From 4f57ecab13e37f132c99ec797d412def3f1e2a66 Mon Sep 17 00:00:00 2001 From: Mark Meserve Date: Thu, 11 Apr 2019 15:14:37 -0500 Subject: b200: add custom bootloader - Adds custom bootloader code - Refactor common functions in firmware and bootloader --- firmware/fx3/b200/b200_main.c | 3161 ----------------------------------------- 1 file changed, 3161 deletions(-) delete mode 100644 firmware/fx3/b200/b200_main.c (limited to 'firmware/fx3/b200/b200_main.c') diff --git a/firmware/fx3/b200/b200_main.c b/firmware/fx3/b200/b200_main.c deleted file mode 100644 index ac4988ae0..000000000 --- a/firmware/fx3/b200/b200_main.c +++ /dev/null @@ -1,3161 +0,0 @@ -// -// Copyright 2013-2015 Ettus Research LLC -// - -/* This file defines the application that runs on the Cypress FX3 device, and - * enables the user to program the FPGA with an FPGA image. Since the FPGA - * doesn't yet have a clock, the image must be bit-banged into the FPGA. - */ - -#include -#include - -#include "b200_main.h" -#include "b200_gpifconfig.h" -#include "b200_i2c.h" - -#include "cyu3dma.h" -#include "cyu3error.h" -#include "cyu3gpif.h" -#include "cyu3gpio.h" -#include "cyu3spi.h" -#include "cyu3os.h" -#include "cyu3pib.h" -#include "cyu3system.h" -#include "cyu3usb.h" -#include "cyu3utils.h" -#include "cyfxversion.h" -#include "pib_regs.h" - -#define STATIC_SAVER static // Save stack space for variables in a non-re-entrant function (e.g. USB setup callback) - -/* - * WARNING: Before you enable any of the features below, please read the comments on the same line for that feature! - * Indented features must have the parent feature enabled as well. - */ - -#define HAS_HEAP // This requires memory to be set aside for the heap (e.g. required for printing floating-point numbers). You can apply the accompanying patch ('fx3_mem_map.patch') to fx3.ld & cyfxtx.c to create one. -#define ENABLE_MSG // This will cause the compiled code to exceed the default text memory area (SYS_MEM). You can apply the accompanying patch ('fx3_mem_map.patch') to fx3.ld & cyfxtx.c to resize the memory map so it will fit. -#define ENABLE_MANUAL_DMA_XFER // Allows us to set it from the host (using the side channel util), doesn't auto-enable it -//#define ENABLE_P2U_SUSP_EOP -#define ENABLE_MANUAL_DMA_XFER_FROM_HOST -#define ENABLE_MANUAL_DMA_XFER_TO_HOST -//#define ENABLE_DMA_BUFFER_PACKET_DEBUG -#define ENABLE_FPGA_SB // Be careful: this will add an ever-so-slight delay to some operations (e.g. AD3961 tune) -#define ENABLE_RE_ENUM_THREAD -#define ENABLE_USB_EVENT_LOGGING -//#define PREVENT_LOW_POWER_MODE -/*#define ENABLE_INIT_B_WORKAROUND // This should only be enabled if you have a board where the FPGA INIT_B line is broken, but the FPGA is known to work*/ -/*#define ENABLE_DONE_WORKAROUND // This should only be enabled if you have a board where the FPGA DONE line is broken, but the FPGA is known to work*/ - -#define WATCHDOG_TIMEOUT 1500 -#define CHECK_POWER_STATE_SLEEP_TIME 500 // Should be less than WATCHDOG_TIMEOUT - -#define FPGA_PROGRAMMING_POLL_SLEEP 10 // ticks -#define FPGA_PROGRAMMING_BITSTREAM_START_POLL_COUNT 250 // ~2.5 secs -#define FPGA_PROGRAMMING_INITB_POLL_COUNT 100 // ~1 sec -#define FPGA_PROGRAMMING_DONE_POLL_COUNT 250 // ~2.5 secs // This is the interval *after* no FPGA programming activity has been detected - -#define FPGA_RESET_SETTLING_TIME (1*10) // ~10ms (for SB to initialise) - -#define RE_ENUM_THREAD_SLEEP_TIME 100 -#define KEEP_ALIVE_LOOP_COUNT 200 - -#pragma message "----------------------" - -#ifdef ENABLE_MSG -#pragma message "msg enabled" -#else -#pragma message "msg disabled" -#endif // ENABLE_MSG - -#ifdef ENABLE_MANUAL_DMA_XFER -#pragma message "Manual DMA transfers" - -#ifdef ENABLE_MANUAL_DMA_XFER_FROM_HOST -#pragma message " -> From host" -#endif // ENABLE_MANUAL_DMA_XFER_FROM_HOST - -#ifdef ENABLE_MANUAL_DMA_XFER_TO_HOST -#pragma message " <- To host" -#endif // ENABLE_MANUAL_DMA_XFER_TO_HOST - -#ifdef ENABLE_DMA_BUFFER_PACKET_DEBUG -#pragma message " Packet debugging enabled" -#endif // ENABLE_DMA_BUFFER_PACKET_DEBUG - -#else -#pragma message "Auto DMA transfers" -#endif // ENABLE_MANUAL_DMA_XFER - -#ifdef ENABLE_FPGA_SB -#pragma message "FPGA Settings Bus enabled" -#else -#pragma message "FPGA Settings Bus disabled" -#endif // ENABLE_FPGA_SB - -#ifdef ENABLE_RE_ENUM_THREAD -#pragma message "Re-enumeration & statistics thread enabled" -#else -#pragma message "Re-enumeration & statistics thread disabled" -#endif // ENABLE_RE_ENUM_THREAD - -#ifdef ENABLE_USB_EVENT_LOGGING -#pragma message "USB event logging enabled" -#else -#pragma message "USB event logging disabled" -#endif // ENABLE_USB_EVENT_LOGGING - -#ifdef PREVENT_LOW_POWER_MODE -#pragma message "Preventing Low Power Mode" -#else -#pragma message "Allowing Low Power Mode" -#endif // PREVENT_LOW_POWER_MODE - -#ifdef HAS_HEAP -#pragma message "Heap enabled" -#else -#pragma message "Heap disabled" -#endif // HAS_HEAP - -#ifdef ENABLE_INIT_B_WORKAROUND -#pragma message "INIT_B workaround enabled" -#else -#pragma message "INIT_B workaround disabled" -#endif // ENABLE_INIT_B_WORKAROUND - -#ifdef ENABLE_DONE_WORKAROUND -#pragma message "DONE workaround enabled" -#else -#pragma message "DONE workaround disabled" -#endif // ENABLE_DONE_WORKAROUND - -#pragma message "----------------------" - -/* Declare global & static fields for our bit-bang application. */ -static CyU3PDmaChannel data_cons_to_prod_chan_handle; -static CyU3PDmaChannel data_prod_to_cons_chan_handle; - -static CyU3PDmaChannel ctrl_cons_to_prod_chan_handle; -static CyU3PDmaChannel ctrl_prod_to_cons_chan_handle; - -static CyU3PEvent g_event_usb_config; -static CyU3PThread thread_main_app; -static CyU3PThread thread_fpga_config; -#ifdef ENABLE_RE_ENUM_THREAD -static CyU3PThread thread_re_enum; -#endif // ENABLE_RE_ENUM_THREAD - -static CyBool_t g_app_running = CyFalse; -static uint8_t g_fx3_state = STATE_UNDEFINED; - -#define USB2_VREQ_BUF_SIZE 64 -#define USB3_VREQ_BUF_SIZE 512 -#define MIN_VREQ_BUF_SIZE USB2_VREQ_BUF_SIZE -#define MAX_VREQ_BUF_SIZE USB3_VREQ_BUF_SIZE - -static uint16_t g_vendor_req_buff_size = MIN_VREQ_BUF_SIZE; -static uint8_t g_vendor_req_buffer[MAX_VREQ_BUF_SIZE] __attribute__ ((aligned (32))); -static uint16_t g_vendor_req_read_count = 0; - -static uint8_t fpga_hash[4] __attribute__ ((aligned (32))); -static uint8_t fw_hash[4] __attribute__ ((aligned (32))); -static uint8_t compat_num[2]; -static uint32_t g_fpga_programming_write_count = 0; - -#define COUNTER_MAGIC 0x10024001 -#define LOG_BUFFER_SIZE /*MAX_VREQ_BUF_SIZE*/1024 // [Max vreq @ USB3 (64 @ USB2)] Can be larger -static char log_buffer[LOG_BUFFER_SIZE]; -static char log_contiguous_buffer[LOG_BUFFER_SIZE]; -static int log_buffer_idx = 0, log_buffer_len = 0; -#ifdef ENABLE_MSG -static int log_count = 0; -#endif // ENABLE_MSG - -#define USB_EVENT_LOG_SIZE 64 -static uint8_t g_usb_event_log[USB_EVENT_LOG_SIZE]; -static uint16_t g_last_usb_event_log_index = 0; -static uint8_t g_usb_event_log_contiguous_buf[USB_EVENT_LOG_SIZE]; - -#ifdef ENABLE_FPGA_SB -static CyBool_t g_fpga_sb_enabled = CyFalse; -//static uint16_t g_fpga_sb_uart_div = 434*2; -static uint16_t g_fpga_sb_last_usb_event_log_index = 0; -static CyU3PThread thread_fpga_sb_poll; -static CyU3PMutex g_suart_lock; -#endif // ENABLE_FPGA_SB - -static CyU3PMutex g_log_lock, g_counters_lock, g_counters_dma_from_host_lock, g_counters_dma_to_host_lock; - -#define FPGA_SB_UART_ADDR_BASE 0x00 - -enum UARTRegs -{ - SUART_CLKDIV, - SUART_TXLEVEL, - SUART_RXLEVEL, - SUART_TXCHAR, - SUART_RXCHAR -}; - -enum UARTPacketType -{ - UPT_NONE = '\0', - UPT_MSG = ' ', - UPT_COUNTERS = 'C', - UPT_USB_EVENTS = 'U', -}; - -enum ConfigFlags { - CF_NONE = 0, - CF_TX_SWING = 1 << 0, - CF_TX_DEEMPHASIS = 1 << 1, - CF_DISABLE_USB2 = 1 << 2, - CF_ENABLE_AS_SUPERSPEED = 1 << 3, - CF_PPORT_DRIVE_STRENGTH = 1 << 4, - CF_DMA_BUFFER_SIZE = 1 << 5, - CF_DMA_BUFFER_COUNT = 1 << 6, - CF_MANUAL_DMA = 1 << 7, - CF_SB_BAUD_DIV = 1 << 8, - - CF_RE_ENUM = 1 << 31 -}; - -typedef struct Config { - int tx_swing; // [90] [65] 45 - int tx_deemphasis; // 0x11 - int disable_usb2; // 0 - int enable_as_superspeed; // 1 - int pport_drive_strength; // CY_U3P_DS_THREE_QUARTER_STRENGTH - int dma_buffer_size; // [USB3] (max) - int dma_buffer_count; // [USB3] 2 - int manual_dma; // 0 - int sb_baud_div; // 434*2 -} CONFIG, *PCONFIG; - -typedef struct ConfigMod { - int flags; - CONFIG config; -} CONFIG_MOD, *PCONFIG_MOD; - -static CONFIG g_config = { - 65, // tx_swing - 0x11, // tx_deemphasis - 0, // disable_usb2 - 1, // enable_as_superspeed - CY_U3P_DS_THREE_QUARTER_STRENGTH, // pport_drive_strength - 16*1024, // dma_buffer_size - optimized value from Cypress AN86947 - 2, // dma_buffer_count - optimized value from Cypress AN86947 - 0, // manual_dma - 434*2 // sb_baud_div -}; -static CONFIG_MOD g_config_mod; - -#define REG_LNK_PHY_ERROR_STATUS 0xE0033044 - -enum PhyErrors { - PHYERR_PHY_LOCK_EV = 1 << 8, - PHYERR_TRAINING_ERROR_EV = 1 << 7, - PHYERR_RX_ERROR_CRC32_EV = 1 << 6, - PHYERR_RX_ERROR_CRC16_EV = 1 << 5, - PHYERR_RX_ERROR_CRC5_EV = 1 << 4, - PHYERR_PHY_ERROR_DISPARITY_EV = 1 << 3, - PHYERR_PHY_ERROR_EB_UND_EV = 1 << 2, - PHYERR_PHY_ERROR_EB_OVR_EV = 1 << 1, - PHYERR_PHY_ERROR_DECODE_EV = 1 << 0, - - PHYERR_MAX = PHYERR_PHY_LOCK_EV, - PHYERR_MASK = (PHYERR_MAX << 1) - 1 -}; - -typedef struct USBErrorCounters { - int phy_error_count; - int link_error_count; - - int PHY_LOCK_EV; - int TRAINING_ERROR_EV; - int RX_ERROR_CRC32_EV; - int RX_ERROR_CRC16_EV; - int RX_ERROR_CRC5_EV; - int PHY_ERROR_DISPARITY_EV; - int PHY_ERROR_EB_UND_EV; - int PHY_ERROR_EB_OVR_EV; - int PHY_ERROR_DECODE_EV; -} USB_ERROR_COUNTERS, *PUSB_ERROR_COUNTERS; - -typedef struct DMACounters { - int XFER_CPLT; - int SEND_CPLT; - int RECV_CPLT; - int PROD_EVENT; - int CONS_EVENT; - int ABORTED; - int ERROR; - int PROD_SUSP; - int CONS_SUSP; - - int BUFFER_MARKER; - int BUFFER_EOP; - int BUFFER_ERROR; - int BUFFER_OCCUPIED; - - int last_count; - int last_size; - - int last_sid; - int bad_sid_count; -} DMA_COUNTERS, *PDMA_COUNTERS; - -typedef struct PIBCounters -{ - int socket_inactive; // CYU3P_PIB_ERR_THR1_SCK_INACTIVE -} PIB_COUNTERS, *PPIB_COUNTERS; - -typedef struct Counters { - int magic; - - DMA_COUNTERS dma_to_host; - DMA_COUNTERS dma_from_host; - - int log_overrun_count; - - int usb_error_update_count; - USB_ERROR_COUNTERS usb_error_counters; - - int usb_ep_underrun_count; - - int heap_size; - - int resume_count; - - int state_transition_count; - int invalid_gpif_state; - - PIB_COUNTERS pib_counters[4]; -} COUNTERS, *PCOUNTERS; - -volatile static COUNTERS g_counters; - -#ifndef min -#define min(a,b) ((a)<(b)?(a):(b)) -#endif // min - -#define LOCKP(p) CyU3PMutexGet(p, CYU3P_WAIT_FOREVER) -#define UNLOCKP(p) CyU3PMutexPut(p) -#define LOCK(p) LOCKP(&p) -#define UNLOCK(p) UNLOCKP(&p) - -//////////////////////////////////////////////////////////////////////////////// - -char *heap_end = 0; -caddr_t _sbrk(int incr) -{ -#ifdef HAS_HEAP - extern char __heap_start; - extern char __heap_end; - char *prev_heap_end; - - if (heap_end == 0) - { - heap_end = (char *)&__heap_start; - } - prev_heap_end = heap_end; - - if (heap_end + incr > &__heap_end) - { - return (caddr_t) 0; - } - heap_end += incr; - g_counters.heap_size += incr; // Not sync'd - - return (caddr_t) prev_heap_end; -#else - return (caddr_t) -1; -#endif // HAS_HEAP -} - -//////////////////////////////////////////////////////////////////////////////// - -void b200_start_fpga_sb_gpio(void); -void sb_write(uint8_t reg, uint32_t val); -void _sb_write_string(const char* msg); - -void msg(const char* str, ...) { -#define msg_CHECK_USE_LOCK -//void _msgv(int use_lock, const char* str, va_list args) { -//#define msg_CHECK_USE_LOCK if (use_lock) -#ifdef ENABLE_MSG - va_list args; - static char buf[LOG_BUFFER_SIZE]; - int idx = 0; - - msg_CHECK_USE_LOCK - LOCK(g_log_lock); - - ++log_count; - log_count %= 10000; - - va_start(args, str); - - if (1) { // FIXME: Optional - uint32_t time_now = CyU3PGetTime(); - idx += sprintf(buf, "%08X %04i ", (uint)time_now, log_count); - } - else - idx += sprintf(buf, "%04i ", log_count); - idx += vsnprintf(buf + idx, LOG_BUFFER_SIZE - idx, str, args); - - va_end(args); - - if ((LOG_BUFFER_SIZE - log_buffer_len) < (idx + 1 + 1)) { - msg_CHECK_USE_LOCK - LOCK(g_counters_lock); - ++g_counters.log_overrun_count; - msg_CHECK_USE_LOCK - UNLOCK(g_counters_lock); - - goto msg_exit; - } - - // Circular buffer if we need it later, but currently won't wrap due to above condition - memcpy(log_buffer + log_buffer_len, buf, min(idx + 1, LOG_BUFFER_SIZE - log_buffer_len)); - if ((idx + 1) > (LOG_BUFFER_SIZE - log_buffer_len)) - { - memcpy(log_buffer, buf + (LOG_BUFFER_SIZE - log_buffer_len), (idx + 1) - (LOG_BUFFER_SIZE - log_buffer_len)); - log_buffer[(idx + 1) - (LOG_BUFFER_SIZE - log_buffer_len)] = '\0'; - } - else - log_buffer[log_buffer_len + idx + 1] = '\0'; - - log_buffer_len += (idx + 1); -msg_exit: - msg_CHECK_USE_LOCK - UNLOCK(g_log_lock); -#ifdef ENABLE_FPGA_SB - LOCK(g_suart_lock); - sb_write(SUART_TXCHAR, UPT_MSG); - _sb_write_string(buf); - _sb_write_string("\r\n"); - UNLOCK(g_suart_lock); -#endif // ENABLE_FPGA_SB -#endif // ENABLE_MSG -} -/* -void msg(const char* str, ...) -{ - va_list args; - va_start(args, str); - _msgv(1, str, args); - va_end(args); -} - -void msg_nl(const char* str, ...) -{ - va_list args; - va_start(args, str); - _msgv(0, str, args); - va_end(args); -} -*/ -void log_reset(void) { - //LOCK(g_log_lock); - - log_buffer_idx = 0; - log_buffer_len = 0; - log_buffer[0] = '\0'; - - //UNLOCK(g_log_lock); -} - -void counters_auto_reset(void) { - //LOCK(g_counters_lock); - - g_counters.log_overrun_count = 0; - - //UNLOCK(g_counters_lock); -} - -void counters_dma_reset(void) { - LOCK(g_counters_lock); - - LOCK(g_counters_dma_to_host_lock); - memset((void*)&g_counters.dma_to_host, 0x00, sizeof(DMA_COUNTERS)); - UNLOCK(g_counters_dma_to_host_lock); - - LOCK(g_counters_dma_from_host_lock); - memset((void*)&g_counters.dma_from_host, 0x00, sizeof(DMA_COUNTERS)); - UNLOCK(g_counters_dma_from_host_lock); - - UNLOCK(g_counters_lock); -} - -void counters_reset_usb_errors(void) { - LOCK(g_counters_lock); - - g_counters.usb_error_update_count = 0; - memset((void*)&g_counters.usb_error_counters, 0x00, sizeof(g_counters.usb_error_counters)); - - UNLOCK(g_counters_lock); -} - -#ifdef ENABLE_MANUAL_DMA_XFER -/* Callback funtion for the DMA event notification. */ -void dma_callback ( - CyU3PDmaChannel *chHandle, /* Handle to the DMA channel. */ - CyU3PDmaCbType_t type, /* Callback type. */ - CyU3PDmaCBInput_t *input, /* Callback status. */ - int from_host) -{ - CyU3PReturnStatus_t status = CY_U3P_SUCCESS; - - PDMA_COUNTERS cnt = (PDMA_COUNTERS)(from_host ? &g_counters.dma_from_host : &g_counters.dma_to_host); - CyU3PMutex* lock = (from_host ? &g_counters_dma_from_host_lock : &g_counters_dma_to_host_lock); - - uint16_t buffer_status = (input->buffer_p.status & CY_U3P_DMA_BUFFER_STATUS_MASK); - if (buffer_status & CY_U3P_DMA_BUFFER_MARKER) - { - cnt->BUFFER_MARKER++; - } - if (buffer_status & CY_U3P_DMA_BUFFER_EOP) - { - cnt->BUFFER_EOP++; - } - if (buffer_status & CY_U3P_DMA_BUFFER_ERROR) - { - cnt->BUFFER_ERROR++; - } - if (buffer_status & CY_U3P_DMA_BUFFER_OCCUPIED) - { - cnt->BUFFER_OCCUPIED++; - } - - if (type == CY_U3P_DMA_CB_PROD_EVENT) - { -#ifdef ENABLE_DMA_BUFFER_PACKET_DEBUG - LOCKP(lock); - int prod_cnt = cnt->PROD_EVENT++; - UNLOCKP(lock); - - //if (cnt->last_count != input->buffer_p.count) - // msg("[DMA%d %05d] buffer.count (%05d) != last_count (%05d)", from_host, prod_cnt, input->buffer_p.count, cnt->last_count); - cnt->last_count = input->buffer_p.count; - - if (cnt->last_size != input->buffer_p.size) - msg("[DMA%d %05d] buffer.size (%05d) != last_size (%05d)", from_host, prod_cnt, input->buffer_p.size, cnt->last_size); - cnt->last_size = input->buffer_p.size; - - uint32_t* p32 = input->buffer_p.buffer; - uint32_t sid = p32[1]; - cnt->last_sid = (int)sid; - if (((from_host == 0) && ((sid != 0xa0) && (sid != 0xb0))) || - ((from_host == 1) && ((sid != 0x50) && (sid != 0x60)))) - { - cnt->bad_sid_count++; - msg("[DMA%d %05d] Bad SID: 0x%08x", from_host, prod_cnt, sid); - } - - uint16_t* p16 = input->buffer_p.buffer; - - if (p32[0] & (((uint32_t)1) << 31)) - { - msg("[DMA%d %05d] Error code: 0x%x (packet len: %05d, buffer count: %05d, seq: %04d)", from_host, prod_cnt, p32[4], p16[0], input->buffer_p.count, (p16[1] & 0x0fff)); // Status - - //msg("[DMA%d] 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x", from_host, p32[0], p32[1], p32[2], p32[3], p32[4], p32[5]); - } - else - { - if (p16[1] & (((uint16_t)1) << 12)) - { - msg("[DMA%d %05d] EOB (packet len: %05d, buffer count: %05d)", from_host, prod_cnt, p16[0], input->buffer_p.count); // Comes with one sample - } - - if ((p16[0] != input->buffer_p.count) && - ((p16[0] + 4) != input->buffer_p.count)) // Case of overrun packet length being padded (being rounded up) - { - if (from_host == 0) - msg("[DMA%d %05d] Packet len (%05d) != buffer count (%05d), seq: %04d [0x%04x 0x%04x]", from_host, prod_cnt, p16[0], input->buffer_p.count, (p16[1] & 0x0fff), p16[0], p16[1]); - } - - //msg("[DMA%d] 0x%04x 0x%04x 0x%04x 0x%04x", from_host, p16[0], p16[1], p16[2], p16[3]); - - if (p16[1] & (((uint16_t)1) << 12)) - msg("[DMA%d %05d] 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x 0x%08x", from_host, prod_cnt, p32[0], p32[1], p32[2], p32[3], p32[4], p32[5]); - } -#endif // ENABLE_DMA_BUFFER_PACKET_DEBUG - status = CyU3PDmaChannelCommitBuffer (chHandle, input->buffer_p.count, 0); -#ifndef ENABLE_DMA_BUFFER_PACKET_DEBUG - LOCKP(lock); - cnt->PROD_EVENT++; - UNLOCKP(lock); -#endif // !ENABLE_DMA_BUFFER_PACKET_DEBUG - } - else if (type == CY_U3P_DMA_CB_CONS_EVENT) - { - LOCKP(lock); - cnt->CONS_EVENT++; - UNLOCKP(lock); - } - else if (type == CY_U3P_DMA_CB_XFER_CPLT) - { - LOCKP(lock); - cnt->XFER_CPLT++; - UNLOCKP(lock); - } - else if (type == CY_U3P_DMA_CB_SEND_CPLT) - { - LOCKP(lock); - cnt->SEND_CPLT++; - UNLOCKP(lock); - } - else if (type == CY_U3P_DMA_CB_RECV_CPLT) - { - LOCKP(lock); - cnt->RECV_CPLT++; - UNLOCKP(lock); - } - else if (type == CY_U3P_DMA_CB_ABORTED) - { - LOCKP(lock); - cnt->ABORTED++; - UNLOCKP(lock); - - msg("! Aborted %i", from_host); - } - else if (type == CY_U3P_DMA_CB_ERROR) - { - LOCKP(lock); - cnt->ERROR++; - UNLOCKP(lock); - - msg("! Error %i", from_host); - } - else if (type == CY_U3P_DMA_CB_PROD_SUSP) - { - LOCKP(lock); - cnt->PROD_SUSP++; - UNLOCKP(lock); - - msg("! Prod suspend %i", from_host); - } - else if (type == CY_U3P_DMA_CB_CONS_SUSP) - { - LOCKP(lock); - cnt->CONS_SUSP++; - UNLOCKP(lock); - - //msg("! Cons suspend %i", from_host); - - CyU3PDmaChannelResume (chHandle, CyFalse, CyTrue); - } -} - -void from_host_dma_callback ( - CyU3PDmaChannel *chHandle, /* Handle to the DMA channel. */ - CyU3PDmaCbType_t type, /* Callback type. */ - CyU3PDmaCBInput_t *input) /* Callback status. */ -{ - return dma_callback(chHandle, type, input, 1); -} - -void to_host_dma_callback ( - CyU3PDmaChannel *chHandle, /* Handle to the DMA channel. */ - CyU3PDmaCbType_t type, /* Callback type. */ - CyU3PDmaCBInput_t *input) /* Callback status. */ -{ - return dma_callback(chHandle, type, input, 0); -} -#endif // ENABLE_MANUAL_DMA_XFER - -/*! Interrupt callback for GPIOs. - * - * This function is invoked by the GPIO interrupt handler when pins configured - * as inputs with interrupts are triggered. */ -void gpio_interrupt_callback(uint8_t gpio_id) { - CyBool_t gpio_value; - - if ((gpio_id == GPIO_DONE) && (g_fx3_state == STATE_CONFIGURING_FPGA)) { // Only proceed if in the correct FX3 state - CyU3PGpioGetValue(gpio_id, &gpio_value); - - if(gpio_value == CyTrue) { - //msg("DONE HIGH"); - CyU3PEventSet(&g_event_usb_config, EVENT_GPIO_DONE_HIGH, CYU3P_EVENT_OR); - } - } else if ((gpio_id == GPIO_INIT_B) && (g_fx3_state == STATE_FPGA_READY)) { // Only proceed if in the correct FX3 state - CyU3PGpioGetValue(gpio_id, &gpio_value); - - if(gpio_value == CyTrue) { - //msg("INITB_RISE"); - CyU3PEventSet(&g_event_usb_config, EVENT_GPIO_INITB_RISE, CYU3P_EVENT_OR); - } - } -} - - -/*! Stops the application, and destroys transport data structures. - * - * This function is essentially a destructor for all transport configurations. - * It ensures that if the USB configuration is reset without a power reboot, - * everything will come back up properly. */ -void b200_fw_stop(void) { - msg("b200_fw_stop"); - - CyU3PEpConfig_t usb_endpoint_config; - - /* Update the flag. */ - g_app_running = CyFalse; - - /* Flush the endpoint memory */ - CyU3PUsbFlushEp(DATA_ENDPOINT_PRODUCER); - CyU3PUsbFlushEp(DATA_ENDPOINT_CONSUMER); - CyU3PUsbFlushEp(CTRL_ENDPOINT_PRODUCER); - CyU3PUsbFlushEp(CTRL_ENDPOINT_CONSUMER); - - /* Reset the DMA channels */ - // SDK 1.3 known issue #1 - probably not necessary since Destroy is next, but just in case - CyU3PDmaChannelReset(&data_cons_to_prod_chan_handle); - CyU3PDmaChannelReset(&data_prod_to_cons_chan_handle); - CyU3PDmaChannelReset(&ctrl_cons_to_prod_chan_handle); - CyU3PDmaChannelReset(&ctrl_prod_to_cons_chan_handle); - - /* Destroy the DMA channels */ - CyU3PDmaChannelDestroy(&data_cons_to_prod_chan_handle); - CyU3PDmaChannelDestroy(&data_prod_to_cons_chan_handle); - CyU3PDmaChannelDestroy(&ctrl_cons_to_prod_chan_handle); - CyU3PDmaChannelDestroy(&ctrl_prod_to_cons_chan_handle); - - /* Disable endpoints. */ - CyU3PMemSet((uint8_t *) &usb_endpoint_config, 0, \ - sizeof(usb_endpoint_config)); - usb_endpoint_config.enable = CyFalse; - - CyU3PSetEpConfig(DATA_ENDPOINT_PRODUCER, &usb_endpoint_config); - CyU3PSetEpConfig(DATA_ENDPOINT_CONSUMER, &usb_endpoint_config); - CyU3PSetEpConfig(CTRL_ENDPOINT_PRODUCER, &usb_endpoint_config); - CyU3PSetEpConfig(CTRL_ENDPOINT_CONSUMER, &usb_endpoint_config); -} - - -void reset_gpif(void) { - g_fx3_state = STATE_BUSY; - - // Put the FPGA into RESET - CyU3PGpioSetValue(GPIO_FPGA_RESET, CyTrue); - - // Bring down GPIF - CyU3PGpifDisable(/*CyTrue*/CyFalse); - - /* Reset the DMA channels */ - CyU3PDmaChannelReset(&data_cons_to_prod_chan_handle); - CyU3PDmaChannelReset(&data_prod_to_cons_chan_handle); - CyU3PDmaChannelReset(&ctrl_cons_to_prod_chan_handle); - CyU3PDmaChannelReset(&ctrl_prod_to_cons_chan_handle); - - /* Reset the DMA transfers */ - CyU3PDmaChannelSetXfer(&data_cons_to_prod_chan_handle, DMA_SIZE_INFINITE); - CyU3PDmaChannelSetXfer(&data_prod_to_cons_chan_handle, DMA_SIZE_INFINITE); - CyU3PDmaChannelSetXfer(&ctrl_cons_to_prod_chan_handle, DMA_SIZE_INFINITE); - CyU3PDmaChannelSetXfer(&ctrl_prod_to_cons_chan_handle, DMA_SIZE_INFINITE); - - /* Flush the USB endpoints */ - CyU3PUsbFlushEp(DATA_ENDPOINT_PRODUCER); - CyU3PUsbFlushEp(DATA_ENDPOINT_CONSUMER); - CyU3PUsbFlushEp(CTRL_ENDPOINT_PRODUCER); - CyU3PUsbFlushEp(CTRL_ENDPOINT_CONSUMER); - - /* Load the GPIF configuration for Slave FIFO sync mode. */ - //CyU3PGpifLoad(&CyFxGpifConfig); - - /* Start the state machine. */ - //if (CyU3PGpifSMStart(RESET, ALPHA_RESET) != CY_U3P_SUCCESS) - // msg("! CyU3PGpifSMStart"); - - /* Configure the watermarks for the slfifo-write buffers. */ - //CyU3PGpifSocketConfigure(0, DATA_TX_PPORT_SOCKET, 5, CyFalse, 1); - //CyU3PGpifSocketConfigure(1, DATA_RX_PPORT_SOCKET, 6, CyFalse, 1); - //CyU3PGpifSocketConfigure(2, CTRL_COMM_PPORT_SOCKET, 5, CyFalse, 1); - //CyU3PGpifSocketConfigure(3, CTRL_RESP_PPORT_SOCKET, 6, CyFalse, 1); - - CyU3PGpioSetValue(GPIO_FPGA_RESET, CyFalse); - - CyU3PThreadSleep(FPGA_RESET_SETTLING_TIME); - - if (CyU3PGpifSMStart(RESET, ALPHA_RESET) != CY_U3P_SUCCESS) - msg("! CyU3PGpifSMStart"); - - msg("GPIF reset"); - - b200_start_fpga_sb_gpio(); - - g_fx3_state = STATE_RUNNING; -} - - -CyU3PReturnStatus_t b200_set_io_matrix(CyBool_t fpga_config_mode) { - CyU3PIoMatrixConfig_t io_config_matrix; - CyU3PReturnStatus_t res; - - /* Configure the IO peripherals on the FX3. The gpioSimpleEn arrays are - * bitmaps, where each bit represents the GPIO of the matching index - the - * second array is index + 32. */ - CyU3PMemSet((uint8_t *) &io_config_matrix, 0, sizeof(io_config_matrix)); - io_config_matrix.isDQ32Bit = (fpga_config_mode == CyFalse); - io_config_matrix.lppMode = CY_U3P_IO_MATRIX_LPP_DEFAULT; - io_config_matrix.gpioSimpleEn[0] = 0 | MASK_GPIO_FPGA_SB_SCL | MASK_GPIO_FPGA_SB_SDA; - io_config_matrix.gpioSimpleEn[1] = MASK_GPIO_PROGRAM_B \ - | MASK_GPIO_INIT_B \ - | (fpga_config_mode ? 0 : \ - // Used once FPGA config is done to bit-bang SPI, etc. - MASK_GPIO_SHDN_SW \ - | MASK_GPIO_AUX_PWR_ON \ - | MASK_GPIO_FX3_SCLK \ - | MASK_GPIO_FX3_CE \ - | MASK_GPIO_FX3_MISO \ - | MASK_GPIO_FX3_MOSI); - io_config_matrix.gpioComplexEn[0] = 0; - io_config_matrix.gpioComplexEn[1] = 0; - io_config_matrix.useUart = CyFalse; - io_config_matrix.useI2C = CyTrue; - io_config_matrix.useI2S = CyFalse; - io_config_matrix.useSpi = fpga_config_mode; - - res = CyU3PDeviceConfigureIOMatrix(&io_config_matrix); - if (res != CY_U3P_SUCCESS) - msg("! ConfigureIOMatrix"); - - return res; -} - - -CyU3PReturnStatus_t b200_gpio_init(CyBool_t set_callback) { - CyU3PGpioClock_t gpio_clock_config; - CyU3PReturnStatus_t res; - - /* Since we are only using FX3's 'simple GPIO' functionality, these values - * must *NOT* change. Cypress says changing them will break stuff. */ - CyU3PMemSet((uint8_t *) &gpio_clock_config, 0, \ - sizeof(gpio_clock_config)); - gpio_clock_config.fastClkDiv = 2; - gpio_clock_config.slowClkDiv = 0; - gpio_clock_config.simpleDiv = CY_U3P_GPIO_SIMPLE_DIV_BY_2; - gpio_clock_config.clkSrc = CY_U3P_SYS_CLK; - gpio_clock_config.halfDiv = 0; - - res = CyU3PGpioInit(&gpio_clock_config, (set_callback ? gpio_interrupt_callback : NULL)); - if (res != CY_U3P_SUCCESS) - msg("! CyU3PGpioInit"); - - return res; -} - - -void sb_write(uint8_t reg, uint32_t val) { -#ifdef ENABLE_FPGA_SB - const int len = 32; - int i; - - if (g_fpga_sb_enabled == CyFalse) - return; - - reg += FPGA_SB_UART_ADDR_BASE; - - //CyU3PBusyWait(1); // Can be used after each SetValue to slow down bit changes - - // START - CyU3PGpioSetValue(GPIO_FPGA_SB_SCL, 1); // Should already be 1 - CyU3PGpioSetValue(GPIO_FPGA_SB_SDA, 0); - - // ADDR[8] - for (i = 7; i >= 0; i--) { - uint8_t bit = ((reg & (0x1 << i)) ? 0x01 : 0x00); - CyU3PGpioSetValue(GPIO_FPGA_SB_SCL, 0); - CyU3PGpioSetValue(GPIO_FPGA_SB_SDA, bit); - - CyU3PGpioSetValue(GPIO_FPGA_SB_SCL, 1); // FPGA reads bit - } - - // DATA[32] - for (i = (len-1); i >= 0; i--) { - uint8_t bit = ((val & (0x1 << i)) ? 0x01 : 0x00); - CyU3PGpioSetValue(GPIO_FPGA_SB_SCL, 0); - CyU3PGpioSetValue(GPIO_FPGA_SB_SDA, bit); - - CyU3PGpioSetValue(GPIO_FPGA_SB_SCL, 1); // FPGA reads bit - } - - // STOP - CyU3PGpioSetValue(GPIO_FPGA_SB_SDA, 0); - CyU3PGpioSetValue(GPIO_FPGA_SB_SCL, 0); - CyU3PGpioSetValue(GPIO_FPGA_SB_SCL, 1); // Actual stop - CyU3PGpioSetValue(GPIO_FPGA_SB_SDA, 1); // Xact occurs -#endif // ENABLE_FPGA_SB -} - - -void _sb_write_string(const char* msg) { -#ifdef ENABLE_FPGA_SB - while (*msg) { - sb_write(SUART_TXCHAR, (uint8_t)(*(msg++))); - } -#endif // ENABLE_FPGA_SB -} - - -void sb_write_string(const char* msg) { -#ifdef ENABLE_FPGA_SB - LOCK(g_suart_lock); - _sb_write_string(msg); - UNLOCK(g_suart_lock); -#endif // ENABLE_FPGA_SB -} - - -void b200_enable_fpga_sb_gpio(CyBool_t enable) { -#ifdef ENABLE_FPGA_SB - CyU3PGpioSimpleConfig_t gpio_config; - CyU3PReturnStatus_t res; - - if (enable == CyFalse) { - g_fpga_sb_enabled = CyFalse; - - return; - } - - gpio_config.outValue = CyFalse; - gpio_config.driveLowEn = CyTrue; - gpio_config.driveHighEn = CyTrue; - gpio_config.inputEn = CyFalse; - gpio_config.intrMode = CY_U3P_GPIO_NO_INTR; - - res = CyU3PGpioSetSimpleConfig(GPIO_FPGA_SB_SCL, &gpio_config); - if (res != CY_U3P_SUCCESS) { - msg("! GpioSetSimpleConfig GPIO_FPGA_SB_SCL"); - } - res = CyU3PGpioSetSimpleConfig(GPIO_FPGA_SB_SDA, &gpio_config); - if (res != CY_U3P_SUCCESS) { - msg("! GpioSetSimpleConfig GPIO_FPGA_SB_SDA"); - } - - CyU3PGpioSetValue(GPIO_FPGA_SB_SCL, 1); - CyU3PGpioSetValue(GPIO_FPGA_SB_SDA, 1); - - g_fpga_sb_enabled = CyTrue; - - msg("Debug SB OK"); -#endif // ENABLE_FPGA_SB -} - - -void b200_start_fpga_sb_gpio(void) { -#ifdef ENABLE_FPGA_SB - LOCK(g_suart_lock); - sb_write(SUART_CLKDIV, /*g_fpga_sb_uart_div*/g_config.sb_baud_div); // 16-bit reg, master clock = 100 MHz (434*2x = 230400/2) - _sb_write_string("\r\n B2x0 FPGA reset\r\n"); - UNLOCK(g_suart_lock); - - msg("Compat: %d.%d", FX3_COMPAT_MAJOR, FX3_COMPAT_MINOR); - msg("FX3 SDK: %d.%d.%d (build %d)", CYFX_VERSION_MAJOR, CYFX_VERSION_MINOR, CYFX_VERSION_PATCH, CYFX_VERSION_BUILD); -#endif // ENABLE_FPGA_SB -} - - -/*! Initialize and configure the GPIO module for FPGA programming. - * - * This function initializes the FX3 GPIO module, creating a configuration that - * allows us to program the FPGA. After the FPGA has been programmed, the - * application thread will re-configure some of the pins. */ -void b200_gpios_pre_fpga_config(void) { - CyU3PGpioSimpleConfig_t gpio_config; - - //b200_enable_fpga_sb_gpio(CyFalse); - - //CyU3PGpioDeInit(); - - b200_set_io_matrix(CyTrue); - - //b200_gpio_init(CyTrue); // This now done once during startup - - //////////////////////////////////// - - /* GPIO[0:32] must be set with the DeviceOverride function, instead of the - * SimpleEn array configuration. */ - CyU3PDeviceGpioOverride(GPIO_FPGA_RESET, CyTrue); - CyU3PDeviceGpioOverride(GPIO_DONE, CyTrue); - - /* Configure GPIOs: - * Outputs: - * driveLowEn = True - * driveHighEn = True - * inputEn = False - * Inputs: - * driveLowEn = False - * driveHighEn = False - * outValue = Ignored - */ - gpio_config.outValue = CyFalse; - gpio_config.driveLowEn = CyTrue; - gpio_config.driveHighEn = CyTrue; - gpio_config.inputEn = CyFalse; - gpio_config.intrMode = CY_U3P_GPIO_NO_INTR; - - CyU3PGpioSetSimpleConfig(GPIO_FPGA_RESET, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_PROGRAM_B, &gpio_config); - - /* Reconfigure the GPIO configure struct for inputs that DO require - * interrupts attached to them. */ - gpio_config.outValue = CyTrue; - gpio_config.inputEn = CyTrue; - gpio_config.driveLowEn = CyFalse; - gpio_config.driveHighEn = CyFalse; - gpio_config.intrMode = CY_U3P_GPIO_INTR_POS_EDGE; - - CyU3PGpioSetSimpleConfig(GPIO_DONE, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_INIT_B, &gpio_config); - - /* Initialize GPIO output values. */ - CyU3PGpioSetValue(GPIO_FPGA_RESET, 0); - CyU3PGpioSetValue(GPIO_PROGRAM_B, 1); - - b200_enable_fpga_sb_gpio(CyTrue); // So SCL/SDA are already high when SB state machine activates -} - - -void b200_slfifo_mode_gpio_config(void) { - CyU3PGpioSimpleConfig_t gpio_config; - - //b200_enable_fpga_sb_gpio(CyFalse); - - //CyU3PGpioDeInit(); - - b200_set_io_matrix(CyFalse); - - //b200_gpio_init(CyFalse); // This now done once during startup - - //////////////////////////////////// - - /* GPIO[0:32] must be set with the DeviceOverride function, instead of the - * SimpleEn array configuration. */ - CyU3PDeviceGpioOverride(GPIO_FPGA_RESET, CyTrue); - CyU3PDeviceGpioOverride(GPIO_DONE, CyTrue); - CyU3PDeviceGpioOverride(GPIO_FX3_SCLK, CyTrue); - CyU3PDeviceGpioOverride(GPIO_FX3_CE, CyTrue); - CyU3PDeviceGpioOverride(GPIO_FX3_MISO, CyTrue); - CyU3PDeviceGpioOverride(GPIO_FX3_MOSI, CyTrue); - - /* Configure GPIOs: - * Outputs: - * driveLowEn = True - * driveHighEn = True - * inputEn = False - * Inputs: - * driveLowEn = False - * driveHighEn = False - * outValue = Ignored - */ - gpio_config.outValue = CyFalse; - gpio_config.driveLowEn = CyTrue; - gpio_config.driveHighEn = CyTrue; - gpio_config.inputEn = CyFalse; - gpio_config.intrMode = CY_U3P_GPIO_NO_INTR; - - CyU3PGpioSetSimpleConfig(GPIO_FPGA_RESET, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_SHDN_SW, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_FX3_SCLK, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_FX3_CE, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_FX3_MOSI, &gpio_config); - - /* Reconfigure the GPIO configure struct for inputs that do NOT require - * interrupts attached to them. */ - gpio_config.outValue = CyFalse; - gpio_config.inputEn = CyTrue; - gpio_config.driveLowEn = CyFalse; - gpio_config.driveHighEn = CyFalse; - gpio_config.intrMode = CY_U3P_GPIO_NO_INTR; - - CyU3PGpioSetSimpleConfig(GPIO_FX3_MISO, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_AUX_PWR_ON, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_PROGRAM_B, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_INIT_B, &gpio_config); - CyU3PGpioSetSimpleConfig(GPIO_DONE, &gpio_config); - - /* Initialize GPIO output values. */ - CyU3PGpioSetValue(GPIO_FPGA_RESET, 0); - CyU3PGpioSetValue(GPIO_SHDN_SW, 1); - CyU3PGpioSetValue(GPIO_FX3_SCLK, 0); - CyU3PGpioSetValue(GPIO_FX3_CE, 1); - CyU3PGpioSetValue(GPIO_FX3_MOSI, 0); - - // Disabled here as only useful once FPGA has been programmed - //b200_enable_fpga_sb_gpio(CyTrue); - //b200_start_fpga_sb_gpio(); // Set up SB USART -} - - -/*! Initializes and configures USB, and DMA. - * - * This function creates and connects the USB endpoints, and sets up the DMA - * channels. After this is done, everything is 'running' on the FX3 chip, and - * ready to receive data from the host. */ -void b200_fw_start(void) { - msg("b200_fw_start"); - - CyU3PDmaChannelConfig_t dma_channel_config; - CyU3PEpConfig_t usb_endpoint_config; - CyU3PUSBSpeed_t usb_speed; - uint16_t max_packet_size = 0; - uint16_t data_buffer_count = 0; - uint16_t data_buffer_size = 0; - uint16_t data_buffer_size_to_host = 0; - uint16_t data_buffer_size_from_host = 0; - uint8_t num_packets_per_burst = 0; - CyU3PReturnStatus_t apiRetStatus = CY_U3P_SUCCESS; - - /* Based on the USB bus speed, configure the endpoint packet size - * and the DMA buffer size */ - usb_speed = CyU3PUsbGetSpeed(); - switch(usb_speed) { - case CY_U3P_FULL_SPEED: - case CY_U3P_HIGH_SPEED: - max_packet_size = 512; - data_buffer_count = g_config.dma_buffer_count; - data_buffer_size = g_config.dma_buffer_size; - g_vendor_req_buff_size = USB2_VREQ_BUF_SIZE; // Max 64 - num_packets_per_burst = USB2_PACKETS_PER_BURST; // 1 - - data_buffer_size_to_host = data_buffer_size_from_host = data_buffer_size; - - break; - - case CY_U3P_SUPER_SPEED: -//#ifdef PREVENT_LOW_POWER_MODE - apiRetStatus = CyU3PUsbLPMDisable(); // This still allows my laptop to sleep - - if (apiRetStatus != CY_U3P_SUCCESS) - msg("! LPMDisable failed (%d)", apiRetStatus); - else - msg("LPMDisable OK"); -//#endif // PREVENT_LOW_POWER_MODE - max_packet_size = 1024; // Per USB3 spec - - // SDK ver: total available buffer memory - // 1.2.3: 204KB - // 1.3.1: 188KB - - // These options should be ignored - data_buffer_count *MUST* be 1 - // They follow is kept for future testing - - // 1K - //data_buffer_count = 64; - //data_buffer_size = 1024; - - // 4K - //data_buffer_count = 8; - //data_buffer_size = 4096; - - // 8K - //data_buffer_count = 4; - //data_buffer_size = 4096*2; - - // 16K - //data_buffer_count = 2*2; - //data_buffer_size = 16384; // Default 16K - - // 32K - //data_buffer_count = 2; - //data_buffer_size = 16384*2; - - //data_buffer_count = 1; - //data_buffer_size = ((1 << 16) - 1); - //data_buffer_size = 16384; - //data_buffer_size -= (data_buffer_size % 1024); // Align to 1K boundary - - data_buffer_count = g_config.dma_buffer_count; - data_buffer_size = g_config.dma_buffer_size; - - data_buffer_size_to_host = data_buffer_size; - data_buffer_size_from_host = data_buffer_size; - - g_vendor_req_buff_size = USB3_VREQ_BUF_SIZE; // Max 512 - num_packets_per_burst = USB3_PACKETS_PER_BURST; // 8 - break; - - case CY_U3P_NOT_CONNECTED: - msg("! CY_U3P_NOT_CONNECTED"); - return; - - default: - return; - } - - msg("[DMA] to host: %d, from host: %d, depth: %d, burst size: %d", data_buffer_size_to_host, data_buffer_size_from_host, data_buffer_count, num_packets_per_burst); - -#ifdef ENABLE_MANUAL_DMA_XFER - msg("[DMA] Callback enabled"); - -#ifdef ENABLE_P2U_SUSP_EOP - msg("[DMA] P2U_SUSP_EOP enabled"); -#endif // ENABLE_P2U_SUSP_EOP -#ifdef ENABLE_MANUAL_DMA_XFER_FROM_HOST - msg("[DMA] Manual transfers from host"); -#endif // ENABLE_MANUAL_DMA_XFER_FROM_HOST -#ifdef ENABLE_MANUAL_DMA_XFER_TO_HOST - msg("[DMA] Manual transfers to host"); -#endif // ENABLE_MANUAL_DMA_XFER_TO_HOST -#ifdef ENABLE_DMA_BUFFER_PACKET_DEBUG - msg("[DMA] Packet debugging enabled"); -#endif // ENABLE_DMA_BUFFER_PACKET_DEBUG - -#else - msg("[DMA] AUTO transfer mode"); -#endif // ENABLE_MANUAL_DMA_XFER - - msg("[DMA] Transfer override: %s", (g_config.manual_dma ? "manual" : "auto")); - - /************************************************************************* - * Slave FIFO Data DMA Channel Configuration - *************************************************************************/ - - /* Wipe out any old config. */ - CyU3PMemSet((uint8_t *) &usb_endpoint_config, 0, \ - sizeof(usb_endpoint_config)); - - /* This is the configuration for the USB Producer and Consumer endpoints. - * - * The Producer endpoint is actually the endpoint on the FX3 that is - * sending data BACK to the host. This endpoint enumerates as the - * 'BULK IN' endpoint. - - * The Consumer endpoint is the endpoint on the FX3 that is - * receiving data from the host. This endpoint enumerates as the - * 'BULK OUT' endpoint. - * - * Note that this is opposite of what you might expect!. */ - usb_endpoint_config.enable = CyTrue; - usb_endpoint_config.epType = CY_U3P_USB_EP_BULK; - usb_endpoint_config.burstLen = num_packets_per_burst; - usb_endpoint_config.streams = 0; - usb_endpoint_config.pcktSize = max_packet_size; - - /* Configure the endpoints that we are using for slave FIFO transfers. */ - CyU3PSetEpConfig(DATA_ENDPOINT_PRODUCER, &usb_endpoint_config); - CyU3PSetEpConfig(DATA_ENDPOINT_CONSUMER, &usb_endpoint_config); - - /* Create a DMA AUTO channel for U2P transfer. - * DMA size is set based on the USB speed. */ - //dma_channel_config.size = data_buffer_size; - dma_channel_config.size = data_buffer_size_from_host; - dma_channel_config.count = data_buffer_count; - dma_channel_config.prodSckId = PRODUCER_DATA_SOCKET; - dma_channel_config.consSckId = DATA_TX_PPORT_SOCKET; - dma_channel_config.dmaMode = CY_U3P_DMA_MODE_BYTE; - dma_channel_config.notification = 0 | -#if defined(ENABLE_MANUAL_DMA_XFER) && defined(ENABLE_MANUAL_DMA_XFER_FROM_HOST) -CY_U3P_DMA_CB_XFER_CPLT | -CY_U3P_DMA_CB_SEND_CPLT | -CY_U3P_DMA_CB_RECV_CPLT | -CY_U3P_DMA_CB_PROD_EVENT | -CY_U3P_DMA_CB_CONS_EVENT | -CY_U3P_DMA_CB_ABORTED | -CY_U3P_DMA_CB_ERROR | -CY_U3P_DMA_CB_PROD_SUSP | -CY_U3P_DMA_CB_CONS_SUSP | -#endif // ENABLE_MANUAL_DMA_XFER - 0; - //if (g_config.manual_dma == 0) - // dma_channel_config.notification = 0; // Force all off is manual is disabled - dma_channel_config.cb = -#if defined(ENABLE_MANUAL_DMA_XFER) && defined(ENABLE_MANUAL_DMA_XFER_FROM_HOST) - from_host_dma_callback; -#else - NULL; -#endif // ENABLE_MANUAL_DMA_XFER - dma_channel_config.prodHeader = 0; - dma_channel_config.prodFooter = 0; - dma_channel_config.consHeader = 0; - dma_channel_config.prodAvailCount = 0; - - CyU3PDmaChannelCreate (&data_cons_to_prod_chan_handle, -#if defined(ENABLE_MANUAL_DMA_XFER) && defined(ENABLE_MANUAL_DMA_XFER_FROM_HOST) - (g_config.manual_dma ? /*CY_U3P_DMA_TYPE_AUTO_SIGNAL*/CY_U3P_DMA_TYPE_MANUAL : CY_U3P_DMA_TYPE_AUTO), -#else - CY_U3P_DMA_TYPE_AUTO, -#endif // ENABLE_MANUAL_DMA_XFER - &dma_channel_config); - - // By default these will adopt 'usb_endpoint_config.pcktSize' - //CyU3PSetEpPacketSize(DATA_ENDPOINT_PRODUCER, 16384); - //CyU3PSetEpPacketSize(DATA_ENDPOINT_CONSUMER, 16384); - - /* Create a DMA AUTO channel for P2U transfer. */ - dma_channel_config.size = data_buffer_size_to_host; - dma_channel_config.prodSckId = DATA_RX_PPORT_SOCKET; - dma_channel_config.consSckId = CONSUMER_DATA_SOCKET; - dma_channel_config.notification = 0 | -#if defined(ENABLE_MANUAL_DMA_XFER) && defined(ENABLE_MANUAL_DMA_XFER_TO_HOST) -CY_U3P_DMA_CB_XFER_CPLT | -CY_U3P_DMA_CB_SEND_CPLT | -CY_U3P_DMA_CB_RECV_CPLT | -CY_U3P_DMA_CB_PROD_EVENT | -CY_U3P_DMA_CB_CONS_EVENT | -CY_U3P_DMA_CB_ABORTED | -CY_U3P_DMA_CB_ERROR | -CY_U3P_DMA_CB_PROD_SUSP | -CY_U3P_DMA_CB_CONS_SUSP | -#endif // ENABLE_MANUAL_DMA_XFER -#if defined(ENABLE_MANUAL_DMA_XFER) && defined(ENABLE_P2U_SUSP_EOP) -CY_U3P_DMA_CB_CONS_SUSP | // For 'CyU3PDmaChannelSetSuspend' below -#endif // ENABLE_P2U_SUSP_EOP - 0; - //if (g_config.manual_dma == 0) - // dma_channel_config.notification = 0; // Force all off is manual is disabled - dma_channel_config.cb = -#if defined(ENABLE_MANUAL_DMA_XFER) && (defined(ENABLE_MANUAL_DMA_XFER_TO_HOST) || defined(ENABLE_P2U_SUSP_EOP)) - to_host_dma_callback; -#else - NULL; -#endif // ENABLE_MANUAL_DMA_XFER - CyU3PDmaChannelCreate (&data_prod_to_cons_chan_handle, -#if defined(ENABLE_MANUAL_DMA_XFER) && defined(ENABLE_MANUAL_DMA_XFER_TO_HOST) - (g_config.manual_dma ? /*CY_U3P_DMA_TYPE_AUTO_SIGNAL*/CY_U3P_DMA_TYPE_MANUAL : CY_U3P_DMA_TYPE_AUTO), -#else - CY_U3P_DMA_TYPE_AUTO, -#endif // ENABLE_MANUAL_DMA_XFER - &dma_channel_config); -#ifdef ENABLE_P2U_SUSP_EOP - CyU3PDmaChannelSetSuspend(&data_prod_to_cons_chan_handle, CY_U3P_DMA_SCK_SUSP_NONE, CY_U3P_DMA_SCK_SUSP_EOP); -#endif // ENABLE_P2U_SUSP_EOP - /* Flush the Endpoint memory */ - CyU3PUsbFlushEp(DATA_ENDPOINT_PRODUCER); - CyU3PUsbFlushEp(DATA_ENDPOINT_CONSUMER); - - /* Set DMA channel transfer size. */ - CyU3PDmaChannelSetXfer(&data_cons_to_prod_chan_handle, DMA_SIZE_INFINITE); - CyU3PDmaChannelSetXfer(&data_prod_to_cons_chan_handle, DMA_SIZE_INFINITE); - - - /************************************************************************* - * Slave FIFO Control DMA Channel Configuration - *************************************************************************/ - - /* Wipe out any old config. */ - CyU3PMemSet((uint8_t *) &usb_endpoint_config, 0, \ - sizeof(usb_endpoint_config)); - - /* This is the configuration for the USB Producer and Consumer endpoints. - * - * The Producer endpoint is actually the endpoint on the FX3 that is - * sending data BACK to the host. This endpoint enumerates as the - * 'BULK IN' endpoint. - - * The Consumer endpoint is the endpoint on the FX3 that is - * receiving data from the host. This endpoint enumerates as the - * 'BULK OUT' endpoint. - * - * Note that this is opposite of what you might expect!. */ - usb_endpoint_config.enable = CyTrue; - usb_endpoint_config.epType = CY_U3P_USB_EP_BULK; - usb_endpoint_config.burstLen = num_packets_per_burst; - usb_endpoint_config.streams = 0; - usb_endpoint_config.pcktSize = max_packet_size; - - /* Configure the endpoints that we are using for slave FIFO transfers. */ - CyU3PSetEpConfig(CTRL_ENDPOINT_PRODUCER, &usb_endpoint_config); - CyU3PSetEpConfig(CTRL_ENDPOINT_CONSUMER, &usb_endpoint_config); - - /* Create a DMA AUTO channel for U2P transfer. - * DMA size is set based on the USB speed. */ - dma_channel_config.size = max_packet_size; - dma_channel_config.count = 2; - dma_channel_config.prodSckId = PRODUCER_CTRL_SOCKET; - dma_channel_config.consSckId = CTRL_COMM_PPORT_SOCKET; - dma_channel_config.dmaMode = CY_U3P_DMA_MODE_BYTE; - dma_channel_config.notification = 0; - dma_channel_config.cb = NULL; - dma_channel_config.prodHeader = 0; - dma_channel_config.prodFooter = 0; - dma_channel_config.consHeader = 0; - dma_channel_config.prodAvailCount = 0; - - CyU3PDmaChannelCreate (&ctrl_cons_to_prod_chan_handle, - CY_U3P_DMA_TYPE_AUTO, &dma_channel_config); - - /* Create a DMA AUTO channel for P2U transfer. */ - dma_channel_config.prodSckId = CTRL_RESP_PPORT_SOCKET; - dma_channel_config.consSckId = CONSUMER_CTRL_SOCKET; - dma_channel_config.cb = NULL; - CyU3PDmaChannelCreate (&ctrl_prod_to_cons_chan_handle, - CY_U3P_DMA_TYPE_AUTO, &dma_channel_config); - - /* Flush the Endpoint memory */ - CyU3PUsbFlushEp(CTRL_ENDPOINT_PRODUCER); - CyU3PUsbFlushEp(CTRL_ENDPOINT_CONSUMER); - - /* Set DMA channel transfer size. */ - CyU3PDmaChannelSetXfer(&ctrl_cons_to_prod_chan_handle, DMA_SIZE_INFINITE); - CyU3PDmaChannelSetXfer(&ctrl_prod_to_cons_chan_handle, DMA_SIZE_INFINITE); - - //CyU3PUsbEnableEPPrefetch(); // To address USB_EVENT_EP_UNDERRUN on EP 0x86 (didn't fix it though) - - /* Update the application status flag. */ - g_app_running = CyTrue; -} - - -/*! This callback is invoked when the FX3 detects a USB event. - * - * We currently handle SETCONF, RESET, and DISCONNECT. - * - * We are _not_ handling SUSPEND or CONNECT. - */ -void event_usb_callback (CyU3PUsbEventType_t event_type, uint16_t event_data) { - - switch(event_type) { - case CY_U3P_USB_EVENT_SETCONF: - msg("USB_EVENT_SETCONF (#%d)", event_data); //evData provides the configuration number that is selected by the host. - if(g_app_running) { - b200_fw_stop(); - } - - b200_fw_start(); - break; - - case CY_U3P_USB_EVENT_RESET: - case CY_U3P_USB_EVENT_DISCONNECT: - if (event_type == CY_U3P_USB_EVENT_RESET) - msg("USB_EVENT_RESET"); - else - msg("USB_EVENT_DISCONNECT"); - if(g_app_running) { - b200_fw_stop(); - } - break; - - case CY_U3P_USB_EVENT_CONNECT: - msg("USB_EVENT_CONNECT"); - break; - - case CY_U3P_USB_EVENT_SUSPEND: - msg("USB_EVENT_SUSPEND"); - break; - - case CY_U3P_USB_EVENT_RESUME: // Known issue: this is called repeatedly after a resume - //msg("USB_EVENT_RESUME"); - g_counters.resume_count++; // Not locked - break; - - case CY_U3P_USB_EVENT_SPEED: - msg("USB_EVENT_SPEED"); - break; - - case CY_U3P_USB_EVENT_SETINTF: - msg("USB_EVENT_SETINTF"); - break; - - case CY_U3P_USB_EVENT_SET_SEL: - msg("USB_EVENT_SET_SEL"); - break; - - case CY_U3P_USB_EVENT_SOF_ITP: // CyU3PUsbEnableITPEvent - //msg("USB_EVENT_SOF_ITP"); - break; - - case CY_U3P_USB_EVENT_EP0_STAT_CPLT: - //msg("USB_EVENT_EP0_STAT_CPLT"); // Occurs each time there's a control transfer - break; - - case CY_U3P_USB_EVENT_VBUS_VALID: - msg("USB_EVENT_VBUS_VALID"); - break; - - case CY_U3P_USB_EVENT_VBUS_REMOVED: - msg("USB_EVENT_VBUS_REMOVED"); - break; - - case CY_U3P_USB_EVENT_HOST_CONNECT: - msg("USB_EVENT_HOST_CONNECT"); - break; - - case CY_U3P_USB_EVENT_HOST_DISCONNECT: - msg("USB_EVENT_HOST_DISCONNECT"); - break; - - case CY_U3P_USB_EVENT_OTG_CHANGE: - msg("USB_EVENT_OTG_CHANGE"); - break; - - case CY_U3P_USB_EVENT_OTG_VBUS_CHG: - msg("USB_EVENT_OTG_VBUS_CHG"); - break; - - case CY_U3P_USB_EVENT_OTG_SRP: - msg("USB_EVENT_OTG_SRP"); - break; - - case CY_U3P_USB_EVENT_EP_UNDERRUN: // See SDK 1.3 known issues 17 if this happens (can probably ignore first logged occurence) - LOCK(g_counters_lock); - ++g_counters.usb_ep_underrun_count; - UNLOCK(g_counters_lock); - - msg("! USB_EVENT_EP_UNDERRUN on EP 0x%02x", event_data); - break; - - case CY_U3P_USB_EVENT_LNK_RECOVERY: - msg("USB_EVENT_LNK_RECOVERY"); - break; -#if (CYFX_VERSION_MAJOR >= 1) && (CYFX_VERSION_MINOR >= 3) - case CY_U3P_USB_EVENT_USB3_LNKFAIL: - msg("USB_EVENT_USB3_LNKFAIL"); - break; - - case CY_U3P_USB_EVENT_SS_COMP_ENTRY: - msg("USB_EVENT_SS_COMP_ENTRY"); - break; - - case CY_U3P_USB_EVENT_SS_COMP_EXIT: - msg("USB_EVENT_SS_COMP_EXIT"); - break; -#endif // (CYFX_VERSION_MAJOR >= 1) && (CYFX_VERSION_MINOR >= 3) - - default: - msg("! Unhandled USB event"); - break; - } -} - - -/*! Callback function that is invoked when a USB setup event occurs. - * - * We aren't actually handling the USB setup ourselves, but rather letting the - * USB driver take care of it since the default options work fine. The purpose - * of this function is to register that the event happened at all, so that the - * application thread knows it can proceed. - * - * This function is also responsible for receiving vendor requests, and triggering - * the appropriate RTOS event to wake up the vendor request handler thread. - */ -CyBool_t usb_setup_callback(uint32_t data0, uint32_t data1) { - STATIC_SAVER uint8_t bRequestType, bRequest, bType, bTarget, i2cAddr; - STATIC_SAVER uint16_t wValue, wIndex, wLength; - - CyBool_t handled = CyFalse; - - /* Decode the fields from the setup request. */ - bRequestType = (uint8_t)(data0 & CY_U3P_USB_REQUEST_TYPE_MASK); - bType = (uint8_t)(bRequestType & CY_U3P_USB_TYPE_MASK); - bTarget = (uint8_t)(bRequestType & CY_U3P_USB_TARGET_MASK); - bRequest = (uint8_t)((data0 & CY_U3P_USB_REQUEST_MASK) >> CY_U3P_USB_REQUEST_POS); - wValue = (uint16_t)((data0 & CY_U3P_USB_VALUE_MASK) >> CY_U3P_USB_VALUE_POS); - wIndex = (uint16_t)((data1 & CY_U3P_USB_INDEX_MASK) >> CY_U3P_USB_INDEX_POS); - wLength = (uint16_t)((data1 & CY_U3P_USB_LENGTH_MASK) >> CY_U3P_USB_LENGTH_POS); - - if(bType == CY_U3P_USB_STANDARD_RQT) { - /* Handle SET_FEATURE(FUNCTION_SUSPEND) and CLEAR_FEATURE(FUNCTION_SUSPEND) - * requests here. It should be allowed to pass if the device is in configured - * state and failed otherwise. */ - if((bTarget == CY_U3P_USB_TARGET_INTF) \ - && ((bRequest == CY_U3P_USB_SC_SET_FEATURE) \ - || (bRequest == CY_U3P_USB_SC_CLEAR_FEATURE)) && (wValue == 0)) { - - if(g_app_running) { - CyU3PUsbAckSetup(); - msg("ACK set/clear"); - } else { - CyU3PUsbStall(0, CyTrue, CyFalse); - msg("! STALL set/clear"); - } - - handled = CyTrue; - } - - /* Handle Microsoft OS String Descriptor request. */ - if((bTarget == CY_U3P_USB_TARGET_DEVICE) \ - && (bRequest == CY_U3P_USB_SC_GET_DESCRIPTOR) \ - && (wValue == ((CY_U3P_USB_STRING_DESCR << 8) | 0xEE))) { - /* Make sure we do not send more data than requested. */ - if(wLength > b200_usb_product_desc[0]) { - wLength = b200_usb_product_desc[0]; - } - - //msg("MS string desc"); - - CyU3PUsbSendEP0Data(wLength, ((uint8_t *) b200_usb_product_desc)); - handled = CyTrue; - } - - /* CLEAR_FEATURE request for endpoint is always passed to the setup callback - * regardless of the enumeration model used. When a clear feature is received, - * the previous transfer has to be flushed and cleaned up. This is done at the - * protocol level. Since this is just a loopback operation, there is no higher - * level protocol. So flush the EP memory and reset the DMA channel associated - * with it. If there are more than one EP associated with the channel reset both - * the EPs. The endpoint stall and toggle / sequence number is also expected to be - * reset. Return CyFalse to make the library clear the stall and reset the endpoint - * toggle. Or invoke the CyU3PUsbStall (ep, CyFalse, CyTrue) and return CyTrue. - * Here we are clearing the stall. */ - if((bTarget == CY_U3P_USB_TARGET_ENDPT) \ - && (bRequest == CY_U3P_USB_SC_CLEAR_FEATURE) - && (wValue == CY_U3P_USBX_FS_EP_HALT)) { - if(g_app_running) { - if(wIndex == DATA_ENDPOINT_PRODUCER) { - CyU3PDmaChannelReset(&data_cons_to_prod_chan_handle); - CyU3PUsbFlushEp(DATA_ENDPOINT_PRODUCER); - CyU3PUsbResetEp(DATA_ENDPOINT_PRODUCER); - CyU3PDmaChannelSetXfer(&data_cons_to_prod_chan_handle, \ - DMA_SIZE_INFINITE); - CyU3PUsbStall(wIndex, CyFalse, CyTrue); - handled = CyTrue; - CyU3PUsbAckSetup(); - - msg("Clear DATA_ENDPOINT_PRODUCER"); - } - - if(wIndex == DATA_ENDPOINT_CONSUMER) { - CyU3PDmaChannelReset(&data_prod_to_cons_chan_handle); - CyU3PUsbFlushEp(DATA_ENDPOINT_CONSUMER); - CyU3PUsbResetEp(DATA_ENDPOINT_CONSUMER); - CyU3PDmaChannelSetXfer(&data_prod_to_cons_chan_handle, \ - DMA_SIZE_INFINITE); - CyU3PUsbStall(wIndex, CyFalse, CyTrue); - handled = CyTrue; - CyU3PUsbAckSetup(); - - msg("Clear DATA_ENDPOINT_CONSUMER"); - } - - if(wIndex == CTRL_ENDPOINT_PRODUCER) { - CyU3PDmaChannelReset(&ctrl_cons_to_prod_chan_handle); - CyU3PUsbFlushEp(CTRL_ENDPOINT_PRODUCER); - CyU3PUsbResetEp(CTRL_ENDPOINT_PRODUCER); - CyU3PDmaChannelSetXfer(&ctrl_cons_to_prod_chan_handle, \ - DMA_SIZE_INFINITE); - CyU3PUsbStall(wIndex, CyFalse, CyTrue); - handled = CyTrue; - CyU3PUsbAckSetup(); - - msg("Clear CTRL_ENDPOINT_PRODUCER"); - } - - if(wIndex == CTRL_ENDPOINT_CONSUMER) { - CyU3PDmaChannelReset(&ctrl_prod_to_cons_chan_handle); - CyU3PUsbFlushEp(CTRL_ENDPOINT_CONSUMER); - CyU3PUsbResetEp(CTRL_ENDPOINT_CONSUMER); - CyU3PDmaChannelSetXfer(&ctrl_prod_to_cons_chan_handle, \ - DMA_SIZE_INFINITE); - CyU3PUsbStall(wIndex, CyFalse, CyTrue); - handled = CyTrue; - CyU3PUsbAckSetup(); - - msg("Clear CTRL_ENDPOINT_CONSUMER"); - } - } - } - } - /* This must be & and not == so that we catch VREQs that are both 'IN' and - * 'OUT' in direction. */ - else if(bRequestType & CY_U3P_USB_VENDOR_RQT) { - - handled = CyTrue; - uint16_t read_count = 0; - - switch(bRequest) { - case B200_VREQ_BITSTREAM_START: { - CyU3PUsbGetEP0Data(1, g_vendor_req_buffer, &read_count); - - g_fpga_programming_write_count = 0; - - CyU3PEventSet(&g_event_usb_config, EVENT_BITSTREAM_START, \ - CYU3P_EVENT_OR); - break; - } - - case B200_VREQ_BITSTREAM_DATA: { - CyU3PUsbGetEP0Data(g_vendor_req_buff_size, g_vendor_req_buffer, \ - &read_count); - - if (g_fx3_state == STATE_CONFIGURING_FPGA) { - ++g_fpga_programming_write_count; - CyU3PSpiTransmitWords(g_vendor_req_buffer, read_count); - CyU3PThreadSleep(1); // Newer controllers don't have an issue when this short sleep here - } - break; - } - - case B200_VREQ_BITSTREAM_DATA_FILL: { - CyU3PUsbGetEP0Data(g_vendor_req_buff_size, g_vendor_req_buffer, &g_vendor_req_read_count); - break; - } - - case B200_VREQ_BITSTREAM_DATA_COMMIT: { - /*CyU3PReturnStatus_t*/int spi_result = -1; - if (g_fx3_state == STATE_CONFIGURING_FPGA) { - ++g_fpga_programming_write_count; - spi_result = CyU3PSpiTransmitWords(g_vendor_req_buffer, g_vendor_req_read_count); - CyU3PThreadSleep(1); // 20 MHz, 512 bytes - } - CyU3PUsbSendEP0Data(sizeof(spi_result), (uint8_t*)&spi_result); - break; - } - - case B200_VREQ_FPGA_CONFIG: { - CyU3PUsbGetEP0Data(1, g_vendor_req_buffer, &read_count); - - CyU3PEventSet(&g_event_usb_config, EVENT_FPGA_CONFIG, CYU3P_EVENT_OR); - break; - } - - case B200_VREQ_GET_COMPAT: { - CyU3PUsbSendEP0Data(/*2*/sizeof(compat_num), compat_num); - break; - } - - case B200_VREQ_SET_FPGA_HASH: { - CyU3PUsbGetEP0Data(4, fpga_hash, &read_count); - break; - } - - case B200_VREQ_GET_FPGA_HASH: { - CyU3PUsbSendEP0Data(/*4*/sizeof(fpga_hash), fpga_hash); - break; - } - - case B200_VREQ_SET_FW_HASH: { - CyU3PUsbGetEP0Data(4, fw_hash, &read_count); - break; - } - - case B200_VREQ_GET_FW_HASH: { - CyU3PUsbSendEP0Data(/*4*/sizeof(fw_hash), fw_hash); - break; - } - - case B200_VREQ_LOOP_CODE: { - CyU3PUsbSendEP0Data(g_vendor_req_buff_size, g_vendor_req_buffer); - break; - } - - case B200_VREQ_GET_LOG: { - LOCK(g_log_lock); - - if (log_buffer_len == 0) { - log_buffer[0] = '\0'; - CyU3PUsbSendEP0Data(1, (uint8_t*)log_buffer); - //CyU3PUsbSendEP0Data(0, NULL); - //CyU3PUsbAckSetup(); - } - else if (log_buffer_idx == 0) - CyU3PUsbSendEP0Data(log_buffer_len, (uint8_t*)log_buffer); - else { - int len1 = min(LOG_BUFFER_SIZE - log_buffer_idx, log_buffer_len); - memcpy(log_contiguous_buffer, log_buffer + log_buffer_idx, len1); - //if ((log_buffer_idx + log_buffer_len) > LOG_BUFFER_SIZE) - if (len1 < log_buffer_len) - memcpy(log_contiguous_buffer + len1, log_buffer, log_buffer_len - len1); - CyU3PUsbSendEP0Data(log_buffer_len, (uint8_t*)log_contiguous_buffer); - } - - // FIXME: Necessary? Not used in the other ones - //CyU3PUsbSendEP0Data(0, NULL); // Send ZLP since previous send has resulted in an integral # of packets - - log_reset(); - - UNLOCK(g_log_lock); - - //log_reset(); - - break; - } - - case B200_VREQ_GET_COUNTERS: { - LOCK(g_counters_lock); - - CyU3PUsbSendEP0Data(sizeof(COUNTERS), (uint8_t*)&g_counters); - - counters_auto_reset(); - - UNLOCK(g_counters_lock); - - //counters_auto_reset(); - - break; - } - - case B200_VREQ_CLEAR_COUNTERS: { - CyU3PUsbAckSetup(); - //CyU3PUsbGetEP0Data(g_vendor_req_buff_size, g_vendor_req_buffer, &read_count); // Dummy - - counters_dma_reset(); - - break; - } - - case B200_VREQ_GET_USB_EVENT_LOG: { - uint16_t idx = CyU3PUsbGetEventLogIndex(); // Current *write* pointer - if (idx > (USB_EVENT_LOG_SIZE-1)) { - msg("! USB event log idx = %i", (int)idx); - break; - } - // Assuming logging won't wrap around between get calls (i.e. buffer should be long enough) - uint16_t len = 0; - if (idx < g_last_usb_event_log_index) { - uint16_t len1 = (USB_EVENT_LOG_SIZE - g_last_usb_event_log_index); - if (len1 > (USB_EVENT_LOG_SIZE-1)) { - msg("! USB event log len 2.1 = %i", (int)len1); - break; - } - len = len1 + idx; - if (len > (USB_EVENT_LOG_SIZE-1)) { - msg("! USB event log len 2.2 = %i", (int)len); - break; - } - memcpy(g_usb_event_log_contiguous_buf, g_usb_event_log + g_last_usb_event_log_index, len1); - memcpy(g_usb_event_log_contiguous_buf + len1, g_usb_event_log, idx); - //msg("USB event log [2] %i %i", (int)len1, (int)len); - } else { - len = idx - g_last_usb_event_log_index; - if (len > (USB_EVENT_LOG_SIZE-1)) { - msg("! USB event log len 1 = %i", (int)len); - break; - } - if (len > 0) { // ZLP should be OK - memcpy(g_usb_event_log_contiguous_buf, g_usb_event_log + g_last_usb_event_log_index, len); - //msg("USB event log [1] %i", (int)len); - } - } - - //if (len > 0) // Send a ZLP, otherwise it'll timeout - CyU3PUsbSendEP0Data(len, g_usb_event_log_contiguous_buf); - - g_last_usb_event_log_index = idx; - break; - } - - case B200_VREQ_SET_CONFIG: { - CyU3PUsbGetEP0Data(sizeof(CONFIG_MOD), (uint8_t*)g_vendor_req_buffer, &read_count); - if (read_count == sizeof(CONFIG_MOD)) { - memcpy(&g_config_mod, g_vendor_req_buffer, sizeof(CONFIG_MOD)); - CyU3PEventSet(&g_event_usb_config, EVENT_RE_ENUM, CYU3P_EVENT_OR); - } - break; - } - - case B200_VREQ_GET_CONFIG: { - CyU3PUsbSendEP0Data(sizeof(g_config), (uint8_t*)&g_config); - break; - } - - case B200_VREQ_WRITE_SB: { - CyU3PUsbGetEP0Data(g_vendor_req_buff_size, (uint8_t*)g_vendor_req_buffer, &read_count); -#ifdef ENABLE_FPGA_SB - uint16_t i; - LOCK(g_suart_lock); - for (i = 0; i < read_count; ++i) - sb_write(SUART_TXCHAR, g_vendor_req_buffer[i]); - UNLOCK(g_suart_lock); - - msg("Wrote %d SB chars", read_count); -#else - msg("SB is disabled"); -#endif // ENABLE_FPGA_SB - break; - } - - case B200_VREQ_SET_SB_BAUD_DIV: { - uint16_t div; - CyU3PUsbGetEP0Data(sizeof(div), (uint8_t*)&div, &read_count); - - if (read_count == sizeof(div)) { -#ifdef ENABLE_FPGA_SB - LOCK(g_suart_lock); - sb_write(SUART_CLKDIV, div); - UNLOCK(g_suart_lock); - msg("SUART_CLKDIV = %d", div); - /*g_fpga_sb_uart_div*/g_config.sb_baud_div = div; // Store for GPIF (FPGA) reset -#else - msg("SB is disabled"); -#endif // ENABLE_FPGA_SB - } - else - msg("! SUART_CLKDIV received %d bytes", read_count); - - break; - } - - case B200_VREQ_FLUSH_DATA_EPS: { - //msg("Flushing data EPs..."); - - //CyU3PUsbAckSetup(); - - //CyU3PUsbResetEndpointMemories(); - - // From host - //CyU3PDmaChannelReset(&data_cons_to_prod_chan_handle); - //CyU3PUsbFlushEp(DATA_ENDPOINT_PRODUCER); - //CyU3PUsbResetEp(DATA_ENDPOINT_PRODUCER); - //CyU3PDmaChannelSetXfer(&data_cons_to_prod_chan_handle, DMA_SIZE_INFINITE); - - //CyU3PDmaSocketDisable(DATA_RX_PPORT_SOCKET); - - //CyU3PDmaChannelReset(&data_cons_to_prod_chan_handle); - if (CyU3PDmaChannelReset(&data_prod_to_cons_chan_handle) != CY_U3P_SUCCESS) - { - msg("! CyU3PDmaChannelReset"); - } - //CyU3PUsbFlushEp(DATA_ENDPOINT_PRODUCER); - CyU3PUsbFlushEp(DATA_ENDPOINT_CONSUMER); - //CyU3PUsbResetEp(DATA_ENDPOINT_PRODUCER); -// CyU3PUsbResetEp(DATA_ENDPOINT_CONSUMER); - //CyU3PUsbStall(DATA_ENDPOINT_CONSUMER, CyFalse, CyTrue); - //CyU3PDmaChannelSetXfer(&data_cons_to_prod_chan_handle, DMA_SIZE_INFINITE); - //CyU3PDmaSocketEnable(DATA_RX_PPORT_SOCKET); - CyU3PDmaChannelSetXfer(&data_prod_to_cons_chan_handle, DMA_SIZE_INFINITE); - - //CyU3PUsbResetEndpointMemories(); - - // To host - //CyU3PDmaChannelReset(&data_prod_to_cons_chan_handle); - //CyU3PUsbFlushEp(DATA_ENDPOINT_CONSUMER); - //CyU3PUsbResetEp(DATA_ENDPOINT_CONSUMER); - //CyU3PDmaChannelSetXfer(&data_prod_to_cons_chan_handle, DMA_SIZE_INFINITE); - - CyU3PUsbAckSetup(); - - break; - } - - case B200_VREQ_EEPROM_WRITE: { - i2cAddr = 0xA0 | ((wValue & 0x0007) << 1); - CyU3PUsbGetEP0Data(((wLength + 15) & 0xFFF0), g_vendor_req_buffer, NULL); - - CyFxUsbI2cTransfer (wIndex, i2cAddr, wLength, - g_vendor_req_buffer, CyFalse); - break; - } - - case B200_VREQ_EEPROM_READ: { - i2cAddr = 0xA0 | ((wValue & 0x0007) << 1); - CyU3PMemSet (g_vendor_req_buffer, 0, sizeof (g_vendor_req_buffer)); - CyFxUsbI2cTransfer (wIndex, i2cAddr, wLength, - g_vendor_req_buffer, CyTrue); - - CyU3PUsbSendEP0Data(wLength, g_vendor_req_buffer); - break; - } - - case B200_VREQ_TOGGLE_FPGA_RESET: { - CyU3PUsbGetEP0Data(g_vendor_req_buff_size, g_vendor_req_buffer, \ - &read_count); - - /* CyBool_t value = (g_vendor_req_buffer[0] & 0x01) ? CyTrue : CyFalse; - CyU3PGpioSetValue(GPIO_FPGA_RESET, value); */ - break; - } - - case B200_VREQ_TOGGLE_GPIF_RESET: { - CyU3PUsbGetEP0Data(g_vendor_req_buff_size, g_vendor_req_buffer, \ - &read_count); - - reset_gpif(); - break; - } - - case B200_VREQ_RESET_DEVICE: { - CyU3PUsbGetEP0Data(4, g_vendor_req_buffer, &read_count); - - CyU3PDeviceReset(CyFalse); // FIXME: If CyTrue, this will *not* call static initialisers for global variables - must do this manually - break; - } - - case B200_VREQ_GET_USB_SPEED: { - CyU3PUSBSpeed_t usb_speed = CyU3PUsbGetSpeed(); - switch(usb_speed) { - case CY_U3P_SUPER_SPEED: - g_vendor_req_buffer[0] = 3; - break; - - case CY_U3P_FULL_SPEED: - case CY_U3P_HIGH_SPEED: - g_vendor_req_buffer[0] = 2; - break; - - default: - g_vendor_req_buffer[0] = 1; - break; - } - - CyU3PUsbSendEP0Data(1, g_vendor_req_buffer); - break; - } - - case B200_VREQ_GET_STATUS: { - g_vendor_req_buffer[0] = g_fx3_state; - CyU3PUsbSendEP0Data(1, g_vendor_req_buffer); - break; - } - - default: - msg("! Unknown VREQ %02X", (uint32_t)bRequest); - handled = CyFalse; - } - - /* After processing the vendor request, flush the endpoints. */ - CyU3PUsbFlushEp(VREQ_ENDPOINT_PRODUCER); - CyU3PUsbFlushEp(VREQ_ENDPOINT_CONSUMER); - } - - return handled; -} - - -/* Callback function to handle LPM requests from the USB 3.0 host. This function - * is invoked by the API whenever a state change from U0 -> U1 or U0 -> U2 - * happens. - * - * If we return CyTrue from this function, the FX3 device is retained - * in the low power state. If we return CyFalse, the FX3 device immediately - * tries to trigger an exit back to U0. - */ -CyBool_t lpm_request_callback(CyU3PUsbLinkPowerMode link_mode) { - msg("! lpm_request_callback = %i", link_mode); - return -//#ifdef PREVENT_LOW_POWER_MODE - CyFalse; // This still allows my laptop to sleep -//#else -// CyTrue; -//#endif // PREVENT_LOW_POWER_MODE -} - - -/* Callback function to check for PIB ERROR*/ -void gpif_error_cb(CyU3PPibIntrType cbType, uint16_t cbArg) -{ - if (cbType==CYU3P_PIB_INTR_ERROR) - { - switch (CYU3P_GET_PIB_ERROR_TYPE(cbArg)) - { - case CYU3P_PIB_ERR_NONE: - break; - case CYU3P_PIB_ERR_THR0_WR_OVERRUN: - msg("CYU3P_PIB_ERR_THR0_WR_OVERRUN"); - break; - case CYU3P_PIB_ERR_THR1_WR_OVERRUN: - msg("CYU3P_PIB_ERR_THR1_WR_OVERRUN"); - break; - case CYU3P_PIB_ERR_THR2_WR_OVERRUN: - msg("CYU3P_PIB_ERR_THR2_WR_OVERRUN"); - break; - case CYU3P_PIB_ERR_THR3_WR_OVERRUN: - msg("CYU3P_PIB_ERR_THR3_WR_OVERRUN"); - break; - case CYU3P_PIB_ERR_THR0_RD_UNDERRUN: - msg("CYU3P_PIB_ERR_THR0_RD_UNDERRUN"); - break; - case CYU3P_PIB_ERR_THR1_RD_UNDERRUN: - msg("CYU3P_PIB_ERR_THR1_RD_UNDERRUN"); - break; - case CYU3P_PIB_ERR_THR2_RD_UNDERRUN: - msg("CYU3P_PIB_ERR_THR2_RD_UNDERRUN"); - break; - case CYU3P_PIB_ERR_THR3_RD_UNDERRUN: - msg("CYU3P_PIB_ERR_THR3_RD_UNDERRUN"); - break; - case CYU3P_PIB_ERR_THR0_ADAP_UNDERRUN: - msg("CYU3P_PIB_ERR_THR0_ADAP_UNDERRUN"); - break; - case CYU3P_PIB_ERR_THR1_ADAP_OVERRUN: - msg("CYU3P_PIB_ERR_THR1_ADAP_OVERRUN"); - break; - // FIXME: Other threads - case CYU3P_PIB_ERR_THR1_SCK_INACTIVE: - //msg("CYU3P_PIB_ERR_THR1_SCK_INACTIVE"); - ++g_counters.pib_counters[1].socket_inactive; // UNSYNC'd - break; - default: - msg("Unknown CYU3P_PIB_ERR %i", CYU3P_GET_PIB_ERROR_TYPE(cbArg)); - break; - } - - switch (CYU3P_GET_GPIF_ERROR_TYPE(cbArg)) - { - case CYU3P_GPIF_ERR_NONE: /**< No GPIF state machine errors. */ - //msg("CYU3P_GPIF_ERR_NONE"); - break; - case CYU3P_GPIF_ERR_INADDR_OVERWRITE: /**< Content of INGRESS_ADDR register is overwritten before read. */ - msg("CYU3P_GPIF_ERR_INADDR_OVERWRITE"); - break; - case CYU3P_GPIF_ERR_EGADDR_INVALID: /**< Attempt to read EGRESS_ADDR register before it is written to. */ - msg("CYU3P_GPIF_ERR_EGADDR_INVALID"); - break; - case CYU3P_GPIF_ERR_DATA_READ_ERR: /**< Read from DMA data thread which is not ready. */ - msg("CYU3P_GPIF_ERR_DATA_READ_ERR"); - break; - case CYU3P_GPIF_ERR_DATA_WRITE_ERR: /**< Write to DMA data thread which is not ready. */ - msg("CYU3P_GPIF_ERR_DATA_WRITE_ERR"); - break; - case CYU3P_GPIF_ERR_ADDR_READ_ERR: /**< Read from DMA address thread which is not ready. */ - msg("CYU3P_GPIF_ERR_ADDR_READ_ERR"); - break; - case CYU3P_GPIF_ERR_ADDR_WRITE_ERR: /**< Write to DMA address thread which is not ready. */ - msg("CYU3P_GPIF_ERR_ADDR_WRITE_ERR"); - break; - case CYU3P_GPIF_ERR_INVALID_STATE: /**< GPIF state machine has reached an invalid state. */ - //msg("CYU3P_GPIF_ERR_INVALID_STATE"); - ++g_counters.invalid_gpif_state; // UNSYNC'd - break; - default: - msg("Unknown CYU3P_GPIF_ERR %i", CYU3P_GET_GPIF_ERROR_TYPE(cbArg)); - break; - } - } -} - - -void GpifStateChangeCb(uint8_t stateId) -{ - //msg("%d", stateId); - ++g_counters.state_transition_count; -} - - -/*! Initialize and start the GPIF state machine. - * - * This function starts the GPIF Slave FIFO state machine on the FX3. Because on - * of the GPIF pins is used for FPGA configuration, this cannot be done until - * after FPGA configuration is complete. */ -void b200_gpif_init(void) { - msg("b200_gpif_init"); - - CyU3PPibClock_t pib_clock_config; - - /* Initialize the p-port block; disable DLL for sync GPIF. */ - pib_clock_config.clkDiv = 2; - pib_clock_config.clkSrc = CY_U3P_SYS_CLK; - pib_clock_config.isHalfDiv = CyFalse; - pib_clock_config.isDllEnable = CyFalse; - if (CyU3PPibInit(CyTrue, &pib_clock_config) != CY_U3P_SUCCESS) - msg("! CyU3PPibInit"); - - /* Load the GPIF configuration for Slave FIFO sync mode. */ - if (CyU3PGpifLoad(&CyFxGpifConfig) != CY_U3P_SUCCESS) - msg("! CyU3PGpifLoad"); - - msg("GPIF loaded"); - - //CyU3PGpifRegisterSMIntrCallback(GpifStateChangeCb); - - /* Start the state machine. */ - //CyU3PGpifSMStart(RESET, ALPHA_RESET); - - /* Configure the watermarks for the slfifo-write buffers. */ - if (CyU3PGpifSocketConfigure(0, DATA_TX_PPORT_SOCKET, 5, CyFalse, 1) != CY_U3P_SUCCESS) - msg("! CyU3PGpifSocketConfigure 0"); - if (CyU3PGpifSocketConfigure(1, DATA_RX_PPORT_SOCKET, 6, CyFalse, 1) != CY_U3P_SUCCESS) - msg("! CyU3PGpifSocketConfigure 1"); - if (CyU3PGpifSocketConfigure(2, CTRL_COMM_PPORT_SOCKET, 5, CyFalse, 1) != CY_U3P_SUCCESS) - msg("! CyU3PGpifSocketConfigure 2"); - if (CyU3PGpifSocketConfigure(3, CTRL_RESP_PPORT_SOCKET, 6, CyFalse, 1) != CY_U3P_SUCCESS) - msg("! CyU3PGpifSocketConfigure 3"); - - //CyU3PGpifSMStart(RESET, ALPHA_RESET); - - /* Register a callback for notification of PIB interrupts*/ - CyU3PPibRegisterCallback(gpif_error_cb, CYU3P_PIB_INTR_ERROR); -} - - -/*! Start and configure the FX3's SPI module. - * - * This module is used for programming the FPGA. After the FPGA is configured, - * the SPI module is disabled, as it cannot be used while we are using GPIF - * 32-bit mode. */ -CyU3PReturnStatus_t b200_spi_init(void) { - msg("b200_spi_init"); - - CyU3PSpiConfig_t spiConfig; - - /* Start the SPI module and configure the master. */ - CyU3PSpiInit(); - - /* Start the SPI master block. Run the SPI clock at 8MHz - * and configure the word length to 8 bits. Also configure - * the slave select using FW. */ - CyU3PMemSet ((uint8_t *)&spiConfig, 0, sizeof(spiConfig)); - spiConfig.isLsbFirst = CyFalse; - spiConfig.cpol = CyFalse; - spiConfig.cpha = CyFalse; - spiConfig.ssnPol = CyTrue; - spiConfig.leadTime = CY_U3P_SPI_SSN_LAG_LEAD_HALF_CLK; - spiConfig.lagTime = CY_U3P_SPI_SSN_LAG_LEAD_HALF_CLK; - spiConfig.ssnCtrl = CY_U3P_SPI_SSN_CTRL_FW; - spiConfig.clock = 20000000; - spiConfig.wordLen = 8; - - CyU3PReturnStatus_t res = CyU3PSpiSetConfig(&spiConfig, NULL); - - if (res != CY_U3P_SUCCESS) - msg("! CyU3PSpiSetConfig"); - - return res; -} - - -/*! Initialize the USB module of the FX3 chip. - * - * This function handles USB initialization, re-enumeration (and thus coming up - * as a USRP B200 device), configures USB endpoints and the DMA module. - */ -void b200_usb_init(void) { - //msg("b200_usb_init"); - - /* Initialize the I2C interface for the EEPROM of page size 64 bytes. */ - CyFxI2cInit(CY_FX_USBI2C_I2C_PAGE_SIZE); - - /* Start the USB system! */ - CyU3PUsbStart(); - - /* Register our USB Setup callback. The boolean parameter indicates whether - * or not we are using FX3's 'Fast Enumeration' mode, which relies on the - * USB driver auto-detecting the connection speed and setting the correct - * descriptors. */ - CyU3PUsbRegisterSetupCallback(usb_setup_callback, CyTrue); - - CyU3PUsbRegisterEventCallback(event_usb_callback); - - CyU3PUsbRegisterLPMRequestCallback(lpm_request_callback); - - /* Check to see if a VID/PID is in the EEPROM that we should use. */ - uint8_t valid[4]; - uint8_t vidpid[4]; - CyU3PMemSet(valid, 0, 4); - CyFxUsbI2cTransfer(0x0, 0xA0, 4, valid, CyTrue); - if(*((uint32_t *) &(valid[0])) == 0xB2145943) { - - /* Pull the programmed device serial out of the i2c EEPROM, and copy the - * characters into the device serial string, which is then advertised as - * part of the USB descriptors. */ - CyU3PMemSet(vidpid, 0, 4); - CyFxUsbI2cTransfer(0x4, 0xA0, 4, vidpid, CyTrue); - b200_usb2_dev_desc[8] = vidpid[2]; - b200_usb2_dev_desc[9] = vidpid[3]; - b200_usb2_dev_desc[10] = vidpid[0]; - b200_usb2_dev_desc[11] = vidpid[1]; - - b200_usb3_dev_desc[8] = vidpid[2]; - b200_usb3_dev_desc[9] = vidpid[3]; - b200_usb3_dev_desc[10] = vidpid[0]; - b200_usb3_dev_desc[11] = vidpid[1]; - } - - /* We support two VIDs: - * Ettus Research: 0x2500 - * National Instruments: 0x3923 - * - * We support three PIDs: - * Ettus B200/B210: 0x0020 - * NI USRP-2900: 0x7813 - * NI USRP-2901: 0x7814 - */ - uint8_t *mfr_string = NULL; - uint8_t *product_string = NULL; - if((vidpid[3] == 0x25) && (vidpid[2] == 0x00)) { - mfr_string = b200_usb_manufacture_desc; - product_string = b200_usb_product_desc; - } else if((vidpid[3] == 0x39) && (vidpid[2] == 0x23)) { - mfr_string = niusrp_usb_manufacture_desc; - - if((vidpid[1] == 0x78) && (vidpid[0] == 0x13)) { - product_string = niusrp_2900_usb_product_desc; - } else if((vidpid[1] == 0x78) && (vidpid[0] == 0x14)) { - product_string = niusrp_2901_usb_product_desc; - } else { - product_string = unknown_desc; - } - } else { - mfr_string = unknown_desc; - product_string = unknown_desc; - } - - uint8_t ascii_serial[9]; - CyU3PMemSet(ascii_serial, 0, 9); - CyFxUsbI2cTransfer(0x4f7, 0xA0, 9, ascii_serial, CyTrue); - uint8_t count; - dev_serial[0] = 2; - for(count = 0; count < 9; count++) { - uint8_t byte = ascii_serial[count]; - if (byte < 32 || byte > 127) break; - dev_serial[2 + (count * 2)] = byte; - // FIXME: Set count*2 + 1 = 0x00 ? - dev_serial[0] += 2; - } - - /* Set our USB enumeration descriptors! Note that there are different - * function calls for each USB speed: FS, HS, SS. */ - - /* Device descriptors */ - CyU3PUsbSetDesc(CY_U3P_USB_SET_HS_DEVICE_DESCR, 0, - (uint8_t *) b200_usb2_dev_desc); - - CyU3PUsbSetDesc(CY_U3P_USB_SET_SS_DEVICE_DESCR, 0, - (uint8_t *) b200_usb3_dev_desc); - - /* Device qualifier descriptors */ - CyU3PUsbSetDesc(CY_U3P_USB_SET_DEVQUAL_DESCR, 0, - (uint8_t *) b200_dev_qual_desc); - - /* Configuration descriptors */ - CyU3PUsbSetDesc(CY_U3P_USB_SET_HS_CONFIG_DESCR, 0, - (uint8_t *) b200_usb_hs_config_desc); - - CyU3PUsbSetDesc(CY_U3P_USB_SET_FS_CONFIG_DESCR, 0, - (uint8_t *) b200_usb_fs_config_desc); - - CyU3PUsbSetDesc(CY_U3P_USB_SET_SS_CONFIG_DESCR, 0, - (uint8_t *) b200_usb_ss_config_desc); - - /* BOS Descriptor */ - CyU3PUsbSetDesc(CY_U3P_USB_SET_SS_BOS_DESCR, 0, - (uint8_t *) b200_usb_bos_desc); - - /* String descriptors */ - CyU3PUsbSetDesc(CY_U3P_USB_SET_STRING_DESCR, 0, - (uint8_t *) b200_string_lang_id_desc); - - CyU3PUsbSetDesc(CY_U3P_USB_SET_STRING_DESCR, 1, - (uint8_t *) mfr_string); - - CyU3PUsbSetDesc(CY_U3P_USB_SET_STRING_DESCR, 2, - (uint8_t *) product_string); - - CyU3PUsbSetDesc(CY_U3P_USB_SET_STRING_DESCR, 3, - (uint8_t *) dev_serial); - - //////////////////////////////////////////////////////// - - // FIXME: CyU3PUsbSetTxDeemphasis(0x11); <0x1F // Shouldn't need to change this - - const uint32_t tx_swing = g_config.tx_swing/*65*//*45*/; // 65 & 45 are OK, 120 causes much link recovery. <128. 1.2V is USB3 limit. - if (CyU3PUsbSetTxSwing(tx_swing) == CY_U3P_SUCCESS) - msg("CyU3PUsbSetTxSwing: %d", tx_swing); - else - msg("! CyU3PUsbSetTxSwing: %d", tx_swing); - - //////////////////////////////////////////////////////// - - /* Connect the USB pins, and enable SuperSpeed (USB 3.0). */ - if (CyU3PConnectState(CyTrue, (g_config.enable_as_superspeed != 0 ? CyTrue : CyFalse)) == CY_U3P_SUCCESS) { // connect, ssEnable - CyU3PUSBSpeed_t usb_speed = CyU3PUsbGetSpeed(); - msg("Link up (speed: USB %d)", (int)usb_speed); // MAGIC: Values happen to map - } - else - msg("! Failed to establish link"); -} - - -void b200_restore_gpio_for_fpga_config(void) { - CyU3PDeviceGpioRestore(GPIO_FPGA_RESET); - CyU3PDeviceGpioRestore(GPIO_DONE); - - CyU3PDeviceGpioRestore(GPIO_FX3_SCLK); - CyU3PDeviceGpioRestore(GPIO_FX3_CE); - CyU3PDeviceGpioRestore(GPIO_FX3_MISO); - CyU3PDeviceGpioRestore(GPIO_FX3_MOSI); - - //CyU3PGpioDeInit(); // Moved to just before init -} - -void thread_fpga_config_entry(uint32_t input) { - uint32_t event_flag; - - //msg("thread_fpga_config_entry"); - - for(;;) { - - // Event is set through VREQ - if(CyU3PEventGet(&g_event_usb_config, \ - (EVENT_FPGA_CONFIG), CYU3P_EVENT_AND_CLEAR, \ - &event_flag, CYU3P_WAIT_FOREVER) == CY_U3P_SUCCESS) { - - //uint8_t old_state = g_fx3_state; - uint32_t old_fpga_programming_write_count = 0; - - if(g_fx3_state == STATE_ERROR) { - CyU3PThreadRelinquish(); - continue; - } - - if(g_fx3_state == STATE_RUNNING) { - /* The FX3 is currently configured for SLFIFO mode. We need to tear down - * this configuration and re-configure to program the FPGA. */ - b200_restore_gpio_for_fpga_config(); - CyU3PGpifDisable(CyTrue); - } - - CyU3PSysWatchDogClear(); - - g_fx3_state = STATE_BUSY; - - /* Configure the device GPIOs for FPGA programming. */ - b200_gpios_pre_fpga_config(); - - CyU3PSysWatchDogClear(); - - /* Initialize the SPI module that will be used for FPGA programming. */ - b200_spi_init(); // This must be done *after* 'b200_gpios_pre_fpga_config' - - CyU3PSysWatchDogClear(); - - /* Wait for the signal from the host that the bitstream is starting. */ - uint32_t wait_count = 0; - - /* We can now begin configuring the FPGA. */ - g_fx3_state = STATE_FPGA_READY; - - msg("Begin FPGA"); - - // Event is set through VREQ - while(CyU3PEventGet(&g_event_usb_config, \ - (EVENT_BITSTREAM_START), CYU3P_EVENT_AND_CLEAR, \ - &event_flag, CYU3P_NO_WAIT) != CY_U3P_SUCCESS) { - - if(wait_count >= FPGA_PROGRAMMING_BITSTREAM_START_POLL_COUNT) { - msg("! Bitstream didn't start"); - g_fx3_state = STATE_UNCONFIGURED; // Since IO configuration has changed, leave it in the unconfigured state (rather than the previous one, which might have been running) - CyU3PThreadRelinquish(); - break; - } - - wait_count++; - CyU3PThreadSleep(FPGA_PROGRAMMING_POLL_SLEEP); - CyU3PSysWatchDogClear(); - } - - if (wait_count >= FPGA_PROGRAMMING_BITSTREAM_START_POLL_COUNT) - continue; - - /* Pull PROGRAM_B low and then release it. */ - CyU3PGpioSetValue(GPIO_PROGRAM_B, 0); - CyU3PThreadSleep(20); - CyU3PGpioSetValue(GPIO_PROGRAM_B, 1); - - /* Wait for INIT_B to fall and rise. */ - wait_count = 0; - - msg("Wait FPGA"); - - while(CyU3PEventGet(&g_event_usb_config, \ - (EVENT_GPIO_INITB_RISE), CYU3P_EVENT_AND_CLEAR, \ - &event_flag, CYU3P_NO_WAIT) != CY_U3P_SUCCESS) { - - if(wait_count >= FPGA_PROGRAMMING_INITB_POLL_COUNT) { - msg("! INITB didn't rise"); - g_fx3_state = STATE_UNCONFIGURED; // Safer to call it unconfigured than the previous state - CyU3PThreadRelinquish(); - break; - } - - wait_count++; - CyU3PThreadSleep(FPGA_PROGRAMMING_POLL_SLEEP); - CyU3PSysWatchDogClear(); - } -#ifdef ENABLE_INIT_B_WORKAROUND - if (wait_count >= FPGA_PROGRAMMING_INITB_POLL_COUNT) - { - CyBool_t gpio_init_b; - CyU3PGpioGetValue(GPIO_INIT_B, &gpio_init_b); - if (gpio_init_b == CyTrue) - { - wait_count = 0; - } - else - { - msg("! INIT_B still not high"); - } - } -#endif // ENABLE_INIT_B_WORKAROUND - if (wait_count >= FPGA_PROGRAMMING_INITB_POLL_COUNT) - continue; - - /* We are ready to accept the FPGA bitstream! */ - wait_count = 0; - g_fx3_state = STATE_CONFIGURING_FPGA; - - msg("Configuring FPGA"); - - // g_fpga_programming_write_count is zero'd by VREQ triggering EVENT_BITSTREAM_START - - while(CyU3PEventGet(&g_event_usb_config, \ - (EVENT_GPIO_DONE_HIGH), CYU3P_EVENT_AND_CLEAR, \ - &event_flag, CYU3P_NO_WAIT) != CY_U3P_SUCCESS) { - - /* Wait for the configuration to complete, which will be indicated - * by the DONE pin going high and triggering the associated - * interrupt. */ - - if(wait_count >= FPGA_PROGRAMMING_DONE_POLL_COUNT) { - msg("! DONE didn't go high"); - g_fx3_state = STATE_UNCONFIGURED; - CyU3PThreadRelinquish(); - break; - } - - if (old_fpga_programming_write_count == g_fpga_programming_write_count) // Only increment wait count if we haven't written anything - wait_count++; - else { - wait_count = 0; - old_fpga_programming_write_count = g_fpga_programming_write_count; - } - - CyU3PThreadSleep(FPGA_PROGRAMMING_POLL_SLEEP); - CyU3PSysWatchDogClear(); - } -#ifdef ENABLE_DONE_WORKAROUND - if (wait_count >= FPGA_PROGRAMMING_DONE_POLL_COUNT) - { - CyBool_t gpio_done; - CyU3PGpioGetValue(GPIO_DONE, &gpio_done); - if (gpio_done == CyTrue) - { - wait_count = 0; - } - else - { - msg("! DONE still not high"); - } - } -#endif // ENABLE_DONE_WORKAROUND - if (wait_count >= FPGA_PROGRAMMING_DONE_POLL_COUNT) - continue; - - msg("FPGA done"); - - /* Tell the host that we are ignoring it for a while. */ - g_fx3_state = STATE_BUSY; - - CyU3PSysWatchDogClear(); - - /* Now that the FPGA is configured, we need to tear down the current SPI and - * GPIO configs, and re-config for GPIF & bit-banged SPI operation. */ - CyU3PSpiDeInit(); - b200_restore_gpio_for_fpga_config(); - - CyU3PSysWatchDogClear(); - - /* Load the GPIO configuration for normal SLFIFO use. */ - b200_slfifo_mode_gpio_config(); - - /* Tone down the drive strength on the P-port. */ - //CyU3PSetPportDriveStrength(CY_U3P_DS_HALF_STRENGTH); - - CyU3PSysWatchDogClear(); - - /* FPGA configuration is complete! Time to get the GPIF state machine - * running for Slave FIFO. */ - b200_gpif_init(); - - CyU3PThreadSleep(1); - b200_start_fpga_sb_gpio(); // Moved here to give SB time to init - - /* RUN, BABY, RUN! */ - g_fx3_state = STATE_RUNNING; - - msg("Running"); - } - - CyU3PThreadRelinquish(); - } -} - - -/*! The primary program thread. - * - * This is the primary application thread running on the FX3 device. It is - * responsible for initializing much of the chip, and then bit-banging the FPGA - * image, as it is sent from the host, into the FPGA. It then re-configures the - * FX3 for slave-fifo, and enters an infinite loop where it simply updates the - * watchdog timer and does some minor power management state checking. - */ -void thread_main_app_entry(uint32_t input) { - //msg("thread_main_app_entry"); - - /* In your spectrum, stealing your Hz. */ - for(;;) { - CyU3PSysWatchDogClear(); - CyU3PThreadSleep(CHECK_POWER_STATE_SLEEP_TIME); -#ifdef PREVENT_LOW_POWER_MODE - /* Once data transfer has started, we keep trying to get the USB - * link to stay in U0. If this is done - * before data transfers have started, there is a likelihood of - * failing the TD 9.24 U1/U2 test. */ - { - CyU3PUsbLinkPowerMode current_state; - - if((CyU3PUsbGetSpeed () == CY_U3P_SUPER_SPEED)) { - - /* If the link is in U1/U2 states, try to get back to U0. */ - CyU3PUsbGetLinkPowerState(¤t_state); - - if (current_state > CyU3PUsbLPM_U3) - msg("Power state %i", current_state); - - while((current_state >= CyU3PUsbLPM_U1) \ - && (current_state <= CyU3PUsbLPM_U3)) { - - msg("! LPS = %i", current_state); - - CyU3PUsbSetLinkPowerState(CyU3PUsbLPM_U0); // This will wake up the host if it's trying to sleep - CyU3PThreadSleep(1); - - if (CyU3PUsbGetSpeed () != CY_U3P_SUPER_SPEED) - break; - - CyU3PUsbGetLinkPowerState (¤t_state); - } - } - } -#endif // PREVENT_LOW_POWER_MODE - } -} - -static uint16_t g_poll_last_phy_error_count = 0, g_poll_last_link_error_count = 0; -static uint32_t g_poll_last_phy_error_status = 0; - -void update_error_counters(void) { - if (CyU3PUsbGetSpeed () != CY_U3P_SUPER_SPEED) - return; - - uvint32_t reg = REG_LNK_PHY_ERROR_STATUS; - uint32_t val = 0; - if (CyU3PReadDeviceRegisters((uvint32_t*)reg, 1, &val) == CY_U3P_SUCCESS) { - g_poll_last_phy_error_status |= (val & PHYERR_MASK); - - // Reset after read - uint32_t zero = PHYERR_MASK; - if (CyU3PWriteDeviceRegisters((uvint32_t*)reg, 1, &zero) != CY_U3P_SUCCESS) - msg("! CyU3PWriteDeviceRegisters"); - } - else { - // FIXME: Log once - msg("! Reg read fail"); - } - - // Equivalent code: - //uint32_t* p = (uint32_t*)REG_LNK_PHY_ERROR_STATUS; - //val = (*p); - //(*p) = PHYERR_MASK; - - uint16_t phy_error_count = 0, link_error_count = 0; - if (CyU3PUsbGetErrorCounts(&phy_error_count, &link_error_count) == CY_U3P_SUCCESS) { // Resets internal counters after call - g_poll_last_phy_error_count += phy_error_count; - g_poll_last_link_error_count += link_error_count; - } - else { - // FIXME: Log once - msg("! CyU3PUsbGetErrorCounts"); - } - - LOCK(g_counters_lock); - g_counters.usb_error_update_count++; - g_counters.usb_error_counters.phy_error_count += phy_error_count; - g_counters.usb_error_counters.link_error_count += link_error_count; - if (val & PHYERR_MASK) { - if (val & PHYERR_PHY_LOCK_EV) g_counters.usb_error_counters.PHY_LOCK_EV++; - if (val & PHYERR_TRAINING_ERROR_EV) g_counters.usb_error_counters.TRAINING_ERROR_EV++; - if (val & PHYERR_RX_ERROR_CRC32_EV) g_counters.usb_error_counters.RX_ERROR_CRC32_EV++; - if (val & PHYERR_RX_ERROR_CRC16_EV) g_counters.usb_error_counters.RX_ERROR_CRC16_EV++; - if (val & PHYERR_RX_ERROR_CRC5_EV) g_counters.usb_error_counters.RX_ERROR_CRC5_EV++; - if (val & PHYERR_PHY_ERROR_DISPARITY_EV)g_counters.usb_error_counters.PHY_ERROR_DISPARITY_EV++; - if (val & PHYERR_PHY_ERROR_EB_UND_EV) g_counters.usb_error_counters.PHY_ERROR_EB_UND_EV++; - if (val & PHYERR_PHY_ERROR_EB_OVR_EV) g_counters.usb_error_counters.PHY_ERROR_EB_OVR_EV++; - if (val & PHYERR_PHY_ERROR_DECODE_EV) g_counters.usb_error_counters.PHY_ERROR_DECODE_EV++; - } - UNLOCK(g_counters_lock); // FIXME: Read/write regs -} - - -void thread_re_enum_entry(uint32_t input) { - uint32_t event_flag; - - //msg("thread_re_enum_entry"); - - int keep_alive = 0; - - while (1) { - if (CyU3PEventGet(&g_event_usb_config, \ - (EVENT_RE_ENUM), CYU3P_EVENT_AND_CLEAR, \ - &event_flag, RE_ENUM_THREAD_SLEEP_TIME) == CY_U3P_SUCCESS) { - msg("Re-config"); - - // FIXME: This section is not finished - - // Not locking this since we only expect one write in VREQ and read afterward here - - int re_enum = g_config_mod.flags & (CF_RE_ENUM | CF_TX_SWING | CF_TX_DEEMPHASIS | CF_DISABLE_USB2 | CF_ENABLE_AS_SUPERSPEED); - - CyU3PThreadSleep(100); // Wait for EP0 xaction to complete - - //b200_fw_stop(); - -/* - int tx_swing; // [90] [65] 45 - int tx_deemphasis; // 0x11 - int disable_usb2; // 0 - int enable_as_superspeed; // 1 - int pport_drive_strength; // CY_U3P_DS_THREE_QUARTER_STRENGTH - int dma_buffer_size; // [USB3] (max) - int dma_buffer_count; // [USB3] 1 - int manual_dma; // 0 - int sb_baud_div; // 434*2 -*/ - - if (re_enum) { - if (CyU3PConnectState(CyFalse, (g_config.enable_as_superspeed != 0 ? CyTrue : CyFalse)) == CY_U3P_SUCCESS) - msg("Link down"); - else - msg("! Failed to bring link down"); - } - - if (g_config_mod.flags & CF_TX_DEEMPHASIS) { -#if (CYFX_VERSION_MAJOR >= 1) && (CYFX_VERSION_MINOR >= 3) - if ((g_config_mod.config.tx_deemphasis < 0x1F) && (CyU3PUsbSetTxDeemphasis(g_config_mod.config.tx_deemphasis) == CY_U3P_SUCCESS)) { - msg("TX deemphasis now: %d (was: %d)", g_config_mod.config.tx_deemphasis, g_config.tx_deemphasis); - g_config.tx_deemphasis = g_config_mod.config.tx_deemphasis; - } - else -#endif // #if (CYFX_VERSION_MAJOR >= 1) && (CYFX_VERSION_MINOR >= 3) - msg("! Failed to set TX deemphasis: %d (still: %d)", g_config_mod.config.tx_deemphasis, g_config.tx_deemphasis); - } - - if (g_config_mod.flags & CF_TX_SWING) { - if ((g_config_mod.config.tx_swing < 128) && (CyU3PUsbSetTxSwing(g_config_mod.config.tx_swing) == CY_U3P_SUCCESS)) { - msg("TX swing now: %d (was: %d)", g_config_mod.config.tx_swing, g_config.tx_swing); - g_config.tx_swing = g_config_mod.config.tx_swing; - } - else - msg("! Failed to set TX swing: %d (still: %d)", g_config_mod.config.tx_swing, g_config.tx_swing); - } - - if (g_config_mod.flags & CF_DISABLE_USB2) { - if (CyU3PUsbControlUsb2Support((g_config_mod.config.disable_usb2 != 0 ? CyTrue : CyFalse)) == CY_U3P_SUCCESS) { - msg("USB 2 support now: %s (was: %d)", (g_config_mod.config.disable_usb2 ? "disabled" : "enabled"), (g_config.disable_usb2 ? "disabled" : "enabled")); - g_config.disable_usb2 = g_config_mod.config.disable_usb2; - } - else - msg("! Failed to change USB 2 support to: %s (still: %s)", (g_config_mod.config.disable_usb2 ? "enabled" : "disabled"), (g_config.disable_usb2 ? "enabled" : "disabled")); - } - - if (g_config_mod.flags & CF_PPORT_DRIVE_STRENGTH) { - // CY_U3P_DS_QUARTER_STRENGTH,CY_U3P_DS_HALF_STRENGTH,CY_U3P_DS_THREE_QUARTER_STRENGTH,CY_U3P_DS_FULL_STRENGTH - if ((g_config_mod.config.pport_drive_strength >= CY_U3P_DS_QUARTER_STRENGTH) && - (g_config_mod.config.pport_drive_strength <= CY_U3P_DS_FULL_STRENGTH) && - (CyU3PSetPportDriveStrength(g_config_mod.config.pport_drive_strength) == CY_U3P_SUCCESS)) { - msg("PPort drive strength now: %d (was: %d)", g_config_mod.config.pport_drive_strength, g_config.pport_drive_strength); - g_config.pport_drive_strength = g_config_mod.config.pport_drive_strength; - } - else - msg("! Failed to set PPort drive strength: %d (still: %d)", g_config_mod.config.pport_drive_strength, g_config.pport_drive_strength); - } - - int reinit_dma = g_config_mod.flags & (CF_MANUAL_DMA | CF_DMA_BUFFER_COUNT | CF_DMA_BUFFER_SIZE); - if (re_enum) - reinit_dma = 0; // Don't need to if re-enumerating - - if (g_config_mod.flags & CF_MANUAL_DMA) { -#ifdef ENABLE_MANUAL_DMA_XFER - msg("DMA transfers will be: %s (was: %s)", (g_config_mod.config.manual_dma ? "manual" : "auto"), (g_config.manual_dma ? "manual" : "auto")); - g_config.manual_dma = g_config_mod.config.manual_dma; -#else - msg("! Manual DMA transfers not compiled into FW"); -#endif // ENABLE_MANUAL_DMA_XFER - } - - if (g_config_mod.flags & CF_DMA_BUFFER_COUNT) { - msg("DMA buffer count will be: %d (was: %d)", g_config_mod.config.dma_buffer_count, g_config.dma_buffer_count); - g_config.dma_buffer_count = g_config_mod.config.dma_buffer_count; - } - - if (g_config_mod.flags & CF_DMA_BUFFER_SIZE) { - msg("DMA buffer size will be: %d (was: %d)", g_config_mod.config.dma_buffer_size, g_config.dma_buffer_size); - g_config.dma_buffer_size = g_config_mod.config.dma_buffer_size; - } - - if (g_config_mod.flags & CF_SB_BAUD_DIV) { -#ifdef ENABLE_FPGA_SB - LOCK(g_suart_lock); - sb_write(SUART_CLKDIV, g_config_mod.config.sb_baud_div); - UNLOCK(g_suart_lock); - msg("SUART_CLKDIV now: %d (was: %d)", g_config_mod.config.sb_baud_div, g_config.sb_baud_div); - g_config.sb_baud_div = g_config_mod.config.sb_baud_div; -#else - msg("! Failed to set SUART_CLKDIV: SB is disabled (still: %d)", g_config.sb_baud_div); -#endif // ENABLE_FPGA_SB - } - - //b200_fw_start() - - if (g_config_mod.flags & CF_ENABLE_AS_SUPERSPEED) { - msg("Enable SuperSpeed: %s (was: %s)", (g_config_mod.config.enable_as_superspeed ? "yes" : "no"), (g_config.enable_as_superspeed ? "yes" : "no")); - g_config.enable_as_superspeed = g_config_mod.config.enable_as_superspeed; - } - - if (reinit_dma) { - if (g_app_running) { - msg("Stopping FW..."); - - b200_fw_stop(); - } - - msg("Starting FW..."); - - b200_fw_start(); - } - else // Shouldn't be re-init'ing AND re-enum'ing - /* Connect the USB pins, and enable SuperSpeed (USB 3.0). */ - if (re_enum) { - msg("Connecting... (as SuperSpeed: %d)", g_config.enable_as_superspeed); - - if (CyU3PConnectState(CyTrue, (g_config.enable_as_superspeed != 0 ? CyTrue : CyFalse)) == CY_U3P_SUCCESS) { // CHECK: Assuming all other important state will persist - CyU3PUSBSpeed_t usb_speed = CyU3PUsbGetSpeed(); - msg("Link up (speed: USB %d)", (int)usb_speed); // MAGIC: Values happen to map - } - else - msg("! Failed to bring link up"); - } - - counters_reset_usb_errors(); - } - else { - if (++keep_alive == KEEP_ALIVE_LOOP_COUNT) { - msg("Keep-alive"); - keep_alive = 0; - } -#ifndef ENABLE_FPGA_SB - update_error_counters(); -#endif // !ENABLE_FPGA_SB - } - - CyU3PThreadRelinquish(); - } -} - - -void base16_encode(uint8_t v, char out[2], char first) { - out[0] = first + (v >> 4); - out[1] = first + (v & 0x0F); -} - - -#ifdef ENABLE_FPGA_SB -void thread_fpga_sb_poll_entry(uint32_t input) { - //msg("thread_fpga_sb_poll_entry"); - - while (1) { - uint16_t i; - uint8_t has_change = 0; - - update_error_counters(); - - /*if (g_poll_last_phy_error_count > 0) - has_change = 1; - if (g_poll_last_link_error_count > 0) - has_change = 1;*/ - if (g_poll_last_phy_error_status != 0) - has_change = 1; - - uint16_t idx = CyU3PUsbGetEventLogIndex(); // Current *write* pointer - if (idx > (USB_EVENT_LOG_SIZE-1)) { - msg("! USB event log idx = %i", (int)idx); - break; - } - - uint8_t has_usb_events = 0; - // Assuming logging won't wrap around between get calls (i.e. buffer should be long enough) - if (g_fpga_sb_last_usb_event_log_index != idx) { - if (idx < g_fpga_sb_last_usb_event_log_index) { - for (i = g_fpga_sb_last_usb_event_log_index; i < USB_EVENT_LOG_SIZE; i++) { - if (g_usb_event_log[i] != 0x14 && g_usb_event_log[i] != 0x15 && g_usb_event_log[i] != 0x16) { // CTRL, STATUS, ACKSETUP - has_usb_events = 1; - break; - } - } - - if (has_usb_events == 0) { - for (i = 0; i < idx; i++) { - if (g_usb_event_log[i] != 0x14 && g_usb_event_log[i] != 0x15 && g_usb_event_log[i] != 0x16) { // CTRL, STATUS, ACKSETUP - has_usb_events = 1; - break; - } - } - } - } - else { - for (i = g_fpga_sb_last_usb_event_log_index; i < idx; i++) { - if (g_usb_event_log[i] != 0x14 && g_usb_event_log[i] != 0x15 && g_usb_event_log[i] != 0x16) { // CTRL, STATUS, ACKSETUP - has_usb_events = 1; - break; - } - } - } - } - - if (has_change || has_usb_events) { - LOCK(g_suart_lock); - - sb_write(SUART_TXCHAR, UPT_USB_EVENTS); - - char out[3]; - out[2] = '\0'; - - if (has_usb_events) { - if (idx < g_fpga_sb_last_usb_event_log_index) { - for (i = g_fpga_sb_last_usb_event_log_index; i < USB_EVENT_LOG_SIZE; i++) { - if (g_usb_event_log[i] == 0x14 || g_usb_event_log[i] == 0x15 || g_usb_event_log[i] == 0x16) // CTRL, STATUS, ACKSETUP - continue; - base16_encode(g_usb_event_log[i], out, 'A'); - _sb_write_string(out); - } - - for (i = 0; i < idx; i++) { - if (g_usb_event_log[i] == 0x14 || g_usb_event_log[i] == 0x15 || g_usb_event_log[i] == 0x16) // CTRL, STATUS, ACKSETUP - continue; - base16_encode(g_usb_event_log[i], out, 'A'); - _sb_write_string(out); - } - } - else { - for (i = g_fpga_sb_last_usb_event_log_index; i < idx; i++) { - if (g_usb_event_log[i] == 0x14 || g_usb_event_log[i] == 0x15 || g_usb_event_log[i] == 0x16) // CTRL, STATUS, ACKSETUP - continue; - base16_encode(g_usb_event_log[i], out, 'A'); - _sb_write_string(out); - } - } - } - - // USB events: A-P,A-P - // PHY error status: a,a-i - - if (g_poll_last_phy_error_status != 0) { - uint32_t mask; - size_t offset; - for (mask = PHYERR_MAX, offset = 0; mask != 0; mask >>= 1, ++offset) { - if ((g_poll_last_phy_error_status & mask) != 0) { - sb_write(SUART_TXCHAR, 'a'); - sb_write(SUART_TXCHAR, 'a' + offset); - } - } - } - - /*char buf[6]; - - if (g_poll_last_phy_error_count > 0) { - sb_write(SUART_TXCHAR, 'b'); - snprintf(buf, sizeof(buf)-1, "%d", g_poll_last_phy_error_count); - _sb_write_string(buf); - } - - if (g_poll_last_link_error_count > 0) { - sb_write(SUART_TXCHAR, 'c'); - snprintf(buf, sizeof(buf)-1, "%d", g_poll_last_link_error_count); - _sb_write_string(buf); - }*/ - - _sb_write_string("\r\n"); - - UNLOCK(g_suart_lock); - } - - g_poll_last_phy_error_count = 0; - g_poll_last_link_error_count = 0; - g_poll_last_phy_error_status = 0; - - g_fpga_sb_last_usb_event_log_index = idx; - - CyU3PThreadRelinquish(); - } -} -#endif // ENABLE_FPGA_SB - -/*! Application define function which creates the threads. - * - * The name of this application cannot be changed, as it is called from the - * tx_application _define function, referenced in the rest of the FX3 build - * system. - * - * If thread creation fails, lock the system and force a power reset. - */ -void CyFxApplicationDefine(void) { - void *app_thread_ptr, *fpga_thread_ptr; -#ifdef ENABLE_RE_ENUM_THREAD - void *re_enum_thread_ptr; -#endif // ENABLE_RE_ENUM_THREAD -#ifdef ENABLE_FPGA_SB - void *fpga_sb_poll_thread_ptr; -#endif // ENABLE_FPGA_SB - - g_counters.magic = COUNTER_MAGIC; - //memset(&g_config, 0xFF, sizeof(g_config)); // Initialise to -1 - - CyU3PMutexCreate(&g_log_lock, CYU3P_NO_INHERIT); - CyU3PMutexCreate(&g_counters_lock, CYU3P_NO_INHERIT); - CyU3PMutexCreate(&g_counters_dma_from_host_lock, CYU3P_NO_INHERIT); - CyU3PMutexCreate(&g_counters_dma_to_host_lock, CYU3P_NO_INHERIT); -#ifdef ENABLE_FPGA_SB - CyU3PMutexCreate(&g_suart_lock, CYU3P_NO_INHERIT); -#endif // ENABLE_FPGA_SB -#ifdef ENABLE_USB_EVENT_LOGGING - CyU3PUsbInitEventLog(g_usb_event_log, USB_EVENT_LOG_SIZE); -#endif // ENABLE_USB_EVENT_LOGGING - - //////////////////////////////////////////////////////// - - /* Tell the host that we are ignoring it for a while. */ - g_fx3_state = STATE_BUSY; - - /* Set the FX3 compatibility number. */ - compat_num[0] = FX3_COMPAT_MAJOR; - compat_num[1] = FX3_COMPAT_MINOR; - - /* Initialize the USB system. */ - b200_usb_init(); - - /* Turn on the Watchdog Timer. */ - CyU3PSysWatchDogConfigure(CyTrue, WATCHDOG_TIMEOUT); - - /* Go do something. Probably not useful, because you aren't configured. */ - g_fx3_state = STATE_UNCONFIGURED; - - //////////////////////////////////////////////////////// - - b200_gpio_init(CyTrue); - - b200_enable_fpga_sb_gpio(CyTrue); - - msg("Compat: %d.%d", FX3_COMPAT_MAJOR, FX3_COMPAT_MINOR); - msg("FX3 SDK: %d.%d.%d (build %d)", CYFX_VERSION_MAJOR, CYFX_VERSION_MINOR, CYFX_VERSION_PATCH, CYFX_VERSION_BUILD); - msg("FW built: %s %s", __TIME__, __DATE__); - - //////////////////////////////////////////////////////// - - /* Create the USB event group that we will use to track USB events from the - * application thread. */ - CyU3PEventCreate(&g_event_usb_config); - - /* Allocate memory for the application thread. */ - app_thread_ptr = CyU3PMemAlloc(APP_THREAD_STACK_SIZE); - - /* Allocate memory for the FPGA configuration thread. */ - fpga_thread_ptr = CyU3PMemAlloc(APP_THREAD_STACK_SIZE); -#ifdef ENABLE_RE_ENUM_THREAD - re_enum_thread_ptr = CyU3PMemAlloc(APP_THREAD_STACK_SIZE); -#endif // ENABLE_RE_ENUM_THREAD -#ifdef ENABLE_FPGA_SB - fpga_sb_poll_thread_ptr = CyU3PMemAlloc(APP_THREAD_STACK_SIZE); -#endif // ENABLE_FPGA_SB - //////////////////////////////////////////////////////// - - /* Create the thread for the application */ - if (app_thread_ptr != NULL) - CyU3PThreadCreate(&thread_main_app, - "200:B200 Main", - thread_main_app_entry, - 0, - app_thread_ptr, - APP_THREAD_STACK_SIZE, - THREAD_PRIORITY, - THREAD_PRIORITY, - CYU3P_NO_TIME_SLICE, - CYU3P_AUTO_START); - - /* Create the thread for FPGA configuration. */ - if (fpga_thread_ptr != NULL) - CyU3PThreadCreate(&thread_fpga_config, - "300:B200 FPGA", - thread_fpga_config_entry, - 0, - fpga_thread_ptr, - APP_THREAD_STACK_SIZE, - THREAD_PRIORITY, - THREAD_PRIORITY, - CYU3P_NO_TIME_SLICE, - CYU3P_AUTO_START); -#ifdef ENABLE_RE_ENUM_THREAD - /* Create the thread for stats collection and re-enumeration/configuration */ - if (re_enum_thread_ptr != NULL) - CyU3PThreadCreate(&thread_re_enum, - "400:B200 Re-enum", - thread_re_enum_entry, - 0, - re_enum_thread_ptr, - APP_THREAD_STACK_SIZE, - THREAD_PRIORITY, - THREAD_PRIORITY, - CYU3P_NO_TIME_SLICE, - CYU3P_AUTO_START); -#endif // ENABLE_RE_ENUM_THREAD -#ifdef ENABLE_FPGA_SB - /* Create thread to handling Settings Bus logging/transactions */ - if (fpga_sb_poll_thread_ptr != NULL) - CyU3PThreadCreate(&thread_fpga_sb_poll, - "600:B200 FPGA SB poll", - thread_fpga_sb_poll_entry, - 0, - fpga_sb_poll_thread_ptr, - APP_THREAD_STACK_SIZE, - THREAD_PRIORITY, - THREAD_PRIORITY, - CYU3P_NO_TIME_SLICE, - CYU3P_AUTO_START); -#endif // ENABLE_FPGA_SB -} - - -int main(void) { - CyU3PReturnStatus_t status = CY_U3P_SUCCESS; - CyU3PSysClockConfig_t clock_config; - - /* Configure the FX3 Clocking scheme: - * CPU Divider: 2 (~200 MHz) - * DMA Divider: 2 (~100 MHz) - * MMIO Divider: 2 (~100 MHz) - * 32 kHz Standby Clock: Disabled - * System Clock Divider: 1 */ - clock_config.cpuClkDiv = 2; - clock_config.dmaClkDiv = 2; - clock_config.mmioClkDiv = 2; - clock_config.useStandbyClk = CyFalse; - clock_config.clkSrc = CY_U3P_SYS_CLK; - clock_config.setSysClk400 = CyTrue; - - status = CyU3PDeviceInit(&clock_config); - if(status != CY_U3P_SUCCESS) - goto handle_fatal_error; - - /* Initialize the caches. Enable instruction cache and keep data cache disabled. - * The data cache is useful only when there is a large amount of CPU based memory - * accesses. When used in simple cases, it can decrease performance due to large - * number of cache flushes and cleans and also it adds to the complexity of the - * code. */ - status = CyU3PDeviceCacheControl(CyTrue, CyFalse, CyFalse); // Icache, Dcache, DMAcache - if (status != CY_U3P_SUCCESS) - goto handle_fatal_error; - - /* Configure the IO peripherals on the FX3. The gpioSimpleEn arrays are - * bitmaps, where each bit represents the GPIO of the matching index - the - * second array is index + 32. */ - status = b200_set_io_matrix(CyTrue); - if(status != CY_U3P_SUCCESS) - goto handle_fatal_error; - - /* This function calls starts the RTOS kernel. - * - * ABANDON ALL HOPE, YE WHO ENTER HERE */ - CyU3PKernelEntry(); - - /* Although we will never make it here, this has to be here to make the - * compiler happy. */ - return 0; - - /* If an error occurs before the launch of the kernel, it is unrecoverable. - * Once you go down this hole, you aren't coming back out without a power - * reset. */ - handle_fatal_error: - while(1); -} -- cgit v1.2.3