esp-open-rtos/extras/bmp180/bmp180.c
Angus71 b251427643 Added BMP180 and I2C driver and example
Fixed reference to unknown environment var
Moved drivers into extras folder and added additional documentations.
Changed LOCAL to static and renamed DEBUG to BMP180_DEBUG
2015-08-31 13:39:27 +02:00

351 lines
9 KiB
C

#include "bmp180.h"
#include "FreeRTOS.h"
#include "queue.h"
#include "task.h"
#include "espressif/esp_common.h"
#include "espressif/sdk_private.h"
#include "i2c/i2c.h"
#define BMP180_RX_QUEUE_SIZE 10
#define BMP180_TASK_PRIORITY 9
#define BMP180_DEVICE_ADDRESS 0x77
#define BMP180_VERSION_REG 0xD0
#define BMP180_CONTROL_REG 0xF4
#define BMP180_RESET_REG 0xE0
#define BMP180_OUT_MSB_REG 0xF6
#define BMP180_OUT_LSB_REG 0xF7
#define BMP180_OUT_XLSB_REG 0xF8
#define BMP180_CALIBRATION_REG 0xAA
//
// Values for BMP180_CONTROL_REG
//
#define BMP180_MEASURE_TEMP 0x2E
#define BMP180_MEASURE_PRESS_OSS0 0x34
#define BMP180_MEASURE_PRESS_OSS1 0x74
#define BMP180_MEASURE_PRESS_OSS2 0xB4
#define BMP180_MEASURE_PRESS_OSS3 0xF4
#define BMP180_DEFAULT_CONV_TIME 5000
//
// CHIP ID stored in BMP180_VERSION_REG
//
#define BMP180_CHIP_ID 0x55
//
// Reset value for BMP180_RESET_REG
//
#define BMP180_RESET_VALUE 0xB6
// BMP180_Event_Command
typedef struct
{
uint8_t cmd;
const xQueueHandle* resultQueue;
} bmp180_command_t;
// Just works due to the fact that xQueueHandle is a "void *"
static xQueueHandle bmp180_rx_queue = NULL;
static xTaskHandle bmp180_task_handle = NULL;
// Calibration constants
static int16_t AC1;
static int16_t AC2;
static int16_t AC3;
static uint16_t AC4;
static uint16_t AC5;
static uint16_t AC6;
static int16_t B1;
static int16_t B2;
static int16_t MB;
static int16_t MC;
static int16_t MD;
//
// Forward declarations
//
static void bmp180_meassure(const bmp180_command_t* command);
static bool bmp180_informUser_Impl(const xQueueHandle* resultQueue, uint8_t cmd, bmp180_temp_t temperatue, bmp180_press_t pressure);
// Set default implementation .. User gets result as bmp180_result_t event
bool (*bmp180_informUser)(const xQueueHandle* resultQueue, uint8_t cmd, bmp180_temp_t temperatue, bmp180_press_t pressure) = bmp180_informUser_Impl;
// I2C Driver Task
static void bmp180_driver_task(void *pvParameters)
{
// Data to be received from user
bmp180_command_t current_command;
#ifdef BMP180_DEBUG
// Wait for commands from the outside
printf("%s: Started Task\n", __FUNCTION__);
#endif
while(1)
{
// Wait for user to insert commands
if (xQueueReceive(bmp180_rx_queue, &current_command, portMAX_DELAY) == pdTRUE)
{
#ifdef BMP180_DEBUG
printf("%s: Received user command %d 0x%p\n", __FUNCTION__, current_command.cmd, current_command.resultQueue);
#endif
// use user provided queue
if (current_command.resultQueue != NULL)
{
// Work on it ...
bmp180_meassure(&current_command);
}
}
}
}
static uint8_t bmp180_readRegister8(uint8_t reg)
{
uint8_t r = 0;
if (!i2c_slave_read(BMP180_DEVICE_ADDRESS, reg, &r, 1))
{
r = 0;
}
return r;
}
static int16_t bmp180_readRegister16(uint8_t reg)
{
uint8_t d[] = { 0, 0 };
int16_t r = 0;
if (i2c_slave_read(BMP180_DEVICE_ADDRESS, reg, d, 2))
{
r = ((int16_t)d[0]<<8) | (d[1]);
}
return r;
}
static void bmp180_start_Messurement(uint8_t cmd)
{
uint8_t d[] = { BMP180_CONTROL_REG, cmd };
i2c_slave_write(BMP180_DEVICE_ADDRESS, d, 2);
}
static int16_t bmp180_getUncompensatedMessurement(uint8_t cmd)
{
// Write Start Code into reg 0xF4 (Currently without oversampling ...)
bmp180_start_Messurement((cmd==BMP180_TEMPERATURE)?BMP180_MEASURE_TEMP:BMP180_MEASURE_PRESS_OSS0);
// Wait 5ms Datasheet states 4.5ms
sdk_os_delay_us(BMP180_DEFAULT_CONV_TIME);
return (int16_t)bmp180_readRegister16(BMP180_OUT_MSB_REG);
}
static void bmp180_fillInternalConstants(void)
{
AC1 = bmp180_readRegister16(BMP180_CALIBRATION_REG+0);
AC2 = bmp180_readRegister16(BMP180_CALIBRATION_REG+2);
AC3 = bmp180_readRegister16(BMP180_CALIBRATION_REG+4);
AC4 = bmp180_readRegister16(BMP180_CALIBRATION_REG+6);
AC5 = bmp180_readRegister16(BMP180_CALIBRATION_REG+8);
AC6 = bmp180_readRegister16(BMP180_CALIBRATION_REG+10);
B1 = bmp180_readRegister16(BMP180_CALIBRATION_REG+12);
B2 = bmp180_readRegister16(BMP180_CALIBRATION_REG+14);
MB = bmp180_readRegister16(BMP180_CALIBRATION_REG+16);
MC = bmp180_readRegister16(BMP180_CALIBRATION_REG+18);
MD = bmp180_readRegister16(BMP180_CALIBRATION_REG+20);
#ifdef BMP180_DEBUG
printf("%s: AC1:=%d AC2:=%d AC3:=%d AC4:=%u AC5:=%u AC6:=%u \n", __FUNCTION__, AC1, AC2, AC3, AC4, AC5, AC6);
printf("%s: B1:=%d B2:=%d\n", __FUNCTION__, B1, B2);
printf("%s: MB:=%d MC:=%d MD:=%d\n", __FUNCTION__, MB, MC, MD);
#endif
}
static bool bmp180_create_communication_queues()
{
// Just create them once
if (bmp180_rx_queue==NULL)
{
bmp180_rx_queue = xQueueCreate(BMP180_RX_QUEUE_SIZE, sizeof(bmp180_result_t));
}
return (bmp180_rx_queue!=NULL);
}
static bool bmp180_is_avaialble()
{
return (bmp180_readRegister8(BMP180_VERSION_REG)==BMP180_CHIP_ID);
}
static bool bmp180_createTask()
{
// We already have a task
portBASE_TYPE x = pdPASS;
if (bmp180_task_handle==NULL)
{
x = xTaskCreate(bmp180_driver_task, (signed char *)"bmp180_driver_task", 256, NULL, BMP180_TASK_PRIORITY, &bmp180_task_handle);
}
return (x==pdPASS);
}
static void bmp180_meassure(const bmp180_command_t* command)
{
int32_t T, P;
// Init result to 0
T = P = 0;
if (command->resultQueue != NULL)
{
int32_t UT, X1, X2, B5;
//
// Temperature is always needed ... Also required for pressure only
//
// Calculation taken from BMP180 Datasheet
UT = (int32_t)bmp180_getUncompensatedMessurement(BMP180_TEMPERATURE);
X1 = (UT - (int32_t)AC6) * ((int32_t)AC5) >> 15;
X2 = ((int32_t)MC << 11) / (X1 + (int32_t)MD);
B5 = X1 + X2;
T = (B5 + 8) >> 4;
#ifdef BMP180_DEBUG
printf("%s: T:= %ld.%d\n", __FUNCTION__, T/10, abs(T%10));
#endif
// Do we also need pressure?
if (command->cmd & BMP180_PRESSURE)
{
int32_t X3, B3, B6;
uint32_t B4, B7, UP;
UP = ((uint32_t)bmp180_getUncompensatedMessurement(BMP180_PRESSURE) & 0xFFFF);
// Calculation taken from BMP180 Datasheet
B6 = B5 - 4000;
X1 = ((int32_t)B2 * ((B6 * B6) >> 12)) >> 11;
X2 = ((int32_t)AC2 * B6) >> 11;
X3 = X1 + X2;
B3 = (((int32_t)AC1 * 4 + X3) + 2) >> 2;
X1 = ((int32_t)AC3 * B6) >> 13;
X2 = ((int32_t)B1 * ((B6 * B6) >> 12)) >> 16;
X3 = ((X1 + X2) + 2) >> 2;
B4 = ((uint32_t)AC4 * (uint32_t)(X3 + 32768)) >> 15;
B7 = (UP - B3) * (uint32_t)(50000UL);
if (B7 < 0x80000000)
{
P = (B7 * 2) / B4;
}
else
{
P = (B7 / B4) * 2;
}
X1 = (P >> 8) * (P >> 8);
X1 = (X1 * 3038) >> 16;
X2 = (-7357 * P) >> 16;
P = P + ((X1 + X2 + (int32_t)3791) >> 4);
#ifdef BMP180_DEBUG
printf("%s: P:= %ld\n", __FUNCTION__, P);
#endif
}
// Inform the user ...
if (!bmp180_informUser(command->resultQueue, command->cmd, ((bmp180_temp_t)T)/10.0, (bmp180_press_t)P))
{
// Failed to send info to user
printf("%s: Unable to inform user bmp180_informUser returned \"false\"\n", __FUNCTION__);
}
}
}
// Default user inform implementation
static bool bmp180_informUser_Impl(const xQueueHandle* resultQueue, uint8_t cmd, bmp180_temp_t temperatue, bmp180_press_t pressure)
{
bmp180_result_t result;
result.cmd = cmd;
result.temperatue = temperatue;
result.pressure = pressure;
return (xQueueSend(*resultQueue, &result, 0) == pdTRUE);
}
// Just init all needed queues
bool bmp180_init(uint8_t scl, uint8_t sda)
{
// 1. Create required queues
bool result = false;
if (bmp180_create_communication_queues())
{
// 2. Init i2c driver
i2c_init(scl, sda);
// 3. Check for bmp180 ...
if (bmp180_is_avaialble())
{
// 4. Init all internal constants ...
bmp180_fillInternalConstants();
// 5. Start driver task
if (bmp180_createTask())
{
// We are finished
result = true;
}
}
}
return result;
}
void bmp180_trigger_measurement(const xQueueHandle* resultQueue)
{
bmp180_command_t c;
c.cmd = BMP180_PRESSURE + BMP180_TEMPERATURE;
c.resultQueue = resultQueue;
xQueueSend(bmp180_rx_queue, &c, 0);
}
void bmp180_trigger_pressure_measurement(const xQueueHandle* resultQueue)
{
bmp180_command_t c;
c.cmd = BMP180_PRESSURE;
c.resultQueue = resultQueue;
xQueueSend(bmp180_rx_queue, &c, 0);
}
void bmp180_trigger_temperature_measurement(const xQueueHandle* resultQueue)
{
bmp180_command_t c;
c.cmd = BMP180_TEMPERATURE;
c.resultQueue = resultQueue;
xQueueSend(bmp180_rx_queue, &c, 0);
}