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memory: emif: add one-time settings
Add settings that are not dependent on frequency or any other transient parameters. This includes - power managment control init - impedence calibration control - frequency independent phy configuration registers - initialization of temperature polling Signed-off-by: Aneesh V <aneesh@ti.com> Reviewed-by: Santosh Shilimkar <santosh.shilimkar@ti.com> Reviewed-by: Benoit Cousson <b-cousson@ti.com> [santosh.shilimkar@ti.com: Moved to drivers/memory from drivers/misc] Signed-off-by: Santosh Shilimkar <santosh.shilimkar@ti.com> Tested-by: Lokesh Vutla <lokeshvutla@ti.com> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
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@ -77,6 +77,24 @@ static void set_ddr_clk_period(u32 freq)
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t_ck = (u32)DIV_ROUND_UP_ULL(1000000000000ull, freq);
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}
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/*
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* Get bus width used by EMIF. Note that this may be different from the
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* bus width of the DDR devices used. For instance two 16-bit DDR devices
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* may be connected to a given CS of EMIF. In this case bus width as far
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* as EMIF is concerned is 32, where as the DDR bus width is 16 bits.
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*/
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static u32 get_emif_bus_width(struct emif_data *emif)
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{
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u32 width;
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void __iomem *base = emif->base;
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width = (readl(base + EMIF_SDRAM_CONFIG) & NARROW_MODE_MASK)
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>> NARROW_MODE_SHIFT;
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width = width == 0 ? 32 : 16;
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return width;
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}
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/*
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* Get the CL from SDRAM_CONFIG register
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*/
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@ -372,6 +390,70 @@ static u32 get_sdram_tim_3_shdw(const struct lpddr2_timings *timings,
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return tim3;
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}
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static u32 get_zq_config_reg(const struct lpddr2_addressing *addressing,
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bool cs1_used, bool cal_resistors_per_cs)
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{
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u32 zq = 0, val = 0;
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val = EMIF_ZQCS_INTERVAL_US * 1000 / addressing->tREFI_ns;
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zq |= val << ZQ_REFINTERVAL_SHIFT;
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val = DIV_ROUND_UP(T_ZQCL_DEFAULT_NS, T_ZQCS_DEFAULT_NS) - 1;
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zq |= val << ZQ_ZQCL_MULT_SHIFT;
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val = DIV_ROUND_UP(T_ZQINIT_DEFAULT_NS, T_ZQCL_DEFAULT_NS) - 1;
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zq |= val << ZQ_ZQINIT_MULT_SHIFT;
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zq |= ZQ_SFEXITEN_ENABLE << ZQ_SFEXITEN_SHIFT;
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if (cal_resistors_per_cs)
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zq |= ZQ_DUALCALEN_ENABLE << ZQ_DUALCALEN_SHIFT;
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else
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zq |= ZQ_DUALCALEN_DISABLE << ZQ_DUALCALEN_SHIFT;
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zq |= ZQ_CS0EN_MASK; /* CS0 is used for sure */
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val = cs1_used ? 1 : 0;
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zq |= val << ZQ_CS1EN_SHIFT;
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return zq;
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}
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static u32 get_temp_alert_config(const struct lpddr2_addressing *addressing,
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const struct emif_custom_configs *custom_configs, bool cs1_used,
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u32 sdram_io_width, u32 emif_bus_width)
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{
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u32 alert = 0, interval, devcnt;
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if (custom_configs && (custom_configs->mask &
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EMIF_CUSTOM_CONFIG_TEMP_ALERT_POLL_INTERVAL))
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interval = custom_configs->temp_alert_poll_interval_ms;
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else
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interval = TEMP_ALERT_POLL_INTERVAL_DEFAULT_MS;
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interval *= 1000000; /* Convert to ns */
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interval /= addressing->tREFI_ns; /* Convert to refresh cycles */
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alert |= (interval << TA_REFINTERVAL_SHIFT);
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/*
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* sdram_io_width is in 'log2(x) - 1' form. Convert emif_bus_width
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* also to this form and subtract to get TA_DEVCNT, which is
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* in log2(x) form.
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*/
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emif_bus_width = __fls(emif_bus_width) - 1;
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devcnt = emif_bus_width - sdram_io_width;
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alert |= devcnt << TA_DEVCNT_SHIFT;
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/* DEVWDT is in 'log2(x) - 3' form */
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alert |= (sdram_io_width - 2) << TA_DEVWDT_SHIFT;
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alert |= 1 << TA_SFEXITEN_SHIFT;
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alert |= 1 << TA_CS0EN_SHIFT;
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alert |= (cs1_used ? 1 : 0) << TA_CS1EN_SHIFT;
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return alert;
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}
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static u32 get_read_idle_ctrl_shdw(u8 volt_ramp)
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{
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u32 idle = 0, val = 0;
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@ -815,6 +897,71 @@ static int __init_or_module setup_interrupts(struct emif_data *emif, u32 irq)
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}
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static void __init_or_module emif_onetime_settings(struct emif_data *emif)
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{
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u32 pwr_mgmt_ctrl, zq, temp_alert_cfg;
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void __iomem *base = emif->base;
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const struct lpddr2_addressing *addressing;
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const struct ddr_device_info *device_info;
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device_info = emif->plat_data->device_info;
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addressing = get_addressing_table(device_info);
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/*
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* Init power management settings
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* We don't know the frequency yet. Use a high frequency
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* value for a conservative timeout setting
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*/
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pwr_mgmt_ctrl = get_pwr_mgmt_ctrl(1000000000, emif,
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emif->plat_data->ip_rev);
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emif->lpmode = (pwr_mgmt_ctrl & LP_MODE_MASK) >> LP_MODE_SHIFT;
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writel(pwr_mgmt_ctrl, base + EMIF_POWER_MANAGEMENT_CONTROL);
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/* Init ZQ calibration settings */
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zq = get_zq_config_reg(addressing, device_info->cs1_used,
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device_info->cal_resistors_per_cs);
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writel(zq, base + EMIF_SDRAM_OUTPUT_IMPEDANCE_CALIBRATION_CONFIG);
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/* Check temperature level temperature level*/
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get_temperature_level(emif);
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if (emif->temperature_level == SDRAM_TEMP_VERY_HIGH_SHUTDOWN)
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dev_emerg(emif->dev, "SDRAM temperature exceeds operating limit.. Needs shut down!!!\n");
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/* Init temperature polling */
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temp_alert_cfg = get_temp_alert_config(addressing,
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emif->plat_data->custom_configs, device_info->cs1_used,
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device_info->io_width, get_emif_bus_width(emif));
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writel(temp_alert_cfg, base + EMIF_TEMPERATURE_ALERT_CONFIG);
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/*
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* Program external PHY control registers that are not frequency
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* dependent
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*/
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if (emif->plat_data->phy_type != EMIF_PHY_TYPE_INTELLIPHY)
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return;
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writel(EMIF_EXT_PHY_CTRL_1_VAL, base + EMIF_EXT_PHY_CTRL_1_SHDW);
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writel(EMIF_EXT_PHY_CTRL_5_VAL, base + EMIF_EXT_PHY_CTRL_5_SHDW);
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writel(EMIF_EXT_PHY_CTRL_6_VAL, base + EMIF_EXT_PHY_CTRL_6_SHDW);
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writel(EMIF_EXT_PHY_CTRL_7_VAL, base + EMIF_EXT_PHY_CTRL_7_SHDW);
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writel(EMIF_EXT_PHY_CTRL_8_VAL, base + EMIF_EXT_PHY_CTRL_8_SHDW);
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writel(EMIF_EXT_PHY_CTRL_9_VAL, base + EMIF_EXT_PHY_CTRL_9_SHDW);
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writel(EMIF_EXT_PHY_CTRL_10_VAL, base + EMIF_EXT_PHY_CTRL_10_SHDW);
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writel(EMIF_EXT_PHY_CTRL_11_VAL, base + EMIF_EXT_PHY_CTRL_11_SHDW);
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writel(EMIF_EXT_PHY_CTRL_12_VAL, base + EMIF_EXT_PHY_CTRL_12_SHDW);
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writel(EMIF_EXT_PHY_CTRL_13_VAL, base + EMIF_EXT_PHY_CTRL_13_SHDW);
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writel(EMIF_EXT_PHY_CTRL_14_VAL, base + EMIF_EXT_PHY_CTRL_14_SHDW);
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writel(EMIF_EXT_PHY_CTRL_15_VAL, base + EMIF_EXT_PHY_CTRL_15_SHDW);
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writel(EMIF_EXT_PHY_CTRL_16_VAL, base + EMIF_EXT_PHY_CTRL_16_SHDW);
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writel(EMIF_EXT_PHY_CTRL_17_VAL, base + EMIF_EXT_PHY_CTRL_17_SHDW);
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writel(EMIF_EXT_PHY_CTRL_18_VAL, base + EMIF_EXT_PHY_CTRL_18_SHDW);
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writel(EMIF_EXT_PHY_CTRL_19_VAL, base + EMIF_EXT_PHY_CTRL_19_SHDW);
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writel(EMIF_EXT_PHY_CTRL_20_VAL, base + EMIF_EXT_PHY_CTRL_20_SHDW);
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writel(EMIF_EXT_PHY_CTRL_21_VAL, base + EMIF_EXT_PHY_CTRL_21_SHDW);
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writel(EMIF_EXT_PHY_CTRL_22_VAL, base + EMIF_EXT_PHY_CTRL_22_SHDW);
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writel(EMIF_EXT_PHY_CTRL_23_VAL, base + EMIF_EXT_PHY_CTRL_23_SHDW);
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writel(EMIF_EXT_PHY_CTRL_24_VAL, base + EMIF_EXT_PHY_CTRL_24_SHDW);
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}
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static void get_default_timings(struct emif_data *emif)
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{
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struct emif_platform_data *pd = emif->plat_data;
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@ -1027,6 +1174,7 @@ static int __init_or_module emif_probe(struct platform_device *pdev)
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goto error;
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}
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emif_onetime_settings(emif);
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disable_and_clear_all_interrupts(emif);
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setup_interrupts(emif, irq);
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