Revision: linuxbios@linuxbios.org--devel/freebios--devel--2.0--patch-47
Creator: Ronald G. Minnich <rminnich@lanl.gov> git-svn-id: svn://svn.coreboot.org/coreboot/trunk@1963 2b7e53f0-3cfb-0310-b3e9-8179ed1497e1
This commit is contained in:
parent
52871c4ad5
commit
897c78bd15
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@ -45,6 +45,7 @@
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/* Austin, TX 78741 http://www.amd.com/html/support/techsup.html*/
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/* ============================================================================*/
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#define OUTC(addr, val) *(unsigned char *)(addr) = (val)
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@ -60,26 +61,26 @@ setupsc520(void){
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*cp = 0;
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/*set the GP CS offset*/
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sp = (unsigned short *)0xfffefc08;
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*sp = 0x00001;
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cp = (unsigned char *)0xfffefc08;
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*cp = 0x00001;
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/*set the GP CS width*/
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sp = (unsigned short *)0xfffefc09;
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*sp = 0x00003;
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cp = (unsigned char *)0xfffefc09;
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*cp = 0x00003;
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/*set the GP CS width*/
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sp = (unsigned short *)0xfffefc0a;
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*sp = 0x00001;
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cp = (unsigned char *)0xfffefc0a;
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*cp = 0x00001;
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/*set the RD pulse width*/
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sp = (unsigned short *)0xfffefc0b;
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*sp = 0x00003;
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/*set the GP RD offse*/
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sp = (unsigned short *)0xfffefc0c;
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*sp = 0x00001;
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cp = (unsigned char *)0xfffefc0b;
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*cp = 0x00003;
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/*set the GP RD offset */
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cp = (unsigned char *)0xfffefc0c;
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*cp = 0x00001;
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/*set the GP WR pulse width*/
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sp = (unsigned short *)0xfffefc0d;
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*sp = 0x00003;
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cp = (unsigned char *)0xfffefc0d;
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*cp = 0x00003;
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/*set the GP WR offset*/
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sp = (unsigned short *)0xfffefc0e;
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*sp = 0x00001;
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cp = (unsigned char *)0xfffefc0e;
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*cp = 0x00001;
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/* set up the GP IO pins*/
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/*set the GPIO directionreg*/
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sp = (unsigned short *)0xfffefc2c;
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@ -142,14 +143,6 @@ else
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/*
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; set up a PAR to allow access to the 680 leds
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; WriteMMCR( 0xc4,0x28000680); // PAR15
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*/
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/*set PAR 15 for access to led 680*/
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/* skip hairy pci hack for now *
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sp = (unsigned short *)0xfffef0c4;
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mov eax,028000680h
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mov dx,0680h
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*sp = 0x02; ; output a 2 to led 680
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out dx,ax
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*/
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/*; set the uart baud rate clocks to the normal 1.8432 MHz.*/
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cp = (unsigned char *)0xfffefcc0;
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@ -205,7 +198,7 @@ else
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*par++ = 0x341f03e0; /*PAR12: GP BUS IO:CS5:Base 0x3e0, size 0x1f:*/
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*par++ = 0xe41c00c0; /*PAR13: SDRAM:code:cache:nowrite:Base 0xc0000, size 0x7000:*/
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*par++ = 0x545c00c8; /*PAR14: GP BUS MEM:CS5:Base 0xc8, size 0x5c:*/
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*par++ = 0x8a020200; /*PAR15: BOOTCS:code:nocache:write:Base 0x2000000, size 0x80000:*/
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// *par++ = 0x8a020200; /*PAR15: BOOTCS:code:nocache:write:Base 0x2000000, size 0x80000:*/
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}
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@ -216,12 +209,7 @@ else
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*
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*/
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#define DRCCTL *(char*)0x0fffef010 /* DRAM control register*/
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#define DRCTMCTL *(char*)0x0fffef012 /* DRAM timing control register*/
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#define DRCCFG *(char*)0x0fffef014 /* DRAM bank configuration register*/
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#define DRCBENDADR *(char*)0x0fffef018 /* DRAM bank ending address register*/
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#define ECCCTL *(char*)0x0fffef020 /* DRAM ECC control register*/
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#define DBCTL *(char*)0x0fffef040 /* DRAM buffer control register*/
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#define CACHELINESZ 0x00000010 /* size of our cache line (read buffer)*/
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@ -240,23 +228,72 @@ else
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#define COL10_DATA 0x0a0a0a0a /* 10 col data*/
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#define COL09_DATA 0x09090909 /* 9 col data*/
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#define COL08_DATA 0x08080808 /* 8 col data*/
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#define ROW14_DATA 0x3f3f3f3f /* 14 row data (MASK)*/
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#define ROW13_DATA 0x1f1f1f1f /* 13 row data (MASK)*/
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#define ROW12_DATA 0x0f0f0f0f /* 12 row data (MASK)*/
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#define ROW11_DATA 0x07070707 /* 11 row data/also bank switch (MASK)*/
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#define ROW10_DATA 0xaaaaaaaa /* 10 row data/also bank switch (MASK)*/
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#define dummy_write() *(short *)CACHELINESZ=0x1010
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void
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dummy_write(void){
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volatile unsigned short *ptr = (volatile unsigned short *)CACHELINESZ;
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*ptr = 0;
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}
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void udelay(int microseconds) {
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void sc520_udelay(int microseconds) {
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volatile int x;
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for(x = 0; x < 1000; x++)
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;
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}
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struct ramctl {
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unsigned char drcctl;
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unsigned char pad1;
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unsigned char drcmctl;
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unsigned char pad2;
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unsigned char drccfg;
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unsigned char pad[3];
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unsigned char drcbendadr[4];
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};
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#define RAMCTL (struct ramctl *) 0xfffef010
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static void dumpram(void){
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struct ramctl *ram = RAMCTL;
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print_err("ctl "); print_err_hex8(ram->drcctl); print_err("\r\n");
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print_err("mctl "); print_err_hex8(ram->drcmctl); print_err("\r\n");
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print_err("cfg "); print_err_hex8(ram->drccfg); print_err("\r\n");
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print_err("bendadr0 "); print_err_hex8(ram->drcbendadr[0]); print_err("\r\n");
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print_err("bendadr1 "); print_err_hex8(ram->drcbendadr[1]); print_err("\r\n");
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print_err("bendadr2 "); print_err_hex8(ram->drcbendadr[2]); print_err("\r\n");
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print_err("bendadr3"); print_err_hex8(ram->drcbendadr[3]); print_err("\r\n");
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}
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struct eccctl {
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unsigned char eccctl;
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unsigned char eccsta;
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unsigned char eccckbpos;
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unsigned char ecccktest;
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unsigned char eccsbadd;
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unsigned char pad[3];
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unsigned char eccmbad;
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};
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#define ECCCTL (struct eccctl *) 0xfffef020
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#define DBCTL (unsigned char *) 0xfffef040
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#if 0
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int nextbank(int bank)
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{
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int rows,banks, cols, i, ending_adr;
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struct ramctl *ram = RAMCTL;
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struct eccctl *ecc = ECCCTL;
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unsigned char *dbctl = DBCTL;
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int rows,banks, cols, i;
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unsigned char ending_adr;
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/* this is really ugly, it is right from assembly code.
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* we need to clean it up later
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COL11_ADR=COL11_DATA;
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if(COL11_ADR!=COL11_DATA)
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goto bad_ram;
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//while(1)
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print_err("11\n");
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/* write col 10 wrap adr */
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COL10_ADR=COL10_DATA;
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bad_reint:
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/* issue all banks recharge */
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DRCCTL=0x02;
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ram->drcctl=0x02;
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dummy_write();
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/* update ending address register */
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DRCBENDADR=ending_adr;
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ram->drcbendadr[bank] = ending_adr;
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/* update config register */
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DRCCFG = (banks = 4 ? 8 : 0) | cols & 3;
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ram->drccfg = (banks = 4 ? 8 : 0) | cols & 3;
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/* skip the rest for now */
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bank = 0;
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// DRCCFG=DRCCFG&YYY|ZZZZ;
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// *drccfg=*drccfg&YYY|ZZZZ;
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if(bank!=0) {
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bank--;
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//*(&DRCBENDADR+XXYYXX)=0xff;
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//*(&*drcbendadr+XXYYXX)=0xff;
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goto start;
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}
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/* set control register to NORMAL mode */
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DRCCTL=0x00;
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ram->drcctl=0x00;
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dummy_write();
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return bank;
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bad_ram:
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print_info("bad ram!\r\n");
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}
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#endif
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/* cache is assumed to be disabled */
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int sizemem(void)
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{
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int i;
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struct ramctl *ram = RAMCTL;
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struct eccctl *ecc = ECCCTL;
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unsigned char *dbctl = DBCTL;
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int rows,banks, cols, i, bank;
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unsigned char ending_adr, al;
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/* initialize dram controller registers */
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DBCTL=0; /* disable write buffer/read-ahead buffer */
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ECCCTL=0; /* disable ECC */
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DRCTMCTL=0x1e; /* Set SDRAM timing for slowest speed. */
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*dbctl = 0; /* disable write buffer/read-ahead buffer */
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ecc->eccctl = 0;
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ram->drcmctl = 0x1e; /* Set SDRAM timing for slowest speed. */
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/* setup loop to do 4 external banks starting with bank 3 */
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print_err("sizemem\n");
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/* enable last bank and setup ending address
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* register for max ram in last bank
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*/
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DRCBENDADR=0x0ff000000;
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ram->drcbendadr[3]=0x0ff000000;
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/* setup dram register for all banks
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* with max cols and max banks
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*/
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DRCCFG=0xbbbb;
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ram->drccfg=0xbbbb;
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dumpram();
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/* issue a NOP to all DRAMs */
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/* Asetup DRAM control register with Disable refresh,
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/* Setup DRAM control register with Disable refresh,
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* disable write buffer Test Mode and NOP command select
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*/
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DRCCTL=0x01;
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ram->drcctl=0x01;
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/* dummy write for NOP to take effect */
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dummy_write();
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print_err("NOP\n");
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/* 100? 200? */
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udelay(100);
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//sc520_udelay(100);
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print_err("after sc520_udelay\r\n");
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/* issue all banks precharge */
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DRCCTL=0x02;
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ram->drcctl=0x02;
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print_err("set *drcctl to 2 \r\n");
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dummy_write();
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print_err("PRE\n");
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/* issue 2 auto refreshes to all banks */
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DRCCTL=0x04;
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ram->drcctl=0x04;
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dummy_write();
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print_err("AUTO1\n");
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dummy_write();
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print_err("AUTO2\n");
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/* issue LOAD MODE REGISTER command */
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DRCCTL=0x03;
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ram->drcctl=0x03;
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dummy_write();
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print_err("LOAD MODE REG\n");
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DRCCTL=0x04;
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for (i=0; i<8; i++) /* refresh 8 times */
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ram->drcctl=0x04;
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for (i=0; i<8; i++) /* refresh 8 times */{
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dummy_write();
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print_err("dummy write\r\n");
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}
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print_err("8 dummy writes\n");
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/* set control register to NORMAL mode */
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DRCCTL=0x00;
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ram->drcctl=0x00;
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print_err("normal\n");
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print_err("HI done normal\r\n");
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bank = 3;
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/* this is really ugly, it is right from assembly code.
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* we need to clean it up later
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*/
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start:
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/* write col 11 wrap adr */
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COL11_ADR=COL11_DATA;
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if(COL11_ADR!=COL11_DATA)
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goto bad_ram;
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print_err("11\n");
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/* write col 10 wrap adr */
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COL10_ADR=COL10_DATA;
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if(COL10_ADR!=COL10_DATA)
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goto bad_ram;
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print_err("10\n");
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/* write col 9 wrap adr */
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COL09_ADR=COL09_DATA;
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if(COL09_ADR!=COL09_DATA)
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goto bad_ram;
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print_err("9\n");
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/* write col 8 wrap adr */
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COL08_ADR=COL08_DATA;
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if(COL08_ADR!=COL08_DATA)
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goto bad_ram;
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print_err("8\n");
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/* write row 14 wrap adr */
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ROW14_ADR=ROW14_DATA;
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if(ROW14_ADR!=ROW14_DATA)
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goto bad_ram;
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print_err("14\n");
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/* write row 13 wrap adr */
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ROW13_ADR=ROW13_DATA;
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if(ROW13_ADR!=ROW13_DATA)
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goto bad_ram;
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print_err("13\n");
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/* write row 12 wrap adr */
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ROW12_ADR=ROW12_DATA;
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if(ROW12_ADR!=ROW12_DATA)
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goto bad_ram;
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print_err("12\n");
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/* write row 11 wrap adr */
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ROW11_ADR=ROW11_DATA;
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if(ROW11_ADR!=ROW11_DATA)
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goto bad_ram;
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print_err("11\n");
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/* write row 10 wrap adr */
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ROW10_ADR=ROW10_DATA;
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if(ROW10_ADR!=ROW10_DATA)
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goto bad_ram;
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print_err("10\n");
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/*
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* read data @ row 12 wrap adr to determine # banks,
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* and read data @ row 14 wrap adr to determine # rows.
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* if data @ row 12 wrap adr is not AA, 11 or 12 we have bad RAM.
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* if data @ row 12 wrap == AA, we only have 2 banks, NOT 4
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* if data @ row 12 wrap == 11 or 12, we have 4 banks
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*/
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banks=2;
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if (ROW12_ADR != ROW10_DATA) {
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banks=4;
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print_err("4b\n");
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if(ROW12_ADR != ROW11_DATA) {
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if(ROW12_ADR != ROW12_DATA)
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goto bad_ram;
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}
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}
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/* validate row mask */
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rows=ROW14_ADR;
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if (rows<ROW11_DATA)
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goto bad_ram;
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if (rows>ROW14_DATA)
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goto bad_ram;
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/* verify all 4 bytes of dword same */
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if(rows&0xffff!=(rows>>16)&0xffff)
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goto bad_ram;
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if(rows&0xff!=(rows>>8)&0xff)
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goto bad_ram;
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/* now just get one of them */
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rows &= 0xff;
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print_err("rows"); print_err_hex32(rows); print_err("\n");
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/* validate column data */
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cols=COL11_ADR;
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if(cols<COL08_DATA)
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goto bad_ram;
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if (cols>COL11_DATA)
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goto bad_ram;
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/* verify all 4 bytes of dword same */
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if(cols&0xffff!=(cols>>16)&0xffff)
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goto bad_ram;
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if(cols&0xff!=(cols>>8)&0xff)
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goto bad_ram;
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print_err("cols"); print_err_hex32(cols); print_err("\n");
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cols -= COL08_DATA;
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/* cols now is in the range of 0 1 2 3 ...
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*/
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i = cols&3;
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// i = cols + rows;
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/* wacky end addr calculation */
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/*
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al = 3;
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al -= (i & 0xff);k
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*/
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/* what a fookin' mess this is */
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if(banks==4)
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i+=8; /* <-- i holds merged value */
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/* i now has the col width in bits 0-1 and the bank count (2 or 4)
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* in bit 3.
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* this is the format for the drccfg register
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*/
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/* fix ending addr mask*/
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/*FIXME*/
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/* let's just go with this to start ... see if we can get ANYWHERE */
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/* need to get end addr. Need to do it with the bank in mind. */
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al = 3;
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al -= i&3;
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ending_adr = rows >> al;
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print_err("computed ending_adr = "); print_err_hex8(ending_adr);
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print_err("\r\n");
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bad_reinit:
|
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/* issue all banks recharge */
|
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ram->drcctl=0x02;
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dummy_write();
|
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|
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/* update ending address register */
|
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ram->drcbendadr[bank] = ending_adr;
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|
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/* update config register */
|
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ram->drccfg &= ~(0xff << bank*4);
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if (ending_adr)
|
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ram->drccfg = ((banks = 4 ? 8 : 0) | cols & 3)<< (bank*4);
|
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dumpram();
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/* skip the rest for now */
|
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// bank = 0;
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// *drccfg=*drccfg&YYY|ZZZZ;
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|
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if(bank!=0) {
|
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bank--;
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ram->drcbendaddr[bank] = 0xff000000;
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//*(&*drcbendadr+XXYYXX)=0xff;
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goto start;
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}
|
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|
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/* set control register to NORMAL mode */
|
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ram->drcctl=0x18;
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dummy_write();
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return bank;
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||||
|
||||
bad_ram:
|
||||
print_info("bad ram!\r\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;
|
||||
nextbank(3);
|
||||
while(1)
|
||||
print_err("DONE NEXTBANK\r\n");
|
||||
|
||||
}
|
||||
|
||||
/* note: based on AMD code, but AMD code is BROKEN AFAIK */
|
||||
|
||||
int
|
||||
staticmem(void){
|
||||
volatile unsigned char *zero = (unsigned char *) 0;
|
||||
/* set up 0x18 .. **/
|
||||
*drcbendadr = 0x88;
|
||||
*drctmctl = 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_err("one zero out on refresh\r\n");
|
||||
*zero = 0;
|
||||
print_err("two zero out on refresh\r\n");
|
||||
|
||||
/* load mode register */
|
||||
*drcctl = 3;
|
||||
*zero = 0;
|
||||
print_err("DONE the load mode reg\r\n");
|
||||
|
||||
/* normal mode */
|
||||
*drcctl = 0x18;
|
||||
*zero = 0;
|
||||
print_err("DONE the normal\r\n");
|
||||
}
|
||||
|
|
|
@ -67,31 +67,9 @@ static void main(unsigned long bist)
|
|||
// while(1)
|
||||
print_err("HI THERE!\r\n");
|
||||
sizemem();
|
||||
// staticmem();
|
||||
print_err("STATIC MEM DONE\r\n");
|
||||
|
||||
|
||||
|
||||
/* Halt if there was a built in self test failure */
|
||||
// report_bist_failure(bist);
|
||||
|
||||
|
||||
#if 0
|
||||
print_pci_devices();
|
||||
#endif
|
||||
#if 0
|
||||
if(!bios_reset_detected()) {
|
||||
enable_smbus();
|
||||
#if 0
|
||||
dump_spd_registers(&memctrl[0]);
|
||||
// dump_smbus_registers();
|
||||
#endif
|
||||
|
||||
memreset_setup();
|
||||
|
||||
sdram_initialize(sizeof(memctrl)/sizeof(memctrl[0]), memctrl);
|
||||
|
||||
|
||||
}
|
||||
#endif
|
||||
#if 0
|
||||
else {
|
||||
/* clear memory 1meg */
|
||||
|
@ -115,17 +93,9 @@ static void main(unsigned long bist)
|
|||
dump_pci_device(PCI_DEV(0, 0, 0));
|
||||
#endif
|
||||
|
||||
/*
|
||||
#if 0
|
||||
ram_check(0x00000000, msr.lo+(msr.hi<<32));
|
||||
#else
|
||||
#if 0
|
||||
#if 1
|
||||
print_err("RAM CHECK!\r\n");
|
||||
// Check 16MB of memory @ 0
|
||||
ram_check(0x00000000, 0x01000000);
|
||||
#else
|
||||
// Check 16MB of memory @ 2GB
|
||||
ram_check(0x80000000, 0x81000000);
|
||||
#endif
|
||||
#endif
|
||||
*/
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue