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|
/*
*
* Copyright (C) 2015 Rockchip Electronics
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <libpayload.h>
#include <assert.h>
#include <limits.h>
#include <udc/dwc2_udc.h>
#include "dwc2_priv.h"
static int get_mps(dwc2_ep_t *ep)
{
dwc2_ep_reg_t *ep_reg = ep->ep_regs;
depctl_t depctl;
uint16_t mps = 0;
depctl.d32 = readl(&ep_reg->depctl);
if (ep->ep_num == 0) {
switch (depctl.mps) {
case D0EPCTL_MPS_64:
mps = 64;
break;
case D0EPCTL_MPS_32:
mps = 32;
break;
case D0EPCTL_MPS_16:
mps = 16;
break;
case D0EPCTL_MPS_8:
mps = 8;
break;
default:
usb_debug("get mps error\n");
}
} else {
mps = depctl.mps;
}
return mps;
}
static void dwc2_process_ep(dwc2_ep_t *ep, int len, void *buf)
{
depctl_t depctl;
depsiz_t depsiz;
uint16_t pkt_cnt;
uint16_t mps;
int max_transfer_size;
dwc2_ep_reg_t *ep_reg = ep->ep_regs;
if (ep->ep_num == 0)
max_transfer_size = EP0_MAXLEN;
else
max_transfer_size = EP_MAXLEN;
assert(len <= max_transfer_size);
mps = get_mps(ep);
pkt_cnt = ALIGN_UP(len, mps) / mps;
if (pkt_cnt == 0)
pkt_cnt = 1;
depsiz.pktcnt = pkt_cnt;
depsiz.xfersize = len;
writel(depsiz.d32, &ep_reg->deptsiz);
writel((uint32_t)buf, &ep_reg->depdma);
depctl.d32 = readl(&ep_reg->depctl);
if (ep->ep_num != 0) {
if (depctl.dpid == 0)
depctl.setd0pid = 1;
else
depctl.setd1pid = 1;
}
depctl.cnak = 1;
depctl.epena = 1;
writel(depctl.d32, &ep_reg->depctl);
}
static void dwc2_write_ep(dwc2_ep_t *ep, int len, void *buf)
{
dwc2_process_ep(ep, len, buf);
}
static void dwc2_read_ep(dwc2_ep_t *ep, int len, void *buf)
{
dwc2_process_ep(ep, len, buf);
}
static void dwc2_connect(struct usbdev_ctrl *this, int connect)
{
/* Turn on the USB connection by enabling the pullup resistor */
dwc2_pdata_t *p = DWC2_PDATA(this);
dctl_t dctl;
usb_debug("DwcUdcConnect\n");
dctl.d32 = readl(&p->regs->device.dctl);
if (connect)
/* Connect */
dctl.sftdiscon = 0;
else
/* Disconnect */
dctl.sftdiscon = 1;
writel(dctl.d32, &p->regs->device.dctl);
}
static void dwc2_bus_reset(struct usbdev_ctrl *this)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
dcfg_t dcfg;
dctl_t dctl;
if (this->initialized)
this->initialized = 0;
/* Reset device addr */
dcfg.d32 = readl(&p->regs->device.dcfg);
dcfg.devaddr = 0;
writel(dcfg.d32, &p->regs->device.dcfg);
dctl.d32 = readl(&p->regs->device.dctl);
dctl.rmtwkupsig = 0;
writel(dctl.d32, &p->regs->device.dctl);
}
static void dwc2_enum_done(struct usbdev_ctrl *this)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
dctl_t dctl;
dsts_t dsts;
usb_debug("dwc2_enum_done\n");
dsts.d32 = readl(&p->regs->device.dsts);
switch (dsts.enumspd) {
case 0:
this->ep_mps[0][0] = 64;
this->ep_mps[0][1] = 64;
usb_debug("HighSpeed Enum Done\n");
break;
default:
usb_debug("EnumSpeed Error\n");
return;
}
/* Clear global IN Nak */
dctl.d32 = readl(&p->regs->device.dctl);
dctl.cgnpinnak = 1;
writel(dctl.d32, &p->regs->device.dctl);
}
static void dwc2_tx_fifo_flush(struct usbdev_ctrl *this, unsigned int idx)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
grstctl_t grstctl;
int timeout = 100;
grstctl.d32 = readl(&p->regs->core.grstctl);
grstctl.txfflsh = 1;
grstctl.txfnum = idx;
writel(grstctl.d32, &p->regs->core.grstctl);
/* wait until the fifo is flushed */
do {
udelay(1);
grstctl.d32 = readl(&p->regs->core.grstctl);
if (--timeout < 0) {
usb_debug("timeout flushing Tx fifo %x\n", idx);
break;
}
} while (grstctl.txfflsh);
}
static void dwc2_rx_fifo_flush(struct usbdev_ctrl *this, unsigned int idx)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
grstctl_t grstctl;
int timeout = 100;
grstctl.d32 = readl(&p->regs->core.grstctl);
grstctl.rxfflsh = 1;
writel(grstctl.d32, &p->regs->core.grstctl);
/* wait until the fifo is flushed */
do {
udelay(1);
grstctl.d32 = readl(&p->regs->core.grstctl);
if (--timeout < 0) {
usb_debug("timeout flushing Rx fifo %x\n", idx);
break;
}
} while (grstctl.rxfflsh);
}
static void dwc2_disable_ep(dwc2_ep_reg_t *ep_reg)
{
depctl_t depctl;
depint_t depint;
/* Disable the required IN/OUT endpoint */
depctl.d32 = readl(&ep_reg->depctl);
/* Already disabled */
if (depctl.epena == 0)
return;
depctl.epdis = 1;
depctl.snak = 1;
writel(depctl.d32, &ep_reg->depctl);
/* Wait for the DEPINTn.EPDisabled interrupt */
do {
depint.d32 = readl(&ep_reg->depint);
} while (!depint.epdisbld);
/* Clear DEPINTn.EPDisabled */
writel(depint.d32, &ep_reg->depint);
depctl.d32 = readl(&ep_reg->depctl);
depctl.epena = 0;
depctl.epdis = 0;
writel(depctl.d32, &ep_reg->depctl);
}
static void dwc2_halt_ep(struct usbdev_ctrl *this, int ep, int in_dir)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
dwc2_ep_reg_t *ep_reg = p->eps[ep][in_dir].ep_regs;
depctl_t depctl;
dctl_t dctl;
gintsts_t gintsts;
usb_debug("dwc2_halt_ep ep %d-%d\n", ep, in_dir);
depctl.d32 = readl(&ep_reg->depctl);
/* Already disabled */
if (!depctl.epena)
return;
/* First step: disable EP */
if (in_dir) {
/* Only support Non-Periodic IN Endpoints */
dctl.d32 = readl(&p->regs->device.dctl);
dctl.sgnpinnak = 1;
writel(dctl.d32, &p->regs->device.dctl);
/* Wait for the GINTSTS.Global IN NP NAK Effective interrupt */
do {
gintsts.d32 = readl(&p->regs->core.gintsts);
} while (!gintsts.ginnakeff);
/* Clear GINTSTS.Global IN NP NAK Effective interrupt */
writel(gintsts.d32, &p->regs->core.gintsts);
dwc2_disable_ep(ep_reg);
/* Flush Tx Fifo */
dwc2_tx_fifo_flush(this, p->eps[ep][in_dir].txfifo);
} else {
/* Enable Global OUT NAK mode */
dctl.d32 = readl(&p->regs->device.dctl);
dctl.sgoutnak = 1;
writel(dctl.d32, &p->regs->device.dctl);
/* Wait for the GINTSTS.GOUTNakEff interrupt */
do {
gintsts.d32 = readl(&p->regs->core.gintsts);
} while (!gintsts.goutnakeff);
/* Clear GINTSTS.GOUTNakEff */
writel(gintsts.d32, &p->regs->core.gintsts);
dwc2_disable_ep(ep_reg);
dctl.d32 = readl(&p->regs->device.dctl);
dctl.cgoutnak = 1;
dctl.sgoutnak = 0;
writel(dctl.d32, &p->regs->device.dctl);
}
/* Second step: clear job queue */
while (!SIMPLEQ_EMPTY(&p->eps[ep][in_dir].job_queue)) {
struct job *job = SIMPLEQ_FIRST(&p->eps[ep][in_dir].job_queue);
if (job->autofree)
free(job->data);
SIMPLEQ_REMOVE_HEAD(&p->eps[ep][in_dir].job_queue, queue);
}
}
static int find_tx_fifo(struct usbdev_ctrl *this, uint32_t mps)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
uint32_t fifo_index = 0;
uint32_t fifo_size = UINT_MAX;
gtxfsiz_t gtxfsiz;
int i, val;
for (i = 1; i < MAX_EPS_CHANNELS - 1; i++) {
if (p->fifo_map & (1 << i))
continue;
gtxfsiz.d32 = readl(&p->regs->core.dptxfsiz_dieptxf[i]);
val = gtxfsiz.txfdep * 4;
if (val < mps)
continue;
/* Search for smallest acceptable fifo */
if (val < fifo_size) {
fifo_size = val;
fifo_index = i;
}
}
if (!fifo_index)
fatal("find_tx_fifo no suitable fifo found\n");
p->fifo_map |= 1 << fifo_index;
return fifo_index;
}
static void dwc2_start_ep0(struct usbdev_ctrl *this)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
depctl_t depctl = { .d32 = 0 };
depint_t depint = { .d32 = 0xff };
usb_debug("dwc2_start_ep0\n");
/* Enable endpoint, reset data toggle */
depctl.mps = 0;
depctl.usbactep = 1;
depctl.snak = 1;
depctl.epdis = 1;
writel(depctl.d32, &p->regs->device.inep[0].depctl);
writel(depint.d32, &p->regs->device.inep[0].depint);
writel(depctl.d32, &p->regs->device.outep[0].depctl);
writel(depint.d32, &p->regs->device.outep[0].depint);
p->eps[0][0].busy = 0;
p->eps[0][1].busy = 0;
this->ep_mps[0][0] = 64;
this->ep_mps[0][1] = 64;
}
static void dwc2_start_ep(struct usbdev_ctrl *this,
int ep, int in_dir, int ep_type, int mps)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
dwc2_ep_reg_t *ep_reg = p->eps[ep][in_dir].ep_regs;
depctl_t depctl = { .d32 = 0 };
assert((ep < 16) && (ep > 0));
usb_debug("dwc2_start_ep %d-%d (type %d)\n", ep, in_dir, ep_type);
in_dir = in_dir ? 1 : 0;
/* Enable endpoint, reset data toggle */
depctl.setd0pid = 1;
depctl.mps = mps & 0x3ff;
depctl.usbactep = 1;
/* ep type 0:ctrl 1:isoc 2:bulk 3:intr */
depctl.eptype = ep_type;
depctl.snak = 1;
if (in_dir) {
/* Allocate Tx FIFO */
p->eps[ep][in_dir].txfifo = find_tx_fifo(this, mps);
}
writel(depctl.d32, &ep_reg->depctl);
p->eps[ep][in_dir].busy = 0;
this->ep_mps[ep][in_dir] = mps;
}
static void continue_ep_transfer(dwc2_pdata_t *p,
int endpoint, int in_dir)
{
int max_transfer_size = (endpoint == 0) ? EP0_MAXLEN : EP_MAXLEN;
int mps;
uint32_t remind_length;
void *data_buf;
if (SIMPLEQ_EMPTY(&p->eps[endpoint][in_dir].job_queue))
return;
struct job *job = SIMPLEQ_FIRST(&p->eps[endpoint][in_dir].job_queue);
remind_length = job->length - job->xfered_length;
job->xfer_length = (remind_length > max_transfer_size) ?
max_transfer_size : remind_length;
data_buf = job->data + job->xfered_length;
if ((((uint32_t)data_buf & 3) != 0) && (job->xfer_length > 0))
usb_debug("Un-aligned buffer address\n");
if (in_dir) {
dwc2_write_ep(&p->eps[endpoint][in_dir],
job->xfer_length, data_buf);
} else {
mps = get_mps(&p->eps[endpoint][in_dir]);
job->xfer_length = ALIGN_UP(job->xfer_length, mps);
dwc2_read_ep(&p->eps[endpoint][0], job->xfer_length, data_buf);
}
}
static void start_ep_transfer(dwc2_pdata_t *p,
int endpoint, int in_dir)
{
int max_transfer_size = (endpoint == 0) ? EP0_MAXLEN : EP_MAXLEN;
int mps;
if (p->eps[endpoint][in_dir].busy) {
usb_debug("ep %d-%d busy\n", endpoint, in_dir);
return;
}
if (SIMPLEQ_EMPTY(&p->eps[endpoint][in_dir].job_queue)) {
usb_debug("ep %d-%d empty\n", endpoint, in_dir);
return;
}
struct job *job = SIMPLEQ_FIRST(&p->eps[endpoint][in_dir].job_queue);
job->xfer_length = (job->length > max_transfer_size) ?
max_transfer_size : job->length;
if (in_dir) {
dwc2_write_ep(&p->eps[endpoint][1], job->xfer_length, job->data);
} else {
mps = get_mps(&p->eps[endpoint][0]);
job->xfer_length = ALIGN_UP(job->xfer_length, mps);
/* BUG */
if ((endpoint == 0) && (job->length == 0))
job->data = p->setup_buf;
dwc2_read_ep(&p->eps[endpoint][0], job->xfer_length, job->data);
}
usb_debug("start EP %d-%d with %zx bytes starting at %p\n", endpoint,
in_dir, job->length, job->data);
p->eps[endpoint][in_dir].busy = 1;
}
static void dwc2_enqueue_packet(struct usbdev_ctrl *this, int endpoint,
int in_dir, void *data, int len, int zlp, int autofree)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
struct job *job = xzalloc(sizeof(*job));
job->data = data;
job->length = len;
job->zlp = zlp;
job->autofree = autofree;
usb_debug("adding job %d bytes to EP %d-%d\n", len, endpoint, in_dir);
SIMPLEQ_INSERT_TAIL(&p->eps[endpoint][in_dir].job_queue, job, queue);
if ((endpoint == 0) || (this->initialized))
start_ep_transfer(p, endpoint, in_dir);
}
static void complete_ep_transfer(struct usbdev_ctrl *this, int endpoint,
int in_dir, int xfer_result)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
struct job *job = SIMPLEQ_FIRST(&p->eps[endpoint][in_dir].job_queue);
int mps = this->ep_mps[endpoint][in_dir];
if (in_dir) {
job->xfered_length += job->xfer_length - xfer_result;
if (job->xfered_length < job->length ||
(job->xfered_length == job->length &&
job->xfered_length % mps == 0 && job->xfer_length)) {
continue_ep_transfer(p, endpoint, in_dir);
return;
}
} else {
job->xfered_length += job->xfer_length - xfer_result;
}
SIMPLEQ_REMOVE_HEAD(&p->eps[endpoint][in_dir].job_queue, queue);
usb_debug("%d-%d: scheduled %zd, now %d bytes\n", endpoint, in_dir,
job->length, job->xfered_length);
if (this->current_config &&
this->current_config->interfaces[0].handle_packet)
this->current_config->interfaces[0].handle_packet(this,
endpoint, in_dir, job->data, job->xfered_length);
if (job->autofree)
free(job->data);
free(job);
p->eps[endpoint][in_dir].busy = 0;
if (endpoint == 0 && job->xfered_length == 0)
dwc2_enqueue_packet(this, 0, 0, p->setup_buf, 8, 0, 0);
else
start_ep_transfer(p, endpoint, in_dir);
}
static void dwc2_outep_intr(struct usbdev_ctrl *this, dwc2_ep_t *ep)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
depint_t depint;
depsiz_t depsiz;
depint.d32 = readl(&ep->ep_regs->depint) &
readl(&p->regs->device.doepmsk);
/* Don't process XferCompl interrupt if it is a setup packet */
if ((ep->ep_num == 0) && (depint.setup || depint.stuppktrcvd))
depint.xfercompl = 0;
/* Transfer completed */
if (depint.xfercompl) {
usb_debug("DOEPINT_XFERCOMPL\n");
writel(DXEPINT_XFERCOMPL, &ep->ep_regs->depint);
depsiz.d32 = readl(&ep->ep_regs->deptsiz);
if (ep->ep_num == 0)
depsiz.xfersize &= 0x7f;
complete_ep_transfer(this, ep->ep_num, 0, depsiz.xfersize);
}
/* Endpoint disable */
if (depint.epdisbld) {
usb_debug("DEPINT_EPDISBLD\n");
writel(DXEPINT_EPDISBLD, &ep->ep_regs->depint);
}
/* AHB Error */
if (depint.ahberr) {
usb_debug("DEPINT_AHBERR\n");
writel(DXEPINT_AHBERR, &ep->ep_regs->depint);
}
/* Handle Setup Phase Done (Control Ep) */
if (depint.setup) {
usb_debug("DEPINT_SETUP\n");
writel(DXEPINT_SETUP, &ep->ep_regs->depint);
#ifdef USB_DEBUG
hexdump(p->setup_buf, sizeof(dev_req_t));
#endif
SIMPLEQ_REMOVE_HEAD(&p->eps[0][0].job_queue, queue);
p->eps[0][0].busy = 0;
udc_handle_setup(this, ep->ep_num, (dev_req_t *)p->setup_buf);
}
}
static void dwc2_inep_intr(struct usbdev_ctrl *this, dwc2_ep_t *ep)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
depint_t depint;
depsiz_t depsiz;
depint.d32 = readl(&ep->ep_regs->depint) &
readl(&p->regs->device.doepmsk);
/* Don't process XferCompl interrupt if it is a setup packet */
if ((ep->ep_num == 0) && (depint.setup)) {
usb_debug("IN ep timeout\n");
writel(DXEPINT_TIMEOUT, &ep->ep_regs->depint);
}
/* Transfer completed */
if (depint.xfercompl) {
usb_debug("DIEPINT_XFERCOMPL\n");
writel(DXEPINT_XFERCOMPL, &ep->ep_regs->depint);
depsiz.d32 = readl(&ep->ep_regs->deptsiz);
if (ep->ep_num == 0)
depsiz.xfersize &= 0x7f;
complete_ep_transfer(this, ep->ep_num, 1, depsiz.xfersize);
}
/* Endpoint disable */
if (depint.epdisbld) {
usb_debug("DEPINT_EPDISBLD\n");
writel(DXEPINT_EPDISBLD, &ep->ep_regs->depint);
}
/* AHB Error */
if (depint.ahberr) {
usb_debug("DEPINT_AHBERR\n");
writel(DXEPINT_AHBERR, &ep->ep_regs->depint);
}
}
static int dwc2_check_irq(struct usbdev_ctrl *this)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
gintsts_t gintsts;
uint32_t daint, daint_out, daint_in, ep;
gintsts.d32 = readl(&p->regs->core.gintsts) &
readl(&p->regs->core.gintmsk);
if (gintsts.d32 == 0)
return 1;
/* EP INTR */
if (gintsts.oepint || gintsts.iepint) {
daint = readl(&p->regs->device.daint) &
readl(&p->regs->device.daintmsk);
daint_out = daint >> DAINT_OUTEP_SHIFT;
daint_in = daint & ~(daint_out << DAINT_OUTEP_SHIFT);
for (ep = 0; ep < MAX_EPS_CHANNELS; ep++, daint_in >>= 1) {
if (daint_in & 1)
dwc2_inep_intr(this, &p->eps[ep][1]);
}
for (ep = 0; ep < MAX_EPS_CHANNELS; ep++, daint_out >>= 1) {
if (daint_out & 1)
dwc2_outep_intr(this, &p->eps[ep][0]);
}
}
/* USB Bus Suspend */
if (gintsts.usbsusp) {
usb_debug("GINTSTS_ERLYSUSP\n");
writel(GINTSTS_USBSUSP, &p->regs->core.gintsts);
}
/* USB Bus Reset */
if (gintsts.usbrst) {
usb_debug("GINTSTS_USBRST\n");
dwc2_bus_reset(this);
writel(GINTSTS_USBRST, &p->regs->core.gintsts);
}
/* Enumeration done */
if (gintsts.enumdone) {
usb_debug("GINTSTS_ENUMDONE\n");
dwc2_enum_done(this);
writel(GINTSTS_ENUMDONE, &p->regs->core.gintsts);
}
if (gintsts.sessreqint) {
usb_debug("GINTSTS_SESSREQINT\n");
writel(GINTSTS_SESSREQINT, &p->regs->core.gintsts);
}
if (gintsts.wkupint) {
usb_debug("GINTSTS_WKUPINT\n");
writel(GINTSTS_WKUPINT, &p->regs->core.gintsts);
}
return 1;
}
static void dwc2_force_shutdown(struct usbdev_ctrl *this)
{
gusbcfg_t gusbcfg;
dwc2_pdata_t *p = DWC2_PDATA(this);
/* Disconnect */
dwc2_connect(this, 0);
/* Back to normal otg mode */
gusbcfg.d32 = readl(&p->regs->core.gusbcfg);
gusbcfg.forcehstmode = 0;
gusbcfg.forcedevmode = 0;
writel(gusbcfg.d32, &p->regs->core.gusbcfg);
free(p);
free(this);
}
static void dwc2_shutdown(struct usbdev_ctrl *this)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
int i, j;
int is_empty = 0;
uint64_t shutdown_timer_us = timer_us(0);
/* Wait up to 3 seconds for packets to be flushed out. */
uint64_t shutdown_timeout_us = 3 * 1000 * 1000UL;
while ((!is_empty) &&
(timer_us(shutdown_timer_us) < shutdown_timeout_us)) {
is_empty = 1;
this->poll(this);
for (i = 0; i < 16; i++)
for (j = 0; j < 2; j++) {
/*
* EP0-OUT needs to always have an active packet
* for proper operation of control packet
* flow. Thus, ignore if only 1 packet is
* present in EP0-OUT.
*/
if ((i == 0) && (j == 0) &&
SIMPLEQ_SINGLETON(&p->eps[0][0].job_queue,
queue))
continue;
if (!SIMPLEQ_EMPTY(&p->eps[i][j].job_queue))
is_empty = 0;
}
}
if (timer_us(shutdown_timer_us) >= shutdown_timeout_us)
usb_debug("Error: Failed to empty queues.. timeout\n");
dwc2_force_shutdown(this);
}
static void dwc2_set_address(struct usbdev_ctrl *this, int address)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
dcfg_t dcfg;
dcfg.d32 = readl(&p->regs->device.dcfg);
dcfg.devaddr = address;
writel(dcfg.d32, &p->regs->device.dcfg);
}
static void dwc2_stall(struct usbdev_ctrl *this,
uint8_t ep, int in_dir, int set)
{
dwc2_pdata_t *p = DWC2_PDATA(this);
dwc2_ep_reg_t *ep_reg = p->eps[ep][in_dir].ep_regs;
depctl_t depctl;
usb_debug("dwc2_stall\n");
depctl.d32 = readl(&ep_reg->depctl);
in_dir = in_dir ? 1 : 0;
if (set) {
depctl.stall = 1;
depctl.setd0pid = 1;
writel(depctl.d32, &ep_reg->depctl);
} else {
/* STALL bit will be clear by core */
}
this->ep_halted[ep][in_dir] = set;
}
static void *dwc2_malloc(size_t size)
{
return dma_memalign(4096, size);
}
static void dwc2_free(void *ptr)
{
free(ptr);
}
static int dwc2_reinit_udc(struct usbdev_ctrl *this, void *_opreg,
const device_descriptor_t *dd)
{
grstctl_t grstctl = { .d32 = 0 };
gintmsk_t gintmsk = { .d32 = 0 };
gahbcfg_t gahbcfg = { .d32 = 0 };
gusbcfg_t gusbcfg = { .d32 = 0 };
grxfsiz_t grxfsiz = { .d32 = 0 };
dtxfsiz_t dtxfsiz0 = { .d32 = 0 };
dtxfsiz_t dtxfsiz1 = { .d32 = 0 };
dtxfsiz_t dtxfsiz2 = { .d32 = 0 };
depint_t depint_msk = { .d32 = 0 };
dcfg_t dcfg = { .d32 = 0 };
dwc2_reg_t *regs = (dwc2_reg_t *)_opreg;
dwc2_pdata_t *p = DWC2_PDATA(this);
const int timeout = 10000;
int i;
p->regs = phys_to_virt(regs);
p->fifo_map = 0;
p->setup_buf = dma_memalign(4, 64);
for (i = 0; i < MAX_EPS_CHANNELS; i++) {
/* Init OUT EPs */
p->eps[i][0].ep_num = i;
p->eps[i][0].ep_regs = ®s->device.outep[i];
SIMPLEQ_INIT(&p->eps[i][0].job_queue);
/* Init IN EPs */
p->eps[i][1].ep_num = i;
p->eps[i][1].ep_regs = ®s->device.inep[i];
SIMPLEQ_INIT(&p->eps[i][1].job_queue);
}
usb_debug("dwc2_hw_init\n");
/* Wait for AHB idle */
for (i = 0; i < timeout; i++) {
udelay(1);
grstctl.d32 = readl(®s->core.grstctl);
if (grstctl.ahbidle)
break;
}
if (i == timeout) {
usb_debug("DWC2 Init error AHB Idle\n");
return 0;
}
/* Restart the Phy Clock */
/* Core soft reset */
grstctl.csftrst = 1;
writel(grstctl.d32, ®s->core.grstctl);
for (i = 0; i <= timeout; i++) {
udelay(1);
grstctl.d32 = readl(®s->core.grstctl);
if (!grstctl.csftrst)
break;
if (i == timeout) {
usb_debug("DWC2 Init error reset fail\n");
return 0;
}
}
/* Restart the Phy Clock */
writel(0x0, ®s->pcgr.pcgcctl);
/* Set 16bit PHY if & Force host mode */
gusbcfg.d32 = readl(®s->core.gusbcfg);
gusbcfg.phyif = 1;
gusbcfg.forcehstmode = 0;
gusbcfg.forcedevmode = 1;
writel(gusbcfg.d32, ®s->core.gusbcfg);
dcfg.d32 = readl(®s->device.dcfg);
/* reset device addr */
dcfg.devaddr = 0;
/* enable HS */
dcfg.devspd = 0;
writel(dcfg.d32, ®s->device.dcfg);
dwc2_tx_fifo_flush(this, 0x10);
dwc2_rx_fifo_flush(this, 0);
grxfsiz.rxfdep = RX_FIFO_SIZE;
writel(grxfsiz.d32, ®s->core.grxfsiz);
dtxfsiz0.dtxfdep = DTX_FIFO_SIZE_0;
dtxfsiz0.dtxfstaddr = DTX_FIFO_SIZE_0_OFFSET;
writel(dtxfsiz0.d32, ®s->core.gnptxfsiz);
dtxfsiz1.dtxfdep = DTX_FIFO_SIZE_1;
dtxfsiz1.dtxfstaddr = DTX_FIFO_SIZE_1_OFFSET;
writel(dtxfsiz1.d32, ®s->core.dptxfsiz_dieptxf[0]);
dtxfsiz2.dtxfdep = DTX_FIFO_SIZE_2;
dtxfsiz2.dtxfstaddr = DTX_FIFO_SIZE_2_OFFSET;
writel(dtxfsiz2.d32, ®s->core.dptxfsiz_dieptxf[1]);
/* Config Ep0 */
dwc2_start_ep0(this);
dwc2_enqueue_packet(this, 0, 0, p->setup_buf, 8, 0, 0);
depint_msk.xfercompl = 1;
depint_msk.epdisbld = 1;
depint_msk.ahberr = 1;
depint_msk.setup = 1;
/* device IN interrupt mask */
writel(depint_msk.d32, ®s->device.diepmsk);
/* device OUT interrupt mask */
writel(depint_msk.d32, ®s->device.doepmsk);
/* Clear all pending interrupt */
writel(0xffffffff, ®s->device.daint);
/* Config core interface regs */
writel(0xffffffff, ®s->core.gintsts);
writel(0xffffffff, ®s->core.gotgint);
/* Enable device endpoint interrupt */
writel(0xffffffff, ®s->device.daintmsk);
gintmsk.usbsusp = 1;
gintmsk.usbrst = 1;
gintmsk.enumdone = 1;
gintmsk.sessreqint = 1;
gintmsk.iepint = 1;
gintmsk.oepint = 1;
writel(gintmsk.d32, ®s->core.gintmsk);
gahbcfg.d32 = readl(®s->core.gahbcfg);
gahbcfg.dmaen = 1;
gahbcfg.glblintrmsk = 1;
gahbcfg.hbstlen = DMA_BURST_INCR16;
writel(gahbcfg.d32, ®s->core.gahbcfg);
dwc2_connect(this, 1);
return 1;
}
struct usbdev_ctrl *dwc2_udc_init(device_descriptor_t *dd)
{
struct usbdev_ctrl *ctrl = calloc(1, sizeof(*ctrl));
int i;
usb_debug("dwc2_udc_init\n");
if (ctrl == NULL)
return NULL;
ctrl->pdata = calloc(1, sizeof(dwc2_pdata_t));
if (ctrl->pdata == NULL) {
free(ctrl);
return NULL;
}
memcpy(&ctrl->device_descriptor, dd, sizeof(*dd));
SLIST_INIT(&ctrl->configs);
ctrl->poll = dwc2_check_irq;
ctrl->add_gadget = udc_add_gadget;
ctrl->add_strings = udc_add_strings;
ctrl->enqueue_packet = dwc2_enqueue_packet;
ctrl->force_shutdown = dwc2_force_shutdown;
ctrl->shutdown = dwc2_shutdown;
ctrl->set_address = dwc2_set_address;
ctrl->stall = dwc2_stall;
ctrl->halt_ep = dwc2_halt_ep;
ctrl->start_ep = dwc2_start_ep;
ctrl->alloc_data = dwc2_malloc;
ctrl->free_data = dwc2_free;
ctrl->initialized = 0;
ctrl->ep_mps[0][0] = 64;
ctrl->ep_mps[0][1] = 64;
for (i = 1; i < 16; i++) {
ctrl->ep_mps[i][0] = 512;
ctrl->ep_mps[i][1] = 512;
}
if (!dwc2_reinit_udc(ctrl, (void *)0xff580000, dd)) {
free(ctrl->pdata);
free(ctrl);
return NULL;
}
return ctrl;
}
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