// // Copyright 2013-2014 Ettus Research LLC // #ifndef _B200_MAIN_H #define _B200_MAIN_H #include "cyu3externcstart.h" #include "cyu3types.h" #include "cyu3usbconst.h" #define FX3_COMPAT_MAJOR (uint8_t)(4) #define FX3_COMPAT_MINOR (uint8_t)(0) /* GPIO Pins */ #define GPIO_FPGA_RESET (uint32_t)(26) // CTL[9] #define GPIO_DONE (uint32_t)(27) #define GPIO_PROGRAM_B (uint32_t)(45) #define GPIO_INIT_B (uint32_t)(50) #define GPIO_AUX_PWR_ON (uint32_t)(51) #define GPIO_SHDN_SW (uint32_t)(52) #define GPIO_FX3_SCLK (uint32_t)(53) #define GPIO_FX3_CE (uint32_t)(54) #define GPIO_FX3_MISO (uint32_t)(55) #define GPIO_FX3_MOSI (uint32_t)(56) #define GPIO_FPGA_SB_SCL (uint32_t)(25) // CTL[8] #define GPIO_FPGA_SB_SDA (uint32_t)(23) // CTL[6] /* Create the bit-shifts that define the above GPIOs for bitmaps. The bitshifts * are relative to 32-bit masks, so shifts > 32 are adjusted accordingly. Note * that GPIOs < 32 are configured without the use of masks. */ #define MASK_GPIO_PROGRAM_B (uint32_t)(1 << (GPIO_PROGRAM_B - 32)) #define MASK_GPIO_INIT_B (uint32_t)(1 << (GPIO_INIT_B - 32)) #define MASK_GPIO_AUX_PWR_ON (uint32_t)(1 << (GPIO_FX3_SCLK - 32)) #define MASK_GPIO_SHDN_SW (uint32_t)(1 << (GPIO_FX3_SCLK - 32)) #define MASK_GPIO_FX3_SCLK (uint32_t)(1 << (GPIO_FX3_SCLK - 32)) #define MASK_GPIO_FX3_CE (uint32_t)(1 << (GPIO_FX3_CE - 32)) #define MASK_GPIO_FX3_MISO (uint32_t)(1 << (GPIO_FX3_MISO - 32)) #define MASK_GPIO_FX3_MOSI (uint32_t)(1 << (GPIO_FX3_MOSI - 32)) #define MASK_GPIO_FPGA_SB_SCL (uint32_t)(1 << (GPIO_FPGA_SB_SCL - 0)) #define MASK_GPIO_FPGA_SB_SDA (uint32_t)(1 << (GPIO_FPGA_SB_SDA - 0)) #define USB3_PACKETS_PER_BURST (16) #define USB2_PACKETS_PER_BURST (1) #define DMA_SIZE_INFINITE (0) #define APP_THREAD_STACK_SIZE (0x0800) #define THREAD_PRIORITY (8) #define B200_VREQ_BITSTREAM_START (uint8_t)(0x02) #define B200_VREQ_BITSTREAM_DATA (uint8_t)(0x12) #define B200_VREQ_BITSTREAM_DATA_FILL (uint8_t)(0x13) #define B200_VREQ_BITSTREAM_DATA_COMMIT (uint8_t)(0x14) #define B200_VREQ_GET_COMPAT (uint8_t)(0x15) #define B200_VREQ_SET_FPGA_HASH (uint8_t)(0x1C) #define B200_VREQ_GET_FPGA_HASH (uint8_t)(0x1D) #define B200_VREQ_SET_FW_HASH (uint8_t)(0x1E) #define B200_VREQ_GET_FW_HASH (uint8_t)(0x1F) #define B200_VREQ_LOOP_CODE (uint8_t)(0x22) #define B200_VREQ_GET_LOG (uint8_t)(0x23) #define B200_VREQ_GET_COUNTERS (uint8_t)(0x24) #define B200_VREQ_CLEAR_COUNTERS (uint8_t)(0x25) #define B200_VREQ_GET_USB_EVENT_LOG (uint8_t)(0x26) #define B200_VREQ_SET_CONFIG (uint8_t)(0x27) #define B200_VREQ_GET_CONFIG (uint8_t)(0x28) #define B200_VREQ_WRITE_SB (uint8_t)(0x29) #define B200_VREQ_SET_SB_BAUD_DIV (uint8_t)(0x30) #define B200_VREQ_FLUSH_DATA_EPS (uint8_t)(0x31) #define B200_VREQ_SPI_WRITE_AD9361 (uint8_t)(0x32) #define B200_VREQ_SPI_READ_AD9361 (uint8_t)(0x42) #define B200_VREQ_FPGA_CONFIG (uint8_t)(0x55) #define B200_VREQ_TOGGLE_FPGA_RESET (uint8_t)(0x62) #define B200_VREQ_TOGGLE_GPIF_RESET (uint8_t)(0x72) #define B200_VREQ_GET_USB_SPEED (uint8_t)(0x80) #define B200_VREQ_GET_STATUS (uint8_t)(0x83) #define B200_VREQ_AD9361_CTRL_WRITE (uint8_t)(0x90) #define B200_VREQ_AD9361_CTRL_READ (uint8_t)(0x91) #define B200_VREQ_AD9361_LOOPBACK (uint8_t)(0x92) #define B200_VREQ_RESET_DEVICE (uint8_t)(0x99) #define B200_VREQ_EEPROM_WRITE (uint8_t)(0xBA) #define B200_VREQ_EEPROM_READ (uint8_t)(0xBB) #define EVENT_BITSTREAM_START (1 << 1) #define EVENT_GPIO_DONE_HIGH (1 << 2) #define EVENT_GPIO_INITB_RISE (1 << 3) #define EVENT_FPGA_CONFIG (1 << 4) #define EVENT_RE_ENUM (1 << 5) #define EVENT_AD9361_XACT_INIT (1 << 6) #define EVENT_AD9361_XACT_DONE (1 << 7) /* FX3 States */ #define STATE_UNDEFINED (0) #define STATE_FPGA_READY (1) #define STATE_CONFIGURING_FPGA (2) #define STATE_BUSY (3) #define STATE_RUNNING (4) #define STATE_UNCONFIGURED (5) #define STATE_ERROR (6) /* Define the USB endpoints, sockets, and directions. The LSB is the socket * number, and the MSB is the direction. For USB 2.0, sockets are mapped * one-to-one since they must be uni-directional. */ #define VREQ_ENDPOINT_PRODUCER 0x00 // OUT (host -> FX3) #define VREQ_ENDPOINT_CONSUMER 0x80 // IN (FX3 -> host) #define DATA_ENDPOINT_PRODUCER 0x02 // OUT (host -> FX3), produces for FPGA #define DATA_ENDPOINT_CONSUMER 0x86 // IN (FX3 -> host), consumes from FPGA #define CTRL_ENDPOINT_PRODUCER 0x04 // OUT (host -> FX3), produces for FPGA #define CTRL_ENDPOINT_CONSUMER 0x88 // IN (FX3 -> host), consumes from FPGA #define PRODUCER_DATA_SOCKET CY_U3P_UIB_SOCKET_PROD_2 #define CONSUMER_DATA_SOCKET CY_U3P_UIB_SOCKET_CONS_6 #define PRODUCER_CTRL_SOCKET CY_U3P_UIB_SOCKET_PROD_4 #define CONSUMER_CTRL_SOCKET CY_U3P_UIB_SOCKET_CONS_8 #define DATA_TX_PPORT_SOCKET CY_U3P_PIB_SOCKET_0 #define DATA_RX_PPORT_SOCKET CY_U3P_PIB_SOCKET_1 #define CTRL_COMM_PPORT_SOCKET CY_U3P_PIB_SOCKET_2 #define CTRL_RESP_PPORT_SOCKET CY_U3P_PIB_SOCKET_3 /* Descriptor definitions for USB enumerations. */ extern uint8_t b200_usb2_dev_desc[]; extern uint8_t b200_usb3_dev_desc[]; extern const uint8_t b200_dev_qual_desc[]; extern const uint8_t b200_usb_fs_config_desc[]; extern const uint8_t b200_usb_hs_config_desc[]; extern const uint8_t b200_usb_bos_desc[]; extern const uint8_t b200_usb_ss_config_desc[]; extern const uint8_t b200_string_lang_id_desc[]; extern const uint8_t b200_usb_manufacture_desc[]; extern const uint8_t b200_usb_product_desc[]; extern uint8_t dev_serial[]; #include "cyu3externcend.h" #endif /* _B200_MAIN_H */