// Platform-specific functions #ifndef __PLATFORM_H__ #define __PLATFORM_H__ #include "cpu_esp8266.h" #include "c_types.h" #include "driver/pwm.h" // Error / status codes enum { PLATFORM_ERR, PLATFORM_OK, PLATFORM_UNDERFLOW = -1 }; // Platform initialization int platform_init(void); void platform_int_init(void); // **************************************************************************** // KEY_LED functions uint8_t platform_key_led( uint8_t level); // ***************************************************************************** // GPIO subsection #define PLATFORM_GPIO_FLOAT 0 #define PLATFORM_GPIO_PULLUP 1 #define PLATFORM_GPIO_PULLDOWN 2 #define PLATFORM_GPIO_INT 2 #define PLATFORM_GPIO_OUTPUT 1 #define PLATFORM_GPIO_INPUT 0 #define PLATFORM_GPIO_HIGH 1 #define PLATFORM_GPIO_LOW 0 /* GPIO interrupt handler */ typedef void (* platform_gpio_intr_handler_fn_t)( unsigned pin, unsigned level ); int platform_gpio_mode( unsigned pin, unsigned mode, unsigned pull ); int platform_gpio_write( unsigned pin, unsigned level ); int platform_gpio_read( unsigned pin ); void platform_gpio_init( platform_gpio_intr_handler_fn_t cb ); int platform_gpio_intr_init( unsigned pin, GPIO_INT_TYPE type ); // ***************************************************************************** // Timer subsection // Timer data type typedef uint32_t timer_data_type; // ***************************************************************************** // CAN subsection // Maximum length for any CAN message #define PLATFORM_CAN_MAXLEN 8 // eLua CAN ID types enum { ELUA_CAN_ID_STD = 0, ELUA_CAN_ID_EXT }; int platform_can_exists( unsigned id ); uint32_t platform_can_setup( unsigned id, uint32_t clock ); int platform_can_send( unsigned id, uint32_t canid, uint8_t idtype, uint8_t len, const uint8_t *data ); int platform_can_recv( unsigned id, uint32_t *canid, uint8_t *idtype, uint8_t *len, uint8_t *data ); // ***************************************************************************** // SPI subsection // There are 4 "virtual" SPI ports (SPI0...SPI3). #define PLATFORM_SPI_TOTAL 4 // TODO: PLATFORM_SPI_TOTAL is not used - figure out purpose, or remove? // SPI mode #define PLATFORM_SPI_MASTER 1 #define PLATFORM_SPI_SLAVE 0 // SS values #define PLATFORM_SPI_SELECT_ON 1 #define PLATFORM_SPI_SELECT_OFF 0 // SPI enable/disable #define PLATFORM_SPI_ENABLE 1 #define PLATFORM_SPI_DISABLE 0 // SPI clock phase #define PLATFORM_SPI_CPHA_LOW 0 #define PLATFORM_SPI_CPHA_HIGH 1 // SPI clock polarity #define PLATFORM_SPI_CPOL_LOW 0 #define PLATFORM_SPI_CPOL_HIGH 1 // SPI databits #define PLATFORM_SPI_DATABITS_8 8 #define PLATFORM_SPI_DATABITS_16 16 // Data types typedef uint32_t spi_data_type; // The platform SPI functions int platform_spi_exists( unsigned id ); uint32_t platform_spi_setup( unsigned id, int mode, unsigned cpol, unsigned cpha, unsigned databits, uint32_t clock_div); spi_data_type platform_spi_send_recv( unsigned id, spi_data_type data ); void platform_spi_select( unsigned id, int is_select ); // ***************************************************************************** // UART subsection // There are 3 "virtual" UART ports (UART0...UART2). #define PLATFORM_UART_TOTAL 3 // TODO: PLATFORM_UART_TOTAL is not used - figure out purpose, or remove? // Note: Some CPUs (e.g. LM4F/TM4C) have more than 3 hardware UARTs // Parity enum { PLATFORM_UART_PARITY_EVEN, PLATFORM_UART_PARITY_ODD, PLATFORM_UART_PARITY_NONE, PLATFORM_UART_PARITY_MARK, PLATFORM_UART_PARITY_SPACE }; // Stop bits enum { PLATFORM_UART_STOPBITS_1, PLATFORM_UART_STOPBITS_1_5, PLATFORM_UART_STOPBITS_2 }; // Flow control types (this is a bit mask, one can specify PLATFORM_UART_FLOW_RTS | PLATFORM_UART_FLOW_CTS ) #define PLATFORM_UART_FLOW_NONE 0 #define PLATFORM_UART_FLOW_RTS 1 #define PLATFORM_UART_FLOW_CTS 2 // The platform UART functions int platform_uart_exists( unsigned id ); uint32_t platform_uart_setup( unsigned id, uint32_t baud, int databits, int parity, int stopbits ); int platform_uart_set_buffer( unsigned id, unsigned size ); void platform_uart_send( unsigned id, uint8_t data ); void platform_s_uart_send( unsigned id, uint8_t data ); int platform_uart_recv( unsigned id, unsigned timer_id, timer_data_type timeout ); int platform_s_uart_recv( unsigned id, timer_data_type timeout ); int platform_uart_set_flow_control( unsigned id, int type ); int platform_s_uart_set_flow_control( unsigned id, int type ); // ***************************************************************************** // PWM subsection // There are 16 "virtual" PWM channels (PWM0...PWM15) #define PLATFORM_PWM_TOTAL 16 // TODO: PLATFORM_PWM_TOTAL is not used - figure out purpose, or remove? #define NORMAL_PWM_DEPTH PWM_DEPTH #define NORMAL_DUTY(d) (((unsigned)(d)*NORMAL_PWM_DEPTH) / PWM_DEPTH) #define DUTY(d) ((uint16_t)( ((unsigned)(d)*PWM_DEPTH) / NORMAL_PWM_DEPTH) ) // The platform PWM functions int platform_pwm_exists( unsigned id ); uint32_t platform_pwm_setup( unsigned id, uint32_t frequency, unsigned duty ); void platform_pwm_close( unsigned id ); void platform_pwm_start( unsigned id ); void platform_pwm_stop( unsigned id ); uint32_t platform_pwm_set_clock( unsigned id, uint32_t data ); uint32_t platform_pwm_get_clock( unsigned id ); uint32_t platform_pwm_set_duty( unsigned id, uint32_t data ); uint32_t platform_pwm_get_duty( unsigned id ); // ***************************************************************************** // The platform ADC functions // Functions requiring platform-specific implementation int platform_adc_update_sequence(void); int platform_adc_start_sequence(void); void platform_adc_stop( unsigned id ); uint32_t platform_adc_set_clock( unsigned id, uint32_t frequency); int platform_adc_check_timer_id( unsigned id, unsigned timer_id ); // ADC Common Functions int platform_adc_exists( unsigned id ); uint32_t platform_adc_get_maxval( unsigned id ); uint32_t platform_adc_set_smoothing( unsigned id, uint32_t length ); void platform_adc_set_blocking( unsigned id, uint32_t mode ); void platform_adc_set_freerunning( unsigned id, uint32_t mode ); uint32_t platform_adc_is_done( unsigned id ); void platform_adc_set_timer( unsigned id, uint32_t timer ); // ***************************************************************************** // I2C platform interface // I2C speed enum { PLATFORM_I2C_SPEED_SLOW = 100000, PLATFORM_I2C_SPEED_FAST = 400000 }; // I2C direction enum { PLATFORM_I2C_DIRECTION_TRANSMITTER, PLATFORM_I2C_DIRECTION_RECEIVER }; int platform_i2c_exists( unsigned id ); uint32_t platform_i2c_setup( unsigned id, uint8_t sda, uint8_t scl, uint32_t speed ); void platform_i2c_send_start( unsigned id ); void platform_i2c_send_stop( unsigned id ); int platform_i2c_send_address( unsigned id, uint16_t address, int direction ); int platform_i2c_send_byte( unsigned id, uint8_t data ); int platform_i2c_recv_byte( unsigned id, int ack ); // ***************************************************************************** // Ethernet specific functions void platform_eth_send_packet( const void* src, uint32_t size ); uint32_t platform_eth_get_packet_nb( void* buf, uint32_t maxlen ); void platform_eth_force_interrupt(void); uint32_t platform_eth_get_elapsed_time(void); // ***************************************************************************** // Internal flash erase/write functions uint32_t platform_flash_get_first_free_block_address( uint32_t *psect ); uint32_t platform_flash_get_sector_of_address( uint32_t addr ); uint32_t platform_flash_write( const void *from, uint32_t toaddr, uint32_t size ); uint32_t platform_flash_read( void *to, uint32_t fromaddr, uint32_t size ); uint32_t platform_s_flash_write( const void *from, uint32_t toaddr, uint32_t size ); uint32_t platform_s_flash_read( void *to, uint32_t fromaddr, uint32_t size ); uint32_t platform_flash_get_num_sectors(void); int platform_flash_erase_sector( uint32_t sector_id ); // ***************************************************************************** // Allocator support void* platform_get_first_free_ram( unsigned id ); void* platform_get_last_free_ram( unsigned id ); #endif