mirror of
https://github.com/AsahiLinux/u-boot
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6dd34ae4c4
The DDR PHY register view of LD11 is slightly different from that of LD4/Pro4/sLD8, but it will be possible to share the register macros (and I want to re-use as much code as possible). Change the code in the more flexible form. Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com>
193 lines
5.3 KiB
C
193 lines
5.3 KiB
C
/*
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* Copyright (C) 2011-2014 Panasonic Corporation
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* Copyright (C) 2015-2016 Socionext Inc.
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* Author: Masahiro Yamada <yamada.masahiro@socionext.com>
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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#include <common.h>
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#include <linux/err.h>
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#include <linux/io.h>
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#include <linux/sizes.h>
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#include <asm/processor.h>
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#include "../init.h"
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#include "ddrphy-init.h"
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#include "umc-regs.h"
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#define DRAM_CH_NR 2
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enum dram_freq {
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DRAM_FREQ_1333M,
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DRAM_FREQ_1600M,
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DRAM_FREQ_NR,
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};
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enum dram_size {
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DRAM_SZ_128M,
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DRAM_SZ_256M,
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DRAM_SZ_NR,
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};
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static u32 umc_cmdctla_plus[DRAM_FREQ_NR] = {0x45990b11, 0x36bb0f17};
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static u32 umc_cmdctlb_plus[DRAM_FREQ_NR] = {0x16958924, 0x18c6aa24};
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static u32 umc_spcctla[DRAM_FREQ_NR][DRAM_SZ_NR] = {
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{0x00240512, 0x00350512},
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{0x002b0617, 0x003f0617},
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};
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static u32 umc_spcctlb[DRAM_FREQ_NR] = {0x00ff0006, 0x00ff0008};
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static u32 umc_rdatactl[DRAM_FREQ_NR] = {0x000a00ac, 0x000c00ae};
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static int umc_get_rank(int ch)
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{
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return ch; /* ch0: rank0, ch1: rank1 for this SoC */
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}
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static void umc_start_ssif(void __iomem *ssif_base)
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{
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writel(0x00000000, ssif_base + 0x0000b004);
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writel(0xffffffff, ssif_base + 0x0000c004);
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writel(0x000fffcf, ssif_base + 0x0000c008);
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writel(0x00000001, ssif_base + 0x0000b000);
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writel(0x00000001, ssif_base + 0x0000c000);
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writel(0x03010101, ssif_base + UMC_MDMCHSEL);
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writel(0x03010100, ssif_base + UMC_DMDCHSEL);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_FETCH);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_COMQUE0);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_COMWC0);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_COMRC0);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_COMQUE1);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_COMWC1);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_COMRC1);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_WC);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_RC);
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writel(0x00000000, ssif_base + UMC_CLKEN_SSIF_DST);
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writel(0x00000001, ssif_base + UMC_CPURST);
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writel(0x00000001, ssif_base + UMC_IDSRST);
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writel(0x00000001, ssif_base + UMC_IXMRST);
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writel(0x00000001, ssif_base + UMC_MDMRST);
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writel(0x00000001, ssif_base + UMC_MDDRST);
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writel(0x00000001, ssif_base + UMC_SIORST);
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writel(0x00000001, ssif_base + UMC_VIORST);
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writel(0x00000001, ssif_base + UMC_FRCRST);
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writel(0x00000001, ssif_base + UMC_RGLRST);
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writel(0x00000001, ssif_base + UMC_AIORST);
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writel(0x00000001, ssif_base + UMC_DMDRST);
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}
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static int umc_dramcont_init(void __iomem *dc_base, void __iomem *ca_base,
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int freq, unsigned long size, bool ddr3plus)
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{
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enum dram_freq freq_e;
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enum dram_size size_e;
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if (!ddr3plus) {
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pr_err("DDR3 standard is not supported\n");
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return -EINVAL;
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}
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switch (freq) {
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case 1333:
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freq_e = DRAM_FREQ_1333M;
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break;
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case 1600:
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freq_e = DRAM_FREQ_1600M;
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break;
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default:
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pr_err("unsupported DRAM frequency %d MHz\n", freq);
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return -EINVAL;
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}
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switch (size) {
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case 0:
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return 0;
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case SZ_128M:
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size_e = DRAM_SZ_128M;
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break;
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case SZ_256M:
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size_e = DRAM_SZ_256M;
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break;
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default:
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pr_err("unsupported DRAM size 0x%08lx\n", size);
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return -EINVAL;
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}
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writel(umc_cmdctla_plus[freq_e], dc_base + UMC_CMDCTLA);
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writel(umc_cmdctlb_plus[freq_e], dc_base + UMC_CMDCTLB);
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writel(umc_spcctla[freq_e][size_e], dc_base + UMC_SPCCTLA);
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writel(umc_spcctlb[freq_e], dc_base + UMC_SPCCTLB);
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writel(umc_rdatactl[freq_e], dc_base + UMC_RDATACTL_D0);
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writel(0x04060806, dc_base + UMC_WDATACTL_D0);
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writel(0x04a02000, dc_base + UMC_DATASET);
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writel(0x00000000, ca_base + 0x2300);
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writel(0x00400020, dc_base + UMC_DCCGCTL);
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writel(0x00000003, dc_base + 0x7000);
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writel(0x0000000f, dc_base + 0x8000);
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writel(0x000000c3, dc_base + 0x8004);
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writel(0x00000071, dc_base + 0x8008);
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writel(0x0000003b, dc_base + UMC_DICGCTLA);
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writel(0x020a0808, dc_base + UMC_DICGCTLB);
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writel(0x00000004, dc_base + UMC_FLOWCTLG);
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writel(0x80000201, ca_base + 0xc20);
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writel(0x0801e01e, dc_base + UMC_FLOWCTLA);
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writel(0x00200000, dc_base + UMC_FLOWCTLB);
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writel(0x00004444, dc_base + UMC_FLOWCTLC);
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writel(0x200a0a00, dc_base + UMC_SPCSETB);
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writel(0x00000000, dc_base + UMC_SPCSETD);
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writel(0x00000520, dc_base + UMC_DFICUPDCTLA);
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return 0;
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}
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static int umc_ch_init(void __iomem *dc_base, void __iomem *ca_base,
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int freq, unsigned long size, bool ddr3plus, int ch)
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{
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void __iomem *phy_base = dc_base + 0x00001000;
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int ret;
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writel(UMC_INITSET_INIT1EN, dc_base + UMC_INITSET);
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while (readl(dc_base + UMC_INITSTAT) & UMC_INITSTAT_INIT1ST)
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cpu_relax();
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writel(0x00000101, dc_base + UMC_DIOCTLA);
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ret = uniphier_ld4_ddrphy_init(phy_base, freq, ddr3plus);
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if (ret)
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return ret;
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ddrphy_prepare_training(phy_base, umc_get_rank(ch));
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ret = ddrphy_training(phy_base);
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if (ret)
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return ret;
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return umc_dramcont_init(dc_base, ca_base, freq, size, ddr3plus);
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}
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int uniphier_ld4_umc_init(const struct uniphier_board_data *bd)
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{
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void __iomem *umc_base = (void __iomem *)0x5b800000;
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void __iomem *ca_base = umc_base + 0x00001000;
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void __iomem *dc_base = umc_base + 0x00400000;
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void __iomem *ssif_base = umc_base;
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int ch, ret;
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for (ch = 0; ch < DRAM_CH_NR; ch++) {
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ret = umc_ch_init(dc_base, ca_base, bd->dram_freq,
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bd->dram_ch[ch].size,
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!!(bd->flags & UNIPHIER_BD_DDR3PLUS), ch);
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if (ret) {
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pr_err("failed to initialize UMC ch%d\n", ch);
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return ret;
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}
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ca_base += 0x00001000;
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dc_base += 0x00200000;
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}
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umc_start_ssif(ssif_base);
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return 0;
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}
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