#ifndef _DM_COMPAT_H_ #define _DM_COMPAT_H_ #include "miner.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define NUMARGS(...) ((int)(sizeof((int[]){(int)__VA_ARGS__})/sizeof(int))) #define FSCANF(STREAM, FORMAT, ...) \ do { \ if (unlikely(fscanf((STREAM), (FORMAT), __VA_ARGS__) != NUMARGS(__VA_ARGS__))) { \ applog(LOG_ERR, "Failed to fscanf %d args from %s %s line %d", \ NUMARGS(__VA_ARGS__), __FILE__, __func__, __LINE__); \ } \ } while (0) #define FREAD(PTR, SIZE, NMEMB, STREAM) \ do { \ if (unlikely(fread((PTR), (SIZE), (NMEMB), (STREAM)) != NMEMB)) \ applog(LOG_ERR, "Failed to fread size %d nmemb %d from %s %s line %d", \ (SIZE), (NMEMB), __FILE__, __func__, __LINE__); \ } while (0) #define FWRITE(PTR, SIZE, NMEMB, STREAM) \ do { \ if (unlikely(fwrite((PTR), (SIZE), (NMEMB), (STREAM)) != NMEMB)) \ applog(LOG_ERR, "Failed to fwrite size %d nmemb %d from %s %s line %d", \ (SIZE), (NMEMB), __FILE__, __func__, __LINE__); \ } while (0) #define WRITE(FILDES, BUF, NBYTE) \ do { \ int ret = write((FILDES), (BUF), (NBYTE)); \ if (unlikely(ret != (int)(NBYTE))) { \ if (ret == -1) { \ applog(LOG_ERR, "Failed to write size %d from %s %s line %d with errno %d:%s", \ (NBYTE), __FILE__, __func__, __LINE__, errno, strerror(errno)); \ } else { \ applog(LOG_WARNING, "Failed to write size %d from %s %s line %d", \ (NBYTE), __FILE__, __func__, __LINE__); \ } \ } \ } while (0) #define READ(FILDES, BUF, NBYTE) \ do { \ int ret = read((FILDES), (BUF), (NBYTE)); \ if (unlikely(ret != (int)(NBYTE))) { \ if (ret == -1) { \ applog(LOG_ERR, "Failed to read size %d from %s %s line %d with errno %d:%s", \ (NBYTE), __FILE__, __func__, __LINE__, errno, strerror(errno)); \ } else { \ applog(LOG_WARNING, "Failed to read size %d from %s %s line %d", \ (NBYTE), __FILE__, __func__, __LINE__); \ } \ } \ } while (0) /* MCOMPAT_CHAIN */ typedef struct MCOMPAT_CHAIN_TAG{ // bool (*power_on)(unsigned char); // bool (*power_down)(unsigned char); // bool (*hw_reset)(unsigned char); // bool (*power_on_all)(void); // bool (*power_down_all)(void); }MCOMPAT_CHAIN_T; void init_mcompat_chain(void); void exit_mcompat_chain(void); void register_mcompat_chain(MCOMPAT_CHAIN_T * ops); bool mcompat_chain_power_on(unsigned char chain_id); bool mcompat_chain_power_down(unsigned char chain_id); bool mcompat_chain_hw_reset(unsigned char chain_id); /* MCOMPAT_FAN */ extern int g_temp_hi_thr; extern int g_temp_lo_thr; extern int g_temp_start_thr; extern int g_dangerous_temp; extern int g_work_temp; typedef struct { int final_temp_avg; int final_temp_hi; int final_temp_lo; int temp_highest[3]; int temp_lowest[3]; }mcompat_temp_s; typedef struct { int temp_hi_thr; int temp_lo_thr; int temp_start_thr; int dangerous_stat_temp; int work_temp; int default_fan_speed; }mcompat_temp_config_s; typedef struct { int fd; int last_valid_temp; int speed; int last_fan_speed; int last_fan_temp; mcompat_temp_s * mcompat_temp; int temp_average; int temp_highest; int temp_lowest; }mcompat_fan_temp_s; extern void mcompat_fan_temp_init(unsigned char fan_id,mcompat_temp_config_s temp_config); extern void mcompat_fan_speed_set(unsigned char fan_id, int speed); extern void mcompat_fan_speed_update_hub(mcompat_fan_temp_s *fan_temp); /* MCOMPAT_CMD */ typedef struct MCOMPAT_CMD_TAG{ // void (*set_speed)(unsigned char, int); // bool (*cmd_reset)(unsigned char, unsigned char, unsigned char *, unsigned char *); // int (*cmd_bist_start)(unsigned char, unsigned char); // bool (*cmd_bist_collect)(unsigned char, unsigned char); // bool (*cmd_bist_fix)(unsigned char, unsigned char); // bool (*cmd_write_register)(unsigned char, unsigned char, unsigned char *, int); // bool (*cmd_read_register)(unsigned char, unsigned char, unsigned char *, int); // bool (*cmd_read_write_reg0d)(unsigned char, unsigned char, unsigned char *, int, unsigned char *); // bool (*cmd_write_job)(unsigned char, unsigned char, unsigned char *, int); // bool (*cmd_read_result)(unsigned char, unsigned char, unsigned char *, int); // bool (*cmd_auto_nonce)(unsigned char, int, int); // bool (*cmd_read_nonce)(unsigned char, unsigned char *, int); bool (*cmd_get_temp)(mcompat_fan_temp_s *temp_ctrl); }MCOMPAT_CMD_T; void init_mcompat_cmd(void); void exit_mcompat_cmd(void); void register_mcompat_cmd(MCOMPAT_CMD_T * cmd_ops_p); /* MCOMPAT_GPIO */ typedef struct MCOMPAT_GPIO_TAG{ // void (*set_power_en)(unsigned char, int); // void (*set_start_en)(unsigned char, int); // bool (*set_reset)(unsigned char, int); // void (*set_led)(unsigned char, int); // int (*get_plug)(unsigned char); // bool (*set_vid)(unsigned char, int); // void (*set_green_led)(int mode); // void (*set_red_led)(int mode); // int (*get_button)(void); }MCOMPAT_GPIO_T; void init_mcompat_gpio(void); void exit_mcompat_gpio(void); void register_mcompat_gpio(MCOMPAT_GPIO_T * ops); /* MCOMPAT_GPIO_I2C */ #define _SCL_PIN (0) #define _SDA_PIN (1) void mcompat_gpio_i2c_init(void); void mcompat_gpio_i2c_deinit(void); void mcompat_gpio_i2c_send_byte(uint8_t data); uint8_t mcompat_gpio_i2c_recv_byte(void); bool mcompat_gpio_i2c_send_buf(uint8_t *buf, uint8_t buf_len, uint8_t dev_addr, uint16_t reg_addr); bool mcompat_gpio_i2c_recv_buf(uint8_t *buf, uint8_t buf_len, uint8_t dev_addr, uint16_t reg_addr); /* MCOMPAT_PWM */ typedef struct MCOMPAT_PWM_TAG{ // void (*set_pwm)(unsigned char, int, int); }MCOMPAT_PWM_T; void init_mcompat_pwm(void); void exit_mcompat_pwm(void); void register_mcompat_pwm(MCOMPAT_PWM_T * ops); /* MCOMPAT_TEMP */ typedef struct _c_temp { short tmp_lo; // lowest temperature short tmp_hi; // highest temperature short tmp_avg; // average temperature bool optimal; // temp considered in optimal range } c_temp; extern int mcompat_temp_to_centigrade(int temp); extern bool mcompat_get_chain_temp(unsigned char chain_id, c_temp *chain_tmp); extern void mcompat_get_chip_temp(int chain_id, int *chip_temp); /* MCOMPAT_WATCHDOG */ #define MCOMPAT_WATCHDOG_DEV ("/dev/watchdog0") void mcompat_watchdog_keep_alive(void); void mcompat_watchdog_open(void); void mcompat_watchdog_set_timeout(int timeout); void mcompat_watchdog_close(void); /* MCOMPAT_LIB */ #define MCOMPAT_LIB_MINER_TYPE_FILE ("/tmp/type") #define MCOMPAT_LIB_HARDWARE_VERSION_FILE ("/tmp/hwver") #define MCOMPAT_LIB_HARDWARE_VERSION_G9 (9) #define MCOMPAT_LIB_HARDWARE_VERSION_G19 (19) #define MCOMPAT_LIB_HARDWARE_VERSION_ERR (-1) #define MCOMPAT_LIB_MINER_TYPE_T1 (1) #define MCOMPAT_LIB_MINER_TYPE_T2 (2) #define MCOMPAT_LIB_MINER_TYPE_T3 (3) #define MCOMPAT_LIB_MINER_TYPE_T4 (4) #define MCOMPAT_LIB_MINER_TYPE_D11 (5) #define MCOMPAT_LIB_MINER_TYPE_D12 (6) #define MCOMPAT_LIB_MINER_TYPE_ERR (-1) #define MCOMPAT_LIB_VID_VID_TYPE (0) #define MCOMPAT_LIB_VID_GPIO_I2C_TYPE (1) #define MCOMPAT_LIB_VID_UART_TYPE (2) #define MCOMPAT_LIB_VID_I2C_TYPE (3) #define MCOMPAT_LIB_VID_ERR_TYPE (-1) #define REG_LENGTH (12) #define VID_MAX (31) #define VID_MIN (0) int mcompat_get_shell_cmd_rst(char *cmd, char *result, int size); int misc_call_api(char *command, char *host, short int port); bool misc_tcp_is_ok(char *host, short int port); char *misc_trim(char *str); int misc_get_board_version(void); int misc_get_miner_type(void); int misc_get_vid_type(void); void misc_system(const char *cmd, char *rst_buf, int buf_size); void mcompat_configure_tvsensor(int chain_id, int chip_id, bool is_tsensor); void mcompat_cfg_tsadc_divider(int chain_id,unsigned int pll_clk); void mcompat_get_chip_volt(int chain_id, int *chip_volt); int mcompat_find_chain_vid(int chain_id, int chip_num, int vid_start, double volt_target); double mcompat_get_average_volt(int *volt, int size); /* MCOMPAT_DRV */ #define PLATFORM_ZYNQ_SPI_G9 (0x01) #define PLATFORM_ZYNQ_SPI_G19 (0x02) #define PLATFORM_ZYNQ_HUB_G9 (0x03) #define PLATFORM_ZYNQ_HUB_G19 (0x04) #define PLATFORM_SOC (0x10) #define PLATFORM_ORANGE_PI (0x20) #define SPI_SPEED_390K (0) #define SPI_SPEED_781K (1) #define SPI_SPEED_1562K (2) #define SPI_SPEED_3125K (3) #define SPI_SPEED_6250K (4) #define SPI_SPEED_9960K (5) #define MCOMPAT_LOG_DEBUG (1) #define MCOMPAT_LOG_INFO (2) #define MCOMPAT_LOG_NOTICE (3) #define MCOMPAT_LOG_WARNING (4) #define MCOMPAT_LOG_ERR (5) #define MCOMPAT_LOG_CRIT (6) #define MCOMPAT_LOG_ALERT (7) #define MCOMPAT_LOG_EMERG (8) extern void sys_platform_debug_init(int debug_level); extern bool sys_platform_init(int platform, int miner_type, int chain_num, int chip_num); extern bool sys_platform_exit(); extern bool mcompat_set_spi_speed(unsigned char chain_id, int index); extern bool mcompat_cmd_reset(unsigned char chain_id, unsigned char chip_id, unsigned char *in, unsigned char *out); extern int mcompat_cmd_bist_start(unsigned char chain_id, unsigned char chip_id); extern bool mcompat_cmd_bist_collect(unsigned char chain_id, unsigned char chip_id); extern bool mcompat_cmd_bist_fix(unsigned char chain_id, unsigned char chip_id); extern bool mcompat_cmd_write_register(unsigned char chain_id, unsigned char chip_id, unsigned char *reg, int len); extern bool mcompat_cmd_read_register(unsigned char chain_id, unsigned char chip_id, unsigned char *reg, int len); extern bool mcompat_cmd_read_write_reg0d(unsigned char chain_id, unsigned char chip_id, unsigned char *in, int len, unsigned char *out); extern bool mcompat_cmd_read_result(unsigned char chain_id, unsigned char chip_id, unsigned char *res, int len); extern bool mcompat_cmd_write_job(unsigned char chain_id, unsigned char chip_id, unsigned char *job, int len); extern bool mcompat_cmd_auto_nonce(unsigned char chain_id, int mode, int len); extern bool mcompat_cmd_read_nonce(unsigned char chain_id, unsigned char *res, int len); extern bool mcompat_cmd_get_temp(mcompat_fan_temp_s * fan_temp); extern bool mcompat_get_chain_temp(unsigned char chain_id, c_temp *chain_tmp); extern void mcompat_set_power_en(unsigned char chain_id, int val); extern void mcompat_set_start_en(unsigned char chain_id, int val); extern bool mcompat_set_reset(unsigned char chain_id, int val); extern void mcompat_set_led(unsigned char chain_id, int val); extern bool mcompat_set_vid(unsigned char chain_id, int val); extern bool mcompat_set_vid_by_step(unsigned char chain_id, int start_vid, int target_vid); extern void mcompat_set_pwm(unsigned char fan_id, int frequency, int duty); extern int mcompat_get_plug(unsigned char chain_id); extern int mcompat_get_button(void); extern void mcompat_set_green_led(int mode); extern void mcompat_set_red_led(int mode); extern bool mcompat_chain_power_on(unsigned char chain_id); extern bool mcompat_chain_power_down(unsigned char chain_id); extern bool mcompat_chain_hw_reset(unsigned char chain_id); extern bool mcompat_chain_power_on_all(void); extern bool mcompat_chain_power_down_all(void); #define MCOMPAT_CONFIG_MAX_CHAIN_NUM (8) #define MCOMPAT_CONFIG_MAX_CHIP_NUM (80) #define MCOMPAT_CONFIG_MAX_JOB_LEN (92) #define MCOMPAT_CONFIG_MAX_CMD_LENGTH (256) #define MAGIC_NUM (100) #define CMD_BIST_START (0x01) #define CMD_BIST_COLLECT (0x0b) #define CMD_BIST_FIX (0x03) #define CMD_RESET (0x04) #define CMD_RESETBC (0x05) #define CMD_WRITE_JOB (0x07) #define CMD_WRITE_JOB_T1 (0x0c) #define CMD_READ_RESULT (0x08) #define CMD_WRITE_REG (0x09) #define CMD_READ_REG (0x0a) #define CMD_WRITE_REG0d (0x0d) #define CMD_POWER_ON (0x02) #define CMD_POWER_OFF (0x06) #define CMD_POWER_RESET (0x0c) #define RESP_READ_REG (0x1a) #define CMD_ADDR_BROADCAST (0x00) #define CMD_HL (2) #define CMD_RESET_DL (4) #define CMD_RESET_TL (CMD_HL + CMD_RESET_DL) #define ASIC_MCOMPAT_FAN_PWM_STEP (5) #define ASIC_MCOMPAT_FAN_PWM_DUTY_MAX (100) #define ASIC_MCOMPAT_FAN_PWM_FREQ_TARGET (20000) #define ASIC_MCOMPAT_FAN_PWM_FREQ (20000) #define FAN_CNT ( 2 ) #define ASIC_MCOMPAT_FAN_TEMP_MAX_THRESHOLD (100) #define ASIC_MCOMPAT_FAN_TEMP_UP_THRESHOLD (55) #define ASIC_MCOMPAT_FAN_TEMP_DOWN_THRESHOLD (35) #define MCOMPAT_VID_UART_PATH ("/dev/ttyPS1") #define MCOMPAT_CONFIG_CMD_MAX_LEN (MCOMPAT_CONFIG_MAX_JOB_LEN + MCOMPAT_CONFIG_MAX_CHAIN_NUM * 2 * 2) #define MCOMPAT_CONFIG_CMD_RST_MAX_LEN (MCOMPAT_CONFIG_CMD_MAX_LEN) /* SPI */ #define MCOMPAT_CONFIG_SPI_DEFAULT_CS_LINE (0) #define MCOMPAT_CONFIG_SPI_DEFAULT_MODE (SPI_MODE_1) #define MCOMPAT_CONFIG_SPI_DEFAULT_SPEED (1500000) #define MCOMPAT_CONFIG_SPI_DEFAULT_BITS_PER_WORD (8) /* GPIO */ #define MCOMPAT_CONFIG_CHAIN0_POWER_EN_GPIO (872) #define MCOMPAT_CONFIG_CHAIN1_POWER_EN_GPIO (873) #define MCOMPAT_CONFIG_CHAIN2_POWER_EN_GPIO (874) #define MCOMPAT_CONFIG_CHAIN3_POWER_EN_GPIO (875) #define MCOMPAT_CONFIG_CHAIN4_POWER_EN_GPIO (876) #define MCOMPAT_CONFIG_CHAIN5_POWER_EN_GPIO (877) #define MCOMPAT_CONFIG_CHAIN6_POWER_EN_GPIO (878) #define MCOMPAT_CONFIG_CHAIN7_POWER_EN_GPIO (879) #define MCOMPAT_CONFIG_CHAIN0_START_EN_GPIO (854) #define MCOMPAT_CONFIG_CHAIN1_START_EN_GPIO (856) #define MCOMPAT_CONFIG_CHAIN2_START_EN_GPIO (858) #define MCOMPAT_CONFIG_CHAIN3_START_EN_GPIO (860) #define MCOMPAT_CONFIG_CHAIN4_START_EN_GPIO (862) #define MCOMPAT_CONFIG_CHAIN5_START_EN_GPIO (864) #define MCOMPAT_CONFIG_CHAIN6_START_EN_GPIO (866) #define MCOMPAT_CONFIG_CHAIN7_START_EN_GPIO (868) #define MCOMPAT_CONFIG_CHAIN0_RESET_GPIO (855) #define MCOMPAT_CONFIG_CHAIN1_RESET_GPIO (857) #define MCOMPAT_CONFIG_CHAIN2_RESET_GPIO (859) #define MCOMPAT_CONFIG_CHAIN3_RESET_GPIO (861) #define MCOMPAT_CONFIG_CHAIN4_RESET_GPIO (863) #define MCOMPAT_CONFIG_CHAIN5_RESET_GPIO (865) #define MCOMPAT_CONFIG_CHAIN6_RESET_GPIO (867) #define MCOMPAT_CONFIG_CHAIN7_RESET_GPIO (869) #define MCOMPAT_CONFIG_CHAIN0_LED_GPIO (881) #define MCOMPAT_CONFIG_CHAIN1_LED_GPIO (882) #define MCOMPAT_CONFIG_CHAIN2_LED_GPIO (883) #define MCOMPAT_CONFIG_CHAIN3_LED_GPIO (884) #define MCOMPAT_CONFIG_CHAIN4_LED_GPIO (885) #define MCOMPAT_CONFIG_CHAIN5_LED_GPIO (886) #define MCOMPAT_CONFIG_CHAIN6_LED_GPIO (887) #define MCOMPAT_CONFIG_CHAIN7_LED_GPIO (888) #define MCOMPAT_CONFIG_CHAIN0_PLUG_GPIO (896) #define MCOMPAT_CONFIG_CHAIN1_PLUG_GPIO (897) #define MCOMPAT_CONFIG_CHAIN2_PLUG_GPIO (898) #define MCOMPAT_CONFIG_CHAIN3_PLUG_GPIO (899) #define MCOMPAT_CONFIG_CHAIN4_PLUG_GPIO (900) #define MCOMPAT_CONFIG_CHAIN5_PLUG_GPIO (901) #define MCOMPAT_CONFIG_CHAIN6_PLUG_GPIO (902) #define MCOMPAT_CONFIG_CHAIN7_PLUG_GPIO (903) #define MCOMPAT_CONFIG_B9_GPIO (906 + 51) #define MCOMPAT_CONFIG_A10_GPIO (906 + 37) extern int g_platform; extern int g_miner_type; extern int g_chain_num; extern int g_chip_num; /* ZYNQ_GPIO */ extern void zynq_gpio_init(int pin, int dir); extern void zynq_gpio_exit(int pin); extern int zynq_gpio_read(int pin); /* ZYNQ_PWM */ #define SYSFS_PWM_DEV ("/dev/pwmgen0.0") #define IOCTL_SET_PWM_FREQ(x) _IOR(MAGIC_NUM, (2*x), char *) #define IOCTL_SET_PWM_DUTY(x) _IOR(MAGIC_NUM, (2*x+1), char *) extern void zynq_set_pwm(unsigned char fan_id, int frequency, int duty); extern int zynq_gpio_g19_vid_set(int chain_id, int level); /* ZYNQ_SPI */ typedef struct ZYNQ_SPI_TAG{ int fd; pthread_mutex_t lock; }ZYNQ_SPI_T; void zynq_spi_init(ZYNQ_SPI_T *spi, int bus); void zynq_spi_exit(ZYNQ_SPI_T *spi); void zynq_spi_read(ZYNQ_SPI_T *spi, uint8_t *rxbuf, int len); void zynq_spi_write(ZYNQ_SPI_T *spi, uint8_t *txbuf, int len); void zynq_set_spi_speed(int speed); /* ZYNQ_VID */ #define SYSFS_VID_DEV ("/dev/vidgen0.0") #define IOCTL_SET_VAL_0 _IOR(MAGIC_NUM, 0, char *) #define IOCTL_SET_VALUE_0 _IOR(MAGIC_NUM, 0, char *) #define IOCTL_SET_CHAIN_0 _IOR(MAGIC_NUM, 1, char *) typedef struct ZYNQ_VID_TAG{ int fd; pthread_mutex_t lock; }ZYNQ_VID_T; extern int zynq_gpio_g9_vid_set(int level); extern int zynq_gpio_g19_vid_set(int chain_id, int level); /* HUB_HARDWARE */ #define _MAX_MEM_RANGE (0x10000) void hub_hardware_init(void); void hub_hardware_deinit(void); /* HUB_VID */ #define I2C_DEVICE_NAME "/dev/i2c-0" #define I2C_SLAVE_ADDR 0x01 bool hub_set_vid(uint8_t chan_id, int vol); bool set_timeout_on_i2c(int time); /* DRV_HUB */ #define PAGE_SIZE ((size_t)getpagesize())*2 #define PAGE_MASK ((uint32_t) (long)~(PAGE_SIZE - 1)) /* Definition for CPU ID */ #define XPAR_CPU_ID 0 /* Definitions for peripheral PS7_CORTEXA9_0 */ #define XPAR_PS7_CORTEXA9_0_CPU_CLK_FREQ_HZ 666666687 /******************************************************************/ /* Canonical definitions for peripheral PS7_CORTEXA9_0 */ #define XPAR_CPU_CORTEXA9_0_CPU_CLK_FREQ_HZ 666666687 /******************************************************************/ #define STDIN_BASEADDRESS 0xE0001000 #define STDOUT_BASEADDRESS 0xE0001000 /******************************************************************/ /* Definitions for peripheral PS7_DDR_0 */ #define XPAR_PS7_DDR_0_S_AXI_BASEADDR 0x00100000 #define XPAR_PS7_DDR_0_S_AXI_HIGHADDR 0x1FFFFFFF /******************************************************************/ /* Definitions for driver DEVCFG */ #define XPAR_XDCFG_NUM_INSTANCES 1 /* Definitions for peripheral PS7_DEV_CFG_0 */ #define XPAR_PS7_DEV_CFG_0_DEVICE_ID 0 #define XPAR_PS7_DEV_CFG_0_BASEADDR 0xF8007000 #define XPAR_PS7_DEV_CFG_0_HIGHADDR 0xF80070FF /******************************************************************/ /* Canonical definitions for peripheral PS7_DEV_CFG_0 */ #define XPAR_XDCFG_0_DEVICE_ID XPAR_PS7_DEV_CFG_0_DEVICE_ID #define XPAR_XDCFG_0_BASEADDR 0xF8007000 #define XPAR_XDCFG_0_HIGHADDR 0xF80070FF /******************************************************************/ /* Definitions for driver DMAPS */ #define XPAR_XDMAPS_NUM_INSTANCES 2 /* Definitions for peripheral PS7_DMA_NS */ #define XPAR_PS7_DMA_NS_DEVICE_ID 0 #define XPAR_PS7_DMA_NS_BASEADDR 0xF8004000 #define XPAR_PS7_DMA_NS_HIGHADDR 0xF8004FFF /* Definitions for peripheral PS7_DMA_S */ #define XPAR_PS7_DMA_S_DEVICE_ID 1 #define XPAR_PS7_DMA_S_BASEADDR 0xF8003000 #define XPAR_PS7_DMA_S_HIGHADDR 0xF8003FFF /******************************************************************/ /* Canonical definitions for peripheral PS7_DMA_NS */ #define XPAR_XDMAPS_0_DEVICE_ID XPAR_PS7_DMA_NS_DEVICE_ID #define XPAR_XDMAPS_0_BASEADDR 0xF8004000 #define XPAR_XDMAPS_0_HIGHADDR 0xF8004FFF /* Canonical definitions for peripheral PS7_DMA_S */ #define XPAR_XDMAPS_1_DEVICE_ID XPAR_PS7_DMA_S_DEVICE_ID #define XPAR_XDMAPS_1_BASEADDR 0xF8003000 #define XPAR_XDMAPS_1_HIGHADDR 0xF8003FFF /******************************************************************/ /* Definitions for driver EMACPS */ #define XPAR_XEMACPS_NUM_INSTANCES 1 /* Definitions for peripheral PS7_ETHERNET_0 */ #define XPAR_PS7_ETHERNET_0_DEVICE_ID 0 #define XPAR_PS7_ETHERNET_0_BASEADDR 0xE000B000 #define XPAR_PS7_ETHERNET_0_HIGHADDR 0xE000BFFF #define XPAR_PS7_ETHERNET_0_ENET_CLK_FREQ_HZ 125000000 #define XPAR_PS7_ETHERNET_0_ENET_SLCR_1000MBPS_DIV0 1 #define XPAR_PS7_ETHERNET_0_ENET_SLCR_1000MBPS_DIV1 1 #define XPAR_PS7_ETHERNET_0_ENET_SLCR_100MBPS_DIV0 1 #define XPAR_PS7_ETHERNET_0_ENET_SLCR_100MBPS_DIV1 5 #define XPAR_PS7_ETHERNET_0_ENET_SLCR_10MBPS_DIV0 1 #define XPAR_PS7_ETHERNET_0_ENET_SLCR_10MBPS_DIV1 50 /******************************************************************/ /* Canonical definitions for peripheral PS7_ETHERNET_0 */ #define XPAR_XEMACPS_0_DEVICE_ID XPAR_PS7_ETHERNET_0_DEVICE_ID #define XPAR_XEMACPS_0_BASEADDR 0xE000B000 #define XPAR_XEMACPS_0_HIGHADDR 0xE000BFFF #define XPAR_XEMACPS_0_ENET_CLK_FREQ_HZ 125000000 #define XPAR_XEMACPS_0_ENET_SLCR_1000Mbps_DIV0 1 #define XPAR_XEMACPS_0_ENET_SLCR_1000Mbps_DIV1 1 #define XPAR_XEMACPS_0_ENET_SLCR_100Mbps_DIV0 1 #define XPAR_XEMACPS_0_ENET_SLCR_100Mbps_DIV1 5 #define XPAR_XEMACPS_0_ENET_SLCR_10Mbps_DIV0 1 #define XPAR_XEMACPS_0_ENET_SLCR_10Mbps_DIV1 50 /******************************************************************/ /* Definitions for driver FANS_CTRL */ #define XPAR_FANS_CTRL_NUM_INSTANCES 1 /* Definitions for peripheral FANS_CTRL_0 */ #define XPAR_FANS_CTRL_0_DEVICE_ID 0 #define XPAR_FANS_CTRL_0_S00_AXI_BASEADDR 0x43C00000 #define XPAR_FANS_CTRL_0_S00_AXI_HIGHADDR 0x43C0FFFF /******************************************************************/ /* Definitions for peripheral PS7_AFI_0 */ #define XPAR_PS7_AFI_0_S_AXI_BASEADDR 0xF8008000 #define XPAR_PS7_AFI_0_S_AXI_HIGHADDR 0xF8008FFF /* Definitions for peripheral PS7_AFI_1 */ #define XPAR_PS7_AFI_1_S_AXI_BASEADDR 0xF8009000 #define XPAR_PS7_AFI_1_S_AXI_HIGHADDR 0xF8009FFF /* Definitions for peripheral PS7_AFI_2 */ #define XPAR_PS7_AFI_2_S_AXI_BASEADDR 0xF800A000 #define XPAR_PS7_AFI_2_S_AXI_HIGHADDR 0xF800AFFF /* Definitions for peripheral PS7_AFI_3 */ #define XPAR_PS7_AFI_3_S_AXI_BASEADDR 0xF800B000 #define XPAR_PS7_AFI_3_S_AXI_HIGHADDR 0xF800BFFF /* Definitions for peripheral PS7_DDRC_0 */ #define XPAR_PS7_DDRC_0_S_AXI_BASEADDR 0xF8006000 #define XPAR_PS7_DDRC_0_S_AXI_HIGHADDR 0xF8006FFF /* Definitions for peripheral PS7_GLOBALTIMER_0 */ #define XPAR_PS7_GLOBALTIMER_0_S_AXI_BASEADDR 0xF8F00200 #define XPAR_PS7_GLOBALTIMER_0_S_AXI_HIGHADDR 0xF8F002FF /* Definitions for peripheral PS7_GPV_0 */ #define XPAR_PS7_GPV_0_S_AXI_BASEADDR 0xF8900000 #define XPAR_PS7_GPV_0_S_AXI_HIGHADDR 0xF89FFFFF /* Definitions for peripheral PS7_INTC_DIST_0 */ #define XPAR_PS7_INTC_DIST_0_S_AXI_BASEADDR 0xF8F01000 #define XPAR_PS7_INTC_DIST_0_S_AXI_HIGHADDR 0xF8F01FFF /* Definitions for peripheral PS7_IOP_BUS_CONFIG_0 */ #define XPAR_PS7_IOP_BUS_CONFIG_0_S_AXI_BASEADDR 0xE0200000 #define XPAR_PS7_IOP_BUS_CONFIG_0_S_AXI_HIGHADDR 0xE0200FFF /* Definitions for peripheral PS7_L2CACHEC_0 */ #define XPAR_PS7_L2CACHEC_0_S_AXI_BASEADDR 0xF8F02000 #define XPAR_PS7_L2CACHEC_0_S_AXI_HIGHADDR 0xF8F02FFF /* Definitions for peripheral PS7_OCMC_0 */ #define XPAR_PS7_OCMC_0_S_AXI_BASEADDR 0xF800C000 #define XPAR_PS7_OCMC_0_S_AXI_HIGHADDR 0xF800CFFF /* Definitions for peripheral PS7_PL310_0 */ #define XPAR_PS7_PL310_0_S_AXI_BASEADDR 0xF8F02000 #define XPAR_PS7_PL310_0_S_AXI_HIGHADDR 0xF8F02FFF /* Definitions for peripheral PS7_PMU_0 */ #define XPAR_PS7_PMU_0_S_AXI_BASEADDR 0xF8891000 #define XPAR_PS7_PMU_0_S_AXI_HIGHADDR 0xF8891FFF #define XPAR_PS7_PMU_0_PMU1_S_AXI_BASEADDR 0xF8893000 #define XPAR_PS7_PMU_0_PMU1_S_AXI_HIGHADDR 0xF8893FFF /* Definitions for peripheral PS7_RAM_0 */ #define XPAR_PS7_RAM_0_S_AXI_BASEADDR 0x00000000 #define XPAR_PS7_RAM_0_S_AXI_HIGHADDR 0x0003FFFF /* Definitions for peripheral PS7_RAM_1 */ #define XPAR_PS7_RAM_1_S_AXI_BASEADDR 0xFFFC0000 #define XPAR_PS7_RAM_1_S_AXI_HIGHADDR 0xFFFFFFFF /* Definitions for peripheral PS7_SCUC_0 */ #define XPAR_PS7_SCUC_0_S_AXI_BASEADDR 0xF8F00000 #define XPAR_PS7_SCUC_0_S_AXI_HIGHADDR 0xF8F000FC /* Definitions for peripheral PS7_SLCR_0 */ #define XPAR_PS7_SLCR_0_S_AXI_BASEADDR 0xF8000000 #define XPAR_PS7_SLCR_0_S_AXI_HIGHADDR 0xF8000FFF /* Definitions for peripheral PS7_SMCC_0 */ #define XPAR_PS7_SMCC_0_S_AXI_BASEADDR 0xE000E000 #define XPAR_PS7_SMCC_0_S_AXI_HIGHADDR 0xE100EFFF /******************************************************************/ /* Definitions for driver GPIOPS */ #define XPAR_XGPIOPS_NUM_INSTANCES 1 /* Definitions for peripheral PS7_GPIO_0 */ #define XPAR_PS7_GPIO_0_DEVICE_ID 0 #define XPAR_PS7_GPIO_0_BASEADDR 0xE000A000 #define XPAR_PS7_GPIO_0_HIGHADDR 0xE000AFFF /******************************************************************/ /* Canonical definitions for peripheral PS7_GPIO_0 */ #define XPAR_XGPIOPS_0_DEVICE_ID XPAR_PS7_GPIO_0_DEVICE_ID #define XPAR_XGPIOPS_0_BASEADDR 0xE000A000 #define XPAR_XGPIOPS_0_HIGHADDR 0xE000AFFF /******************************************************************/ /* Definitions for driver MCOMPAT_SPI_WRAPPER */ #define XPAR_MCOMPAT_SPI_WRAPPER_NUM_INSTANCES 1 /* Definitions for peripheral MCOMPAT_SPI_WRAPPER_0 */ #define XPAR_MCOMPAT_SPI_WRAPPER_0_DEVICE_ID 0 #define XPAR_MCOMPAT_SPI_WRAPPER_0_S00_AXI_BASEADDR 0x43C30000 #define XPAR_MCOMPAT_SPI_WRAPPER_0_S00_AXI_HIGHADDR 0x43C3FFFF /******************************************************************/ /* Definitions for driver NANDPS */ #define XPAR_XNANDPS_NUM_INSTANCES 1 /* Definitions for peripheral PS7_NAND_0 */ #define XPAR_PS7_NAND_0_DEVICE_ID 0 #define XPAR_PS7_NAND_0_BASEADDR 0xE1000000 #define XPAR_PS7_NAND_0_HIGHADDR 0xE1000FFF #define XPAR_PS7_NAND_0_NAND_CLK_FREQ_HZ 100000000 #define XPAR_PS7_NAND_0_SMC_BASEADDR 0xE000E000 #define XPAR_PS7_NAND_0_NAND_WIDTH 8 /******************************************************************/ /* Canonical definitions for peripheral PS7_NAND_0 */ #define XPAR_XNANDPS_0_DEVICE_ID XPAR_PS7_NAND_0_DEVICE_ID #define XPAR_XNANDPS_0_CPU_BASEADDR 0xE1000000 #define XPAR_XNANDPS_0_CPU_HIGHADDR 0xE1000FFF #define XPAR_XNANDPS_0_NAND_CLK_FREQ_HZ 100000000 #define XPAR_XNANDPS_0_SMC_BASEADDR 0xE000E000 #define XPAR_XNANDPS_0_NAND_WIDTH 8 /******************************************************************/ /* Definitions for driver READ_DNA */ #define XPAR_READ_DNA_NUM_INSTANCES 1 /* Definitions for peripheral READ_DNA_0 */ #define XPAR_READ_DNA_0_DEVICE_ID 0 #define XPAR_READ_DNA_0_S00_AXI_BASEADDR 0x43C20000 #define XPAR_READ_DNA_0_S00_AXI_HIGHADDR 0x43C2FFFF /******************************************************************/ /* Definitions for driver SCUGIC */ #define XPAR_XSCUGIC_NUM_INSTANCES 1U /* Definitions for peripheral PS7_SCUGIC_0 */ #define XPAR_PS7_SCUGIC_0_DEVICE_ID 0U #define XPAR_PS7_SCUGIC_0_BASEADDR 0xF8F00100U #define XPAR_PS7_SCUGIC_0_HIGHADDR 0xF8F001FFU #define XPAR_PS7_SCUGIC_0_DIST_BASEADDR 0xF8F01000U /******************************************************************/ /* Canonical definitions for peripheral PS7_SCUGIC_0 */ #define XPAR_SCUGIC_0_DEVICE_ID 0U #define XPAR_SCUGIC_0_CPU_BASEADDR 0xF8F00100U #define XPAR_SCUGIC_0_CPU_HIGHADDR 0xF8F001FFU #define XPAR_SCUGIC_0_DIST_BASEADDR 0xF8F01000U /******************************************************************/ /* Definitions for driver SCUTIMER */ #define XPAR_XSCUTIMER_NUM_INSTANCES 1 /* Definitions for peripheral PS7_SCUTIMER_0 */ #define XPAR_PS7_SCUTIMER_0_DEVICE_ID 0 #define XPAR_PS7_SCUTIMER_0_BASEADDR 0xF8F00600 #define XPAR_PS7_SCUTIMER_0_HIGHADDR 0xF8F0061F /******************************************************************/ /* Canonical definitions for peripheral PS7_SCUTIMER_0 */ #define XPAR_XSCUTIMER_0_DEVICE_ID XPAR_PS7_SCUTIMER_0_DEVICE_ID #define XPAR_XSCUTIMER_0_BASEADDR 0xF8F00600 #define XPAR_XSCUTIMER_0_HIGHADDR 0xF8F0061F /******************************************************************/ /* Definitions for driver SCUWDT */ #define XPAR_XSCUWDT_NUM_INSTANCES 1 /* Definitions for peripheral PS7_SCUWDT_0 */ #define XPAR_PS7_SCUWDT_0_DEVICE_ID 0 #define XPAR_PS7_SCUWDT_0_BASEADDR 0xF8F00620 #define XPAR_PS7_SCUWDT_0_HIGHADDR 0xF8F006FF /******************************************************************/ /* Canonical definitions for peripheral PS7_SCUWDT_0 */ #define XPAR_SCUWDT_0_DEVICE_ID XPAR_PS7_SCUWDT_0_DEVICE_ID #define XPAR_SCUWDT_0_BASEADDR 0xF8F00620 #define XPAR_SCUWDT_0_HIGHADDR 0xF8F006FF /******************************************************************/ /* Definitions for driver SDPS */ #define XPAR_XSDPS_NUM_INSTANCES 1 /* Definitions for peripheral PS7_SD_0 */ #define XPAR_PS7_SD_0_DEVICE_ID 0 #define XPAR_PS7_SD_0_BASEADDR 0xE0100000 #define XPAR_PS7_SD_0_HIGHADDR 0xE0100FFF #define XPAR_PS7_SD_0_SDIO_CLK_FREQ_HZ 100000000 #define XPAR_PS7_SD_0_HAS_CD 0 #define XPAR_PS7_SD_0_HAS_WP 0 #define XPAR_PS7_SD_0_BUS_WIDTH 0 #define XPAR_PS7_SD_0_MIO_BANK 0 #define XPAR_PS7_SD_0_HAS_EMIO 0 /******************************************************************/ /* Canonical definitions for peripheral PS7_SD_0 */ #define XPAR_XSDPS_0_DEVICE_ID XPAR_PS7_SD_0_DEVICE_ID #define XPAR_XSDPS_0_BASEADDR 0xE0100000 #define XPAR_XSDPS_0_HIGHADDR 0xE0100FFF #define XPAR_XSDPS_0_SDIO_CLK_FREQ_HZ 100000000 #define XPAR_XSDPS_0_HAS_CD 0 #define XPAR_XSDPS_0_HAS_WP 0 #define XPAR_XSDPS_0_BUS_WIDTH 0 #define XPAR_XSDPS_0_MIO_BANK 0 #define XPAR_XSDPS_0_HAS_EMIO 0 /******************************************************************/ /* Definitions for driver UARTPS */ #define XPAR_XUARTPS_NUM_INSTANCES 1 /* Definitions for peripheral PS7_UART_1 */ #define XPAR_PS7_UART_1_DEVICE_ID 0 #define XPAR_PS7_UART_1_BASEADDR 0xE0001000 #define XPAR_PS7_UART_1_HIGHADDR 0xE0001FFF #define XPAR_PS7_UART_1_UART_CLK_FREQ_HZ 100000000 #define XPAR_PS7_UART_1_HAS_MODEM 0 /******************************************************************/ /* Canonical definitions for peripheral PS7_UART_1 */ #define XPAR_XUARTPS_0_DEVICE_ID XPAR_PS7_UART_1_DEVICE_ID #define XPAR_XUARTPS_0_BASEADDR 0xE0001000 #define XPAR_XUARTPS_0_HIGHADDR 0xE0001FFF #define XPAR_XUARTPS_0_UART_CLK_FREQ_HZ 100000000 #define XPAR_XUARTPS_0_HAS_MODEM 0 /******************************************************************/ /* Definitions for driver USBPS */ #define XPAR_XUSBPS_NUM_INSTANCES 1 /* Definitions for peripheral PS7_USB_0 */ #define XPAR_PS7_USB_0_DEVICE_ID 0 #define XPAR_PS7_USB_0_BASEADDR 0xE0002000 #define XPAR_PS7_USB_0_HIGHADDR 0xE0002FFF /******************************************************************/ /* Canonical definitions for peripheral PS7_USB_0 */ #define XPAR_XUSBPS_0_DEVICE_ID XPAR_PS7_USB_0_DEVICE_ID #define XPAR_XUSBPS_0_BASEADDR 0xE0002000 #define XPAR_XUSBPS_0_HIGHADDR 0xE0002FFF /******************************************************************/ /* Definitions for driver VID_LED_BUZZER_CTRL */ #define XPAR_VID_LED_BUZZER_CTRL_NUM_INSTANCES 1 /* Definitions for peripheral VID_LED_BUZZER_CTRL_0 */ #define XPAR_VID_LED_BUZZER_CTRL_0_DEVICE_ID 0 #define XPAR_VID_LED_BUZZER_CTRL_0_S00_AXI_BASEADDR 0x43C10000 #define XPAR_VID_LED_BUZZER_CTRL_0_S00_AXI_HIGHADDR 0x43C1FFFF /******************************************************************/ /* Definitions for driver XADCPS */ #define XPAR_XADCPS_NUM_INSTANCES 1 /* Definitions for peripheral PS7_XADC_0 */ #define XPAR_PS7_XADC_0_DEVICE_ID 0 #define XPAR_PS7_XADC_0_BASEADDR 0xF8007100 #define XPAR_PS7_XADC_0_HIGHADDR 0xF8007120 /******************************************************************/ /* Canonical definitions for peripheral PS7_XADC_0 */ #define XPAR_XADCPS_0_DEVICE_ID XPAR_PS7_XADC_0_DEVICE_ID #define XPAR_XADCPS_0_BASEADDR 0xF8007100 #define XPAR_XADCPS_0_HIGHADDR 0xF8007120 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG0_OFFSET 0 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG1_OFFSET 4 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG2_OFFSET 8 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG3_OFFSET 12 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG4_OFFSET 16 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG5_OFFSET 20 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG6_OFFSET 24 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG7_OFFSET 28 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG8_OFFSET 32 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG9_OFFSET 36 #define VID_LED_BUZZER_CTRL_S00_AXI_SLV_REG10_OFFSET 40 #define FANS_CTRL_S00_AXI_SLV_REG0_OFFSET 0 #define FANS_CTRL_S00_AXI_SLV_REG1_OFFSET 4 #define FANS_CTRL_S00_AXI_SLV_REG2_OFFSET 8 #define FANS_CTRL_S00_AXI_SLV_REG3_OFFSET 12 #define FANS_CTRL_S00_AXI_SLV_REG4_OFFSET 16 #define FANS_CTRL_S00_AXI_SLV_REG5_OFFSET 20 #define FANS_CTRL_S00_AXI_SLV_REG6_OFFSET 24 #define FANS_CTRL_S00_AXI_SLV_REG7_OFFSET 28 #define FANS_CTRL_S00_AXI_SLV_REG8_OFFSET 32 #define FANS_CTRL_S00_AXI_SLV_REG9_OFFSET 36 #define FANS_CTRL_S00_AXI_SLV_REG10_OFFSET 40 #define FANS_CTRL_S00_AXI_SLV_REG11_OFFSET 44 #define AUTO_CMD0A_REG0_ADDR 0x0160 #define AUTO_CMD0A_REG1_ADDR 0x0164 #define AUTO_CMD0A_REG2_ADDR 0x0168 #define AUTO_CMD0A_REG3_ADDR 0x016c #define AUTO_CMD0A_REG4_ADDR 0x0170 #define AUTO_CMD0A_REG5_ADDR 0x0174 #define AUTO_CMD0A_REG6_ADDR 0x0178 #define AUTO_CMD0A_REG7_ADDR 0x017c #define LED_ON 0 #define LED_OFF 1 #define LED_BLING_ON 2 #define LED_BLING_OFF 3 #define SPI_RESET_REG 0x1200 #define SPI_BASEADDR_GAP 0x200 #define SPI_AXIBASE 0x43C30000 #define XST_SUCCESS 0L #define XST_FAILURE 1L #define XST_DEVICE_NOT_FOUND 2L #define XST_DEVICE_BLOCK_NOT_FOUND 3L #define XST_INVALID_VERSION 4L #define XST_DEVICE_IS_STARTED 5L #define XST_DEVICE_IS_STOPPED 6L #define XST_FIFO_ERROR 7L #define XST_CRC_ERROR 8L #define MAIN_CFG_REG0_ADDR 0x00 #define MAIN_CFG_REG1_ADDR 0x04 #define MAIN_CFG_REG2_ADDR 0x08 #define MAIN_CFG_REG3_ADDR 0x0c #define CMD_CTRL_REG0_ADDR 0x10 #define CMD_CTRL_REG1_ADDR 0x14 #define CMD_CTRL_REG2_ADDR 0x18 #define CMD_CTRL_REG3_ADDR 0x1c #define CMD_READ_REG0_ADDR 0x20 #define CMD_READ_REG1_ADDR 0x24 #define CMD_READ_REG2_ADDR 0x28 #define CMD_READ_REG3_ADDR 0x2c #define CMD_READ_REG4_ADDR 0x30 #define CMD_READ_REG5_ADDR 0x34 #define CMD_READ_REG6_ADDR 0x38 #define CMD_READ_REG7_ADDR 0x3c #define CMD_READ_REG8_ADDR 0x40 #define CMD_READ_REG9_ADDR 0x44 #define CMD_READ_REGA_ADDR 0x48 #define CMD_READ_REGB_ADDR 0x4c #define CMD_READ_REGC_ADDR 0x50 #define CMD_READ_REGD_ADDR 0x54 #define CMD_READ_REGE_ADDR 0x58 #define CMD_READ_REGF_ADDR 0x5c #define CMD_WRITE_HEAD_ADDR 0x60 #define CMD_WRITE_REG01_ADDR 0x64 #define CMD_WRITE_REG02_ADDR 0x68 #define CMD_WRITE_REG03_ADDR 0x6c #define CMD_WRITE_REG04_ADDR 0x70 #define CMD_WRITE_REG05_ADDR 0x74 #define CMD_WRITE_REG06_ADDR 0x78 #define CMD_WRITE_REG07_ADDR 0x7c #define CMD_WRITE_REG08_ADDR 0x80 #define CMD_WRITE_REG09_ADDR 0x84 #define CMD_WRITE_REG0A_ADDR 0x88 #define CMD_WRITE_REG0B_ADDR 0x8c #define CMD_WRITE_REG0C_ADDR 0x90 #define CMD_WRITE_REG0D_ADDR 0x94 #define CMD_WRITE_REG0E_ADDR 0x98 #define CMD_WRITE_REG0F_ADDR 0x9c #define CMD_WRITE_REG10_ADDR 0xa0 #define CMD_WRITE_REG11_ADDR 0xa4 #define CMD_WRITE_REG12_ADDR 0xa8 #define CMD_WRITE_REG13_ADDR 0xac #define CMD_WRITE_REG14_ADDR 0xb0 #define CMD_WRITE_REG15_ADDR 0xb4 #define CMD_WRITE_REG16_ADDR 0xb8 #define CMD_WRITE_REG17_ADDR 0xbc #define CMD_WRITE_REG18_ADDR 0xc0 #define CMD_WRITE_REG19_ADDR 0xc4 #define CMD_WRITE_REG1A_ADDR 0xc8 #define CMD_WRITE_REG1B_ADDR 0xcc #define CMD_WRITE_REG1C_ADDR 0xd0 #define CMD_WRITE_REG1D_ADDR 0xd4 #define CMD_WRITE_REG1E_ADDR 0xd8 #define CMD_WRITE_REG1F_ADDR 0xdc #define CMD_WRITE_REG20_ADDR 0xe0 #define CMD_WRITE_REG21_ADDR 0xe4 #define CMD_WRITE_REG22_ADDR 0xe8 #define CMD_WRITE_REG23_ADDR 0xec #define CMD_WRITE_REG24_ADDR 0xf0 #define CMD_WRITE_REG25_ADDR 0xf4 #define CMD_WRITE_REG26_ADDR 0xf8 #define CMD_WRITE_REG27_ADDR 0xfc #define SPI_BUFFER_SIZE 170 #define SPI_TX_BUF_SIZE (((CMD_WRITE_REG27_ADDR-CMD_WRITE_HEAD_ADDR) / 4) + 1) * 2 #define SPI_RX_BUF_SIZE (((CMD_READ_REGF_ADDR-CMD_READ_REG0_ADDR) / 4) + 1) * 2 #define CHK_HY 0x00000080 #define CHK_H1 0x00000040 #define CHK_LN 0x00000020 #define CHK_CMD 0x00000004 #define CHK_ID 0x00000008 #define SPI_BYPASS_EN 0x00001000 #define SPI_BYPASS_END 0x00002000 #define REORDER16(arg) ((uint16_t)(arg<<8 | arg>>8)) #define SYSTEM_LINUX void hub_init(void); void hub_deinit(void); int Xil_SPI_In32(uint32_t phyaddr); void Xil_SPI_Out32(uint32_t phyaddr, uint32_t val); extern bool rece_queue_has_nonce(uint8_t spi_id, uint32_t timeout_us); extern void read_nonce_buffer(uint8_t spi_id, uint8_t* buf8, uint32_t len_cfg); extern int send_job_queue(uint8_t spi_id, uint8_t* tx_buf8, uint8_t* rx_buf8, uint32_t len_cfg, uint32_t last_job); extern int do_spi_cmd(uint8_t spi_id, uint8_t* tx_buf8, uint8_t* rx_buf8, uint32_t len_cfg); int hub_spi_init(uint8_t spi_id, uint8_t chip_num); void hub_spi_reset(uint8_t spi_id); void hub_spi_clean_chain(uint32_t spi_id); void hub_set_spi_speed(uint8_t spi_id, int select); void hub_set_power_en(uint8_t chain_id, int value); void hub_set_start_en(uint8_t chain_id, int value); bool hub_set_reset(uint8_t chain_id, int value); void hub_set_led(uint8_t chain_id, int mode); bool hub_set_vid(uint8_t chain_id, int vid); void hub_set_vid_vid(uint8_t chain_id, int vid); void hub_set_vid_uart_select(uint8_t spi_id); void hub_set_pwm(uint8_t fan_id, int frequency, int duty); int hub_get_plug(uint8_t chain_id); void hub_set_green_led(int mode); void hub_set_red_led(int mode); int hub_get_button(void); int enable_auto_nonce(uint8_t chain_id, uint16_t cmd08_cmd, uint32_t len_cfg); int disable_auto_nonce(uint8_t chain_id); void enable_auto_cmd0a(uint8_t spi_id, uint32_t threshold, uint32_t msb, uint32_t lsb, uint32_t large_en, uint32_t mode );//mode : 1 only cmd0a;0 cmd08 follows cmd0a void disable_auto_cmd0a(uint8_t spi_id, uint32_t threshold, uint32_t msb, uint32_t lsb, uint32_t large_en, uint32_t mode );//mode : 1 only cmd0a;0 cmd08 follows cmd0a void init_hub_gpio(void); //#define XPAR_MCOMPAT_PERIPHERAL_0_S00_AXI_BASEADDR 0x43C00000 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG0_OFFSET 0 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG1_OFFSET 4 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG2_OFFSET 8 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG3_OFFSET 12 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG4_OFFSET 16 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG5_OFFSET 20 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG6_OFFSET 24 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG7_OFFSET 28 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG8_OFFSET 32 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG9_OFFSET 36 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG10_OFFSET 40 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG11_OFFSET 44 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG12_OFFSET 48 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG13_OFFSET 52 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG14_OFFSET 56 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG15_OFFSET 60 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG16_OFFSET 64 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG17_OFFSET 68 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG18_OFFSET 72 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG19_OFFSET 76 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG20_OFFSET 80 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG21_OFFSET 84 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG22_OFFSET 88 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG23_OFFSET 92 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG24_OFFSET 96 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG25_OFFSET 100 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG26_OFFSET 104 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG27_OFFSET 108 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG28_OFFSET 112 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG29_OFFSET 116 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG30_OFFSET 120 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG31_OFFSET 124 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG32_OFFSET 128 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG33_OFFSET 132 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG34_OFFSET 136 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG35_OFFSET 140 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG36_OFFSET 144 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG37_OFFSET 148 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG38_OFFSET 152 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG39_OFFSET 156 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG40_OFFSET 160 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG41_OFFSET 164 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG42_OFFSET 168 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG43_OFFSET 172 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG44_OFFSET 176 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG45_OFFSET 180 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG46_OFFSET 184 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG47_OFFSET 188 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG48_OFFSET 192 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG49_OFFSET 196 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG50_OFFSET 200 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG51_OFFSET 204 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG52_OFFSET 208 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG53_OFFSET 212 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG54_OFFSET 216 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG55_OFFSET 220 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG56_OFFSET 224 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG57_OFFSET 228 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG58_OFFSET 232 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG59_OFFSET 236 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG60_OFFSET 240 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG61_OFFSET 244 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG62_OFFSET 248 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG63_OFFSET 252 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG64_OFFSET 256 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG65_OFFSET 260 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG66_OFFSET 264 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG67_OFFSET 268 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG68_OFFSET 272 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG69_OFFSET 276 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG70_OFFSET 280 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG71_OFFSET 284 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG72_OFFSET 288 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG73_OFFSET 292 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG74_OFFSET 296 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG75_OFFSET 300 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG76_OFFSET 304 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG77_OFFSET 308 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG78_OFFSET 312 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG79_OFFSET 316 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG80_OFFSET 320 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG81_OFFSET 324 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG82_OFFSET 328 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG83_OFFSET 332 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG84_OFFSET 336 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG85_OFFSET 340 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG86_OFFSET 344 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG87_OFFSET 348 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG88_OFFSET 352 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG89_OFFSET 356 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG90_OFFSET 360 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG91_OFFSET 364 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG92_OFFSET 368 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG93_OFFSET 372 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG94_OFFSET 376 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG95_OFFSET 380 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG96_OFFSET 384 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG97_OFFSET 388 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG98_OFFSET 392 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG99_OFFSET 396 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG100_OFFSET 400 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG101_OFFSET 404 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG102_OFFSET 408 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG103_OFFSET 412 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG104_OFFSET 416 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG105_OFFSET 420 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG106_OFFSET 424 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG107_OFFSET 428 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG108_OFFSET 432 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG109_OFFSET 436 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG110_OFFSET 440 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG111_OFFSET 444 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG112_OFFSET 448 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG113_OFFSET 452 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG114_OFFSET 456 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG115_OFFSET 460 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG116_OFFSET 464 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG117_OFFSET 468 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG118_OFFSET 472 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG119_OFFSET 476 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG120_OFFSET 480 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG121_OFFSET 484 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG122_OFFSET 488 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG123_OFFSET 492 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG124_OFFSET 496 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG125_OFFSET 500 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG126_OFFSET 504 #define MCOMPAT_PERIPHERAL_S00_AXI_SLV_REG127_OFFSET 508 /* DRV_OPI */ #define AX_CMD_SYNC_HEAD 0xA55A #define CUSTOM_SYNC_HEAD 0x6996 #define OPI_SPI_TIMEOUT 100 #define OPI_STATUS_SUC 0 #define OPI_STATUS_EOR 1 #define OPI_SET_POWER_EN (0x11) #define OPI_SET_STARR_EN (0x12) #define OPI_SET_RESET (0x13) #define OPI_SET_LED (0x14) #define OPI_GET_PLUG (0x15) #define OPI_SET_VID (0x16) #define OPI_SET_PWM (0x17) #define OPI_SET_SPI_SPEED (0x18) #define OPI_POWER_ON (0x21) #define OPI_POWER_DOWN (0x22) #define OPI_POWER_RESET (0x23) #define OPI_HI_BYTE(a) ((uint8_t)(((a) >> 8) & 0xff)) #define OPI_LO_BYTE(a) ((uint8_t)(((a) >> 0) & 0xff)) #define OPI_MAKE_WORD(a, b) (uint16_t)((((a) & 0xff) << 8) | (( (a) & 0xff) << 0)) bool opi_spi_read_write(uint8_t chain_id, uint8_t *txbuf, uint8_t *rxbuf, int len); bool opi_send_command(uint8_t chain_id, uint8_t cmd, uint8_t chip_id, uint8_t *buff, int len); bool opi_poll_result(uint8_t chain_id, uint8_t cmd, uint8_t chip_id, uint8_t *buff, int len); void opi_set_power_en(unsigned char chain_id, int val); void opi_set_start_en(unsigned char chain_id, int val); bool opi_set_reset(unsigned char chain_id, int val); void opi_set_led(unsigned char chain_id, int val); int opi_get_plug(unsigned char chain_id); bool opi_set_vid(unsigned char chain_id, int vid); void opi_set_pwm(unsigned char fan_id, int frequency, int duty); bool opi_chain_power_on(unsigned char chain_id); bool opi_chain_power_down(unsigned char chain_id); bool opi_chain_hw_reset(unsigned char chain_id); bool opi_chain_power_on_all(void); bool opi_chain_power_down_all(void); void opi_set_spi_speed(unsigned char chain_id, int index); /* DRV_SPI */ void spi_send_data(ZYNQ_SPI_T *spi, unsigned char *buf, int len); void spi_recv_data(ZYNQ_SPI_T *spi, unsigned char *buf, int len); void spi_send_data_in_word(ZYNQ_SPI_T *spi, unsigned char *buf, int len); void spi_recv_data_in_word(ZYNQ_SPI_T *spi, unsigned char *buf, int len); bool spi_send_command(ZYNQ_SPI_T *spi, unsigned char cmd, unsigned char chip_id, unsigned char *buff, int len); bool spi_poll_result(ZYNQ_SPI_T *spi, unsigned char cmd, unsigned char chip_id, unsigned char *buff, int len); void init_spi_gpio(int chain_num); void exit_spi_gpio(int chain_num); void spi_set_power_en(unsigned char chain_id, int val); void spi_set_start_en(unsigned char chain_id, int val); bool spi_set_reset(unsigned char chain_id, int val); void spi_set_led(unsigned char chain_id, int val); bool spi_set_vid(unsigned char chain_id, int vid); int spi_get_plug(unsigned char chain_id); void spi_set_spi_speed(unsigned char chain_id, int index); /* DRV_ZYNQ */ bool zynq_chain_power_on(unsigned char chain_id); bool zynq_chain_power_down(unsigned char chain_id); bool zynq_chain_hw_reset(unsigned char chain_id); bool zynq_chain_power_on_all(void); bool zynq_chain_power_down_all(void); /* HUB_CMD */ bool init_hub_cmd(int chain_num, int chip_num); bool exit_hub_cmd(int chain_num); bool hub_cmd_reset(unsigned char chain_id, unsigned char chip_id, unsigned char *in, unsigned char *out); int hub_cmd_bist_start(unsigned char chain_id, unsigned char chip_id); bool hub_cmd_bist_collect(unsigned char chain_id, unsigned char chip_id); bool hub_cmd_bist_fix(unsigned char chain_id, unsigned char chip_id); bool hub_cmd_write_register(unsigned char chain_id, unsigned char chip_id, unsigned char *reg, int len); bool hub_cmd_read_register(unsigned char chain_id, unsigned char chip_id, unsigned char *reg, int len); bool hub_cmd_read_write_reg0d(unsigned char chain_id, unsigned char chip_id, unsigned char *in, int len, unsigned char *out); bool hub_cmd_read_result(unsigned char chain_id, unsigned char chip_id, unsigned char *res, int len); bool hub_cmd_write_job(unsigned char chain_id, unsigned char chip_id, unsigned char *job, int len); bool hub_cmd_auto_nonce(unsigned char chain_id, int mode, int len); bool hub_cmd_read_nonce(unsigned char chain_id, unsigned char *res, int len); //bool hub_cmd_get_temp(mcompat_fan_temp_s *fan_temp_ctrl); bool hub_get_chain_temp(unsigned char chain_id, short tmp_hi, short tmp_lo, short tmp_avg); /* OPI_CMD */ bool init_opi_cmd(void); bool exit_opi_cmd(void); bool opi_cmd_reset(unsigned char chain_id, unsigned char chip_id, unsigned char *in, unsigned char *out); int opi_cmd_bist_start(unsigned char chain_id, unsigned char chip_id); bool opi_cmd_bist_collect(unsigned char chain_id, unsigned char chip_id); bool opi_cmd_bist_fix(unsigned char chain_id, unsigned char chip_id); bool opi_cmd_write_register(unsigned char chain_id, unsigned char chip_id, unsigned char *reg, int len); bool opi_cmd_read_register(unsigned char chain_id, unsigned char chip_id, unsigned char *reg, int len); bool opi_cmd_read_write_reg0d(unsigned char chain_id, unsigned char chip_id, unsigned char *in, int len, unsigned char *out); bool opi_cmd_read_result(unsigned char chain_id, unsigned char chip_id, unsigned char *res, int len); bool opi_cmd_write_job(unsigned char chain_id, unsigned char chip_id, unsigned char *job, int len); /* SPI_CMD */ bool init_spi_cmd(int chain_num); bool exit_spi_cmd(int chain_num); bool spi_cmd_reset(unsigned char chain_id, unsigned char chip_id, unsigned char *in, unsigned char *out); int spi_cmd_bist_start(unsigned char chain_id, unsigned char chip_id); bool spi_cmd_bist_collect(unsigned char chain_id, unsigned char chip_id); bool spi_cmd_bist_fix(unsigned char chain_id, unsigned char chip_id); bool spi_cmd_write_register(unsigned char chain_id, unsigned char chip_id, unsigned char *reg, int len); bool spi_cmd_read_register(unsigned char chain_id, unsigned char chip_id, unsigned char *reg, int len); bool spi_cmd_read_write_reg0d(unsigned char chain_id, unsigned char chip_id, unsigned char *in, int len, unsigned char *out); bool spi_cmd_read_result(unsigned char chain_id, unsigned char chip_id, unsigned char *res, int len); bool spi_cmd_write_job(unsigned char chain_id, unsigned char chip_id, unsigned char *job, int len); /* UTIL */ unsigned short CRC16_2(unsigned char* pchMsg, unsigned short wDataLen); /* OPI_H3 */ #define SW_PORTC_IO_BASE 0x01c20800 #define GPIO_BANK(pin) ((pin) >> 5) #define GPIO_CFG_INDEX(pin) (((pin) & 0x1F) >> 3) #define GPIO_CFG_OFFSET(pin) ((((pin) & 0x1F) & 0x7) << 2) #define GPIO_NUM(pin) ((pin) & 0x1F) #define GPIO_PUL_INDEX(pin) (((pin) & 0x1F )>> 4) #define GPIO_PUL_OFFSET(pin) (((pin) & 0x0F) << 1) struct sunxi_gpio { unsigned int cfg[4]; unsigned int dat; unsigned int drv[2]; unsigned int pull[2]; }; struct sunxi_gpio_int { unsigned int cfg[3]; unsigned int ctl; unsigned int sta; unsigned int deb; }; struct sunxi_gpio_reg { struct sunxi_gpio gpio_bank[9]; unsigned char res[0xbc]; struct sunxi_gpio_int gpio_int; }; typedef struct { uint8_t mode; uint8_t bits; uint32_t speed; uint16_t delay; } spi_config_t; #define PA12 12 #define PA11 11 #define PA6 6 #define PA0 0 #define PA1 1 #define PA3 3 #define PC0 64 #define PC1 65 #define PC2 66 #define PA19 19 #define PA7 7 #define PA8 8 #define PA9 9 #define PA10 10 #define PA20 20 #define PA13 13 #define PA14 14 #define PD14 110 #define PC4 68 #define PC7 71 #define PA2 2 #define PC3 67 #define PA21 21 #define PA18 18 #define PG8 200 #define PG9 201 #define PG6 198 #define PG7 199 #define PA15 15 #define PL10 362 #define PL3 355 #define _3 12 #define _5 11 #define _7 6 #define _8 13 #define _10 14 #define _11 0 #define _12 110 #define _13 1 #define _15 3 #define _16 68 #define _18 71 #define _19 64 #define _21 65 #define _22 2 #define _23 66 #define _24 67 #define _26 21 #define _27 19 #define _28 18 #define _29 7 #define _31 8 #define _32 200 #define _33 9 #define _35 10 #define _36 201 #define _37 20 #define _38 198 #define _40 199 #define STATUS_LED 15 #define POWER_LED 362 #define POWER_KEY 355 #define HIGH 1 #define LOW 0 #define INPUT 0 #define OUTPUT 1 #define PUTDOWM 2 #define PUTUP 1 int gpio_init(void); int gpio_setcfg(unsigned int pin, unsigned int p1); int gpio_getcfg(unsigned int pin); int gpio_output(unsigned int pin, unsigned int p1); int gpio_pullup(unsigned int pin, unsigned int p1); int gpio_input(unsigned int pin); int i2c_open(char *dev, uint8_t address); int i2c_close(int fd); int i2c_send(int fd, uint8_t *buf, uint8_t num_bytes); int i2c_read(int fd, uint8_t *buf, uint8_t num_bytes); int spi_open(char *dev, spi_config_t config); int spi_close(int fd); int spi_xfer(int fd, uint8_t *tx_buf, uint8_t tx_len, uint8_t *rx_buf, uint8_t rx_len); int spi_read(int fd, uint8_t *rx_buf, uint8_t rx_len); int spi_write(int fd, uint8_t *tx_buffer, uint8_t tx_len); void delay(unsigned int howLong); /* OPI_SPI */ #define PIN_SPI_A0 _11 #define PIN_SPI_A1 _12 #define PIN_SPI_A2 _13 #define PIN_SPI_E1 _22 #define SPI_DEVICE_TEMPLATE "/dev/spidev%d.%d" #define DEFAULT_SPI_BUS 1 #define DEFAULT_SPI_CS_LINE 0 #define DEFAULT_SPI_MODE SPI_MODE_1 #define DEFAULT_SPI_BITS_PER_WORD 16 #define DEFAULT_SPI_SPEED 1500000 #define DEFAULT_SPI_DELAY_USECS 0 struct spi_config { int bus; int cs_line; uint8_t mode; uint32_t speed; uint8_t bits; uint16_t delay; }; struct spi_ctx { int fd; int power_en; int start_en; int reset; int led; int plug; int id; struct spi_config config; }; void opi_spi_init(void); void opi_spi_exit(void); //void opi_set_spi_speed(uint32_t speed); bool opi_spi_transfer(uint8_t id, uint16_t *txbuf, uint16_t *rxbuf, int len); #endif /* _DM_COMPAT_H_ */