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8038b497e7
* This is done by limiting the ARM's bandwidth and setting DSS priority in the EMIF controller to ensure underflows do not occur.
279 lines
7.9 KiB
C
279 lines
7.9 KiB
C
/*
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* DDR Configuration for AM33xx devices.
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*
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* Copyright (C) 2011 Texas Instruments Incorporated - http://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/arch/cpu.h>
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#include <asm/arch/ddr_defs.h>
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#include <asm/arch/sys_proto.h>
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#include <asm/io.h>
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#include <asm/emif.h>
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/**
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* Base address for EMIF instances
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*/
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static struct emif_reg_struct *emif_reg[2] = {
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(struct emif_reg_struct *)EMIF4_0_CFG_BASE,
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(struct emif_reg_struct *)EMIF4_1_CFG_BASE};
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/**
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* Base addresses for DDR PHY cmd/data regs
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*/
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static struct ddr_cmd_regs *ddr_cmd_reg[2] = {
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(struct ddr_cmd_regs *)DDR_PHY_CMD_ADDR,
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(struct ddr_cmd_regs *)DDR_PHY_CMD_ADDR2};
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static struct ddr_data_regs *ddr_data_reg[2] = {
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(struct ddr_data_regs *)DDR_PHY_DATA_ADDR,
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(struct ddr_data_regs *)DDR_PHY_DATA_ADDR2};
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/**
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* Base address for ddr io control instances
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*/
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static struct ddr_cmdtctrl *ioctrl_reg = {
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(struct ddr_cmdtctrl *)DDR_CONTROL_BASE_ADDR};
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static inline u32 get_mr(int nr, u32 cs, u32 mr_addr)
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{
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u32 mr;
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mr_addr |= cs << EMIF_REG_CS_SHIFT;
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writel(mr_addr, &emif_reg[nr]->emif_lpddr2_mode_reg_cfg);
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mr = readl(&emif_reg[nr]->emif_lpddr2_mode_reg_data);
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debug("get_mr: EMIF1 cs %d mr %08x val 0x%x\n", cs, mr_addr, mr);
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if (((mr & 0x0000ff00) >> 8) == (mr & 0xff) &&
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((mr & 0x00ff0000) >> 16) == (mr & 0xff) &&
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((mr & 0xff000000) >> 24) == (mr & 0xff))
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return mr & 0xff;
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else
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return mr;
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}
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static inline void set_mr(int nr, u32 cs, u32 mr_addr, u32 mr_val)
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{
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mr_addr |= cs << EMIF_REG_CS_SHIFT;
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writel(mr_addr, &emif_reg[nr]->emif_lpddr2_mode_reg_cfg);
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writel(mr_val, &emif_reg[nr]->emif_lpddr2_mode_reg_data);
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}
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static void configure_mr(int nr, u32 cs)
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{
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u32 mr_addr;
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while (get_mr(nr, cs, LPDDR2_MR0) & LPDDR2_MR0_DAI_MASK)
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;
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set_mr(nr, cs, LPDDR2_MR10, 0x56);
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set_mr(nr, cs, LPDDR2_MR1, 0x43);
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set_mr(nr, cs, LPDDR2_MR2, 0x2);
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mr_addr = LPDDR2_MR2 | EMIF_REG_REFRESH_EN_MASK;
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set_mr(nr, cs, mr_addr, 0x2);
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}
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/*
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* Configure EMIF4D5 registers and MR registers
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*/
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void config_sdram_emif4d5(const struct emif_regs *regs, int nr)
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{
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writel(0xA0, &emif_reg[nr]->emif_pwr_mgmt_ctrl);
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writel(0xA0, &emif_reg[nr]->emif_pwr_mgmt_ctrl_shdw);
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writel(0x1, &emif_reg[nr]->emif_iodft_tlgc);
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writel(regs->zq_config, &emif_reg[nr]->emif_zq_config);
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writel(regs->temp_alert_config, &emif_reg[nr]->emif_temp_alert_config);
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writel(regs->emif_rd_wr_lvl_rmp_win,
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&emif_reg[nr]->emif_rd_wr_lvl_rmp_win);
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writel(regs->emif_rd_wr_lvl_rmp_ctl,
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&emif_reg[nr]->emif_rd_wr_lvl_rmp_ctl);
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writel(regs->emif_rd_wr_lvl_ctl, &emif_reg[nr]->emif_rd_wr_lvl_ctl);
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writel(regs->emif_rd_wr_exec_thresh,
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&emif_reg[nr]->emif_rd_wr_exec_thresh);
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/*
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* for most SOCs these registers won't need to be changed so only
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* write to these registers if someone explicitly has set the
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* register's value.
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*/
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if(regs->emif_cos_config) {
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writel(regs->emif_prio_class_serv_map, &emif_reg[nr]->emif_prio_class_serv_map);
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writel(regs->emif_connect_id_serv_1_map, &emif_reg[nr]->emif_connect_id_serv_1_map);
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writel(regs->emif_connect_id_serv_2_map, &emif_reg[nr]->emif_connect_id_serv_2_map);
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writel(regs->emif_cos_config, &emif_reg[nr]->emif_cos_config);
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}
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writel(regs->ref_ctrl, &emif_reg[nr]->emif_sdram_ref_ctrl);
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writel(regs->ref_ctrl, &emif_reg[nr]->emif_sdram_ref_ctrl_shdw);
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writel(regs->sdram_config, &emif_reg[nr]->emif_sdram_config);
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writel(regs->sdram_config, &cstat->secure_emif_sdram_config);
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if (emif_sdram_type() == EMIF_SDRAM_TYPE_LPDDR2) {
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configure_mr(nr, 0);
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configure_mr(nr, 1);
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}
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}
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/**
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* Configure SDRAM
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*/
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void config_sdram(const struct emif_regs *regs, int nr)
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{
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if (regs->zq_config) {
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/*
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* A value of 0x2800 for the REF CTRL will give us
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* about 570us for a delay, which will be long enough
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* to configure things.
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*/
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writel(0x2800, &emif_reg[nr]->emif_sdram_ref_ctrl);
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writel(regs->zq_config, &emif_reg[nr]->emif_zq_config);
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writel(regs->sdram_config, &cstat->secure_emif_sdram_config);
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writel(regs->sdram_config, &emif_reg[nr]->emif_sdram_config);
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writel(regs->ref_ctrl, &emif_reg[nr]->emif_sdram_ref_ctrl);
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writel(regs->ref_ctrl, &emif_reg[nr]->emif_sdram_ref_ctrl_shdw);
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}
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writel(regs->ref_ctrl, &emif_reg[nr]->emif_sdram_ref_ctrl);
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writel(regs->ref_ctrl, &emif_reg[nr]->emif_sdram_ref_ctrl_shdw);
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writel(regs->sdram_config, &emif_reg[nr]->emif_sdram_config);
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}
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/**
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* Set SDRAM timings
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*/
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void set_sdram_timings(const struct emif_regs *regs, int nr)
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{
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writel(regs->sdram_tim1, &emif_reg[nr]->emif_sdram_tim_1);
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writel(regs->sdram_tim1, &emif_reg[nr]->emif_sdram_tim_1_shdw);
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writel(regs->sdram_tim2, &emif_reg[nr]->emif_sdram_tim_2);
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writel(regs->sdram_tim2, &emif_reg[nr]->emif_sdram_tim_2_shdw);
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writel(regs->sdram_tim3, &emif_reg[nr]->emif_sdram_tim_3);
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writel(regs->sdram_tim3, &emif_reg[nr]->emif_sdram_tim_3_shdw);
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}
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void __weak emif_get_ext_phy_ctrl_const_regs(const u32 **regs, u32 *size)
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{
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}
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/*
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* Configure EXT PHY registers
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*/
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static void ext_phy_settings(const struct emif_regs *regs, int nr)
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{
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u32 *ext_phy_ctrl_base = 0;
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u32 *emif_ext_phy_ctrl_base = 0;
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const u32 *ext_phy_ctrl_const_regs;
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u32 i = 0;
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u32 size;
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ext_phy_ctrl_base = (u32 *)&(regs->emif_ddr_ext_phy_ctrl_1);
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emif_ext_phy_ctrl_base =
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(u32 *)&(emif_reg[nr]->emif_ddr_ext_phy_ctrl_1);
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/* Configure external phy control timing registers */
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for (i = 0; i < EMIF_EXT_PHY_CTRL_TIMING_REG; i++) {
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writel(*ext_phy_ctrl_base, emif_ext_phy_ctrl_base++);
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/* Update shadow registers */
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writel(*ext_phy_ctrl_base++, emif_ext_phy_ctrl_base++);
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}
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/*
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* external phy 6-24 registers do not change with
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* ddr frequency
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*/
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emif_get_ext_phy_ctrl_const_regs(&ext_phy_ctrl_const_regs, &size);
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if (!size)
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return;
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for (i = 0; i < size; i++) {
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writel(ext_phy_ctrl_const_regs[i], emif_ext_phy_ctrl_base++);
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/* Update shadow registers */
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writel(ext_phy_ctrl_const_regs[i], emif_ext_phy_ctrl_base++);
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}
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}
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/**
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* Configure DDR PHY
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*/
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void config_ddr_phy(const struct emif_regs *regs, int nr)
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{
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/*
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* disable initialization and refreshes for now until we
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* finish programming EMIF regs.
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*/
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setbits_le32(&emif_reg[nr]->emif_sdram_ref_ctrl,
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EMIF_REG_INITREF_DIS_MASK);
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writel(regs->emif_ddr_phy_ctlr_1,
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&emif_reg[nr]->emif_ddr_phy_ctrl_1);
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writel(regs->emif_ddr_phy_ctlr_1,
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&emif_reg[nr]->emif_ddr_phy_ctrl_1_shdw);
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if (get_emif_rev((u32)emif_reg[nr]) == EMIF_4D5)
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ext_phy_settings(regs, nr);
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}
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/**
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* Configure DDR CMD control registers
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*/
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void config_cmd_ctrl(const struct cmd_control *cmd, int nr)
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{
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if (!cmd)
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return;
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writel(cmd->cmd0csratio, &ddr_cmd_reg[nr]->cm0csratio);
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writel(cmd->cmd0iclkout, &ddr_cmd_reg[nr]->cm0iclkout);
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writel(cmd->cmd1csratio, &ddr_cmd_reg[nr]->cm1csratio);
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writel(cmd->cmd1iclkout, &ddr_cmd_reg[nr]->cm1iclkout);
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writel(cmd->cmd2csratio, &ddr_cmd_reg[nr]->cm2csratio);
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writel(cmd->cmd2iclkout, &ddr_cmd_reg[nr]->cm2iclkout);
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}
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/**
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* Configure DDR DATA registers
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*/
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void config_ddr_data(const struct ddr_data *data, int nr)
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{
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int i;
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if (!data)
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return;
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for (i = 0; i < DDR_DATA_REGS_NR; i++) {
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writel(data->datardsratio0,
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&(ddr_data_reg[nr]+i)->dt0rdsratio0);
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writel(data->datawdsratio0,
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&(ddr_data_reg[nr]+i)->dt0wdsratio0);
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writel(data->datawiratio0,
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&(ddr_data_reg[nr]+i)->dt0wiratio0);
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writel(data->datagiratio0,
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&(ddr_data_reg[nr]+i)->dt0giratio0);
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writel(data->datafwsratio0,
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&(ddr_data_reg[nr]+i)->dt0fwsratio0);
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writel(data->datawrsratio0,
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&(ddr_data_reg[nr]+i)->dt0wrsratio0);
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}
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}
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void config_io_ctrl(const struct ctrl_ioregs *ioregs)
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{
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if (!ioregs)
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return;
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writel(ioregs->cm0ioctl, &ioctrl_reg->cm0ioctl);
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writel(ioregs->cm1ioctl, &ioctrl_reg->cm1ioctl);
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writel(ioregs->cm2ioctl, &ioctrl_reg->cm2ioctl);
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writel(ioregs->dt0ioctl, &ioctrl_reg->dt0ioctl);
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writel(ioregs->dt1ioctl, &ioctrl_reg->dt1ioctl);
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#ifdef CONFIG_AM43XX
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writel(ioregs->dt2ioctrl, &ioctrl_reg->dt2ioctrl);
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writel(ioregs->dt3ioctrl, &ioctrl_reg->dt3ioctrl);
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writel(ioregs->emif_sdram_config_ext,
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&ioctrl_reg->emif_sdram_config_ext);
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#endif
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}
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