/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include static void sdram_patch(uintptr_t addr, uint32_t value) { if (addr) write32((uint32_t *)addr, value); } static void writebits(uint32_t value, uint32_t *addr, uint32_t mask) { clrsetbits32(addr, mask, (value & mask)); } static void sdram_trigger_emc_timing_update(struct tegra_emc_regs *regs) { write32(®s->timing_control, EMC_TIMING_CONTROL_TIMING_UPDATE); } /* PMC must be configured before clock-enable and de-reset of MC/EMC. */ static void sdram_configure_pmc(const struct sdram_params *param, struct tegra_pmc_regs *regs) { /* VDDP Select */ write32(®s->vddp_sel, param->PmcVddpSel); udelay(param->PmcVddpSelWait); /* Set DDR pad voltage */ writebits(param->PmcDdrPwr, ®s->ddr_pwr, PMC_DDR_PWR_VAL_MASK); /* Turn on MEM IO Power */ writebits(param->PmcNoIoPower, ®s->no_iopower, (PMC_NO_IOPOWER_MEM_MASK | PMC_NO_IOPOWER_MEM_COMP_MASK)); write32(®s->reg_short, param->PmcRegShort); write32(®s->ddr_cntrl, param->PmcDdrCntrl); } static void sdram_set_ddr_control(const struct sdram_params *param, struct tegra_pmc_regs *regs) { u32 ddrcntrl = read32(®s->ddr_cntrl); /* Deassert HOLD_CKE_LOW */ ddrcntrl &= ~PMC_CMD_HOLD_LOW_BR00_11_MASK; write32(®s->ddr_cntrl, ddrcntrl); udelay(param->PmcDdrCntrlWait); } static void sdram_start_clocks(const struct sdram_params *param, struct tegra_emc_regs *regs) { struct clk_rst_ctlr *clk_rst = (void *)TEGRA_CLK_RST_BASE; u32 is_same_freq = (param->McEmemArbMisc0 & MC_EMEM_ARB_MISC0_MC_EMC_SAME_FREQ_MASK) ? 1 : 0; u32 clk_source_emc = param->EmcClockSource; /* Enable the clocks for EMC and MC */ setbits32(&clk_rst->clk_enb_h_set, (1 << 25)); // ENB_EMC setbits32(&clk_rst->clk_enb_h_set, (1 << 0)); // ENB_MC if ((clk_source_emc >> EMC_2X_CLK_SRC_SHIFT) != PLLM_UD) setbits32(&clk_rst->clk_enb_x_set, CLK_ENB_EMC_DLL); /* Remove the EMC and MC controllers from reset */ clrbits32(&clk_rst->rst_dev_h, (1 << 25)); // SWR_EMC clrbits32(&clk_rst->rst_dev_h, (1 << 0)); // SWR_MC clk_source_emc |= (is_same_freq << 16); write32(&clk_rst->clk_src_emc, clk_source_emc); write32(&clk_rst->clk_src_emc_dll, param->EmcClockSourceDll); clock_sdram(param->PllMInputDivider, param->PllMFeedbackDivider, param->PllMPostDivider, param->PllMSetupControl, param->PllMKVCO, param->PllMKCP, param->PllMStableTime, param->EmcClockSource, is_same_freq); if (param->ClkRstControllerPllmMisc2OverrideEnable) write32(&clk_rst->pllm_misc2, param->ClkRstControllerPllmMisc2Override); /* Wait for enough time for clk switch to take place */ udelay(5); write32(&clk_rst->clk_enb_w_clr, param->ClearClk2Mc1); } static void sdram_set_swizzle(const struct sdram_params *param, struct tegra_emc_regs *regs) { write32(®s->swizzle_rank0_byte0, param->EmcSwizzleRank0Byte0); write32(®s->swizzle_rank0_byte1, param->EmcSwizzleRank0Byte1); write32(®s->swizzle_rank0_byte2, param->EmcSwizzleRank0Byte2); write32(®s->swizzle_rank0_byte3, param->EmcSwizzleRank0Byte3); write32(®s->swizzle_rank1_byte0, param->EmcSwizzleRank1Byte0); write32(®s->swizzle_rank1_byte1, param->EmcSwizzleRank1Byte1); write32(®s->swizzle_rank1_byte2, param->EmcSwizzleRank1Byte2); write32(®s->swizzle_rank1_byte3, param->EmcSwizzleRank1Byte3); } static void sdram_set_pad_controls(const struct sdram_params *param, struct tegra_emc_regs *regs) { /* Program the pad controls */ write32(®s->xm2comppadctrl, param->EmcXm2CompPadCtrl); write32(®s->xm2comppadctrl2, param->EmcXm2CompPadCtrl2); write32(®s->xm2comppadctrl3, param->EmcXm2CompPadCtrl3); } static void sdram_set_pad_macros(const struct sdram_params *param, struct tegra_emc_regs *regs) { u32 rfu_reset, rfu_mask1, rfu_mask2, rfu_step1, rfu_step2; u32 cpm_reset_settings, cpm_mask1, cpm_step1; write32(®s->pmacro_vttgen_ctrl0, param->EmcPmacroVttgenCtrl0); write32(®s->pmacro_vttgen_ctrl1, param->EmcPmacroVttgenCtrl1); write32(®s->pmacro_vttgen_ctrl2, param->EmcPmacroVttgenCtrl2); /* Trigger timing update so above writes take place */ sdram_trigger_emc_timing_update(regs); /* Add a wait to ensure the regulators settle */ udelay(10); write32(®s->dbg, param->EmcDbg | (param->EmcDbgWriteMux & WRITE_MUX_ACTIVE)); rfu_reset = EMC_PMACRO_BRICK_CTRL_RFU1_RESET_VAL; rfu_mask1 = 0x01120112; rfu_mask2 = 0x01BF01BF; rfu_step1 = rfu_reset & (param->EmcPmacroBrickCtrlRfu1 | ~rfu_mask1); rfu_step2 = rfu_reset & (param->EmcPmacroBrickCtrlRfu1 | ~rfu_mask2); /* common pad macro (cpm) */ cpm_reset_settings = 0x0000000F; cpm_mask1 = 0x00000001; cpm_step1 = cpm_reset_settings; cpm_step1 &= (param->EmcPmacroCommonPadTxCtrl | ~cpm_mask1); /* Patch 2 using BCT spare variables */ sdram_patch(param->EmcBctSpare2, param->EmcBctSpare3); /* * Program CMD mapping. Required before brick mapping, else * we can't guarantee CK will be differential at all times. */ write32(®s->fbio_cfg7, param->EmcFbioCfg7); write32(®s->cmd_mapping_cmd0_0, param->EmcCmdMappingCmd0_0); write32(®s->cmd_mapping_cmd0_1, param->EmcCmdMappingCmd0_1); write32(®s->cmd_mapping_cmd0_2, param->EmcCmdMappingCmd0_2); write32(®s->cmd_mapping_cmd1_0, param->EmcCmdMappingCmd1_0); write32(®s->cmd_mapping_cmd1_1, param->EmcCmdMappingCmd1_1); write32(®s->cmd_mapping_cmd1_2, param->EmcCmdMappingCmd1_2); write32(®s->cmd_mapping_cmd2_0, param->EmcCmdMappingCmd2_0); write32(®s->cmd_mapping_cmd2_1, param->EmcCmdMappingCmd2_1); write32(®s->cmd_mapping_cmd2_2, param->EmcCmdMappingCmd2_2); write32(®s->cmd_mapping_cmd3_0, param->EmcCmdMappingCmd3_0); write32(®s->cmd_mapping_cmd3_1, param->EmcCmdMappingCmd3_1); write32(®s->cmd_mapping_cmd3_2, param->EmcCmdMappingCmd3_2); write32(®s->cmd_mapping_byte, param->EmcCmdMappingByte); /* Program brick mapping. */ write32(®s->pmacro_brick_mapping0, param->EmcPmacroBrickMapping0); write32(®s->pmacro_brick_mapping1, param->EmcPmacroBrickMapping1); write32(®s->pmacro_brick_mapping2, param->EmcPmacroBrickMapping2); write32(®s->pmacro_brick_ctrl_rfu1, rfu_step1); /* This is required to do any reads from the pad macros */ write32(®s->config_sample_delay, param->EmcConfigSampleDelay); write32(®s->fbio_cfg8, param->EmcFbioCfg8); sdram_set_swizzle(param, regs); /* Patch 4 using BCT spare variables */ sdram_patch(param->EmcBctSpare6, param->EmcBctSpare7); sdram_set_pad_controls(param, regs); /* Program Autocal controls with shadowed register fields */ write32(®s->auto_cal_config2, param->EmcAutoCalConfig2); write32(®s->auto_cal_config3, param->EmcAutoCalConfig3); write32(®s->auto_cal_config4, param->EmcAutoCalConfig4); write32(®s->auto_cal_config5, param->EmcAutoCalConfig5); write32(®s->auto_cal_config6, param->EmcAutoCalConfig6); write32(®s->auto_cal_config7, param->EmcAutoCalConfig7); write32(®s->auto_cal_config8, param->EmcAutoCalConfig8); write32(®s->pmacro_rx_term, param->EmcPmacroRxTerm); write32(®s->pmacro_dq_tx_drv, param->EmcPmacroDqTxDrv); write32(®s->pmacro_ca_tx_drv, param->EmcPmacroCaTxDrv); write32(®s->pmacro_cmd_tx_drv, param->EmcPmacroCmdTxDrv); write32(®s->pmacro_autocal_cfg_common, param->EmcPmacroAutocalCfgCommon); write32(®s->auto_cal_channel, param->EmcAutoCalChannel); write32(®s->pmacro_zctrl, param->EmcPmacroZctrl); write32(®s->dll_cfg0, param->EmcDllCfg0); write32(®s->dll_cfg1, param->EmcDllCfg1); write32(®s->cfg_dig_dll_1, param->EmcCfgDigDll_1); write32(®s->data_brlshft_0, param->EmcDataBrlshft0); write32(®s->data_brlshft_1, param->EmcDataBrlshft1); write32(®s->dqs_brlshft_0, param->EmcDqsBrlshft0); write32(®s->dqs_brlshft_1, param->EmcDqsBrlshft1); write32(®s->cmd_brlshft_0, param->EmcCmdBrlshft0); write32(®s->cmd_brlshft_1, param->EmcCmdBrlshft1); write32(®s->cmd_brlshft_2, param->EmcCmdBrlshft2); write32(®s->cmd_brlshft_3, param->EmcCmdBrlshft3); write32(®s->quse_brlshft_0, param->EmcQuseBrlshft0); write32(®s->quse_brlshft_1, param->EmcQuseBrlshft1); write32(®s->quse_brlshft_2, param->EmcQuseBrlshft2); write32(®s->quse_brlshft_3, param->EmcQuseBrlshft3); write32(®s->pmacro_brick_ctrl_rfu1, rfu_step2); write32(®s->pmacro_pad_cfg_ctrl, param->EmcPmacroPadCfgCtrl); write32(®s->pmacro_pad_cfg_ctrl, param->EmcPmacroPadCfgCtrl); write32(®s->pmacro_cmd_brick_ctrl_fdpd, param->EmcPmacroCmdBrickCtrlFdpd); write32(®s->pmacro_brick_ctrl_rfu2, param->EmcPmacroBrickCtrlRfu2 & 0xFF7FFF7F); write32(®s->pmacro_data_brick_ctrl_fdpd, param->EmcPmacroDataBrickCtrlFdpd); write32(®s->pmacro_bg_bias_ctrl_0, param->EmcPmacroBgBiasCtrl0); write32(®s->pmacro_data_pad_rx_ctrl, param->EmcPmacroDataPadRxCtrl); write32(®s->pmacro_cmd_pad_rx_ctrl, param->EmcPmacroCmdPadRxCtrl); write32(®s->pmacro_data_pad_tx_ctrl, param->EmcPmacroDataPadTxCtrl); write32(®s->pmacro_data_rx_term_mode, param->EmcPmacroDataRxTermMode); write32(®s->pmacro_cmd_rx_term_mode, param->EmcPmacroCmdRxTermMode); write32(®s->pmacro_cmd_pad_tx_ctrl, param->EmcPmacroCmdPadTxCtrl); write32(®s->cfg_3, param->EmcCfg3); write32(®s->pmacro_tx_pwrd_0, param->EmcPmacroTxPwrd0); write32(®s->pmacro_tx_pwrd_1, param->EmcPmacroTxPwrd1); write32(®s->pmacro_tx_pwrd_2, param->EmcPmacroTxPwrd2); write32(®s->pmacro_tx_pwrd_3, param->EmcPmacroTxPwrd3); write32(®s->pmacro_tx_pwrd_4, param->EmcPmacroTxPwrd4); write32(®s->pmacro_tx_pwrd_5, param->EmcPmacroTxPwrd5); write32(®s->pmacro_tx_sel_clk_src_0, param->EmcPmacroTxSelClkSrc0); write32(®s->pmacro_tx_sel_clk_src_1, param->EmcPmacroTxSelClkSrc1); write32(®s->pmacro_tx_sel_clk_src_2, param->EmcPmacroTxSelClkSrc2); write32(®s->pmacro_tx_sel_clk_src_3, param->EmcPmacroTxSelClkSrc3); write32(®s->pmacro_tx_sel_clk_src_4, param->EmcPmacroTxSelClkSrc4); write32(®s->pmacro_tx_sel_clk_src_5, param->EmcPmacroTxSelClkSrc5); write32(®s->pmacro_ddll_bypass, param->EmcPmacroDdllBypass); write32(®s->pmacro_ddll_pwrd_0, param->EmcPmacroDdllPwrd0); write32(®s->pmacro_ddll_pwrd_1, param->EmcPmacroDdllPwrd1); write32(®s->pmacro_ddll_pwrd_2, param->EmcPmacroDdllPwrd2); write32(®s->pmacro_cmd_ctrl_0, param->EmcPmacroCmdCtrl0); write32(®s->pmacro_cmd_ctrl_1, param->EmcPmacroCmdCtrl1); write32(®s->pmacro_cmd_ctrl_2, param->EmcPmacroCmdCtrl2); write32(®s->pmacro_ib_vref_dq_0, param->EmcPmacroIbVrefDq_0); write32(®s->pmacro_ib_vref_dq_1, param->EmcPmacroIbVrefDq_1); write32(®s->pmacro_ib_vref_dqs_0, param->EmcPmacroIbVrefDqs_0); write32(®s->pmacro_ib_vref_dqs_1, param->EmcPmacroIbVrefDqs_1); write32(®s->pmacro_ib_rxrt, param->EmcPmacroIbRxrt); write32(®s->pmacro_quse_ddll_rank0_0, param->EmcPmacroQuseDdllRank0_0); write32(®s->pmacro_quse_ddll_rank0_1, param->EmcPmacroQuseDdllRank0_1); write32(®s->pmacro_quse_ddll_rank0_2, param->EmcPmacroQuseDdllRank0_2); write32(®s->pmacro_quse_ddll_rank0_3, param->EmcPmacroQuseDdllRank0_3); write32(®s->pmacro_quse_ddll_rank0_4, param->EmcPmacroQuseDdllRank0_4); write32(®s->pmacro_quse_ddll_rank0_5, param->EmcPmacroQuseDdllRank0_5); write32(®s->pmacro_quse_ddll_rank1_0, param->EmcPmacroQuseDdllRank1_0); write32(®s->pmacro_quse_ddll_rank1_1, param->EmcPmacroQuseDdllRank1_1); write32(®s->pmacro_quse_ddll_rank1_2, param->EmcPmacroQuseDdllRank1_2); write32(®s->pmacro_quse_ddll_rank1_3, param->EmcPmacroQuseDdllRank1_3); write32(®s->pmacro_quse_ddll_rank1_4, param->EmcPmacroQuseDdllRank1_4); write32(®s->pmacro_quse_ddll_rank1_5, param->EmcPmacroQuseDdllRank1_5); write32(®s->pmacro_brick_ctrl_rfu1, param->EmcPmacroBrickCtrlRfu1); write32(®s->pmacro_ob_ddll_long_dq_rank0_0, param->EmcPmacroObDdllLongDqRank0_0); write32(®s->pmacro_ob_ddll_long_dq_rank0_1, param->EmcPmacroObDdllLongDqRank0_1); write32(®s->pmacro_ob_ddll_long_dq_rank0_2, param->EmcPmacroObDdllLongDqRank0_2); write32(®s->pmacro_ob_ddll_long_dq_rank0_3, param->EmcPmacroObDdllLongDqRank0_3); write32(®s->pmacro_ob_ddll_long_dq_rank0_4, param->EmcPmacroObDdllLongDqRank0_4); write32(®s->pmacro_ob_ddll_long_dq_rank0_5, param->EmcPmacroObDdllLongDqRank0_5); write32(®s->pmacro_ob_ddll_long_dq_rank1_0, param->EmcPmacroObDdllLongDqRank1_0); write32(®s->pmacro_ob_ddll_long_dq_rank1_1, param->EmcPmacroObDdllLongDqRank1_1); write32(®s->pmacro_ob_ddll_long_dq_rank1_2, param->EmcPmacroObDdllLongDqRank1_2); write32(®s->pmacro_ob_ddll_long_dq_rank1_3, param->EmcPmacroObDdllLongDqRank1_3); write32(®s->pmacro_ob_ddll_long_dq_rank1_4, param->EmcPmacroObDdllLongDqRank1_4); write32(®s->pmacro_ob_ddll_long_dq_rank1_5, param->EmcPmacroObDdllLongDqRank1_5); write32(®s->pmacro_ob_ddll_long_dqs_rank0_0, param->EmcPmacroObDdllLongDqsRank0_0); write32(®s->pmacro_ob_ddll_long_dqs_rank0_1, param->EmcPmacroObDdllLongDqsRank0_1); write32(®s->pmacro_ob_ddll_long_dqs_rank0_2, param->EmcPmacroObDdllLongDqsRank0_2); write32(®s->pmacro_ob_ddll_long_dqs_rank0_3, param->EmcPmacroObDdllLongDqsRank0_3); write32(®s->pmacro_ob_ddll_long_dqs_rank0_4, param->EmcPmacroObDdllLongDqsRank0_4); write32(®s->pmacro_ob_ddll_long_dqs_rank0_5, param->EmcPmacroObDdllLongDqsRank0_5); write32(®s->pmacro_ob_ddll_long_dqs_rank1_0, param->EmcPmacroObDdllLongDqsRank1_0); write32(®s->pmacro_ob_ddll_long_dqs_rank1_1, param->EmcPmacroObDdllLongDqsRank1_1); write32(®s->pmacro_ob_ddll_long_dqs_rank1_2, param->EmcPmacroObDdllLongDqsRank1_2); write32(®s->pmacro_ob_ddll_long_dqs_rank1_3, param->EmcPmacroObDdllLongDqsRank1_3); write32(®s->pmacro_ob_ddll_long_dqs_rank1_4, param->EmcPmacroObDdllLongDqsRank1_4); write32(®s->pmacro_ob_ddll_long_dqs_rank1_5, param->EmcPmacroObDdllLongDqsRank1_5); write32(®s->pmacro_ib_ddll_long_dqs_rank0_0, param->EmcPmacroIbDdllLongDqsRank0_0); write32(®s->pmacro_ib_ddll_long_dqs_rank0_1, param->EmcPmacroIbDdllLongDqsRank0_1); write32(®s->pmacro_ib_ddll_long_dqs_rank0_2, param->EmcPmacroIbDdllLongDqsRank0_2); write32(®s->pmacro_ib_ddll_long_dqs_rank0_3, param->EmcPmacroIbDdllLongDqsRank0_3); write32(®s->pmacro_ib_ddll_long_dqs_rank1_0, param->EmcPmacroIbDdllLongDqsRank1_0); write32(®s->pmacro_ib_ddll_long_dqs_rank1_1, param->EmcPmacroIbDdllLongDqsRank1_1); write32(®s->pmacro_ib_ddll_long_dqs_rank1_2, param->EmcPmacroIbDdllLongDqsRank1_2); write32(®s->pmacro_ib_ddll_long_dqs_rank1_3, param->EmcPmacroIbDdllLongDqsRank1_3); write32(®s->pmacro_ddll_long_cmd_0, param->EmcPmacroDdllLongCmd_0); write32(®s->pmacro_ddll_long_cmd_1, param->EmcPmacroDdllLongCmd_1); write32(®s->pmacro_ddll_long_cmd_2, param->EmcPmacroDdllLongCmd_2); write32(®s->pmacro_ddll_long_cmd_3, param->EmcPmacroDdllLongCmd_3); write32(®s->pmacro_ddll_long_cmd_4, param->EmcPmacroDdllLongCmd_4); write32(®s->pmacro_ddll_short_cmd_0, param->EmcPmacroDdllShortCmd_0); write32(®s->pmacro_ddll_short_cmd_1, param->EmcPmacroDdllShortCmd_1); write32(®s->pmacro_ddll_short_cmd_2, param->EmcPmacroDdllShortCmd_2); write32(®s->pmacro_common_pad_tx_ctrl, cpm_step1); } static void sdram_setup_wpr_carveouts(const struct sdram_params *param, struct tegra_mc_regs *regs) { /* Program the 5 WPR carveouts with initial BCT settings. */ write32(®s->security_carveout1_bom, param->McGeneralizedCarveout1Bom); write32(®s->security_carveout1_bom_hi, param->McGeneralizedCarveout1BomHi); write32(®s->security_carveout1_size_128kb, param->McGeneralizedCarveout1Size128kb); write32(®s->security_carveout1_ca0, param->McGeneralizedCarveout1Access0); write32(®s->security_carveout1_ca1, param->McGeneralizedCarveout1Access1); write32(®s->security_carveout1_ca2, param->McGeneralizedCarveout1Access2); write32(®s->security_carveout1_ca3, param->McGeneralizedCarveout1Access3); write32(®s->security_carveout1_ca4, param->McGeneralizedCarveout1Access4); write32(®s->security_carveout1_cfia0, param->McGeneralizedCarveout1ForceInternalAccess0); write32(®s->security_carveout1_cfia1, param->McGeneralizedCarveout1ForceInternalAccess1); write32(®s->security_carveout1_cfia2, param->McGeneralizedCarveout1ForceInternalAccess2); write32(®s->security_carveout1_cfia3, param->McGeneralizedCarveout1ForceInternalAccess3); write32(®s->security_carveout1_cfia4, param->McGeneralizedCarveout1ForceInternalAccess4); write32(®s->security_carveout1_cfg0, param->McGeneralizedCarveout1Cfg0); write32(®s->security_carveout2_bom, param->McGeneralizedCarveout2Bom); write32(®s->security_carveout2_bom_hi, param->McGeneralizedCarveout2BomHi); write32(®s->security_carveout2_size_128kb, param->McGeneralizedCarveout2Size128kb); write32(®s->security_carveout2_ca0, param->McGeneralizedCarveout2Access0); write32(®s->security_carveout2_ca1, param->McGeneralizedCarveout2Access1); write32(®s->security_carveout2_ca2, param->McGeneralizedCarveout2Access2); write32(®s->security_carveout2_ca3, param->McGeneralizedCarveout2Access3); write32(®s->security_carveout2_ca4, param->McGeneralizedCarveout2Access4); write32(®s->security_carveout2_cfia0, param->McGeneralizedCarveout2ForceInternalAccess0); write32(®s->security_carveout2_cfia1, param->McGeneralizedCarveout2ForceInternalAccess1); write32(®s->security_carveout2_cfia2, param->McGeneralizedCarveout2ForceInternalAccess2); write32(®s->security_carveout2_cfia3, param->McGeneralizedCarveout2ForceInternalAccess3); write32(®s->security_carveout2_cfia4, param->McGeneralizedCarveout2ForceInternalAccess4); write32(®s->security_carveout2_cfg0, param->McGeneralizedCarveout2Cfg0); write32(®s->security_carveout3_bom, param->McGeneralizedCarveout3Bom); write32(®s->security_carveout3_bom_hi, param->McGeneralizedCarveout3BomHi); write32(®s->security_carveout3_size_128kb, param->McGeneralizedCarveout3Size128kb); write32(®s->security_carveout3_ca0, param->McGeneralizedCarveout3Access0); write32(®s->security_carveout3_ca1, param->McGeneralizedCarveout3Access1); write32(®s->security_carveout3_ca2, param->McGeneralizedCarveout3Access2); write32(®s->security_carveout3_ca3, param->McGeneralizedCarveout3Access3); write32(®s->security_carveout3_ca4, param->McGeneralizedCarveout3Access4); write32(®s->security_carveout3_cfia0, param->McGeneralizedCarveout3ForceInternalAccess0); write32(®s->security_carveout3_cfia1, param->McGeneralizedCarveout3ForceInternalAccess1); write32(®s->security_carveout3_cfia2, param->McGeneralizedCarveout3ForceInternalAccess2); write32(®s->security_carveout3_cfia3, param->McGeneralizedCarveout3ForceInternalAccess3); write32(®s->security_carveout3_cfia4, param->McGeneralizedCarveout3ForceInternalAccess4); write32(®s->security_carveout3_cfg0, param->McGeneralizedCarveout3Cfg0); write32(®s->security_carveout4_bom, param->McGeneralizedCarveout4Bom); write32(®s->security_carveout4_bom_hi, param->McGeneralizedCarveout4BomHi); write32(®s->security_carveout4_size_128kb, param->McGeneralizedCarveout4Size128kb); write32(®s->security_carveout4_ca0, param->McGeneralizedCarveout4Access0); write32(®s->security_carveout4_ca1, param->McGeneralizedCarveout4Access1); write32(®s->security_carveout4_ca2, param->McGeneralizedCarveout4Access2); write32(®s->security_carveout4_ca3, param->McGeneralizedCarveout4Access3); write32(®s->security_carveout4_ca4, param->McGeneralizedCarveout4Access4); write32(®s->security_carveout4_cfia0, param->McGeneralizedCarveout4ForceInternalAccess0); write32(®s->security_carveout4_cfia1, param->McGeneralizedCarveout4ForceInternalAccess1); write32(®s->security_carveout4_cfia2, param->McGeneralizedCarveout4ForceInternalAccess2); write32(®s->security_carveout4_cfia3, param->McGeneralizedCarveout4ForceInternalAccess3); write32(®s->security_carveout4_cfia4, param->McGeneralizedCarveout4ForceInternalAccess4); write32(®s->security_carveout4_cfg0, param->McGeneralizedCarveout4Cfg0); write32(®s->security_carveout5_bom, param->McGeneralizedCarveout5Bom); write32(®s->security_carveout5_bom_hi, param->McGeneralizedCarveout5BomHi); write32(®s->security_carveout5_size_128kb, param->McGeneralizedCarveout5Size128kb); write32(®s->security_carveout5_ca0, param->McGeneralizedCarveout5Access0); write32(®s->security_carveout5_ca1, param->McGeneralizedCarveout5Access1); write32(®s->security_carveout5_ca2, param->McGeneralizedCarveout5Access2); write32(®s->security_carveout5_ca3, param->McGeneralizedCarveout5Access3); write32(®s->security_carveout5_ca4, param->McGeneralizedCarveout5Access4); write32(®s->security_carveout5_cfia0, param->McGeneralizedCarveout5ForceInternalAccess0); write32(®s->security_carveout5_cfia1, param->McGeneralizedCarveout5ForceInternalAccess1); write32(®s->security_carveout5_cfia2, param->McGeneralizedCarveout5ForceInternalAccess2); write32(®s->security_carveout5_cfia3, param->McGeneralizedCarveout5ForceInternalAccess3); write32(®s->security_carveout5_cfia4, param->McGeneralizedCarveout5ForceInternalAccess4); write32(®s->security_carveout5_cfg0, param->McGeneralizedCarveout5Cfg0); } static void sdram_init_mc(const struct sdram_params *param, struct tegra_mc_regs *regs) { /* Initialize MC VPR settings */ write32(®s->video_protect_bom, param->McVideoProtectBom); write32(®s->video_protect_bom_adr_hi, param->McVideoProtectBomAdrHi); write32(®s->video_protect_size_mb, param->McVideoProtectSizeMb); write32(®s->video_protect_vpr_override, param->McVideoProtectVprOverride); write32(®s->video_protect_vpr_override1, param->McVideoProtectVprOverride1); write32(®s->video_protect_gpu_override_0, param->McVideoProtectGpuOverride0); write32(®s->video_protect_gpu_override_1, param->McVideoProtectGpuOverride1); /* Program SDRAM geometry paarameters */ write32(®s->emem_adr_cfg, param->McEmemAdrCfg); write32(®s->emem_adr_cfg_dev0, param->McEmemAdrCfgDev0); write32(®s->emem_adr_cfg_dev1, param->McEmemAdrCfgDev1); write32(®s->emem_adr_cfg_channel_mask, param->McEmemAdrCfgChannelMask); /* Program bank swizzling */ write32(®s->emem_adr_cfg_bank_mask_0, param->McEmemAdrCfgBankMask0); write32(®s->emem_adr_cfg_bank_mask_1, param->McEmemAdrCfgBankMask1); write32(®s->emem_adr_cfg_bank_mask_2, param->McEmemAdrCfgBankMask2); /* Program external memory aperature (base and size) */ write32(®s->emem_cfg, param->McEmemCfg); /* Program SEC carveout (base and size) */ write32(®s->sec_carveout_bom, param->McSecCarveoutBom); write32(®s->sec_carveout_adr_hi, param->McSecCarveoutAdrHi); write32(®s->sec_carveout_size_mb, param->McSecCarveoutSizeMb); /* Program MTS carveout (base and size) */ write32(®s->mts_carveout_bom, param->McMtsCarveoutBom); write32(®s->mts_carveout_adr_hi, param->McMtsCarveoutAdrHi); write32(®s->mts_carveout_size_mb, param->McMtsCarveoutSizeMb); /* Initialize the WPR carveouts */ sdram_setup_wpr_carveouts(param, regs); /* Program the memory arbiter */ write32(®s->emem_arb_cfg, param->McEmemArbCfg); write32(®s->emem_arb_outstanding_req, param->McEmemArbOutstandingReq); write32(®s->emem_arb_refpb_hp_ctrl, param->McEmemArbRefpbHpCtrl); write32(®s->emem_arb_refpb_bank_ctrl, param->McEmemArbRefpbBankCtrl); write32(®s->emem_arb_timing_rcd, param->McEmemArbTimingRcd); write32(®s->emem_arb_timing_rp, param->McEmemArbTimingRp); write32(®s->emem_arb_timing_rc, param->McEmemArbTimingRc); write32(®s->emem_arb_timing_ras, param->McEmemArbTimingRas); write32(®s->emem_arb_timing_faw, param->McEmemArbTimingFaw); write32(®s->emem_arb_timing_rrd, param->McEmemArbTimingRrd); write32(®s->emem_arb_timing_rap2pre, param->McEmemArbTimingRap2Pre); write32(®s->emem_arb_timing_wap2pre, param->McEmemArbTimingWap2Pre); write32(®s->emem_arb_timing_r2r, param->McEmemArbTimingR2R); write32(®s->emem_arb_timing_w2w, param->McEmemArbTimingW2W); write32(®s->emem_arb_timing_ccdmw, param->McEmemArbTimingCcdmw); write32(®s->emem_arb_timing_r2w, param->McEmemArbTimingR2W); write32(®s->emem_arb_timing_w2r, param->McEmemArbTimingW2R); write32(®s->emem_arb_timing_rfcpb, param->McEmemArbTimingRFCPB); write32(®s->emem_arb_da_turns, param->McEmemArbDaTurns); write32(®s->emem_arb_da_covers, param->McEmemArbDaCovers); write32(®s->emem_arb_misc0, param->McEmemArbMisc0); write32(®s->emem_arb_misc1, param->McEmemArbMisc1); write32(®s->emem_arb_misc2, param->McEmemArbMisc2); write32(®s->emem_arb_ring1_throttle, param->McEmemArbRing1Throttle); write32(®s->emem_arb_override, param->McEmemArbOverride); write32(®s->emem_arb_override_1, param->McEmemArbOverride1); write32(®s->emem_arb_rsv, param->McEmemArbRsv); write32(®s->da_config0, param->McDaCfg0); /* Trigger MC timing update */ write32(®s->timing_control, EMC_TIMING_CONTROL_TIMING_UPDATE); /* Program second-level clock enable overrides */ write32(®s->clken_override, param->McClkenOverride); /* Program statistics gathering */ write32(®s->stat_control, param->McStatControl); } static void sdram_init_emc(const struct sdram_params *param, struct tegra_emc_regs *regs) { /* Program SDRAM geometry parameters */ write32(®s->adr_cfg, param->EmcAdrCfg); /* Program second-level clock enable overrides */ write32(®s->clken_override, param->EmcClkenOverride); /* Program EMC pad auto calibration */ write32(®s->pmacro_autocal_cfg0, param->EmcPmacroAutocalCfg0); write32(®s->pmacro_autocal_cfg1, param->EmcPmacroAutocalCfg1); write32(®s->pmacro_autocal_cfg2, param->EmcPmacroAutocalCfg2); write32(®s->auto_cal_vref_sel0, param->EmcAutoCalVrefSel0); write32(®s->auto_cal_vref_sel1, param->EmcAutoCalVrefSel1); write32(®s->auto_cal_interval, param->EmcAutoCalInterval); write32(®s->auto_cal_config, param->EmcAutoCalConfig); udelay(param->EmcAutoCalWait); } static void sdram_set_emc_timing(const struct sdram_params *param, struct tegra_emc_regs *regs) { /* Program EMC timing configuration */ write32(®s->cfg_2, param->EmcCfg2); write32(®s->cfg_pipe, param->EmcCfgPipe); write32(®s->cfg_pipe1, param->EmcCfgPipe1); write32(®s->cfg_pipe2, param->EmcCfgPipe2); write32(®s->cmdq, param->EmcCmdQ); write32(®s->mc2emcq, param->EmcMc2EmcQ); write32(®s->mrs_wait_cnt, param->EmcMrsWaitCnt); write32(®s->mrs_wait_cnt2, param->EmcMrsWaitCnt2); write32(®s->fbio_cfg5, param->EmcFbioCfg5); write32(®s->rc, param->EmcRc); write32(®s->rfc, param->EmcRfc); write32(®s->rfcpb, param->EmcRfcPb); write32(®s->refctrl2, param->EmcRefctrl2); write32(®s->rfc_slr, param->EmcRfcSlr); write32(®s->ras, param->EmcRas); write32(®s->rp, param->EmcRp); write32(®s->tppd, param->EmcTppd); write32(®s->r2r, param->EmcR2r); write32(®s->w2w, param->EmcW2w); write32(®s->r2w, param->EmcR2w); write32(®s->w2r, param->EmcW2r); write32(®s->r2p, param->EmcR2p); write32(®s->w2p, param->EmcW2p); write32(®s->ccdmw, param->EmcCcdmw); write32(®s->rd_rcd, param->EmcRdRcd); write32(®s->wr_rcd, param->EmcWrRcd); write32(®s->rrd, param->EmcRrd); write32(®s->rext, param->EmcRext); write32(®s->wext, param->EmcWext); write32(®s->wdv, param->EmcWdv); write32(®s->wdv_chk, param->EmcWdvChk); write32(®s->wsv, param->EmcWsv); write32(®s->wev, param->EmcWev); write32(®s->wdv_mask, param->EmcWdvMask); write32(®s->ws_duration, param->EmcWsDuration); write32(®s->we_duration, param->EmcWeDuration); write32(®s->quse, param->EmcQUse); write32(®s->quse_width, param->EmcQuseWidth); write32(®s->ibdly, param->EmcIbdly); write32(®s->obdly, param->EmcObdly); write32(®s->einput, param->EmcEInput); write32(®s->einput_duration, param->EmcEInputDuration); write32(®s->puterm_extra, param->EmcPutermExtra); write32(®s->puterm_width, param->EmcPutermWidth); write32(®s->pmacro_common_pad_tx_ctrl, param->EmcPmacroCommonPadTxCtrl); write32(®s->dbg, param->EmcDbg); write32(®s->qrst, param->EmcQRst); write32(®s->issue_qrst, 1); write32(®s->issue_qrst, 0); write32(®s->qsafe, param->EmcQSafe); write32(®s->rdv, param->EmcRdv); write32(®s->rdv_mask, param->EmcRdvMask); write32(®s->rdv_early, param->EmcRdvEarly); write32(®s->rdv_early_mask, param->EmcRdvEarlyMask); write32(®s->qpop, param->EmcQpop); write32(®s->refresh, param->EmcRefresh); write32(®s->burst_refresh_num, param->EmcBurstRefreshNum); write32(®s->pre_refresh_req_cnt, param->EmcPreRefreshReqCnt); write32(®s->pdex2wr, param->EmcPdEx2Wr); write32(®s->pdex2rd, param->EmcPdEx2Rd); write32(®s->pchg2pden, param->EmcPChg2Pden); write32(®s->act2pden, param->EmcAct2Pden); write32(®s->ar2pden, param->EmcAr2Pden); write32(®s->rw2pden, param->EmcRw2Pden); write32(®s->cke2pden, param->EmcCke2Pden); write32(®s->pdex2cke, param->EmcPdex2Cke); write32(®s->pdex2mrr, param->EmcPdex2Mrr); write32(®s->txsr, param->EmcTxsr); write32(®s->txsrdll, param->EmcTxsrDll); write32(®s->tcke, param->EmcTcke); write32(®s->tckesr, param->EmcTckesr); write32(®s->tpd, param->EmcTpd); write32(®s->tfaw, param->EmcTfaw); write32(®s->trpab, param->EmcTrpab); write32(®s->tclkstable, param->EmcTClkStable); write32(®s->tclkstop, param->EmcTClkStop); write32(®s->trefbw, param->EmcTRefBw); write32(®s->odt_write, param->EmcOdtWrite); write32(®s->cfg_dig_dll, param->EmcCfgDigDll); write32(®s->cfg_dig_dll_period, param->EmcCfgDigDllPeriod); /* Don't write CFG_ADR_EN (bit 1) here - lock bit written later */ write32(®s->fbio_spare, param->EmcFbioSpare & ~CFG_ADR_EN_LOCKED); write32(®s->cfg_rsv, param->EmcCfgRsv); write32(®s->pmc_scratch1, param->EmcPmcScratch1); write32(®s->pmc_scratch2, param->EmcPmcScratch2); write32(®s->pmc_scratch3, param->EmcPmcScratch3); write32(®s->acpd_control, param->EmcAcpdControl); write32(®s->txdsrvttgen, param->EmcTxdsrvttgen); /* * Set pipe bypass enable bits before sending any DRAM commands. * Note other bits in EMC_CFG must be set AFTER REFCTRL is configured. */ writebits(param->EmcCfg, ®s->cfg, (EMC_CFG_EMC2PMACRO_CFG_BYPASS_ADDRPIPE_MASK | EMC_CFG_EMC2PMACRO_CFG_BYPASS_DATAPIPE1_MASK | EMC_CFG_EMC2PMACRO_CFG_BYPASS_DATAPIPE2_MASK)); } static void sdram_patch_bootrom(const struct sdram_params *param, struct tegra_mc_regs *regs) { if (param->BootRomPatchControl & BOOT_ROM_PATCH_CONTROL_ENABLE_MASK) { uintptr_t addr = ((param->BootRomPatchControl & BOOT_ROM_PATCH_CONTROL_OFFSET_MASK) >> BOOT_ROM_PATCH_CONTROL_OFFSET_SHIFT); addr = BOOT_ROM_PATCH_CONTROL_BASE_ADDRESS + (addr << 2); write32((uint32_t *)addr, param->BootRomPatchData); write32(®s->timing_control, EMC_TIMING_CONTROL_TIMING_UPDATE); } } static void sdram_rel_dpd(const struct sdram_params *param, struct tegra_pmc_regs *regs) { u32 dpd3_val, dpd3_val_sel_dpd; /* Release SEL_DPD_CMD */ dpd3_val = (param->EmcPmcScratch1 & 0x3FFFFFFF) | DPD_OFF; dpd3_val_sel_dpd = dpd3_val & 0xCFFF0000; write32(®s->io_dpd3_req, dpd3_val_sel_dpd); udelay(param->PmcIoDpd3ReqWait); } /* Program DPD3/DPD4 regs (coldboot path) */ static void sdram_set_dpd(const struct sdram_params *param, struct tegra_pmc_regs *regs) { u32 dpd3_val, dpd3_val_sel_dpd; u32 dpd4_val, dpd4_val_e_dpd, dpd4_val_e_dpd_vttgen; /* Enable sel_dpd on unused pins */ dpd3_val = (param->EmcPmcScratch1 & 0x3FFFFFFF) | DPD_ON; dpd3_val_sel_dpd = (dpd3_val ^ 0x0000FFFF) & 0xC000FFFF; write32(®s->io_dpd3_req, dpd3_val_sel_dpd); udelay(param->PmcIoDpd3ReqWait); dpd4_val = dpd3_val; /* Disable e_dpd_vttgen */ dpd4_val_e_dpd_vttgen = (dpd4_val ^ 0x3FFF0000) & 0xFFFF0000; write32(®s->io_dpd4_req, dpd4_val_e_dpd_vttgen); udelay(param->PmcIoDpd4ReqWait); /* Disable e_dpd_bg */ dpd4_val_e_dpd = (dpd4_val ^ 0x0000FFFF) & 0xC000FFFF; write32(®s->io_dpd4_req, dpd4_val_e_dpd); udelay(param->PmcIoDpd4ReqWait); write32(®s->weak_bias, 0); /* Add a wait to make sure clock switch takes place */ udelay(1); } static void sdram_set_clock_enable_signal(const struct sdram_params *param, struct tegra_emc_regs *regs) { volatile uint32_t dummy = 0; uint32_t val = 0; if (param->MemoryType == NvBootMemoryType_LpDdr4) { val = (param->EmcPinGpioEn << EMC_PIN_GPIOEN_SHIFT) | (param->EmcPinGpio << EMC_PIN_GPIO_SHIFT); write32(®s->pin, val); clrbits32(®s->pin, (EMC_PIN_RESET_MASK | EMC_PIN_DQM_MASK | EMC_PIN_CKE_MASK)); /* * Assert dummy read of PIN register to ensure above write goes * through. Wait an additional 200us here as per NVIDIA. */ dummy |= read32(®s->pin); udelay(param->EmcPinExtraWait + 200); /* Deassert reset */ setbits32(®s->pin, EMC_PIN_RESET_INACTIVE); /* * Assert dummy read of PIN register to ensure above write goes * through. Wait an additional 2000us here as per NVIDIA. */ dummy |= read32(®s->pin); udelay(param->EmcPinExtraWait + 2000); } /* Enable clock enable signal */ setbits32(®s->pin, EMC_PIN_CKE_NORMAL); /* Dummy read of PIN register to ensure final write goes through */ dummy |= read32(®s->pin); udelay(param->EmcPinProgramWait); if (!dummy) die("Failed to program EMC pin."); if (param->MemoryType != NvBootMemoryType_LpDdr4) { /* Send NOP (trigger just needs to be non-zero) */ writebits(((1 << EMC_NOP_CMD_SHIFT) | (param->EmcDevSelect << EMC_NOP_DEV_SELECTN_SHIFT)), ®s->nop, EMC_NOP_CMD_MASK | EMC_NOP_DEV_SELECTN_MASK); } /* On coldboot w/LPDDR2/3, wait 200 uSec after asserting CKE high */ if (param->MemoryType == NvBootMemoryType_LpDdr2) udelay(param->EmcPinExtraWait + 200); } static void sdram_init_lpddr3(const struct sdram_params *param, struct tegra_emc_regs *regs) { /* Precharge all banks. DEV_SELECTN = 0 => Select all devices */ write32(®s->pre, ((param->EmcDevSelect << EMC_REF_DEV_SELECTN_SHIFT) | 1)); /* Send Reset MRW command */ write32(®s->mrw, param->EmcMrwResetCommand); udelay(param->EmcMrwResetNInitWait); write32(®s->mrw, param->EmcZcalInitDev0); udelay(param->EmcZcalInitWait); if ((param->EmcDevSelect & 2) == 0) { write32(®s->mrw, param->EmcZcalInitDev1); udelay(param->EmcZcalInitWait); } /* Write mode registers */ write32(®s->mrw2, param->EmcMrw2); write32(®s->mrw, param->EmcMrw1); write32(®s->mrw3, param->EmcMrw3); write32(®s->mrw4, param->EmcMrw4); /* Patch 6 using BCT spare variables */ sdram_patch(param->EmcBctSpare10, param->EmcBctSpare11); if (param->EmcExtraModeRegWriteEnable) write32(®s->mrw, param->EmcMrwExtra); } static void sdram_init_lpddr4(const struct sdram_params *param, struct tegra_emc_regs *regs) { /* Patch 6 using BCT spare variables */ sdram_patch(param->EmcBctSpare10, param->EmcBctSpare11); /* Write mode registers */ write32(®s->mrw2, param->EmcMrw2); write32(®s->mrw, param->EmcMrw1); write32(®s->mrw3, param->EmcMrw3); write32(®s->mrw4, param->EmcMrw4); write32(®s->mrw6, param->EmcMrw6); write32(®s->mrw14, param->EmcMrw14); write32(®s->mrw8, param->EmcMrw8); write32(®s->mrw12, param->EmcMrw12); write32(®s->mrw9, param->EmcMrw9); write32(®s->mrw13, param->EmcMrw13); /* Issue ZQCAL start, device 0 */ write32(®s->zq_cal, param->EmcZcalInitDev0); udelay(param->EmcZcalInitWait); /* Issue ZQCAL latch */ write32(®s->zq_cal, (param->EmcZcalInitDev0 ^ 0x3)); if ((param->EmcDevSelect & 2) == 0) { /* Same for device 1 */ write32(®s->zq_cal, param->EmcZcalInitDev1); udelay(param->EmcZcalInitWait); write32(®s->zq_cal, (param->EmcZcalInitDev1 ^ 0x3)); } } static void sdram_init_zq_calibration(const struct sdram_params *param, struct tegra_emc_regs *regs) { if (param->MemoryType == NvBootMemoryType_LpDdr2) sdram_init_lpddr3(param, regs); else if (param->MemoryType == NvBootMemoryType_LpDdr4) sdram_init_lpddr4(param, regs); } static void sdram_set_zq_calibration(const struct sdram_params *param, struct tegra_emc_regs *regs) { if (param->EmcAutoCalInterval == 0) write32(®s->auto_cal_config, param->EmcAutoCalConfig | AUTOCAL_MEASURE_STALL_ENABLE); write32(®s->pmacro_brick_ctrl_rfu2, param->EmcPmacroBrickCtrlRfu2); /* ZQ CAL setup (not actually issuing ZQ CAL now) */ if (param->MemoryType == NvBootMemoryType_LpDdr4) { write32(®s->zcal_wait_cnt, param->EmcZcalWaitCnt); write32(®s->zcal_mrw_cmd, param->EmcZcalMrwCmd); } sdram_trigger_emc_timing_update(regs); udelay(param->EmcTimingControlWait); } static void sdram_set_refresh(const struct sdram_params *param, struct tegra_emc_regs *regs) { /* Insert burst refresh */ if (param->EmcExtraRefreshNum > 0) { uint32_t refresh_num = (1 << param->EmcExtraRefreshNum) - 1; writebits((EMC_REF_CMD_REFRESH | EMC_REF_NORMAL_ENABLED | (refresh_num << EMC_REF_NUM_SHIFT) | (param->EmcDevSelect << EMC_REF_DEV_SELECTN_SHIFT)), ®s->ref, (EMC_REF_CMD_MASK | EMC_REF_NORMAL_MASK | EMC_REF_NUM_MASK | EMC_REF_DEV_SELECTN_MASK)); } /* Enable refresh */ write32(®s->refctrl, (param->EmcDevSelect | EMC_REFCTRL_REF_VALID_ENABLED)); /* * NOTE: Programming CFG must happen after REFCTRL to delay * active power-down to after init (DDR2 constraint). */ write32(®s->dyn_self_ref_control, param->EmcDynSelfRefControl); write32(®s->cfg_update, param->EmcCfgUpdate); write32(®s->cfg, param->EmcCfg); write32(®s->fdpd_ctrl_dq, param->EmcFdpdCtrlDq); write32(®s->fdpd_ctrl_cmd, param->EmcFdpdCtrlCmd); write32(®s->sel_dpd_ctrl, param->EmcSelDpdCtrl); /* Write addr swizzle lock bit */ write32(®s->fbio_spare, param->EmcFbioSpare | CFG_ADR_EN_LOCKED); /* Re-trigger timing to latch power saving functions */ sdram_trigger_emc_timing_update(regs); /* Enable EMC pipe clock gating */ write32(®s->cfg_pipe_clk, param->EmcCfgPipeClk); /* Depending on frequency, enable CMD/CLK fdpd */ write32(®s->fdpd_ctrl_cmd_no_ramp, param->EmcFdpdCtrlCmdNoRamp); } #define AHB_ARB_XBAR_CTRL 0x6000C0E0 static void sdram_enable_arbiter(const struct sdram_params *param) { /* TODO(hungte) Move values here to standalone header file. */ uint32_t *ahb_arbitration_xbar_ctrl = (uint32_t *)(AHB_ARB_XBAR_CTRL); setbits32(ahb_arbitration_xbar_ctrl, param->AhbArbitrationXbarCtrlMemInitDone << 16); } static void sdram_lock_carveouts(const struct sdram_params *param, struct tegra_mc_regs *regs) { /* Lock carveouts, and emem_cfg registers */ write32(®s->video_protect_reg_ctrl, param->McVideoProtectWriteAccess); write32(®s->sec_carveout_reg_ctrl, param->McSecCarveoutProtectWriteAccess); write32(®s->mts_carveout_reg_ctrl, param->McMtsCarveoutRegCtrl); /* Write this last, locks access */ write32(®s->emem_cfg_access_ctrl, MC_EMEM_CFG_ACCESS_CTRL_WRITE_ACCESS_DISABLED); } void sdram_init(const struct sdram_params *param) { struct tegra_pmc_regs *pmc = (struct tegra_pmc_regs *)TEGRA_PMC_BASE; struct tegra_mc_regs *mc = (struct tegra_mc_regs *)TEGRA_MC_BASE; struct tegra_emc_regs *emc = (struct tegra_emc_regs *)TEGRA_EMC_BASE; printk(BIOS_DEBUG, "Initializing SDRAM of type %d with %dKHz\n", param->MemoryType, clock_get_pll_input_khz() * param->PllMFeedbackDivider / param->PllMInputDivider / (1 + param->PllMPostDivider)); if (param->MemoryType != NvBootMemoryType_LpDdr4 && param->MemoryType != NvBootMemoryType_LpDdr2) die("Unsupported memory type!\n"); sdram_configure_pmc(param, pmc); sdram_patch(param->EmcBctSpare0, param->EmcBctSpare1); sdram_set_dpd(param, pmc); sdram_start_clocks(param, emc); sdram_set_pad_macros(param, emc); sdram_patch(param->EmcBctSpare4, param->EmcBctSpare5); sdram_trigger_emc_timing_update(emc); sdram_init_mc(param, mc); sdram_init_emc(param, emc); sdram_patch(param->EmcBctSpare8, param->EmcBctSpare9); sdram_set_emc_timing(param, emc); sdram_patch_bootrom(param, mc); sdram_rel_dpd(param, pmc); sdram_set_zq_calibration(param, emc); sdram_set_ddr_control(param, pmc); sdram_set_clock_enable_signal(param, emc); sdram_init_zq_calibration(param, emc); /* Set package and DPD pad control */ write32(&pmc->ddr_cfg, param->PmcDdrCfg); /* Start periodic ZQ calibration (LPDDRx only) */ if (param->MemoryType == NvBootMemoryType_LpDdr4 || param->MemoryType == NvBootMemoryType_LpDdr2) { write32(&emc->zcal_interval, param->EmcZcalInterval); write32(&emc->zcal_wait_cnt, param->EmcZcalWaitCnt); write32(&emc->zcal_mrw_cmd, param->EmcZcalMrwCmd); } sdram_patch(param->EmcBctSpare12, param->EmcBctSpare13); sdram_trigger_emc_timing_update(emc); sdram_set_refresh(param, emc); sdram_enable_arbiter(param); sdram_lock_carveouts(param, mc); }