2019-2020 LIS2DW12 Accelerometer Project
Dependencies: X_NUCLEO_IKS01A3
main.cpp@15:7d938eef43c4, 2019-09-24 (annotated)
- Committer:
- martlefebvre94
- Date:
- Tue Sep 24 10:11:03 2019 +0000
- Revision:
- 15:7d938eef43c4
- Parent:
- 14:8b7ce0fc3971
LIS2DW12 accelerometer project
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
cparata | 0:535249dc4bf5 | 1 | /** |
cparata | 0:535249dc4bf5 | 2 | ****************************************************************************** |
cparata | 0:535249dc4bf5 | 3 | * @file main.cpp |
cparata | 0:535249dc4bf5 | 4 | * @author SRA |
cparata | 0:535249dc4bf5 | 5 | * @version V1.0.0 |
cparata | 0:535249dc4bf5 | 6 | * @date 5-March-2019 |
cparata | 5:7c883cce2bc4 | 7 | * @brief Simple Example application for using the X_NUCLEO_IKS01A3 |
cparata | 0:535249dc4bf5 | 8 | * MEMS Inertial & Environmental Sensor Nucleo expansion board. |
cparata | 0:535249dc4bf5 | 9 | ****************************************************************************** |
cparata | 0:535249dc4bf5 | 10 | * @attention |
cparata | 0:535249dc4bf5 | 11 | * |
cparata | 0:535249dc4bf5 | 12 | * <h2><center>© COPYRIGHT(c) 2019 STMicroelectronics</center></h2> |
cparata | 0:535249dc4bf5 | 13 | * |
cparata | 0:535249dc4bf5 | 14 | * Redistribution and use in source and binary forms, with or without modification, |
cparata | 0:535249dc4bf5 | 15 | * are permitted provided that the following conditions are met: |
cparata | 0:535249dc4bf5 | 16 | * 1. Redistributions of source code must retain the above copyright notice, |
cparata | 0:535249dc4bf5 | 17 | * this list of conditions and the following disclaimer. |
cparata | 0:535249dc4bf5 | 18 | * 2. Redistributions in binary form must reproduce the above copyright notice, |
cparata | 0:535249dc4bf5 | 19 | * this list of conditions and the following disclaimer in the documentation |
cparata | 0:535249dc4bf5 | 20 | * and/or other materials provided with the distribution. |
cparata | 0:535249dc4bf5 | 21 | * 3. Neither the name of STMicroelectronics nor the names of its contributors |
cparata | 0:535249dc4bf5 | 22 | * may be used to endorse or promote products derived from this software |
cparata | 0:535249dc4bf5 | 23 | * without specific prior written permission. |
cparata | 0:535249dc4bf5 | 24 | * |
cparata | 0:535249dc4bf5 | 25 | * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" |
cparata | 0:535249dc4bf5 | 26 | * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
cparata | 0:535249dc4bf5 | 27 | * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE |
cparata | 0:535249dc4bf5 | 28 | * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE |
cparata | 0:535249dc4bf5 | 29 | * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
cparata | 0:535249dc4bf5 | 30 | * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR |
cparata | 0:535249dc4bf5 | 31 | * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER |
cparata | 0:535249dc4bf5 | 32 | * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, |
cparata | 0:535249dc4bf5 | 33 | * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
cparata | 0:535249dc4bf5 | 34 | * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
cparata | 0:535249dc4bf5 | 35 | * |
cparata | 0:535249dc4bf5 | 36 | ****************************************************************************** |
cparata | 5:7c883cce2bc4 | 37 | */ |
cparata | 0:535249dc4bf5 | 38 | |
martlefebvre94 | 6:b2e247935342 | 39 | /* |
martlefebvre94 | 15:7d938eef43c4 | 40 | LELEC2811 Accelerometer LIS2DW12 Project |
martlefebvre94 | 13:f4ad8550374a | 41 | M. Lefebvre - 2019-2020 |
martlefebvre94 | 6:b2e247935342 | 42 | */ |
martlefebvre94 | 6:b2e247935342 | 43 | |
cparata | 0:535249dc4bf5 | 44 | /* Includes */ |
martlefebvre94 | 6:b2e247935342 | 45 | #include <stdlib.h> |
martlefebvre94 | 8:fa346d946e7e | 46 | #include <time.h> |
cparata | 0:535249dc4bf5 | 47 | #include "mbed.h" |
cparata | 0:535249dc4bf5 | 48 | #include "XNucleoIKS01A3.h" |
martlefebvre94 | 6:b2e247935342 | 49 | #include "stm32l073xx.h" |
martlefebvre94 | 6:b2e247935342 | 50 | #include "stm32l0xx_hal_flash.h" |
martlefebvre94 | 6:b2e247935342 | 51 | |
martlefebvre94 | 6:b2e247935342 | 52 | /* Defines */ |
martlefebvre94 | 15:7d938eef43c4 | 53 | #define FS 12.5 // Readout frequency (Hz) - /!\ Must be below 100Hz |
martlefebvre94 | 15:7d938eef43c4 | 54 | #define FLASH_WRITE_TIME 0.00328 // Flash write time (s) |
martlefebvre94 | 8:fa346d946e7e | 55 | |
martlefebvre94 | 8:fa346d946e7e | 56 | // LIS2DW12 Accelerometer |
martlefebvre94 | 15:7d938eef43c4 | 57 | #define LIS2DW12_ODR 3 // Output data rate (0 power down, 1 HP 12.5Hz/LP 1.6Hz, 2 for 12.5Hz, 3 for 25Hz, 4 for 50Hz, 5 for 100Hz, 6 for 200Hz, 7 for HP 400Hz/LP 200Hz, 8 for HP 800Hz/LP 200Hz, 9 for HP 1600Hz/LP 200Hz) |
martlefebvre94 | 15:7d938eef43c4 | 58 | #define LIS2DW12_FS 16 // Full-scale +-(2, 4, 8 or 16 g) |
martlefebvre94 | 15:7d938eef43c4 | 59 | #define LIS2DW12_BW_FILT 0 // Filter bandwidth (0 for ODR/2, 1 for ODR/4, 2 for ODR/10, 3 for ODR/20) |
martlefebvre94 | 15:7d938eef43c4 | 60 | #define LIS2DW12_LP_MODE 1 // Low-power modes 1 to 4 (1 gives the max. rms noise, 4 gives the min. rms noise) |
martlefebvre94 | 15:7d938eef43c4 | 61 | #define LIS2DW12_MODE 0 // Mode (0 for low-power, 1 for high-performance, 2 for single data conversion) |
martlefebvre94 | 15:7d938eef43c4 | 62 | #define LIS2DW12_LOW_NOISE 0 // Low-noise (0 disabled, 1 enabled) |
martlefebvre94 | 8:fa346d946e7e | 63 | #define LIS2DW12_POWER_MODE LIS2DW12_LP_MODE + (LIS2DW12_MODE << 2) + (LIS2DW12_LOW_NOISE << 4) |
martlefebvre94 | 15:7d938eef43c4 | 64 | #define LIS2DW12_DATA_SIZE 12 // Number of bytes for LIS2DW12 accelerometer sensor data |
martlefebvre94 | 8:fa346d946e7e | 65 | |
martlefebvre94 | 15:7d938eef43c4 | 66 | #define TS (1/FS)-((LIS2DW12_DATA_SIZE/4)*FLASH_WRITE_TIME) |
martlefebvre94 | 8:fa346d946e7e | 67 | |
martlefebvre94 | 8:fa346d946e7e | 68 | /* Functions definition */ |
martlefebvre94 | 8:fa346d946e7e | 69 | bool acquisition_task(bool verbose); |
martlefebvre94 | 8:fa346d946e7e | 70 | void read_task(); |
martlefebvre94 | 8:fa346d946e7e | 71 | void print_flash_info(); |
martlefebvre94 | 8:fa346d946e7e | 72 | bool erase_flash(bool verbose); |
martlefebvre94 | 8:fa346d946e7e | 73 | bool write_flash(uint32_t Flash_addr, uint32_t* Flash_wdata, int32_t n_words, bool verbose); |
martlefebvre94 | 8:fa346d946e7e | 74 | void read_flash(uint32_t Flash_addr, uint32_t* Flash_rdata, uint32_t n_bytes); |
martlefebvre94 | 8:fa346d946e7e | 75 | void button1_enabled_cb(void); |
martlefebvre94 | 8:fa346d946e7e | 76 | void button1_onpressed_cb(void); |
martlefebvre94 | 8:fa346d946e7e | 77 | static char *print_double(char *str, double v); |
martlefebvre94 | 13:f4ad8550374a | 78 | uint32_t FloatToUint(float n); |
martlefebvre94 | 13:f4ad8550374a | 79 | float UintToFloat(uint32_t n); |
martlefebvre94 | 6:b2e247935342 | 80 | |
martlefebvre94 | 6:b2e247935342 | 81 | /* Serial link */ |
martlefebvre94 | 6:b2e247935342 | 82 | Serial pc(SERIAL_TX, SERIAL_RX); |
martlefebvre94 | 6:b2e247935342 | 83 | |
martlefebvre94 | 6:b2e247935342 | 84 | /* Button */ |
martlefebvre94 | 6:b2e247935342 | 85 | InterruptIn button1(USER_BUTTON); |
martlefebvre94 | 6:b2e247935342 | 86 | volatile bool button1_pressed = false; // Used in the main loop |
martlefebvre94 | 6:b2e247935342 | 87 | volatile bool button1_enabled = true; // Used for debouncing |
martlefebvre94 | 6:b2e247935342 | 88 | Timeout button1_timeout; // Used for debouncing |
cparata | 0:535249dc4bf5 | 89 | |
cparata | 0:535249dc4bf5 | 90 | /* Instantiate the expansion board */ |
cparata | 0:535249dc4bf5 | 91 | static XNucleoIKS01A3 *mems_expansion_board = XNucleoIKS01A3::instance(D14, D15, D4, D5, A3, D6, A4); |
cparata | 0:535249dc4bf5 | 92 | |
cparata | 0:535249dc4bf5 | 93 | /* Retrieve the composing elements of the expansion board */ |
cparata | 0:535249dc4bf5 | 94 | static LIS2MDLSensor *magnetometer = mems_expansion_board->magnetometer; |
cparata | 0:535249dc4bf5 | 95 | static HTS221Sensor *hum_temp = mems_expansion_board->ht_sensor; |
cparata | 0:535249dc4bf5 | 96 | static LPS22HHSensor *press_temp = mems_expansion_board->pt_sensor; |
cparata | 0:535249dc4bf5 | 97 | static LSM6DSOSensor *acc_gyro = mems_expansion_board->acc_gyro; |
cparata | 0:535249dc4bf5 | 98 | static LIS2DW12Sensor *accelerometer = mems_expansion_board->accelerometer; |
cparata | 0:535249dc4bf5 | 99 | static STTS751Sensor *temp = mems_expansion_board->t_sensor; |
cparata | 0:535249dc4bf5 | 100 | |
martlefebvre94 | 8:fa346d946e7e | 101 | /* Main */ |
martlefebvre94 | 8:fa346d946e7e | 102 | int main() |
martlefebvre94 | 8:fa346d946e7e | 103 | { |
martlefebvre94 | 8:fa346d946e7e | 104 | uint8_t id; |
martlefebvre94 | 8:fa346d946e7e | 105 | float read_reg, read_reg_1; |
martlefebvre94 | 8:fa346d946e7e | 106 | uint8_t read_reg_int, read_reg_int_1, read_reg_int_2; |
martlefebvre94 | 8:fa346d946e7e | 107 | |
martlefebvre94 | 8:fa346d946e7e | 108 | bool save_data = false; |
martlefebvre94 | 8:fa346d946e7e | 109 | uint32_t Flash_addr = FLASH_BANK2_BASE; |
martlefebvre94 | 8:fa346d946e7e | 110 | |
martlefebvre94 | 8:fa346d946e7e | 111 | /* Serial link configuration */ |
martlefebvre94 | 8:fa346d946e7e | 112 | pc.baud(115200); |
martlefebvre94 | 8:fa346d946e7e | 113 | |
martlefebvre94 | 8:fa346d946e7e | 114 | /* Button configuration */ |
martlefebvre94 | 8:fa346d946e7e | 115 | button1.fall(callback(button1_onpressed_cb)); // Attach ISR to handle button press event |
martlefebvre94 | 8:fa346d946e7e | 116 | |
martlefebvre94 | 8:fa346d946e7e | 117 | /* Reset message */ |
martlefebvre94 | 8:fa346d946e7e | 118 | printf("\n\r**************************************************\n\r"); |
martlefebvre94 | 15:7d938eef43c4 | 119 | printf("LELEC2811 LIS2DW12 Accelerometer Program\n\r"); |
martlefebvre94 | 8:fa346d946e7e | 120 | printf("**************************************************\n\r"); |
martlefebvre94 | 8:fa346d946e7e | 121 | |
martlefebvre94 | 8:fa346d946e7e | 122 | /* LIS2DW12 accelerometer sensor configuration */ |
martlefebvre94 | 8:fa346d946e7e | 123 | accelerometer->enable_x(); |
martlefebvre94 | 8:fa346d946e7e | 124 | printf("/***** LIS2DW12 accelerometer sensor configuration *****/\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 125 | |
martlefebvre94 | 8:fa346d946e7e | 126 | accelerometer->read_id(&id); |
martlefebvre94 | 8:fa346d946e7e | 127 | printf("LIS2DW12 accelerometer = 0x%X\r\n", id); |
martlefebvre94 | 8:fa346d946e7e | 128 | |
martlefebvre94 | 8:fa346d946e7e | 129 | accelerometer->set_x_odr(LIS2DW12_ODR); |
martlefebvre94 | 8:fa346d946e7e | 130 | accelerometer->get_x_odr(&read_reg); |
martlefebvre94 | 8:fa346d946e7e | 131 | printf("LIS2DW12 ODR = %1.3f [Hz]\r\n", read_reg); |
martlefebvre94 | 8:fa346d946e7e | 132 | |
martlefebvre94 | 8:fa346d946e7e | 133 | accelerometer->set_x_fs(LIS2DW12_FS); |
martlefebvre94 | 8:fa346d946e7e | 134 | accelerometer->get_x_fs(&read_reg); |
martlefebvre94 | 8:fa346d946e7e | 135 | printf("LIS2DW12 FS = %1.3f [g]\r\n", read_reg); |
martlefebvre94 | 8:fa346d946e7e | 136 | |
martlefebvre94 | 8:fa346d946e7e | 137 | accelerometer->set_x_bw_filt(LIS2DW12_BW_FILT); |
martlefebvre94 | 8:fa346d946e7e | 138 | accelerometer->get_x_bw_filt(&read_reg_int); |
martlefebvre94 | 8:fa346d946e7e | 139 | printf("LIS2DW12 BW_FILT = %1d\r\n", read_reg_int); |
martlefebvre94 | 8:fa346d946e7e | 140 | |
martlefebvre94 | 8:fa346d946e7e | 141 | accelerometer->set_x_power_mode(LIS2DW12_POWER_MODE); |
martlefebvre94 | 8:fa346d946e7e | 142 | accelerometer->get_x_power_mode(&read_reg_int, &read_reg_int_1, &read_reg_int_2); |
martlefebvre94 | 8:fa346d946e7e | 143 | printf("LIS2DW12 LP_MODE = %1d\r\n", read_reg_int); |
martlefebvre94 | 8:fa346d946e7e | 144 | printf("LIS2DW12 MODE = %1d\r\n", read_reg_int_1); |
martlefebvre94 | 8:fa346d946e7e | 145 | printf("LIS2DW12 LOW_NOISE = %1d\r\n", read_reg_int_2); |
martlefebvre94 | 8:fa346d946e7e | 146 | |
martlefebvre94 | 8:fa346d946e7e | 147 | /* Print Flash memory information */ |
martlefebvre94 | 8:fa346d946e7e | 148 | print_flash_info(); |
martlefebvre94 | 8:fa346d946e7e | 149 | |
martlefebvre94 | 8:fa346d946e7e | 150 | /* Information for the user */ |
martlefebvre94 | 8:fa346d946e7e | 151 | printf("Press blue button to start data acquisition\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 152 | printf("Press 'R' to read previously measured data\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 153 | |
martlefebvre94 | 8:fa346d946e7e | 154 | /* Acquisition loop */ |
martlefebvre94 | 8:fa346d946e7e | 155 | while(1) { |
martlefebvre94 | 8:fa346d946e7e | 156 | // Start saving data when button is pushed |
martlefebvre94 | 8:fa346d946e7e | 157 | if (button1_pressed) { |
martlefebvre94 | 8:fa346d946e7e | 158 | button1_pressed = false; |
martlefebvre94 | 8:fa346d946e7e | 159 | save_data = true; |
martlefebvre94 | 8:fa346d946e7e | 160 | erase_flash(false); |
martlefebvre94 | 8:fa346d946e7e | 161 | printf("Acquiring data...\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 162 | printf("Press blue button to stop data acquisition\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 163 | Flash_addr = FLASH_BANK2_BASE; |
martlefebvre94 | 8:fa346d946e7e | 164 | } |
martlefebvre94 | 8:fa346d946e7e | 165 | |
martlefebvre94 | 8:fa346d946e7e | 166 | if (save_data) { |
martlefebvre94 | 8:fa346d946e7e | 167 | // Acquisition task |
martlefebvre94 | 15:7d938eef43c4 | 168 | save_data = acquisition_task(false); |
martlefebvre94 | 8:fa346d946e7e | 169 | } |
martlefebvre94 | 8:fa346d946e7e | 170 | else { |
martlefebvre94 | 8:fa346d946e7e | 171 | // Read task |
martlefebvre94 | 8:fa346d946e7e | 172 | read_task(); |
martlefebvre94 | 8:fa346d946e7e | 173 | } |
martlefebvre94 | 8:fa346d946e7e | 174 | } |
martlefebvre94 | 8:fa346d946e7e | 175 | } |
martlefebvre94 | 8:fa346d946e7e | 176 | |
martlefebvre94 | 8:fa346d946e7e | 177 | /* Acquisition task */ |
martlefebvre94 | 8:fa346d946e7e | 178 | bool acquisition_task(bool verbose) |
martlefebvre94 | 8:fa346d946e7e | 179 | { |
martlefebvre94 | 8:fa346d946e7e | 180 | int32_t acc_axes[3]; |
martlefebvre94 | 8:fa346d946e7e | 181 | uint32_t Flash_addr = FLASH_BANK2_BASE; |
martlefebvre94 | 8:fa346d946e7e | 182 | |
martlefebvre94 | 8:fa346d946e7e | 183 | while (Flash_addr <= FLASH_BANK2_END-FLASH_PAGE_SIZE+1) { |
martlefebvre94 | 8:fa346d946e7e | 184 | // Read sensors data |
martlefebvre94 | 8:fa346d946e7e | 185 | accelerometer->get_x_axes(acc_axes); |
martlefebvre94 | 8:fa346d946e7e | 186 | |
martlefebvre94 | 8:fa346d946e7e | 187 | // Save data to Flash memory |
martlefebvre94 | 15:7d938eef43c4 | 188 | write_flash(Flash_addr, (uint32_t*) &acc_axes[0], 3, false); |
martlefebvre94 | 15:7d938eef43c4 | 189 | Flash_addr += LIS2DW12_DATA_SIZE; |
martlefebvre94 | 8:fa346d946e7e | 190 | |
martlefebvre94 | 8:fa346d946e7e | 191 | // Print data in terminal |
martlefebvre94 | 8:fa346d946e7e | 192 | if (verbose) { |
martlefebvre94 | 8:fa346d946e7e | 193 | printf("LIS2DW12: [acc/mg] %6d, %6d, %6d\r\n", ((uint32_t) acc_axes[0]), ((uint32_t) acc_axes[1]), ((uint32_t) acc_axes[2])); |
martlefebvre94 | 8:fa346d946e7e | 194 | } |
martlefebvre94 | 8:fa346d946e7e | 195 | |
martlefebvre94 | 8:fa346d946e7e | 196 | // Wait for acquisition period |
martlefebvre94 | 15:7d938eef43c4 | 197 | wait(TS); |
martlefebvre94 | 8:fa346d946e7e | 198 | |
martlefebvre94 | 8:fa346d946e7e | 199 | // Stop saving data when button is pushed |
martlefebvre94 | 8:fa346d946e7e | 200 | if (button1_pressed) { |
martlefebvre94 | 8:fa346d946e7e | 201 | button1_pressed = false; |
martlefebvre94 | 8:fa346d946e7e | 202 | printf("Data acquisition stopped\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 203 | printf("Press 'R' to read the data\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 204 | return false; |
martlefebvre94 | 8:fa346d946e7e | 205 | } |
martlefebvre94 | 8:fa346d946e7e | 206 | } |
martlefebvre94 | 8:fa346d946e7e | 207 | printf("Data acquisition stopped\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 208 | printf("Press 'R' to read the data\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 209 | return false; |
martlefebvre94 | 8:fa346d946e7e | 210 | } |
martlefebvre94 | 8:fa346d946e7e | 211 | |
martlefebvre94 | 8:fa346d946e7e | 212 | /* Read task */ |
martlefebvre94 | 8:fa346d946e7e | 213 | void read_task() |
martlefebvre94 | 8:fa346d946e7e | 214 | { |
martlefebvre94 | 8:fa346d946e7e | 215 | char pc_input; |
martlefebvre94 | 8:fa346d946e7e | 216 | uint32_t Flash_rdata[3]; |
martlefebvre94 | 8:fa346d946e7e | 217 | bool flash_empty = false; |
martlefebvre94 | 8:fa346d946e7e | 218 | |
martlefebvre94 | 8:fa346d946e7e | 219 | // Read terminal input |
martlefebvre94 | 8:fa346d946e7e | 220 | if (pc.readable()) { |
martlefebvre94 | 8:fa346d946e7e | 221 | pc_input = pc.getc(); |
martlefebvre94 | 8:fa346d946e7e | 222 | } |
martlefebvre94 | 8:fa346d946e7e | 223 | else { |
martlefebvre94 | 8:fa346d946e7e | 224 | pc_input = ' '; |
martlefebvre94 | 8:fa346d946e7e | 225 | } |
martlefebvre94 | 8:fa346d946e7e | 226 | |
martlefebvre94 | 8:fa346d946e7e | 227 | // Read Flash memory if 'R' is pressed |
martlefebvre94 | 8:fa346d946e7e | 228 | if ((pc_input == 'r') || (pc_input == 'R')) { |
martlefebvre94 | 8:fa346d946e7e | 229 | // Data labels |
martlefebvre94 | 15:7d938eef43c4 | 230 | printf("acc_X\tacc_Y\tacc_Z\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 231 | |
martlefebvre94 | 8:fa346d946e7e | 232 | // Read 1st Flash data |
martlefebvre94 | 8:fa346d946e7e | 233 | uint32_t Flash_addr_temp = FLASH_BANK2_BASE; |
martlefebvre94 | 15:7d938eef43c4 | 234 | read_flash(Flash_addr_temp, &Flash_rdata[0], LIS2DW12_DATA_SIZE); |
martlefebvre94 | 8:fa346d946e7e | 235 | |
martlefebvre94 | 8:fa346d946e7e | 236 | // Read Flash data |
martlefebvre94 | 15:7d938eef43c4 | 237 | while ((Flash_addr_temp <= FLASH_BANK2_END-LIS2DW12_DATA_SIZE+1) && !flash_empty) { |
martlefebvre94 | 8:fa346d946e7e | 238 | // Print read data in the terminal |
martlefebvre94 | 8:fa346d946e7e | 239 | printf("%6d\t%6d\t%6d\r\n", Flash_rdata[0], Flash_rdata[1], Flash_rdata[2]); |
martlefebvre94 | 15:7d938eef43c4 | 240 | Flash_addr_temp += LIS2DW12_DATA_SIZE; |
martlefebvre94 | 8:fa346d946e7e | 241 | |
martlefebvre94 | 8:fa346d946e7e | 242 | // Check if the next address is not empty (erased Flash only contains 0) |
martlefebvre94 | 15:7d938eef43c4 | 243 | if (Flash_addr_temp <= FLASH_BANK2_END-LIS2DW12_DATA_SIZE+1) { |
martlefebvre94 | 15:7d938eef43c4 | 244 | read_flash(Flash_addr_temp, &Flash_rdata[0], LIS2DW12_DATA_SIZE); |
martlefebvre94 | 8:fa346d946e7e | 245 | if ((Flash_rdata[0] == 0) && (Flash_rdata[1] == 0) && (Flash_rdata[2] == 0)) { |
martlefebvre94 | 8:fa346d946e7e | 246 | flash_empty = true; |
martlefebvre94 | 8:fa346d946e7e | 247 | } |
martlefebvre94 | 8:fa346d946e7e | 248 | } |
martlefebvre94 | 8:fa346d946e7e | 249 | } |
martlefebvre94 | 8:fa346d946e7e | 250 | } |
martlefebvre94 | 8:fa346d946e7e | 251 | } |
martlefebvre94 | 8:fa346d946e7e | 252 | |
martlefebvre94 | 8:fa346d946e7e | 253 | /* Print Flash memory info */ |
martlefebvre94 | 8:fa346d946e7e | 254 | void print_flash_info() |
martlefebvre94 | 8:fa346d946e7e | 255 | { |
martlefebvre94 | 8:fa346d946e7e | 256 | printf("**************************************************\n\r"); |
martlefebvre94 | 8:fa346d946e7e | 257 | printf("/***** Flash memory info *****/\r\n"); |
martlefebvre94 | 8:fa346d946e7e | 258 | printf("Flash size: %d [B]\r\n", FLASH_SIZE); |
martlefebvre94 | 8:fa346d946e7e | 259 | printf("Flash page size: %d [B]\r\n", FLASH_PAGE_SIZE); |
martlefebvre94 | 8:fa346d946e7e | 260 | printf("Flash nb of pages: %d \r\n", FLASH_SIZE/FLASH_PAGE_SIZE); |
martlefebvre94 | 8:fa346d946e7e | 261 | printf("Flash bank 1 base address: 0x%X\r\n", FLASH_BASE); |
martlefebvre94 | 8:fa346d946e7e | 262 | printf("Flash bank 1 end address: 0x%X\r\n", FLASH_BANK1_END); |
martlefebvre94 | 8:fa346d946e7e | 263 | printf("Flash bank 2 base address: 0x%X\r\n", FLASH_BANK2_BASE); |
martlefebvre94 | 8:fa346d946e7e | 264 | printf("Flash bank 2 end address: 0x%X\r\n", FLASH_BANK2_END); |
martlefebvre94 | 8:fa346d946e7e | 265 | printf("**************************************************\n\r"); |
martlefebvre94 | 8:fa346d946e7e | 266 | } |
martlefebvre94 | 8:fa346d946e7e | 267 | |
martlefebvre94 | 6:b2e247935342 | 268 | /* Erase content of Flash memory */ |
martlefebvre94 | 6:b2e247935342 | 269 | bool erase_flash(bool verbose) |
cparata | 0:535249dc4bf5 | 270 | { |
martlefebvre94 | 6:b2e247935342 | 271 | printf("Erasing Flash memory...\r\n"); |
martlefebvre94 | 6:b2e247935342 | 272 | |
martlefebvre94 | 6:b2e247935342 | 273 | // Unlock Flash memory |
martlefebvre94 | 6:b2e247935342 | 274 | HAL_FLASH_Unlock(); |
cparata | 0:535249dc4bf5 | 275 | |
martlefebvre94 | 6:b2e247935342 | 276 | // Erase Flash memory |
martlefebvre94 | 6:b2e247935342 | 277 | FLASH_EraseInitTypeDef eraser; |
martlefebvre94 | 6:b2e247935342 | 278 | uint32_t Flash_addr = FLASH_BANK2_BASE; |
martlefebvre94 | 6:b2e247935342 | 279 | uint32_t page_error = 0; |
martlefebvre94 | 6:b2e247935342 | 280 | int32_t page = 1; |
martlefebvre94 | 6:b2e247935342 | 281 | |
martlefebvre94 | 6:b2e247935342 | 282 | while (Flash_addr < FLASH_BANK2_END) { |
martlefebvre94 | 6:b2e247935342 | 283 | eraser.TypeErase = FLASH_TYPEERASE_PAGES; |
martlefebvre94 | 6:b2e247935342 | 284 | eraser.PageAddress = Flash_addr; |
martlefebvre94 | 6:b2e247935342 | 285 | eraser.NbPages = 1; |
martlefebvre94 | 6:b2e247935342 | 286 | if(HAL_OK != HAL_FLASHEx_Erase(&eraser, &page_error)) { |
martlefebvre94 | 6:b2e247935342 | 287 | if (verbose) {printf("Flash erase failed!\r\n");} |
martlefebvre94 | 6:b2e247935342 | 288 | printf("Error 0x%X\r\n", page_error); |
martlefebvre94 | 6:b2e247935342 | 289 | HAL_FLASH_Lock(); |
martlefebvre94 | 6:b2e247935342 | 290 | return false; |
martlefebvre94 | 6:b2e247935342 | 291 | } |
martlefebvre94 | 6:b2e247935342 | 292 | if (verbose) {printf("Erased page %d at address: 0x%X\r\n", page, Flash_addr);} |
martlefebvre94 | 6:b2e247935342 | 293 | Flash_addr += FLASH_PAGE_SIZE; |
martlefebvre94 | 6:b2e247935342 | 294 | page++; |
martlefebvre94 | 6:b2e247935342 | 295 | } |
martlefebvre94 | 6:b2e247935342 | 296 | |
martlefebvre94 | 6:b2e247935342 | 297 | if (verbose) {printf("Flash erase succesful!\r\n");} |
martlefebvre94 | 6:b2e247935342 | 298 | return true; |
martlefebvre94 | 6:b2e247935342 | 299 | } |
cparata | 0:535249dc4bf5 | 300 | |
martlefebvre94 | 6:b2e247935342 | 301 | /* Write Flash memory */ |
martlefebvre94 | 8:fa346d946e7e | 302 | bool write_flash(uint32_t Flash_addr, uint32_t* Flash_wdata, int32_t n_words, bool verbose) |
martlefebvre94 | 6:b2e247935342 | 303 | { |
martlefebvre94 | 8:fa346d946e7e | 304 | clock_t time; |
martlefebvre94 | 8:fa346d946e7e | 305 | if (verbose) {time = clock();} |
martlefebvre94 | 8:fa346d946e7e | 306 | |
martlefebvre94 | 6:b2e247935342 | 307 | // Unlock Flash memory |
martlefebvre94 | 6:b2e247935342 | 308 | HAL_FLASH_Unlock(); |
martlefebvre94 | 6:b2e247935342 | 309 | |
martlefebvre94 | 6:b2e247935342 | 310 | // Write Flash memory |
martlefebvre94 | 8:fa346d946e7e | 311 | for (int i=0; i<n_words; i++) { |
martlefebvre94 | 8:fa346d946e7e | 312 | if (HAL_OK != HAL_FLASH_Program(FLASH_TYPEPROGRAM_WORD, Flash_addr, Flash_wdata[i])) { |
martlefebvre94 | 8:fa346d946e7e | 313 | if (verbose) {printf("Flash write failed!\r\n");} |
martlefebvre94 | 8:fa346d946e7e | 314 | HAL_FLASH_Lock(); |
martlefebvre94 | 8:fa346d946e7e | 315 | return false; |
martlefebvre94 | 8:fa346d946e7e | 316 | } |
martlefebvre94 | 8:fa346d946e7e | 317 | Flash_addr += 4; |
martlefebvre94 | 6:b2e247935342 | 318 | } |
martlefebvre94 | 6:b2e247935342 | 319 | if (verbose) {printf("Flash write succesful!\r\n");} |
martlefebvre94 | 8:fa346d946e7e | 320 | |
martlefebvre94 | 6:b2e247935342 | 321 | HAL_FLASH_Lock(); |
martlefebvre94 | 8:fa346d946e7e | 322 | |
martlefebvre94 | 8:fa346d946e7e | 323 | if (verbose) { |
martlefebvre94 | 8:fa346d946e7e | 324 | time = clock() - time; |
martlefebvre94 | 8:fa346d946e7e | 325 | printf("Time to write: %1.6f [s]\r\n", (((double) time)/CLOCKS_PER_SEC)); |
martlefebvre94 | 8:fa346d946e7e | 326 | } |
martlefebvre94 | 8:fa346d946e7e | 327 | |
martlefebvre94 | 6:b2e247935342 | 328 | return true; |
martlefebvre94 | 6:b2e247935342 | 329 | } |
cparata | 0:535249dc4bf5 | 330 | |
martlefebvre94 | 6:b2e247935342 | 331 | /* Read Flash memory */ |
martlefebvre94 | 6:b2e247935342 | 332 | void read_flash(uint32_t Flash_addr, uint32_t* Flash_rdata, uint32_t n_bytes) |
martlefebvre94 | 6:b2e247935342 | 333 | { |
martlefebvre94 | 6:b2e247935342 | 334 | memcpy(Flash_rdata, (uint32_t*) Flash_addr, n_bytes); |
martlefebvre94 | 6:b2e247935342 | 335 | } |
cparata | 0:535249dc4bf5 | 336 | |
martlefebvre94 | 6:b2e247935342 | 337 | /* Enables button when bouncing is over */ |
martlefebvre94 | 6:b2e247935342 | 338 | void button1_enabled_cb(void) |
martlefebvre94 | 6:b2e247935342 | 339 | { |
martlefebvre94 | 6:b2e247935342 | 340 | button1_enabled = true; |
cparata | 0:535249dc4bf5 | 341 | } |
cparata | 0:535249dc4bf5 | 342 | |
martlefebvre94 | 6:b2e247935342 | 343 | /* ISR handling button pressed event */ |
martlefebvre94 | 6:b2e247935342 | 344 | void button1_onpressed_cb(void) |
martlefebvre94 | 6:b2e247935342 | 345 | { |
martlefebvre94 | 6:b2e247935342 | 346 | if (button1_enabled) { // Disabled while the button is bouncing |
martlefebvre94 | 6:b2e247935342 | 347 | button1_enabled = false; |
martlefebvre94 | 6:b2e247935342 | 348 | button1_pressed = true; // To be read by the main loop |
martlefebvre94 | 6:b2e247935342 | 349 | button1_timeout.attach(callback(button1_enabled_cb), 0.3); // Debounce time 300 ms |
martlefebvre94 | 6:b2e247935342 | 350 | } |
martlefebvre94 | 6:b2e247935342 | 351 | } |
martlefebvre94 | 6:b2e247935342 | 352 | |
martlefebvre94 | 8:fa346d946e7e | 353 | /* Helper function for printing floats & doubles */ |
martlefebvre94 | 8:fa346d946e7e | 354 | static char *print_double(char *str, double v) |
martlefebvre94 | 6:b2e247935342 | 355 | { |
martlefebvre94 | 8:fa346d946e7e | 356 | int decimalDigits = 6; |
martlefebvre94 | 8:fa346d946e7e | 357 | int i = 1; |
martlefebvre94 | 8:fa346d946e7e | 358 | int intPart, fractPart; |
martlefebvre94 | 8:fa346d946e7e | 359 | int len; |
martlefebvre94 | 8:fa346d946e7e | 360 | char *ptr; |
martlefebvre94 | 8:fa346d946e7e | 361 | |
martlefebvre94 | 8:fa346d946e7e | 362 | /* prepare decimal digits multiplicator */ |
martlefebvre94 | 8:fa346d946e7e | 363 | for (; decimalDigits != 0; i *= 10, decimalDigits--); |
martlefebvre94 | 8:fa346d946e7e | 364 | |
martlefebvre94 | 8:fa346d946e7e | 365 | /* calculate integer & fractinal parts */ |
martlefebvre94 | 8:fa346d946e7e | 366 | intPart = (int)v; |
martlefebvre94 | 8:fa346d946e7e | 367 | fractPart = (int)((v - (double)(int)v) * i); |
martlefebvre94 | 8:fa346d946e7e | 368 | |
martlefebvre94 | 8:fa346d946e7e | 369 | /* fill in integer part */ |
martlefebvre94 | 8:fa346d946e7e | 370 | sprintf(str, "%i.", intPart); |
martlefebvre94 | 8:fa346d946e7e | 371 | |
martlefebvre94 | 8:fa346d946e7e | 372 | /* prepare fill in of fractional part */ |
martlefebvre94 | 8:fa346d946e7e | 373 | len = strlen(str); |
martlefebvre94 | 8:fa346d946e7e | 374 | ptr = &str[len]; |
martlefebvre94 | 8:fa346d946e7e | 375 | |
martlefebvre94 | 8:fa346d946e7e | 376 | /* fill in leading fractional zeros */ |
martlefebvre94 | 8:fa346d946e7e | 377 | for (i /= 10; i > 1; i /= 10, ptr++) { |
martlefebvre94 | 8:fa346d946e7e | 378 | if (fractPart >= i) { |
martlefebvre94 | 8:fa346d946e7e | 379 | break; |
martlefebvre94 | 6:b2e247935342 | 380 | } |
martlefebvre94 | 8:fa346d946e7e | 381 | *ptr = '0'; |
martlefebvre94 | 6:b2e247935342 | 382 | } |
martlefebvre94 | 6:b2e247935342 | 383 | |
martlefebvre94 | 8:fa346d946e7e | 384 | /* fill in (rest of) fractional part */ |
martlefebvre94 | 8:fa346d946e7e | 385 | sprintf(ptr, "%i", fractPart); |
martlefebvre94 | 8:fa346d946e7e | 386 | |
martlefebvre94 | 8:fa346d946e7e | 387 | return str; |
martlefebvre94 | 6:b2e247935342 | 388 | } |
martlefebvre94 | 6:b2e247935342 | 389 | |
martlefebvre94 | 13:f4ad8550374a | 390 | uint32_t FloatToUint(float n) |
martlefebvre94 | 13:f4ad8550374a | 391 | { |
martlefebvre94 | 13:f4ad8550374a | 392 | return (uint32_t)(*(uint32_t*)&n); |
martlefebvre94 | 13:f4ad8550374a | 393 | } |
martlefebvre94 | 13:f4ad8550374a | 394 | |
martlefebvre94 | 13:f4ad8550374a | 395 | float UintToFloat(uint32_t n) |
martlefebvre94 | 13:f4ad8550374a | 396 | { |
martlefebvre94 | 13:f4ad8550374a | 397 | return (float)(*(float*)&n); |
martlefebvre94 | 13:f4ad8550374a | 398 | } |