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|
/* this setupcpu function comes from: */
/*==============================================================================*/
/* FILE : start16.asm*/
/**/
/* DESC : A 16 bit mode assembly language startup program, intended for*/
/* use with on Aspen SC520 platforms.*/
/**/
/* 11/16/2000 Added support for the NetSC520*/
/* 12/28/2000 Modified to boot linux image*/
/**/
/* =============================================================================*/
/* */
/* Copyright 2000 Advanced Micro Devices, Inc. */
/* */
/* This software is the property of Advanced Micro Devices, Inc (AMD) which */
/* specifically grants the user the right to modify, use and distribute this */
/* software provided this COPYRIGHT NOTICE is not removed or altered. All */
/* other rights are reserved by AMD. */
/* */
/* THE MATERIALS ARE PROVIDED "AS IS" WITHOUT ANY EXPRESS OR IMPLIED WARRANTY */
/* OF ANY KIND INCLUDING WARRANTIES OF MERCHANTABILITY, NONINFRINGEMENT OF */
/* THIRD-PARTY INTELLECTUAL PROPERTY, OR FITNESS FOR ANY PARTICULAR PURPOSE.*/
/* IN NO EVENT SHALL AMD OR ITS SUPPLIERS BE LIABLE FOR ANY DAMAGES WHATSOEVER*/
/* (INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF PROFITS, BUSINESS*/
/* INTERRUPTION, LOSS OF INFORMATION) ARISING OUT OF THE USE OF OR INABILITY*/
/* TO USE THE MATERIALS, EVEN IF AMD HAS BEEN ADVISED OF THE POSSIBILITY OF*/
/* SUCH DAMAGES. BECAUSE SOME JURSIDICTIONS PROHIBIT THE EXCLUSION OR*/
/* LIMITATION OF LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL DAMAGES, THE ABOVE*/
/* LIMITATION MAY NOT APPLY TO YOU.*/
/**/
/* AMD does not assume any responsibility for any errors that may appear in*/
/* the Materials nor any responsibility to support or update the Materials.*/
/* AMD retains the right to make changes to its test specifications at any*/
/* time, without notice.*/
/**/
/* So that all may benefit from your experience, please report any problems */
/* or suggestions about this software back to AMD. Please include your name, */
/* company, telephone number, AMD product requiring support and question or */
/* problem encountered. */
/* */
/* Advanced Micro Devices, Inc. Worldwide support and contact */
/* Embedded Processor Division information available at: */
/* Systems Engineering epd.support@amd.com*/
/* 5204 E. Ben White Blvd. -or-*/
/* Austin, TX 78741 http://www.amd.com/html/support/techsup.html*/
/* ============================================================================*/
#define OUTC(addr, val) *(unsigned char *)(addr) = (val)
/* sadly, romcc can't quite handle what we want, so we do this ugly thing */
#define drcctl (( volatile unsigned char *)0xfffef010)
#define drcmctl (( volatile unsigned char *)0xfffef012)
#define drccfg (( volatile unsigned char *)0xfffef014)
#define drcbendadr (( volatile unsigned long *)0xfffef018)
#define eccctl (( volatile unsigned char *)0xfffef020)
#define dbctl (( volatile unsigned char *)0xfffef040)
void setupsc520(void)
{
volatile unsigned char *cp;
volatile unsigned short *sp;
volatile unsigned long *edi;
/* do this to see if MMCR will start acting right. we suspect
* you have to do SOMETHING to get things going. I'm really
* starting to hate this processor.
*/
/* no, that did not help. I wonder what will?
* outl(0x800df0cb, 0xfffc);
*/
/* well, this is special! You have to do SHORT writes to the
* locations, even though they are CHAR in size and CHAR aligned
* and technically, a SHORT write will result in -- yoo ha! --
* over writing the next location! Thanks to the u-boot guys
* for a reference code I can use. with these short pointers,
* it now reliably comes up after power cycle with printk. Ah yi
* yi.
*/
/* turn off the write buffer*/
/* per the note above, make this a short? Let's try it. */
sp = (unsigned short *)0xfffef040;
*sp = 0;
/* as per the book: */
/* PAR register setup */
/* set up the PAR registers as they are on the MSM586SEG */
/* moved to romstage.c by Stepan, Ron says: */
/* NOTE: move this to mainboard.c ASAP */
setup_pars();
/* CPCSF register */
sp = (unsigned short *)0xfffefc24;
*sp = 0xfe;
/* ADDDECTL */
sp = (unsigned short *)0xfffefc80;
*sp = 0x10;
/* byte writes in AMD assembly */
/* we do short anyway, since u-boot does ... */
/*set the GP CS offset*/
sp = (unsigned short *)0xfffefc08;
*sp = 0x00001;
/*set the GP CS width*/
sp = (unsigned short *)0xfffefc09;
*sp = 0x00003;
/* short writes in AMD assembly */
/*set the GP CS width*/
sp = (unsigned short *)0xfffefc0a;
*sp = 0x00001;
/*set the RD pulse width*/
sp = (unsigned short *)0xfffefc0b;
*sp = 0x00003;
/*set the GP RD offset */
sp = (unsigned short *)0xfffefc0c;
*sp = 0x00001;
/*set the GP WR pulse width*/
sp = (unsigned short *)0xfffefc0d;
*sp = 0x00003;
/*set the GP WR offset*/
sp = (unsigned short *)0xfffefc0e;
*sp = 0x00001;
/* set up the GP IO pins*/
/*set the GPIO directionreg*/
sp = (unsigned short *)0xfffefc2c;
*sp = 0x00000;
/*set the GPIO directionreg*/
sp = (unsigned short *)0xfffefc2a;
*sp = 0x00000;
/*set the GPIO pin function 31-16 reg*/
sp = (unsigned short *)0xfffefc22;
*sp = 0x0FFFF;
/*set the GPIO pin function 15-0 reg*/
sp = (unsigned short *)0xfffefc20;
*sp = 0x0FFFF;
/* the 0x80 led should now be working*/
post_code(0xaa);
#if 0
/* wtf are 680 leds ... *//* <-- WTF is this comment? */
par = (unsigned long *) 0xfffef0c4;
*par = 0x28000680;
/* well? */
post_code(0x55);
#endif
/* set the uart baud rate clocks to the normal 1.8432 MHz.*/
/* enable interrupts here? Why not? */
cp = (unsigned char *)0xfffefcc0;
*cp = 4 | 3; /* uart 1 clock source */
cp = (unsigned char *)0xfffefcc4;
*cp = 4; /* uart 2 clock source */
#if 0
/*; set the interrupt mapping registers.*/
cp = (unsigned char *)0x0fffefd20;
*cp = 0x01;
cp = (unsigned char *)0x0fffefd28;
*cp = 0x0c;
cp = (unsigned char *)0x0fffefd29;
*cp = 0x0b;
cp = (unsigned char *)0x0fffefd30;
*cp = 0x07;
cp = (unsigned char *)0x0fffefd43;
*cp = 0x03;
cp = (unsigned char *)0x0fffefd51;
*cp = 0x02;
#endif
/* Stepan says: This needs to go to the msm586seg code */
/* "enumerate" the PCI. Mainly set the interrupt bits on the PCnetFast. */
outl(0x08000683c, 0xcf8);
outl(0xc, 0xcfc); /* set the interrupt line */
/* Set the SC520 PCI host bridge to target mode to
* allow external bus mastering events
*/
/* index the status command register on device 0*/
outl(0x080000004, 0x0cf8);
outl(0x2, 0xcfc); /*set the memory access enable bit*/
OUTC(0x0fffef072, 1); /* enable req bits in SYSARBMENB */
}
/*
*
*
*/
#define CACHELINESZ 0x00000010 /* size of our cache line (read buffer)*/
#define COL11_ADR *(unsigned int *)0x0e001e00 /* 11 col addrs*/
#define COL10_ADR *(unsigned int *)0x0e000e00 /* 10 col addrs*/
#define COL09_ADR *(unsigned int *)0x0e000600 /* 9 col addrs*/
#define COL08_ADR *(unsigned int *)0x0e000200 /* 8 col addrs*/
#define ROW14_ADR *(unsigned int *)0x0f000000 /* 14 row addrs*/
#define ROW13_ADR *(unsigned int *)0x07000000 /* 13 row addrs*/
#define ROW12_ADR *(unsigned int *)0x03000000 /* 12 row addrs*/
#define ROW11_ADR *(unsigned int *)0x01000000 /* 11 row addrs/also bank switch*/
#define ROW10_ADR *(unsigned int *)0x00000000 /* 10 row addrs/also bank switch*/
#define COL11_DATA 0x0b0b0b0b /* 11 col addrs*/
#define COL10_DATA 0x0a0a0a0a /* 10 col data*/
#define COL09_DATA 0x09090909 /* 9 col data*/
#define COL08_DATA 0x08080808 /* 8 col data*/
#define ROW14_DATA 0x3f3f3f3f /* 14 row data (MASK)*/
#define ROW13_DATA 0x1f1f1f1f /* 13 row data (MASK)*/
#define ROW12_DATA 0x0f0f0f0f /* 12 row data (MASK)*/
#define ROW11_DATA 0x07070707 /* 11 row data/also bank switch (MASK)*/
#define ROW10_DATA 0xaaaaaaaa /* 10 row data/also bank switch (MASK)*/
void
dummy_write(void){
volatile unsigned short *ptr = (volatile unsigned short *)CACHELINESZ;
*ptr = 0;
}
#include "drivers/pc80/udelay_io.c"
static void dumpram(void){
print_err("ctl "); print_err_hex8(*drcctl); print_err("\n");
print_err("mctl "); print_err_hex8(*drcmctl); print_err("\n");
print_err("cfg "); print_err_hex8(*drccfg); print_err("\n");
print_err("bendadr0 "); print_err_hex8(*drcbendadr); print_err("\n");
print_err("bendadr1 "); print_err_hex8(*drcbendadr); print_err("\n");
print_err("bendadr2 "); print_err_hex8(*drcbendadr); print_err("\n");
print_err("bendadr3"); print_err_hex8(*drcbendadr); print_err("\n");
}
/* there is a lot of silliness in the amd code, and it is
* causing romcc real headaches, so we're going to be be a little
* less silly.
* so, the order of ops is:
* for i in 3 to 0
* see if bank is there.
* if we can write a word, and read it back, to hell with paranoia
* the bank is there. So write the magic byte, read it back, and
* use that to get size, etc. Try to keep things very simple,
* so people can actually follow the damned code.
*/
/* cache is assumed to be disabled */
int sizemem(void)
{
int rows,banks, cols, i, bank;
unsigned char al;
volatile unsigned long *lp = (volatile unsigned long *) CACHELINESZ;
unsigned long l;
/* initialize dram controller registers */
/* disable write buffer/read-ahead buffer */
*dbctl = 0;
/* no ecc interrupts of any kind. */
*eccctl = 0;
/* Set SDRAM timing for slowest speed. */
*drcmctl = 0x1e;
/* setup dram register for all banks
* with max cols and max banks
* this is the oldest trick in the book. You are going to set up for max rows
* and cols, then do a write, then see if the data is wrapped to low memory.
* you can actually tell by which data gets to which low memory,
* exactly how many rows and cols you have.
*/
*drccfg=0xbbbb;
/* setup loop to do 4 external banks starting with bank 3 */
*drcbendadr=0x0ff000000;
/* for now, set it up for one loop of bank 0. Just to get it to go at all. */
*drcbendadr=0x0ff;
/* issue a NOP to all DRAMs */
/* Setup DRAM control register with Disable refresh,
* disable write buffer Test Mode and NOP command select
*/
*drcctl=0x01;
/* dummy write for NOP to take effect */
dummy_write();
print_err("NOP\n");
/* 100? 200? */
udelay(100);
print_err("after udelay\n");
/* issue all banks precharge */
*drcctl=0x02;
print_err("set *drcctl to 2 \n");
dummy_write();
print_err("PRE\n");
/* issue 2 auto refreshes to all banks */
*drcctl=0x04;
dummy_write();
print_err("AUTO1\n");
dummy_write();
print_err("AUTO2\n");
/* issue LOAD MODE REGISTER command */
*drcctl=0x03;
dummy_write();
print_err("LOAD MODE REG\n");
*drcctl=0x04;
for (i=0; i<8; i++) /* refresh 8 times */{
dummy_write();
print_err("dummy write\n");
}
print_err("8 dummy writes\n");
/* set control register to NORMAL mode */
*drcctl=0x00;
print_err("normal\n");
print_err("HI done normal\n");
print_err("sizemem\n");
for(bank = 3; bank >= 0; bank--) {
print_err("Try to assign to l\n");
*lp = 0xdeadbeef;
print_err("assigned l ... \n");
if (*lp != 0xdeadbeef) {
print_err(" no memory at bank ");
// print_err_hex8(bank);
// print_err(" value "); print_err_hex32(*lp);
print_err("\n");
// continue;
}
*drcctl = 2;
dummy_write();
*drccfg = *drccfg >> 4;
l = *drcbendadr;
l >>= 8;
*drcbendadr = l;
print_err("loop around\n");
*drcctl = 0;
dummy_write();
}
#if 0
/* enable last bank and setup ending address
* register for max ram in last bank
*/
*drcbendadr=0x0ff000000;
// dumpram();
/* issue a NOP to all DRAMs */
/* Setup DRAM control register with Disable refresh,
* disable write buffer Test Mode and NOP command select
*/
*drcctl=0x01;
/* dummy write for NOP to take effect */
dummy_write();
print_err("NOP\n");
/* 100? 200? */
//udelay(100);
print_err("after udelay\n");
/* issue all banks precharge */
*drcctl=0x02;
print_err("set *drcctl to 2 \n");
dummy_write();
print_err("PRE\n");
/* issue 2 auto refreshes to all banks */
*drcctl=0x04;
dummy_write();
print_err("AUTO1\n");
dummy_write();
print_err("AUTO2\n");
/* issue LOAD MODE REGISTER command */
*drcctl=0x03;
dummy_write();
print_err("LOAD MODE REG\n");
*drcctl=0x04;
for (i=0; i<8; i++) /* refresh 8 times */{
dummy_write();
print_err("dummy write\n");
}
print_err("8 dummy writes\n");
/* set control register to NORMAL mode */
*drcctl=0x00;
print_err("normal\n");
print_err("HI done normal\n");
bank = 3;
/* this is really ugly, it is right from assembly code.
* we need to clean it up later
*/
start:
/* write col 11 wrap adr */
COL11_ADR=COL11_DATA;
if(COL11_ADR!=COL11_DATA)
goto bad_ram;
print_err("11\n");
/* write col 10 wrap adr */
COL10_ADR=COL10_DATA;
if(COL10_ADR!=COL10_DATA)
goto bad_ram;
print_err("10\n");
/* write col 9 wrap adr */
COL09_ADR=COL09_DATA;
if(COL09_ADR!=COL09_DATA)
goto bad_ram;
print_err("9\n");
/* write col 8 wrap adr */
COL08_ADR=COL08_DATA;
if(COL08_ADR!=COL08_DATA)
goto bad_ram;
print_err("8\n");
/* write row 14 wrap adr */
ROW14_ADR=ROW14_DATA;
if(ROW14_ADR!=ROW14_DATA)
goto bad_ram;
print_err("14\n");
/* write row 13 wrap adr */
ROW13_ADR=ROW13_DATA;
if(ROW13_ADR!=ROW13_DATA)
goto bad_ram;
print_err("13\n");
/* write row 12 wrap adr */
ROW12_ADR=ROW12_DATA;
if(ROW12_ADR!=ROW12_DATA)
goto bad_ram;
print_err("12\n");
/* write row 11 wrap adr */
ROW11_ADR=ROW11_DATA;
if(ROW11_ADR!=ROW11_DATA)
goto bad_ram;
print_err("11\n");
/* write row 10 wrap adr */
ROW10_ADR=ROW10_DATA;
if(ROW10_ADR!=ROW10_DATA)
goto bad_ram;
print_err("10\n");
/*
* read data @ row 12 wrap adr to determine # banks,
* and read data @ row 14 wrap adr to determine # rows.
* if data @ row 12 wrap adr is not AA, 11 or 12 we have bad RAM.
* if data @ row 12 wrap == AA, we only have 2 banks, NOT 4
* if data @ row 12 wrap == 11 or 12, we have 4 banks
*/
banks=2;
if (ROW12_ADR != ROW10_DATA) {
banks=4;
print_err("4b\n");
if(ROW12_ADR != ROW11_DATA) {
if(ROW12_ADR != ROW12_DATA)
goto bad_ram;
}
}
/* validate row mask */
rows=ROW14_ADR;
if (rows<ROW11_DATA)
goto bad_ram;
if (rows>ROW14_DATA)
goto bad_ram;
/* verify all 4 bytes of dword same */
/*
if(rows&0xffff!=(rows>>16)&0xffff)
goto bad_ram;
if(rows&0xff!=(rows>>8)&0xff)
goto bad_ram;
*/
/* now just get one of them */
rows &= 0xff;
print_err("rows"); print_err_hex32(rows); print_err("\n");
/* validate column data */
cols=COL11_ADR;
if(cols<COL08_DATA)
goto bad_ram;
if (cols>COL11_DATA)
goto bad_ram;
/* verify all 4 bytes of dword same */
/*
if(cols&0xffff!=(cols>>16)&0xffff)
goto bad_ram;
if(cols&0xff!=(cols>>8)&0xff)
goto bad_ram;
*/
print_err("cols"); print_err_hex32(cols); print_err("\n");
cols -= COL08_DATA;
/* cols now is in the range of 0 1 2 3 ...
*/
i = cols&3;
// i = cols + rows;
/* wacky end addr calculation */
/*
al = 3;
al -= (i & 0xff);k
*/
/* what a fookin' mess this is */
if(banks==4)
i+=8; /* <-- i holds merged value */
/* i now has the col width in bits 0-1 and the bank count (2 or 4)
* in bit 3.
* this is the format for the drccfg register
*/
/* fix ending addr mask*/
/*FIXME*/
/* let's just go with this to start ... see if we can get ANYWHERE */
/* need to get end addr. Need to do it with the bank in mind. */
/*
al = 3;
al -= i&3;
*drcbendaddr = rows >> al;
print_err("computed ending_adr = "); print_err_hex8(ending_adr);
print_err("\n");
*/
bad_reinit:
/* issue all banks recharge */
*drcctl=0x02;
dummy_write();
/* update ending address register */
// *drcbendadr = ending_adr;
/* update config register */
*drccfg &= ~(0xff << bank*4);
if (ending_adr)
*drccfg = ((banks == 4 ? 8 : 0) | cols & 3)<< (bank*4);
// dumpram();
/* skip the rest for now */
// bank = 0;
// *drccfg=*drccfg&YYY|ZZZZ;
if(bank!=0) {
bank--;
// drcbendaddr--;
*drcbendaddr = 0xff000000;
//*(&*drcbendadr+XXYYXX)=0xff;
goto start;
}
/* set control register to NORMAL mode */
*drcctl=0x18;
dummy_write();
return bank;
bad_ram:
print_info("bad ram!\n");
/* you are here because the read-after-write failed,
* in most cases because: no ram in that bank!
* set badbank to 1 and go to reinit
*/
ending_adr = 0;
goto bad_reinit;
while(1)
print_err("DONE NEXTBANK\n");
#endif
}
/* note: based on AMD code*/
/* This code is known to work on the digital logic board and on the technologic
* systems ts5300
*/
int staticmem(void)
{
volatile unsigned long *zero = (unsigned long *) CACHELINESZ;
/* set up 0x18 .. **/
*drcbendadr = 0x88;
*drcmctl = 0x1e;
*drccfg = 0x9;
/* nop mode */
*drcctl = 0x1;
/* do the dummy write */
*zero = 0;
/* precharge */
*drcctl = 2;
*zero = 0;
/* two autorefreshes */
*drcctl = 4;
*zero = 0;
print_debug("one zero out on refresh\n");
*zero = 0;
print_debug("two zero out on refresh\n");
/* load mode register */
*drcctl = 3;
*zero = 0;
print_debug("DONE the load mode reg\n");
/* normal mode */
*drcctl = 0x0;
*zero = 0;
print_debug("DONE one last write and then turn on refresh etc\n");
*drcctl = 0x18;
*zero = 0;
print_debug("DONE the normal\n");
*zero = 0xdeadbeef;
if (*zero != 0xdeadbeef)
print_debug("NO LUCK\n");
else
print_debug("did a store and load ...\n");
//print_err_hex32(*zero);
// print_err(" zero is now "); print_err_hex32(*zero); print_err("\n");
}
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