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/*
* (C) Copyright 2004
* DAVE Srl
* http://www.dave-tech.it
* http://www.wawnet.biz
* mailto:info@wawnet.biz
*
* See file CREDITS for list of people who contributed to this
* project.
*
* 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
*/
/*
* S3C44B0 CPU specific code
*/
#include <common.h>
#include <command.h>
#include <asm/hardware.h>
static void s3c44b0_flush_cache(void)
{
volatile int i;
/* flush cycle */
for(i=0x10002000;i<0x10004800;i+=16)
{
*((int *)i)=0x0;
}
}
int cpu_init (void)
{
icache_enable();
return 0;
}
int cleanup_before_linux (void)
{
/*
cache memory should be enabled before calling
Linux to make the kernel uncompression faster
*/
icache_enable();
disable_interrupts ();
return 0;
}
void reset_cpu (ulong addr)
{
/*
reset the cpu using watchdog
*/
/* Disable the watchdog.*/
WTCON&=~(1<<5);
/* set the timeout value to a short time... */
WTCNT = 0x1;
/* Enable the watchdog. */
WTCON|=1;
WTCON|=(1<<5);
while(1) {
/*NOP*/
}
}
int do_reset (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[])
{
disable_interrupts ();
reset_cpu (0);
/*NOTREACHED*/
return (0);
}
void icache_enable (void)
{
ulong reg;
s3c44b0_flush_cache();
/*
Init cache
Non-cacheable area (everything outside RAM)
0x0000:0000 - 0x0C00:0000
*/
NCACHBE0 = 0xC0000000;
NCACHBE1 = 0x00000000;
/*
Enable chache
*/
reg = SYSCFG;
reg |= 0x00000006; /* 8kB */
SYSCFG = reg;
}
void icache_disable (void)
{
ulong reg;
reg = SYSCFG;
reg &= ~0x00000006; /* 8kB */
SYSCFG = reg;
}
int icache_status (void)
{
return 0;
}
void dcache_enable (void)
{
icache_enable();
}
void dcache_disable (void)
{
icache_disable();
}
int dcache_status (void)
{
return dcache_status();
}
/*
RTC stuff
*/
#include <rtc.h>
#ifndef BCD2HEX
#define BCD2HEX(n) ((n>>4)*10+(n&0x0f))
#endif
#ifndef HEX2BCD
#define HEX2BCD(x) ((((x) / 10) << 4) + (x) % 10)
#endif
void rtc_get (struct rtc_time* tm)
{
RTCCON |= 1;
tm->tm_year = BCD2HEX(BCDYEAR);
tm->tm_mon = BCD2HEX(BCDMON);
tm->tm_wday = BCD2HEX(BCDDATE);
tm->tm_mday = BCD2HEX(BCDDAY);
tm->tm_hour = BCD2HEX(BCDHOUR);
tm->tm_min = BCD2HEX(BCDMIN);
tm->tm_sec = BCD2HEX(BCDSEC);
if (tm->tm_sec==0) {
/* we have to re-read the rtc data because of the "one second deviation" problem */
/* see RTC datasheet for more info about it */
tm->tm_year = BCD2HEX(BCDYEAR);
tm->tm_mon = BCD2HEX(BCDMON);
tm->tm_mday = BCD2HEX(BCDDAY);
tm->tm_wday = BCD2HEX(BCDDATE);
tm->tm_hour = BCD2HEX(BCDHOUR);
tm->tm_min = BCD2HEX(BCDMIN);
tm->tm_sec = BCD2HEX(BCDSEC);
}
RTCCON &= ~1;
if(tm->tm_year >= 70)
tm->tm_year += 1900;
else
tm->tm_year += 2000;
}
void rtc_set (struct rtc_time* tm)
{
if(tm->tm_year < 2000)
tm->tm_year -= 1900;
else
tm->tm_year -= 2000;
RTCCON |= 1;
BCDYEAR = HEX2BCD(tm->tm_year);
BCDMON = HEX2BCD(tm->tm_mon);
BCDDAY = HEX2BCD(tm->tm_mday);
BCDDATE = HEX2BCD(tm->tm_wday);
BCDHOUR = HEX2BCD(tm->tm_hour);
BCDMIN = HEX2BCD(tm->tm_min);
BCDSEC = HEX2BCD(tm->tm_sec);
RTCCON &= 1;
}
void rtc_reset (void)
{
RTCCON |= 1;
BCDYEAR = 0;
BCDMON = 0;
BCDDAY = 0;
BCDDATE = 0;
BCDHOUR = 0;
BCDMIN = 0;
BCDSEC = 0;
RTCCON &= 1;
}
/*
I2C stuff
*/
/*
* Initialization, must be called once on start up, may be called
* repeatedly to change the speed and slave addresses.
*/
void i2c_init(int speed, int slaveaddr)
{
/*
setting up I2C support
*/
unsigned int save_F,save_PF,rIICCON,rPCONA,rPDATA,rPCONF,rPUPF;
save_F = PCONF;
save_PF = PUPF;
rPCONF = ((save_F & ~(0xF))| 0xa);
rPUPF = (save_PF | 0x3);
PCONF = rPCONF; /*PF0:IICSCL, PF1:IICSDA*/
PUPF = rPUPF; /* Disable pull-up */
/* Configuring pin for WC pin of EEprom */
rPCONA = PCONA;
rPCONA &= ~(1<<9);
PCONA = rPCONA;
rPDATA = PDATA;
rPDATA &= ~(1<<9);
PDATA = rPDATA;
/*
Enable ACK, IICCLK=MCLK/16, enable interrupt
75Mhz/16/(12+1) = 390625 Hz
*/
rIICCON=(1<<7)|(0<<6)|(1<<5)|(0xC);
IICCON = rIICCON;
IICADD = slaveaddr;
}
/*
* Probe the given I2C chip address. Returns 0 if a chip responded,
* not 0 on failure.
*/
int i2c_probe(uchar chip)
{
/*
not implemented
*/
printf("i2c_probe chip %d\n", (int) chip);
return -1;
}
/*
* Read/Write interface:
* chip: I2C chip address, range 0..127
* addr: Memory (register) address within the chip
* alen: Number of bytes to use for addr (typically 1, 2 for larger
* memories, 0 for register type devices with only one
* register)
* buffer: Where to read/write the data
* len: How many bytes to read/write
*
* Returns: 0 on success, not 0 on failure
*/
#define S3C44B0X_rIIC_INTPEND (1<<4)
#define S3C44B0X_rIIC_LAST_RECEIV_BIT (1<<0)
#define S3C44B0X_rIIC_INTERRUPT_ENABLE (1<<5)
#define S3C44B0_IIC_TIMEOUT 100
int i2c_read(uchar chip, uint addr, int alen, uchar *buffer, int len)
{
int k, j, temp;
u32 rIICSTAT;
/*
send the device offset
*/
rIICSTAT = 0xD0;
IICSTAT = rIICSTAT;
IICDS = chip; /* this is a write operation... */
rIICSTAT |= (1<<5);
IICSTAT = rIICSTAT;
for(k=0; k<S3C44B0_IIC_TIMEOUT; k++) {
temp = IICCON;
if( (temp & S3C44B0X_rIIC_INTPEND) == S3C44B0X_rIIC_INTPEND)
break;
udelay(2000);
}
if (k==S3C44B0_IIC_TIMEOUT)
return -1;
/* wait and check ACK */
temp = IICSTAT;
if ((temp & S3C44B0X_rIIC_LAST_RECEIV_BIT) == S3C44B0X_rIIC_LAST_RECEIV_BIT )
return -1;
IICDS = addr;
IICCON = IICCON & ~(S3C44B0X_rIIC_INTPEND);
/* wait and check ACK */
for(k=0; k<S3C44B0_IIC_TIMEOUT; k++) {
temp = IICCON;
if( (temp & S3C44B0X_rIIC_INTPEND) == S3C44B0X_rIIC_INTPEND)
break;
udelay(2000);
}
if (k==S3C44B0_IIC_TIMEOUT)
return -1;
temp = IICSTAT;
if ((temp & S3C44B0X_rIIC_LAST_RECEIV_BIT) == S3C44B0X_rIIC_LAST_RECEIV_BIT )
return -1;
/*
now we can start with the read operation...
*/
IICDS = chip | 0x01; /* this is a read operation... */
rIICSTAT = 0x90; /*master recv*/
rIICSTAT |= (1<<5);
IICSTAT = rIICSTAT;
IICCON = IICCON & ~(S3C44B0X_rIIC_INTPEND);
/* wait and check ACK */
for(k=0; k<S3C44B0_IIC_TIMEOUT; k++) {
temp = IICCON;
if( (temp & S3C44B0X_rIIC_INTPEND) == S3C44B0X_rIIC_INTPEND)
break;
udelay(2000);
}
if (k==S3C44B0_IIC_TIMEOUT)
return -1;
temp = IICSTAT;
if ((temp & S3C44B0X_rIIC_LAST_RECEIV_BIT) == S3C44B0X_rIIC_LAST_RECEIV_BIT )
return -1;
for (j=0; j<len-1; j++) {
/*clear pending bit to resume */
temp = IICCON & ~(S3C44B0X_rIIC_INTPEND);
IICCON = temp;
/* wait and check ACK */
for(k=0; k<S3C44B0_IIC_TIMEOUT; k++) {
temp = IICCON;
if( (temp & S3C44B0X_rIIC_INTPEND) == S3C44B0X_rIIC_INTPEND)
break;
udelay(2000);
}
if (k==S3C44B0_IIC_TIMEOUT)
return -1;
buffer[j] = IICDS; /*save readed data*/
} /*end for(j)*/
/*
reading the last data
unset ACK generation
*/
temp = IICCON & ~(S3C44B0X_rIIC_INTPEND | (1<<7));
IICCON = temp;
/* wait but NOT check ACK */
for(k=0; k<S3C44B0_IIC_TIMEOUT; k++) {
temp = IICCON;
if( (temp & S3C44B0X_rIIC_INTPEND) == S3C44B0X_rIIC_INTPEND)
break;
udelay(2000);
}
if (k==S3C44B0_IIC_TIMEOUT)
return -1;
buffer[j] = IICDS; /*save readed data*/
rIICSTAT = 0x90; /*master recv*/
/* Write operation Terminate sending STOP */
IICSTAT = rIICSTAT;
/*Clear Int Pending Bit to RESUME*/
temp = IICCON;
IICCON = temp & (~S3C44B0X_rIIC_INTPEND);
IICCON = IICCON | (1<<7); /*restore ACK generation*/
return 0;
}
int i2c_write(uchar chip, uint addr, int alen, uchar *buffer, int len)
{
int j, k;
u32 rIICSTAT, temp;
/*
send the device offset
*/
rIICSTAT = 0xD0;
IICSTAT = rIICSTAT;
IICDS = chip; /* this is a write operation... */
rIICSTAT |= (1<<5);
IICSTAT = rIICSTAT;
IICCON = IICCON & ~(S3C44B0X_rIIC_INTPEND);
/* wait and check ACK */
for(k=0; k<S3C44B0_IIC_TIMEOUT; k++) {
temp = IICCON;
if( (temp & S3C44B0X_rIIC_INTPEND) == S3C44B0X_rIIC_INTPEND)
break;
udelay(2000);
}
if (k==S3C44B0_IIC_TIMEOUT)
return -1;
temp = IICSTAT;
if ((temp & S3C44B0X_rIIC_LAST_RECEIV_BIT) == S3C44B0X_rIIC_LAST_RECEIV_BIT )
return -1;
IICDS = addr;
IICCON = IICCON & ~(S3C44B0X_rIIC_INTPEND);
/* wait and check ACK */
for(k=0; k<S3C44B0_IIC_TIMEOUT; k++) {
temp = IICCON;
if( (temp & S3C44B0X_rIIC_INTPEND) == S3C44B0X_rIIC_INTPEND)
break;
udelay(2000);
}
if (k==S3C44B0_IIC_TIMEOUT)
return -1;
temp = IICSTAT;
if ((temp & S3C44B0X_rIIC_LAST_RECEIV_BIT) == S3C44B0X_rIIC_LAST_RECEIV_BIT )
return -1;
/*
now we can start with the read write operation
*/
for (j=0; j<len; j++) {
IICDS = buffer[j]; /*prerare data to write*/
/*clear pending bit to resume*/
temp = IICCON & ~(S3C44B0X_rIIC_INTPEND);
IICCON = temp;
/* wait but NOT check ACK */
for(k=0; k<S3C44B0_IIC_TIMEOUT; k++) {
temp = IICCON;
if( (temp & S3C44B0X_rIIC_INTPEND) == S3C44B0X_rIIC_INTPEND)
break;
udelay(2000);
}
if (k==S3C44B0_IIC_TIMEOUT)
return -1;
} /* end for(j) */
/* sending stop to terminate */
rIICSTAT = 0xD0; /*master send*/
IICSTAT = rIICSTAT;
/*Clear Int Pending Bit to RESUME*/
temp = IICCON;
IICCON = temp & (~S3C44B0X_rIIC_INTPEND);
return 0;
}
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