mirror of
https://github.com/AsahiLinux/u-boot
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1d71efbb03
U-boot has been initializing DDR for the main memory. The presumption is the memory stays as a big continuous block, either linear or interleaved. This change is to support putting some DDR controllers to separated space without counting into main memory. The standalone memory controller could use different number of DIMM slots. Signed-off-by: York Sun <yorksun@freescale.com>
310 lines
7.2 KiB
C
310 lines
7.2 KiB
C
/*
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* Copyright 2008-2014 Freescale Semiconductor, Inc.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* Version 2 as published by the Free Software Foundation.
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*/
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#include <common.h>
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#ifdef CONFIG_PPC
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#include <asm/fsl_law.h>
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#endif
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#include <div64.h>
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#include <fsl_ddr.h>
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#include <fsl_immap.h>
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#include <asm/io.h>
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/* To avoid 64-bit full-divides, we factor this here */
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#define ULL_2E12 2000000000000ULL
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#define UL_5POW12 244140625UL
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#define UL_2POW13 (1UL << 13)
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#define ULL_8FS 0xFFFFFFFFULL
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u32 fsl_ddr_get_version(void)
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{
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struct ccsr_ddr __iomem *ddr;
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u32 ver_major_minor_errata;
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ddr = (void *)_DDR_ADDR;
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ver_major_minor_errata = (ddr_in32(&ddr->ip_rev1) & 0xFFFF) << 8;
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ver_major_minor_errata |= (ddr_in32(&ddr->ip_rev2) & 0xFF00) >> 8;
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return ver_major_minor_errata;
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}
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/*
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* Round up mclk_ps to nearest 1 ps in memory controller code
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* if the error is 0.5ps or more.
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*
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* If an imprecise data rate is too high due to rounding error
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* propagation, compute a suitably rounded mclk_ps to compute
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* a working memory controller configuration.
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*/
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unsigned int get_memory_clk_period_ps(void)
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{
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unsigned int data_rate = get_ddr_freq(0);
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unsigned int result;
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/* Round to nearest 10ps, being careful about 64-bit multiply/divide */
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unsigned long long rem, mclk_ps = ULL_2E12;
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/* Now perform the big divide, the result fits in 32-bits */
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rem = do_div(mclk_ps, data_rate);
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result = (rem >= (data_rate >> 1)) ? mclk_ps + 1 : mclk_ps;
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return result;
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}
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/* Convert picoseconds into DRAM clock cycles (rounding up if needed). */
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unsigned int picos_to_mclk(unsigned int picos)
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{
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unsigned long long clks, clks_rem;
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unsigned long data_rate = get_ddr_freq(0);
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/* Short circuit for zero picos */
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if (!picos)
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return 0;
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/* First multiply the time by the data rate (32x32 => 64) */
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clks = picos * (unsigned long long)data_rate;
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/*
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* Now divide by 5^12 and track the 32-bit remainder, then divide
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* by 2*(2^12) using shifts (and updating the remainder).
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*/
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clks_rem = do_div(clks, UL_5POW12);
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clks_rem += (clks & (UL_2POW13-1)) * UL_5POW12;
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clks >>= 13;
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/* If we had a remainder greater than the 1ps error, then round up */
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if (clks_rem > data_rate)
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clks++;
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/* Clamp to the maximum representable value */
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if (clks > ULL_8FS)
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clks = ULL_8FS;
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return (unsigned int) clks;
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}
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unsigned int mclk_to_picos(unsigned int mclk)
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{
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return get_memory_clk_period_ps() * mclk;
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}
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#ifdef CONFIG_PPC
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void
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__fsl_ddr_set_lawbar(const common_timing_params_t *memctl_common_params,
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unsigned int law_memctl,
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unsigned int ctrl_num)
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{
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unsigned long long base = memctl_common_params->base_address;
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unsigned long long size = memctl_common_params->total_mem;
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/*
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* If no DIMMs on this controller, do not proceed any further.
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*/
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if (!memctl_common_params->ndimms_present) {
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return;
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}
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#if !defined(CONFIG_PHYS_64BIT)
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if (base >= CONFIG_MAX_MEM_MAPPED)
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return;
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if ((base + size) >= CONFIG_MAX_MEM_MAPPED)
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size = CONFIG_MAX_MEM_MAPPED - base;
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#endif
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if (set_ddr_laws(base, size, law_memctl) < 0) {
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printf("%s: ERROR (ctrl #%d, TRGT ID=%x)\n", __func__, ctrl_num,
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law_memctl);
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return ;
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}
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debug("setup ddr law base = 0x%llx, size 0x%llx, TRGT_ID 0x%x\n",
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base, size, law_memctl);
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}
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__attribute__((weak, alias("__fsl_ddr_set_lawbar"))) void
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fsl_ddr_set_lawbar(const common_timing_params_t *memctl_common_params,
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unsigned int memctl_interleaved,
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unsigned int ctrl_num);
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#endif
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void fsl_ddr_set_intl3r(const unsigned int granule_size)
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{
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#ifdef CONFIG_E6500
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u32 *mcintl3r = (void *) (CONFIG_SYS_IMMR + 0x18004);
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*mcintl3r = 0x80000000 | (granule_size & 0x1f);
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debug("Enable MCINTL3R with granule size 0x%x\n", granule_size);
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#endif
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}
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u32 fsl_ddr_get_intl3r(void)
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{
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u32 val = 0;
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#ifdef CONFIG_E6500
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u32 *mcintl3r = (void *) (CONFIG_SYS_IMMR + 0x18004);
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val = *mcintl3r;
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#endif
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return val;
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}
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void print_ddr_info(unsigned int start_ctrl)
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{
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struct ccsr_ddr __iomem *ddr =
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(struct ccsr_ddr __iomem *)(CONFIG_SYS_FSL_DDR_ADDR);
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#if defined(CONFIG_E6500) && (CONFIG_NUM_DDR_CONTROLLERS == 3)
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u32 *mcintl3r = (void *) (CONFIG_SYS_IMMR + 0x18004);
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#endif
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#if (CONFIG_NUM_DDR_CONTROLLERS > 1)
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uint32_t cs0_config = ddr_in32(&ddr->cs0_config);
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#endif
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uint32_t sdram_cfg = ddr_in32(&ddr->sdram_cfg);
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int cas_lat;
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#if CONFIG_NUM_DDR_CONTROLLERS >= 2
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if ((!(sdram_cfg & SDRAM_CFG_MEM_EN)) ||
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(start_ctrl == 1)) {
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ddr = (void __iomem *)CONFIG_SYS_FSL_DDR2_ADDR;
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sdram_cfg = ddr_in32(&ddr->sdram_cfg);
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}
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#endif
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#if CONFIG_NUM_DDR_CONTROLLERS >= 3
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if ((!(sdram_cfg & SDRAM_CFG_MEM_EN)) ||
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(start_ctrl == 2)) {
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ddr = (void __iomem *)CONFIG_SYS_FSL_DDR3_ADDR;
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sdram_cfg = ddr_in32(&ddr->sdram_cfg);
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}
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#endif
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if (!(sdram_cfg & SDRAM_CFG_MEM_EN)) {
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puts(" (DDR not enabled)\n");
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return;
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}
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puts(" (DDR");
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switch ((sdram_cfg & SDRAM_CFG_SDRAM_TYPE_MASK) >>
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SDRAM_CFG_SDRAM_TYPE_SHIFT) {
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case SDRAM_TYPE_DDR1:
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puts("1");
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break;
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case SDRAM_TYPE_DDR2:
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puts("2");
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break;
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case SDRAM_TYPE_DDR3:
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puts("3");
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break;
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case SDRAM_TYPE_DDR4:
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puts("4");
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break;
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default:
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puts("?");
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break;
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}
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if (sdram_cfg & SDRAM_CFG_32_BE)
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puts(", 32-bit");
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else if (sdram_cfg & SDRAM_CFG_16_BE)
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puts(", 16-bit");
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else
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puts(", 64-bit");
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/* Calculate CAS latency based on timing cfg values */
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cas_lat = ((ddr_in32(&ddr->timing_cfg_1) >> 16) & 0xf);
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if (fsl_ddr_get_version() <= 0x40400)
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cas_lat += 1;
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else
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cas_lat += 2;
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cas_lat += ((ddr_in32(&ddr->timing_cfg_3) >> 12) & 3) << 4;
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printf(", CL=%d", cas_lat >> 1);
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if (cas_lat & 0x1)
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puts(".5");
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if (sdram_cfg & SDRAM_CFG_ECC_EN)
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puts(", ECC on)");
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else
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puts(", ECC off)");
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#if (CONFIG_NUM_DDR_CONTROLLERS == 3)
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#ifdef CONFIG_E6500
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if (*mcintl3r & 0x80000000) {
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puts("\n");
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puts(" DDR Controller Interleaving Mode: ");
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switch (*mcintl3r & 0x1f) {
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case FSL_DDR_3WAY_1KB_INTERLEAVING:
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puts("3-way 1KB");
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break;
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case FSL_DDR_3WAY_4KB_INTERLEAVING:
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puts("3-way 4KB");
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break;
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case FSL_DDR_3WAY_8KB_INTERLEAVING:
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puts("3-way 8KB");
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break;
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default:
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puts("3-way UNKNOWN");
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break;
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}
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}
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#endif
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#endif
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#if (CONFIG_NUM_DDR_CONTROLLERS >= 2)
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if ((cs0_config & 0x20000000) && (start_ctrl == 0)) {
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puts("\n");
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puts(" DDR Controller Interleaving Mode: ");
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switch ((cs0_config >> 24) & 0xf) {
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case FSL_DDR_256B_INTERLEAVING:
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puts("256B");
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break;
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case FSL_DDR_CACHE_LINE_INTERLEAVING:
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puts("cache line");
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break;
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case FSL_DDR_PAGE_INTERLEAVING:
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puts("page");
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break;
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case FSL_DDR_BANK_INTERLEAVING:
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puts("bank");
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break;
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case FSL_DDR_SUPERBANK_INTERLEAVING:
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puts("super-bank");
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break;
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default:
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puts("invalid");
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break;
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}
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}
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#endif
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if ((sdram_cfg >> 8) & 0x7f) {
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puts("\n");
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puts(" DDR Chip-Select Interleaving Mode: ");
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switch(sdram_cfg >> 8 & 0x7f) {
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case FSL_DDR_CS0_CS1_CS2_CS3:
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puts("CS0+CS1+CS2+CS3");
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break;
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case FSL_DDR_CS0_CS1:
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puts("CS0+CS1");
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break;
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case FSL_DDR_CS2_CS3:
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puts("CS2+CS3");
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break;
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case FSL_DDR_CS0_CS1_AND_CS2_CS3:
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puts("CS0+CS1 and CS2+CS3");
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break;
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default:
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puts("invalid");
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break;
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}
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}
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}
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void __weak detail_board_ddr_info(void)
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{
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print_ddr_info(0);
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}
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void board_add_ram_info(int use_default)
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{
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detail_board_ddr_info();
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}
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