_ReadInputDataBit(SYS_PD_N_GPIO, SYS_PD_N_PIN) == Bit_RESET) {
|
||
828 | blCallbackHandleShutdownRequest(); |
||
829 | return SUCCESS;
|
||
830 | } |
||
831 | } |
||
832 | |||
833 | return ERROR;
|
||
834 | } /*** end of handleColdReset ***/
|
||
835 | |||
836 | /*
|
||
837 | * System was reset by software.
|
||
838 | * Depending on the argument, which was read from the 1st backup register (see main function) the effect of this function differs.
|
||
839 | * There are three cases that can occur:
|
||
840 | * - The system was reset to enter hibernate mode.
|
||
841 | * In this case the system will enter a medium power saving mode (hibernate mode), but can be charged via the charging pins.
|
||
842 | * The system can be woken up in the same way as in deepsleep mode (cf. blCallbackShutdownDeepsleep() function).
|
||
843 | * - The system was reset to reboot.
|
||
844 | * In this case the system will restart in the same way as after a cold reset.
|
||
845 | * - The reason is unknown.
|
||
846 | * This case will cause an error.
|
||
847 | */
|
||
848 | 2b9a14a2 | Thomas Schöpping | ErrorStatus handleSoftwareReset(void) {
|
849 | a270d48f | Thomas Schöpping | /* action depends on original shutdown reason */
|
850 | switch (backup_reg.shutdown_pri_reason) {
|
||
851 | case BL_SHUTDOWN_PRI_RSN_HIBERNATE:
|
||
852 | { |
||
853 | /* activate the WKUP pin */
|
||
854 | PWR_WakeUpPinCmd(ENABLE); |
||
855 | |||
856 | /* deactivate any RTC related events */
|
||
857 | RTC_WakeUpCmd(DISABLE); |
||
858 | RTC_TamperCmd(RTC_Tamper_1, DISABLE); |
||
859 | RTC_TimeStampCmd(RTC_TimeStampEdge_Rising, DISABLE); |
||
860 | RTC_TimeStampCmd(RTC_TimeStampEdge_Falling, DISABLE); |
||
861 | |||
862 | /* configure the IWDG to wake the system from standby mode */
|
||
863 | uint16_t iwdg_ms = 1;
|
||
864 | if (GPIO_ReadInputDataBit(PATH_DC_GPIO, PATH_DC_PIN) != Bit_SET) {
|
||
865 | /* if a power plug is detected, fire immediately (1ms), else fire after the defined hibernate time */
|
||
866 | iwdg_ms = HIBERNATE_TIME_MS; |
||
867 | } |
||
868 | configIwdg(iwdg_ms); |
||
869 | IWDG_Enable(); |
||
870 | |||
871 | /* enter standby mode */
|
||
872 | PWR_EnterSTANDBYMode(); |
||
873 | |||
874 | return SUCCESS;
|
||
875 | break;
|
||
876 | } |
||
877 | case BL_SHUTDOWN_PRI_RSN_RESTART:
|
||
878 | { |
||
879 | return handleColdReset();
|
||
880 | break;
|
||
881 | } |
||
882 | case BL_SHUTDOWN_PRI_RSN_DEEPSLEEP:
|
||
883 | { |
||
884 | if (GPIO_ReadInputDataBit(PATH_DC_GPIO, PATH_DC_PIN) == Bit_SET) {
|
||
885 | return handlePathDcWakeup();
|
||
886 | } else {
|
||
887 | blCallbackShutdownDeepsleep(); |
||
888 | } |
||
889 | break;
|
||
890 | } |
||
891 | default:
|
||
892 | return ERROR;
|
||
893 | } |
||
894 | return ERROR;
|
||
895 | } /*** end of handleSoftwareReset ***/
|
||
896 | |||
897 | /*
|
||
898 | * System was woken up via the WKUP pin and the SYS_UART_DN signal was found to be responsible.
|
||
899 | * In this case, the system starts as after a cold reset.
|
||
900 | * this function is identical to handleTouchWakeup().
|
||
901 | */
|
||
902 | 2b9a14a2 | Thomas Schöpping | ErrorStatus handleUartDnWakeup(void) {
|
903 | a270d48f | Thomas Schöpping | return handleColdReset();
|
904 | } /*** end of hanldeUartDnWakeup ***/
|
||
905 | |||
906 | /*
|
||
907 | * System was woken up via the WKUP pin and the PATH_DC signal was found to be responsible.
|
||
908 | * If the system was woken from deepsleep mode, it will enter hibernate mode to enable charging as long as the power plug is present.
|
||
909 | * In any other case, the system will just enter the previous low-power mode again.
|
||
910 | */
|
||
911 | 2b9a14a2 | Thomas Schöpping | ErrorStatus handlePathDcWakeup(void) {
|
912 | a270d48f | Thomas Schöpping | /* reenter the previous low-power mode */
|
913 | switch (backup_reg.shutdown_pri_reason) {
|
||
914 | case BL_SHUTDOWN_PRI_RSN_HIBERNATE:
|
||
915 | blCallbackShutdownHibernate(); |
||
916 | return SUCCESS;
|
||
917 | break;
|
||
918 | case BL_SHUTDOWN_PRI_RSN_DEEPSLEEP:
|
||
919 | /* visualize that the power plug was detected
|
||
920 | * This is helpful for feedback, and required for the follwing reason:
|
||
921 | * When the power plug is detected, it takes some additional time for the ADC to detect a high voltage.
|
||
922 | * If the ADC detects a low voltage at the first attempt, the system will enter hibernate mode.
|
||
923 | * Thus, the ADC will measure the voltage again after several seconds and charging will start.
|
||
924 | * However, this behaviour does not meet the user expection.
|
||
925 | * Hence, the voltage has some to adapt at this point
|
||
926 | */
|
||
927 | setLed(BLT_TRUE); |
||
928 | msleep(500);
|
||
929 | setLed(BLT_FALSE); |
||
930 | |||
931 | return handleIwdgWakeup();
|
||
932 | break;
|
||
933 | case BL_SHUTDOWN_PRI_RSN_TRANSPORT:
|
||
934 | blCallbackShutdownTransportation(); |
||
935 | return SUCCESS;
|
||
936 | break;
|
||
937 | default:
|
||
938 | return ERROR;
|
||
939 | break;
|
||
940 | } |
||
941 | |||
942 | return ERROR;
|
||
943 | } /*** end of handlePathDcWakeup ***/
|
||
944 | |||
945 | /*
|
||
946 | * System was woken up via the WKUP pin and the touch sensors were found to be responsible.
|
||
947 | * In this case the system starts as after an cold reset.
|
||
948 | * This function is identical to handleUartDnWakeup().
|
||
949 | */
|
||
950 | 2b9a14a2 | Thomas Schöpping | ErrorStatus handleTouchWakeup(void) {
|
951 | a270d48f | Thomas Schöpping | return handleColdReset();
|
952 | } /*** end of handleTouchWakeup ***/
|
||
953 | |||
954 | /*
|
||
955 | * System was woken up via the IWDG.
|
||
956 | * In this case the ADC is configured and VSYS is measured once.
|
||
957 | * If VSYS is found to be high enough to charge the batteries, the system will stay active until VSYS drops or an EXTI event occurs.
|
||
958 | * Otherwise, the system will configure the IWDG to wake the system again after five seconds and enter standby mode.
|
||
959 | */
|
||
960 | 2b9a14a2 | Thomas Schöpping | ErrorStatus handleIwdgWakeup(void) {
|
961 | a270d48f | Thomas Schöpping | /* handle different situations, depending on the backup data */
|
962 | if ((backup_reg.shutdown_pri_reason == BL_SHUTDOWN_PRI_RSN_HIBERNATE) ||
|
||
963 | (backup_reg.shutdown_pri_reason == BL_SHUTDOWN_PRI_RSN_DEEPSLEEP)) { |
||
964 | /* handle periodic wakeup in hibernate mode and in deepsleep mode when a power plug was detetced */
|
||
965 | |||
966 | /* if in hibernate mode, indicate the DiWheelDrive to enter hibernate mode as well, so it will activate the charging pins */
|
||
967 | if (backup_reg.shutdown_pri_reason == BL_SHUTDOWN_PRI_RSN_HIBERNATE) {
|
||
968 | indicateHibernate(); |
||
969 | } |
||
970 | |||
971 | /* measure the current voltage of VSYS */
|
||
972 | AdcSingleMeasurement(); |
||
973 | |||
974 | /* evaluate the value
|
||
975 | * The ADC value represents the analog voltage between Vref- (= GND = 0.0V) and Vref+ (= VDD = 3.3V) as 12-bit value.
|
||
976 | * Hence, the value read from the register is first scaled to [0V .. 3.3V].
|
||
977 | * Then, an additional factor 5.33 is applied to account the downscaling on the board.
|
||
978 | * Actually, the factor should be 5.0, but due to too large resistors it was corrected to 5.33.
|
||
979 | */
|
||
980 | if ( (((float)(ADC_GetConversionValue(ADC1)) / (float)(0x0FFF)) * 3.3f * 5.33f) < 9.0f ) { |
||
981 | /* VSYS was found to be < 9V */
|
||
982 | |||
983 | /* re-enter power saving mode
|
||
984 | * If the system was shut down to deepsleep mode and the power plug was removed, re-enter deepsleep mode.
|
||
985 | * (This could be done earlier in this function, but since charging via the pins of the DeWheelDrive may be
|
||
986 | * supported in the future, this is done after measuring VSYS)
|
||
987 | */
|
||
988 | if (backup_reg.shutdown_pri_reason == BL_SHUTDOWN_PRI_RSN_DEEPSLEEP &&
|
||
989 | GPIO_ReadInputDataBit(PATH_DC_GPIO, PATH_DC_PIN) == Bit_RESET) { |
||
990 | blCallbackShutdownDeepsleep(); |
||
991 | } else {
|
||
992 | /* reconfigure the IWDG and power down for five seconds */
|
||
993 | configIwdg(HIBERNATE_TIME_MS); |
||
994 | IWDG_Enable(); |
||
995 | |||
996 | /* enter standby mode */
|
||
997 | PWR_EnterSTANDBYMode(); |
||
998 | } |
||
999 | |||
1000 | return SUCCESS;
|
||
1001 | } else {
|
||
1002 | /* VSYS was found to be >= 9V */
|
||
1003 | setLed(BLT_TRUE); |
||
1004 | |||
1005 | /* charge the battieries */
|
||
1006 | GPIO_ResetBits(CHARGE_EN1_N_GPIO, CHARGE_EN1_N_PIN); |
||
1007 | GPIO_ResetBits(CHARGE_EN2_N_GPIO, CHARGE_EN2_N_PIN); |
||
1008 | |||
1009 | /* configure analog watchdoch to fire as soon as the voltage drops below 9V */
|
||
1010 | ADC_DeInit(); |
||
1011 | setupADC(ADC1, (uint16_t)(9.0f / 5.33f / 3.3f * (float)0x0FFF), 0x0FFF); |
||
1012 | |||
1013 | EXTI_InitTypeDef exti; |
||
1014 | /* configure UART_DN EXTI */
|
||
1015 | exti.EXTI_Line = EXTI_Line3; |
||
1016 | exti.EXTI_Mode = EXTI_Mode_Interrupt; |
||
1017 | exti.EXTI_Trigger = EXTI_Trigger_Falling; |
||
1018 | exti.EXTI_LineCmd = ENABLE; |
||
1019 | EXTI_Init(&exti); |
||
1020 | |||
1021 | /* configure TOUCH_INT_N EXTI */
|
||
1022 | exti.EXTI_Line = EXTI_Line5; |
||
1023 | exti.EXTI_Mode = EXTI_Mode_Interrupt; |
||
1024 | exti.EXTI_Trigger = EXTI_Trigger_Falling; |
||
1025 | exti.EXTI_LineCmd = ENABLE; |
||
1026 | EXTI_Init(&exti); |
||
1027 | |||
1028 | /* configure PATH_DC EXTI */
|
||
1029 | if (backup_reg.shutdown_pri_reason == BL_SHUTDOWN_PRI_RSN_DEEPSLEEP) {
|
||
1030 | exti.EXTI_Line = EXTI_Line8; |
||
1031 | exti.EXTI_Mode = EXTI_Mode_Interrupt; |
||
1032 | exti.EXTI_Trigger = EXTI_Trigger_Falling; |
||
1033 | exti.EXTI_LineCmd = ENABLE; |
||
1034 | EXTI_Init(&exti); |
||
1035 | } |
||
1036 | |||
1037 | /* configure the NVIC so ADC and EXTI will be handled */
|
||
1038 | NVIC_InitTypeDef nvic; |
||
1039 | nvic.NVIC_IRQChannel = ADC_IRQn; |
||
1040 | nvic.NVIC_IRQChannelPreemptionPriority = 6;
|
||
1041 | nvic.NVIC_IRQChannelSubPriority = 6;
|
||
1042 | nvic.NVIC_IRQChannelCmd = ENABLE; |
||
1043 | NVIC_Init(&nvic); |
||
1044 | nvic.NVIC_IRQChannel = EXTI3_IRQn; |
||
1045 | nvic.NVIC_IRQChannelPreemptionPriority = 6;
|
||
1046 | nvic.NVIC_IRQChannelSubPriority = 6;
|
||
1047 | nvic.NVIC_IRQChannelCmd = ENABLE; |
||
1048 | NVIC_Init(&nvic); |
||
1049 | NVIC_EnableIRQ(EXTI3_IRQn); |
||
1050 | nvic.NVIC_IRQChannel = EXTI9_5_IRQn; |
||
1051 | nvic.NVIC_IRQChannelPreemptionPriority = 6;
|
||
1052 | nvic.NVIC_IRQChannelSubPriority = 6;
|
||
1053 | nvic.NVIC_IRQChannelCmd = ENABLE; |
||
1054 | NVIC_Init(&nvic); |
||
1055 | NVIC_EnableIRQ(EXTI9_5_IRQn); |
||
1056 | |||
1057 | /* activate the ADC */
|
||
1058 | ADC_SoftwareStartConv(ADC1); |
||
1059 | |||
1060 | /* sleep until something happens */
|
||
1061 | __WFI(); |
||
1062 | |||
1063 | /* disable the chargers */
|
||
1064 | GPIO_SetBits(CHARGE_EN1_N_GPIO, CHARGE_EN1_N_PIN); |
||
1065 | GPIO_SetBits(CHARGE_EN2_N_GPIO, CHARGE_EN2_N_PIN); |
||
1066 | setLed(BLT_FALSE); |
||
1067 | |||
1068 | /* evaluate wakeup reason */
|
||
1069 | // note: since I (tschoepp) don't know the difference between 'pending' and 'active' IRQs, both flags are ORed.
|
||
1070 | uint8_t wkup_rsn = BL_WAKEUP_SEC_RSN_UNKNOWN; |
||
1071 | if ((NVIC_GetActive(ADC_IRQn) != 0 || NVIC_GetPendingIRQ(ADC_IRQn) != 0) && |
||
1072 | ADC_GetITStatus(ADC1, ADC_IT_AWD) == SET && |
||
1073 | ADC_GetFlagStatus(ADC1, ADC_FLAG_AWD) == SET) { |
||
1074 | wkup_rsn |= BL_WAKEUP_SEC_RSN_VSYSLOW; |
||
1075 | } |
||
1076 | if ((NVIC_GetActive(EXTI3_IRQn) != 0 || NVIC_GetPendingIRQ(EXTI3_IRQn) != 0) && |
||
1077 | EXTI_GetFlagStatus(EXTI_Line3) == SET) { |
||
1078 | wkup_rsn |= BL_WAKEUP_SEC_RSN_UART; |
||
1079 | } |
||
1080 | if ((NVIC_GetActive(EXTI9_5_IRQn) != 0 || NVIC_GetPendingIRQ(EXTI9_5_IRQn) != 0) && |
||
1081 | EXTI_GetFlagStatus(EXTI_Line5) == SET) { |
||
1082 | wkup_rsn |= BL_WAKEUP_SEC_RSN_TOUCH; |
||
1083 | } |
||
1084 | if ((NVIC_GetActive(EXTI9_5_IRQn) != 0 || NVIC_GetPendingIRQ(EXTI9_5_IRQn) != 0) && |
||
1085 | EXTI_GetFlagStatus(EXTI_Line8) == SET) { |
||
1086 | wkup_rsn |= BL_WAKEUP_SEC_RSN_PWRPLUG; |
||
1087 | } |
||
1088 | |||
1089 | /* since only the first interrupt will be handles, clear any pending ones */
|
||
1090 | NVIC_DisableIRQ(ADC_IRQn); |
||
1091 | NVIC_DisableIRQ(EXTI3_IRQn); |
||
1092 | NVIC_DisableIRQ(EXTI9_5_IRQn); |
||
1093 | NVIC_ClearPendingIRQ(ADC_IRQn); |
||
1094 | NVIC_ClearPendingIRQ(EXTI3_IRQn); |
||
1095 | NVIC_ClearPendingIRQ(EXTI9_5_IRQn); |
||
1096 | |||
1097 | /* clear all pending EXTI events */
|
||
1098 | EXTI_DeInit(); |
||
1099 | EXTI_ClearFlag(EXTI_Line3); |
||
1100 | EXTI_ClearFlag(EXTI_Line5); |
||
1101 | EXTI_ClearFlag(EXTI_Line8); |
||
1102 | |||
1103 | /* make sure the LED was visibly turned off */
|
||
1104 | msleep(100);
|
||
1105 | |||
1106 | /* depending on the wakup reason, handle accordingly */
|
||
1107 | if (wkup_rsn & BL_WAKEUP_SEC_RSN_TOUCH) {
|
||
1108 | /* the system was interrupted via the TOUCH_INT_N signal */
|
||
1109 | |||
1110 | /* act as if this was a normal touch wakeup */
|
||
1111 | backup_reg.wakeup_pri_reason = BL_WAKEUP_PRI_RSN_WKUP; |
||
1112 | backup_reg.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_TOUCH; |
||
1113 | RTC_WriteBackupRegister(BL_RTC_BACKUP_REG, backup_reg.raw); |
||
1114 | return handleTouchWakeup();
|
||
1115 | } else if (wkup_rsn & BL_WAKEUP_SEC_RSN_UART) { |
||
1116 | /* the system was interrupted via the SYS_UARTDN signal */
|
||
1117 | |||
1118 | /* act as if this was a normal UART wakeup */
|
||
1119 | backup_reg.wakeup_pri_reason = BL_WAKEUP_PRI_RSN_WKUP; |
||
1120 | backup_reg.wakeup_sec_reason = BL_WAKEUP_SEC_RSN_UART; |
||
1121 | RTC_WriteBackupRegister(BL_RTC_BACKUP_REG, backup_reg.raw); |
||
1122 | return handleUartDnWakeup();
|
||
1123 | } else if (wkup_rsn & BL_WAKEUP_SEC_RSN_VSYSLOW) { |
||
1124 | /* VSYS has dropped below 9V */
|
||
1125 | |||
1126 | /* depending on the original reason for shutdown, act differenty */
|
||
1127 | switch (backup_reg.shutdown_pri_reason) {
|
||
1128 | case BL_SHUTDOWN_PRI_RSN_HIBERNATE:
|
||
1129 | { |
||
1130 | blCallbackShutdownHibernate(); |
||
1131 | return SUCCESS;
|
||
1132 | } |
||
1133 | case BL_SHUTDOWN_PRI_RSN_DEEPSLEEP:
|
||
1134 | { |
||
1135 | NVIC_SystemReset(); |
||
1136 | return SUCCESS;
|
||
1137 | } |
||
1138 | default:
|
||
1139 | return ERROR;
|
||
1140 | } |
||
1141 | } else if (wkup_rsn & BL_WAKEUP_SEC_RSN_PWRPLUG) { |
||
1142 | /* system was interrupted because the power plug was removed
|
||
1143 | * note: when a power cord is plugged in, this will not trigger an interrupt because the NVIC is configured for a falling edge only */
|
||
1144 | if (backup_reg.shutdown_pri_reason == BL_SHUTDOWN_PRI_RSN_DEEPSLEEP) {
|
||
1145 | blCallbackShutdownDeepsleep(); |
||
1146 | return SUCCESS;
|
||
1147 | } else {
|
||
1148 | /* this state is undefined, because the PATH_DC inerrupt is only configured when the primary shutdown reason was to enter deepsleep mode */
|
||
1149 | return ERROR;
|
||
1150 | } |
||
1151 | } else {
|
||
1152 | /* the system was interrupted for an unknown reason */
|
||
1153 | return ERROR;
|
||
1154 | } |
||
1155 | } // end of ADC evaluation
|
||
1156 | } else {
|
||
1157 | /* since it is unknown why the IWDG was configured, act as after a cold reset */
|
||
1158 | return handleColdReset();
|
||
1159 | } |
||
1160 | |||
1161 | return ERROR;
|
||
1162 | } /*** end of handleIwdgWakeup ***/
|
||
1163 | |||
1164 | /*
|
||
1165 | * Indicates the DiWheelDrive module to enter hibernate mode at wakeup.
|
||
1166 | * This function should be called quite at the beginning of the according handleXXXReset/Wakeup() methods.
|
||
1167 | */
|
||
1168 | 2b9a14a2 | Thomas Schöpping | static void indicateHibernate(void) { |
1169 | a270d48f | Thomas Schöpping | /* signal the DiWheelDrive to enter hibernate mode as well, so it will activate the charging pins */
|
1170 | GPIO_ResetBits(SYS_UART_DN_GPIO, SYS_UART_DN_PIN); |
||
1171 | msleep(10); // this must be that long, because the DiWheelDrive sleeps some time before evaluating any signals |
||
1172 | GPIO_SetBits(SYS_UART_DN_GPIO, SYS_UART_DN_PIN); |
||
1173 | |||
1174 | /* if the DiWheeDrive needs some time for setup it may pull down the signal */
|
||
1175 | waitForSignal(SYS_UART_DN_GPIO, SYS_UART_DN_PIN, Bit_SET); |
||
1176 | |||
1177 | return;
|
||
1178 | } /*** end of indicateHibernate ***/
|
||
1179 | |||
1180 | /*
|
||
1181 | *Performs a one-shot measurement of the VSYS voltage.
|
||
1182 | */
|
||
1183 | 2b9a14a2 | Thomas Schöpping | static void AdcSingleMeasurement(void) { |
1184 | a270d48f | Thomas Schöpping | /* reset and initialize ADC for single-shot measurement */
|
1185 | // ADC_DeInit();
|
||
1186 | setupADC(ADC1, 0, 0); |
||
1187 | |||
1188 | /* initialize the NVIC so ADC interrupts are handled */
|
||
1189 | NVIC_InitTypeDef nvic; |
||
1190 | nvic.NVIC_IRQChannel = ADC_IRQn; |
||
1191 | nvic.NVIC_IRQChannelPreemptionPriority = 6;
|
||
1192 | nvic.NVIC_IRQChannelSubPriority = 6;
|
||
1193 | nvic.NVIC_IRQChannelCmd = ENABLE; |
||
1194 | NVIC_Init(&nvic); |
||
1195 | |||
1196 | /* measure the voltage once */
|
||
1197 | setLed(BLT_TRUE); |
||
1198 | ADC_ClearITPendingBit(ADC1, ADC_IT_EOC); |
||
1199 | ADC_ClearFlag(ADC1, ADC_FLAG_EOC); |
||
1200 | NVIC_EnableIRQ(ADC_IRQn); |
||
1201 | ADC_SoftwareStartConv(ADC1); |
||
1202 | while (ADC_GetITStatus(ADC1, ADC_IT_EOC) != SET && ADC_GetFlagStatus(ADC1, ADC_FLAG_EOC) != SET) {
|
||
1203 | __WFI(); |
||
1204 | } |
||
1205 | NVIC_DisableIRQ(ADC_IRQn); |
||
1206 | ADC_ClearITPendingBit(ADC1, ADC_IT_EOC); |
||
1207 | ADC_ClearFlag(ADC1, ADC_FLAG_EOC); |
||
1208 | NVIC_ClearPendingIRQ(ADC_IRQn); |
||
1209 | setLed(BLT_FALSE); |
||
1210 | |||
1211 | return;
|
||
1212 | } /*** end of AdcSingleMeasurement ***/
|
||
1213 | |||
1214 | /*
|
||
1215 | * Configures the ADC for measuring VSYS.
|
||
1216 | * ADCx is the ADC object to initialize.
|
||
1217 | * low_th and high_th are the threshold values for the analog watchdor (must be 12-bit!).
|
||
1218 | * If low_th >= high_th, the ADC is configured for single-shot measurements.
|
||
1219 | * Otherwise, the watchdog is configured with the corresponding thresholds.
|
||
1220 | */
|
||
1221 | ADC_TypeDef* setupADC(ADC_TypeDef* adc, const uint16_t low_th, const uint16_t high_th) { |
||
1222 | /* evaluate the arguments */
|
||
1223 | blt_bool awd_enable = BLT_FALSE; |
||
1224 | if (low_th < high_th) {
|
||
1225 | awd_enable = BLT_TRUE; |
||
1226 | } |
||
1227 | |||
1228 | /* enable the clock */
|
||
1229 | RCC_APB2PeriphClockCmd(RCC_APB2Periph_ADC1, ENABLE); |
||
1230 | |||
1231 | /* enable the ADC (wakes it from low-power mode) */
|
||
1232 | ADC_Cmd(adc, ENABLE); |
||
1233 | |||
1234 | /* initialize the common registers */
|
||
1235 | ADC_CommonInitTypeDef adc_cinit; |
||
1236 | ADC_CommonStructInit(&adc_cinit); |
||
1237 | adc_cinit.ADC_Prescaler = ADC_Prescaler_Div8; // clock as slow as possible
|
||
1238 | ADC_CommonInit(&adc_cinit); |
||
1239 | |||
1240 | /* initialize the ADC */
|
||
1241 | ADC_InitTypeDef adc_init; |
||
1242 | ADC_StructInit(&adc_init); |
||
1243 | adc_init.ADC_ContinuousConvMode = (awd_enable == BLT_TRUE) ? ENABLE : DISABLE; |
||
1244 | ADC_Init(adc, &adc_init); |
||
1245 | |||
1246 | /* disable internal sensors */
|
||
1247 | ADC_TempSensorVrefintCmd(DISABLE); |
||
1248 | ADC_VBATCmd(DISABLE); |
||
1249 | |||
1250 | /* configure ADC channel and speed */
|
||
1251 | ADC_RegularChannelConfig(adc, ADC_Channel_9, 1, ADC_SampleTime_480Cycles);
|
||
1252 | ADC_EOCOnEachRegularChannelCmd(adc, (awd_enable == BLT_TRUE) ? DISABLE : ENABLE); |
||
1253 | ADC_DiscModeCmd(adc, DISABLE); |
||
1254 | |||
1255 | /* disable DMA */
|
||
1256 | ADC_DMACmd(adc, DISABLE); |
||
1257 | |||
1258 | /* disable injected mode */
|
||
1259 | ADC_AutoInjectedConvCmd(adc, DISABLE); |
||
1260 | ADC_InjectedDiscModeCmd(adc, DISABLE); |
||
1261 | |||
1262 | /* configure the analog watchdog */
|
||
1263 | if (awd_enable == BLT_TRUE) {
|
||
1264 | ADC_AnalogWatchdogSingleChannelConfig(adc, ADC_Channel_9); |
||
1265 | ADC_AnalogWatchdogThresholdsConfig(adc, high_th, low_th); |
||
1266 | ADC_AnalogWatchdogCmd(adc, ADC_AnalogWatchdog_SingleRegEnable); |
||
1267 | } else {
|
||
1268 | ADC_AnalogWatchdogCmd(adc, ADC_AnalogWatchdog_None); |
||
1269 | } |
||
1270 | |||
1271 | /* configure the interrupts to be generated by the ADC */
|
||
1272 | ADC_ITConfig(adc, ADC_IT_EOC, (awd_enable == BLT_TRUE) ? DISABLE : ENABLE); |
||
1273 | ADC_ITConfig(adc, ADC_IT_AWD, (awd_enable == BLT_TRUE) ? ENABLE : DISABLE); |
||
1274 | ADC_ITConfig(adc, ADC_IT_JEOC, DISABLE); |
||
1275 | ADC_ITConfig(adc, ADC_IT_OVR, DISABLE); |
||
1276 | |||
1277 | return adc;
|
||
1278 | } |
||
1279 | |||
1280 | /*
|
||
1281 | * Callback function that handles the system shutdown and enters transportation mode.
|
||
1282 | * When called from a multithreaded environment, it must be ensured that no other thread will preempt this function.
|
||
1283 | * In transportation low-power mode the system can only be woken up by pulling down the NRST signal.
|
||
1284 | * Furthermore, the system can not be charged when in transportation mode.
|
||
1285 | */
|
||
1286 | void blCallbackShutdownTransportation(void) { |
||
1287 | /* make sure that the required clocks are activated */
|
||
1288 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA | RCC_AHB1Periph_GPIOB | RCC_AHB1Periph_GPIOC | RCC_AHB1Periph_GPIOD, ENABLE); |
||
1289 | RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, ENABLE); |
||
1290 | |||
1291 | /* set/keep the SYS_SYNC and SYS_PD signals active */
|
||
1292 | GPIO_ResetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
1293 | GPIO_ResetBits(SYS_PD_N_GPIO, SYS_PD_N_PIN); |
||
1294 | |||
1295 | /* initialized the standalone timer */
|
||
1296 | saTimerInit(); |
||
1297 | |||
1298 | setLed(BLT_TRUE); |
||
1299 | |||
1300 | /* wait for all boards to be ready for shutdown */
|
||
1301 | GPIO_SetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
1302 | if (GPIO_ReadOutputDataBit(SYS_REG_EN_GPIO, SYS_REG_EN_PIN) == Bit_SET) {
|
||
1303 | // this must skipped if the pullup voltage (VIO3.3) is not active
|
||
1304 | setLed(BLT_TRUE); |
||
1305 | waitForSignal(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN, Bit_SET); |
||
1306 | setLed(BLT_FALSE); |
||
1307 | } |
||
1308 | |||
1309 | /* execute disambiguation procedure and signal all modules to enter transportation mode */
|
||
1310 | if (shutdownDisambiguationProcedure(BL_SHUTDOWN_PRI_RSN_TRANSPORT) != SUCCESS) {
|
||
1311 | blinkSOS(1);
|
||
1312 | msleep(10);
|
||
1313 | } |
||
1314 | |||
1315 | shutdownToTransportation(); |
||
1316 | |||
1317 | return;
|
||
1318 | fc7151bb | Thomas Schöpping | } /*** end of blCallbackTransportation ***/
|
1319 | a270d48f | Thomas Schöpping | |
1320 | /*
|
||
1321 | * Callback function that handles the system shutdown and enters deepsleep mode.
|
||
1322 | * When called from a multithreaded environment, it must be ensured that no other thread will preempt this function.
|
||
1323 | * In deepsleep low-power mode the system can only be woken up via the NRST or the WKUP signal, or the RTC or IWDG, if configured.
|
||
1324 | * When a power plug is detected, the system will switch to hibernate mode, to provide charging capabilities (cf. handlePathDcWakeup()).
|
||
1325 | * As soon as the plug is removed again, however, the system will return to deppsleep mode (cf. handleIwdgWakeup()).
|
||
1326 | */
|
||
1327 | void blCallbackShutdownDeepsleep(void) { |
||
1328 | /* make sure that the required clocks are activated */
|
||
1329 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA | RCC_AHB1Periph_GPIOB | RCC_AHB1Periph_GPIOC | RCC_AHB1Periph_GPIOD, ENABLE); |
||
1330 | RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, ENABLE); |
||
1331 | |||
1332 | /* set/keep the SYS_SYNC and SYS_PD signals active */
|
||
1333 | GPIO_ResetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
1334 | GPIO_ResetBits(SYS_PD_N_GPIO, SYS_PD_N_PIN); |
||
1335 | |||
1336 | /* initialized the standalone timer */
|
||
1337 | saTimerInit(); |
||
1338 | |||
1339 | setLed(BLT_TRUE); |
||
1340 | |||
1341 | /* wait for all boards to be ready for shutdown */
|
||
1342 | GPIO_SetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
1343 | if (GPIO_ReadOutputDataBit(SYS_REG_EN_GPIO, SYS_REG_EN_PIN) == Bit_SET) {
|
||
1344 | // this must skipped if the pullup voltage (VIO3.3) is not active
|
||
1345 | setLed(BLT_TRUE); |
||
1346 | waitForSignal(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN, Bit_SET); |
||
1347 | setLed(BLT_FALSE); |
||
1348 | } |
||
1349 | |||
1350 | /* execute disambiguation procedure and signal all modules to enter deepsleep mode */
|
||
1351 | if (shutdownDisambiguationProcedure(BL_SHUTDOWN_PRI_RSN_DEEPSLEEP) != SUCCESS) {
|
||
1352 | blinkSOS(1);
|
||
1353 | msleep(10);
|
||
1354 | } |
||
1355 | |||
1356 | shutdownToDeepsleep(); |
||
1357 | |||
1358 | return;
|
||
1359 | fc7151bb | Thomas Schöpping | } /*** end of blCallbackDeepsleep ***/
|
1360 | a270d48f | Thomas Schöpping | |
1361 | /*
|
||
1362 | * Callback function that handles the system shutdown and enters hibernate mode.
|
||
1363 | * When called from a multithreaded environment, it must be ensured that no other thread will preempt this function.
|
||
1364 | * Since this function actually just configures the system in a way, that it will enter hibernate mode after the next reset and rests it,
|
||
1365 | * see the handleSoftwareReset() function for more details about the hibernate low-power mode.
|
||
1366 | */
|
||
1367 | void blCallbackShutdownHibernate(void) { |
||
1368 | /* make sure that the required clocks are activated */
|
||
1369 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA | RCC_AHB1Periph_GPIOB | RCC_AHB1Periph_GPIOC | RCC_AHB1Periph_GPIOD, ENABLE); |
||
1370 | RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, ENABLE); |
||
1371 | |||
1372 | /* set/keep the SYS_SYNC and SYS_PD signals active */
|
||
1373 | GPIO_ResetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
1374 | GPIO_ResetBits(SYS_PD_N_GPIO, SYS_PD_N_PIN); |
||
1375 | |||
1376 | /* initialized the standalone timer */
|
||
1377 | saTimerInit(); |
||
1378 | |||
1379 | setLed(BLT_TRUE); |
||
1380 | |||
1381 | /* wait for all boards to be ready for shutdown */
|
||
1382 | GPIO_SetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
1383 | if (GPIO_ReadOutputDataBit(SYS_REG_EN_GPIO, SYS_REG_EN_PIN) == Bit_SET) {
|
||
1384 | // this must skipped if the pullup voltage (VIO3.3) is not active
|
||
1385 | setLed(BLT_TRUE); |
||
1386 | waitForSignal(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN, Bit_SET); |
||
1387 | setLed(BLT_FALSE); |
||
1388 | } |
||
1389 | |||
1390 | /* execute disambiguation procedure and signal all modules to enter hibernate mode */
|
||
1391 | if (shutdownDisambiguationProcedure(BL_SHUTDOWN_PRI_RSN_DEEPSLEEP) != SUCCESS) {
|
||
1392 | blinkSOS(1);
|
||
1393 | msleep(10);
|
||
1394 | } |
||
1395 | |||
1396 | shutdownToHibernate(); |
||
1397 | |||
1398 | return;
|
||
1399 | fc7151bb | Thomas Schöpping | } /*** end of blCallbackShutdownHibernate ***/
|
1400 | a270d48f | Thomas Schöpping | |
1401 | /*
|
||
1402 | * Callback function that handles the system shutdown and initializes a restart.
|
||
1403 | * When called from a multithreaded environment, it must be ensured that no other thread will preempt this function.
|
||
1404 | * By configuration it is ensured, that the system will end up executing the handleSoftwareReset() function after reset.
|
||
1405 | */
|
||
1406 | void blCallbackShutdownRestart(void) { |
||
1407 | /* make sure that the required clocks are activated */
|
||
1408 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA | RCC_AHB1Periph_GPIOB | RCC_AHB1Periph_GPIOC | RCC_AHB1Periph_GPIOD, ENABLE); |
||
1409 | RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, ENABLE); |
||
1410 | |||
1411 | fc7151bb | Thomas Schöpping | /* set/keep the SYS_SYNC and SYS_PD signals active */
|
1412 | a270d48f | Thomas Schöpping | GPIO_ResetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
1413 | GPIO_ResetBits(SYS_PD_N_GPIO, SYS_PD_N_PIN); |
||
1414 | |||
1415 | /* initialized the standalone timer */
|
||
1416 | saTimerInit(); |
||
1417 | |||
1418 | setLed(BLT_TRUE); |
||
1419 | |||
1420 | /* deactivate SYS_PD_N and ensure that all modules had a chance to detect the falling edge */
|
||
1421 | msleep(1);
|
||
1422 | GPIO_SetBits(SYS_PD_N_GPIO, SYS_PD_N_PIN); |
||
1423 | msleep(1);
|
||
1424 | |||
1425 | /* wait for all boards to be ready for shutdown */
|
||
1426 | GPIO_SetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
1427 | if (GPIO_ReadOutputDataBit(SYS_REG_EN_GPIO, SYS_REG_EN_PIN) == Bit_SET) {
|
||
1428 | // this must skipped if the pullup voltage (VIO3.3) is not active
|
||
1429 | setLed(BLT_TRUE); |
||
1430 | waitForSignal(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN, Bit_SET); |
||
1431 | setLed(BLT_FALSE); |
||
1432 | } |
||
1433 | |||
1434 | /* execute disambiguation procedure and signal all modules to restart normally */
|
||
1435 | if (shutdownDisambiguationProcedure(BL_SHUTDOWN_PRI_RSN_RESTART) != SUCCESS) {
|
||
1436 | blinkSOS(1);
|
||
1437 | msleep(10);
|
||
1438 | } |
||
1439 | |||
1440 | /* restart the system */
|
||
1441 | shutdownAndRestart(); |
||
1442 | |||
1443 | return;
|
||
1444 | fc7151bb | Thomas Schöpping | } /*** end of blCallbackRestart ***/
|
1445 | a270d48f | Thomas Schöpping | |
1446 | /*
|
||
1447 | * Callback function that handles a system shutdown/restart request from another module.
|
||
1448 | * Depending on the result of the disambiguation procedure, the module will enter the according low-power mode or restart.
|
||
1449 | * When called from a multithreaded environment, it must be ensured that no other thread will preempt this function.
|
||
1450 | */
|
||
1451 | void blCallbackHandleShutdownRequest(void) { |
||
1452 | /* make sure that the required clocks are activated */
|
||
1453 | RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA | RCC_AHB1Periph_GPIOB | RCC_AHB1Periph_GPIOC | RCC_AHB1Periph_GPIOD, ENABLE); |
||
1454 | RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, ENABLE); |
||
1455 | |||
1456 | fc7151bb | Thomas Schöpping | /* set/keep the SYS_SYNC and SYS_PD signals active */
|
1457 | a270d48f | Thomas Schöpping | GPIO_ResetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
1458 | GPIO_ResetBits(SYS_PD_N_GPIO, SYS_PD_N_PIN); |
||
1459 | |||
1460 | /* initialized the standalone timer */
|
||
1461 | saTimerInit(); |
||
1462 | |||
1463 | setLed(BLT_TRUE); |
||
1464 | |||
1465 | /* deactivate SYS_PD_N and ensure that all modules had a chance to detect the falling edge */
|
||
1466 | msleep(1);
|
||
1467 | GPIO_SetBits(SYS_PD_N_GPIO, SYS_PD_N_PIN); |
||
1468 | msleep(1);
|
||
1469 | |||
1470 | /* wait for all boards to be ready for shutdown */
|
||
1471 | GPIO_SetBits(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN); |
||
1472 | if (GPIO_ReadOutputDataBit(SYS_REG_EN_GPIO, SYS_REG_EN_PIN) == Bit_SET) {
|
||
1473 | fc7151bb | Thomas Schöpping | // this must be skipped if the pullup voltage (VIO3.3) is not active
|
1474 | a270d48f | Thomas Schöpping | setLed(BLT_TRUE); |
1475 | waitForSignal(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN, Bit_SET); |
||
1476 | setLed(BLT_FALSE); |
||
1477 | } |
||
1478 | |||
1479 | /* check ths SYS_PD_N signal, whether the system shall shutdown or restart */
|
||
1480 | blt_bool shutdown_nrestart = (GPIO_ReadInputDataBit(SYS_PD_N_GPIO, SYS_PD_N_PIN) == Bit_RESET) ? BLT_TRUE : BLT_FALSE; |
||
1481 | |||
1482 | /* disambiguation procedure (passive) */
|
||
1483 | uint32_t pulse_counter = 0;
|
||
1484 | while (waitForSignalTimeout(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN, Bit_RESET, 10)) { |
||
1485 | waitForSignal(SYS_SYNC_N_GPIO, SYS_SYNC_N_PIN, Bit_SET); |
||
1486 | ++pulse_counter; |
||
1487 | } |
||
1488 | |||
1489 | /* evaluate and hanlde disambiguation result */
|
||
1490 | if (shutdown_nrestart == BLT_TRUE) {
|
||
1491 | /* shutdown request */
|
||
1492 | |||
1493 | /* handle special cases */
|
||
1494 | if (pulse_counter == BL_SHUTDOWN_PRI_RSN_UNKNOWN) {
|
||
1495 | /* no pulse at all was received */
|
||
1496 | pulse_counter = BL_SHUTDOWN_PRI_RSN_DEFAULT; |
||
1497 | } else if (pulse_counter != BL_SHUTDOWN_PRI_RSN_HIBERNATE && |
||
1498 | pulse_counter != BL_SHUTDOWN_PRI_RSN_DEEPSLEEP && |
||
1499 | pulse_counter != BL_SHUTDOWN_PRI_RSN_TRANSPORT) { |
||
1500 | /* invalid number of pulses received */
|
||
1501 | blinkSOS(1);
|
||
1502 | pulse_counter = BL_SHUTDOWN_PRI_RSN_DEFAULT; |
||
1503 | } |
||
1504 | |||
1505 | switch (pulse_counter) {
|
||
1506 | case BL_SHUTDOWN_PRI_RSN_HIBERNATE:
|
||
1507 | shutdownToHibernate(); |
||
1508 | break;
|
||
1509 | case BL_SHUTDOWN_PRI_RSN_DEEPSLEEP:
|
||
1510 | shutdownToDeepsleep(); |
||
1511 | break;
|
||
1512 | case BL_SHUTDOWN_PRI_RSN_TRANSPORT:
|
||
1513 | shutdownToTransportation(); |
||
1514 | break;
|
||
1515 | } |
||
1516 | } else {
|
||
1517 | /* restart request */
|
||
1518 | |||
1519 | /* there is no ambiguity for restart, so it is ignored */
|
||
1520 | shutdownAndRestart(); |
||
1521 | } |
||
1522 | |||
1523 | /* if this code is reached, the system did neither shut down, nor restart.
|
||
1524 | * This must never be the case!
|
||
1525 | */
|
||
1526 | blinkSOSinf(); |
||
1527 | return;
|
||
1528 | } /*** end of blCallbackHandleShutdownRequest ***/
|
||
1529 | |||
1530 | /*********************************** end of main.c *************************************/
|