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-rw-r--r--board/evb64260/sdram_init.c650
1 files changed, 0 insertions, 650 deletions
diff --git a/board/evb64260/sdram_init.c b/board/evb64260/sdram_init.c
deleted file mode 100644
index 12b1308..0000000
--- a/board/evb64260/sdram_init.c
+++ /dev/null
@@ -1,650 +0,0 @@
-/*
- * (C) Copyright 2001
- * Josh Huber <huber@mclx.com>, Mission Critical Linux, Inc.
- *
- * SPDX-License-Identifier: GPL-2.0+
- */
-
-/* sdram_init.c - automatic memory sizing */
-
-#include <common.h>
-#include <74xx_7xx.h>
-#include <galileo/memory.h>
-#include <galileo/pci.h>
-#include <galileo/gt64260R.h>
-#include <net.h>
-#include <linux/compiler.h>
-
-#include "eth.h"
-#include "mpsc.h"
-#include "i2c.h"
-#include "64260.h"
-
-DECLARE_GLOBAL_DATA_PTR;
-
-/* #define DEBUG */
-#define MAP_PCI
-
-#ifdef DEBUG
-#define DP(x) x
-#else
-#define DP(x)
-#endif
-
-#define GB (1 << 30)
-
-/* structure to store the relevant information about an sdram bank */
-typedef struct sdram_info {
- uchar drb_size;
- uchar registered, ecc;
- uchar tpar;
- uchar tras_clocks;
- uchar burst_len;
- uchar banks, slot;
- int size; /* detected size, not from I2C but from dram_size() */
-} sdram_info_t;
-
-#ifdef DEBUG
-void dump_dimm_info (struct sdram_info *d)
-{
- static const char *ecc_legend[] = { "", " Parity", " ECC" };
-
- printf ("dimm%s %sDRAM: %dMibytes:\n",
- ecc_legend[d->ecc],
- d->registered ? "R" : "", (d->size >> 20));
- printf (" drb=%d tpar=%d tras=%d burstlen=%d banks=%d slot=%d\n",
- d->drb_size, d->tpar, d->tras_clocks, d->burst_len,
- d->banks, d->slot);
-}
-#endif
-
-static int
-memory_map_bank (unsigned int bankNo,
- unsigned int bankBase, unsigned int bankLength)
-{
-#ifdef DEBUG
- if (bankLength > 0) {
- printf ("mapping bank %d at %08x - %08x\n",
- bankNo, bankBase, bankBase + bankLength - 1);
- } else {
- printf ("unmapping bank %d\n", bankNo);
- }
-#endif
-
- memoryMapBank (bankNo, bankBase, bankLength);
-
- return 0;
-}
-
-#ifdef MAP_PCI
-static int
-memory_map_bank_pci (unsigned int bankNo,
- unsigned int bankBase, unsigned int bankLength)
-{
- PCI_HOST host;
-
- for (host = PCI_HOST0; host <= PCI_HOST1; host++) {
- const int features =
- PREFETCH_ENABLE |
- DELAYED_READ_ENABLE |
- AGGRESSIVE_PREFETCH |
- READ_LINE_AGGRESSIVE_PREFETCH |
- READ_MULTI_AGGRESSIVE_PREFETCH |
- MAX_BURST_4 | PCI_NO_SWAP;
-
- pciMapMemoryBank (host, bankNo, bankBase, bankLength);
-
- pciSetRegionSnoopMode (host, bankNo, PCI_SNOOP_WB, bankBase,
- bankLength);
-
- pciSetRegionFeatures (host, bankNo, features, bankBase,
- bankLength);
- }
- return 0;
-}
-#endif
-
-/* ------------------------------------------------------------------------- */
-
-/* much of this code is based on (or is) the code in the pip405 port */
-/* thanks go to the authors of said port - Josh */
-
-
-/*
- * translate ns.ns/10 coding of SPD timing values
- * into 10 ps unit values
- */
-static inline unsigned short NS10to10PS (unsigned char spd_byte)
-{
- unsigned short ns, ns10;
-
- /* isolate upper nibble */
- ns = (spd_byte >> 4) & 0x0F;
- /* isolate lower nibble */
- ns10 = (spd_byte & 0x0F);
-
- return (ns * 100 + ns10 * 10);
-}
-
-/*
- * translate ns coding of SPD timing values
- * into 10 ps unit values
- */
-static inline unsigned short NSto10PS (unsigned char spd_byte)
-{
- return (spd_byte * 100);
-}
-
-#ifdef CONFIG_ZUMA_V2
-static int check_dimm (uchar slot, sdram_info_t * info)
-{
- /* assume 2 dimms, 2 banks each 256M - we dont have an
- * dimm i2c so rely on the detection routines later */
-
- memset (info, 0, sizeof (*info));
-
- info->slot = slot;
- info->banks = 2; /* Detect later */
- info->registered = 0;
- info->drb_size = 32; /* 16 - 256MBit, 32 - 512MBit
- but doesn't matter, both do same
- thing in setup_sdram() */
- info->tpar = 3;
- info->tras_clocks = 5;
- info->burst_len = 4;
-#ifdef CONFIG_ECC
- info->ecc = 0; /* Detect later */
-#endif /* CONFIG_ECC */
- return 0;
-}
-
-#elif defined(CONFIG_P3G4)
-
-static int check_dimm (uchar slot, sdram_info_t * info)
-{
- memset (info, 0, sizeof (*info));
-
- if (slot)
- return 0;
-
- info->slot = slot;
- info->banks = 1;
- info->registered = 0;
- info->drb_size = 4;
- info->tpar = 3;
- info->tras_clocks = 6;
- info->burst_len = 4;
-#ifdef CONFIG_ECC
- info->ecc = 2;
-#endif
- return 0;
-}
-
-#else /* ! CONFIG_ZUMA_V2 && ! CONFIG_P3G4 */
-
-/* This code reads the SPD chip on the sdram and populates
- * the array which is passed in with the relevant information */
-static int check_dimm (uchar slot, sdram_info_t * info)
-{
- uchar addr = slot == 0 ? DIMM0_I2C_ADDR : DIMM1_I2C_ADDR;
- int ret;
- uchar rows, cols, sdram_banks, supp_cal, width, cal_val;
- ulong tmemclk;
- uchar trp_clocks, trcd_clocks;
- uchar data[128];
-
- get_clocks ();
-
- tmemclk = 1000000000 / (gd->bus_clk / 100); /* in 10 ps units */
-
-#ifdef CONFIG_EVB64260_750CX
- if (0 != slot) {
- printf ("check_dimm: The EVB-64260-750CX only has 1 DIMM,");
- printf (" called with slot=%d insetad!\n", slot);
- return 0;
- }
-#endif
- DP (puts ("before i2c read\n"));
-
- ret = i2c_read (addr, 0, 128, data, 0);
-
- DP (puts ("after i2c read\n"));
-
- /* zero all the values */
- memset (info, 0, sizeof (*info));
-
- if (ret) {
- DP (printf ("No DIMM in slot %d [err = %x]\n", slot, ret));
- return 0;
- }
-
- /* first, do some sanity checks */
- if (data[2] != 0x4) {
- printf ("Not SDRAM in slot %d\n", slot);
- return 0;
- }
-
- /* get various information */
- rows = data[3];
- cols = data[4];
- info->banks = data[5];
- sdram_banks = data[17];
- width = data[13] & 0x7f;
-
- DP (printf
- ("sdram_banks: %d, banks: %d\n", sdram_banks, info->banks));
-
- /* check if the memory is registered */
- if (data[21] & (BIT1 | BIT4))
- info->registered = 1;
-
-#ifdef CONFIG_ECC
- /* check for ECC/parity [0 = none, 1 = parity, 2 = ecc] */
- info->ecc = (data[11] & 2) >> 1;
-#endif
-
- /* bit 1 is CL2, bit 2 is CL3 */
- supp_cal = (data[18] & 0x6) >> 1;
-
- /* compute the relevant clock values */
- trp_clocks = (NSto10PS (data[27]) + (tmemclk - 1)) / tmemclk;
- trcd_clocks = (NSto10PS (data[29]) + (tmemclk - 1)) / tmemclk;
- info->tras_clocks = (NSto10PS (data[30]) + (tmemclk - 1)) / tmemclk;
-
- DP (printf ("trp = %d\ntrcd_clocks = %d\ntras_clocks = %d\n",
- trp_clocks, trcd_clocks, info->tras_clocks));
-
- /* try a CAS latency of 3 first... */
- cal_val = 0;
- if (supp_cal & 3) {
- if (NS10to10PS (data[9]) <= tmemclk)
- cal_val = 3;
- }
-
- /* then 2... */
- if (supp_cal & 2) {
- if (NS10to10PS (data[23]) <= tmemclk)
- cal_val = 2;
- }
-
- DP (printf ("cal_val = %d\n", cal_val));
-
- /* bummer, did't work... */
- if (cal_val == 0) {
- DP (printf ("Couldn't find a good CAS latency\n"));
- return 0;
- }
-
- /* get the largest delay -- these values need to all be the same
- * see Res#6 */
- info->tpar = cal_val;
- if (trp_clocks > info->tpar)
- info->tpar = trp_clocks;
- if (trcd_clocks > info->tpar)
- info->tpar = trcd_clocks;
-
- DP (printf ("tpar set to: %d\n", info->tpar));
-
-#ifdef CONFIG_SYS_BROKEN_CL2
- if (info->tpar == 2) {
- info->tpar = 3;
- DP (printf ("tpar fixed-up to: %d\n", info->tpar));
- }
-#endif
- /* compute the module DRB size */
- info->drb_size =
- (((1 << (rows + cols)) * sdram_banks) * width) / _16M;
-
- DP (printf ("drb_size set to: %d\n", info->drb_size));
-
- /* find the burst len */
- info->burst_len = data[16] & 0xf;
- if ((info->burst_len & 8) == 8) {
- info->burst_len = 1;
- } else if ((info->burst_len & 4) == 4) {
- info->burst_len = 0;
- } else {
- return 0;
- }
-
- info->slot = slot;
- return 0;
-}
-#endif /* ! CONFIG_ZUMA_V2 */
-
-static int setup_sdram_common (sdram_info_t info[2])
-{
- ulong tmp;
- int tpar = 2, tras_clocks = 5, registered = 1;
- __maybe_unused int ecc = 2;
-
- if (!info[0].banks && !info[1].banks)
- return 0;
-
- if (info[0].banks) {
- if (info[0].tpar > tpar)
- tpar = info[0].tpar;
- if (info[0].tras_clocks > tras_clocks)
- tras_clocks = info[0].tras_clocks;
- if (!info[0].registered)
- registered = 0;
- if (info[0].ecc != 2)
- ecc = 0;
- }
-
- if (info[1].banks) {
- if (info[1].tpar > tpar)
- tpar = info[1].tpar;
- if (info[1].tras_clocks > tras_clocks)
- tras_clocks = info[1].tras_clocks;
- if (!info[1].registered)
- registered = 0;
- if (info[1].ecc != 2)
- ecc = 0;
- }
-
- /* SDRAM configuration */
- tmp = GTREGREAD (SDRAM_CONFIGURATION);
-
- /* Turn on physical interleave if both DIMMs
- * have even numbers of banks. */
- if ((info[0].banks == 0 || info[0].banks == 2) &&
- (info[1].banks == 0 || info[1].banks == 2)) {
- /* physical interleave on */
- tmp &= ~(1 << 15);
- } else {
- /* physical interleave off */
- tmp |= (1 << 15);
- }
-
- tmp |= (registered << 17);
-
- /* Use buffer 1 to return read data to the CPU
- * See Res #12 */
- tmp |= (1 << 26);
-
- GT_REG_WRITE (SDRAM_CONFIGURATION, tmp);
- DP (printf ("SDRAM config: %08x\n", GTREGREAD (SDRAM_CONFIGURATION)));
-
- /* SDRAM timing */
- tmp = (((tpar == 3) ? 2 : 1) |
- (((tpar == 3) ? 2 : 1) << 2) |
- (((tpar == 3) ? 2 : 1) << 4) | (tras_clocks << 8));
-
-#ifdef CONFIG_ECC
- /* Setup ECC */
- if (ecc == 2)
- tmp |= 1 << 13;
-#endif /* CONFIG_ECC */
-
- GT_REG_WRITE (SDRAM_TIMING, tmp);
- DP (printf ("SDRAM timing: %08x (%d,%d,%d,%d)\n",
- GTREGREAD (SDRAM_TIMING), tpar, tpar, tpar, tras_clocks));
-
- /* SDRAM address decode register */
- /* program this with the default value */
- GT_REG_WRITE (SDRAM_ADDRESS_DECODE, 0x2);
- DP (printf ("SDRAM decode: %08x\n",
- GTREGREAD (SDRAM_ADDRESS_DECODE)));
-
- return 0;
-}
-
-/* sets up the GT properly with information passed in */
-static int setup_sdram (sdram_info_t * info)
-{
- ulong tmp;
- ulong *addr = 0;
- __maybe_unused ulong check;
- int i;
-
- /* sanity checking */
- if (!info->banks)
- return 0;
-
- /* ---------------------------- */
- /* Program the GT with the discovered data */
-
- /* bank parameters */
- tmp = (0xf << 16); /* leave all virt bank pages open */
-
- DP (printf ("drb_size: %d\n", info->drb_size));
- switch (info->drb_size) {
- case 1:
- tmp |= (1 << 14);
- break;
- case 4:
- case 8:
- tmp |= (2 << 14);
- break;
- case 16:
- case 32:
- tmp |= (3 << 14);
- break;
- default:
- printf ("Error in dram size calculation\n");
- return 1;
- }
-
- /* SDRAM bank parameters */
- /* the param registers for slot 1 (banks 2+3) are offset by 0x8 */
- GT_REG_WRITE (SDRAM_BANK0PARAMETERS + (info->slot * 0x8), tmp);
- GT_REG_WRITE (SDRAM_BANK1PARAMETERS + (info->slot * 0x8), tmp);
- DP (printf
- ("SDRAM bankparam slot %d (bank %d+%d): %08lx\n", info->slot,
- info->slot * 2, (info->slot * 2) + 1, tmp));
-
- /* set the SDRAM configuration for each bank */
- for (i = info->slot * 2; i < ((info->slot * 2) + info->banks); i++) {
- DP (printf ("*** Running a MRS cycle for bank %d ***\n", i));
-
- /* map the bank */
- memory_map_bank (i, 0, GB / 4);
-
- /* set SDRAM mode */
- GT_REG_WRITE (SDRAM_OPERATION_MODE, 0x3);
- check = GTREGREAD (SDRAM_OPERATION_MODE);
-
- /* dummy write */
- *addr = 0;
-
- /* wait for the command to complete */
- while ((GTREGREAD (SDRAM_OPERATION_MODE) & (1 << 31)) == 0);
-
- /* switch back to normal operation mode */
- GT_REG_WRITE (SDRAM_OPERATION_MODE, 0);
- check = GTREGREAD (SDRAM_OPERATION_MODE);
-
- /* unmap the bank */
- memory_map_bank (i, 0, 0);
- DP (printf ("*** MRS cycle for bank %d done ***\n", i));
- }
-
- return 0;
-}
-
-/*
- * Check memory range for valid RAM. A simple memory test determines
- * the actually available RAM size between addresses `base' and
- * `base + maxsize'. Some (not all) hardware errors are detected:
- * - short between address lines
- * - short between data lines
- */
-static long int dram_size (long int *base, long int maxsize)
-{
- volatile long int *addr, *b = base;
- long int cnt, val, save1, save2;
-
-#define STARTVAL (1<<20) /* start test at 1M */
- for (cnt = STARTVAL / sizeof (long); cnt < maxsize / sizeof (long);
- cnt <<= 1) {
- addr = base + cnt; /* pointer arith! */
-
- save1 = *addr; /* save contents of addr */
- save2 = *b; /* save contents of base */
-
- *addr = cnt; /* write cnt to addr */
- *b = 0; /* put null at base */
-
- /* check at base address */
- if ((*b) != 0) {
- *addr = save1; /* restore *addr */
- *b = save2; /* restore *b */
- return (0);
- }
- val = *addr; /* read *addr */
-
- *addr = save1;
- *b = save2;
-
- if (val != cnt) {
- /* fix boundary condition.. STARTVAL means zero */
- if (cnt == STARTVAL / sizeof (long))
- cnt = 0;
- return (cnt * sizeof (long));
- }
- }
- return maxsize;
-}
-
-/* ------------------------------------------------------------------------- */
-
-/* U-Boot interface function to SDRAM init - this is where all the
- * controlling logic happens */
-phys_size_t initdram (int board_type)
-{
- ulong checkbank[4] = {[0 ... 3] = 0 };
- int bank_no;
- ulong total;
- int nhr;
- sdram_info_t dimm_info[2];
-
-
- /* first, use the SPD to get info about the SDRAM */
-
- /* check the NHR bit and skip mem init if it's already done */
- nhr = get_hid0 () & (1 << 16);
-
- if (nhr) {
- printf ("Skipping SDRAM setup due to NHR bit being set\n");
- } else {
- /* DIMM0 */
- check_dimm (0, &dimm_info[0]);
-
- /* DIMM1 */
-#ifndef CONFIG_EVB64260_750CX /* EVB64260_750CX has only 1 DIMM */
- check_dimm (1, &dimm_info[1]);
-#else /* CONFIG_EVB64260_750CX */
- memset (&dimm_info[1], 0, sizeof (sdram_info_t));
-#endif
-
- /* unmap all banks */
- memory_map_bank (0, 0, 0);
- memory_map_bank (1, 0, 0);
- memory_map_bank (2, 0, 0);
- memory_map_bank (3, 0, 0);
-
- /* Now, program the GT with the correct values */
- if (setup_sdram_common (dimm_info)) {
- printf ("Setup common failed.\n");
- }
-
- if (setup_sdram (&dimm_info[0])) {
- printf ("Setup for DIMM1 failed.\n");
- }
-
- if (setup_sdram (&dimm_info[1])) {
- printf ("Setup for DIMM2 failed.\n");
- }
-
- /* set the NHR bit */
- set_hid0 (get_hid0 () | (1 << 16));
- }
- /* next, size the SDRAM banks */
-
- total = 0;
- if (dimm_info[0].banks > 0)
- checkbank[0] = 1;
- if (dimm_info[0].banks > 1)
- checkbank[1] = 1;
- if (dimm_info[0].banks > 2)
- printf ("Error, SPD claims DIMM1 has >2 banks\n");
-
- if (dimm_info[1].banks > 0)
- checkbank[2] = 1;
- if (dimm_info[1].banks > 1)
- checkbank[3] = 1;
- if (dimm_info[1].banks > 2)
- printf ("Error, SPD claims DIMM2 has >2 banks\n");
-
- /* Generic dram sizer: works even if we don't have i2c DIMMs,
- * as long as the timing settings are more or less correct */
-
- /*
- * pass 1: size all the banks, using first bat (0-256M)
- * limitation: we only support 256M per bank due to
- * us only having 1 BAT for all DRAM
- */
- for (bank_no = 0; bank_no < CONFIG_SYS_DRAM_BANKS; bank_no++) {
- /* skip over banks that are not populated */
- if (!checkbank[bank_no])
- continue;
-
- DP (printf ("checking bank %d\n", bank_no));
-
- memory_map_bank (bank_no, 0, GB / 4);
- checkbank[bank_no] = dram_size (NULL, GB / 4);
- memory_map_bank (bank_no, 0, 0);
-
- DP (printf ("bank %d %08lx\n", bank_no, checkbank[bank_no]));
- }
-
- /*
- * pass 2: contiguously map each bank into physical address
- * space.
- */
- dimm_info[0].banks = dimm_info[1].banks = 0;
- for (bank_no = 0; bank_no < CONFIG_SYS_DRAM_BANKS; bank_no++) {
- if (!checkbank[bank_no])
- continue;
-
- dimm_info[bank_no / 2].banks++;
- dimm_info[bank_no / 2].size += checkbank[bank_no];
-
- memory_map_bank (bank_no, total, checkbank[bank_no]);
-#ifdef MAP_PCI
- memory_map_bank_pci (bank_no, total, checkbank[bank_no]);
-#endif
- total += checkbank[bank_no];
- }
-
-#ifdef CONFIG_ECC
-#ifdef CONFIG_ZUMA_V2
- /*
- * We always enable ECC when bank 2 and 3 are unpopulated
- * If we 2 or 3 are populated, we CAN'T support ECC.
- * (Zuma boards only support ECC in banks 0 and 1; assume that
- * in that configuration, ECC chips are mounted, even for stacked
- * chips)
- */
- if (checkbank[2] == 0 && checkbank[3] == 0) {
- dimm_info[0].ecc = 2;
- GT_REG_WRITE (SDRAM_TIMING,
- GTREGREAD (SDRAM_TIMING) | (1 << 13));
- /* TODO: do we have to run MRS cycles again? */
- }
-#endif /* CONFIG_ZUMA_V2 */
-
- if (GTREGREAD (SDRAM_TIMING) & (1 << 13)) {
- puts ("[ECC] ");
- }
-#endif /* CONFIG_ECC */
-
-#ifdef DEBUG
- dump_dimm_info (&dimm_info[0]);
- dump_dimm_info (&dimm_info[1]);
-#endif
- /* TODO: return at MOST 256M? */
- /* return total > GB/4 ? GB/4 : total; */
- return total;
-}