openwrt_archive/target/linux/s3c24xx/files-2.6.30/drivers/power/hdq.c
Lars-Peter Clausen a37a974520 [s3c24xx] bump to 2.6.30-rc6
SVN-Revision: 15918
2009-05-18 17:55:41 +00:00

516 lines
12 KiB
C

/*
* HDQ generic GPIO bitbang driver using FIQ
*
* (C) 2006-2007 by Openmoko, Inc.
* Author: Andy Green <andy@openmoko.com>
* All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
*/
#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/delay.h>
#include <linux/platform_device.h>
#include <linux/hdq.h>
#define HDQ_READ 0
#define HDQ_WRITE 0x80
enum hdq_bitbang_states {
HDQB_IDLE = 0,
HDQB_TX_BREAK,
HDQB_TX_BREAK_RECOVERY,
HDQB_ADS_CALC,
HDQB_ADS_LOW,
HDQB_ADS_HIGH,
HDQB_WAIT_RX,
HDQB_DATA_RX_LOW,
HDQB_DATA_RX_HIGH,
HDQB_WAIT_TX,
};
static struct hdq_priv {
u8 hdq_probed; /* nonzero after HDQ driver probed */
struct mutex hdq_lock; /* if you want to use hdq, you have to take lock */
unsigned long hdq_gpio_pin; /* GTA02 = GPD14 which pin to meddle with */
u8 hdq_ads; /* b7..b6 = register address, b0 = r/w */
u8 hdq_tx_data; /* data to tx for write action */
u8 hdq_rx_data; /* data received in read action */
u8 hdq_request_ctr; /* incremented by "user" to request a transfer */
u8 hdq_transaction_ctr; /* incremented after each transfer */
u8 hdq_error; /* 0 = no error */
u8 hdq_ctr;
u8 hdq_ctr2;
u8 hdq_bit;
u8 hdq_shifter;
u8 hdq_tx_data_done;
enum hdq_bitbang_states hdq_state;
int reported_error;
struct hdq_platform_data *pdata;
} hdq_priv;
static void hdq_bad(void)
{
if (!hdq_priv.reported_error)
printk(KERN_ERR "HDQ error: %d\n", hdq_priv.hdq_error);
hdq_priv.reported_error = 1;
}
static void hdq_good(void)
{
if (hdq_priv.reported_error)
printk(KERN_INFO "HDQ responds again\n");
hdq_priv.reported_error = 0;
}
int hdq_fiq_handler(void)
{
if (!hdq_priv.hdq_probed)
return 0;
switch (hdq_priv.hdq_state) {
case HDQB_IDLE:
if (hdq_priv.hdq_request_ctr == hdq_priv.hdq_transaction_ctr)
break;
hdq_priv.hdq_ctr = 250 / HDQ_SAMPLE_PERIOD_US;
hdq_priv.pdata->gpio_set(0);
hdq_priv.pdata->gpio_dir_out();
hdq_priv.hdq_tx_data_done = 0;
hdq_priv.hdq_state = HDQB_TX_BREAK;
break;
case HDQB_TX_BREAK: /* issue low for > 190us */
if (--hdq_priv.hdq_ctr == 0) {
hdq_priv.hdq_ctr = 60 / HDQ_SAMPLE_PERIOD_US;
hdq_priv.hdq_state = HDQB_TX_BREAK_RECOVERY;
hdq_priv.pdata->gpio_set(1);
}
break;
case HDQB_TX_BREAK_RECOVERY: /* issue low for > 40us */
if (--hdq_priv.hdq_ctr)
break;
hdq_priv.hdq_shifter = hdq_priv.hdq_ads;
hdq_priv.hdq_bit = 8; /* 8 bits of ads / rw */
hdq_priv.hdq_tx_data_done = 0; /* doing ads */
/* fallthru on last one */
case HDQB_ADS_CALC:
if (hdq_priv.hdq_shifter & 1)
hdq_priv.hdq_ctr = 50 / HDQ_SAMPLE_PERIOD_US;
else
hdq_priv.hdq_ctr = 120 / HDQ_SAMPLE_PERIOD_US;
/* carefully precompute the other phase length */
hdq_priv.hdq_ctr2 = (210 - (hdq_priv.hdq_ctr * HDQ_SAMPLE_PERIOD_US)) /
HDQ_SAMPLE_PERIOD_US;
hdq_priv.hdq_state = HDQB_ADS_LOW;
hdq_priv.hdq_shifter >>= 1;
hdq_priv.hdq_bit--;
hdq_priv.pdata->gpio_set(0);
break;
case HDQB_ADS_LOW:
if (--hdq_priv.hdq_ctr)
break;
hdq_priv.pdata->gpio_set(1);
hdq_priv.hdq_state = HDQB_ADS_HIGH;
break;
case HDQB_ADS_HIGH:
if (--hdq_priv.hdq_ctr2 > 1) /* account for HDQB_ADS_CALC */
break;
if (hdq_priv.hdq_bit) { /* more bits to do */
hdq_priv.hdq_state = HDQB_ADS_CALC;
break;
}
/* no more bits, wait it out until hdq_priv.hdq_ctr2 exhausted */
if (hdq_priv.hdq_ctr2)
break;
/* ok no more bits and very last state */
hdq_priv.hdq_ctr = 60 / HDQ_SAMPLE_PERIOD_US;
/* FIXME 0 = read */
if (hdq_priv.hdq_ads & 0x80) { /* write the byte out */
/* set delay before payload */
hdq_priv.hdq_ctr = 300 / HDQ_SAMPLE_PERIOD_US;
/* already high, no need to write */
hdq_priv.hdq_state = HDQB_WAIT_TX;
break;
}
/* read the next byte */
hdq_priv.hdq_bit = 8; /* 8 bits of data */
hdq_priv.hdq_ctr = 2500 / HDQ_SAMPLE_PERIOD_US;
hdq_priv.hdq_state = HDQB_WAIT_RX;
hdq_priv.pdata->gpio_dir_in();
break;
case HDQB_WAIT_TX: /* issue low for > 40us */
if (--hdq_priv.hdq_ctr)
break;
if (!hdq_priv.hdq_tx_data_done) { /* was that the data sent? */
hdq_priv.hdq_tx_data_done++;
hdq_priv.hdq_shifter = hdq_priv.hdq_tx_data;
hdq_priv.hdq_bit = 8; /* 8 bits of data */
hdq_priv.hdq_state = HDQB_ADS_CALC; /* start sending */
break;
}
hdq_priv.hdq_error = 0;
hdq_priv.hdq_transaction_ctr = hdq_priv.hdq_request_ctr;
hdq_priv.hdq_state = HDQB_IDLE; /* all tx is done */
/* idle in input mode, it's pulled up by 10K */
hdq_priv.pdata->gpio_dir_in();
break;
case HDQB_WAIT_RX: /* wait for battery to talk to us */
if (hdq_priv.pdata->gpio_get() == 0) {
/* it talks to us! */
hdq_priv.hdq_ctr2 = 1;
hdq_priv.hdq_bit = 8; /* 8 bits of data */
/* timeout */
hdq_priv.hdq_ctr = 500 / HDQ_SAMPLE_PERIOD_US;
hdq_priv.hdq_state = HDQB_DATA_RX_LOW;
break;
}
if (--hdq_priv.hdq_ctr == 0) { /* timed out, error */
hdq_priv.hdq_error = 1;
hdq_priv.hdq_transaction_ctr = hdq_priv.hdq_request_ctr;
hdq_priv.hdq_state = HDQB_IDLE; /* abort */
}
break;
/*
* HDQ basically works by measuring the low time of the bit cell
* 32-50us --> '1', 80 - 145us --> '0'
*/
case HDQB_DATA_RX_LOW:
if (hdq_priv.pdata->gpio_get()) {
hdq_priv.hdq_rx_data >>= 1;
if (hdq_priv.hdq_ctr2 <= (65 / HDQ_SAMPLE_PERIOD_US))
hdq_priv.hdq_rx_data |= 0x80;
if (--hdq_priv.hdq_bit == 0) {
hdq_priv.hdq_error = 0;
hdq_priv.hdq_transaction_ctr =
hdq_priv.hdq_request_ctr;
hdq_priv.hdq_state = HDQB_IDLE;
} else
hdq_priv.hdq_state = HDQB_DATA_RX_HIGH;
/* timeout */
hdq_priv.hdq_ctr = 1000 / HDQ_SAMPLE_PERIOD_US;
hdq_priv.hdq_ctr2 = 1;
break;
}
hdq_priv.hdq_ctr2++;
if (--hdq_priv.hdq_ctr)
break;
/* timed out, error */
hdq_priv.hdq_error = 2;
hdq_priv.hdq_transaction_ctr = hdq_priv.hdq_request_ctr;
hdq_priv.hdq_state = HDQB_IDLE; /* abort */
break;
case HDQB_DATA_RX_HIGH:
if (!hdq_priv.pdata->gpio_get()) {
/* it talks to us! */
hdq_priv.hdq_ctr2 = 1;
/* timeout */
hdq_priv.hdq_ctr = 400 / HDQ_SAMPLE_PERIOD_US;
hdq_priv.hdq_state = HDQB_DATA_RX_LOW;
break;
}
if (--hdq_priv.hdq_ctr)
break;
/* timed out, error */
hdq_priv.hdq_error = 3;
hdq_priv.hdq_transaction_ctr = hdq_priv.hdq_request_ctr;
/* we're in input mode already */
hdq_priv.hdq_state = HDQB_IDLE; /* abort */
break;
}
/* Are we interested in keeping the FIQ source alive ? */
if (hdq_priv.hdq_state != HDQB_IDLE)
return 1;
else
return 0;
}
static int fiq_busy(void)
{
int request = (volatile u8)hdq_priv.hdq_request_ctr;
int transact = (volatile u8)hdq_priv.hdq_transaction_ctr;
return (request != transact);
}
int hdq_initialized(void)
{
return hdq_priv.hdq_probed;
}
EXPORT_SYMBOL_GPL(hdq_initialized);
int hdq_read(int address)
{
int count_sleeps = 5;
int ret = -ETIME;
if (!hdq_priv.hdq_probed)
return -EINVAL;
mutex_lock(&hdq_priv.hdq_lock);
hdq_priv.hdq_error = 0;
hdq_priv.hdq_ads = address | HDQ_READ;
hdq_priv.hdq_request_ctr++;
hdq_priv.pdata->kick_fiq();
/*
* FIQ takes care of it while we block our calling process
* But we're not spinning -- other processes run normally while
* we wait for the result
*/
while (count_sleeps--) {
msleep(10); /* valid transaction always completes in < 10ms */
if (fiq_busy())
continue;
if (hdq_priv.hdq_error) {
hdq_bad();
goto done; /* didn't see a response in good time */
}
hdq_good();
ret = hdq_priv.hdq_rx_data;
goto done;
}
done:
mutex_unlock(&hdq_priv.hdq_lock);
return ret;
}
EXPORT_SYMBOL_GPL(hdq_read);
int hdq_write(int address, u8 data)
{
int count_sleeps = 5;
int ret = -ETIME;
if (!hdq_priv.hdq_probed)
return -EINVAL;
mutex_lock(&hdq_priv.hdq_lock);
hdq_priv.hdq_error = 0;
hdq_priv.hdq_ads = address | HDQ_WRITE;
hdq_priv.hdq_tx_data = data;
hdq_priv.hdq_request_ctr++;
hdq_priv.pdata->kick_fiq();
/*
* FIQ takes care of it while we block our calling process
* But we're not spinning -- other processes run normally while
* we wait for the result
*/
while (count_sleeps--) {
msleep(10); /* valid transaction always completes in < 10ms */
if (fiq_busy())
continue; /* something bad with FIQ */
if (hdq_priv.hdq_error) {
hdq_bad();
goto done; /* didn't see a response in good time */
}
hdq_good();
ret = 0;
goto done;
}
done:
mutex_unlock(&hdq_priv.hdq_lock);
return ret;
}
EXPORT_SYMBOL_GPL(hdq_write);
/* sysfs */
static ssize_t hdq_sysfs_dump(struct device *dev, struct device_attribute *attr,
char *buf)
{
int n;
int v;
u8 u8a[128]; /* whole address space for HDQ */
char *end = buf;
if (!hdq_priv.hdq_probed)
return -EINVAL;
/* the dump does not take care about 16 bit regs, because at this
* bus level we don't know about the chip details
*/
for (n = 0; n < sizeof(u8a); n++) {
v = hdq_read(n);
if (v < 0)
goto bail;
u8a[n] = v;
}
for (n = 0; n < sizeof(u8a); n += 16) {
hex_dump_to_buffer(u8a + n, sizeof(u8a), 16, 1, end, 4096, 0);
end += strlen(end);
*end++ = '\n';
*end = '\0';
}
return (end - buf);
bail:
return sprintf(buf, "ERROR %d\n", v);
}
/* you write by <address> <data>, eg, "34 128" */
#define atoi(str) simple_strtoul(((str != NULL) ? str : ""), NULL, 0)
static ssize_t hdq_sysfs_write(struct device *dev,
struct device_attribute *attr,
const char *buf, size_t count)
{
const char *end = buf + count;
int address = atoi(buf);
if (!hdq_priv.hdq_probed)
return -EINVAL;
while ((buf != end) && (*buf != ' '))
buf++;
if (buf >= end)
return 0;
while ((buf < end) && (*buf == ' '))
buf++;
if (buf >= end)
return 0;
hdq_write(address, atoi(buf));
return count;
}
static DEVICE_ATTR(dump, 0400, hdq_sysfs_dump, NULL);
static DEVICE_ATTR(write, 0600, NULL, hdq_sysfs_write);
static struct attribute *hdq_sysfs_entries[] = {
&dev_attr_dump.attr,
&dev_attr_write.attr,
NULL
};
static struct attribute_group hdq_attr_group = {
.name = "hdq",
.attrs = hdq_sysfs_entries,
};
#ifdef CONFIG_PM
static int hdq_suspend(struct platform_device *pdev, pm_message_t state)
{
/* after 18s of this, the battery monitor will also go to sleep */
hdq_priv.pdata->gpio_dir_in();
hdq_priv.pdata->disable_fiq();
return 0;
}
static int hdq_resume(struct platform_device *pdev)
{
hdq_priv.pdata->gpio_set(1);
hdq_priv.pdata->gpio_dir_out();
hdq_priv.pdata->enable_fiq();
return 0;
}
#endif
static int __init hdq_probe(struct platform_device *pdev)
{
struct resource *r = platform_get_resource(pdev, 0, 0);
int ret;
struct hdq_platform_data *pdata = pdev->dev.platform_data;
if (!r || !pdata)
return -EINVAL;
platform_set_drvdata(pdev, NULL);
mutex_init(&hdq_priv.hdq_lock);
/* set our HDQ comms pin from the platform data */
hdq_priv.hdq_gpio_pin = r->start;
hdq_priv.pdata = pdata;
hdq_priv.pdata->gpio_set(1);
hdq_priv.pdata->gpio_dir_out();
/* Initialize FIQ */
if (hdq_priv.pdata->enable_fiq() < 0) {
dev_err(&pdev->dev, "Could not enable FIQ source\n");
return -EINVAL;
}
ret = sysfs_create_group(&pdev->dev.kobj, &hdq_attr_group);
if (ret)
return ret;
hdq_priv.hdq_probed = 1; /* we are ready to do stuff now */
/*
* if wanted, users can defer registration of devices
* that depend on HDQ until after we register, and can use our
* device as parent so suspend-resume ordering is correct
*/
if (pdata->attach_child_devices)
(pdata->attach_child_devices)(&pdev->dev);
hdq_priv.pdata = pdata;
return 0;
}
static int hdq_remove(struct platform_device *pdev)
{
sysfs_remove_group(&pdev->dev.kobj, &hdq_attr_group);
return 0;
}
static struct platform_driver hdq_driver = {
.probe = hdq_probe,
.remove = hdq_remove,
#ifdef CONFIG_PM
.suspend = hdq_suspend,
.resume = hdq_resume,
#endif
.driver = {
.name = "hdq",
},
};
static int __init hdq_init(void)
{
return platform_driver_register(&hdq_driver);
}
static void __exit hdq_exit(void)
{
platform_driver_unregister(&hdq_driver);
}
module_init(hdq_init);
module_exit(hdq_exit);
MODULE_AUTHOR("Andy Green <andy@openmoko.com>");
MODULE_DESCRIPTION("HDQ driver");