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Use ATDTW when polling dTD status, and other USB improvements

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PaulStoffregen преди 5 години
родител
ревизия
57bc3456ba
променени са 3 файла, в които са добавени 118 реда и са изтрити 73 реда
  1. +112
    -66
      teensy4/usb.c
  2. +1
    -0
      teensy4/usb_dev.h
  3. +5
    -7
      teensy4/usb_serial.c

+ 112
- 66
teensy4/usb.c Целия файл

@@ -84,29 +84,6 @@ static void endpoint0_complete(void);

static void run_callbacks(endpoint_t *ep);

static void run_callbacks(endpoint_t *ep)
{
transfer_t *t, *next;

printf("run_callbacks\n");
t = ep->first_transfer;
while (t && (uint32_t)t != 1) {
if (!(t->status & (1<<7))) {
// transfer not active anymore
next = (transfer_t *)t->next;
ep->callback_function(t);
} else {
// transfer still active
ep->first_transfer = t;
return;
}
t = next;
}
// all transfers completed
ep->first_transfer = NULL;
ep->last_transfer = NULL;
}


__attribute__((section(".progmem")))
void usb_init(void)
@@ -332,6 +309,7 @@ static void endpoint0_setup(uint64_t setupdata)
case 0x0900: // SET_CONFIGURATION
usb_configuration = setup.wValue;
// configure all other endpoints
#if 0
volatile uint32_t *reg = &USB1_ENDPTCTRL1;
const uint32_t *cfg = usb_endpoint_config_table;
int i;
@@ -345,6 +323,26 @@ static void endpoint0_setup(uint64_t setupdata)
//printf(" ep=%d: cfg=%08lX - %08lX - %08lX\n", i + 1, n, m, p);
reg++;
}
#else
#if defined(ENDPOINT2_CONFIG)
USB1_ENDPTCTRL2 = ENDPOINT2_CONFIG;
#endif
#if defined(ENDPOINT3_CONFIG)
USB1_ENDPTCTRL3 = ENDPOINT3_CONFIG;
#endif
#if defined(ENDPOINT4_CONFIG)
USB1_ENDPTCTRL4 = ENDPOINT4_CONFIG;
#endif
#if defined(ENDPOINT5_CONFIG)
USB1_ENDPTCTRL5 = ENDPOINT5_CONFIG;
#endif
#if defined(ENDPOINT6_CONFIG)
USB1_ENDPTCTRL6 = ENDPOINT6_CONFIG;
#endif
#if defined(ENDPOINT7_CONFIG)
USB1_ENDPTCTRL7 = ENDPOINT7_CONFIG;
#endif
#endif
#if defined(CDC_STATUS_INTERFACE) && defined(CDC_DATA_INTERFACE)
usb_serial_configure();
#endif
@@ -485,6 +483,7 @@ static void usb_endpoint_config(endpoint_t *qh, uint32_t config, void (*callback
{
memset(qh, 0, sizeof(endpoint_t));
qh->config = config;
qh->next = 1; // Terminate bit = 1
qh->callback_function = callback;
}

@@ -519,70 +518,102 @@ void usb_prepare_transfer(transfer_t *transfer, const void *data, uint32_t len,
transfer->callback_param = param;
}

static uint32_t get_endptstatus(void)
{
uint32_t status, cmd;
cmd = USB1_USBCMD;
do {
USB1_USBCMD = cmd | USB_USBCMD_ATDTW;
status = USB1_ENDPTSTATUS;
} while (!(USB1_USBCMD & USB_USBCMD_ATDTW));
return status;
}

static void schedule_transfer(endpoint_t *endpoint, uint32_t epmask, transfer_t *transfer)
{
transfer_t *last, *next;

// 41.5.6.6.3 Executing A Transfer Descriptor, page 2468 (RT1060 manual, Rev 1, 12/2018)
if (endpoint->callback_function) {
// endpoint uses interrupts and maintains linked list of all transfers
transfer->status |= (1<<15);
last = endpoint->last_transfer;
} else {
//transfer->status |= (1<<15);
// remove all inactive transfers
}
__disable_irq();
#if 0
if (endpoint->last_transfer) {
if (!(endpoint->last_transfer->status & (1<<7))) {
endpoint->last_transfer->next = (uint32_t)transfer;
} else {
// Case 2: Link list is not empty, page 3182
endpoint->last_transfer->next = (uint32_t)transfer;
if (USB1_ENDPTPRIME & epmask) {
endpoint->last_transfer = transfer;
__enable_irq();
printf(" case 2a\n");
return;
}
uint32_t stat;
uint32_t cmd = USB1_USBCMD;
do {
USB1_USBCMD = cmd | USB_USBCMD_ATDTW;
stat = USB1_ENDPTSTATUS;
} while (!(USB1_USBCMD & USB_USBCMD_ATDTW));
USB1_USBCMD = cmd & ~USB_USBCMD_ATDTW;
if (stat & epmask) {
endpoint->last_transfer = transfer;
__enable_irq();
printf(" case 2b\n");
return;
// endpoint has no callback, no list of transfers
//if ((USB1_ENDPTPRIME & epmask) || (get_endptstatus() & epmask)) {
last = (transfer_t *)(endpoint->next & ~0x1F);
if (last) {
while (1) {
next = (transfer_t *)(last->next & ~0x1F);
if (!next) break;
last = next;
}
}
//} else {
//last = NULL;
//}
}
if (last) {
last->next = transfer;
if ((USB1_ENDPTPRIME & epmask) || (get_endptstatus() & epmask)) {
endpoint->last_transfer = transfer;
__enable_irq();
return;
}
} else {
endpoint->first_transfer = transfer;
}
endpoint->last_transfer = transfer;
#endif
// Case 1: Link list is empty, page 3182
endpoint->next = (uint32_t)transfer;
endpoint->status = 0;
endpoint->first_transfer = (uint32_t)transfer;
endpoint->last_transfer = (uint32_t)transfer;
endpoint->first_transfer = transfer;
endpoint->last_transfer = transfer;
USB1_ENDPTPRIME |= epmask;
while (USB1_ENDPTPRIME & epmask) ;
__enable_irq();
//printf(" case 1\n");


// ENDPTPRIME - momentarily set by hardware during hardware re-priming
// ENDPTPRIME - Software should write a one to the corresponding bit when
// posting a new transfer descriptor to an endpoint queue head.
// Hardware automatically uses this bit to begin parsing for a
// new transfer descriptor from the queue head and prepare a
// transmit buffer. Hardware clears this bit when the associated
// endpoint(s) is (are) successfully primed.
// Momentarily set by hardware during hardware re-priming
// operations when a dTD is retired, and the dQH is updated.

// ENDPTSTAT - Transmit Buffer Ready - set to one by the hardware as a
// ENDPTSTATUS - Transmit Buffer Ready - set to one by the hardware as a
// response to receiving a command from a corresponding bit
// in the ENDPTPRIME register. . Buffer ready is cleared by
// USB reset, by the USB DMA system, or through the ENDPTFLUSH
// register. (so 0=buffer ready, 1=buffer primed for transmit)

// USBCMD.ATDTW - This bit is used as a semaphore to ensure proper addition
// of a new dTD to an active (primed) endpoint's linked list.
// This bit is set and cleared by software.
// This bit would also be cleared by hardware when state machine
// is hazard region for which adding a dTD to a primed endpoint
// may go unrecognized.
}

static void run_callbacks(endpoint_t *ep)
{
transfer_t *t, *next;

printf("run_callbacks\n");
t = ep->first_transfer;
while (t && (uint32_t)t != 1) {
if (!(t->status & (1<<7))) {
// transfer not active anymore
next = (transfer_t *)t->next;
ep->callback_function(t);
} else {
// transfer still active
ep->first_transfer = t;
return;
}
t = next;
}
// all transfers completed
ep->first_transfer = NULL;
ep->last_transfer = NULL;
}


void usb_transmit(int endpoint_number, transfer_t *transfer)
{
if (endpoint_number < 2 || endpoint_number > NUM_ENDPOINTS) return;
@@ -599,7 +630,22 @@ void usb_receive(int endpoint_number, transfer_t *transfer)
schedule_transfer(endpoint, mask, transfer);
}


uint32_t usb_transfer_status(const transfer_t *transfer)
{
uint32_t status, cmd;
//uint32_t count=0;

cmd = USB1_USBCMD;
do {
//count++;
USB1_USBCMD = cmd | USB_USBCMD_ATDTW;
status = transfer->status;
cmd = USB1_USBCMD;
} while (!(cmd & USB_USBCMD_ATDTW));
//if (count > 1) printf("s=%08X, count=%d\n", status, count);
//printf("s=%08X, count=%d\n", status, count);
return status;
}




+ 1
- 0
teensy4/usb_dev.h Целия файл

@@ -22,5 +22,6 @@ void usb_config_tx(uint32_t ep, uint32_t packet_size, int do_zlp, void (*cb)(tra
void usb_prepare_transfer(transfer_t *transfer, const void *data, uint32_t len, uint32_t param);
void usb_transmit(int endpoint_number, transfer_t *transfer);
void usb_receive(int endpoint_number, transfer_t *transfer);
uint32_t usb_transfer_status(const transfer_t *transfer);



+ 5
- 7
teensy4/usb_serial.c Целия файл

@@ -257,21 +257,19 @@ static uint8_t txbuffer[1024];
int usb_serial_write(const void *buffer, uint32_t size)
{
if (!usb_configuration) return 0;
// TODO: do something so much better that this quick hack....
if (size > sizeof(txbuffer)) size = sizeof(txbuffer);
int count=0;
//digitalWriteFast(13, HIGH);
while (1) {
uint32_t status = txtransfer.status;
if (count > 10) printf("status = %x\n", status);
uint32_t status = usb_transfer_status(&txtransfer);
if (count > 2000) {
printf("status = %x\n", status);
//while (1) ;
}
if (!(status & 0x80)) break;
count++;
//if (count > 50) break; // TODO: proper timout?
// TODO: check for USB offline
delayMicroseconds(5); // polling too quickly seem to block DMA - maybe DTCM issue?
}
//digitalWriteFast(13, LOW);
delayMicroseconds(1); // TODO: this must not be the answer!
memcpy(txbuffer, buffer, size);
usb_prepare_transfer(&txtransfer, txbuffer, size, 0);
usb_transmit(CDC_TX_ENDPOINT, &txtransfer);

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