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https://github.com/FEX-Emu/linux.git
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[PARISC] Use work queue in LED/LCD driver instead of tasklet.
2.6.12-rc1-pa6 use work queue in LED/LCD driver instead of tasklet. Main advantage is it allows use of msleep() in the led_LCD_driver to "atomically" perform two MMIO writes (CMD, then DATA). Lead to nice cleanup of the main led_work_func() and led_LCD_driver(). Kudos to David for being persistent. From: David Pye <dmp@davidmpye.dyndns.org> Signed-off-by: Grant Grundler <grundler@parisc-linux.org> Signed-off-by: Kyle McMartin <kyle@parisc-linux.org>
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@ -89,14 +89,6 @@ irqreturn_t timer_interrupt(int irq, void *dev_id, struct pt_regs *regs)
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}
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}
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#ifdef CONFIG_CHASSIS_LCD_LED
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/* Only schedule the led tasklet on cpu 0, and only if it
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* is enabled.
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*/
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if (cpu == 0 && !atomic_read(&led_tasklet.count))
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tasklet_schedule(&led_tasklet);
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#endif
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/* check soft power switch status */
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if (cpu == 0 && !atomic_read(&power_tasklet.count))
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tasklet_schedule(&power_tasklet);
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@ -18,6 +18,9 @@
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* Changes:
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* - Audit copy_from_user in led_proc_write.
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* Daniele Bellucci <bellucda@tiscali.it>
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* - Switch from using a tasklet to a work queue, so the led_LCD_driver
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* can sleep.
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* David Pye <dmp@davidmpye.dyndns.org>
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*/
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#include <linux/config.h>
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@ -37,6 +40,7 @@
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#include <linux/proc_fs.h>
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#include <linux/ctype.h>
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#include <linux/blkdev.h>
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#include <linux/workqueue.h>
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#include <linux/rcupdate.h>
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#include <asm/io.h>
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#include <asm/processor.h>
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@ -47,25 +51,30 @@
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#include <asm/uaccess.h>
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/* The control of the LEDs and LCDs on PARISC-machines have to be done
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completely in software. The necessary calculations are done in a tasklet
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which is scheduled at every timer interrupt and since the calculations
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may consume relatively much CPU-time some of the calculations can be
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completely in software. The necessary calculations are done in a work queue
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task which is scheduled regularly, and since the calculations may consume a
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relatively large amount of CPU time, some of the calculations can be
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turned off with the following variables (controlled via procfs) */
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static int led_type = -1;
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static int led_heartbeat = 1;
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static int led_diskio = 1;
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static int led_lanrxtx = 1;
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static unsigned char lastleds; /* LED state from most recent update */
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static unsigned int led_heartbeat = 1;
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static unsigned int led_diskio = 1;
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static unsigned int led_lanrxtx = 1;
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static char lcd_text[32];
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static char lcd_text_default[32];
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static struct workqueue_struct *led_wq;
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static void led_work_func(void *);
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static DECLARE_WORK(led_task, led_work_func, NULL);
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#if 0
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#define DPRINTK(x) printk x
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#else
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#define DPRINTK(x)
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#endif
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struct lcd_block {
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unsigned char command; /* stores the command byte */
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unsigned char on; /* value for turning LED on */
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@ -116,12 +125,27 @@ lcd_info __attribute__((aligned(8))) =
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#define LCD_DATA_REG lcd_info.lcd_data_reg_addr
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#define LED_DATA_REG lcd_info.lcd_cmd_reg_addr /* LASI & ASP only */
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#define LED_HASLCD 1
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#define LED_NOLCD 0
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/* The workqueue must be created at init-time */
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static int start_task(void)
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{
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/* Display the default text now */
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if (led_type == LED_HASLCD) lcd_print( lcd_text_default );
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/* Create the work queue and queue the LED task */
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led_wq = create_singlethread_workqueue("led_wq");
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queue_work(led_wq, &led_task);
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return 0;
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}
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device_initcall(start_task);
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/* ptr to LCD/LED-specific function */
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static void (*led_func_ptr) (unsigned char);
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#define LED_HASLCD 1
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#define LED_NOLCD 0
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#ifdef CONFIG_PROC_FS
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static int led_proc_read(char *page, char **start, off_t off, int count,
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int *eof, void *data)
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@ -286,52 +310,35 @@ static void led_LASI_driver(unsigned char leds)
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/*
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**
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** led_LCD_driver()
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**
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** The logic of the LCD driver is, that we write at every scheduled call
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** only to one of LCD_CMD_REG _or_ LCD_DATA_REG - registers.
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** That way we don't need to let this tasklet busywait for min_cmd_delay
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** milliseconds.
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**
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** TODO: check the value of "min_cmd_delay" against the value of HZ.
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**
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*/
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static void led_LCD_driver(unsigned char leds)
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{
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static int last_index; /* 0:heartbeat, 1:disk, 2:lan_in, 3:lan_out */
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static int last_was_cmd;/* 0: CMD was written last, 1: DATA was last */
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struct lcd_block *block_ptr;
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int value;
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switch (last_index) {
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case 0: block_ptr = &lcd_info.heartbeat;
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value = leds & LED_HEARTBEAT;
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break;
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case 1: block_ptr = &lcd_info.disk_io;
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value = leds & LED_DISK_IO;
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break;
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case 2: block_ptr = &lcd_info.lan_rcv;
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value = leds & LED_LAN_RCV;
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break;
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case 3: block_ptr = &lcd_info.lan_tx;
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value = leds & LED_LAN_TX;
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break;
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default: /* should never happen: */
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return;
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}
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if (last_was_cmd) {
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/* write the value to the LCD data port */
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gsc_writeb( value ? block_ptr->on : block_ptr->off, LCD_DATA_REG );
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} else {
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/* write the command-byte to the LCD command register */
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gsc_writeb( block_ptr->command, LCD_CMD_REG );
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}
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static int i;
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static unsigned char mask[4] = { LED_HEARTBEAT, LED_DISK_IO,
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LED_LAN_RCV, LED_LAN_TX };
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/* now update the vars for the next interrupt iteration */
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if (++last_was_cmd == 2) { /* switch between cmd & data */
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last_was_cmd = 0;
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if (++last_index == 4)
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last_index = 0; /* switch back to heartbeat index */
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static struct lcd_block * blockp[4] = {
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&lcd_info.heartbeat,
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&lcd_info.disk_io,
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&lcd_info.lan_rcv,
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&lcd_info.lan_tx
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};
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/* Convert min_cmd_delay to milliseconds */
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unsigned int msec_cmd_delay = 1 + (lcd_info.min_cmd_delay / 1000);
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for (i=0; i<4; ++i)
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{
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if ((leds & mask[i]) != (lastleds & mask[i]))
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{
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gsc_writeb( blockp[i]->command, LCD_CMD_REG );
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msleep(msec_cmd_delay);
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gsc_writeb( leds & mask[i] ? blockp[i]->on :
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blockp[i]->off, LCD_DATA_REG );
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msleep(msec_cmd_delay);
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}
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}
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}
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@ -356,7 +363,7 @@ static __inline__ int led_get_net_activity(void)
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rx_total = tx_total = 0;
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/* we are running as tasklet, so locking dev_base
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/* we are running as a workqueue task, so locking dev_base
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* for reading should be OK */
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read_lock(&dev_base_lock);
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rcu_read_lock();
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@ -405,7 +412,7 @@ static __inline__ int led_get_diskio_activity(void)
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static unsigned long last_pgpgin, last_pgpgout;
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struct page_state pgstat;
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int changed;
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get_full_page_state(&pgstat); /* get no of sectors in & out */
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/* Just use a very simple calculation here. Do not care about overflow,
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@ -413,87 +420,71 @@ static __inline__ int led_get_diskio_activity(void)
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changed = (pgstat.pgpgin != last_pgpgin) || (pgstat.pgpgout != last_pgpgout);
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last_pgpgin = pgstat.pgpgin;
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last_pgpgout = pgstat.pgpgout;
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return (changed ? LED_DISK_IO : 0);
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}
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/*
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** led_tasklet_func()
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** led_work_func()
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**
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** is scheduled at every timer interrupt from time.c and
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** updates the chassis LCD/LED
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** manages when and which chassis LCD/LED gets updated
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TODO:
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- display load average (older machines like 715/64 have 4 "free" LED's for that)
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- optimizations
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*/
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#define HEARTBEAT_LEN (HZ*6/100)
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#define HEARTBEAT_2ND_RANGE_START (HZ*22/100)
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#define HEARTBEAT_LEN (HZ*10/100)
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#define HEARTBEAT_2ND_RANGE_START (HZ*28/100)
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#define HEARTBEAT_2ND_RANGE_END (HEARTBEAT_2ND_RANGE_START + HEARTBEAT_LEN)
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#define NORMALIZED_COUNT(count) (count/(HZ/100))
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#define LED_UPDATE_INTERVAL (1 + (HZ*19/1000))
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static void led_tasklet_func(unsigned long unused)
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static void led_work_func (void *unused)
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{
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static unsigned char lastleds;
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unsigned char currentleds; /* stores current value of the LEDs */
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static unsigned long count; /* static incremented value, not wrapped */
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static unsigned long last_jiffies;
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static unsigned long count_HZ; /* counter in range 0..HZ */
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unsigned char currentleds = 0; /* stores current value of the LEDs */
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/* exit if not initialized */
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if (!led_func_ptr)
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return;
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/* increment the local counters */
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++count;
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if (++count_HZ == HZ)
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/* increment the heartbeat timekeeper */
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count_HZ += jiffies - last_jiffies;
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last_jiffies = jiffies;
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if (count_HZ >= HZ)
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count_HZ = 0;
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currentleds = lastleds;
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if (led_heartbeat)
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if (likely(led_heartbeat))
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{
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/* flash heartbeat-LED like a real heart (2 x short then a long delay) */
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if (count_HZ<HEARTBEAT_LEN ||
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(count_HZ>=HEARTBEAT_2ND_RANGE_START && count_HZ<HEARTBEAT_2ND_RANGE_END))
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currentleds |= LED_HEARTBEAT;
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else
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currentleds &= ~LED_HEARTBEAT;
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/* flash heartbeat-LED like a real heart
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* (2 x short then a long delay)
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*/
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if (count_HZ < HEARTBEAT_LEN ||
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(count_HZ >= HEARTBEAT_2ND_RANGE_START &&
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count_HZ < HEARTBEAT_2ND_RANGE_END))
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currentleds |= LED_HEARTBEAT;
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}
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/* look for network activity and flash LEDs respectively */
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if (led_lanrxtx && ((NORMALIZED_COUNT(count)+(8/2)) & 7) == 0)
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{
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currentleds &= ~(LED_LAN_RCV | LED_LAN_TX);
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currentleds |= led_get_net_activity();
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}
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/* avoid to calculate diskio-stats at same irq as netio-stats */
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if (led_diskio && (NORMALIZED_COUNT(count) & 7) == 0)
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{
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currentleds &= ~LED_DISK_IO;
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currentleds |= led_get_diskio_activity();
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}
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if (likely(led_lanrxtx)) currentleds |= led_get_net_activity();
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if (likely(led_diskio)) currentleds |= led_get_diskio_activity();
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/* blink all LEDs twice a second if we got an Oops (HPMC) */
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if (oops_in_progress) {
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if (unlikely(oops_in_progress))
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currentleds = (count_HZ<=(HZ/2)) ? 0 : 0xff;
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if (currentleds != lastleds)
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{
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led_func_ptr(currentleds); /* Update the LCD/LEDs */
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lastleds = currentleds;
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}
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/* update the LCD/LEDs */
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if (currentleds != lastleds) {
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led_func_ptr(currentleds);
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lastleds = currentleds;
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}
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queue_delayed_work(led_wq, &led_task, LED_UPDATE_INTERVAL);
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}
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/* main led tasklet struct (scheduled from time.c) */
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DECLARE_TASKLET_DISABLED(led_tasklet, led_tasklet_func, 0);
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/*
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** led_halt()
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**
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@ -522,9 +513,13 @@ static int led_halt(struct notifier_block *nb, unsigned long event, void *buf)
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default: return NOTIFY_DONE;
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}
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/* completely stop the LED/LCD tasklet */
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tasklet_disable(&led_tasklet);
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/* Cancel the work item and delete the queue */
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if (led_wq) {
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cancel_rearming_delayed_workqueue(led_wq, &led_task);
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destroy_workqueue(led_wq);
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led_wq = NULL;
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}
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if (lcd_info.model == DISPLAY_MODEL_LCD)
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lcd_print(txt);
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else
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@ -559,7 +554,6 @@ int __init register_led_driver(int model, unsigned long cmd_reg, unsigned long d
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printk(KERN_INFO "LCD display at %lx,%lx registered\n",
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LCD_CMD_REG , LCD_DATA_REG);
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led_func_ptr = led_LCD_driver;
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lcd_print( lcd_text_default );
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led_type = LED_HASLCD;
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break;
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@ -589,9 +583,11 @@ int __init register_led_driver(int model, unsigned long cmd_reg, unsigned long d
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initialized++;
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register_reboot_notifier(&led_notifier);
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/* start the led tasklet for the first time */
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tasklet_enable(&led_tasklet);
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/* Ensure the work is queued */
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if (led_wq) {
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queue_work(led_wq, &led_task);
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}
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return 0;
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}
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@ -626,8 +622,8 @@ void __init register_led_regions(void)
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** lcd_print()
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**
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** Displays the given string on the LCD-Display of newer machines.
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** lcd_print() disables the timer-based led tasklet during its
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** execution and enables it afterwards again.
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** lcd_print() disables/enables the timer-based led work queue to
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** avoid a race condition while writing the CMD/DATA register pair.
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**
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*/
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int lcd_print( char *str )
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@ -637,12 +633,13 @@ int lcd_print( char *str )
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if (!led_func_ptr || lcd_info.model != DISPLAY_MODEL_LCD)
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return 0;
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/* temporarily disable the led tasklet */
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tasklet_disable(&led_tasklet);
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/* temporarily disable the led work task */
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if (led_wq)
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cancel_rearming_delayed_workqueue(led_wq, &led_task);
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/* copy display string to buffer for procfs */
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strlcpy(lcd_text, str, sizeof(lcd_text));
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/* Set LCD Cursor to 1st character */
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gsc_writeb(lcd_info.reset_cmd1, LCD_CMD_REG);
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udelay(lcd_info.min_cmd_delay);
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@ -656,8 +653,10 @@ int lcd_print( char *str )
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udelay(lcd_info.min_cmd_delay);
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}
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/* re-enable the led tasklet */
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tasklet_enable(&led_tasklet);
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/* re-queue the work */
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if (led_wq) {
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queue_work(led_wq, &led_task);
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}
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return lcd_info.lcd_width;
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}
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@ -23,9 +23,6 @@
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#define LED_CMD_REG_NONE 0 /* NULL == no addr for the cmd register */
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/* led tasklet struct */
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extern struct tasklet_struct led_tasklet;
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/* register_led_driver() */
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int __init register_led_driver(int model, unsigned long cmd_reg, unsigned long data_reg);
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