cregit-Linux how code gets into the kernel

Release 4.7 drivers/staging/media/lirc/lirc_sir.c

/*
 * LIRC SIR driver, (C) 2000 Milan Pikula <www@fornax.sk>
 *
 * lirc_sir - Device driver for use with SIR (serial infra red)
 * mode of IrDA on many notebooks.
 *
 *  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
 *
 *
 * 2000/09/16 Frank Przybylski <mail@frankprzybylski.de> :
 *  added timeout and relaxed pulse detection, removed gap bug
 *
 * 2000/12/15 Christoph Bartelmus <lirc@bartelmus.de> :
 *   added support for Tekram Irmate 210 (sending does not work yet,
 *   kind of disappointing that nobody was able to implement that
 *   before),
 *   major clean-up
 *
 * 2001/02/27 Christoph Bartelmus <lirc@bartelmus.de> :
 *   added support for StrongARM SA1100 embedded microprocessor
 *   parts cut'n'pasted from sa1100_ir.c (C) 2000 Russell King
 */


#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt

#include <linux/module.h>
#include <linux/sched.h>
#include <linux/errno.h>
#include <linux/signal.h>
#include <linux/fs.h>
#include <linux/interrupt.h>
#include <linux/ioport.h>
#include <linux/kernel.h>
#include <linux/serial_reg.h>
#include <linux/ktime.h>
#include <linux/string.h>
#include <linux/types.h>
#include <linux/wait.h>
#include <linux/mm.h>
#include <linux/delay.h>
#include <linux/poll.h>
#include <linux/io.h>
#include <asm/irq.h>
#include <linux/fcntl.h>
#include <linux/platform_device.h>

#include <linux/timer.h>

#include <media/lirc.h>
#include <media/lirc_dev.h>

/* SECTION: Definitions */

/*** Tekram dongle ***/
#ifdef LIRC_SIR_TEKRAM
/* stolen from kernel source */
/* definitions for Tekram dongle */

#define TEKRAM_115200 0x00

#define TEKRAM_57600  0x01

#define TEKRAM_38400  0x02

#define TEKRAM_19200  0x03

#define TEKRAM_9600   0x04

#define TEKRAM_2400   0x08


#define TEKRAM_PW 0x10 
/* Pulse select bit */

/* 10bit * 1s/115200bit in milliseconds = 87ms*/

#define TIME_CONST (10000000ul/115200ul)

#endif

#ifdef LIRC_SIR_ACTISYS_ACT200L
static void init_act200(void);
#elif defined(LIRC_SIR_ACTISYS_ACT220L)
static void init_act220(void);
#endif


#define RBUF_LEN 1024

#define WBUF_LEN 1024


#define LIRC_DRIVER_NAME "lirc_sir"


#define PULSE '['

#ifndef LIRC_SIR_TEKRAM
/* 9bit * 1s/115200bit in milli seconds = 78.125ms*/

#define TIME_CONST (9000000ul/115200ul)
#endif


/* timeout for sequences in jiffies (=5/100s), must be longer than TIME_CONST */

#define SIR_TIMEOUT	(HZ*5/100)

#ifndef LIRC_ON_SA1100
#ifndef LIRC_IRQ

#define LIRC_IRQ 4
#endif
#ifndef LIRC_PORT
/* for external dongles, default to com1 */
#if defined(LIRC_SIR_ACTISYS_ACT200L)         || \
	    defined(LIRC_SIR_ACTISYS_ACT220L) || \
	    defined(LIRC_SIR_TEKRAM)

#define LIRC_PORT 0x3f8
#else
/* onboard sir ports are typically com3 */

#define LIRC_PORT 0x3e8
#endif
#endif


static int io = LIRC_PORT;

static int irq = LIRC_IRQ;

static int threshold = 3;
#endif

static DEFINE_SPINLOCK(timer_lock);

static struct timer_list timerlist;
/* time of last signal change detected */

static ktime_t last;
/* time of last UART data ready interrupt */

static ktime_t last_intr_time;

static int last_value;

static DECLARE_WAIT_QUEUE_HEAD(lirc_read_queue);

static DEFINE_SPINLOCK(hardware_lock);


static int rx_buf[RBUF_LEN];


static unsigned int rx_tail, rx_head;


static bool debug;

/* SECTION: Prototypes */

/* Communication with user-space */
static unsigned int lirc_poll(struct file *file, poll_table *wait);
static ssize_t lirc_read(struct file *file, char __user *buf, size_t count,
			 loff_t *ppos);
static ssize_t lirc_write(struct file *file, const char __user *buf, size_t n,
			  loff_t *pos);
static long lirc_ioctl(struct file *filep, unsigned int cmd, unsigned long arg);
static void add_read_queue(int flag, unsigned long val);
static int init_chrdev(void);
static void drop_chrdev(void);
/* Hardware */
static irqreturn_t sir_interrupt(int irq, void *dev_id);
static void send_space(unsigned long len);
static void send_pulse(unsigned long len);
static int init_hardware(void);
static void drop_hardware(void);
/* Initialisation */
static int init_port(void);
static void drop_port(void);


static inline unsigned int sinp(int offset) { return inb(io + offset); }

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static inline void soutp(int offset, int value) { outb(value, io + offset); }

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#ifndef MAX_UDELAY_MS #define MAX_UDELAY_US 5000 #else #define MAX_UDELAY_US (MAX_UDELAY_MS*1000) #endif
static void safe_udelay(unsigned long usecs) { while (usecs > MAX_UDELAY_US) { udelay(MAX_UDELAY_US); usecs -= MAX_UDELAY_US; } udelay(usecs); }

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/* SECTION: Communication with user-space */
static unsigned int lirc_poll(struct file *file, poll_table *wait) { poll_wait(file, &lirc_read_queue, wait); if (rx_head != rx_tail) return POLLIN | POLLRDNORM; return 0; }

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static ssize_t lirc_read(struct file *file, char __user *buf, size_t count, loff_t *ppos) { int n = 0; int retval = 0; DECLARE_WAITQUEUE(wait, current); if (count % sizeof(int)) return -EINVAL; add_wait_queue(&lirc_read_queue, &wait); set_current_state(TASK_INTERRUPTIBLE); while (n < count) { if (rx_head != rx_tail) { if (copy_to_user(buf + n, rx_buf + rx_head, sizeof(int))) { retval = -EFAULT; break; } rx_head = (rx_head + 1) & (RBUF_LEN - 1); n += sizeof(int); } else { if (file->f_flags & O_NONBLOCK) { retval = -EAGAIN; break; } if (signal_pending(current)) { retval = -ERESTARTSYS; break; } schedule(); set_current_state(TASK_INTERRUPTIBLE); } } remove_wait_queue(&lirc_read_queue, &wait); set_current_state(TASK_RUNNING); return n ? n : retval; }

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static ssize_t lirc_write(struct file *file, const char __user *buf, size_t n, loff_t *pos) { unsigned long flags; int i, count; int *tx_buf; count = n / sizeof(int); if (n % sizeof(int) || count % 2 == 0) return -EINVAL; tx_buf = memdup_user(buf, n); if (IS_ERR(tx_buf)) return PTR_ERR(tx_buf); i = 0; local_irq_save(flags); while (1) { if (i >= count) break; if (tx_buf[i]) send_pulse(tx_buf[i]); i++; if (i >= count) break; if (tx_buf[i]) send_space(tx_buf[i]); i++; } local_irq_restore(flags); kfree(tx_buf); return count; }

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static long lirc_ioctl(struct file *filep, unsigned int cmd, unsigned long arg) { u32 __user *uptr = (u32 __user *)arg; int retval = 0; u32 value = 0; if (cmd == LIRC_GET_FEATURES) value = LIRC_CAN_SEND_PULSE | LIRC_CAN_REC_MODE2; else if (cmd == LIRC_GET_SEND_MODE) value = LIRC_MODE_PULSE; else if (cmd == LIRC_GET_REC_MODE) value = LIRC_MODE_MODE2; switch (cmd) { case LIRC_GET_FEATURES: case LIRC_GET_SEND_MODE: case LIRC_GET_REC_MODE: retval = put_user(value, uptr); break; case LIRC_SET_SEND_MODE: case LIRC_SET_REC_MODE: retval = get_user(value, uptr); break; default: retval = -ENOIOCTLCMD; } if (retval) return retval; if (cmd == LIRC_SET_REC_MODE) { if (value != LIRC_MODE_MODE2) retval = -ENOSYS; } else if (cmd == LIRC_SET_SEND_MODE) { if (value != LIRC_MODE_PULSE) retval = -ENOSYS; } return retval; }

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static void add_read_queue(int flag, unsigned long val) { unsigned int new_rx_tail; int newval; pr_debug("add flag %d with val %lu\n", flag, val); newval = val & PULSE_MASK; /* * statistically, pulses are ~TIME_CONST/2 too long. we could * maybe make this more exact, but this is good enough */ if (flag) { /* pulse */ if (newval > TIME_CONST/2) newval -= TIME_CONST/2; else /* should not ever happen */ newval = 1; newval |= PULSE_BIT; } else { newval += TIME_CONST/2; } new_rx_tail = (rx_tail + 1) & (RBUF_LEN - 1); if (new_rx_tail == rx_head) { pr_debug("Buffer overrun.\n"); return; } rx_buf[rx_tail] = newval; rx_tail = new_rx_tail; wake_up_interruptible(&lirc_read_queue); }

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static const struct file_operations lirc_fops = { .owner = THIS_MODULE, .read = lirc_read, .write = lirc_write, .poll = lirc_poll, .unlocked_ioctl = lirc_ioctl, #ifdef CONFIG_COMPAT .compat_ioctl = lirc_ioctl, #endif .open = lirc_dev_fop_open, .release = lirc_dev_fop_close, .llseek = no_llseek, };
static int set_use_inc(void *data) { return 0; }

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static void set_use_dec(void *data) { }

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static struct lirc_driver driver = { .name = LIRC_DRIVER_NAME, .minor = -1, .code_length = 1, .sample_rate = 0, .data = NULL, .add_to_buf = NULL, .set_use_inc = set_use_inc, .set_use_dec = set_use_dec, .fops = &lirc_fops, .dev = NULL, .owner = THIS_MODULE, }; static struct platform_device *lirc_sir_dev;
static int init_chrdev(void) { driver.dev = &lirc_sir_dev->dev; driver.minor = lirc_register_driver(&driver); if (driver.minor < 0) { pr_err("init_chrdev() failed.\n"); return -EIO; } return 0; }

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static void drop_chrdev(void) { lirc_unregister_driver(driver.minor); }

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/* SECTION: Hardware */
static void sir_timeout(unsigned long data) { /* * if last received signal was a pulse, but receiving stopped * within the 9 bit frame, we need to finish this pulse and * simulate a signal change to from pulse to space. Otherwise * upper layers will receive two sequences next time. */ unsigned long flags; unsigned long pulse_end; /* avoid interference with interrupt */ spin_lock_irqsave(&timer_lock, flags); if (last_value) { /* clear unread bits in UART and restart */ outb(UART_FCR_CLEAR_RCVR, io + UART_FCR); /* determine 'virtual' pulse end: */ pulse_end = min_t(unsigned long, ktime_us_delta(last, last_intr_time), PULSE_MASK); dev_dbg(driver.dev, "timeout add %d for %lu usec\n", last_value, pulse_end); add_read_queue(last_value, pulse_end); last_value = 0; last = last_intr_time; } spin_unlock_irqrestore(&timer_lock, flags); }

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static irqreturn_t sir_interrupt(int irq, void *dev_id) { unsigned char data; ktime_t curr_time; static unsigned long delt; unsigned long deltintr; unsigned long flags; int iir, lsr; while ((iir = inb(io + UART_IIR) & UART_IIR_ID)) { switch (iir&UART_IIR_ID) { /* FIXME toto treba preriedit */ case UART_IIR_MSI: (void) inb(io + UART_MSR); break; case UART_IIR_RLSI: (void) inb(io + UART_LSR); break; case UART_IIR_THRI: #if 0 if (lsr & UART_LSR_THRE) /* FIFO is empty */ outb(data, io + UART_TX) #endif break; case UART_IIR_RDI: /* avoid interference with timer */ spin_lock_irqsave(&timer_lock, flags); do { del_timer(&timerlist); data = inb(io + UART_RX); curr_time = ktime_get(); delt = min_t(unsigned long, ktime_us_delta(last, curr_time), PULSE_MASK); deltintr = min_t(unsigned long, ktime_us_delta(last_intr_time, curr_time), PULSE_MASK); dev_dbg(driver.dev, "t %lu, d %d\n", deltintr, (int)data); /* * if nothing came in last X cycles, * it was gap */ if (deltintr > TIME_CONST * threshold) { if (last_value) { dev_dbg(driver.dev, "GAP\n"); /* simulate signal change */ add_read_queue(last_value, delt - deltintr); last_value = 0; last = last_intr_time; delt = deltintr; } } data = 1; if (data ^ last_value) { /* * deltintr > 2*TIME_CONST, remember? * the other case is timeout */ add_read_queue(last_value, delt-TIME_CONST); last_value = data; last = curr_time; last = ktime_sub_us(last, TIME_CONST); } last_intr_time = curr_time; if (data) { /* * start timer for end of * sequence detection */ timerlist.expires = jiffies + SIR_TIMEOUT; add_timer(&timerlist); } lsr = inb(io + UART_LSR); } while (lsr & UART_LSR_DR); /* data ready */ spin_unlock_irqrestore(&timer_lock, flags); break; default: break; } } return IRQ_RETVAL(IRQ_HANDLED); }

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static void send_space(unsigned long len) { safe_udelay(len); }

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static void send_pulse(unsigned long len) { long bytes_out = len / TIME_CONST; if (bytes_out == 0) bytes_out++; while (bytes_out--) { outb(PULSE, io + UART_TX); /* FIXME treba seriozne cakanie z char/serial.c */ while (!(inb(io + UART_LSR) & UART_LSR_THRE)) ; } }

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static int init_hardware(void) { unsigned long flags; spin_lock_irqsave(&hardware_lock, flags); /* reset UART */ #if defined(LIRC_SIR_TEKRAM) /* disable FIFO */ soutp(UART_FCR, UART_FCR_CLEAR_RCVR| UART_FCR_CLEAR_XMIT| UART_FCR_TRIGGER_1); /* Set DLAB 0. */ soutp(UART_LCR, sinp(UART_LCR) & (~UART_LCR_DLAB)); /* First of all, disable all interrupts */ soutp(UART_IER, sinp(UART_IER) & (~(UART_IER_MSI|UART_IER_RLSI|UART_IER_THRI|UART_IER_RDI))); /* Set DLAB 1. */ soutp(UART_LCR, sinp(UART_LCR) | UART_LCR_DLAB); /* Set divisor to 12 => 9600 Baud */ soutp(UART_DLM, 0); soutp(UART_DLL, 12); /* Set DLAB 0. */ soutp(UART_LCR, sinp(UART_LCR) & (~UART_LCR_DLAB)); /* power supply */ soutp(UART_MCR, UART_MCR_RTS|UART_MCR_DTR|UART_MCR_OUT2); safe_udelay(50*1000); /* -DTR low -> reset PIC */ soutp(UART_MCR, UART_MCR_RTS|UART_MCR_OUT2); udelay(1*1000); soutp(UART_MCR, UART_MCR_RTS|UART_MCR_DTR|UART_MCR_OUT2); udelay(100); /* -RTS low -> send control byte */ soutp(UART_MCR, UART_MCR_DTR|UART_MCR_OUT2); udelay(7); soutp(UART_TX, TEKRAM_115200|TEKRAM_PW); /* one byte takes ~1042 usec to transmit at 9600,8N1 */ udelay(1500); /* back to normal operation */ soutp(UART_MCR, UART_MCR_RTS|UART_MCR_DTR|UART_MCR_OUT2); udelay(50); udelay(1500); /* read previous control byte */ pr_info("0x%02x\n", sinp(UART_RX)); /* Set DLAB 1. */ soutp(UART_LCR, sinp(UART_LCR) | UART_LCR_DLAB); /* Set divisor to 1 => 115200 Baud */ soutp(UART_DLM, 0); soutp(UART_DLL, 1); /* Set DLAB 0, 8 Bit */ soutp(UART_LCR, UART_LCR_WLEN8); /* enable interrupts */ soutp(UART_IER, sinp(UART_IER)|UART_IER_RDI); #else outb(0, io + UART_MCR); outb(0, io + UART_IER); /* init UART */ /* set DLAB, speed = 115200 */ outb(UART_LCR_DLAB | UART_LCR_WLEN7, io + UART_LCR); outb(1, io + UART_DLL); outb(0, io + UART_DLM); /* 7N1+start = 9 bits at 115200 ~ 3 bits at 44000 */ outb(UART_LCR_WLEN7, io + UART_LCR); /* FIFO operation */ outb(UART_FCR_ENABLE_FIFO, io + UART_FCR); /* interrupts */ /* outb(UART_IER_RLSI|UART_IER_RDI|UART_IER_THRI, io + UART_IER); */ outb(UART_IER_RDI, io + UART_IER); /* turn on UART */ outb(UART_MCR_DTR|UART_MCR_RTS|UART_MCR_OUT2, io + UART_MCR); #ifdef LIRC_SIR_ACTISYS_ACT200L init_act200(); #elif defined(LIRC_SIR_ACTISYS_ACT220L) init_act220(); #endif #endif spin_unlock_irqrestore(&hardware_lock, flags); return 0; }

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static void drop_hardware(void) { unsigned long flags; spin_lock_irqsave(&hardware_lock, flags); /* turn off interrupts */ outb(0, io + UART_IER); spin_unlock_irqrestore(&hardware_lock, flags); }

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/* SECTION: Initialisation */
static int init_port(void) { int retval; /* get I/O port access and IRQ line */ if (request_region(io, 8, LIRC_DRIVER_NAME) == NULL) { pr_err("i/o port 0x%.4x already in use.\n", io); return -EBUSY; } retval = request_irq(irq, sir_interrupt, 0, LIRC_DRIVER_NAME, NULL); if (retval < 0) { release_region(io, 8); pr_err("IRQ %d already in use.\n", irq); return retval; } pr_info("I/O port 0x%.4x, IRQ %d.\n", io, irq); setup_timer(&timerlist, sir_timeout, 0); return 0; }

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static void drop_port(void) { free_irq(irq, NULL); del_timer_sync(&timerlist); release_region(io, 8); }

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#ifdef LIRC_SIR_ACTISYS_ACT200L /* Crystal/Cirrus CS8130 IR transceiver, used in Actisys Act200L dongle */ /* some code borrowed from Linux IRDA driver */ /* Register 0: Control register #1 */ #define ACT200L_REG0 0x00 #define ACT200L_TXEN 0x01 /* Enable transmitter */ #define ACT200L_RXEN 0x02 /* Enable receiver */ #define ACT200L_ECHO 0x08 /* Echo control chars */ /* Register 1: Control register #2 */ #define ACT200L_REG1 0x10 #define ACT200L_LODB 0x01 /* Load new baud rate count value */ #define ACT200L_WIDE 0x04 /* Expand the maximum allowable pulse */ /* Register 3: Transmit mode register #2 */ #define ACT200L_REG3 0x30 #define ACT200L_B0 0x01 /* DataBits, 0=6, 1=7, 2=8, 3=9(8P) */ #define ACT200L_B1 0x02 /* DataBits, 0=6, 1=7, 2=8, 3=9(8P) */ #define ACT200L_CHSY 0x04 /* StartBit Synced 0=bittime, 1=startbit */ /* Register 4: Output Power register */ #define ACT200L_REG4 0x40 #define ACT200L_OP0 0x01 /* Enable LED1C output */ #define ACT200L_OP1 0x02 /* Enable LED2C output */ #define ACT200L_BLKR 0x04 /* Register 5: Receive Mode register */ #define ACT200L_REG5 0x50 #define ACT200L_RWIDL 0x01 /* fixed 1.6us pulse mode */ /*.. other various IRDA bit modes, and TV remote modes..*/ /* Register 6: Receive Sensitivity register #1 */ #define ACT200L_REG6 0x60 #define ACT200L_RS0 0x01 /* receive threshold bit 0 */ #define ACT200L_RS1 0x02 /* receive threshold bit 1 */ /* Register 7: Receive Sensitivity register #2 */ #define ACT200L_REG7 0x70 #define ACT200L_ENPOS 0x04 /* Ignore the falling edge */ /* Register 8,9: Baud Rate Divider register #1,#2 */ #define ACT200L_REG8 0x80 #define ACT200L_REG9 0x90 #define ACT200L_2400 0x5f #define ACT200L_9600 0x17 #define ACT200L_19200 0x0b #define ACT200L_38400 0x05 #define ACT200L_57600 0x03 #define ACT200L_115200 0x01 /* Register 13: Control register #3 */ #define ACT200L_REG13 0xd0 #define ACT200L_SHDW 0x01 /* Enable access to shadow registers */ /* Register 15: Status register */ #define ACT200L_REG15 0xf0 /* Register 21: Control register #4 */ #define ACT200L_REG21 0x50 #define ACT200L_EXCK 0x02 /* Disable clock output driver */ #define ACT200L_OSCL 0x04 /* oscillator in low power, medium accuracy mode */
static void init_act200(void) { int i; __u8 control[] = { ACT200L_REG15, ACT200L_REG13 | ACT200L_SHDW, ACT200L_REG21 | ACT200L_EXCK | ACT200L_OSCL, ACT200L_REG13, ACT200L_REG7 | ACT200L_ENPOS, ACT200L_REG6 | ACT200L_RS0 | ACT200L_RS1, ACT200L_REG5 | ACT200L_RWIDL, ACT200L_REG4 | ACT200L_OP0 | ACT200L_OP1 | ACT200L_BLKR, ACT200L_REG3 | ACT200L_B0, ACT200L_REG0 | ACT200L_TXEN | ACT200L_RXEN, ACT200L_REG8 | (ACT200L_115200 & 0x0f), ACT200L_REG9 | ((ACT200L_115200 >> 4) & 0x0f), ACT200L_REG1 | ACT200L_LODB | ACT200L_WIDE }; /* Set DLAB 1. */ soutp(UART_LCR, UART_LCR_DLAB | UART_LCR_WLEN8); /* Set divisor to 12 => 9600 Baud */ soutp(UART_DLM, 0); soutp(UART_DLL, 12); /* Set DLAB 0. */ soutp(UART_LCR, UART_LCR_WLEN8); /* Set divisor to 12 => 9600 Baud */ /* power supply */ soutp(UART_MCR, UART_MCR_RTS|UART_MCR_DTR|UART_MCR_OUT2); for (i = 0; i < 50; i++) safe_udelay(1000); /* Reset the dongle : set RTS low for 25 ms */ soutp(UART_MCR, UART_MCR_DTR|UART_MCR_OUT2); for (i = 0; i < 25; i++) udelay(1000); soutp(UART_MCR, UART_MCR_RTS|UART_MCR_DTR|UART_MCR_OUT2); udelay(100); /* Clear DTR and set RTS to enter command mode */ soutp(UART_MCR, UART_MCR_RTS|UART_MCR_OUT2); udelay(7); /* send out the control register settings for 115K 7N1 SIR operation */ for (i = 0; i < sizeof(control); i++) { soutp(UART_TX, control[i]); /* one byte takes ~1042 usec to transmit at 9600,8N1 */ udelay(1500); } /* back to normal operation */ soutp(UART_MCR, UART_MCR_RTS|UART_MCR_DTR|UART_MCR_OUT2); udelay(50); udelay(1500); soutp(UART_LCR, sinp(UART_LCR) | UART_LCR_DLAB); /* Set DLAB 1. */ soutp(UART_LCR, UART_LCR_DLAB | UART_LCR_WLEN7); /* Set divisor to 1 => 115200 Baud */ soutp(UART_DLM, 0); soutp(UART_DLL, 1); /* Set DLAB 0. */ soutp(UART_LCR, sinp(UART_LCR) & (~UART_LCR_DLAB)); /* Set DLAB 0, 7 Bit */ soutp(UART_LCR, UART_LCR_WLEN7); /* enable interrupts */ soutp(UART_IER, sinp(UART_IER)|UART_IER_RDI); }

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#endif #ifdef LIRC_SIR_ACTISYS_ACT220L /* * Derived from linux IrDA driver (net/irda/actisys.c) * Drop me a mail for any kind of comment: maxx@spaceboyz.net */
void init_act220(void) { int i; /* DLAB 1 */ soutp(UART_LCR, UART_LCR_DLAB|UART_LCR_WLEN7); /* 9600 baud */ soutp(UART_DLM, 0); soutp(UART_DLL, 12); /* DLAB 0 */ soutp(UART_LCR, UART_LCR_WLEN7); /* reset the dongle, set DTR low for 10us */ soutp(UART_MCR, UART_MCR_RTS|UART_MCR_OUT2); udelay(10); /* back to normal (still 9600) */ soutp(UART_MCR, UART_MCR_DTR|UART_MCR_RTS|UART_MCR_OUT2); /* * send RTS pulses until we reach 115200 * i hope this is really the same for act220l/act220l+ */ for (i = 0; i < 3; i++) { udelay(10); /* set RTS low for 10 us */ soutp(UART_MCR, UART_MCR_DTR|UART_MCR_OUT2); udelay(10); /* set RTS high for 10 us */ soutp(UART_MCR, UART_MCR_RTS|UART_MCR_DTR|UART_MCR_OUT2); } /* back to normal operation */ udelay(1500); /* better safe than sorry ;) */ /* Set DLAB 1. */ soutp(UART_LCR, UART_LCR_DLAB | UART_LCR_WLEN7); /* Set divisor to 1 => 115200 Baud */ soutp(UART_DLM, 0); soutp(UART_DLL, 1); /* Set DLAB 0, 7 Bit */ /* The dongle doesn't seem to have any problems with operation at 7N1 */ soutp(UART_LCR, UART_LCR_WLEN7); /* enable interrupts */ soutp(UART_IER, UART_IER_RDI); }

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#endif
static int init_lirc_sir(void) { int retval; init_waitqueue_head(&lirc_read_queue); retval = init_port(); if (retval < 0) return retval; init_hardware(); pr_info("Installed.\n"); return 0; }

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static int lirc_sir_probe(struct platform_device *dev) { return 0; }

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static int lirc_sir_remove(struct platform_device *dev) { return 0; }

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jarod wilsonjarod wilson14100.00%1100.00%
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static struct platform_driver lirc_sir_driver = { .probe = lirc_sir_probe, .remove = lirc_sir_remove, .driver = { .name = "lirc_sir", }, };
static int __init lirc_sir_init(void) { int retval; retval = platform_driver_register(&lirc_sir_driver); if (retval) { pr_err("Platform driver register failed!\n"); return -ENODEV; } lirc_sir_dev = platform_device_alloc("lirc_dev", 0); if (!lirc_sir_dev) { pr_err("Platform device alloc failed!\n"); retval = -ENOMEM; goto pdev_alloc_fail; } retval = platform_device_add(lirc_sir_dev); if (retval) { pr_err("Platform device add failed!\n"); retval = -ENODEV; goto pdev_add_fail; } retval = init_chrdev(); if (retval < 0) goto fail; retval = init_lirc_sir(); if (retval) { drop_chrdev(); goto fail; } return 0; fail: platform_device_del(lirc_sir_dev); pdev_add_fail: platform_device_put(lirc_sir_dev); pdev_alloc_fail: platform_driver_unregister(&lirc_sir_driver); return retval; }

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Total149100.00%3100.00%


static void __exit lirc_sir_exit(void) { drop_hardware(); drop_chrdev(); drop_port(); platform_device_unregister(lirc_sir_dev); platform_driver_unregister(&lirc_sir_driver); pr_info("Uninstalled.\n"); }

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jarod wilsonjarod wilson3191.18%266.67%
toshiaki yamanetoshiaki yamane38.82%133.33%
Total34100.00%3100.00%

module_init(lirc_sir_init); module_exit(lirc_sir_exit); #ifdef LIRC_SIR_TEKRAM MODULE_DESCRIPTION("Infrared receiver driver for Tekram Irmate 210"); MODULE_AUTHOR("Christoph Bartelmus"); #elif defined(LIRC_SIR_ACTISYS_ACT200L) MODULE_DESCRIPTION("LIRC driver for Actisys Act200L"); MODULE_AUTHOR("Karl Bongers"); #elif defined(LIRC_SIR_ACTISYS_ACT220L) MODULE_DESCRIPTION("LIRC driver for Actisys Act220L(+)"); MODULE_AUTHOR("Jan Roemisch"); #else MODULE_DESCRIPTION("Infrared receiver driver for SIR type serial ports"); MODULE_AUTHOR("Milan Pikula"); #endif MODULE_LICENSE("GPL"); module_param(io, int, S_IRUGO); MODULE_PARM_DESC(io, "I/O address base (0x3f8 or 0x2f8)"); module_param(irq, int, S_IRUGO); MODULE_PARM_DESC(irq, "Interrupt (4 or 3)"); module_param(threshold, int, S_IRUGO); MODULE_PARM_DESC(threshold, "space detection threshold (3)"); module_param(debug, bool, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(debug, "Enable debugging messages");

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arnd bergmannarnd bergmann240.66%213.33%
tuomas tynkkynentuomas tynkkynen190.52%16.67%
aya mahfouzaya mahfouz170.47%16.67%
vaishali thakkarvaishali thakkar50.14%213.33%
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rusty russellrusty russell10.03%16.67%
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