2014-04-04 17:16:53 +00:00
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/*
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* Keystone2: DDR3 initialization
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*
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* (C) Copyright 2012-2014
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* Texas Instruments Incorporated, <www.ti.com>
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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#include <asm/io.h>
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2014-07-09 16:48:41 +00:00
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#include <common.h>
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2014-10-22 14:47:58 +00:00
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#include <asm/arch/msmc.h>
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2014-07-09 16:48:40 +00:00
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#include <asm/arch/ddr3.h>
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2014-09-10 12:54:59 +00:00
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#include <asm/arch/psc_defs.h>
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2014-04-04 17:16:53 +00:00
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2014-10-22 14:47:58 +00:00
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#include <asm/ti-common/ti-edma3.h>
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#define DDR3_EDMA_BLK_SIZE_SHIFT 10
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#define DDR3_EDMA_BLK_SIZE (1 << DDR3_EDMA_BLK_SIZE_SHIFT)
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#define DDR3_EDMA_BCNT 0x8000
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#define DDR3_EDMA_CCNT 1
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#define DDR3_EDMA_XF_SIZE (DDR3_EDMA_BLK_SIZE * DDR3_EDMA_BCNT)
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#define DDR3_EDMA_SLOT_NUM 1
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2014-07-09 16:48:40 +00:00
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void ddr3_init_ddrphy(u32 base, struct ddr3_phy_config *phy_cfg)
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2014-04-04 17:16:53 +00:00
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{
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unsigned int tmp;
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while ((__raw_readl(base + KS2_DDRPHY_PGSR0_OFFSET)
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& 0x00000001) != 0x00000001)
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;
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__raw_writel(phy_cfg->pllcr, base + KS2_DDRPHY_PLLCR_OFFSET);
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tmp = __raw_readl(base + KS2_DDRPHY_PGCR1_OFFSET);
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tmp &= ~(phy_cfg->pgcr1_mask);
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tmp |= phy_cfg->pgcr1_val;
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__raw_writel(tmp, base + KS2_DDRPHY_PGCR1_OFFSET);
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__raw_writel(phy_cfg->ptr0, base + KS2_DDRPHY_PTR0_OFFSET);
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__raw_writel(phy_cfg->ptr1, base + KS2_DDRPHY_PTR1_OFFSET);
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__raw_writel(phy_cfg->ptr3, base + KS2_DDRPHY_PTR3_OFFSET);
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__raw_writel(phy_cfg->ptr4, base + KS2_DDRPHY_PTR4_OFFSET);
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tmp = __raw_readl(base + KS2_DDRPHY_DCR_OFFSET);
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tmp &= ~(phy_cfg->dcr_mask);
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tmp |= phy_cfg->dcr_val;
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__raw_writel(tmp, base + KS2_DDRPHY_DCR_OFFSET);
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__raw_writel(phy_cfg->dtpr0, base + KS2_DDRPHY_DTPR0_OFFSET);
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__raw_writel(phy_cfg->dtpr1, base + KS2_DDRPHY_DTPR1_OFFSET);
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__raw_writel(phy_cfg->dtpr2, base + KS2_DDRPHY_DTPR2_OFFSET);
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__raw_writel(phy_cfg->mr0, base + KS2_DDRPHY_MR0_OFFSET);
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__raw_writel(phy_cfg->mr1, base + KS2_DDRPHY_MR1_OFFSET);
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__raw_writel(phy_cfg->mr2, base + KS2_DDRPHY_MR2_OFFSET);
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__raw_writel(phy_cfg->dtcr, base + KS2_DDRPHY_DTCR_OFFSET);
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__raw_writel(phy_cfg->pgcr2, base + KS2_DDRPHY_PGCR2_OFFSET);
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__raw_writel(phy_cfg->zq0cr1, base + KS2_DDRPHY_ZQ0CR1_OFFSET);
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__raw_writel(phy_cfg->zq1cr1, base + KS2_DDRPHY_ZQ1CR1_OFFSET);
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__raw_writel(phy_cfg->zq2cr1, base + KS2_DDRPHY_ZQ2CR1_OFFSET);
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__raw_writel(phy_cfg->pir_v1, base + KS2_DDRPHY_PIR_OFFSET);
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while ((__raw_readl(base + KS2_DDRPHY_PGSR0_OFFSET) & 0x1) != 0x1)
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;
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__raw_writel(phy_cfg->pir_v2, base + KS2_DDRPHY_PIR_OFFSET);
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while ((__raw_readl(base + KS2_DDRPHY_PGSR0_OFFSET) & 0x1) != 0x1)
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;
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}
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2014-07-09 16:48:40 +00:00
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void ddr3_init_ddremif(u32 base, struct ddr3_emif_config *emif_cfg)
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2014-04-04 17:16:53 +00:00
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{
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__raw_writel(emif_cfg->sdcfg, base + KS2_DDR3_SDCFG_OFFSET);
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__raw_writel(emif_cfg->sdtim1, base + KS2_DDR3_SDTIM1_OFFSET);
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__raw_writel(emif_cfg->sdtim2, base + KS2_DDR3_SDTIM2_OFFSET);
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__raw_writel(emif_cfg->sdtim3, base + KS2_DDR3_SDTIM3_OFFSET);
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__raw_writel(emif_cfg->sdtim4, base + KS2_DDR3_SDTIM4_OFFSET);
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__raw_writel(emif_cfg->zqcfg, base + KS2_DDR3_ZQCFG_OFFSET);
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__raw_writel(emif_cfg->sdrfc, base + KS2_DDR3_SDRFC_OFFSET);
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}
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2014-07-09 16:48:41 +00:00
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2014-10-22 14:47:58 +00:00
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int ddr3_ecc_support_rmw(u32 base)
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{
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u32 value = __raw_readl(base + KS2_DDR3_MIDR_OFFSET);
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/* Check the DDR3 controller ID reg if the controllers
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supports ECC RMW or not */
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if (value == 0x40461C02)
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return 1;
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return 0;
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}
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static void ddr3_ecc_config(u32 base, u32 value)
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{
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u32 data;
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__raw_writel(value, base + KS2_DDR3_ECC_CTRL_OFFSET);
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udelay(100000); /* delay required to synchronize across clock domains */
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if (value & KS2_DDR3_ECC_EN) {
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/* Clear the 1-bit error count */
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data = __raw_readl(base + KS2_DDR3_ONE_BIT_ECC_ERR_CNT_OFFSET);
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__raw_writel(data, base + KS2_DDR3_ONE_BIT_ECC_ERR_CNT_OFFSET);
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/* enable the ECC interrupt */
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__raw_writel(KS2_DDR3_1B_ECC_ERR_SYS | KS2_DDR3_2B_ECC_ERR_SYS |
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KS2_DDR3_WR_ECC_ERR_SYS,
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base + KS2_DDR3_ECC_INT_ENABLE_SET_SYS_OFFSET);
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/* Clear the ECC error interrupt status */
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__raw_writel(KS2_DDR3_1B_ECC_ERR_SYS | KS2_DDR3_2B_ECC_ERR_SYS |
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KS2_DDR3_WR_ECC_ERR_SYS,
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base + KS2_DDR3_ECC_INT_STATUS_OFFSET);
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}
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}
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static void ddr3_reset_data(u32 base, u32 ddr3_size)
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{
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u32 mpax[2];
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u32 seg_num;
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u32 seg, blks, dst, edma_blks;
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struct edma3_slot_config slot;
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struct edma3_channel_config edma_channel;
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u32 edma_src[DDR3_EDMA_BLK_SIZE/4] __aligned(16) = {0, };
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/* Setup an edma to copy the 1k block to the entire DDR */
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puts("\nClear entire DDR3 memory to enable ECC\n");
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/* save the SES MPAX regs */
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msmc_get_ses_mpax(8, 0, mpax);
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/* setup edma slot 1 configuration */
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slot.opt = EDMA3_SLOPT_TRANS_COMP_INT_ENB |
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EDMA3_SLOPT_COMP_CODE(0) |
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EDMA3_SLOPT_STATIC | EDMA3_SLOPT_AB_SYNC;
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slot.bcnt = DDR3_EDMA_BCNT;
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slot.acnt = DDR3_EDMA_BLK_SIZE;
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slot.ccnt = DDR3_EDMA_CCNT;
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slot.src_bidx = 0;
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slot.dst_bidx = DDR3_EDMA_BLK_SIZE;
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slot.src_cidx = 0;
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slot.dst_cidx = 0;
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slot.link = EDMA3_PARSET_NULL_LINK;
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slot.bcntrld = 0;
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edma3_slot_configure(KS2_EDMA0_BASE, DDR3_EDMA_SLOT_NUM, &slot);
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/* configure quik edma channel */
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edma_channel.slot = DDR3_EDMA_SLOT_NUM;
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edma_channel.chnum = 0;
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edma_channel.complete_code = 0;
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/* event trigger after dst update */
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edma_channel.trigger_slot_word = EDMA3_TWORD(dst);
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qedma3_start(KS2_EDMA0_BASE, &edma_channel);
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/* DDR3 size in segments (4KB seg size) */
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seg_num = ddr3_size << (30 - KS2_MSMC_SEG_SIZE_SHIFT);
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for (seg = 0; seg < seg_num; seg += KS2_MSMC_MAP_SEG_NUM) {
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/* map 2GB 36-bit DDR address to 32-bit DDR address in EMIF
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access slave interface so that edma driver can access */
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msmc_map_ses_segment(8, 0, base >> KS2_MSMC_SEG_SIZE_SHIFT,
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KS2_MSMC_DST_SEG_BASE + seg, MPAX_SEG_2G);
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if ((seg_num - seg) > KS2_MSMC_MAP_SEG_NUM)
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edma_blks = KS2_MSMC_MAP_SEG_NUM <<
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(KS2_MSMC_SEG_SIZE_SHIFT
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- DDR3_EDMA_BLK_SIZE_SHIFT);
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else
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edma_blks = (seg_num - seg) << (KS2_MSMC_SEG_SIZE_SHIFT
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- DDR3_EDMA_BLK_SIZE_SHIFT);
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/* Use edma driver to scrub 2GB DDR memory */
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for (dst = base, blks = 0; blks < edma_blks;
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blks += DDR3_EDMA_BCNT, dst += DDR3_EDMA_XF_SIZE) {
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edma3_set_src_addr(KS2_EDMA0_BASE,
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edma_channel.slot, (u32)edma_src);
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edma3_set_dest_addr(KS2_EDMA0_BASE,
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edma_channel.slot, (u32)dst);
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while (edma3_check_for_transfer(KS2_EDMA0_BASE,
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&edma_channel))
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udelay(10);
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}
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}
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qedma3_stop(KS2_EDMA0_BASE, &edma_channel);
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/* restore the SES MPAX regs */
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msmc_set_ses_mpax(8, 0, mpax);
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}
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static void ddr3_ecc_init_range(u32 base)
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{
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u32 ecc_val = KS2_DDR3_ECC_EN;
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u32 rmw = ddr3_ecc_support_rmw(base);
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if (rmw)
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ecc_val |= KS2_DDR3_ECC_RMW_EN;
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__raw_writel(0, base + KS2_DDR3_ECC_ADDR_RANGE1_OFFSET);
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ddr3_ecc_config(base, ecc_val);
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}
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void ddr3_enable_ecc(u32 base, int test)
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{
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u32 ecc_val = KS2_DDR3_ECC_ENABLE;
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u32 rmw = ddr3_ecc_support_rmw(base);
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if (test)
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ecc_val |= KS2_DDR3_ECC_ADDR_RNG_1_EN;
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if (!rmw) {
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if (!test)
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/* by default, disable ecc when rmw = 0 and no
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ecc test */
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ecc_val = 0;
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} else {
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ecc_val |= KS2_DDR3_ECC_RMW_EN;
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}
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ddr3_ecc_config(base, ecc_val);
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}
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void ddr3_disable_ecc(u32 base)
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{
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ddr3_ecc_config(base, 0);
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}
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#if defined(CONFIG_SOC_K2HK) || defined(CONFIG_SOC_K2L)
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static void cic_init(u32 base)
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{
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/* Disable CIC global interrupts */
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__raw_writel(0, base + KS2_CIC_GLOBAL_ENABLE);
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/* Set to normal mode, no nesting, no priority hold */
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__raw_writel(0, base + KS2_CIC_CTRL);
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__raw_writel(0, base + KS2_CIC_HOST_CTRL);
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/* Enable CIC global interrupts */
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__raw_writel(1, base + KS2_CIC_GLOBAL_ENABLE);
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}
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static void cic_map_cic_to_gic(u32 base, u32 chan_num, u32 irq_num)
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{
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/* Map the system interrupt to a CIC channel */
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__raw_writeb(chan_num, base + KS2_CIC_CHAN_MAP(0) + irq_num);
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/* Enable CIC system interrupt */
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__raw_writel(irq_num, base + KS2_CIC_SYS_ENABLE_IDX_SET);
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/* Enable CIC Host interrupt */
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__raw_writel(chan_num, base + KS2_CIC_HOST_ENABLE_IDX_SET);
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}
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static void ddr3_map_ecc_cic2_irq(u32 base)
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{
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cic_init(base);
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cic_map_cic_to_gic(base, KS2_CIC2_DDR3_ECC_CHAN_NUM,
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KS2_CIC2_DDR3_ECC_IRQ_NUM);
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}
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#endif
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2015-02-11 19:07:58 +00:00
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void ddr3_init_ecc(u32 base, u32 ddr3_size)
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2014-10-22 14:47:58 +00:00
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{
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if (!ddr3_ecc_support_rmw(base)) {
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ddr3_disable_ecc(base);
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return;
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}
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ddr3_ecc_init_range(base);
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ddr3_reset_data(CONFIG_SYS_SDRAM_BASE, ddr3_size);
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/* mapping DDR3 ECC system interrupt from CIC2 to GIC */
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#if defined(CONFIG_SOC_K2HK) || defined(CONFIG_SOC_K2L)
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ddr3_map_ecc_cic2_irq(KS2_CIC2_BASE);
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#endif
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ddr3_enable_ecc(base, 0);
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}
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void ddr3_check_ecc_int(u32 base)
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{
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char *env;
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int ecc_test = 0;
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u32 value = __raw_readl(base + KS2_DDR3_ECC_INT_STATUS_OFFSET);
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env = getenv("ecc_test");
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if (env)
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ecc_test = simple_strtol(env, NULL, 0);
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if (value & KS2_DDR3_WR_ECC_ERR_SYS)
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puts("DDR3 ECC write error interrupted\n");
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if (value & KS2_DDR3_2B_ECC_ERR_SYS) {
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puts("DDR3 ECC 2-bit error interrupted\n");
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if (!ecc_test) {
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puts("Reseting the device ...\n");
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reset_cpu(0);
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}
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}
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value = __raw_readl(base + KS2_DDR3_ONE_BIT_ECC_ERR_CNT_OFFSET);
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if (value) {
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printf("1-bit ECC err count: 0x%x\n", value);
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value = __raw_readl(base +
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KS2_DDR3_ONE_BIT_ECC_ERR_ADDR_LOG_OFFSET);
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printf("1-bit ECC err address log: 0x%x\n", value);
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
2014-07-09 16:48:41 +00:00
|
|
|
void ddr3_reset_ddrphy(void)
|
|
|
|
{
|
|
|
|
u32 tmp;
|
|
|
|
|
|
|
|
/* Assert DDR3A PHY reset */
|
2014-07-09 20:44:44 +00:00
|
|
|
tmp = readl(KS2_DDR3APLLCTL1);
|
2014-07-09 16:48:41 +00:00
|
|
|
tmp |= KS2_DDR3_PLLCTRL_PHY_RESET;
|
2014-07-09 20:44:44 +00:00
|
|
|
writel(tmp, KS2_DDR3APLLCTL1);
|
2014-07-09 16:48:41 +00:00
|
|
|
|
|
|
|
/* wait 10us to catch the reset */
|
|
|
|
udelay(10);
|
|
|
|
|
|
|
|
/* Release DDR3A PHY reset */
|
2014-07-09 20:44:44 +00:00
|
|
|
tmp = readl(KS2_DDR3APLLCTL1);
|
2014-07-09 16:48:41 +00:00
|
|
|
tmp &= ~KS2_DDR3_PLLCTRL_PHY_RESET;
|
2014-07-09 20:44:44 +00:00
|
|
|
__raw_writel(tmp, KS2_DDR3APLLCTL1);
|
2014-07-09 16:48:41 +00:00
|
|
|
}
|
2014-09-10 12:54:59 +00:00
|
|
|
|
|
|
|
#ifdef CONFIG_SOC_K2HK
|
|
|
|
/**
|
|
|
|
* ddr3_reset_workaround - reset workaround in case if leveling error
|
|
|
|
* detected for PG 1.0 and 1.1 k2hk SoCs
|
|
|
|
*/
|
|
|
|
void ddr3_err_reset_workaround(void)
|
|
|
|
{
|
|
|
|
unsigned int tmp;
|
|
|
|
unsigned int tmp_a;
|
|
|
|
unsigned int tmp_b;
|
|
|
|
|
|
|
|
/*
|
|
|
|
* Check for PGSR0 error bits of DDR3 PHY.
|
|
|
|
* Check for WLERR, QSGERR, WLAERR,
|
|
|
|
* RDERR, WDERR, REERR, WEERR error to see if they are set or not
|
|
|
|
*/
|
|
|
|
tmp_a = __raw_readl(KS2_DDR3A_DDRPHYC + KS2_DDRPHY_PGSR0_OFFSET);
|
|
|
|
tmp_b = __raw_readl(KS2_DDR3B_DDRPHYC + KS2_DDRPHY_PGSR0_OFFSET);
|
|
|
|
|
|
|
|
if (((tmp_a & 0x0FE00000) != 0) || ((tmp_b & 0x0FE00000) != 0)) {
|
|
|
|
printf("DDR Leveling Error Detected!\n");
|
|
|
|
printf("DDR3A PGSR0 = 0x%x\n", tmp_a);
|
|
|
|
printf("DDR3B PGSR0 = 0x%x\n", tmp_b);
|
|
|
|
|
|
|
|
/*
|
|
|
|
* Write Keys to KICK registers to enable writes to registers
|
|
|
|
* in boot config space
|
|
|
|
*/
|
|
|
|
__raw_writel(KS2_KICK0_MAGIC, KS2_KICK0);
|
|
|
|
__raw_writel(KS2_KICK1_MAGIC, KS2_KICK1);
|
|
|
|
|
|
|
|
/*
|
|
|
|
* Move DDR3A Module out of reset isolation by setting
|
|
|
|
* MDCTL23[12] = 0
|
|
|
|
*/
|
|
|
|
tmp_a = __raw_readl(KS2_PSC_BASE +
|
|
|
|
PSC_REG_MDCTL(KS2_LPSC_EMIF4F_DDR3A));
|
|
|
|
|
|
|
|
tmp_a = PSC_REG_MDCTL_SET_RESET_ISO(tmp_a, 0);
|
|
|
|
__raw_writel(tmp_a, KS2_PSC_BASE +
|
|
|
|
PSC_REG_MDCTL(KS2_LPSC_EMIF4F_DDR3A));
|
|
|
|
|
|
|
|
/*
|
|
|
|
* Move DDR3B Module out of reset isolation by setting
|
|
|
|
* MDCTL24[12] = 0
|
|
|
|
*/
|
|
|
|
tmp_b = __raw_readl(KS2_PSC_BASE +
|
|
|
|
PSC_REG_MDCTL(KS2_LPSC_EMIF4F_DDR3B));
|
|
|
|
tmp_b = PSC_REG_MDCTL_SET_RESET_ISO(tmp_b, 0);
|
|
|
|
__raw_writel(tmp_b, KS2_PSC_BASE +
|
|
|
|
PSC_REG_MDCTL(KS2_LPSC_EMIF4F_DDR3B));
|
|
|
|
|
|
|
|
/*
|
|
|
|
* Write 0x5A69 Key to RSTCTRL[15:0] to unlock writes
|
|
|
|
* to RSTCTRL and RSTCFG
|
|
|
|
*/
|
|
|
|
tmp = __raw_readl(KS2_RSTCTRL);
|
|
|
|
tmp &= KS2_RSTCTRL_MASK;
|
|
|
|
tmp |= KS2_RSTCTRL_KEY;
|
|
|
|
__raw_writel(tmp, KS2_RSTCTRL);
|
|
|
|
|
|
|
|
/*
|
|
|
|
* Set PLL Controller to drive hard reset on SW trigger by
|
|
|
|
* setting RSTCFG[13] = 0
|
|
|
|
*/
|
|
|
|
tmp = __raw_readl(KS2_RSTCTRL_RSCFG);
|
|
|
|
tmp &= ~KS2_RSTYPE_PLL_SOFT;
|
|
|
|
__raw_writel(tmp, KS2_RSTCTRL_RSCFG);
|
|
|
|
|
|
|
|
reset_cpu(0);
|
|
|
|
}
|
|
|
|
}
|
|
|
|
#endif
|