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|
// SPDX-License-Identifier: GPL-2.0+
/*
* PXA27x USB device driver for u-boot.
*
* Copyright (C) 2007 Rodolfo Giometti <giometti@linux.it>
* Copyright (C) 2007 Eurotech S.p.A. <info@eurotech.it>
* Copyright (C) 2008 Vivek Kutal <vivek.kutal@azingo.com>
*/
#include <common.h>
#include <asm/arch/hardware.h>
#include <asm/byteorder.h>
#include <asm/io.h>
#include <usbdevice.h>
#include <usb/pxa27x_udc.h>
#include <usb/udc.h>
#include "ep0.h"
/* number of endpoints on this UDC */
#define UDC_MAX_ENDPOINTS 24
static struct urb *ep0_urb;
static struct usb_device_instance *udc_device;
static int ep0state = EP0_IDLE;
#ifdef USBDDBG
static void udc_dump_buffer(char *name, u8 *buf, int len)
{
usbdbg("%s - buf %p, len %d", name, buf, len);
print_buffer(0, buf, 1, len, 0);
}
#else
#define udc_dump_buffer(name, buf, len) /* void */
#endif
static inline void udc_ack_int_UDCCR(int mask)
{
writel(readl(USIR1) | mask, USIR1);
}
/*
* If the endpoint has an active tx_urb, then the next packet of data from the
* URB is written to the tx FIFO.
* The total amount of data in the urb is given by urb->actual_length.
* The maximum amount of data that can be sent in any one packet is given by
* endpoint->tx_packetSize.
* The number of data bytes from this URB that have already been transmitted
* is given by endpoint->sent.
* endpoint->last is updated by this routine with the number of data bytes
* transmitted in this packet.
*/
static int udc_write_urb(struct usb_endpoint_instance *endpoint)
{
struct urb *urb = endpoint->tx_urb;
int ep_num = endpoint->endpoint_address & USB_ENDPOINT_NUMBER_MASK;
u32 *data32 = (u32 *) urb->buffer;
u8 *data8 = (u8 *) urb->buffer;
unsigned int i, n, w, b, is_short;
int timeout = 2000; /* 2ms */
if (!urb || !urb->actual_length)
return -1;
n = min_t(unsigned int, urb->actual_length - endpoint->sent,
endpoint->tx_packetSize);
if (n <= 0)
return -1;
usbdbg("write urb on ep %d", ep_num);
#if defined(USBDDBG) && defined(USBDPARANOIA)
usbdbg("urb: buf %p, buf_len %d, actual_len %d",
urb->buffer, urb->buffer_length, urb->actual_length);
usbdbg("endpoint: sent %d, tx_packetSize %d, last %d",
endpoint->sent, endpoint->tx_packetSize, endpoint->last);
#endif
is_short = n != endpoint->tx_packetSize;
w = n / 4;
b = n % 4;
usbdbg("n %d%s w %d b %d", n, is_short ? "-s" : "", w, b);
udc_dump_buffer("urb write", data8 + endpoint->sent, n);
/* Prepare for data send */
if (ep_num)
writel(UDCCSR_PC ,UDCCSN(ep_num));
for (i = 0; i < w; i++)
writel(data32[endpoint->sent / 4 + i], UDCDN(ep_num));
for (i = 0; i < b; i++)
writeb(data8[endpoint->sent + w * 4 + i], UDCDN(ep_num));
/* Set "Packet Complete" if less data then tx_packetSize */
if (is_short)
writel(ep_num ? UDCCSR_SP : UDCCSR0_IPR, UDCCSN(ep_num));
/* Wait for data sent */
if (ep_num) {
while (!(readl(UDCCSN(ep_num)) & UDCCSR_PC)) {
if (timeout-- == 0)
return -1;
else
udelay(1);
}
}
endpoint->last = n;
if (ep_num) {
usbd_tx_complete(endpoint);
} else {
endpoint->sent += n;
endpoint->last -= n;
}
if (endpoint->sent >= urb->actual_length) {
urb->actual_length = 0;
endpoint->sent = 0;
endpoint->last = 0;
}
if ((endpoint->sent >= urb->actual_length) && (!ep_num)) {
usbdbg("ep0 IN stage done");
if (is_short)
ep0state = EP0_IDLE;
else
ep0state = EP0_XFER_COMPLETE;
}
return 0;
}
static int udc_read_urb(struct usb_endpoint_instance *endpoint)
{
struct urb *urb = endpoint->rcv_urb;
int ep_num = endpoint->endpoint_address & USB_ENDPOINT_NUMBER_MASK;
u32 *data32 = (u32 *) urb->buffer;
unsigned int i, n;
usbdbg("read urb on ep %d", ep_num);
#if defined(USBDDBG) && defined(USBDPARANOIA)
usbdbg("urb: buf %p, buf_len %d, actual_len %d",
urb->buffer, urb->buffer_length, urb->actual_length);
usbdbg("endpoint: rcv_packetSize %d",
endpoint->rcv_packetSize);
#endif
if (readl(UDCCSN(ep_num)) & UDCCSR_BNE)
n = readl(UDCBCN(ep_num)) & 0x3ff;
else /* zlp */
n = 0;
usbdbg("n %d%s", n, n != endpoint->rcv_packetSize ? "-s" : "");
for (i = 0; i < n; i += 4)
data32[urb->actual_length / 4 + i / 4] = readl(UDCDN(ep_num));
udc_dump_buffer("urb read", (u8 *) data32, urb->actual_length + n);
usbd_rcv_complete(endpoint, n, 0);
return 0;
}
static int udc_read_urb_ep0(void)
{
u32 *data32 = (u32 *) ep0_urb->buffer;
u8 *data8 = (u8 *) ep0_urb->buffer;
unsigned int i, n, w, b;
usbdbg("read urb on ep 0");
#if defined(USBDDBG) && defined(USBDPARANOIA)
usbdbg("urb: buf %p, buf_len %d, actual_len %d",
ep0_urb->buffer, ep0_urb->buffer_length, ep0_urb->actual_length);
#endif
n = readl(UDCBCR0);
w = n / 4;
b = n % 4;
for (i = 0; i < w; i++) {
data32[ep0_urb->actual_length / 4 + i] = readl(UDCDN(0));
/* ep0_urb->actual_length += 4; */
}
for (i = 0; i < b; i++) {
data8[ep0_urb->actual_length + w * 4 + i] = readb(UDCDN(0));
/* ep0_urb->actual_length++; */
}
ep0_urb->actual_length += n;
udc_dump_buffer("urb read", (u8 *) data32, ep0_urb->actual_length);
writel(UDCCSR0_OPC | UDCCSR0_IPR, UDCCSR0);
if (ep0_urb->actual_length == ep0_urb->device_request.wLength)
return 1;
return 0;
}
static void udc_handle_ep0(struct usb_endpoint_instance *endpoint)
{
u32 udccsr0 = readl(UDCCSR0);
u32 *data = (u32 *) &ep0_urb->device_request;
int i;
usbdbg("udccsr0 %x", udccsr0);
/* Clear stall status */
if (udccsr0 & UDCCSR0_SST) {
usberr("clear stall status");
writel(UDCCSR0_SST, UDCCSR0);
ep0state = EP0_IDLE;
}
/* previous request unfinished? non-error iff back-to-back ... */
if ((udccsr0 & UDCCSR0_SA) != 0 && ep0state != EP0_IDLE)
ep0state = EP0_IDLE;
switch (ep0state) {
case EP0_IDLE:
udccsr0 = readl(UDCCSR0);
/* Start control request? */
if ((udccsr0 & (UDCCSR0_OPC | UDCCSR0_SA | UDCCSR0_RNE))
== (UDCCSR0_OPC | UDCCSR0_SA | UDCCSR0_RNE)) {
/* Read SETUP packet.
* SETUP packet size is 8 bytes (aka 2 words)
*/
usbdbg("try reading SETUP packet");
for (i = 0; i < 2; i++) {
if ((readl(UDCCSR0) & UDCCSR0_RNE) == 0) {
usberr("setup packet too short:%d", i);
goto stall;
}
data[i] = readl(UDCDR0);
}
writel(readl(UDCCSR0) | UDCCSR0_OPC | UDCCSR0_SA, UDCCSR0);
if ((readl(UDCCSR0) & UDCCSR0_RNE) != 0) {
usberr("setup packet too long");
goto stall;
}
udc_dump_buffer("ep0 setup read", (u8 *) data, 8);
if (ep0_urb->device_request.wLength == 0) {
usbdbg("Zero Data control Packet\n");
if (ep0_recv_setup(ep0_urb)) {
usberr("Invalid Setup Packet\n");
udc_dump_buffer("ep0 setup read",
(u8 *)data, 8);
goto stall;
}
writel(UDCCSR0_IPR, UDCCSR0);
ep0state = EP0_IDLE;
} else {
/* Check direction */
if ((ep0_urb->device_request.bmRequestType &
USB_REQ_DIRECTION_MASK)
== USB_REQ_HOST2DEVICE) {
ep0state = EP0_OUT_DATA;
ep0_urb->buffer =
(u8 *)ep0_urb->buffer_data;
ep0_urb->buffer_length =
sizeof(ep0_urb->buffer_data);
ep0_urb->actual_length = 0;
writel(UDCCSR0_IPR, UDCCSR0);
} else {
/* The ep0_recv_setup function has
* already placed our response packet
* data in ep0_urb->buffer and the
* packet length in
* ep0_urb->actual_length.
*/
if (ep0_recv_setup(ep0_urb)) {
stall:
usberr("Invalid setup packet");
udc_dump_buffer("ep0 setup read"
, (u8 *) data, 8);
ep0state = EP0_IDLE;
writel(UDCCSR0_SA |
UDCCSR0_OPC | UDCCSR0_FST |
UDCCS0_FTF, UDCCSR0);
return;
}
endpoint->tx_urb = ep0_urb;
endpoint->sent = 0;
usbdbg("EP0_IN_DATA");
ep0state = EP0_IN_DATA;
if (udc_write_urb(endpoint) < 0)
goto stall;
}
}
return;
} else if ((udccsr0 & (UDCCSR0_OPC | UDCCSR0_SA))
== (UDCCSR0_OPC|UDCCSR0_SA)) {
usberr("Setup Active but no data. Stalling ....\n");
goto stall;
} else {
usbdbg("random early IRQs");
/* Some random early IRQs:
* - we acked FST
* - IPR cleared
* - OPC got set, without SA (likely status stage)
*/
writel(udccsr0 & (UDCCSR0_SA | UDCCSR0_OPC), UDCCSR0);
}
break;
case EP0_OUT_DATA:
if ((udccsr0 & UDCCSR0_OPC) && !(udccsr0 & UDCCSR0_SA)) {
if (udc_read_urb_ep0()) {
read_complete:
ep0state = EP0_IDLE;
if (ep0_recv_setup(ep0_urb)) {
/* Not a setup packet, stall next
* EP0 transaction
*/
udc_dump_buffer("ep0 setup read",
(u8 *) data, 8);
usberr("can't parse setup packet\n");
goto stall;
}
}
} else if (!(udccsr0 & UDCCSR0_OPC) &&
!(udccsr0 & UDCCSR0_IPR)) {
if (ep0_urb->device_request.wLength ==
ep0_urb->actual_length)
goto read_complete;
usberr("Premature Status\n");
ep0state = EP0_IDLE;
}
break;
case EP0_IN_DATA:
/* GET_DESCRIPTOR etc */
if (udccsr0 & UDCCSR0_OPC) {
writel(UDCCSR0_OPC | UDCCSR0_FTF, UDCCSR0);
usberr("ep0in premature status");
ep0state = EP0_IDLE;
} else {
/* irq was IPR clearing */
if (udc_write_urb(endpoint) < 0) {
usberr("ep0_write_error\n");
goto stall;
}
}
break;
case EP0_XFER_COMPLETE:
writel(UDCCSR0_IPR, UDCCSR0);
ep0state = EP0_IDLE;
break;
default:
usbdbg("Default\n");
}
writel(USIR0_IR0, USIR0);
}
static void udc_handle_ep(struct usb_endpoint_instance *endpoint)
{
int ep_addr = endpoint->endpoint_address;
int ep_num = ep_addr & USB_ENDPOINT_NUMBER_MASK;
int ep_isout = (ep_addr & USB_ENDPOINT_DIR_MASK) == USB_DIR_OUT;
u32 flags = readl(UDCCSN(ep_num)) & (UDCCSR_SST | UDCCSR_TRN);
if (flags)
writel(flags, UDCCSN(ep_num));
if (ep_isout)
udc_read_urb(endpoint);
else
udc_write_urb(endpoint);
writel(UDCCSR_PC, UDCCSN(ep_num));
}
static void udc_state_changed(void)
{
writel(readl(UDCCR) | UDCCR_SMAC, UDCCR);
usbdbg("New UDC settings are: conf %d - inter %d - alter %d",
(readl(UDCCR) & UDCCR_ACN) >> UDCCR_ACN_S,
(readl(UDCCR) & UDCCR_AIN) >> UDCCR_AIN_S,
(readl(UDCCR) & UDCCR_AAISN) >> UDCCR_AAISN_S);
usbd_device_event_irq(udc_device, DEVICE_CONFIGURED, 0);
writel(UDCISR1_IRCC, UDCISR1);
}
void udc_irq(void)
{
int handled;
struct usb_endpoint_instance *endpoint;
int ep_num, i;
u32 udcisr0;
do {
handled = 0;
/* Suspend Interrupt Request */
if (readl(USIR1) & UDCCR_SUSIR) {
usbdbg("Suspend\n");
udc_ack_int_UDCCR(UDCCR_SUSIR);
handled = 1;
ep0state = EP0_IDLE;
}
/* Resume Interrupt Request */
if (readl(USIR1) & UDCCR_RESIR) {
udc_ack_int_UDCCR(UDCCR_RESIR);
handled = 1;
usbdbg("USB resume\n");
}
if (readl(USIR1) & (1<<31)) {
handled = 1;
udc_state_changed();
}
/* Reset Interrupt Request */
if (readl(USIR1) & UDCCR_RSTIR) {
udc_ack_int_UDCCR(UDCCR_RSTIR);
handled = 1;
usbdbg("Reset\n");
usbd_device_event_irq(udc_device, DEVICE_RESET, 0);
} else {
if (readl(USIR0))
usbdbg("UISR0: %x \n", readl(USIR0));
if (readl(USIR0) & 0x2)
writel(0x2, USIR0);
/* Control traffic */
if (readl(USIR0) & USIR0_IR0) {
handled = 1;
writel(USIR0_IR0, USIR0);
udc_handle_ep0(udc_device->bus->endpoint_array);
}
endpoint = udc_device->bus->endpoint_array;
for (i = 0; i < udc_device->bus->max_endpoints; i++) {
ep_num = (endpoint[i].endpoint_address) &
USB_ENDPOINT_NUMBER_MASK;
if (!ep_num)
continue;
udcisr0 = readl(UDCISR0);
if (udcisr0 &
UDCISR_INT(ep_num, UDC_INT_PACKETCMP)) {
writel(UDCISR_INT(ep_num, UDC_INT_PACKETCMP),
UDCISR0);
udc_handle_ep(&endpoint[i]);
}
}
}
} while (handled);
}
/* The UDCCR reg contains mask and interrupt status bits,
* so using '|=' isn't safe as it may ack an interrupt.
*/
#define UDCCR_OEN (1 << 31) /* On-the-Go Enable */
#define UDCCR_MASK_BITS (UDCCR_OEN | UDCCR_UDE)
static inline void udc_set_mask_UDCCR(int mask)
{
writel((readl(UDCCR) & UDCCR_MASK_BITS) | (mask & UDCCR_MASK_BITS), UDCCR);
}
static inline void udc_clear_mask_UDCCR(int mask)
{
writel((readl(UDCCR) & UDCCR_MASK_BITS) & ~(mask & UDCCR_MASK_BITS), UDCCR);
}
static void pio_irq_enable(int ep_num)
{
if (ep_num < 16)
writel(readl(UDCICR0) | 3 << (ep_num * 2), UDCICR0);
else {
ep_num -= 16;
writel(readl(UDCICR1) | 3 << (ep_num * 2), UDCICR1);
}
}
/*
* udc_set_nak
*
* Allow upper layers to signal lower layers should not accept more RX data
*/
void udc_set_nak(int ep_num)
{
/* TODO */
}
/*
* udc_unset_nak
*
* Suspend sending of NAK tokens for DATA OUT tokens on a given endpoint.
* Switch off NAKing on this endpoint to accept more data output from host.
*/
void udc_unset_nak(int ep_num)
{
/* TODO */
}
int udc_endpoint_write(struct usb_endpoint_instance *endpoint)
{
return udc_write_urb(endpoint);
}
/* Associate a physical endpoint with endpoint instance */
void udc_setup_ep(struct usb_device_instance *device, unsigned int id,
struct usb_endpoint_instance *endpoint)
{
int ep_num, ep_addr, ep_isout, ep_type, ep_size;
int config, interface, alternate;
u32 tmp;
usbdbg("setting up endpoint id %d", id);
if (!endpoint) {
usberr("endpoint void!");
return;
}
ep_num = endpoint->endpoint_address & USB_ENDPOINT_NUMBER_MASK;
if (ep_num >= UDC_MAX_ENDPOINTS) {
usberr("unable to setup ep %d!", ep_num);
return;
}
pio_irq_enable(ep_num);
if (ep_num == 0) {
/* Done for ep0 */
return;
}
config = 1;
interface = 0;
alternate = 0;
usbdbg("config %d - interface %d - alternate %d",
config, interface, alternate);
ep_addr = endpoint->endpoint_address;
ep_num = ep_addr & USB_ENDPOINT_NUMBER_MASK;
ep_isout = (ep_addr & USB_ENDPOINT_DIR_MASK) == USB_DIR_OUT;
ep_type = ep_isout ? endpoint->rcv_attributes : endpoint->tx_attributes;
ep_size = ep_isout ? endpoint->rcv_packetSize : endpoint->tx_packetSize;
usbdbg("addr %x, num %d, dir %s, type %s, packet size %d",
ep_addr, ep_num,
ep_isout ? "out" : "in",
ep_type == USB_ENDPOINT_XFER_ISOC ? "isoc" :
ep_type == USB_ENDPOINT_XFER_BULK ? "bulk" :
ep_type == USB_ENDPOINT_XFER_INT ? "int" : "???",
ep_size
);
/* Configure UDCCRx */
tmp = 0;
tmp |= (config << UDCCONR_CN_S) & UDCCONR_CN;
tmp |= (interface << UDCCONR_IN_S) & UDCCONR_IN;
tmp |= (alternate << UDCCONR_AISN_S) & UDCCONR_AISN;
tmp |= (ep_num << UDCCONR_EN_S) & UDCCONR_EN;
tmp |= (ep_type << UDCCONR_ET_S) & UDCCONR_ET;
tmp |= ep_isout ? 0 : UDCCONR_ED;
tmp |= (ep_size << UDCCONR_MPS_S) & UDCCONR_MPS;
tmp |= UDCCONR_EE;
writel(tmp, UDCCN(ep_num));
usbdbg("UDCCR%c = %x", 'A' + ep_num-1, readl(UDCCN(ep_num)));
usbdbg("UDCCSR%c = %x", 'A' + ep_num-1, readl(UDCCSN(ep_num)));
}
/* Connect the USB device to the bus */
void udc_connect(void)
{
usbdbg("UDC connect");
#ifdef CONFIG_USB_DEV_PULLUP_GPIO
/* Turn on the USB connection by enabling the pullup resistor */
writel(readl(GPDR(CONFIG_USB_DEV_PULLUP_GPIO))
| GPIO_bit(CONFIG_USB_DEV_PULLUP_GPIO),
GPDR(CONFIG_USB_DEV_PULLUP_GPIO));
writel(GPIO_bit(CONFIG_USB_DEV_PULLUP_GPIO), GPSR(CONFIG_USB_DEV_PULLUP_GPIO));
#else
/* Host port 2 transceiver D+ pull up enable */
writel(readl(UP2OCR) | UP2OCR_DPPUE, UP2OCR);
#endif
}
/* Disconnect the USB device to the bus */
void udc_disconnect(void)
{
usbdbg("UDC disconnect");
#ifdef CONFIG_USB_DEV_PULLUP_GPIO
/* Turn off the USB connection by disabling the pullup resistor */
writel(GPIO_bit(CONFIG_USB_DEV_PULLUP_GPIO), GPCR(CONFIG_USB_DEV_PULLUP_GPIO));
#else
/* Host port 2 transceiver D+ pull up disable */
writel(readl(UP2OCR) & ~UP2OCR_DPPUE, UP2OCR);
#endif
}
/* Switch on the UDC */
void udc_enable(struct usb_device_instance *device)
{
ep0state = EP0_IDLE;
/* enable endpoint 0, A, B's Packet Complete Interrupt. */
writel(0xffffffff, UDCICR0);
writel(0xa8000000, UDCICR1);
/* clear the interrupt status/control registers */
writel(0xffffffff, UDCISR0);
writel(0xffffffff, UDCISR1);
/* set UDC-enable */
udc_set_mask_UDCCR(UDCCR_UDE);
udc_device = device;
if (!ep0_urb)
ep0_urb = usbd_alloc_urb(udc_device,
udc_device->bus->endpoint_array);
else
usbinfo("ep0_urb %p already allocated", ep0_urb);
usbdbg("UDC Enabled\n");
}
/* Need to check this again */
void udc_disable(void)
{
usbdbg("disable UDC");
udc_clear_mask_UDCCR(UDCCR_UDE);
/* Disable clock for USB device */
writel(readl(CKEN) & ~CKEN11_USB, CKEN);
/* Free ep0 URB */
if (ep0_urb) {
usbd_dealloc_urb(ep0_urb);
ep0_urb = NULL;
}
/* Reset device pointer */
udc_device = NULL;
}
/* Allow udc code to do any additional startup */
void udc_startup_events(struct usb_device_instance *device)
{
/* The DEVICE_INIT event puts the USB device in the state STATE_INIT */
usbd_device_event_irq(device, DEVICE_INIT, 0);
/* The DEVICE_CREATE event puts the USB device in the state
* STATE_ATTACHED */
usbd_device_event_irq(device, DEVICE_CREATE, 0);
/* Some USB controller driver implementations signal
* DEVICE_HUB_CONFIGURED and DEVICE_RESET events here.
* DEVICE_HUB_CONFIGURED causes a transition to the state
* STATE_POWERED, and DEVICE_RESET causes a transition to
* the state STATE_DEFAULT.
*/
udc_enable(device);
}
/* Initialize h/w stuff */
int udc_init(void)
{
udc_device = NULL;
usbdbg("PXA27x usbd start");
/* Enable clock for USB device */
writel(readl(CKEN) | CKEN11_USB, CKEN);
/* Disable the UDC */
udc_clear_mask_UDCCR(UDCCR_UDE);
/* Disable IRQs: we don't use them */
writel(0, UDCICR0);
writel(0, UDCICR1);
return 0;
}
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