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linux-next/drivers/char/lcd.c
Christophe Lucas cf85d5ca88 [PATCH] drivers/char/lcd.c: misc_register() can fail
Signed-off-by: Christophe Lucas <clucas@rotomalug.org>
Signed-off-by: Domen Puncer <domen@coderock.org>
Signed-off-by: Andrew Morton <akpm@osdl.org>
Signed-off-by: Linus Torvalds <torvalds@osdl.org>
2005-09-10 10:06:25 -07:00

689 lines
13 KiB
C

/*
* LCD, LED and Button interface for Cobalt
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file "COPYING" in the main directory of this archive
* for more details.
*
* Copyright (C) 1996, 1997 by Andrew Bose
*
* Linux kernel version history:
* March 2001: Ported from 2.0.34 by Liam Davies
*
*/
#define RTC_IO_EXTENT 0x10 /*Only really two ports, but... */
#include <linux/config.h>
#include <linux/types.h>
#include <linux/errno.h>
#include <linux/miscdevice.h>
#include <linux/slab.h>
#include <linux/ioport.h>
#include <linux/fcntl.h>
#include <linux/mc146818rtc.h>
#include <linux/netdevice.h>
#include <linux/sched.h>
#include <linux/delay.h>
#include <asm/io.h>
#include <asm/uaccess.h>
#include <asm/system.h>
#include <linux/delay.h>
#include "lcd.h"
static DEFINE_SPINLOCK(lcd_lock);
static int lcd_ioctl(struct inode *inode, struct file *file,
unsigned int cmd, unsigned long arg);
static unsigned int lcd_present = 1;
/* used in arch/mips/cobalt/reset.c */
int led_state = 0;
#if defined(CONFIG_TULIP) && 0
#define MAX_INTERFACES 8
static linkcheck_func_t linkcheck_callbacks[MAX_INTERFACES];
static void *linkcheck_cookies[MAX_INTERFACES];
int lcd_register_linkcheck_func(int iface_num, void *func, void *cookie)
{
if (iface_num < 0 ||
iface_num >= MAX_INTERFACES ||
linkcheck_callbacks[iface_num] != NULL)
return -1;
linkcheck_callbacks[iface_num] = (linkcheck_func_t) func;
linkcheck_cookies[iface_num] = cookie;
return 0;
}
#endif
static int lcd_ioctl(struct inode *inode, struct file *file,
unsigned int cmd, unsigned long arg)
{
struct lcd_display button_display;
unsigned long address, a;
switch (cmd) {
case LCD_On:
udelay(150);
BusyCheck();
LCDWriteInst(0x0F);
break;
case LCD_Off:
udelay(150);
BusyCheck();
LCDWriteInst(0x08);
break;
case LCD_Reset:
udelay(150);
LCDWriteInst(0x3F);
udelay(150);
LCDWriteInst(0x3F);
udelay(150);
LCDWriteInst(0x3F);
udelay(150);
LCDWriteInst(0x3F);
udelay(150);
LCDWriteInst(0x01);
udelay(150);
LCDWriteInst(0x06);
break;
case LCD_Clear:
udelay(150);
BusyCheck();
LCDWriteInst(0x01);
break;
case LCD_Cursor_Left:
udelay(150);
BusyCheck();
LCDWriteInst(0x10);
break;
case LCD_Cursor_Right:
udelay(150);
BusyCheck();
LCDWriteInst(0x14);
break;
case LCD_Cursor_Off:
udelay(150);
BusyCheck();
LCDWriteInst(0x0C);
break;
case LCD_Cursor_On:
udelay(150);
BusyCheck();
LCDWriteInst(0x0F);
break;
case LCD_Blink_Off:
udelay(150);
BusyCheck();
LCDWriteInst(0x0E);
break;
case LCD_Get_Cursor_Pos:{
struct lcd_display display;
udelay(150);
BusyCheck();
display.cursor_address = (LCDReadInst);
display.cursor_address =
(display.cursor_address & 0x07F);
if (copy_to_user
((struct lcd_display *) arg, &display,
sizeof(struct lcd_display)))
return -EFAULT;
break;
}
case LCD_Set_Cursor_Pos:{
struct lcd_display display;
if (copy_from_user
(&display, (struct lcd_display *) arg,
sizeof(struct lcd_display)))
return -EFAULT;
a = (display.cursor_address | kLCD_Addr);
udelay(150);
BusyCheck();
LCDWriteInst(a);
break;
}
case LCD_Get_Cursor:{
struct lcd_display display;
udelay(150);
BusyCheck();
display.character = LCDReadData;
if (copy_to_user
((struct lcd_display *) arg, &display,
sizeof(struct lcd_display)))
return -EFAULT;
udelay(150);
BusyCheck();
LCDWriteInst(0x10);
break;
}
case LCD_Set_Cursor:{
struct lcd_display display;
if (copy_from_user
(&display, (struct lcd_display *) arg,
sizeof(struct lcd_display)))
return -EFAULT;
udelay(150);
BusyCheck();
LCDWriteData(display.character);
udelay(150);
BusyCheck();
LCDWriteInst(0x10);
break;
}
case LCD_Disp_Left:
udelay(150);
BusyCheck();
LCDWriteInst(0x18);
break;
case LCD_Disp_Right:
udelay(150);
BusyCheck();
LCDWriteInst(0x1C);
break;
case LCD_Home:
udelay(150);
BusyCheck();
LCDWriteInst(0x02);
break;
case LCD_Write:{
struct lcd_display display;
unsigned int index;
if (copy_from_user
(&display, (struct lcd_display *) arg,
sizeof(struct lcd_display)))
return -EFAULT;
udelay(150);
BusyCheck();
LCDWriteInst(0x80);
udelay(150);
BusyCheck();
for (index = 0; index < (display.size1); index++) {
udelay(150);
BusyCheck();
LCDWriteData(display.line1[index]);
BusyCheck();
}
udelay(150);
BusyCheck();
LCDWriteInst(0xC0);
udelay(150);
BusyCheck();
for (index = 0; index < (display.size2); index++) {
udelay(150);
BusyCheck();
LCDWriteData(display.line2[index]);
}
break;
}
case LCD_Read:{
struct lcd_display display;
BusyCheck();
for (address = kDD_R00; address <= kDD_R01;
address++) {
a = (address | kLCD_Addr);
udelay(150);
BusyCheck();
LCDWriteInst(a);
udelay(150);
BusyCheck();
display.line1[address] = LCDReadData;
}
display.line1[0x27] = '\0';
for (address = kDD_R10; address <= kDD_R11;
address++) {
a = (address | kLCD_Addr);
udelay(150);
BusyCheck();
LCDWriteInst(a);
udelay(150);
BusyCheck();
display.line2[address - 0x40] =
LCDReadData;
}
display.line2[0x27] = '\0';
if (copy_to_user
((struct lcd_display *) arg, &display,
sizeof(struct lcd_display)))
return -EFAULT;
break;
}
// set all GPIO leds to led_display.leds
case LED_Set:{
struct lcd_display led_display;
if (copy_from_user
(&led_display, (struct lcd_display *) arg,
sizeof(struct lcd_display)))
return -EFAULT;
led_state = led_display.leds;
LEDSet(led_state);
break;
}
// set only bit led_display.leds
case LED_Bit_Set:{
unsigned int i;
int bit = 1;
struct lcd_display led_display;
if (copy_from_user
(&led_display, (struct lcd_display *) arg,
sizeof(struct lcd_display)))
return -EFAULT;
for (i = 0; i < (int) led_display.leds; i++) {
bit = 2 * bit;
}
led_state = led_state | bit;
LEDSet(led_state);
break;
}
// clear only bit led_display.leds
case LED_Bit_Clear:{
unsigned int i;
int bit = 1;
struct lcd_display led_display;
if (copy_from_user
(&led_display, (struct lcd_display *) arg,
sizeof(struct lcd_display)))
return -EFAULT;
for (i = 0; i < (int) led_display.leds; i++) {
bit = 2 * bit;
}
led_state = led_state & ~bit;
LEDSet(led_state);
break;
}
case BUTTON_Read:{
button_display.buttons = GPIRead;
if (copy_to_user
((struct lcd_display *) arg, &button_display,
sizeof(struct lcd_display)))
return -EFAULT;
break;
}
case LINK_Check:{
button_display.buttons =
*((volatile unsigned long *) (0xB0100060));
if (copy_to_user
((struct lcd_display *) arg, &button_display,
sizeof(struct lcd_display)))
return -EFAULT;
break;
}
case LINK_Check_2:{
int iface_num;
/* panel-utils should pass in the desired interface status is wanted for
* in "buttons" of the structure. We will set this to non-zero if the
* link is in fact up for the requested interface. --DaveM
*/
if (copy_from_user
(&button_display, (struct lcd_display *) arg,
sizeof(button_display)))
return -EFAULT;
iface_num = button_display.buttons;
#if defined(CONFIG_TULIP) && 0
if (iface_num >= 0 &&
iface_num < MAX_INTERFACES &&
linkcheck_callbacks[iface_num] != NULL) {
button_display.buttons =
linkcheck_callbacks[iface_num]
(linkcheck_cookies[iface_num]);
} else
#endif
button_display.buttons = 0;
if (__copy_to_user
((struct lcd_display *) arg, &button_display,
sizeof(struct lcd_display)))
return -EFAULT;
break;
}
// Erase the flash
case FLASH_Erase:{
int ctr = 0;
if ( !capable(CAP_SYS_ADMIN) ) return -EPERM;
pr_info(LCD "Erasing Flash\n");
// Chip Erase Sequence
WRITE_FLASH(kFlash_Addr1, kFlash_Data1);
WRITE_FLASH(kFlash_Addr2, kFlash_Data2);
WRITE_FLASH(kFlash_Addr1, kFlash_Erase3);
WRITE_FLASH(kFlash_Addr1, kFlash_Data1);
WRITE_FLASH(kFlash_Addr2, kFlash_Data2);
WRITE_FLASH(kFlash_Addr1, kFlash_Erase6);
while ((!dqpoll(0x00000000, 0xFF))
&& (!timeout(0x00000000))) {
ctr++;
}
if (READ_FLASH(0x07FFF0) == 0xFF) {
pr_info(LCD "Erase Successful\n");
} else if (timeout) {
pr_info(LCD "Erase Timed Out\n");
}
break;
}
// burn the flash
case FLASH_Burn:{
volatile unsigned long burn_addr;
unsigned long flags;
unsigned int i, index;
unsigned char *rom;
struct lcd_display display;
if ( !capable(CAP_SYS_ADMIN) ) return -EPERM;
if (copy_from_user
(&display, (struct lcd_display *) arg,
sizeof(struct lcd_display)))
return -EFAULT;
rom = (unsigned char *) kmalloc((128), GFP_ATOMIC);
if (rom == NULL) {
printk(KERN_ERR LCD "kmalloc() failed in %s\n",
__FUNCTION__);
return -ENOMEM;
}
pr_info(LCD "Starting Flash burn\n");
for (i = 0; i < FLASH_SIZE; i = i + 128) {
if (copy_from_user
(rom, display.RomImage + i, 128)) {
kfree(rom);
return -EFAULT;
}
burn_addr = kFlashBase + i;
spin_lock_irqsave(&lcd_lock, flags);
for (index = 0; index < (128); index++) {
WRITE_FLASH(kFlash_Addr1,
kFlash_Data1);
WRITE_FLASH(kFlash_Addr2,
kFlash_Data2);
WRITE_FLASH(kFlash_Addr1,
kFlash_Prog);
*((volatile unsigned char *)burn_addr) =
(volatile unsigned char) rom[index];
while ((!dqpoll (burn_addr,
(volatile unsigned char)
rom[index])) &&
(!timeout(burn_addr))) { }
burn_addr++;
}
spin_unlock_irqrestore(&lcd_lock, flags);
if (* ((volatile unsigned char *)
(burn_addr - 1)) ==
(volatile unsigned char)
rom[index - 1]) {
} else if (timeout) {
pr_info(LCD "Flash burn timed out\n");
}
}
kfree(rom);
pr_info(LCD "Flash successfully burned\n");
break;
}
// read the flash all at once
case FLASH_Read:{
unsigned char *user_bytes;
volatile unsigned long read_addr;
unsigned int i;
user_bytes =
&(((struct lcd_display *) arg)->RomImage[0]);
if (!access_ok
(VERIFY_WRITE, user_bytes, FLASH_SIZE))
return -EFAULT;
pr_info(LCD "Reading Flash");
for (i = 0; i < FLASH_SIZE; i++) {
unsigned char tmp_byte;
read_addr = kFlashBase + i;
tmp_byte =
*((volatile unsigned char *)
read_addr);
if (__put_user(tmp_byte, &user_bytes[i]))
return -EFAULT;
}
break;
}
default:
return -EINVAL;
}
return 0;
}
static int lcd_open(struct inode *inode, struct file *file)
{
if (!lcd_present)
return -ENXIO;
else
return 0;
}
/* Only RESET or NEXT counts as button pressed */
static inline int button_pressed(void)
{
unsigned long buttons = GPIRead;
if ((buttons == BUTTON_Next) || (buttons == BUTTON_Next_B)
|| (buttons == BUTTON_Reset_B))
return buttons;
return 0;
}
/* LED daemon sits on this and we wake him up once a key is pressed. */
static int lcd_waiters = 0;
static long lcd_read(struct inode *inode, struct file *file, char *buf,
unsigned long count)
{
long buttons_now;
if (lcd_waiters > 0)
return -EINVAL;
lcd_waiters++;
while (((buttons_now = (long) button_pressed()) == 0) &&
!(signal_pending(current))) {
msleep_interruptible(2000);
}
lcd_waiters--;
if (signal_pending(current))
return -ERESTARTSYS;
return buttons_now;
}
/*
* The various file operations we support.
*/
static struct file_operations lcd_fops = {
.read = lcd_read,
.ioctl = lcd_ioctl,
.open = lcd_open,
};
static struct miscdevice lcd_dev = {
MISC_DYNAMIC_MINOR,
"lcd",
&lcd_fops
};
static int lcd_init(void)
{
int ret;
unsigned long data;
pr_info("%s\n", LCD_DRIVER);
ret = misc_register(&lcd_dev);
if (ret) {
printk(KERN_WARNING LCD "Unable to register misc device.\n");
return ret;
}
/* Check region? Naaah! Just snarf it up. */
/* request_region(RTC_PORT(0), RTC_IO_EXTENT, "lcd");*/
udelay(150);
data = LCDReadData;
if ((data & 0x000000FF) == (0x00)) {
lcd_present = 0;
pr_info(LCD "LCD Not Present\n");
} else {
lcd_present = 1;
WRITE_GAL(kGal_DevBank2PReg, kGal_DevBank2Cfg);
WRITE_GAL(kGal_DevBank3PReg, kGal_DevBank3Cfg);
}
return 0;
}
static void __exit lcd_exit(void)
{
misc_deregister(&lcd_dev);
}
//
// Function: dqpoll
//
// Description: Polls the data lines to see if the flash is busy
//
// In: address, byte data
//
// Out: 0 = busy, 1 = write or erase complete
//
//
static int dqpoll(volatile unsigned long address, volatile unsigned char data)
{
volatile unsigned char dq7;
dq7 = data & 0x80;
return ((READ_FLASH(address) & 0x80) == dq7);
}
//
// Function: timeout
//
// Description: Checks to see if erase or write has timed out
// By polling dq5
//
// In: address
//
//
// Out: 0 = not timed out, 1 = timed out
static int timeout(volatile unsigned long address)
{
return (READ_FLASH(address) & 0x20) == 0x20;
}
module_init(lcd_init);
module_exit(lcd_exit);
MODULE_AUTHOR("Andrew Bose");
MODULE_LICENSE("GPL");