diff --git a/src/portable/silabs/efm32/dcd_efm32.c b/src/portable/silabs/efm32/dcd_efm32.c new file mode 100644 index 00000000..bd1f32e6 --- /dev/null +++ b/src/portable/silabs/efm32/dcd_efm32.c @@ -0,0 +1,931 @@ +/* + * The MIT License (MIT) + * + * Copyright (c) 2021 Rafael Silva (@perigoso) + * Copyright (c) 2021 Ha Thach (tinyusb.org) + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to deal + * in the Software without restriction, including without limitation the rights + * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell + * copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in + * all copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN + * THE SOFTWARE. + * + * This file is part of the TinyUSB stack. + */ + +#include "tusb_option.h" + +#if TUSB_OPT_DEVICE_ENABLED && ( \ + (CFG_TUSB_MCU == OPT_MCU_EFM32GG) || \ + (CFG_TUSB_MCU == OPT_MCU_EFM32GG11) || \ + (CFG_TUSB_MCU == OPT_MCU_EFM32GG12) ) + +/* Silabs */ +#include "em_device.h" + +#include "device/dcd.h" + +/* + * Since TinyUSB doesn't use SOF for now, and this interrupt too often (1ms interval) + * We disable SOF for now until needed later on + */ +#define USE_SOF 0 + +/* + * Number of endpoints + * 12 software-configurable endpoints (6 IN, 6 OUT) in addition to endpoint 0 + */ +#define EP_COUNT 7 + +/* FIFO size in bytes */ +#define EP_FIFO_SIZE 2048 + +/* Max number of IN EP FIFOs */ +#define EP_FIFO_NUM 7 + +/* */ +typedef struct { + uint8_t *buffer; + uint16_t total_len; + uint16_t queued_len; + uint16_t max_size; + bool short_packet; +} xfer_ctl_t; + +static uint32_t _setup_packet[2]; + +#define XFER_CTL_BASE(_ep, _dir) &xfer_status[_ep][_dir] +static xfer_ctl_t xfer_status[EP_COUNT][2]; + +/* Keep count of how many FIFOs are in use */ +static uint8_t _allocated_fifos = 1; /* FIFO0 is always in use */ + +static volatile uint32_t* tx_fifo[EP_FIFO_NUM] = { + USB->FIFO0D, + USB->FIFO1D, + USB->FIFO2D, + USB->FIFO3D, + USB->FIFO4D, + USB->FIFO5D, + USB->FIFO6D, +}; + +/* Register Helpers */ +#define DCTL_WO_BITMASK (USB_DCTL_CGOUTNAK | USB_DCTL_SGOUTNAK | USB_DCTL_CGNPINNAK | USB_DCTL_SGNPINNAK) +#define GUSBCFG_WO_BITMASK (USB_GUSBCFG_CORRUPTTXPKT) +#define DEPCTL_WO_BITMASK (USB_DIEP_CTL_CNAK | USB_DIEP_CTL_SNAK | USB_DIEP_CTL_SETD0PIDEF | USB_DIEP_CTL_SETD1PIDOF) + +/* Will either return an unused FIFO number, or 0 if all are used. */ +static uint8_t get_free_fifo(void) +{ + if(_allocated_fifos < EP_FIFO_NUM) return _allocated_fifos++; + return 0; +} + +/* +static void flush_rx_fifo(void) +{ + USB->GRSTCTL = USB_GRSTCTL_RXFFLSH; + while(USB->GRSTCTL & USB_GRSTCTL_RXFFLSH); +} +*/ + +static void flush_tx_fifo(uint8_t fifo_num) +{ + USB->GRSTCTL = USB_GRSTCTL_TXFFLSH | (fifo_num << _USB_GRSTCTL_TXFNUM_SHIFT); + while(USB->GRSTCTL & USB_GRSTCTL_TXFFLSH); +} + +/* Setup the control endpoint 0. */ +static void bus_reset(void) +{ + USB->DOEP0CTL |= USB_DIEP_CTL_SNAK; + for(uint8_t i = 0; i < EP_COUNT - 1; i++) + { + USB->DOEP[i].CTL |= USB_DIEP_CTL_SNAK; + } + + /* reset address */ + USB->DCFG &= ~_USB_DCFG_DEVADDR_MASK; + + USB->DAINTMSK |= USB_DAINTMSK_OUTEPMSK0 | USB_DAINTMSK_INEPMSK0; + USB->DOEPMSK |= USB_DOEPMSK_SETUPMSK | USB_DOEPMSK_XFERCOMPLMSK; + USB->DIEPMSK |= USB_DIEPMSK_TIMEOUTMSK | USB_DIEPMSK_XFERCOMPLMSK; + + /* + * - All EP OUT shared a unique OUT FIFO which uses + * * 10 locations in hardware for setup packets + setup control words (up to 3 setup packets). + * * 2 locations for OUT endpoint control words. + * * 16 for largest packet size of 64 bytes. ( TODO Highspeed is 512 bytes) + * * 1 location for global NAK (not required/used here). + * * It is recommended to allocate 2 times the largest packet size, therefore + * Recommended value = 10 + 1 + 2 x (16+2) = 47 --> Let's make it 52 + */ + flush_tx_fifo(_USB_GRSTCTL_TXFNUM_FALL); // Flush All + USB->GRXFSIZ = 52; + + /* Control IN uses FIFO 0 with 64 bytes ( 16 32-bit word ) */ + USB->GNPTXFSIZ = (16 << _USB_GNPTXFSIZ_NPTXFINEPTXF0DEP_SHIFT) | (USB->GRXFSIZ & _USB_GNPTXFSIZ_NPTXFSTADDR_MASK); + + /* Ready to receive SETUP packet */ + USB->DOEP0TSIZ |= (1 << _USB_DOEP0TSIZ_SUPCNT_SHIFT); + + USB->GINTMSK |= USB_GINTMSK_IEPINTMSK | USB_GINTMSK_OEPINTMSK; +} + +static void enum_done_processing(void) +{ + /* Maximum packet size for EP 0 is set for both directions by writing DIEPCTL */ + if((USB->DSTS & _USB_DSTS_ENUMSPD_MASK) == USB_DSTS_ENUMSPD_FS) + { + /* Full Speed (PHY on 48 MHz) */ + USB->DOEP0CTL = (USB->DOEP0CTL & ~_USB_DOEP0CTL_MPS_MASK) | _USB_DOEP0CTL_MPS_64B; /* Maximum Packet Size 64 bytes */ + USB->DOEP0CTL &= ~_USB_DOEP0CTL_STALL_MASK; /* clear Stall */ + xfer_status[0][TUSB_DIR_OUT].max_size = 64; + xfer_status[0][TUSB_DIR_IN].max_size = 64; + } + else + { + /* Low Speed (PHY on 6 MHz) */ + USB->DOEP0CTL = (USB->DOEP0CTL & ~_USB_DOEP0CTL_MPS_MASK) | _USB_DOEP0CTL_MPS_8B; /* Maximum Packet Size 64 bytes */ + USB->DOEP0CTL &= ~_USB_DOEP0CTL_STALL_MASK; /* clear Stall */ + xfer_status[0][TUSB_DIR_OUT].max_size = 8; + xfer_status[0][TUSB_DIR_IN].max_size = 8; + } +} + + +/*------------------------------------------------------------------*/ +/* Controller API */ +/*------------------------------------------------------------------*/ +void dcd_init(uint8_t rhport) +{ + (void) rhport; + + /* Reset Core */ + USB->PCGCCTL &= ~USB_PCGCCTL_STOPPCLK; + USB->PCGCCTL &= ~(USB_PCGCCTL_PWRCLMP | USB_PCGCCTL_RSTPDWNMODULE); + + /* Core Soft Reset */ + USB->GRSTCTL |= USB_GRSTCTL_CSFTRST; + while(USB->GRSTCTL & USB_GRSTCTL_CSFTRST); + + while(!(USB->GRSTCTL & USB_GRSTCTL_AHBIDLE)); + + /* Enable PHY pins */ + USB->ROUTE = USB_ROUTE_PHYPEN; + + dcd_disconnect(rhport); + + /* + * Set device speed (Full speed PHY) + * Stall on non-zero len status OUT packets (ctrl transfers) + * periodic frame interval to 80% + */ + USB->DCFG = (USB->DCFG & ~(_USB_DCFG_DEVSPD_MASK | _USB_DCFG_PERFRINT_MASK)) | USB_DCFG_DEVSPD_FS | USB_DCFG_NZSTSOUTHSHK; + + /* Enable Global Interrupts */ + USB->GAHBCFG = (USB->GAHBCFG & ~_USB_GAHBCFG_HBSTLEN_MASK) | USB_GAHBCFG_GLBLINTRMSK; + + /* Force Device Mode */ + USB->GUSBCFG = (USB->GUSBCFG & ~(GUSBCFG_WO_BITMASK | USB_GUSBCFG_FORCEHSTMODE)) | USB_GUSBCFG_FORCEDEVMODE; + + /* No Overrides */ + USB->GOTGCTL &= ~(USB_GOTGCTL_BVALIDOVVAL | USB_GOTGCTL_BVALIDOVEN | USB_GOTGCTL_VBVALIDOVVAL); + + /* Ignore frame numbers on ISO transfers. */ + USB->DCTL = (USB->DCTL & ~DCTL_WO_BITMASK) | USB_DCTL_IGNRFRMNUM; + + /* Setting SNAKs */ + USB->DOEP0CTL |= USB_DIEP_CTL_SNAK; + for(uint8_t i = 0; i < EP_COUNT - 1; i++) + { + USB->DOEP[i].CTL |= USB_DIEP_CTL_SNAK; + } + + /* D. Interruption masking */ + /* Disable all device interrupts */ + USB->DIEPMSK = 0; + USB->DOEPMSK = 0; + USB->DAINTMSK = 0; + USB->DIEPEMPMSK = 0; + USB->GINTMSK = 0; + USB->GOTGINT = ~0U; /* clear OTG ints */ + USB->GINTSTS = ~0U; /* clear pending ints */ + USB->GINTMSK = USB_GINTMSK_MODEMISMSK | + #if USE_SOF + USB_GINTMSK_SOFMSK | + #endif + USB_GINTMSK_ERLYSUSPMSK | + USB_GINTMSK_USBSUSPMSK | + USB_GINTMSK_USBRSTMSK | + USB_GINTMSK_ENUMDONEMSK | + USB_GINTMSK_RESETDETMSK | + USB_GINTMSK_DISCONNINTMSK; + + NVIC_ClearPendingIRQ(USB_IRQn); + + dcd_connect(rhport); +} + +void dcd_set_address(uint8_t rhport, uint8_t dev_addr) +{ + (void) rhport; + + USB->DCFG = (USB->DCFG & ~_USB_DCFG_DEVADDR_MASK) | (dev_addr << _USB_DCFG_DEVADDR_SHIFT); + + /* Response with status after changing device address */ + dcd_edpt_xfer(rhport, tu_edpt_addr(0, TUSB_DIR_IN), NULL, 0); +} + +void dcd_remote_wakeup(uint8_t rhport) +{ + (void) rhport; +} + +void dcd_connect(uint8_t rhport) +{ + (void) rhport; + + /* connect by enabling internal pull-up resistor on D+/D- */ + USB->DCTL &= ~(DCTL_WO_BITMASK | USB_DCTL_SFTDISCON); +} + +void dcd_disconnect(uint8_t rhport) +{ + (void) rhport; + + /* disconnect by disabling internal pull-up resistor on D+/D- */ + USB->DCTL = (USB->DCTL & ~(DCTL_WO_BITMASK)) | USB_DCTL_SFTDISCON; +} + +/*------------------------------------------------------------------*/ +/* DCD Endpoint Port */ +/*------------------------------------------------------------------*/ +void dcd_edpt_stall(uint8_t rhport, uint8_t ep_addr) +{ + (void) rhport; + + uint8_t const epnum = tu_edpt_number(ep_addr); + uint8_t const dir = tu_edpt_dir(ep_addr); + + if(dir == TUSB_DIR_IN) + { + if(epnum == 0) + { + USB->DIEP0CTL = (USB->DIEP0CTL & ~DEPCTL_WO_BITMASK) | USB_DIEP0CTL_SNAK | USB_DIEP0CTL_STALL; + + flush_tx_fifo(_USB_GRSTCTL_TXFNUM_F0); + } + else + { + /* Only disable currently enabled non-control endpoint */ + if(USB->DIEP[epnum - 1].CTL & USB_DIEP_CTL_EPENA) + { + USB->DIEP[epnum - 1].CTL = (USB->DIEP[epnum - 1].CTL & ~DEPCTL_WO_BITMASK) | USB_DIEP_CTL_EPDIS | USB_DIEP_CTL_SNAK | USB_DIEP_CTL_STALL; + while(!(USB->DIEP[epnum - 1].INT & USB_DIEP_INT_EPDISBLD)); + USB->DIEP[epnum - 1].INT |= USB_DIEP_INT_EPDISBLD; + } + else + { + USB->DIEP[epnum - 1].CTL = (USB->DIEP[epnum - 1].CTL & ~DEPCTL_WO_BITMASK) | USB_DIEP_CTL_SNAK | USB_DIEP_CTL_STALL; + } + + /* Flush the FIFO */ + uint8_t const fifo_num = ((USB->DIEP[epnum - 1].CTL & _USB_DIEP_CTL_TXFNUM_MASK) >> _USB_DIEP_CTL_TXFNUM_SHIFT); + flush_tx_fifo(fifo_num); + } + } + else + { + if(epnum == 0) + { + USB->DOEP0CTL = (USB->DOEP0CTL & ~DEPCTL_WO_BITMASK) | USB_DIEP0CTL_STALL; + } + else + { + /* Only disable currently enabled non-control endpoint */ + if(USB->DOEP[epnum - 1].CTL & USB_DIEP_CTL_EPENA) + { + /* Asserting GONAK is required to STALL an OUT endpoint. */ + USB->DCTL |= USB_DCTL_SGOUTNAK; + while(!(USB->GINTSTS & USB_GINTSTS_GOUTNAKEFF)); + + /* Disable the endpoint. Note that only STALL and not SNAK is set here. */ + USB->DOEP[epnum - 1].CTL = (USB->DOEP[epnum - 1].CTL & ~DEPCTL_WO_BITMASK) | USB_DIEP_CTL_EPDIS | USB_DIEP_CTL_STALL; + while(USB->DOEP[epnum - 1].INT & USB_DIEP_INT_EPDISBLD); + USB->DOEP[epnum - 1].INT |= USB_DIEP_INT_EPDISBLD; + + /* Allow other OUT endpoints to keep receiving. */ + USB->DCTL |= USB_DCTL_CGOUTNAK; + } + else + { + USB->DIEP[epnum - 1].CTL = (USB->DIEP[epnum - 1].CTL & ~DEPCTL_WO_BITMASK) | USB_DIEP_CTL_STALL; + } + } + } +} + +void dcd_edpt_clear_stall(uint8_t rhport, uint8_t ep_addr) +{ + (void) rhport; + + uint8_t const epnum = tu_edpt_number(ep_addr); + uint8_t const dir = tu_edpt_dir(ep_addr); + + if(dir == TUSB_DIR_IN) + { + if(epnum == 0) + { + USB->DIEP0CTL &= ~(DEPCTL_WO_BITMASK | USB_DIEP0CTL_STALL); + } + else + { + USB->DIEP[epnum - 1].CTL &= ~(DEPCTL_WO_BITMASK | USB_DIEP_CTL_STALL); + + /* Required by USB spec to reset DATA toggle bit to DATA0 on interrupt and bulk endpoints. */ + uint8_t eptype = (USB->DIEP[epnum - 1].CTL & _USB_DIEP_CTL_EPTYPE_MASK) >> _USB_DIEP_CTL_EPTYPE_SHIFT; + + if((eptype == _USB_DIEP_CTL_EPTYPE_BULK) || (eptype == _USB_DIEP_CTL_EPTYPE_INT)) + { + USB->DIEP[epnum - 1].CTL |= USB_DIEP_CTL_SETD0PIDEF; + } + } + } + else + { + if(epnum == 0) + { + USB->DOEP0CTL &= ~(DEPCTL_WO_BITMASK | USB_DOEP0CTL_STALL); + } + else + { + USB->DOEP[epnum - 1].CTL &= ~(DEPCTL_WO_BITMASK | USB_DOEP_CTL_STALL); + + /* Required by USB spec to reset DATA toggle bit to DATA0 on interrupt and bulk endpoints. */ + uint8_t eptype = (USB->DOEP[epnum - 1].CTL & _USB_DOEP_CTL_EPTYPE_MASK) >> _USB_DOEP_CTL_EPTYPE_SHIFT; + + if((eptype == _USB_DOEP_CTL_EPTYPE_BULK) || (eptype == _USB_DOEP_CTL_EPTYPE_INT)) + { + USB->DOEP[epnum - 1].CTL |= USB_DOEP_CTL_SETD0PIDEF; + } + } + } +} + +bool dcd_edpt_open(uint8_t rhport, tusb_desc_endpoint_t const * p_endpoint_desc) +{ + (void)rhport; + + uint8_t const epnum = tu_edpt_number(p_endpoint_desc->bEndpointAddress); + uint8_t const dir = tu_edpt_dir(p_endpoint_desc->bEndpointAddress); + + TU_ASSERT(p_endpoint_desc->wMaxPacketSize.size <= 64); + TU_ASSERT(epnum < EP_COUNT); + TU_ASSERT(epnum != 0); + + xfer_ctl_t *xfer = XFER_CTL_BASE(epnum, dir); + xfer->max_size = p_endpoint_desc->wMaxPacketSize.size; + + if(dir == TUSB_DIR_OUT) + { + USB->DOEP[epnum - 1].CTL |= USB_DOEP_CTL_USBACTEP | + (p_endpoint_desc->bmAttributes.xfer << _USB_DOEP_CTL_EPTYPE_SHIFT) | + (p_endpoint_desc->wMaxPacketSize.size << _USB_DOEP_CTL_MPS_SHIFT); + USB->DAINTMSK |= (1 << (_USB_DAINTMSK_OUTEPMSK0_SHIFT + epnum)); + } + else + { + uint8_t fifo_num = get_free_fifo(); + TU_ASSERT(fifo_num != 0); + + USB->DIEP[epnum - 1].CTL &= ~(_USB_DIEP_CTL_TXFNUM_MASK | _USB_DIEP_CTL_EPTYPE_MASK | USB_DIEP_CTL_SETD0PIDEF | _USB_DIEP_CTL_MPS_MASK); + USB->DIEP[epnum - 1].CTL |= USB_DIEP_CTL_USBACTEP | + (fifo_num << _USB_DIEP_CTL_TXFNUM_SHIFT) | + (p_endpoint_desc->bmAttributes.xfer << _USB_DIEP_CTL_EPTYPE_SHIFT) | + ((p_endpoint_desc->bmAttributes.xfer != TUSB_XFER_ISOCHRONOUS) ? USB_DIEP_CTL_SETD0PIDEF : 0) | + (p_endpoint_desc->wMaxPacketSize.size << 0); + + USB->DAINTMSK |= (1 << epnum); + + /* Both TXFD and TXSA are in unit of 32-bit words. */ + /* IN FIFO 0 was configured during enumeration, hence the "+ 16". */ + uint16_t const allocated_size = (USB->GRXFSIZ & _USB_GRXFSIZ_RXFDEP_MASK) + 16; + uint16_t const fifo_size = (EP_FIFO_SIZE/4 - allocated_size) / (EP_FIFO_NUM-1); + uint32_t const fifo_offset = allocated_size + fifo_size*(fifo_num-1); + + /* DIEPTXF starts at FIFO #1. */ + volatile uint32_t* usb_dieptxf = &USB->DIEPTXF1; + usb_dieptxf[epnum - 1] = (fifo_size << _USB_DIEPTXF1_INEPNTXFDEP_SHIFT) | fifo_offset; + } + return true; +} + +bool dcd_edpt_xfer(uint8_t rhport, uint8_t ep_addr, uint8_t* buffer, uint16_t total_bytes) +{ + (void)rhport; + + uint8_t const epnum = tu_edpt_number(ep_addr); + uint8_t const dir = tu_edpt_dir(ep_addr); + + xfer_ctl_t * xfer = XFER_CTL_BASE(epnum, dir); + xfer->buffer = buffer; + xfer->total_len = total_bytes; + xfer->queued_len = 0; + xfer->short_packet = false; + + uint16_t num_packets = (total_bytes / xfer->max_size); + uint8_t short_packet_size = total_bytes % xfer->max_size; + + // Zero-size packet is special case. + if(short_packet_size > 0 || (total_bytes == 0)) + { + num_packets++; + } + + // IN and OUT endpoint xfers are interrupt-driven, we just schedule them + // here. + if(dir == TUSB_DIR_IN) + { + if(epnum == 0) + { + // A full IN transfer (multiple packets, possibly) triggers XFRC. + USB->DIEP0TSIZ = (num_packets << _USB_DIEP0TSIZ_PKTCNT_SHIFT) | total_bytes; + USB->DIEP0CTL |= USB_DIEP0CTL_EPENA | USB_DIEP0CTL_CNAK; // Enable | CNAK + } + else + { + // A full IN transfer (multiple packets, possibly) triggers XFRC. + USB->DIEP[epnum - 1].TSIZ = (num_packets << _USB_DIEP_TSIZ_PKTCNT_SHIFT) | total_bytes; + USB->DIEP[epnum - 1].CTL |= USB_DIEP_CTL_EPENA | USB_DIEP_CTL_CNAK; // Enable | CNAK + } + + // Enable fifo empty interrupt only if there are something to put in the fifo. + if(total_bytes != 0) + { + USB->DIEPEMPMSK |= (1 << epnum); + } + } + else + { + if(epnum == 0) + { + // A full IN transfer (multiple packets, possibly) triggers XFRC. + USB->DOEP0TSIZ |= (1 << _USB_DOEP0TSIZ_PKTCNT_SHIFT) | ((xfer->max_size & _USB_DOEP0TSIZ_XFERSIZE_MASK) << _USB_DOEP0TSIZ_XFERSIZE_SHIFT); + USB->DOEP0CTL |= USB_DOEP0CTL_EPENA | USB_DOEP0CTL_CNAK; + } + else + { + // A full IN transfer (multiple packets, possibly) triggers XFRC. + USB->DOEP[epnum - 1].TSIZ |= (1 << _USB_DOEP_TSIZ_PKTCNT_SHIFT) | ((xfer->max_size & _USB_DOEP_TSIZ_XFERSIZE_MASK) << _USB_DOEP_TSIZ_XFERSIZE_SHIFT); + USB->DOEP[epnum - 1].CTL |= USB_DOEP_CTL_EPENA | USB_DOEP_CTL_CNAK; + } + } + return true; +} + +/*------------------------------------------------------------------*/ +/* IRQ */ +/*------------------------------------------------------------------*/ +void dcd_int_enable(uint8_t rhport) +{ + (void) rhport; + + NVIC_EnableIRQ(USB_IRQn); +} + +void dcd_int_disable(uint8_t rhport) +{ + (void) rhport; + + NVIC_DisableIRQ(USB_IRQn); +} + +static void receive_packet(xfer_ctl_t *xfer, uint16_t xfer_size) +{ + uint16_t remaining = xfer->total_len - xfer->queued_len; + uint16_t to_recv_size; + + if(remaining <= xfer->max_size) + { + /* Avoid buffer overflow. */ + to_recv_size = (xfer_size > remaining) ? remaining : xfer_size; + } + else + { + /* Room for full packet, choose recv_size based on what the microcontroller claims. */ + to_recv_size = (xfer_size > xfer->max_size) ? xfer->max_size : xfer_size; + } + + uint8_t to_recv_rem = to_recv_size % 4; + uint16_t to_recv_size_aligned = to_recv_size - to_recv_rem; + + /* Do not assume xfer buffer is aligned. */ + uint8_t *base = (xfer->buffer + xfer->queued_len); + + /* This for loop always runs at least once- skip if less than 4 bytes to collect. */ + if(to_recv_size >= 4) + { + for(uint16_t i = 0; i < to_recv_size_aligned; i += 4) + { + uint32_t tmp = (*USB->FIFO0D); + base[i] = tmp & 0x000000FF; + base[i + 1] = (tmp & 0x0000FF00) >> 8; + base[i + 2] = (tmp & 0x00FF0000) >> 16; + base[i + 3] = (tmp & 0xFF000000) >> 24; + } + } + + /* Do not read invalid bytes from RX FIFO. */ + if(to_recv_rem != 0) + { + uint32_t tmp = (*USB->FIFO0D); + uint8_t *last_32b_bound = base + to_recv_size_aligned; + + last_32b_bound[0] = tmp & 0x000000FF; + if(to_recv_rem > 1) + { + last_32b_bound[1] = (tmp & 0x0000FF00) >> 8; + } + if(to_recv_rem > 2) + { + last_32b_bound[2] = (tmp & 0x00FF0000) >> 16; + } + } + + xfer->queued_len += xfer_size; + + /* Per USB spec, a short OUT packet (including length 0) is always */ + /* indicative of the end of a transfer (at least for ctl, bulk, int). */ + xfer->short_packet = (xfer_size < xfer->max_size); +} + +static void transmit_packet(xfer_ctl_t *xfer, uint8_t fifo_num) +{ + uint16_t remaining; + if(fifo_num == 0) + { + remaining = (USB->DIEP0TSIZ & 0x7FFFFU) >> _USB_DIEP0TSIZ_XFERSIZE_SHIFT; + } + else + { + remaining = (USB->DIEP[fifo_num - 1].TSIZ & 0x7FFFFU) >> _USB_DIEP_TSIZ_XFERSIZE_SHIFT; + } + xfer->queued_len = xfer->total_len - remaining; + + uint16_t to_xfer_size = (remaining > xfer->max_size) ? xfer->max_size : remaining; + uint8_t to_xfer_rem = to_xfer_size % 4; + uint16_t to_xfer_size_aligned = to_xfer_size - to_xfer_rem; + + /* Buffer might not be aligned to 32b, so we need to force alignment by copying to a temp var. */ + uint8_t *base = (xfer->buffer + xfer->queued_len); + + /* This for loop always runs at least once- skip if less than 4 bytes to send off. */ + if(to_xfer_size >= 4) + { + for(uint16_t i = 0; i < to_xfer_size_aligned; i += 4) + { + uint32_t tmp = base[i] | (base[i + 1] << 8) | (base[i + 2] << 16) | (base[i + 3] << 24); + *tx_fifo[fifo_num] = tmp; + } + } + + /* Do not read beyond end of buffer if not divisible by 4. */ + if(to_xfer_rem != 0) + { + uint32_t tmp = 0; + uint8_t *last_32b_bound = base + to_xfer_size_aligned; + + tmp |= last_32b_bound[0]; + if(to_xfer_rem > 1) + { + tmp |= (last_32b_bound[1] << 8); + } + if(to_xfer_rem > 2) + { + tmp |= (last_32b_bound[2] << 16); + } + + *tx_fifo[fifo_num] = tmp; + } +} + +static void read_rx_fifo(void) +{ + /* + * Pop control word off FIFO (completed xfers will have 2 control words, + * we only pop one ctl word each interrupt). + */ + uint32_t const ctl_word = USB->GRXSTSP; + uint8_t const pktsts = (ctl_word & _USB_GRXSTSP_PKTSTS_MASK) >> _USB_GRXSTSP_PKTSTS_SHIFT; + uint8_t const epnum = (ctl_word & _USB_GRXSTSP_CHNUM_MASK ) >> _USB_GRXSTSP_CHNUM_SHIFT; + uint16_t const bcnt = (ctl_word & _USB_GRXSTSP_BCNT_MASK ) >> _USB_GRXSTSP_BCNT_SHIFT; + + switch(pktsts) + { + case 0x01: /* Global OUT NAK (Interrupt) */ + break; + + case 0x02: + { + /* Out packet recvd */ + xfer_ctl_t *xfer = XFER_CTL_BASE(epnum, TUSB_DIR_OUT); + receive_packet(xfer, bcnt); + } + break; + + case 0x03: + /* Out packet done (Interrupt) */ + break; + + case 0x04: + /* Step 2: Setup transaction completed (Interrupt) */ + /* After this event, OEPINT interrupt will occur with SETUP bit set */ + if(epnum == 0) + { + USB->DOEP0TSIZ |= (1 << _USB_DOEP0TSIZ_SUPCNT_SHIFT); + } + + break; + + case 0x06: + { + /* Step1: Setup data packet received */ + + /* + * We can receive up to three setup packets in succession, but + * only the last one is valid. Therefore we just overwrite it + */ + _setup_packet[0] = (*USB->FIFO0D); + _setup_packet[1] = (*USB->FIFO0D); + } + break; + + default: + /* Invalid, breakpoint. */ + TU_BREAKPOINT(); + break; + } +} + +static void handle_epout_ints(void) +{ + // GINTSTS will be cleared with DAINT == 0 + // DAINT for a given EP clears when DOEPINTx is cleared. + // DOEPINT will be cleared when DAINT's out bits are cleared. + + for(uint8_t n = 0; n < EP_COUNT; n++) + { + xfer_ctl_t *xfer = XFER_CTL_BASE(n, TUSB_DIR_OUT); + + if(n == 0) + { + if(USB->DAINT & (1 << (_USB_DAINT_OUTEPINT0_SHIFT + n))) + { + // SETUP packet Setup Phase done. + if((USB->DOEP0INT & USB_DOEP0INT_SETUP)) + { + USB->DOEP0INT = USB_DOEP0INT_STUPPKTRCVD | USB_DOEP0INT_SETUP; // clear + dcd_event_setup_received(0, (uint8_t *)&_setup_packet[0], true); + } + + // OUT XFER complete (single packet).q + if(USB->DOEP0INT & USB_DOEP0INT_XFERCOMPL) + { + USB->DOEP0INT = USB_DOEP0INT_XFERCOMPL; + + // Transfer complete if short packet or total len is transferred + if(xfer->short_packet || (xfer->queued_len == xfer->total_len)) + { + xfer->short_packet = false; + dcd_event_xfer_complete(0, n, xfer->queued_len, XFER_RESULT_SUCCESS, true); + } + else + { + // Schedule another packet to be received. + USB->DOEP0TSIZ |= (1 << _USB_DOEP0TSIZ_PKTCNT_SHIFT) | ((xfer->max_size & _USB_DOEP0TSIZ_XFERSIZE_MASK) << _USB_DOEP0TSIZ_XFERSIZE_SHIFT); + USB->DOEP0CTL |= USB_DOEP0CTL_EPENA | USB_DOEP0CTL_CNAK; + } + } + } + } + else + { + if(USB->DAINT & (1 << (_USB_DAINT_OUTEPINT0_SHIFT + n))) + { + // SETUP packet Setup Phase done. + if((USB->DOEP[n - 1].INT & USB_DOEP_INT_SETUP)) + { + USB->DOEP[n - 1].INT = USB_DOEP_INT_STUPPKTRCVD | USB_DOEP_INT_SETUP; // clear + dcd_event_setup_received(0, (uint8_t *)&_setup_packet[0], true); + } + + // OUT XFER complete (single packet).q + if(USB->DOEP[n - 1].INT & USB_DOEP_INT_XFERCOMPL) + { + USB->DOEP[n - 1].INT = USB_DOEP_INT_XFERCOMPL; + + // Transfer complete if short packet or total len is transferred + if(xfer->short_packet || (xfer->queued_len == xfer->total_len)) + { + xfer->short_packet = false; + dcd_event_xfer_complete(0, n, xfer->queued_len, XFER_RESULT_SUCCESS, true); + } + else + { + // Schedule another packet to be received. + USB->DOEP[n - 1].TSIZ |= (1 << _USB_DOEP_TSIZ_PKTCNT_SHIFT) | ((xfer->max_size & _USB_DOEP_TSIZ_XFERSIZE_MASK) << _USB_DOEP_TSIZ_XFERSIZE_SHIFT); + USB->DOEP[n - 1].CTL |= USB_DOEP_CTL_EPENA | USB_DOEP_CTL_CNAK; + } + } + } + } + } +} + +static void handle_epin_ints(void) +{ + + for(uint32_t n = 0; n < EP_COUNT; n++) + { + xfer_ctl_t *xfer = &xfer_status[n][TUSB_DIR_IN]; + + if(n == 0) + { + if(USB->DAINT & (1 << n)) + { + /* IN XFER complete (entire xfer). */ + if(USB->DIEP0INT & USB_DIEP0INT_XFERCOMPL) + { + USB->DIEP0INT = USB_DIEP0INT_XFERCOMPL; + dcd_event_xfer_complete(0, n | TUSB_DIR_IN_MASK, xfer->total_len, XFER_RESULT_SUCCESS, true); + } + + /* XFER FIFO empty */ + if(USB->DIEP0INT & USB_DIEP0INT_TXFEMP) + { + USB->DIEP0INT = USB_DIEP0INT_TXFEMP; + transmit_packet(xfer, n); + + /* Turn off TXFE if all bytes are written. */ + if(xfer->queued_len == xfer->total_len) + { + USB->DIEPEMPMSK &= ~(1 << n); + } + } + + /* XFER Timeout */ + if(USB->DIEP0INT & USB_DIEP0INT_TIMEOUT) + { + /* Clear interrupt or enpoint will hang. */ + USB->DIEP0INT = USB_DIEP0INT_TIMEOUT; + } + } + } + else + { + if(USB->DAINT & (1 << n)) + { + /* IN XFER complete (entire xfer). */ + if(USB->DIEP[n - 1].INT & USB_DIEP_INT_XFERCOMPL) + { + USB->DIEP[n - 1].INT = USB_DIEP_INT_XFERCOMPL; + dcd_event_xfer_complete(0, n | TUSB_DIR_IN_MASK, xfer->total_len, XFER_RESULT_SUCCESS, true); + } + + /* XFER FIFO empty */ + if(USB->DIEP[n - 1].INT & USB_DIEP_INT_TXFEMP) + { + USB->DIEP[n - 1].INT = USB_DIEP_INT_TXFEMP; + transmit_packet(xfer, n); + + /* Turn off TXFE if all bytes are written. */ + if(xfer->queued_len == xfer->total_len) + { + USB->DIEPEMPMSK &= ~(1 << n); + } + } + + /* XFER Timeout */ + if(USB->DIEP[n - 1].INT & USB_DIEP_INT_TIMEOUT) + { + /* Clear interrupt or enpoint will hang. */ + USB->DIEP[n - 1].INT = USB_DIEP_INT_TIMEOUT; + } + } + } + } +} + +void dcd_int_handler(uint8_t rhport) +{ + (void) rhport; + + const uint32_t int_status = USB->GINTSTS; + + /* USB Reset */ + if(int_status & USB_GINTSTS_USBRST) + { + /* start of reset */ + USB->GINTSTS = USB_GINTSTS_USBRST; + /* FIFOs will be reassigned when the endpoints are reopen */ + _allocated_fifos = 1; + bus_reset(); + } + + /* Reset detected Interrupt */ + if(int_status & USB_GINTSTS_RESETDET) + { + USB->GINTSTS = USB_GINTSTS_RESETDET; + bus_reset(); + } + + /* Enumeration Done */ + if(int_status & USB_GINTSTS_ENUMDONE) + { + /* This interrupt is considered the end of reset. */ + USB->GINTSTS = USB_GINTSTS_ENUMDONE; + enum_done_processing(); + dcd_event_bus_signal(0, DCD_EVENT_BUS_RESET, true); + } + + /* OTG Interrupt */ + if(int_status & USB_GINTSTS_OTGINT) + { + /* OTG INT bit is read-only */ + + uint32_t const otg_int = USB->GOTGINT; + + if(otg_int & USB_GOTGINT_SESENDDET) + { + dcd_event_bus_signal(0, DCD_EVENT_UNPLUGGED, true); + } + + USB->GOTGINT = otg_int; + } + + #if USE_SOF + if(int_status & USB_GINTSTS_SOF) + { + USB->GINTSTS = USB_GINTSTS_SOF; + dcd_event_bus_signal(0, DCD_EVENT_SOF, true); + } + #endif + + /* RxFIFO Non-Empty */ + if(int_status & USB_GINTSTS_RXFLVL) + { + /* RXFLVL bit is read-only */ + + /* Mask out RXFLVL while reading data from FIFO */ + USB->GINTMSK &= ~USB_GINTMSK_RXFLVLMSK; + read_rx_fifo(); + USB->GINTMSK |= USB_GINTMSK_RXFLVLMSK; + } + + /* OUT Endpoints Interrupt */ + if(int_status & USB_GINTMSK_OEPINTMSK) + { + /* OEPINT is read-only */ + handle_epout_ints(); + } + + /* IN Endpoints Interrupt */ + if(int_status & USB_GINTMSK_IEPINTMSK) + { + /* IEPINT bit read-only */ + handle_epin_ints(); + } + + /* unhandled */ + USB->GINTSTS |= USB_GINTSTS_CURMOD | + USB_GINTSTS_MODEMIS | + USB_GINTSTS_OTGINT | + USB_GINTSTS_NPTXFEMP | + USB_GINTSTS_GINNAKEFF | + USB_GINTSTS_GOUTNAKEFF | + USB_GINTSTS_ERLYSUSP | + USB_GINTSTS_USBSUSP | + USB_GINTSTS_ISOOUTDROP | + USB_GINTSTS_EOPF | + USB_GINTSTS_EPMIS | + USB_GINTSTS_INCOMPISOIN | + USB_GINTSTS_INCOMPLP | + USB_GINTSTS_FETSUSP | + USB_GINTSTS_PTXFEMP; +} + +#endif