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|
/*
* Driver for ITE Tech Inc. IT8712F/IT8512 CIR
*
* Copyright (C) 2010 Juan Jesús García de Soria <skandalfo@gmail.com>
*
* 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; either version 2 of the
* License, or (at your option) any later version.
*
* 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.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA.
*
* Inspired by the original lirc_it87 and lirc_ite8709 drivers, on top of the
* skeleton provided by the nuvoton-cir driver.
*
* The lirc_it87 driver was originally written by Hans-Gunter Lutke Uphues
* <hg_lu@web.de> in 2001, with enhancements by Christoph Bartelmus
* <lirc@bartelmus.de>, Andrew Calkin <r_tay@hotmail.com> and James Edwards
* <jimbo-lirc@edwardsclan.net>.
*
* The lirc_ite8709 driver was written by Grégory Lardière
* <spmf2004-lirc@yahoo.fr> in 2008.
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/pnp.h>
#include <linux/io.h>
#include <linux/interrupt.h>
#include <linux/sched.h>
#include <linux/slab.h>
#include <linux/input.h>
#include <linux/bitops.h>
#include <media/rc-core.h>
#include <linux/pci_ids.h>
#include "ite-cir.h"
/* module parameters */
/* debug level */
static int debug;
module_param(debug, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(debug, "Enable debugging output");
/* low limit for RX carrier freq, Hz, 0 for no RX demodulation */
static int rx_low_carrier_freq;
module_param(rx_low_carrier_freq, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(rx_low_carrier_freq, "Override low RX carrier frequency, Hz, "
"0 for no RX demodulation");
/* high limit for RX carrier freq, Hz, 0 for no RX demodulation */
static int rx_high_carrier_freq;
module_param(rx_high_carrier_freq, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(rx_high_carrier_freq, "Override high RX carrier frequency, "
"Hz, 0 for no RX demodulation");
/* override tx carrier frequency */
static int tx_carrier_freq;
module_param(tx_carrier_freq, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(tx_carrier_freq, "Override TX carrier frequency, Hz");
/* override tx duty cycle */
static int tx_duty_cycle;
module_param(tx_duty_cycle, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(tx_duty_cycle, "Override TX duty cycle, 1-100");
/* override default sample period */
static long sample_period;
module_param(sample_period, long, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(sample_period, "Override carrier sample period, us");
/* override detected model id */
static int model_number = -1;
module_param(model_number, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(model_number, "Use this model number, don't autodetect");
/* HW-independent code functions */
/* check whether carrier frequency is high frequency */
static inline bool ite_is_high_carrier_freq(unsigned int freq)
{
return freq >= ITE_HCF_MIN_CARRIER_FREQ;
}
/* get the bits required to program the carrier frequency in CFQ bits,
* unshifted */
static u8 ite_get_carrier_freq_bits(unsigned int freq)
{
if (ite_is_high_carrier_freq(freq)) {
if (freq < 425000)
return ITE_CFQ_400;
else if (freq < 465000)
return ITE_CFQ_450;
else if (freq < 490000)
return ITE_CFQ_480;
else
return ITE_CFQ_500;
} else {
/* trim to limits */
if (freq < ITE_LCF_MIN_CARRIER_FREQ)
freq = ITE_LCF_MIN_CARRIER_FREQ;
if (freq > ITE_LCF_MAX_CARRIER_FREQ)
freq = ITE_LCF_MAX_CARRIER_FREQ;
/* convert to kHz and subtract the base freq */
freq =
DIV_ROUND_CLOSEST(freq - ITE_LCF_MIN_CARRIER_FREQ,
1000);
return (u8) freq;
}
}
/* get the bits required to program the pulse with in TXMPW */
static u8 ite_get_pulse_width_bits(unsigned int freq, int duty_cycle)
{
unsigned long period_ns, on_ns;
/* sanitize freq into range */
if (freq < ITE_LCF_MIN_CARRIER_FREQ)
freq = ITE_LCF_MIN_CARRIER_FREQ;
if (freq > ITE_HCF_MAX_CARRIER_FREQ)
freq = ITE_HCF_MAX_CARRIER_FREQ;
period_ns = 1000000000UL / freq;
on_ns = period_ns * duty_cycle / 100;
if (ite_is_high_carrier_freq(freq)) {
if (on_ns < 750)
return ITE_TXMPW_A;
else if (on_ns < 850)
return ITE_TXMPW_B;
else if (on_ns < 950)
return ITE_TXMPW_C;
else if (on_ns < 1080)
return ITE_TXMPW_D;
else
return ITE_TXMPW_E;
} else {
if (on_ns < 6500)
return ITE_TXMPW_A;
else if (on_ns < 7850)
return ITE_TXMPW_B;
else if (on_ns < 9650)
return ITE_TXMPW_C;
else if (on_ns < 11950)
return ITE_TXMPW_D;
else
return ITE_TXMPW_E;
}
}
/* decode raw bytes as received by the hardware, and push them to the ir-core
* layer */
static void ite_decode_bytes(struct ite_dev *dev, const u8 * data, int
length)
{
u32 sample_period;
unsigned long *ldata;
unsigned int next_one, next_zero, size;
DEFINE_IR_RAW_EVENT(ev);
if (length == 0)
return;
sample_period = dev->params.sample_period;
ldata = (unsigned long *)data;
size = length << 3;
next_one = find_next_bit_le(ldata, size, 0);
if (next_one > 0) {
ev.pulse = true;
ev.duration =
ITE_BITS_TO_NS(next_one, sample_period);
ir_raw_event_store_with_filter(dev->rdev, &ev);
}
while (next_one < size) {
next_zero = find_next_zero_bit_le(ldata, size, next_one + 1);
ev.pulse = false;
ev.duration = ITE_BITS_TO_NS(next_zero - next_one, sample_period);
ir_raw_event_store_with_filter(dev->rdev, &ev);
if (next_zero < size) {
next_one =
find_next_bit_le(ldata,
size,
next_zero + 1);
ev.pulse = true;
ev.duration =
ITE_BITS_TO_NS(next_one - next_zero,
sample_period);
ir_raw_event_store_with_filter
(dev->rdev, &ev);
} else
next_one = size;
}
ir_raw_event_handle(dev->rdev);
ite_dbg_verbose("decoded %d bytes.", length);
}
/* set all the rx/tx carrier parameters; this must be called with the device
* spinlock held */
static void ite_set_carrier_params(struct ite_dev *dev)
{
unsigned int freq, low_freq, high_freq;
int allowance;
bool use_demodulator;
bool for_tx = dev->transmitting;
ite_dbg("%s called", __func__);
if (for_tx) {
/* we don't need no stinking calculations */
freq = dev->params.tx_carrier_freq;
allowance = ITE_RXDCR_DEFAULT;
use_demodulator = false;
} else {
low_freq = dev->params.rx_low_carrier_freq;
high_freq = dev->params.rx_high_carrier_freq;
if (low_freq == 0) {
/* don't demodulate */
freq =
ITE_DEFAULT_CARRIER_FREQ;
allowance = ITE_RXDCR_DEFAULT;
use_demodulator = false;
} else {
/* calculate the middle freq */
freq = (low_freq + high_freq) / 2;
/* calculate the allowance */
allowance =
DIV_ROUND_CLOSEST(10000 * (high_freq - low_freq),
ITE_RXDCR_PER_10000_STEP
* (high_freq + low_freq));
if (allowance < 1)
allowance = 1;
if (allowance > ITE_RXDCR_MAX)
allowance = ITE_RXDCR_MAX;
}
}
/* set the carrier parameters in a device-dependent way */
dev->params.set_carrier_params(dev, ite_is_high_carrier_freq(freq),
use_demodulator, ite_get_carrier_freq_bits(freq), allowance,
ite_get_pulse_width_bits(freq, dev->params.tx_duty_cycle));
}
/* interrupt service routine for incoming and outgoing CIR data */
static irqreturn_t ite_cir_isr(int irq, void *data)
{
struct ite_dev *dev = data;
unsigned long flags;
irqreturn_t ret = IRQ_RETVAL(IRQ_NONE);
u8 rx_buf[ITE_RX_FIFO_LEN];
int rx_bytes;
int iflags;
ite_dbg_verbose("%s firing", __func__);
/* grab the spinlock */
spin_lock_irqsave(&dev->lock, flags);
/* read the interrupt flags */
iflags = dev->params.get_irq_causes(dev);
/* check for the receive interrupt */
if (iflags & (ITE_IRQ_RX_FIFO | ITE_IRQ_RX_FIFO_OVERRUN)) {
/* read the FIFO bytes */
rx_bytes =
dev->params.get_rx_bytes(dev, rx_buf,
ITE_RX_FIFO_LEN);
if (rx_bytes > 0) {
/* drop the spinlock, since the ir-core layer
* may call us back again through
* ite_s_idle() */
spin_unlock_irqrestore(&dev->
lock,
flags);
/* decode the data we've just received */
ite_decode_bytes(dev, rx_buf,
rx_bytes);
/* reacquire the spinlock */
spin_lock_irqsave(&dev->lock,
flags);
/* mark the interrupt as serviced */
ret = IRQ_RETVAL(IRQ_HANDLED);
}
} else if (iflags & ITE_IRQ_TX_FIFO) {
/* FIFO space available interrupt */
ite_dbg_verbose("got interrupt for TX FIFO");
/* wake any sleeping transmitter */
wake_up_interruptible(&dev->tx_queue);
/* mark the interrupt as serviced */
ret = IRQ_RETVAL(IRQ_HANDLED);
}
/* drop the spinlock */
spin_unlock_irqrestore(&dev->lock, flags);
ite_dbg_verbose("%s done returning %d", __func__, (int)ret);
return ret;
}
/* set the rx carrier freq range, guess it's in Hz... */
static int ite_set_rx_carrier_range(struct rc_dev *rcdev, u32 carrier_low, u32
carrier_high)
{
unsigned long flags;
struct ite_dev *dev = rcdev->priv;
spin_lock_irqsave(&dev->lock, flags);
dev->params.rx_low_carrier_freq = carrier_low;
dev->params.rx_high_carrier_freq = carrier_high;
ite_set_carrier_params(dev);
spin_unlock_irqrestore(&dev->lock, flags);
return 0;
}
/* set the tx carrier freq, guess it's in Hz... */
static int ite_set_tx_carrier(struct rc_dev *rcdev, u32 carrier)
{
unsigned long flags;
struct ite_dev *dev = rcdev->priv;
spin_lock_irqsave(&dev->lock, flags);
dev->params.tx_carrier_freq = carrier;
ite_set_carrier_params(dev);
spin_unlock_irqrestore(&dev->lock, flags);
return 0;
}
/* set the tx duty cycle by controlling the pulse width */
static int ite_set_tx_duty_cycle(struct rc_dev *rcdev, u32 duty_cycle)
{
unsigned long flags;
struct ite_dev *dev = rcdev->priv;
spin_lock_irqsave(&dev->lock, flags);
dev->params.tx_duty_cycle = duty_cycle;
ite_set_carrier_params(dev);
spin_unlock_irqrestore(&dev->lock, flags);
return 0;
}
/* transmit out IR pulses; what you get here is a batch of alternating
* pulse/space/pulse/space lengths that we should write out completely through
* the FIFO, blocking on a full FIFO */
static int ite_tx_ir(struct rc_dev *rcdev, int *txbuf, u32 n)
{
unsigned long flags;
struct ite_dev *dev = rcdev->priv;
bool is_pulse = false;
int remaining_us, fifo_avail, fifo_remaining, last_idx = 0;
int max_rle_us, next_rle_us;
int ret = n;
u8 last_sent[ITE_TX_FIFO_LEN];
u8 val;
ite_dbg("%s called", __func__);
/* clear the array just in case */
memset(last_sent, 0, ARRAY_SIZE(last_sent));
/* n comes in bytes; convert to ints */
n /= sizeof(int);
spin_lock_irqsave(&dev->lock, flags);
/* let everybody know we're now transmitting */
dev->transmitting = true;
/* and set the carrier values for transmission */
ite_set_carrier_params(dev);
/* calculate how much time we can send in one byte */
max_rle_us =
(ITE_BAUDRATE_DIVISOR * dev->params.sample_period *
ITE_TX_MAX_RLE) / 1000;
/* disable the receiver */
dev->params.disable_rx(dev);
/* this is where we'll begin filling in the FIFO, until it's full.
* then we'll just activate the interrupt, wait for it to wake us up
* again, disable it, continue filling the FIFO... until everything
* has been pushed out */
fifo_avail =
ITE_TX_FIFO_LEN - dev->params.get_tx_used_slots(dev);
while (n > 0 && dev->in_use) {
/* transmit the next sample */
is_pulse = !is_pulse;
remaining_us = *(txbuf++);
n--;
ite_dbg("%s: %ld",
((is_pulse) ? "pulse" : "space"),
(long int)
remaining_us);
/* repeat while the pulse is non-zero length */
while (remaining_us > 0 && dev->in_use) {
if (remaining_us > max_rle_us)
next_rle_us = max_rle_us;
else
next_rle_us = remaining_us;
remaining_us -= next_rle_us;
/* check what's the length we have to pump out */
val = (ITE_TX_MAX_RLE * next_rle_us) / max_rle_us;
/* put it into the sent buffer */
last_sent[last_idx++] = val;
last_idx &= (ITE_TX_FIFO_LEN);
/* encode it for 7 bits */
val = (val - 1) & ITE_TX_RLE_MASK;
/* take into account pulse/space prefix */
if (is_pulse)
val |= ITE_TX_PULSE;
else
val |= ITE_TX_SPACE;
/*
* if we get to 0 available, read again, just in case
* some other slot got freed
*/
if (fifo_avail <= 0)
fifo_avail = ITE_TX_FIFO_LEN - dev->params.get_tx_used_slots(dev);
/* if it's still full */
if (fifo_avail <= 0) {
/* enable the tx interrupt */
dev->params.
enable_tx_interrupt(dev);
/* drop the spinlock */
spin_unlock_irqrestore(&dev->lock, flags);
/* wait for the FIFO to empty enough */
wait_event_interruptible(dev->tx_queue, (fifo_avail = ITE_TX_FIFO_LEN - dev->params.get_tx_used_slots(dev)) >= 8);
/* get the spinlock again */
spin_lock_irqsave(&dev->lock, flags);
/* disable the tx interrupt again. */
dev->params.
disable_tx_interrupt(dev);
}
/* now send the byte through the FIFO */
dev->params.put_tx_byte(dev, val);
fifo_avail--;
}
}
/* wait and don't return until the whole FIFO has been sent out;
* otherwise we could configure the RX carrier params instead of the
* TX ones while the transmission is still being performed! */
fifo_remaining = dev->params.get_tx_used_slots(dev);
remaining_us = 0;
while (fifo_remaining > 0) {
fifo_remaining--;
last_idx--;
last_idx &= (ITE_TX_FIFO_LEN - 1);
remaining_us += last_sent[last_idx];
}
remaining_us = (remaining_us * max_rle_us) / (ITE_TX_MAX_RLE);
/* drop the spinlock while we sleep */
spin_unlock_irqrestore(&dev->lock, flags);
/* sleep remaining_us microseconds */
mdelay(DIV_ROUND_UP(remaining_us, 1000));
/* reacquire the spinlock */
spin_lock_irqsave(&dev->lock, flags);
/* now we're not transmitting anymore */
dev->transmitting = false;
/* and set the carrier values for reception */
ite_set_carrier_params(dev);
/* reenable the receiver */
if (dev->in_use)
dev->params.enable_rx(dev);
/* notify transmission end */
wake_up_interruptible(&dev->tx_ended);
spin_unlock_irqrestore(&dev->lock, flags);
return ret;
}
/* idle the receiver if needed */
static void ite_s_idle(struct rc_dev *rcdev, bool enable)
{
unsigned long flags;
struct ite_dev *dev = rcdev->priv;
ite_dbg("%s called", __func__);
if (enable) {
spin_lock_irqsave(&dev->lock, flags);
dev->params.idle_rx(dev);
spin_unlock_irqrestore(&dev->lock, flags);
}
}
/* IT8712F HW-specific functions */
/* retrieve a bitmask of the current causes for a pending interrupt; this may
* be composed of ITE_IRQ_TX_FIFO, ITE_IRQ_RX_FIFO and ITE_IRQ_RX_FIFO_OVERRUN
* */
static int it87_get_irq_causes(struct ite_dev *dev)
{
u8 iflags;
int ret = 0;
ite_dbg("%s called", __func__);
/* read the interrupt flags */
iflags = inb(dev->cir_addr + IT87_IIR) & IT87_II;
switch (iflags) {
case IT87_II_RXDS:
ret = ITE_IRQ_RX_FIFO;
break;
case IT87_II_RXFO:
ret = ITE_IRQ_RX_FIFO_OVERRUN;
break;
case IT87_II_TXLDL:
ret = ITE_IRQ_TX_FIFO;
break;
}
return ret;
}
/* set the carrier parameters; to be called with the spinlock held */
static void it87_set_carrier_params(struct ite_dev *dev, bool high_freq,
bool use_demodulator,
u8 carrier_freq_bits, u8 allowance_bits,
u8 pulse_width_bits)
{
u8 val;
ite_dbg("%s called", __func__);
/* program the RCR register */
val = inb(dev->cir_addr + IT87_RCR)
& ~(IT87_HCFS | IT87_RXEND | IT87_RXDCR);
if (high_freq)
val |= IT87_HCFS;
if (use_demodulator)
val |= IT87_RXEND;
val |= allowance_bits;
outb(val, dev->cir_addr + IT87_RCR);
/* program the TCR2 register */
outb((carrier_freq_bits << IT87_CFQ_SHIFT) | pulse_width_bits,
dev->cir_addr + IT87_TCR2);
}
/* read up to buf_size bytes from the RX FIFO; to be called with the spinlock
* held */
static int it87_get_rx_bytes(struct ite_dev *dev, u8 * buf, int buf_size)
{
int fifo, read = 0;
ite_dbg("%s called", __func__);
/* read how many bytes are still in the FIFO */
fifo = inb(dev->cir_addr + IT87_RSR) & IT87_RXFBC;
while (fifo > 0 && buf_size > 0) {
*(buf++) = inb(dev->cir_addr + IT87_DR);
fifo--;
read++;
buf_size--;
}
return read;
}
/* return how many bytes are still in the FIFO; this will be called
* with the device spinlock NOT HELD while waiting for the TX FIFO to get
* empty; let's expect this won't be a problem */
static int it87_get_tx_used_slots(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
return inb(dev->cir_addr + IT87_TSR) & IT87_TXFBC;
}
/* put a byte to the TX fifo; this should be called with the spinlock held */
static void it87_put_tx_byte(struct ite_dev *dev, u8 value)
{
outb(value, dev->cir_addr + IT87_DR);
}
/* idle the receiver so that we won't receive samples until another
pulse is detected; this must be called with the device spinlock held */
static void it87_idle_rx(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable streaming by clearing RXACT writing it as 1 */
outb(inb(dev->cir_addr + IT87_RCR) | IT87_RXACT,
dev->cir_addr + IT87_RCR);
/* clear the FIFO */
outb(inb(dev->cir_addr + IT87_TCR1) | IT87_FIFOCLR,
dev->cir_addr + IT87_TCR1);
}
/* disable the receiver; this must be called with the device spinlock held */
static void it87_disable_rx(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable the receiver interrupts */
outb(inb(dev->cir_addr + IT87_IER) & ~(IT87_RDAIE | IT87_RFOIE),
dev->cir_addr + IT87_IER);
/* disable the receiver */
outb(inb(dev->cir_addr + IT87_RCR) & ~IT87_RXEN,
dev->cir_addr + IT87_RCR);
/* clear the FIFO and RXACT (actually RXACT should have been cleared
* in the previous outb() call) */
it87_idle_rx(dev);
}
/* enable the receiver; this must be called with the device spinlock held */
static void it87_enable_rx(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* enable the receiver by setting RXEN */
outb(inb(dev->cir_addr + IT87_RCR) | IT87_RXEN,
dev->cir_addr + IT87_RCR);
/* just prepare it to idle for the next reception */
it87_idle_rx(dev);
/* enable the receiver interrupts and master enable flag */
outb(inb(dev->cir_addr + IT87_IER) | IT87_RDAIE | IT87_RFOIE | IT87_IEC,
dev->cir_addr + IT87_IER);
}
/* disable the transmitter interrupt; this must be called with the device
* spinlock held */
static void it87_disable_tx_interrupt(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable the transmitter interrupts */
outb(inb(dev->cir_addr + IT87_IER) & ~IT87_TLDLIE,
dev->cir_addr + IT87_IER);
}
/* enable the transmitter interrupt; this must be called with the device
* spinlock held */
static void it87_enable_tx_interrupt(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* enable the transmitter interrupts and master enable flag */
outb(inb(dev->cir_addr + IT87_IER) | IT87_TLDLIE | IT87_IEC,
dev->cir_addr + IT87_IER);
}
/* disable the device; this must be called with the device spinlock held */
static void it87_disable(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* clear out all interrupt enable flags */
outb(inb(dev->cir_addr + IT87_IER) &
~(IT87_IEC | IT87_RFOIE | IT87_RDAIE | IT87_TLDLIE),
dev->cir_addr + IT87_IER);
/* disable the receiver */
it87_disable_rx(dev);
/* erase the FIFO */
outb(IT87_FIFOCLR | inb(dev->cir_addr + IT87_TCR1),
dev->cir_addr + IT87_TCR1);
}
/* initialize the hardware */
static void it87_init_hardware(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* enable just the baud rate divisor register,
disabling all the interrupts at the same time */
outb((inb(dev->cir_addr + IT87_IER) &
~(IT87_IEC | IT87_RFOIE | IT87_RDAIE | IT87_TLDLIE)) | IT87_BR,
dev->cir_addr + IT87_IER);
/* write out the baud rate divisor */
outb(ITE_BAUDRATE_DIVISOR & 0xff, dev->cir_addr + IT87_BDLR);
outb((ITE_BAUDRATE_DIVISOR >> 8) & 0xff, dev->cir_addr + IT87_BDHR);
/* disable the baud rate divisor register again */
outb(inb(dev->cir_addr + IT87_IER) & ~IT87_BR,
dev->cir_addr + IT87_IER);
/* program the RCR register defaults */
outb(ITE_RXDCR_DEFAULT, dev->cir_addr + IT87_RCR);
/* program the TCR1 register */
outb(IT87_TXMPM_DEFAULT | IT87_TXENDF | IT87_TXRLE
| IT87_FIFOTL_DEFAULT | IT87_FIFOCLR,
dev->cir_addr + IT87_TCR1);
/* program the carrier parameters */
ite_set_carrier_params(dev);
}
/* IT8512F on ITE8708 HW-specific functions */
/* retrieve a bitmask of the current causes for a pending interrupt; this may
* be composed of ITE_IRQ_TX_FIFO, ITE_IRQ_RX_FIFO and ITE_IRQ_RX_FIFO_OVERRUN
* */
static int it8708_get_irq_causes(struct ite_dev *dev)
{
u8 iflags;
int ret = 0;
ite_dbg("%s called", __func__);
/* read the interrupt flags */
iflags = inb(dev->cir_addr + IT8708_C0IIR);
if (iflags & IT85_TLDLI)
ret |= ITE_IRQ_TX_FIFO;
if (iflags & IT85_RDAI)
ret |= ITE_IRQ_RX_FIFO;
if (iflags & IT85_RFOI)
ret |= ITE_IRQ_RX_FIFO_OVERRUN;
return ret;
}
/* set the carrier parameters; to be called with the spinlock held */
static void it8708_set_carrier_params(struct ite_dev *dev, bool high_freq,
bool use_demodulator,
u8 carrier_freq_bits, u8 allowance_bits,
u8 pulse_width_bits)
{
u8 val;
ite_dbg("%s called", __func__);
/* program the C0CFR register, with HRAE=1 */
outb(inb(dev->cir_addr + IT8708_BANKSEL) | IT8708_HRAE,
dev->cir_addr + IT8708_BANKSEL);
val = (inb(dev->cir_addr + IT8708_C0CFR)
& ~(IT85_HCFS | IT85_CFQ)) | carrier_freq_bits;
if (high_freq)
val |= IT85_HCFS;
outb(val, dev->cir_addr + IT8708_C0CFR);
outb(inb(dev->cir_addr + IT8708_BANKSEL) & ~IT8708_HRAE,
dev->cir_addr + IT8708_BANKSEL);
/* program the C0RCR register */
val = inb(dev->cir_addr + IT8708_C0RCR)
& ~(IT85_RXEND | IT85_RXDCR);
if (use_demodulator)
val |= IT85_RXEND;
val |= allowance_bits;
outb(val, dev->cir_addr + IT8708_C0RCR);
/* program the C0TCR register */
val = inb(dev->cir_addr + IT8708_C0TCR) & ~IT85_TXMPW;
val |= pulse_width_bits;
outb(val, dev->cir_addr + IT8708_C0TCR);
}
/* read up to buf_size bytes from the RX FIFO; to be called with the spinlock
* held */
static int it8708_get_rx_bytes(struct ite_dev *dev, u8 * buf, int buf_size)
{
int fifo, read = 0;
ite_dbg("%s called", __func__);
/* read how many bytes are still in the FIFO */
fifo = inb(dev->cir_addr + IT8708_C0RFSR) & IT85_RXFBC;
while (fifo > 0 && buf_size > 0) {
*(buf++) = inb(dev->cir_addr + IT8708_C0DR);
fifo--;
read++;
buf_size--;
}
return read;
}
/* return how many bytes are still in the FIFO; this will be called
* with the device spinlock NOT HELD while waiting for the TX FIFO to get
* empty; let's expect this won't be a problem */
static int it8708_get_tx_used_slots(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
return inb(dev->cir_addr + IT8708_C0TFSR) & IT85_TXFBC;
}
/* put a byte to the TX fifo; this should be called with the spinlock held */
static void it8708_put_tx_byte(struct ite_dev *dev, u8 value)
{
outb(value, dev->cir_addr + IT8708_C0DR);
}
/* idle the receiver so that we won't receive samples until another
pulse is detected; this must be called with the device spinlock held */
static void it8708_idle_rx(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable streaming by clearing RXACT writing it as 1 */
outb(inb(dev->cir_addr + IT8708_C0RCR) | IT85_RXACT,
dev->cir_addr + IT8708_C0RCR);
/* clear the FIFO */
outb(inb(dev->cir_addr + IT8708_C0MSTCR) | IT85_FIFOCLR,
dev->cir_addr + IT8708_C0MSTCR);
}
/* disable the receiver; this must be called with the device spinlock held */
static void it8708_disable_rx(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable the receiver interrupts */
outb(inb(dev->cir_addr + IT8708_C0IER) &
~(IT85_RDAIE | IT85_RFOIE),
dev->cir_addr + IT8708_C0IER);
/* disable the receiver */
outb(inb(dev->cir_addr + IT8708_C0RCR) & ~IT85_RXEN,
dev->cir_addr + IT8708_C0RCR);
/* clear the FIFO and RXACT (actually RXACT should have been cleared
* in the previous outb() call) */
it8708_idle_rx(dev);
}
/* enable the receiver; this must be called with the device spinlock held */
static void it8708_enable_rx(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* enable the receiver by setting RXEN */
outb(inb(dev->cir_addr + IT8708_C0RCR) | IT85_RXEN,
dev->cir_addr + IT8708_C0RCR);
/* just prepare it to idle for the next reception */
it8708_idle_rx(dev);
/* enable the receiver interrupts and master enable flag */
outb(inb(dev->cir_addr + IT8708_C0IER)
|IT85_RDAIE | IT85_RFOIE | IT85_IEC,
dev->cir_addr + IT8708_C0IER);
}
/* disable the transmitter interrupt; this must be called with the device
* spinlock held */
static void it8708_disable_tx_interrupt(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable the transmitter interrupts */
outb(inb(dev->cir_addr + IT8708_C0IER) & ~IT85_TLDLIE,
dev->cir_addr + IT8708_C0IER);
}
/* enable the transmitter interrupt; this must be called with the device
* spinlock held */
static void it8708_enable_tx_interrupt(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* enable the transmitter interrupts and master enable flag */
outb(inb(dev->cir_addr + IT8708_C0IER)
|IT85_TLDLIE | IT85_IEC,
dev->cir_addr + IT8708_C0IER);
}
/* disable the device; this must be called with the device spinlock held */
static void it8708_disable(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* clear out all interrupt enable flags */
outb(inb(dev->cir_addr + IT8708_C0IER) &
~(IT85_IEC | IT85_RFOIE | IT85_RDAIE | IT85_TLDLIE),
dev->cir_addr + IT8708_C0IER);
/* disable the receiver */
it8708_disable_rx(dev);
/* erase the FIFO */
outb(IT85_FIFOCLR | inb(dev->cir_addr + IT8708_C0MSTCR),
dev->cir_addr + IT8708_C0MSTCR);
}
/* initialize the hardware */
static void it8708_init_hardware(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable all the interrupts */
outb(inb(dev->cir_addr + IT8708_C0IER) &
~(IT85_IEC | IT85_RFOIE | IT85_RDAIE | IT85_TLDLIE),
dev->cir_addr + IT8708_C0IER);
/* program the baud rate divisor */
outb(inb(dev->cir_addr + IT8708_BANKSEL) | IT8708_HRAE,
dev->cir_addr + IT8708_BANKSEL);
outb(ITE_BAUDRATE_DIVISOR & 0xff, dev->cir_addr + IT8708_C0BDLR);
outb((ITE_BAUDRATE_DIVISOR >> 8) & 0xff,
dev->cir_addr + IT8708_C0BDHR);
outb(inb(dev->cir_addr + IT8708_BANKSEL) & ~IT8708_HRAE,
dev->cir_addr + IT8708_BANKSEL);
/* program the C0MSTCR register defaults */
outb((inb(dev->cir_addr + IT8708_C0MSTCR) &
~(IT85_ILSEL | IT85_ILE | IT85_FIFOTL |
IT85_FIFOCLR | IT85_RESET)) |
IT85_FIFOTL_DEFAULT,
dev->cir_addr + IT8708_C0MSTCR);
/* program the C0RCR register defaults */
outb((inb(dev->cir_addr + IT8708_C0RCR) &
~(IT85_RXEN | IT85_RDWOS | IT85_RXEND |
IT85_RXACT | IT85_RXDCR)) |
ITE_RXDCR_DEFAULT,
dev->cir_addr + IT8708_C0RCR);
/* program the C0TCR register defaults */
outb((inb(dev->cir_addr + IT8708_C0TCR) &
~(IT85_TXMPM | IT85_TXMPW))
|IT85_TXRLE | IT85_TXENDF |
IT85_TXMPM_DEFAULT | IT85_TXMPW_DEFAULT,
dev->cir_addr + IT8708_C0TCR);
/* program the carrier parameters */
ite_set_carrier_params(dev);
}
/* IT8512F on ITE8709 HW-specific functions */
/* read a byte from the SRAM module */
static inline u8 it8709_rm(struct ite_dev *dev, int index)
{
outb(index, dev->cir_addr + IT8709_RAM_IDX);
return inb(dev->cir_addr + IT8709_RAM_VAL);
}
/* write a byte to the SRAM module */
static inline void it8709_wm(struct ite_dev *dev, u8 val, int index)
{
outb(index, dev->cir_addr + IT8709_RAM_IDX);
outb(val, dev->cir_addr + IT8709_RAM_VAL);
}
static void it8709_wait(struct ite_dev *dev)
{
int i = 0;
/*
* loop until device tells it's ready to continue
* iterations count is usually ~750 but can sometimes achieve 13000
*/
for (i = 0; i < 15000; i++) {
udelay(2);
if (it8709_rm(dev, IT8709_MODE) == IT8709_IDLE)
break;
}
}
/* read the value of a CIR register */
static u8 it8709_rr(struct ite_dev *dev, int index)
{
/* just wait in case the previous access was a write */
it8709_wait(dev);
it8709_wm(dev, index, IT8709_REG_IDX);
it8709_wm(dev, IT8709_READ, IT8709_MODE);
/* wait for the read data to be available */
it8709_wait(dev);
/* return the read value */
return it8709_rm(dev, IT8709_REG_VAL);
}
/* write the value of a CIR register */
static void it8709_wr(struct ite_dev *dev, u8 val, int index)
{
/* we wait before writing, and not afterwards, since this allows us to
* pipeline the host CPU with the microcontroller */
it8709_wait(dev);
it8709_wm(dev, val, IT8709_REG_VAL);
it8709_wm(dev, index, IT8709_REG_IDX);
it8709_wm(dev, IT8709_WRITE, IT8709_MODE);
}
/* retrieve a bitmask of the current causes for a pending interrupt; this may
* be composed of ITE_IRQ_TX_FIFO, ITE_IRQ_RX_FIFO and ITE_IRQ_RX_FIFO_OVERRUN
* */
static int it8709_get_irq_causes(struct ite_dev *dev)
{
u8 iflags;
int ret = 0;
ite_dbg("%s called", __func__);
/* read the interrupt flags */
iflags = it8709_rm(dev, IT8709_IIR);
if (iflags & IT85_TLDLI)
ret |= ITE_IRQ_TX_FIFO;
if (iflags & IT85_RDAI)
ret |= ITE_IRQ_RX_FIFO;
if (iflags & IT85_RFOI)
ret |= ITE_IRQ_RX_FIFO_OVERRUN;
return ret;
}
/* set the carrier parameters; to be called with the spinlock held */
static void it8709_set_carrier_params(struct ite_dev *dev, bool high_freq,
bool use_demodulator,
u8 carrier_freq_bits, u8 allowance_bits,
u8 pulse_width_bits)
{
u8 val;
ite_dbg("%s called", __func__);
val = (it8709_rr(dev, IT85_C0CFR)
&~(IT85_HCFS | IT85_CFQ)) |
carrier_freq_bits;
if (high_freq)
val |= IT85_HCFS;
it8709_wr(dev, val, IT85_C0CFR);
/* program the C0RCR register */
val = it8709_rr(dev, IT85_C0RCR)
& ~(IT85_RXEND | IT85_RXDCR);
if (use_demodulator)
val |= IT85_RXEND;
val |= allowance_bits;
it8709_wr(dev, val, IT85_C0RCR);
/* program the C0TCR register */
val = it8709_rr(dev, IT85_C0TCR) & ~IT85_TXMPW;
val |= pulse_width_bits;
it8709_wr(dev, val, IT85_C0TCR);
}
/* read up to buf_size bytes from the RX FIFO; to be called with the spinlock
* held */
static int it8709_get_rx_bytes(struct ite_dev *dev, u8 * buf, int buf_size)
{
int fifo, read = 0;
ite_dbg("%s called", __func__);
/* read how many bytes are still in the FIFO */
fifo = it8709_rm(dev, IT8709_RFSR) & IT85_RXFBC;
while (fifo > 0 && buf_size > 0) {
*(buf++) = it8709_rm(dev, IT8709_FIFO + read);
fifo--;
read++;
buf_size--;
}
/* 'clear' the FIFO by setting the writing index to 0; this is
* completely bound to be racy, but we can't help it, since it's a
* limitation of the protocol */
it8709_wm(dev, 0, IT8709_RFSR);
return read;
}
/* return how many bytes are still in the FIFO; this will be called
* with the device spinlock NOT HELD while waiting for the TX FIFO to get
* empty; let's expect this won't be a problem */
static int it8709_get_tx_used_slots(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
return it8709_rr(dev, IT85_C0TFSR) & IT85_TXFBC;
}
/* put a byte to the TX fifo; this should be called with the spinlock held */
static void it8709_put_tx_byte(struct ite_dev *dev, u8 value)
{
it8709_wr(dev, value, IT85_C0DR);
}
/* idle the receiver so that we won't receive samples until another
pulse is detected; this must be called with the device spinlock held */
static void it8709_idle_rx(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable streaming by clearing RXACT writing it as 1 */
it8709_wr(dev, it8709_rr(dev, IT85_C0RCR) | IT85_RXACT,
IT85_C0RCR);
/* clear the FIFO */
it8709_wr(dev, it8709_rr(dev, IT85_C0MSTCR) | IT85_FIFOCLR,
IT85_C0MSTCR);
}
/* disable the receiver; this must be called with the device spinlock held */
static void it8709_disable_rx(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable the receiver interrupts */
it8709_wr(dev, it8709_rr(dev, IT85_C0IER) &
~(IT85_RDAIE | IT85_RFOIE),
IT85_C0IER);
/* disable the receiver */
it8709_wr(dev, it8709_rr(dev, IT85_C0RCR) & ~IT85_RXEN,
IT85_C0RCR);
/* clear the FIFO and RXACT (actually RXACT should have been cleared
* in the previous it8709_wr(dev, ) call) */
it8709_idle_rx(dev);
}
/* enable the receiver; this must be called with the device spinlock held */
static void it8709_enable_rx(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* enable the receiver by setting RXEN */
it8709_wr(dev, it8709_rr(dev, IT85_C0RCR) | IT85_RXEN,
IT85_C0RCR);
/* just prepare it to idle for the next reception */
it8709_idle_rx(dev);
/* enable the receiver interrupts and master enable flag */
it8709_wr(dev, it8709_rr(dev, IT85_C0IER)
|IT85_RDAIE | IT85_RFOIE | IT85_IEC,
IT85_C0IER);
}
/* disable the transmitter interrupt; this must be called with the device
* spinlock held */
static void it8709_disable_tx_interrupt(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable the transmitter interrupts */
it8709_wr(dev, it8709_rr(dev, IT85_C0IER) & ~IT85_TLDLIE,
IT85_C0IER);
}
/* enable the transmitter interrupt; this must be called with the device
* spinlock held */
static void it8709_enable_tx_interrupt(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* enable the transmitter interrupts and master enable flag */
it8709_wr(dev, it8709_rr(dev, IT85_C0IER)
|IT85_TLDLIE | IT85_IEC,
IT85_C0IER);
}
/* disable the device; this must be called with the device spinlock held */
static void it8709_disable(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* clear out all interrupt enable flags */
it8709_wr(dev,
it8709_rr(dev,
IT85_C0IER) & ~(IT85_IEC | IT85_RFOIE |
IT85_RDAIE |
IT85_TLDLIE), IT85_C0IER);
/* disable the receiver */
it8709_disable_rx(dev);
/* erase the FIFO */
it8709_wr(dev, IT85_FIFOCLR | it8709_rr(dev, IT85_C0MSTCR),
IT85_C0MSTCR);
}
/* initialize the hardware */
static void it8709_init_hardware(struct ite_dev *dev)
{
ite_dbg("%s called", __func__);
/* disable all the interrupts */
it8709_wr(dev,
it8709_rr(dev,
IT85_C0IER) & ~(IT85_IEC | IT85_RFOIE |
IT85_RDAIE |
IT85_TLDLIE), IT85_C0IER);
/* program the baud rate divisor */
it8709_wr(dev, ITE_BAUDRATE_DIVISOR & 0xff, IT85_C0BDLR);
it8709_wr(dev, (ITE_BAUDRATE_DIVISOR >> 8) & 0xff,
IT85_C0BDHR);
/* program the C0MSTCR register defaults */
it8709_wr(dev, (it8709_rr(dev, IT85_C0MSTCR) & ~(IT85_ILSEL |
IT85_ILE
| IT85_FIFOTL
|
IT85_FIFOCLR
|
IT85_RESET))
| IT85_FIFOTL_DEFAULT, IT85_C0MSTCR);
/* program the C0RCR register defaults */
it8709_wr(dev,
(it8709_rr(dev, IT85_C0RCR) &
~(IT85_RXEN | IT85_RDWOS | IT85_RXEND
| IT85_RXACT | IT85_RXDCR)) |
ITE_RXDCR_DEFAULT, IT85_C0RCR);
/* program the C0TCR register defaults */
it8709_wr(dev, (it8709_rr(dev, IT85_C0TCR)
&~(IT85_TXMPM | IT85_TXMPW))
|IT85_TXRLE | IT85_TXENDF |
IT85_TXMPM_DEFAULT |
IT85_TXMPW_DEFAULT, IT85_C0TCR);
/* program the carrier parameters */
ite_set_carrier_params(dev);
}
/* generic hardware setup/teardown code */
/* activate the device for use */
static int ite_open(struct rc_dev *rcdev)
{
struct ite_dev *dev = rcdev->priv;
unsigned long flags;
ite_dbg("%s called", __func__);
spin_lock_irqsave(&dev->lock, flags);
dev->in_use = true;
/* enable the receiver */
dev->params.enable_rx(dev);
spin_unlock_irqrestore(&dev->lock, flags);
return 0;
}
/* deactivate the device for use */
static void ite_close(struct rc_dev *rcdev)
{
struct ite_dev *dev = rcdev->priv;
unsigned long flags;
ite_dbg("%s called", __func__);
spin_lock_irqsave(&dev->lock, flags);
dev->in_use = false;
/* wait for any transmission to end */
spin_unlock_irqrestore(&dev->lock, flags);
wait_event_interruptible(dev->tx_ended, !dev->transmitting);
spin_lock_irqsave(&dev->lock, flags);
dev->params.disable(dev);
spin_unlock_irqrestore(&dev->lock, flags);
}
/* supported models and their parameters */
static const struct ite_dev_params ite_dev_descs[] = {
{ /* 0: ITE8704 */
.model = "ITE8704 CIR transceiver",
.io_region_size = IT87_IOREG_LENGTH,
.hw_tx_capable = true,
.sample_period = (u32) (1000000000ULL / 115200),
.tx_carrier_freq = 38000,
.tx_duty_cycle = 33,
.rx_low_carrier_freq = 0,
.rx_high_carrier_freq = 0,
/* operations */
.get_irq_causes = it87_get_irq_causes,
.enable_rx = it87_enable_rx,
.idle_rx = it87_idle_rx,
.disable_rx = it87_idle_rx,
.get_rx_bytes = it87_get_rx_bytes,
.enable_tx_interrupt = it87_enable_tx_interrupt,
.disable_tx_interrupt = it87_disable_tx_interrupt,
.get_tx_used_slots = it87_get_tx_used_slots,
.put_tx_byte = it87_put_tx_byte,
.disable = it87_disable,
.init_hardware = it87_init_hardware,
.set_carrier_params = it87_set_carrier_params,
},
{ /* 1: ITE8713 */
.model = "ITE8713 CIR transceiver",
.io_region_size = IT87_IOREG_LENGTH,
.hw_tx_capable = true,
.sample_period = (u32) (1000000000ULL / 115200),
.tx_carrier_freq = 38000,
.tx_duty_cycle = 33,
.rx_low_carrier_freq = 0,
.rx_high_carrier_freq = 0,
/* operations */
.get_irq_causes = it87_get_irq_causes,
.enable_rx = it87_enable_rx,
.idle_rx = it87_idle_rx,
.disable_rx = it87_idle_rx,
.get_rx_bytes = it87_get_rx_bytes,
.enable_tx_interrupt = it87_enable_tx_interrupt,
.disable_tx_interrupt = it87_disable_tx_interrupt,
.get_tx_used_slots = it87_get_tx_used_slots,
.put_tx_byte = it87_put_tx_byte,
.disable = it87_disable,
.init_hardware = it87_init_hardware,
.set_carrier_params = it87_set_carrier_params,
},
{ /* 2: ITE8708 */
.model = "ITE8708 CIR transceiver",
.io_region_size = IT8708_IOREG_LENGTH,
.hw_tx_capable = true,
.sample_period = (u32) (1000000000ULL / 115200),
.tx_carrier_freq = 38000,
.tx_duty_cycle = 33,
.rx_low_carrier_freq = 0,
.rx_high_carrier_freq = 0,
/* operations */
.get_irq_causes = it8708_get_irq_causes,
.enable_rx = it8708_enable_rx,
.idle_rx = it8708_idle_rx,
.disable_rx = it8708_idle_rx,
.get_rx_bytes = it8708_get_rx_bytes,
.enable_tx_interrupt = it8708_enable_tx_interrupt,
.disable_tx_interrupt =
it8708_disable_tx_interrupt,
.get_tx_used_slots = it8708_get_tx_used_slots,
.put_tx_byte = it8708_put_tx_byte,
.disable = it8708_disable,
.init_hardware = it8708_init_hardware,
.set_carrier_params = it8708_set_carrier_params,
},
{ /* 3: ITE8709 */
.model = "ITE8709 CIR transceiver",
.io_region_size = IT8709_IOREG_LENGTH,
.hw_tx_capable = true,
.sample_period = (u32) (1000000000ULL / 115200),
.tx_carrier_freq = 38000,
.tx_duty_cycle = 33,
.rx_low_carrier_freq = 0,
.rx_high_carrier_freq = 0,
/* operations */
.get_irq_causes = it8709_get_irq_causes,
.enable_rx = it8709_enable_rx,
.idle_rx = it8709_idle_rx,
.disable_rx = it8709_idle_rx,
.get_rx_bytes = it8709_get_rx_bytes,
.enable_tx_interrupt = it8709_enable_tx_interrupt,
.disable_tx_interrupt =
it8709_disable_tx_interrupt,
.get_tx_used_slots = it8709_get_tx_used_slots,
.put_tx_byte = it8709_put_tx_byte,
.disable = it8709_disable,
.init_hardware = it8709_init_hardware,
.set_carrier_params = it8709_set_carrier_params,
},
};
static const struct pnp_device_id ite_ids[] = {
{"ITE8704", 0}, /* Default model */
{"ITE8713", 1}, /* CIR found in EEEBox 1501U */
{"ITE8708", 2}, /* Bridged IT8512 */
{"ITE8709", 3}, /* SRAM-Bridged IT8512 */
{"", 0},
};
/* allocate memory, probe hardware, and initialize everything */
static int ite_probe(struct pnp_dev *pdev, const struct pnp_device_id
*dev_id)
{
const struct ite_dev_params *dev_desc = NULL;
struct ite_dev *itdev = NULL;
struct rc_dev *rdev = NULL;
int ret = -ENOMEM;
int model_no;
ite_dbg("%s called", __func__);
itdev = kzalloc(sizeof(struct ite_dev), GFP_KERNEL);
if (!itdev)
return ret;
/* input device for IR remote (and tx) */
rdev = rc_allocate_device();
if (!rdev)
goto failure;
ret = -ENODEV;
/* get the model number */
model_no = (int)dev_id->driver_data;
ite_pr(KERN_NOTICE, "Auto-detected model: %s\n",
ite_dev_descs[model_no].model);
if (model_number >= 0 && model_number < ARRAY_SIZE(ite_dev_descs)) {
model_no = model_number;
ite_pr(KERN_NOTICE, "The model has been fixed by a module "
"parameter.");
}
ite_pr(KERN_NOTICE, "Using model: %s\n", ite_dev_descs[model_no].model);
/* get the description for the device */
dev_desc = &ite_dev_descs[model_no];
/* validate pnp resources */
if (!pnp_port_valid(pdev, 0) ||
pnp_port_len(pdev, 0) != dev_desc->io_region_size) {
dev_err(&pdev->dev, "IR PNP Port not valid!\n");
goto failure;
}
if (!pnp_irq_valid(pdev, 0)) {
dev_err(&pdev->dev, "PNP IRQ not valid!\n");
goto failure;
}
/* store resource values */
itdev->cir_addr = pnp_port_start(pdev, 0);
itdev->cir_irq = pnp_irq(pdev, 0);
/* initialize spinlocks */
spin_lock_init(&itdev->lock);
/* initialize raw event */
init_ir_raw_event(&itdev->rawir);
ret = -EBUSY;
/* now claim resources */
if (!request_region(itdev->cir_addr,
dev_desc->io_region_size, ITE_DRIVER_NAME))
goto failure;
if (request_irq(itdev->cir_irq, ite_cir_isr, IRQF_SHARED,
ITE_DRIVER_NAME, (void *)itdev))
goto failure;
/* set driver data into the pnp device */
pnp_set_drvdata(pdev, itdev);
itdev->pdev = pdev;
/* initialize waitqueues for transmission */
init_waitqueue_head(&itdev->tx_queue);
init_waitqueue_head(&itdev->tx_ended);
/* copy model-specific parameters */
itdev->params = *dev_desc;
/* apply any overrides */
if (sample_period > 0)
itdev->params.sample_period = sample_period;
if (tx_carrier_freq > 0)
itdev->params.tx_carrier_freq = tx_carrier_freq;
if (tx_duty_cycle > 0 && tx_duty_cycle <= 100)
itdev->params.tx_duty_cycle = tx_duty_cycle;
if (rx_low_carrier_freq > 0)
itdev->params.rx_low_carrier_freq = rx_low_carrier_freq;
if (rx_high_carrier_freq > 0)
itdev->params.rx_high_carrier_freq = rx_high_carrier_freq;
/* print out parameters */
ite_pr(KERN_NOTICE, "TX-capable: %d\n", (int)
itdev->params.hw_tx_capable);
ite_pr(KERN_NOTICE, "Sample period (ns): %ld\n", (long)
itdev->params.sample_period);
ite_pr(KERN_NOTICE, "TX carrier frequency (Hz): %d\n", (int)
itdev->params.tx_carrier_freq);
ite_pr(KERN_NOTICE, "TX duty cycle (%%): %d\n", (int)
itdev->params.tx_duty_cycle);
ite_pr(KERN_NOTICE, "RX low carrier frequency (Hz): %d\n", (int)
itdev->params.rx_low_carrier_freq);
ite_pr(KERN_NOTICE, "RX high carrier frequency (Hz): %d\n", (int)
itdev->params.rx_high_carrier_freq);
/* set up hardware initial state */
itdev->params.init_hardware(itdev);
/* set up ir-core props */
rdev->priv = itdev;
rdev->driver_type = RC_DRIVER_IR_RAW;
rdev->allowed_protos = RC_TYPE_ALL;
rdev->open = ite_open;
rdev->close = ite_close;
rdev->s_idle = ite_s_idle;
rdev->s_rx_carrier_range = ite_set_rx_carrier_range;
rdev->min_timeout = ITE_MIN_IDLE_TIMEOUT;
rdev->max_timeout = ITE_MAX_IDLE_TIMEOUT;
rdev->timeout = ITE_IDLE_TIMEOUT;
rdev->rx_resolution = ITE_BAUDRATE_DIVISOR *
itdev->params.sample_period;
rdev->tx_resolution = ITE_BAUDRATE_DIVISOR *
itdev->params.sample_period;
/* set up transmitter related values if needed */
if (itdev->params.hw_tx_capable) {
rdev->tx_ir = ite_tx_ir;
rdev->s_tx_carrier = ite_set_tx_carrier;
rdev->s_tx_duty_cycle = ite_set_tx_duty_cycle;
}
rdev->input_name = dev_desc->model;
rdev->input_id.bustype = BUS_HOST;
rdev->input_id.vendor = PCI_VENDOR_ID_ITE;
rdev->input_id.product = 0;
rdev->input_id.version = 0;
rdev->driver_name = ITE_DRIVER_NAME;
rdev->map_name = RC_MAP_RC6_MCE;
ret = rc_register_device(rdev);
if (ret)
goto failure;
itdev->rdev = rdev;
ite_pr(KERN_NOTICE, "driver has been successfully loaded\n");
return 0;
failure:
if (itdev->cir_irq)
free_irq(itdev->cir_irq, itdev);
if (itdev->cir_addr)
release_region(itdev->cir_addr, itdev->params.io_region_size);
rc_free_device(rdev);
kfree(itdev);
return ret;
}
static void __devexit ite_remove(struct pnp_dev *pdev)
{
struct ite_dev *dev = pnp_get_drvdata(pdev);
unsigned long flags;
ite_dbg("%s called", __func__);
spin_lock_irqsave(&dev->lock, flags);
/* disable hardware */
dev->params.disable(dev);
spin_unlock_irqrestore(&dev->lock, flags);
/* free resources */
free_irq(dev->cir_irq, dev);
release_region(dev->cir_addr, dev->params.io_region_size);
rc_unregister_device(dev->rdev);
kfree(dev);
}
static int ite_suspend(struct pnp_dev *pdev, pm_message_t state)
{
struct ite_dev *dev = pnp_get_drvdata(pdev);
unsigned long flags;
ite_dbg("%s called", __func__);
spin_lock_irqsave(&dev->lock, flags);
/* disable all interrupts */
dev->params.disable(dev);
spin_unlock_irqrestore(&dev->lock, flags);
return 0;
}
static int ite_resume(struct pnp_dev *pdev)
{
int ret = 0;
struct ite_dev *dev = pnp_get_drvdata(pdev);
unsigned long flags;
ite_dbg("%s called", __func__);
spin_lock_irqsave(&dev->lock, flags);
if (dev->transmitting) {
/* wake up the transmitter */
wake_up_interruptible(&dev->tx_queue);
} else {
/* enable the receiver */
dev->params.enable_rx(dev);
}
spin_unlock_irqrestore(&dev->lock, flags);
return ret;
}
static void ite_shutdown(struct pnp_dev *pdev)
{
struct ite_dev *dev = pnp_get_drvdata(pdev);
unsigned long flags;
ite_dbg("%s called", __func__);
spin_lock_irqsave(&dev->lock, flags);
/* disable all interrupts */
dev->params.disable(dev);
spin_unlock_irqrestore(&dev->lock, flags);
}
static struct pnp_driver ite_driver = {
.name = ITE_DRIVER_NAME,
.id_table = ite_ids,
.probe = ite_probe,
.remove = __devexit_p(ite_remove),
.suspend = ite_suspend,
.resume = ite_resume,
.shutdown = ite_shutdown,
};
int ite_init(void)
{
return pnp_register_driver(&ite_driver);
}
void ite_exit(void)
{
pnp_unregister_driver(&ite_driver);
}
MODULE_DEVICE_TABLE(pnp, ite_ids);
MODULE_DESCRIPTION("ITE Tech Inc. IT8712F/ITE8512F CIR driver");
MODULE_AUTHOR("Juan J. Garcia de Soria <skandalfo@gmail.com>");
MODULE_LICENSE("GPL");
module_init(ite_init);
module_exit(ite_exit);
|