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|
/*
* TUSB6010 USB 2.0 OTG Dual Role controller
*
* Copyright (C) 2006 Nokia Corporation
* Jarkko Nikula <jarkko.nikula@nokia.com>
* Tony Lindgren <tony@atomide.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* Notes:
* - Driver assumes that interface to external host (main CPU) is
* configured for NOR FLASH interface instead of VLYNQ serial
* interface.
*/
#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/errno.h>
#include <linux/init.h>
#include <linux/usb.h>
#include <linux/irq.h>
#include <linux/platform_device.h>
#include "musb_core.h"
static void tusb_source_power(struct musb *musb, int is_on);
#define TUSB_REV_MAJOR(reg_val) ((reg_val >> 4) & 0xf)
#define TUSB_REV_MINOR(reg_val) (reg_val & 0xf)
/*
* Checks the revision. We need to use the DMA register as 3.0 does not
* have correct versions for TUSB_PRCM_REV or TUSB_INT_CTRL_REV.
*/
u8 tusb_get_revision(struct musb *musb)
{
void __iomem *tbase = musb->ctrl_base;
u32 die_id;
u8 rev;
rev = musb_readl(tbase, TUSB_DMA_CTRL_REV) & 0xff;
if (TUSB_REV_MAJOR(rev) == 3) {
die_id = TUSB_DIDR1_HI_CHIP_REV(musb_readl(tbase,
TUSB_DIDR1_HI));
if (die_id >= TUSB_DIDR1_HI_REV_31)
rev |= 1;
}
return rev;
}
static int __init tusb_print_revision(struct musb *musb)
{
void __iomem *tbase = musb->ctrl_base;
u8 rev;
rev = tusb_get_revision(musb);
pr_info("tusb: %s%i.%i %s%i.%i %s%i.%i %s%i.%i %s%i %s%i.%i\n",
"prcm",
TUSB_REV_MAJOR(musb_readl(tbase, TUSB_PRCM_REV)),
TUSB_REV_MINOR(musb_readl(tbase, TUSB_PRCM_REV)),
"int",
TUSB_REV_MAJOR(musb_readl(tbase, TUSB_INT_CTRL_REV)),
TUSB_REV_MINOR(musb_readl(tbase, TUSB_INT_CTRL_REV)),
"gpio",
TUSB_REV_MAJOR(musb_readl(tbase, TUSB_GPIO_REV)),
TUSB_REV_MINOR(musb_readl(tbase, TUSB_GPIO_REV)),
"dma",
TUSB_REV_MAJOR(musb_readl(tbase, TUSB_DMA_CTRL_REV)),
TUSB_REV_MINOR(musb_readl(tbase, TUSB_DMA_CTRL_REV)),
"dieid",
TUSB_DIDR1_HI_CHIP_REV(musb_readl(tbase, TUSB_DIDR1_HI)),
"rev",
TUSB_REV_MAJOR(rev), TUSB_REV_MINOR(rev));
return tusb_get_revision(musb);
}
#define WBUS_QUIRK_MASK (TUSB_PHY_OTG_CTRL_TESTM2 | TUSB_PHY_OTG_CTRL_TESTM1 \
| TUSB_PHY_OTG_CTRL_TESTM0)
/*
* Workaround for spontaneous WBUS wake-up issue #2 for tusb3.0.
* Disables power detection in PHY for the duration of idle.
*/
static void tusb_wbus_quirk(struct musb *musb, int enabled)
{
void __iomem *tbase = musb->ctrl_base;
static u32 phy_otg_ctrl, phy_otg_ena;
u32 tmp;
if (enabled) {
phy_otg_ctrl = musb_readl(tbase, TUSB_PHY_OTG_CTRL);
phy_otg_ena = musb_readl(tbase, TUSB_PHY_OTG_CTRL_ENABLE);
tmp = TUSB_PHY_OTG_CTRL_WRPROTECT
| phy_otg_ena | WBUS_QUIRK_MASK;
musb_writel(tbase, TUSB_PHY_OTG_CTRL, tmp);
tmp = phy_otg_ena & ~WBUS_QUIRK_MASK;
tmp |= TUSB_PHY_OTG_CTRL_WRPROTECT | TUSB_PHY_OTG_CTRL_TESTM2;
musb_writel(tbase, TUSB_PHY_OTG_CTRL_ENABLE, tmp);
DBG(2, "Enabled tusb wbus quirk ctrl %08x ena %08x\n",
musb_readl(tbase, TUSB_PHY_OTG_CTRL),
musb_readl(tbase, TUSB_PHY_OTG_CTRL_ENABLE));
} else if (musb_readl(tbase, TUSB_PHY_OTG_CTRL_ENABLE)
& TUSB_PHY_OTG_CTRL_TESTM2) {
tmp = TUSB_PHY_OTG_CTRL_WRPROTECT | phy_otg_ctrl;
musb_writel(tbase, TUSB_PHY_OTG_CTRL, tmp);
tmp = TUSB_PHY_OTG_CTRL_WRPROTECT | phy_otg_ena;
musb_writel(tbase, TUSB_PHY_OTG_CTRL_ENABLE, tmp);
DBG(2, "Disabled tusb wbus quirk ctrl %08x ena %08x\n",
musb_readl(tbase, TUSB_PHY_OTG_CTRL),
musb_readl(tbase, TUSB_PHY_OTG_CTRL_ENABLE));
phy_otg_ctrl = 0;
phy_otg_ena = 0;
}
}
/*
* TUSB 6010 may use a parallel bus that doesn't support byte ops;
* so both loading and unloading FIFOs need explicit byte counts.
*/
static inline void
tusb_fifo_write_unaligned(void __iomem *fifo, const u8 *buf, u16 len)
{
u32 val;
int i;
if (len > 4) {
for (i = 0; i < (len >> 2); i++) {
memcpy(&val, buf, 4);
musb_writel(fifo, 0, val);
buf += 4;
}
len %= 4;
}
if (len > 0) {
/* Write the rest 1 - 3 bytes to FIFO */
memcpy(&val, buf, len);
musb_writel(fifo, 0, val);
}
}
static inline void tusb_fifo_read_unaligned(void __iomem *fifo,
void __iomem *buf, u16 len)
{
u32 val;
int i;
if (len > 4) {
for (i = 0; i < (len >> 2); i++) {
val = musb_readl(fifo, 0);
memcpy(buf, &val, 4);
buf += 4;
}
len %= 4;
}
if (len > 0) {
/* Read the rest 1 - 3 bytes from FIFO */
val = musb_readl(fifo, 0);
memcpy(buf, &val, len);
}
}
void musb_write_fifo(struct musb_hw_ep *hw_ep, u16 len, const u8 *buf)
{
void __iomem *ep_conf = hw_ep->conf;
void __iomem *fifo = hw_ep->fifo;
u8 epnum = hw_ep->epnum;
prefetch(buf);
DBG(4, "%cX ep%d fifo %p count %d buf %p\n",
'T', epnum, fifo, len, buf);
if (epnum)
musb_writel(ep_conf, TUSB_EP_TX_OFFSET,
TUSB_EP_CONFIG_XFR_SIZE(len));
else
musb_writel(ep_conf, 0, TUSB_EP0_CONFIG_DIR_TX |
TUSB_EP0_CONFIG_XFR_SIZE(len));
if (likely((0x01 & (unsigned long) buf) == 0)) {
/* Best case is 32bit-aligned destination address */
if ((0x02 & (unsigned long) buf) == 0) {
if (len >= 4) {
writesl(fifo, buf, len >> 2);
buf += (len & ~0x03);
len &= 0x03;
}
} else {
if (len >= 2) {
u32 val;
int i;
/* Cannot use writesw, fifo is 32-bit */
for (i = 0; i < (len >> 2); i++) {
val = (u32)(*(u16 *)buf);
buf += 2;
val |= (*(u16 *)buf) << 16;
buf += 2;
musb_writel(fifo, 0, val);
}
len &= 0x03;
}
}
}
if (len > 0)
tusb_fifo_write_unaligned(fifo, buf, len);
}
void musb_read_fifo(struct musb_hw_ep *hw_ep, u16 len, u8 *buf)
{
void __iomem *ep_conf = hw_ep->conf;
void __iomem *fifo = hw_ep->fifo;
u8 epnum = hw_ep->epnum;
DBG(4, "%cX ep%d fifo %p count %d buf %p\n",
'R', epnum, fifo, len, buf);
if (epnum)
musb_writel(ep_conf, TUSB_EP_RX_OFFSET,
TUSB_EP_CONFIG_XFR_SIZE(len));
else
musb_writel(ep_conf, 0, TUSB_EP0_CONFIG_XFR_SIZE(len));
if (likely((0x01 & (unsigned long) buf) == 0)) {
/* Best case is 32bit-aligned destination address */
if ((0x02 & (unsigned long) buf) == 0) {
if (len >= 4) {
readsl(fifo, buf, len >> 2);
buf += (len & ~0x03);
len &= 0x03;
}
} else {
if (len >= 2) {
u32 val;
int i;
/* Cannot use readsw, fifo is 32-bit */
for (i = 0; i < (len >> 2); i++) {
val = musb_readl(fifo, 0);
*(u16 *)buf = (u16)(val & 0xffff);
buf += 2;
*(u16 *)buf = (u16)(val >> 16);
buf += 2;
}
len &= 0x03;
}
}
}
if (len > 0)
tusb_fifo_read_unaligned(fifo, buf, len);
}
#ifdef CONFIG_USB_GADGET_MUSB_HDRC
/* This is used by gadget drivers, and OTG transceiver logic, allowing
* at most mA current to be drawn from VBUS during a Default-B session
* (that is, while VBUS exceeds 4.4V). In Default-A (including pure host
* mode), or low power Default-B sessions, something else supplies power.
* Caller must take care of locking.
*/
static int tusb_draw_power(struct otg_transceiver *x, unsigned mA)
{
struct musb *musb = container_of(x, struct musb, xceiv);
void __iomem *tbase = musb->ctrl_base;
u32 reg;
/*
* Keep clock active when enabled. Note that this is not tied to
* drawing VBUS, as with OTG mA can be less than musb->min_power.
*/
if (musb->set_clock) {
if (mA)
musb->set_clock(musb->clock, 1);
else
musb->set_clock(musb->clock, 0);
}
/* tps65030 seems to consume max 100mA, with maybe 60mA available
* (measured on one board) for things other than tps and tusb.
*
* Boards sharing the CPU clock with CLKIN will need to prevent
* certain idle sleep states while the USB link is active.
*
* REVISIT we could use VBUS to supply only _one_ of { 1.5V, 3.3V }.
* The actual current usage would be very board-specific. For now,
* it's simpler to just use an aggregate (also board-specific).
*/
if (x->default_a || mA < (musb->min_power << 1))
mA = 0;
reg = musb_readl(tbase, TUSB_PRCM_MNGMT);
if (mA) {
musb->is_bus_powered = 1;
reg |= TUSB_PRCM_MNGMT_15_SW_EN | TUSB_PRCM_MNGMT_33_SW_EN;
} else {
musb->is_bus_powered = 0;
reg &= ~(TUSB_PRCM_MNGMT_15_SW_EN | TUSB_PRCM_MNGMT_33_SW_EN);
}
musb_writel(tbase, TUSB_PRCM_MNGMT, reg);
DBG(2, "draw max %d mA VBUS\n", mA);
return 0;
}
#else
#define tusb_draw_power NULL
#endif
/* workaround for issue 13: change clock during chip idle
* (to be fixed in rev3 silicon) ... symptoms include disconnect
* or looping suspend/resume cycles
*/
static void tusb_set_clock_source(struct musb *musb, unsigned mode)
{
void __iomem *tbase = musb->ctrl_base;
u32 reg;
reg = musb_readl(tbase, TUSB_PRCM_CONF);
reg &= ~TUSB_PRCM_CONF_SYS_CLKSEL(0x3);
/* 0 = refclk (clkin, XI)
* 1 = PHY 60 MHz (internal PLL)
* 2 = not supported
* 3 = what?
*/
if (mode > 0)
reg |= TUSB_PRCM_CONF_SYS_CLKSEL(mode & 0x3);
musb_writel(tbase, TUSB_PRCM_CONF, reg);
/* FIXME tusb6010_platform_retime(mode == 0); */
}
/*
* Idle TUSB6010 until next wake-up event; NOR access always wakes.
* Other code ensures that we idle unless we're connected _and_ the
* USB link is not suspended ... and tells us the relevant wakeup
* events. SW_EN for voltage is handled separately.
*/
void tusb_allow_idle(struct musb *musb, u32 wakeup_enables)
{
void __iomem *tbase = musb->ctrl_base;
u32 reg;
if ((wakeup_enables & TUSB_PRCM_WBUS)
&& (tusb_get_revision(musb) == TUSB_REV_30))
tusb_wbus_quirk(musb, 1);
tusb_set_clock_source(musb, 0);
wakeup_enables |= TUSB_PRCM_WNORCS;
musb_writel(tbase, TUSB_PRCM_WAKEUP_MASK, ~wakeup_enables);
/* REVISIT writeup of WID implies that if WID set and ID is grounded,
* TUSB_PHY_OTG_CTRL.TUSB_PHY_OTG_CTRL_OTG_ID_PULLUP must be cleared.
* Presumably that's mostly to save power, hence WID is immaterial ...
*/
reg = musb_readl(tbase, TUSB_PRCM_MNGMT);
/* issue 4: when driving vbus, use hipower (vbus_det) comparator */
if (is_host_active(musb)) {
reg |= TUSB_PRCM_MNGMT_OTG_VBUS_DET_EN;
reg &= ~TUSB_PRCM_MNGMT_OTG_SESS_END_EN;
} else {
reg |= TUSB_PRCM_MNGMT_OTG_SESS_END_EN;
reg &= ~TUSB_PRCM_MNGMT_OTG_VBUS_DET_EN;
}
reg |= TUSB_PRCM_MNGMT_PM_IDLE | TUSB_PRCM_MNGMT_DEV_IDLE;
musb_writel(tbase, TUSB_PRCM_MNGMT, reg);
DBG(6, "idle, wake on %02x\n", wakeup_enables);
}
/*
* Updates cable VBUS status. Caller must take care of locking.
*/
int musb_platform_get_vbus_status(struct musb *musb)
{
void __iomem *tbase = musb->ctrl_base;
u32 otg_stat, prcm_mngmt;
int ret = 0;
otg_stat = musb_readl(tbase, TUSB_DEV_OTG_STAT);
prcm_mngmt = musb_readl(tbase, TUSB_PRCM_MNGMT);
/* Temporarily enable VBUS detection if it was disabled for
* suspend mode. Unless it's enabled otg_stat and devctl will
* not show correct VBUS state.
*/
if (!(prcm_mngmt & TUSB_PRCM_MNGMT_OTG_VBUS_DET_EN)) {
u32 tmp = prcm_mngmt;
tmp |= TUSB_PRCM_MNGMT_OTG_VBUS_DET_EN;
musb_writel(tbase, TUSB_PRCM_MNGMT, tmp);
otg_stat = musb_readl(tbase, TUSB_DEV_OTG_STAT);
musb_writel(tbase, TUSB_PRCM_MNGMT, prcm_mngmt);
}
if (otg_stat & TUSB_DEV_OTG_STAT_VBUS_VALID)
ret = 1;
return ret;
}
static struct timer_list musb_idle_timer;
static void musb_do_idle(unsigned long _musb)
{
struct musb *musb = (void *)_musb;
unsigned long flags;
spin_lock_irqsave(&musb->lock, flags);
switch (musb->xceiv.state) {
case OTG_STATE_A_WAIT_BCON:
if ((musb->a_wait_bcon != 0)
&& (musb->idle_timeout == 0
|| time_after(jiffies, musb->idle_timeout))) {
DBG(4, "Nothing connected %s, turning off VBUS\n",
otg_state_string(musb));
}
/* FALLTHROUGH */
case OTG_STATE_A_IDLE:
tusb_source_power(musb, 0);
default:
break;
}
if (!musb->is_active) {
u32 wakeups;
/* wait until khubd handles port change status */
if (is_host_active(musb) && (musb->port1_status >> 16))
goto done;
#ifdef CONFIG_USB_GADGET_MUSB_HDRC
if (is_peripheral_enabled(musb) && !musb->gadget_driver)
wakeups = 0;
else {
wakeups = TUSB_PRCM_WHOSTDISCON
| TUSB_PRCM_WBUS
| TUSB_PRCM_WVBUS;
if (is_otg_enabled(musb))
wakeups |= TUSB_PRCM_WID;
}
#else
wakeups = TUSB_PRCM_WHOSTDISCON | TUSB_PRCM_WBUS;
#endif
tusb_allow_idle(musb, wakeups);
}
done:
spin_unlock_irqrestore(&musb->lock, flags);
}
/*
* Maybe put TUSB6010 into idle mode mode depending on USB link status,
* like "disconnected" or "suspended". We'll be woken out of it by
* connect, resume, or disconnect.
*
* Needs to be called as the last function everywhere where there is
* register access to TUSB6010 because of NOR flash wake-up.
* Caller should own controller spinlock.
*
* Delay because peripheral enables D+ pullup 3msec after SE0, and
* we don't want to treat that full speed J as a wakeup event.
* ... peripherals must draw only suspend current after 10 msec.
*/
void musb_platform_try_idle(struct musb *musb, unsigned long timeout)
{
unsigned long default_timeout = jiffies + msecs_to_jiffies(3);
static unsigned long last_timer;
if (timeout == 0)
timeout = default_timeout;
/* Never idle if active, or when VBUS timeout is not set as host */
if (musb->is_active || ((musb->a_wait_bcon == 0)
&& (musb->xceiv.state == OTG_STATE_A_WAIT_BCON))) {
DBG(4, "%s active, deleting timer\n", otg_state_string(musb));
del_timer(&musb_idle_timer);
last_timer = jiffies;
return;
}
if (time_after(last_timer, timeout)) {
if (!timer_pending(&musb_idle_timer))
last_timer = timeout;
else {
DBG(4, "Longer idle timer already pending, ignoring\n");
return;
}
}
last_timer = timeout;
DBG(4, "%s inactive, for idle timer for %lu ms\n",
otg_state_string(musb),
(unsigned long)jiffies_to_msecs(timeout - jiffies));
mod_timer(&musb_idle_timer, timeout);
}
/* ticks of 60 MHz clock */
#define DEVCLOCK 60000000
#define OTG_TIMER_MS(msecs) ((msecs) \
? (TUSB_DEV_OTG_TIMER_VAL((DEVCLOCK/1000)*(msecs)) \
| TUSB_DEV_OTG_TIMER_ENABLE) \
: 0)
static void tusb_source_power(struct musb *musb, int is_on)
{
void __iomem *tbase = musb->ctrl_base;
u32 conf, prcm, timer;
u8 devctl;
/* HDRC controls CPEN, but beware current surges during device
* connect. They can trigger transient overcurrent conditions
* that must be ignored.
*/
prcm = musb_readl(tbase, TUSB_PRCM_MNGMT);
conf = musb_readl(tbase, TUSB_DEV_CONF);
devctl = musb_readb(musb->mregs, MUSB_DEVCTL);
if (is_on) {
if (musb->set_clock)
musb->set_clock(musb->clock, 1);
timer = OTG_TIMER_MS(OTG_TIME_A_WAIT_VRISE);
musb->xceiv.default_a = 1;
musb->xceiv.state = OTG_STATE_A_WAIT_VRISE;
devctl |= MUSB_DEVCTL_SESSION;
conf |= TUSB_DEV_CONF_USB_HOST_MODE;
MUSB_HST_MODE(musb);
} else {
u32 otg_stat;
timer = 0;
/* If ID pin is grounded, we want to be a_idle */
otg_stat = musb_readl(tbase, TUSB_DEV_OTG_STAT);
if (!(otg_stat & TUSB_DEV_OTG_STAT_ID_STATUS)) {
switch (musb->xceiv.state) {
case OTG_STATE_A_WAIT_VRISE:
case OTG_STATE_A_WAIT_BCON:
musb->xceiv.state = OTG_STATE_A_WAIT_VFALL;
break;
case OTG_STATE_A_WAIT_VFALL:
musb->xceiv.state = OTG_STATE_A_IDLE;
break;
default:
musb->xceiv.state = OTG_STATE_A_IDLE;
}
musb->is_active = 0;
musb->xceiv.default_a = 1;
MUSB_HST_MODE(musb);
} else {
musb->is_active = 0;
musb->xceiv.default_a = 0;
musb->xceiv.state = OTG_STATE_B_IDLE;
MUSB_DEV_MODE(musb);
}
devctl &= ~MUSB_DEVCTL_SESSION;
conf &= ~TUSB_DEV_CONF_USB_HOST_MODE;
if (musb->set_clock)
musb->set_clock(musb->clock, 0);
}
prcm &= ~(TUSB_PRCM_MNGMT_15_SW_EN | TUSB_PRCM_MNGMT_33_SW_EN);
musb_writel(tbase, TUSB_PRCM_MNGMT, prcm);
musb_writel(tbase, TUSB_DEV_OTG_TIMER, timer);
musb_writel(tbase, TUSB_DEV_CONF, conf);
musb_writeb(musb->mregs, MUSB_DEVCTL, devctl);
DBG(1, "VBUS %s, devctl %02x otg %3x conf %08x prcm %08x\n",
otg_state_string(musb),
musb_readb(musb->mregs, MUSB_DEVCTL),
musb_readl(tbase, TUSB_DEV_OTG_STAT),
conf, prcm);
}
/*
* Sets the mode to OTG, peripheral or host by changing the ID detection.
* Caller must take care of locking.
*
* Note that if a mini-A cable is plugged in the ID line will stay down as
* the weak ID pull-up is not able to pull the ID up.
*
* REVISIT: It would be possible to add support for changing between host
* and peripheral modes in non-OTG configurations by reconfiguring hardware
* and then setting musb->board_mode. For now, only support OTG mode.
*/
void musb_platform_set_mode(struct musb *musb, u8 musb_mode)
{
void __iomem *tbase = musb->ctrl_base;
u32 otg_stat, phy_otg_ctrl, phy_otg_ena, dev_conf;
if (musb->board_mode != MUSB_OTG) {
ERR("Changing mode currently only supported in OTG mode\n");
return;
}
otg_stat = musb_readl(tbase, TUSB_DEV_OTG_STAT);
phy_otg_ctrl = musb_readl(tbase, TUSB_PHY_OTG_CTRL);
phy_otg_ena = musb_readl(tbase, TUSB_PHY_OTG_CTRL_ENABLE);
dev_conf = musb_readl(tbase, TUSB_DEV_CONF);
switch (musb_mode) {
#ifdef CONFIG_USB_MUSB_HDRC_HCD
case MUSB_HOST: /* Disable PHY ID detect, ground ID */
phy_otg_ctrl &= ~TUSB_PHY_OTG_CTRL_OTG_ID_PULLUP;
phy_otg_ena |= TUSB_PHY_OTG_CTRL_OTG_ID_PULLUP;
dev_conf |= TUSB_DEV_CONF_ID_SEL;
dev_conf &= ~TUSB_DEV_CONF_SOFT_ID;
break;
#endif
#ifdef CONFIG_USB_GADGET_MUSB_HDRC
case MUSB_PERIPHERAL: /* Disable PHY ID detect, keep ID pull-up on */
phy_otg_ctrl |= TUSB_PHY_OTG_CTRL_OTG_ID_PULLUP;
phy_otg_ena |= TUSB_PHY_OTG_CTRL_OTG_ID_PULLUP;
dev_conf |= (TUSB_DEV_CONF_ID_SEL | TUSB_DEV_CONF_SOFT_ID);
break;
#endif
#ifdef CONFIG_USB_MUSB_OTG
case MUSB_OTG: /* Use PHY ID detection */
phy_otg_ctrl |= TUSB_PHY_OTG_CTRL_OTG_ID_PULLUP;
phy_otg_ena |= TUSB_PHY_OTG_CTRL_OTG_ID_PULLUP;
dev_conf &= ~(TUSB_DEV_CONF_ID_SEL | TUSB_DEV_CONF_SOFT_ID);
break;
#endif
default:
DBG(2, "Trying to set unknown mode %i\n", musb_mode);
}
musb_writel(tbase, TUSB_PHY_OTG_CTRL,
TUSB_PHY_OTG_CTRL_WRPROTECT | phy_otg_ctrl);
musb_writel(tbase, TUSB_PHY_OTG_CTRL_ENABLE,
TUSB_PHY_OTG_CTRL_WRPROTECT | phy_otg_ena);
musb_writel(tbase, TUSB_DEV_CONF, dev_conf);
otg_stat = musb_readl(tbase, TUSB_DEV_OTG_STAT);
if ((musb_mode == MUSB_PERIPHERAL) &&
!(otg_stat & TUSB_DEV_OTG_STAT_ID_STATUS))
INFO("Cannot be peripheral with mini-A cable "
"otg_stat: %08x\n", otg_stat);
}
static inline unsigned long
tusb_otg_ints(struct musb *musb, u32 int_src, void __iomem *tbase)
{
u32 otg_stat = musb_readl(tbase, TUSB_DEV_OTG_STAT);
unsigned long idle_timeout = 0;
/* ID pin */
if ((int_src & TUSB_INT_SRC_ID_STATUS_CHNG)) {
int default_a;
if (is_otg_enabled(musb))
default_a = !(otg_stat & TUSB_DEV_OTG_STAT_ID_STATUS);
else
default_a = is_host_enabled(musb);
DBG(2, "Default-%c\n", default_a ? 'A' : 'B');
musb->xceiv.default_a = default_a;
tusb_source_power(musb, default_a);
/* Don't allow idling immediately */
if (default_a)
idle_timeout = jiffies + (HZ * 3);
}
/* VBUS state change */
if (int_src & TUSB_INT_SRC_VBUS_SENSE_CHNG) {
/* B-dev state machine: no vbus ~= disconnect */
if ((is_otg_enabled(musb) && !musb->xceiv.default_a)
|| !is_host_enabled(musb)) {
#ifdef CONFIG_USB_MUSB_HDRC_HCD
/* ? musb_root_disconnect(musb); */
musb->port1_status &=
~(USB_PORT_STAT_CONNECTION
| USB_PORT_STAT_ENABLE
| USB_PORT_STAT_LOW_SPEED
| USB_PORT_STAT_HIGH_SPEED
| USB_PORT_STAT_TEST
);
#endif
if (otg_stat & TUSB_DEV_OTG_STAT_SESS_END) {
DBG(1, "Forcing disconnect (no interrupt)\n");
if (musb->xceiv.state != OTG_STATE_B_IDLE) {
/* INTR_DISCONNECT can hide... */
musb->xceiv.state = OTG_STATE_B_IDLE;
musb->int_usb |= MUSB_INTR_DISCONNECT;
}
musb->is_active = 0;
}
DBG(2, "vbus change, %s, otg %03x\n",
otg_state_string(musb), otg_stat);
idle_timeout = jiffies + (1 * HZ);
schedule_work(&musb->irq_work);
} else /* A-dev state machine */ {
DBG(2, "vbus change, %s, otg %03x\n",
otg_state_string(musb), otg_stat);
switch (musb->xceiv.state) {
case OTG_STATE_A_IDLE:
DBG(2, "Got SRP, turning on VBUS\n");
musb_set_vbus(musb, 1);
/* CONNECT can wake if a_wait_bcon is set */
if (musb->a_wait_bcon != 0)
musb->is_active = 0;
else
musb->is_active = 1;
/*
* OPT FS A TD.4.6 needs few seconds for
* A_WAIT_VRISE
*/
idle_timeout = jiffies + (2 * HZ);
break;
case OTG_STATE_A_WAIT_VRISE:
/* ignore; A-session-valid < VBUS_VALID/2,
* we monitor this with the timer
*/
break;
case OTG_STATE_A_WAIT_VFALL:
/* REVISIT this irq triggers during short
* spikes caused by enumeration ...
*/
if (musb->vbuserr_retry) {
musb->vbuserr_retry--;
tusb_source_power(musb, 1);
} else {
musb->vbuserr_retry
= VBUSERR_RETRY_COUNT;
tusb_source_power(musb, 0);
}
break;
default:
break;
}
}
}
/* OTG timer expiration */
if (int_src & TUSB_INT_SRC_OTG_TIMEOUT) {
u8 devctl;
DBG(4, "%s timer, %03x\n", otg_state_string(musb), otg_stat);
switch (musb->xceiv.state) {
case OTG_STATE_A_WAIT_VRISE:
/* VBUS has probably been valid for a while now,
* but may well have bounced out of range a bit
*/
devctl = musb_readb(musb->mregs, MUSB_DEVCTL);
if (otg_stat & TUSB_DEV_OTG_STAT_VBUS_VALID) {
if ((devctl & MUSB_DEVCTL_VBUS)
!= MUSB_DEVCTL_VBUS) {
DBG(2, "devctl %02x\n", devctl);
break;
}
musb->xceiv.state = OTG_STATE_A_WAIT_BCON;
musb->is_active = 0;
idle_timeout = jiffies
+ msecs_to_jiffies(musb->a_wait_bcon);
} else {
/* REVISIT report overcurrent to hub? */
ERR("vbus too slow, devctl %02x\n", devctl);
tusb_source_power(musb, 0);
}
break;
case OTG_STATE_A_WAIT_BCON:
if (musb->a_wait_bcon != 0)
idle_timeout = jiffies
+ msecs_to_jiffies(musb->a_wait_bcon);
break;
case OTG_STATE_A_SUSPEND:
break;
case OTG_STATE_B_WAIT_ACON:
break;
default:
break;
}
}
schedule_work(&musb->irq_work);
return idle_timeout;
}
static irqreturn_t tusb_interrupt(int irq, void *__hci)
{
struct musb *musb = __hci;
void __iomem *tbase = musb->ctrl_base;
unsigned long flags, idle_timeout = 0;
u32 int_mask, int_src;
spin_lock_irqsave(&musb->lock, flags);
/* Mask all interrupts to allow using both edge and level GPIO irq */
int_mask = musb_readl(tbase, TUSB_INT_MASK);
musb_writel(tbase, TUSB_INT_MASK, ~TUSB_INT_MASK_RESERVED_BITS);
int_src = musb_readl(tbase, TUSB_INT_SRC) & ~TUSB_INT_SRC_RESERVED_BITS;
DBG(3, "TUSB IRQ %08x\n", int_src);
musb->int_usb = (u8) int_src;
/* Acknowledge wake-up source interrupts */
if (int_src & TUSB_INT_SRC_DEV_WAKEUP) {
u32 reg;
u32 i;
if (tusb_get_revision(musb) == TUSB_REV_30)
tusb_wbus_quirk(musb, 0);
/* there are issues re-locking the PLL on wakeup ... */
/* work around issue 8 */
for (i = 0xf7f7f7; i > 0xf7f7f7 - 1000; i--) {
musb_writel(tbase, TUSB_SCRATCH_PAD, 0);
musb_writel(tbase, TUSB_SCRATCH_PAD, i);
reg = musb_readl(tbase, TUSB_SCRATCH_PAD);
if (reg == i)
break;
DBG(6, "TUSB NOR not ready\n");
}
/* work around issue 13 (2nd half) */
tusb_set_clock_source(musb, 1);
reg = musb_readl(tbase, TUSB_PRCM_WAKEUP_SOURCE);
musb_writel(tbase, TUSB_PRCM_WAKEUP_CLEAR, reg);
if (reg & ~TUSB_PRCM_WNORCS) {
musb->is_active = 1;
schedule_work(&musb->irq_work);
}
DBG(3, "wake %sactive %02x\n",
musb->is_active ? "" : "in", reg);
/* REVISIT host side TUSB_PRCM_WHOSTDISCON, TUSB_PRCM_WBUS */
}
if (int_src & TUSB_INT_SRC_USB_IP_CONN)
del_timer(&musb_idle_timer);
/* OTG state change reports (annoyingly) not issued by Mentor core */
if (int_src & (TUSB_INT_SRC_VBUS_SENSE_CHNG
| TUSB_INT_SRC_OTG_TIMEOUT
| TUSB_INT_SRC_ID_STATUS_CHNG))
idle_timeout = tusb_otg_ints(musb, int_src, tbase);
/* TX dma callback must be handled here, RX dma callback is
* handled in tusb_omap_dma_cb.
*/
if ((int_src & TUSB_INT_SRC_TXRX_DMA_DONE)) {
u32 dma_src = musb_readl(tbase, TUSB_DMA_INT_SRC);
u32 real_dma_src = musb_readl(tbase, TUSB_DMA_INT_MASK);
DBG(3, "DMA IRQ %08x\n", dma_src);
real_dma_src = ~real_dma_src & dma_src;
if (tusb_dma_omap() && real_dma_src) {
int tx_source = (real_dma_src & 0xffff);
int i;
for (i = 1; i <= 15; i++) {
if (tx_source & (1 << i)) {
DBG(3, "completing ep%i %s\n", i, "tx");
musb_dma_completion(musb, i, 1);
}
}
}
musb_writel(tbase, TUSB_DMA_INT_CLEAR, dma_src);
}
/* EP interrupts. In OCP mode tusb6010 mirrors the MUSB interrupts */
if (int_src & (TUSB_INT_SRC_USB_IP_TX | TUSB_INT_SRC_USB_IP_RX)) {
u32 musb_src = musb_readl(tbase, TUSB_USBIP_INT_SRC);
musb_writel(tbase, TUSB_USBIP_INT_CLEAR, musb_src);
musb->int_rx = (((musb_src >> 16) & 0xffff) << 1);
musb->int_tx = (musb_src & 0xffff);
} else {
musb->int_rx = 0;
musb->int_tx = 0;
}
if (int_src & (TUSB_INT_SRC_USB_IP_TX | TUSB_INT_SRC_USB_IP_RX | 0xff))
musb_interrupt(musb);
/* Acknowledge TUSB interrupts. Clear only non-reserved bits */
musb_writel(tbase, TUSB_INT_SRC_CLEAR,
int_src & ~TUSB_INT_MASK_RESERVED_BITS);
musb_platform_try_idle(musb, idle_timeout);
musb_writel(tbase, TUSB_INT_MASK, int_mask);
spin_unlock_irqrestore(&musb->lock, flags);
return IRQ_HANDLED;
}
static int dma_off;
/*
* Enables TUSB6010. Caller must take care of locking.
* REVISIT:
* - Check what is unnecessary in MGC_HdrcStart()
*/
void musb_platform_enable(struct musb *musb)
{
void __iomem *tbase = musb->ctrl_base;
/* Setup TUSB6010 main interrupt mask. Enable all interrupts except SOF.
* REVISIT: Enable and deal with TUSB_INT_SRC_USB_IP_SOF */
musb_writel(tbase, TUSB_INT_MASK, TUSB_INT_SRC_USB_IP_SOF);
/* Setup TUSB interrupt, disable DMA and GPIO interrupts */
musb_writel(tbase, TUSB_USBIP_INT_MASK, 0);
musb_writel(tbase, TUSB_DMA_INT_MASK, 0x7fffffff);
musb_writel(tbase, TUSB_GPIO_INT_MASK, 0x1ff);
/* Clear all subsystem interrups */
musb_writel(tbase, TUSB_USBIP_INT_CLEAR, 0x7fffffff);
musb_writel(tbase, TUSB_DMA_INT_CLEAR, 0x7fffffff);
musb_writel(tbase, TUSB_GPIO_INT_CLEAR, 0x1ff);
/* Acknowledge pending interrupt(s) */
musb_writel(tbase, TUSB_INT_SRC_CLEAR, ~TUSB_INT_MASK_RESERVED_BITS);
/* Only 0 clock cycles for minimum interrupt de-assertion time and
* interrupt polarity active low seems to work reliably here */
musb_writel(tbase, TUSB_INT_CTRL_CONF,
TUSB_INT_CTRL_CONF_INT_RELCYC(0));
set_irq_type(musb->nIrq, IRQ_TYPE_LEVEL_LOW);
/* maybe force into the Default-A OTG state machine */
if (!(musb_readl(tbase, TUSB_DEV_OTG_STAT)
& TUSB_DEV_OTG_STAT_ID_STATUS))
musb_writel(tbase, TUSB_INT_SRC_SET,
TUSB_INT_SRC_ID_STATUS_CHNG);
if (is_dma_capable() && dma_off)
printk(KERN_WARNING "%s %s: dma not reactivated\n",
__FILE__, __func__);
else
dma_off = 1;
}
/*
* Disables TUSB6010. Caller must take care of locking.
*/
void musb_platform_disable(struct musb *musb)
{
void __iomem *tbase = musb->ctrl_base;
/* FIXME stop DMA, IRQs, timers, ... */
/* disable all IRQs */
musb_writel(tbase, TUSB_INT_MASK, ~TUSB_INT_MASK_RESERVED_BITS);
musb_writel(tbase, TUSB_USBIP_INT_MASK, 0x7fffffff);
musb_writel(tbase, TUSB_DMA_INT_MASK, 0x7fffffff);
musb_writel(tbase, TUSB_GPIO_INT_MASK, 0x1ff);
del_timer(&musb_idle_timer);
if (is_dma_capable() && !dma_off) {
printk(KERN_WARNING "%s %s: dma still active\n",
__FILE__, __func__);
dma_off = 1;
}
}
/*
* Sets up TUSB6010 CPU interface specific signals and registers
* Note: Settings optimized for OMAP24xx
*/
static void __init tusb_setup_cpu_interface(struct musb *musb)
{
void __iomem *tbase = musb->ctrl_base;
/*
* Disable GPIO[5:0] pullups (used as output DMA requests)
* Don't disable GPIO[7:6] as they are needed for wake-up.
*/
musb_writel(tbase, TUSB_PULLUP_1_CTRL, 0x0000003F);
/* Disable all pullups on NOR IF, DMAREQ0 and DMAREQ1 */
musb_writel(tbase, TUSB_PULLUP_2_CTRL, 0x01FFFFFF);
/* Turn GPIO[5:0] to DMAREQ[5:0] signals */
musb_writel(tbase, TUSB_GPIO_CONF, TUSB_GPIO_CONF_DMAREQ(0x3f));
/* Burst size 16x16 bits, all six DMA requests enabled, DMA request
* de-assertion time 2 system clocks p 62 */
musb_writel(tbase, TUSB_DMA_REQ_CONF,
TUSB_DMA_REQ_CONF_BURST_SIZE(2) |
TUSB_DMA_REQ_CONF_DMA_REQ_EN(0x3f) |
TUSB_DMA_REQ_CONF_DMA_REQ_ASSER(2));
/* Set 0 wait count for synchronous burst access */
musb_writel(tbase, TUSB_WAIT_COUNT, 1);
}
static int __init tusb_start(struct musb *musb)
{
void __iomem *tbase = musb->ctrl_base;
int ret = 0;
unsigned long flags;
u32 reg;
if (musb->board_set_power)
ret = musb->board_set_power(1);
if (ret != 0) {
printk(KERN_ERR "tusb: Cannot enable TUSB6010\n");
return ret;
}
spin_lock_irqsave(&musb->lock, flags);
if (musb_readl(tbase, TUSB_PROD_TEST_RESET) !=
TUSB_PROD_TEST_RESET_VAL) {
printk(KERN_ERR "tusb: Unable to detect TUSB6010\n");
goto err;
}
ret = tusb_print_revision(musb);
if (ret < 2) {
printk(KERN_ERR "tusb: Unsupported TUSB6010 revision %i\n",
ret);
goto err;
}
/* The uint bit for "USB non-PDR interrupt enable" has to be 1 when
* NOR FLASH interface is used */
musb_writel(tbase, TUSB_VLYNQ_CTRL, 8);
/* Select PHY free running 60MHz as a system clock */
tusb_set_clock_source(musb, 1);
/* VBus valid timer 1us, disable DFT/Debug and VLYNQ clocks for
* power saving, enable VBus detect and session end comparators,
* enable IDpullup, enable VBus charging */
musb_writel(tbase, TUSB_PRCM_MNGMT,
TUSB_PRCM_MNGMT_VBUS_VALID_TIMER(0xa) |
TUSB_PRCM_MNGMT_VBUS_VALID_FLT_EN |
TUSB_PRCM_MNGMT_OTG_SESS_END_EN |
TUSB_PRCM_MNGMT_OTG_VBUS_DET_EN |
TUSB_PRCM_MNGMT_OTG_ID_PULLUP);
tusb_setup_cpu_interface(musb);
/* simplify: always sense/pullup ID pins, as if in OTG mode */
reg = musb_readl(tbase, TUSB_PHY_OTG_CTRL_ENABLE);
reg |= TUSB_PHY_OTG_CTRL_WRPROTECT | TUSB_PHY_OTG_CTRL_OTG_ID_PULLUP;
musb_writel(tbase, TUSB_PHY_OTG_CTRL_ENABLE, reg);
reg = musb_readl(tbase, TUSB_PHY_OTG_CTRL);
reg |= TUSB_PHY_OTG_CTRL_WRPROTECT | TUSB_PHY_OTG_CTRL_OTG_ID_PULLUP;
musb_writel(tbase, TUSB_PHY_OTG_CTRL, reg);
spin_unlock_irqrestore(&musb->lock, flags);
return 0;
err:
spin_unlock_irqrestore(&musb->lock, flags);
if (musb->board_set_power)
musb->board_set_power(0);
return -ENODEV;
}
int __init musb_platform_init(struct musb *musb)
{
struct platform_device *pdev;
struct resource *mem;
void __iomem *sync;
int ret;
pdev = to_platform_device(musb->controller);
/* dma address for async dma */
mem = platform_get_resource(pdev, IORESOURCE_MEM, 0);
musb->async = mem->start;
/* dma address for sync dma */
mem = platform_get_resource(pdev, IORESOURCE_MEM, 1);
if (!mem) {
pr_debug("no sync dma resource?\n");
return -ENODEV;
}
musb->sync = mem->start;
sync = ioremap(mem->start, mem->end - mem->start + 1);
if (!sync) {
pr_debug("ioremap for sync failed\n");
return -ENOMEM;
}
musb->sync_va = sync;
/* Offsets from base: VLYNQ at 0x000, MUSB regs at 0x400,
* FIFOs at 0x600, TUSB at 0x800
*/
musb->mregs += TUSB_BASE_OFFSET;
ret = tusb_start(musb);
if (ret) {
printk(KERN_ERR "Could not start tusb6010 (%d)\n",
ret);
return -ENODEV;
}
musb->isr = tusb_interrupt;
if (is_host_enabled(musb))
musb->board_set_vbus = tusb_source_power;
if (is_peripheral_enabled(musb))
musb->xceiv.set_power = tusb_draw_power;
setup_timer(&musb_idle_timer, musb_do_idle, (unsigned long) musb);
return ret;
}
int musb_platform_exit(struct musb *musb)
{
del_timer_sync(&musb_idle_timer);
if (musb->board_set_power)
musb->board_set_power(0);
iounmap(musb->sync_va);
return 0;
}
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