/* * Samsung SoC USB 1.1/2.0 PHY driver - Exynos 4x12 support * * Copyright (C) 2013 Samsung Electronics Co., Ltd. * Author: Kamil Debski * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. */ #include #include #include #include #include "phy-samsung-usb2.h" /* Exynos USB PHY registers */ /* PHY power control */ #define EXYNOS_4x12_UPHYPWR 0x0 #define EXYNOS_4x12_UPHYPWR_PHY0_SUSPEND BIT(0) #define EXYNOS_4x12_UPHYPWR_PHY0_PWR BIT(3) #define EXYNOS_4x12_UPHYPWR_PHY0_OTG_PWR BIT(4) #define EXYNOS_4x12_UPHYPWR_PHY0_SLEEP BIT(5) #define EXYNOS_4x12_UPHYPWR_PHY0 ( \ EXYNOS_4x12_UPHYPWR_PHY0_SUSPEND | \ EXYNOS_4x12_UPHYPWR_PHY0_PWR | \ EXYNOS_4x12_UPHYPWR_PHY0_OTG_PWR | \ EXYNOS_4x12_UPHYPWR_PHY0_SLEEP) #define EXYNOS_4x12_UPHYPWR_PHY1_SUSPEND BIT(6) #define EXYNOS_4x12_UPHYPWR_PHY1_PWR BIT(7) #define EXYNOS_4x12_UPHYPWR_PHY1_SLEEP BIT(8) #define EXYNOS_4x12_UPHYPWR_PHY1 ( \ EXYNOS_4x12_UPHYPWR_PHY1_SUSPEND | \ EXYNOS_4x12_UPHYPWR_PHY1_PWR | \ EXYNOS_4x12_UPHYPWR_PHY1_SLEEP) #define EXYNOS_4x12_UPHYPWR_HSIC0_SUSPEND BIT(9) #define EXYNOS_4x12_UPHYPWR_HSIC0_PWR BIT(10) #define EXYNOS_4x12_UPHYPWR_HSIC0_SLEEP BIT(11) #define EXYNOS_4x12_UPHYPWR_HSIC0 ( \ EXYNOS_4x12_UPHYPWR_HSIC0_SUSPEND | \ EXYNOS_4x12_UPHYPWR_HSIC0_PWR | \ EXYNOS_4x12_UPHYPWR_HSIC0_SLEEP) #define EXYNOS_4x12_UPHYPWR_HSIC1_SUSPEND BIT(12) #define EXYNOS_4x12_UPHYPWR_HSIC1_PWR BIT(13) #define EXYNOS_4x12_UPHYPWR_HSIC1_SLEEP BIT(14) #define EXYNOS_4x12_UPHYPWR_HSIC1 ( \ EXYNOS_4x12_UPHYPWR_HSIC1_SUSPEND | \ EXYNOS_4x12_UPHYPWR_HSIC1_PWR | \ EXYNOS_4x12_UPHYPWR_HSIC1_SLEEP) /* PHY clock control */ #define EXYNOS_4x12_UPHYCLK 0x4 #define EXYNOS_4x12_UPHYCLK_PHYFSEL_MASK (0x7 << 0) #define EXYNOS_4x12_UPHYCLK_PHYFSEL_OFFSET 0 #define EXYNOS_4x12_UPHYCLK_PHYFSEL_9MHZ6 (0x0 << 0) #define EXYNOS_4x12_UPHYCLK_PHYFSEL_10MHZ (0x1 << 0) #define EXYNOS_4x12_UPHYCLK_PHYFSEL_12MHZ (0x2 << 0) #define EXYNOS_4x12_UPHYCLK_PHYFSEL_19MHZ2 (0x3 << 0) #define EXYNOS_4x12_UPHYCLK_PHYFSEL_20MHZ (0x4 << 0) #define EXYNOS_4x12_UPHYCLK_PHYFSEL_24MHZ (0x5 << 0) #define EXYNOS_4x12_UPHYCLK_PHYFSEL_50MHZ (0x7 << 0) #define EXYNOS_3250_UPHYCLK_REFCLKSEL (0x2 << 8) #define EXYNOS_4x12_UPHYCLK_PHY0_ID_PULLUP BIT(3) #define EXYNOS_4x12_UPHYCLK_PHY0_COMMON_ON BIT(4) #define EXYNOS_4x12_UPHYCLK_PHY1_COMMON_ON BIT(7) #define EXYNOS_4x12_UPHYCLK_HSIC_REFCLK_MASK (0x7f << 10) #define EXYNOS_4x12_UPHYCLK_HSIC_REFCLK_OFFSET 10 #define EXYNOS_4x12_UPHYCLK_HSIC_REFCLK_12MHZ (0x24 << 10) #define EXYNOS_4x12_UPHYCLK_HSIC_REFCLK_15MHZ (0x1c << 10) #define EXYNOS_4x12_UPHYCLK_HSIC_REFCLK_16MHZ (0x1a << 10) #define EXYNOS_4x12_UPHYCLK_HSIC_REFCLK_19MHZ2 (0x15 << 10) #define EXYNOS_4x12_UPHYCLK_HSIC_REFCLK_20MHZ (0x14 << 10) /* PHY reset control */ #define EXYNOS_4x12_UPHYRST 0x8 #define EXYNOS_4x12_URSTCON_PHY0 BIT(0) #define EXYNOS_4x12_URSTCON_OTG_HLINK BIT(1) #define EXYNOS_4x12_URSTCON_OTG_PHYLINK BIT(2) #define EXYNOS_4x12_URSTCON_HOST_PHY BIT(3) /* The following bit defines are presented in the * order taken from the Exynos4412 reference manual. * * During experiments with the hardware and debugging * it was determined that the hardware behaves contrary * to the manual. * * The following bit values were chaned accordingly to the * results of real hardware experiments. */ #define EXYNOS_4x12_URSTCON_PHY1 BIT(4) #define EXYNOS_4x12_URSTCON_HSIC0 BIT(6) #define EXYNOS_4x12_URSTCON_HSIC1 BIT(5) #define EXYNOS_4x12_URSTCON_HOST_LINK_ALL BIT(7) #define EXYNOS_4x12_URSTCON_HOST_LINK_P0 BIT(10) #define EXYNOS_4x12_URSTCON_HOST_LINK_P1 BIT(9) #define EXYNOS_4x12_URSTCON_HOST_LINK_P2 BIT(8) /* Isolation, configured in the power management unit */ #define EXYNOS_4x12_USB_ISOL_OFFSET 0x704 #define EXYNOS_4x12_USB_ISOL_OTG BIT(0) #define EXYNOS_4x12_USB_ISOL_HSIC0_OFFSET 0x708 #define EXYNOS_4x12_USB_ISOL_HSIC0 BIT(0) #define EXYNOS_4x12_USB_ISOL_HSIC1_OFFSET 0x70c #define EXYNOS_4x12_USB_ISOL_HSIC1 BIT(0) /* Mode switching SUB Device <-> Host */ #define EXYNOS_4x12_MODE_SWITCH_OFFSET 0x21c #define EXYNOS_4x12_MODE_SWITCH_MASK 1 #define EXYNOS_4x12_MODE_SWITCH_DEVICE 0 #define EXYNOS_4x12_MODE_SWITCH_HOST 1 enum exynos4x12_phy_id { EXYNOS4x12_DEVICE, EXYNOS4x12_HOST, EXYNOS4x12_HSIC0, EXYNOS4x12_HSIC1, EXYNOS4x12_NUM_PHYS, }; /* * exynos4x12_rate_to_clk() converts the supplied clock rate to the value that * can be written to the phy register. */ static int exynos4x12_rate_to_clk(unsigned long rate, u32 *reg) { /* EXYNOS_4x12_UPHYCLK_PHYFSEL_MASK */ switch (rate) { case 9600 * KHZ: *reg = EXYNOS_4x12_UPHYCLK_PHYFSEL_9MHZ6; break; case 10 * MHZ: *reg = EXYNOS_4x12_UPHYCLK_PHYFSEL_10MHZ; break; case 12 * MHZ: *reg = EXYNOS_4x12_UPHYCLK_PHYFSEL_12MHZ; break; case 19200 * KHZ: *reg = EXYNOS_4x12_UPHYCLK_PHYFSEL_19MHZ2; break; case 20 * MHZ: *reg = EXYNOS_4x12_UPHYCLK_PHYFSEL_20MHZ; break; case 24 * MHZ: *reg = EXYNOS_4x12_UPHYCLK_PHYFSEL_24MHZ; break; case 50 * MHZ: *reg = EXYNOS_4x12_UPHYCLK_PHYFSEL_50MHZ; break; default: return -EINVAL; } return 0; } static void exynos4x12_isol(struct samsung_usb2_phy_instance *inst, bool on) { struct samsung_usb2_phy_driver *drv = inst->drv; u32 offset; u32 mask; switch (inst->cfg->id) { case EXYNOS4x12_DEVICE: case EXYNOS4x12_HOST: offset = EXYNOS_4x12_USB_ISOL_OFFSET; mask = EXYNOS_4x12_USB_ISOL_OTG; break; case EXYNOS4x12_HSIC0: offset = EXYNOS_4x12_USB_ISOL_HSIC0_OFFSET; mask = EXYNOS_4x12_USB_ISOL_HSIC0; break; case EXYNOS4x12_HSIC1: offset = EXYNOS_4x12_USB_ISOL_HSIC1_OFFSET; mask = EXYNOS_4x12_USB_ISOL_HSIC1; break; default: return; }; regmap_update_bits(drv->reg_pmu, offset, mask, on ? 0 : mask); } static void exynos4x12_setup_clk(struct samsung_usb2_phy_instance *inst) { struct samsung_usb2_phy_driver *drv = inst->drv; u32 clk; clk = readl(drv->reg_phy + EXYNOS_4x12_UPHYCLK); clk &= ~EXYNOS_4x12_UPHYCLK_PHYFSEL_MASK; if (drv->cfg->has_refclk_sel) clk = EXYNOS_3250_UPHYCLK_REFCLKSEL; clk |= drv->ref_reg_val << EXYNOS_4x12_UPHYCLK_PHYFSEL_OFFSET; clk |= EXYNOS_4x12_UPHYCLK_PHY1_COMMON_ON; writel(clk, drv->reg_phy + EXYNOS_4x12_UPHYCLK); } static void exynos4x12_phy_pwr(struct samsung_usb2_phy_instance *inst, bool on) { struct samsung_usb2_phy_driver *drv = inst->drv; u32 rstbits = 0; u32 phypwr = 0; u32 rst; u32 pwr; switch (inst->cfg->id) { case EXYNOS4x12_DEVICE: phypwr = EXYNOS_4x12_UPHYPWR_PHY0; rstbits = EXYNOS_4x12_URSTCON_PHY0; break; case EXYNOS4x12_HOST: phypwr = EXYNOS_4x12_UPHYPWR_PHY1; rstbits = EXYNOS_4x12_URSTCON_HOST_PHY | EXYNOS_4x12_URSTCON_PHY1 | EXYNOS_4x12_URSTCON_HOST_LINK_P0; break; case EXYNOS4x12_HSIC0: phypwr = EXYNOS_4x12_UPHYPWR_HSIC0; rstbits = EXYNOS_4x12_URSTCON_HSIC0 | EXYNOS_4x12_URSTCON_HOST_LINK_P1; break; case EXYNOS4x12_HSIC1: phypwr = EXYNOS_4x12_UPHYPWR_HSIC1; rstbits = EXYNOS_4x12_URSTCON_HSIC1 | EXYNOS_4x12_URSTCON_HOST_LINK_P1; break; }; if (on) { pwr = readl(drv->reg_phy + EXYNOS_4x12_UPHYPWR); pwr &= ~phypwr; writel(pwr, drv->reg_phy + EXYNOS_4x12_UPHYPWR); rst = readl(drv->reg_phy + EXYNOS_4x12_UPHYRST); rst |= rstbits; writel(rst, drv->reg_phy + EXYNOS_4x12_UPHYRST); udelay(10); rst &= ~rstbits; writel(rst, drv->reg_phy + EXYNOS_4x12_UPHYRST); /* The following delay is necessary for the reset sequence to be * completed */ udelay(80); } else { pwr = readl(drv->reg_phy + EXYNOS_4x12_UPHYPWR); pwr |= phypwr; writel(pwr, drv->reg_phy + EXYNOS_4x12_UPHYPWR); } } static void exynos4x12_power_on_int(struct samsung_usb2_phy_instance *inst) { if (inst->int_cnt++ > 0) return; exynos4x12_setup_clk(inst); exynos4x12_isol(inst, 0); exynos4x12_phy_pwr(inst, 1); } static int exynos4x12_power_on(struct samsung_usb2_phy_instance *inst) { struct samsung_usb2_phy_driver *drv = inst->drv; if (inst->ext_cnt++ > 0) return 0; if (inst->cfg->id == EXYNOS4x12_HOST) { regmap_update_bits(drv->reg_sys, EXYNOS_4x12_MODE_SWITCH_OFFSET, EXYNOS_4x12_MODE_SWITCH_MASK, EXYNOS_4x12_MODE_SWITCH_HOST); exynos4x12_power_on_int(&drv->instances[EXYNOS4x12_DEVICE]); } if (inst->cfg->id == EXYNOS4x12_DEVICE && drv->cfg->has_mode_switch) regmap_update_bits(drv->reg_sys, EXYNOS_4x12_MODE_SWITCH_OFFSET, EXYNOS_4x12_MODE_SWITCH_MASK, EXYNOS_4x12_MODE_SWITCH_DEVICE); if (inst->cfg->id == EXYNOS4x12_HSIC0 || inst->cfg->id == EXYNOS4x12_HSIC1) { exynos4x12_power_on_int(&drv->instances[EXYNOS4x12_DEVICE]); exynos4x12_power_on_int(&drv->instances[EXYNOS4x12_HOST]); } exynos4x12_power_on_int(inst); return 0; } static void exynos4x12_power_off_int(struct samsung_usb2_phy_instance *inst) { if (inst->int_cnt-- > 1) return; exynos4x12_isol(inst, 1); exynos4x12_phy_pwr(inst, 0); } static int exynos4x12_power_off(struct samsung_usb2_phy_instance *inst) { struct samsung_usb2_phy_driver *drv = inst->drv; if (inst->ext_cnt-- > 1) return 0; if (inst->cfg->id == EXYNOS4x12_DEVICE && drv->cfg->has_mode_switch) regmap_update_bits(drv->reg_sys, EXYNOS_4x12_MODE_SWITCH_OFFSET, EXYNOS_4x12_MODE_SWITCH_MASK, EXYNOS_4x12_MODE_SWITCH_HOST); if (inst->cfg->id == EXYNOS4x12_HOST) exynos4x12_power_off_int(&drv->instances[EXYNOS4x12_DEVICE]); if (inst->cfg->id == EXYNOS4x12_HSIC0 || inst->cfg->id == EXYNOS4x12_HSIC1) { exynos4x12_power_off_int(&drv->instances[EXYNOS4x12_DEVICE]); exynos4x12_power_off_int(&drv->instances[EXYNOS4x12_HOST]); } exynos4x12_power_off_int(inst); return 0; } static const struct samsung_usb2_common_phy exynos4x12_phys[] = { { .label = "device", .id = EXYNOS4x12_DEVICE, .power_on = exynos4x12_power_on, .power_off = exynos4x12_power_off, }, { .label = "host", .id = EXYNOS4x12_HOST, .power_on = exynos4x12_power_on, .power_off = exynos4x12_power_off, }, { .label = "hsic0", .id = EXYNOS4x12_HSIC0, .power_on = exynos4x12_power_on, .power_off = exynos4x12_power_off, }, { .label = "hsic1", .id = EXYNOS4x12_HSIC1, .power_on = exynos4x12_power_on, .power_off = exynos4x12_power_off, }, {}, }; const struct samsung_usb2_phy_config exynos3250_usb2_phy_config = { .has_refclk_sel = 1, .num_phys = 1, .phys = exynos4x12_phys, .rate_to_clk = exynos4x12_rate_to_clk, }; const struct samsung_usb2_phy_config exynos4x12_usb2_phy_config = { .has_mode_switch = 1, .num_phys = EXYNOS4x12_NUM_PHYS, .phys = exynos4x12_phys, .rate_to_clk = exynos4x12_rate_to_clk, };