u-boot/cpu/ppc4xx/sdram.c

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/*
* (C) Copyright 2005-2007
* Stefan Roese, DENX Software Engineering, sr@denx.de.
*
* (C) Copyright 2006
* DAVE Srl <www.dave-tech.it>
*
* (C) Copyright 2002-2004
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* Stefan Roese, esd gmbh germany, stefan.roese@esd-electronics.com
*
* 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
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* 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
*/
#include <common.h>
#include <ppc4xx.h>
#include <asm/processor.h>
#include "sdram.h"
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#ifdef CONFIG_SDRAM_BANK0
#ifndef CONFIG_440
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#ifndef CFG_SDRAM_TABLE
sdram_conf_t mb0cf[] = {
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{(128 << 20), 13, 0x000A4001}, /* (0-128MB) Address Mode 3, 13x10(4) */
{(64 << 20), 13, 0x00084001}, /* (0-64MB) Address Mode 3, 13x9(4) */
{(32 << 20), 12, 0x00062001}, /* (0-32MB) Address Mode 2, 12x9(4) */
{(16 << 20), 12, 0x00046001}, /* (0-16MB) Address Mode 4, 12x8(4) */
{(4 << 20), 11, 0x00008001}, /* (0-4MB) Address Mode 5, 11x8(2) */
};
#else
sdram_conf_t mb0cf[] = CFG_SDRAM_TABLE;
#endif
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#define N_MB0CF (sizeof(mb0cf) / sizeof(mb0cf[0]))
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#ifdef CFG_SDRAM_CASL
static ulong ns2clks(ulong ns)
{
ulong bus_period_x_10 = ONE_BILLION / (get_bus_freq(0) / 10);
return ((ns * 10) + bus_period_x_10) / bus_period_x_10;
}
#endif /* CFG_SDRAM_CASL */
static ulong compute_sdtr1(ulong speed)
{
#ifdef CFG_SDRAM_CASL
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ulong tmp;
ulong sdtr1 = 0;
/* CASL */
if (CFG_SDRAM_CASL < 2)
sdtr1 |= (1 << SDRAM0_TR_CASL);
else
if (CFG_SDRAM_CASL > 4)
sdtr1 |= (3 << SDRAM0_TR_CASL);
else
sdtr1 |= ((CFG_SDRAM_CASL-1) << SDRAM0_TR_CASL);
/* PTA */
tmp = ns2clks(CFG_SDRAM_PTA);
if ((tmp >= 2) && (tmp <= 4))
sdtr1 |= ((tmp-1) << SDRAM0_TR_PTA);
else
sdtr1 |= ((4-1) << SDRAM0_TR_PTA);
/* CTP */
tmp = ns2clks(CFG_SDRAM_CTP);
if ((tmp >= 2) && (tmp <= 4))
sdtr1 |= ((tmp-1) << SDRAM0_TR_CTP);
else
sdtr1 |= ((4-1) << SDRAM0_TR_CTP);
/* LDF */
tmp = ns2clks(CFG_SDRAM_LDF);
if ((tmp >= 2) && (tmp <= 4))
sdtr1 |= ((tmp-1) << SDRAM0_TR_LDF);
else
sdtr1 |= ((2-1) << SDRAM0_TR_LDF);
/* RFTA */
tmp = ns2clks(CFG_SDRAM_RFTA);
if ((tmp >= 4) && (tmp <= 10))
sdtr1 |= ((tmp-4) << SDRAM0_TR_RFTA);
else
sdtr1 |= ((10-4) << SDRAM0_TR_RFTA);
/* RCD */
tmp = ns2clks(CFG_SDRAM_RCD);
if ((tmp >= 2) && (tmp <= 4))
sdtr1 |= ((tmp-1) << SDRAM0_TR_RCD);
else
sdtr1 |= ((4-1) << SDRAM0_TR_RCD);
return sdtr1;
#else /* CFG_SDRAM_CASL */
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/*
* If no values are configured in the board config file
* use the default values, which seem to be ok for most
* boards.
*
* REMARK:
* For new board ports we strongly recommend to define the
* correct values for the used SDRAM chips in your board
* config file (see PPChameleonEVB.h)
*/
if (speed > 100000000) {
/*
* 133 MHz SDRAM
*/
return 0x01074015;
} else {
/*
* default: 100 MHz SDRAM
*/
return 0x0086400d;
}
#endif /* CFG_SDRAM_CASL */
}
/* refresh is expressed in ms */
static ulong compute_rtr(ulong speed, ulong rows, ulong refresh)
{
#ifdef CFG_SDRAM_CASL
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ulong tmp;
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tmp = ((refresh*1000*1000) / (1 << rows)) * (speed / 1000);
tmp /= 1000000;
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return ((tmp & 0x00003FF8) << 16);
#else /* CFG_SDRAM_CASL */
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if (speed > 100000000) {
/*
* 133 MHz SDRAM
*/
return 0x07f00000;
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} else {
/*
* default: 100 MHz SDRAM
*/
return 0x05f00000;
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}
#endif /* CFG_SDRAM_CASL */
}
/*
* Autodetect onboard SDRAM on 405 platforms
*/
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void sdram_init(void)
{
ulong speed;
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ulong sdtr1;
int i;
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/*
* Determine SDRAM speed
*/
speed = get_bus_freq(0); /* parameter not used on ppc4xx */
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/*
* sdtr1 (register SDRAM0_TR) must take into account timings listed
* in SDRAM chip datasheet. rtr (register SDRAM0_RTR) must take into
* account actual SDRAM size. So we can set up sdtr1 according to what
* is specified in board configuration file while rtr dependds on SDRAM
* size we are assuming before detection.
*/
sdtr1 = compute_sdtr1(speed);
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for (i=0; i<N_MB0CF; i++) {
/*
* Disable memory controller.
*/
mtsdram0(mem_mcopt1, 0x00000000);
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/*
* Set MB0CF for bank 0.
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*/
mtsdram0(mem_mb0cf, mb0cf[i].reg);
mtsdram0(mem_sdtr1, sdtr1);
mtsdram0(mem_rtr, compute_rtr(speed, mb0cf[i].rows, 64));
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udelay(200);
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/*
* Set memory controller options reg, MCOPT1.
* Set DC_EN to '1' and BRD_PRF to '01' for 16 byte PLB Burst
* read/prefetch.
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*/
mtsdram0(mem_mcopt1, 0x80800000);
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udelay(10000);
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if (get_ram_size(0, mb0cf[i].size) == mb0cf[i].size) {
/*
* OK, size detected -> all done
*/
return;
}
}
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}
#else /* CONFIG_440 */
/*
* Define some default values. Those can be overwritten in the
* board config file.
*/
#ifndef CFG_SDRAM_TABLE
sdram_conf_t mb0cf[] = {
{(256 << 20), 13, 0x000C4001}, /* 256MB mode 3, 13x10(4) */
{(64 << 20), 12, 0x00082001} /* 64MB mode 2, 12x9(4) */
};
#else
sdram_conf_t mb0cf[] = CFG_SDRAM_TABLE;
#endif
#ifndef CFG_SDRAM0_TR0
#define CFG_SDRAM0_TR0 0x41094012
#endif
#define N_MB0CF (sizeof(mb0cf) / sizeof(mb0cf[0]))
#define NUM_TRIES 64
#define NUM_READS 10
static void sdram_tr1_set(int ram_address, int* tr1_value)
{
int i;
int j, k;
volatile unsigned int* ram_pointer = (unsigned int *)ram_address;
int first_good = -1, last_bad = 0x1ff;
unsigned long test[NUM_TRIES] = {
0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF,
0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF,
0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000,
0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000,
0xAAAAAAAA, 0xAAAAAAAA, 0x55555555, 0x55555555,
0xAAAAAAAA, 0xAAAAAAAA, 0x55555555, 0x55555555,
0x55555555, 0x55555555, 0xAAAAAAAA, 0xAAAAAAAA,
0x55555555, 0x55555555, 0xAAAAAAAA, 0xAAAAAAAA,
0xA5A5A5A5, 0xA5A5A5A5, 0x5A5A5A5A, 0x5A5A5A5A,
0xA5A5A5A5, 0xA5A5A5A5, 0x5A5A5A5A, 0x5A5A5A5A,
0x5A5A5A5A, 0x5A5A5A5A, 0xA5A5A5A5, 0xA5A5A5A5,
0x5A5A5A5A, 0x5A5A5A5A, 0xA5A5A5A5, 0xA5A5A5A5,
0xAA55AA55, 0xAA55AA55, 0x55AA55AA, 0x55AA55AA,
0xAA55AA55, 0xAA55AA55, 0x55AA55AA, 0x55AA55AA,
0x55AA55AA, 0x55AA55AA, 0xAA55AA55, 0xAA55AA55,
0x55AA55AA, 0x55AA55AA, 0xAA55AA55, 0xAA55AA55 };
/* go through all possible SDRAM0_TR1[RDCT] values */
for (i=0; i<=0x1ff; i++) {
/* set the current value for TR1 */
mtsdram(mem_tr1, (0x80800800 | i));
/* write values */
for (j=0; j<NUM_TRIES; j++) {
ram_pointer[j] = test[j];
/* clear any cache at ram location */
__asm__("dcbf 0,%0": :"r" (&ram_pointer[j]));
}
/* read values back */
for (j=0; j<NUM_TRIES; j++) {
for (k=0; k<NUM_READS; k++) {
/* clear any cache at ram location */
__asm__("dcbf 0,%0": :"r" (&ram_pointer[j]));
if (ram_pointer[j] != test[j])
break;
}
/* read error */
if (k != NUM_READS)
break;
}
/* we have a SDRAM0_TR1[RDCT] that is part of the window */
if (j == NUM_TRIES) {
if (first_good == -1)
first_good = i; /* found beginning of window */
} else { /* bad read */
/* if we have not had a good read then don't care */
if (first_good != -1) {
/* first failure after a good read */
last_bad = i-1;
break;
}
}
}
/* return the current value for TR1 */
*tr1_value = (first_good + last_bad) / 2;
}
#ifdef CONFIG_SDRAM_ECC
static void ecc_init(ulong start, ulong size)
{
ulong current_addr; /* current byte address */
ulong end_addr; /* end of memory region */
ulong addr_inc; /* address skip between writes */
ulong cfg0_reg; /* for restoring ECC state */
/*
* TODO: Enable dcache before running this test (speedup)
*/
mfsdram(mem_cfg0, cfg0_reg);
mtsdram(mem_cfg0, (cfg0_reg & ~SDRAM_CFG0_MEMCHK) | SDRAM_CFG0_MEMCHK_GEN);
/*
* look at geometry of SDRAM (data width) to determine whether we
* can skip words when writing
*/
if ((cfg0_reg & SDRAM_CFG0_DRAMWDTH) == SDRAM_CFG0_DRAMWDTH_32)
addr_inc = 4;
else
addr_inc = 8;
current_addr = start;
end_addr = start + size;
while (current_addr < end_addr) {
*((ulong *)current_addr) = 0x00000000;
current_addr += addr_inc;
}
/*
* TODO: Flush dcache and disable it again
*/
/*
* Enable ecc checking and parity errors
*/
mtsdram(mem_cfg0, (cfg0_reg & ~SDRAM_CFG0_MEMCHK) | SDRAM_CFG0_MEMCHK_CHK);
}
#endif
/*
* Autodetect onboard DDR SDRAM on 440 platforms
*
* NOTE: Some of the hardcoded values are hardware dependant,
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* so this should be extended for other future boards
* using this routine!
*/
long int initdram(int board_type)
{
int i;
int tr1_bank1;
#if defined(CONFIG_440GX) || defined(CONFIG_440EP) || \
defined(CONFIG_440GR) || defined(CONFIG_440SP)
/*
* Soft-reset SDRAM controller.
*/
mtsdr(sdr_srst, SDR0_SRST_DMC);
mtsdr(sdr_srst, 0x00000000);
#endif
for (i=0; i<N_MB0CF; i++) {
/*
* Disable memory controller.
*/
mtsdram(mem_cfg0, 0x00000000);
/*
* Setup some default
*/
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mtsdram(mem_uabba, 0x00000000); /* ubba=0 (default) */
mtsdram(mem_slio, 0x00000000); /* rdre=0 wrre=0 rarw=0 */
mtsdram(mem_devopt, 0x00000000); /* dll=0 ds=0 (normal) */
mtsdram(mem_wddctr, 0x00000000); /* wrcp=0 dcd=0 */
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mtsdram(mem_clktr, 0x40000000); /* clkp=1 (90 deg wr) dcdt=0 */
/*
* Following for CAS Latency = 2.5 @ 133 MHz PLB
*/
mtsdram(mem_b0cr, mb0cf[i].reg);
mtsdram(mem_tr0, CFG_SDRAM0_TR0);
mtsdram(mem_tr1, 0x80800800); /* SS=T2 SL=STAGE 3 CD=1 CT=0x00*/
mtsdram(mem_rtr, 0x04100000); /* Interval 7.8<EFBFBD>s @ 133MHz PLB */
mtsdram(mem_cfg1, 0x00000000); /* Self-refresh exit, disable PM*/
udelay(400); /* Delay 200 usecs (min) */
/*
* Enable the controller, then wait for DCEN to complete
*/
mtsdram(mem_cfg0, 0x82000000); /* DCEN=1, PMUD=0, 64-bit */
udelay(10000);
if (get_ram_size(0, mb0cf[i].size) == mb0cf[i].size) {
/*
* Optimize TR1 to current hardware environment
*/
sdram_tr1_set(0x00000000, &tr1_bank1);
mtsdram(mem_tr1, (tr1_bank1 | 0x80800800));
#ifdef CONFIG_SDRAM_ECC
ecc_init(0, mb0cf[i].size);
#endif
/*
* OK, size detected -> all done
*/
return mb0cf[i].size;
}
}
return 0; /* nothing found ! */
}
#endif /* CONFIG_440 */
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#endif /* CONFIG_SDRAM_BANK0 */