18c2ecf20Sopenharmony_ci// SPDX-License-Identifier: GPL-2.0 28c2ecf20Sopenharmony_ci/* 38c2ecf20Sopenharmony_ci * Copyright (c) 2009-2018, Linux Foundation. All rights reserved. 48c2ecf20Sopenharmony_ci * Copyright (c) 2018-2020, Linaro Limited 58c2ecf20Sopenharmony_ci */ 68c2ecf20Sopenharmony_ci 78c2ecf20Sopenharmony_ci#include <linux/clk.h> 88c2ecf20Sopenharmony_ci#include <linux/delay.h> 98c2ecf20Sopenharmony_ci#include <linux/io.h> 108c2ecf20Sopenharmony_ci#include <linux/kernel.h> 118c2ecf20Sopenharmony_ci#include <linux/module.h> 128c2ecf20Sopenharmony_ci#include <linux/of.h> 138c2ecf20Sopenharmony_ci#include <linux/of_graph.h> 148c2ecf20Sopenharmony_ci#include <linux/phy/phy.h> 158c2ecf20Sopenharmony_ci#include <linux/platform_device.h> 168c2ecf20Sopenharmony_ci#include <linux/regulator/consumer.h> 178c2ecf20Sopenharmony_ci#include <linux/reset.h> 188c2ecf20Sopenharmony_ci#include <linux/slab.h> 198c2ecf20Sopenharmony_ci 208c2ecf20Sopenharmony_ci/* PHY register and bit definitions */ 218c2ecf20Sopenharmony_ci#define PHY_CTRL_COMMON0 0x078 228c2ecf20Sopenharmony_ci#define SIDDQ BIT(2) 238c2ecf20Sopenharmony_ci#define PHY_IRQ_CMD 0x0d0 248c2ecf20Sopenharmony_ci#define PHY_INTR_MASK0 0x0d4 258c2ecf20Sopenharmony_ci#define PHY_INTR_CLEAR0 0x0dc 268c2ecf20Sopenharmony_ci#define DPDM_MASK 0x1e 278c2ecf20Sopenharmony_ci#define DP_1_0 BIT(4) 288c2ecf20Sopenharmony_ci#define DP_0_1 BIT(3) 298c2ecf20Sopenharmony_ci#define DM_1_0 BIT(2) 308c2ecf20Sopenharmony_ci#define DM_0_1 BIT(1) 318c2ecf20Sopenharmony_ci 328c2ecf20Sopenharmony_cienum hsphy_voltage { 338c2ecf20Sopenharmony_ci VOL_NONE, 348c2ecf20Sopenharmony_ci VOL_MIN, 358c2ecf20Sopenharmony_ci VOL_MAX, 368c2ecf20Sopenharmony_ci VOL_NUM, 378c2ecf20Sopenharmony_ci}; 388c2ecf20Sopenharmony_ci 398c2ecf20Sopenharmony_cienum hsphy_vreg { 408c2ecf20Sopenharmony_ci VDD, 418c2ecf20Sopenharmony_ci VDDA_1P8, 428c2ecf20Sopenharmony_ci VDDA_3P3, 438c2ecf20Sopenharmony_ci VREG_NUM, 448c2ecf20Sopenharmony_ci}; 458c2ecf20Sopenharmony_ci 468c2ecf20Sopenharmony_cistruct hsphy_init_seq { 478c2ecf20Sopenharmony_ci int offset; 488c2ecf20Sopenharmony_ci int val; 498c2ecf20Sopenharmony_ci int delay; 508c2ecf20Sopenharmony_ci}; 518c2ecf20Sopenharmony_ci 528c2ecf20Sopenharmony_cistruct hsphy_data { 538c2ecf20Sopenharmony_ci const struct hsphy_init_seq *init_seq; 548c2ecf20Sopenharmony_ci unsigned int init_seq_num; 558c2ecf20Sopenharmony_ci}; 568c2ecf20Sopenharmony_ci 578c2ecf20Sopenharmony_cistruct hsphy_priv { 588c2ecf20Sopenharmony_ci void __iomem *base; 598c2ecf20Sopenharmony_ci struct clk_bulk_data *clks; 608c2ecf20Sopenharmony_ci int num_clks; 618c2ecf20Sopenharmony_ci struct reset_control *phy_reset; 628c2ecf20Sopenharmony_ci struct reset_control *por_reset; 638c2ecf20Sopenharmony_ci struct regulator_bulk_data vregs[VREG_NUM]; 648c2ecf20Sopenharmony_ci const struct hsphy_data *data; 658c2ecf20Sopenharmony_ci enum phy_mode mode; 668c2ecf20Sopenharmony_ci}; 678c2ecf20Sopenharmony_ci 688c2ecf20Sopenharmony_cistatic int qcom_snps_hsphy_set_mode(struct phy *phy, enum phy_mode mode, 698c2ecf20Sopenharmony_ci int submode) 708c2ecf20Sopenharmony_ci{ 718c2ecf20Sopenharmony_ci struct hsphy_priv *priv = phy_get_drvdata(phy); 728c2ecf20Sopenharmony_ci 738c2ecf20Sopenharmony_ci priv->mode = PHY_MODE_INVALID; 748c2ecf20Sopenharmony_ci 758c2ecf20Sopenharmony_ci if (mode > 0) 768c2ecf20Sopenharmony_ci priv->mode = mode; 778c2ecf20Sopenharmony_ci 788c2ecf20Sopenharmony_ci return 0; 798c2ecf20Sopenharmony_ci} 808c2ecf20Sopenharmony_ci 818c2ecf20Sopenharmony_cistatic void qcom_snps_hsphy_enable_hv_interrupts(struct hsphy_priv *priv) 828c2ecf20Sopenharmony_ci{ 838c2ecf20Sopenharmony_ci u32 val; 848c2ecf20Sopenharmony_ci 858c2ecf20Sopenharmony_ci /* Clear any existing interrupts before enabling the interrupts */ 868c2ecf20Sopenharmony_ci val = readb(priv->base + PHY_INTR_CLEAR0); 878c2ecf20Sopenharmony_ci val |= DPDM_MASK; 888c2ecf20Sopenharmony_ci writeb(val, priv->base + PHY_INTR_CLEAR0); 898c2ecf20Sopenharmony_ci 908c2ecf20Sopenharmony_ci writeb(0x0, priv->base + PHY_IRQ_CMD); 918c2ecf20Sopenharmony_ci usleep_range(200, 220); 928c2ecf20Sopenharmony_ci writeb(0x1, priv->base + PHY_IRQ_CMD); 938c2ecf20Sopenharmony_ci 948c2ecf20Sopenharmony_ci /* Make sure the interrupts are cleared */ 958c2ecf20Sopenharmony_ci usleep_range(200, 220); 968c2ecf20Sopenharmony_ci 978c2ecf20Sopenharmony_ci val = readb(priv->base + PHY_INTR_MASK0); 988c2ecf20Sopenharmony_ci switch (priv->mode) { 998c2ecf20Sopenharmony_ci case PHY_MODE_USB_HOST_HS: 1008c2ecf20Sopenharmony_ci case PHY_MODE_USB_HOST_FS: 1018c2ecf20Sopenharmony_ci case PHY_MODE_USB_DEVICE_HS: 1028c2ecf20Sopenharmony_ci case PHY_MODE_USB_DEVICE_FS: 1038c2ecf20Sopenharmony_ci val |= DP_1_0 | DM_0_1; 1048c2ecf20Sopenharmony_ci break; 1058c2ecf20Sopenharmony_ci case PHY_MODE_USB_HOST_LS: 1068c2ecf20Sopenharmony_ci case PHY_MODE_USB_DEVICE_LS: 1078c2ecf20Sopenharmony_ci val |= DP_0_1 | DM_1_0; 1088c2ecf20Sopenharmony_ci break; 1098c2ecf20Sopenharmony_ci default: 1108c2ecf20Sopenharmony_ci /* No device connected */ 1118c2ecf20Sopenharmony_ci val |= DP_0_1 | DM_0_1; 1128c2ecf20Sopenharmony_ci break; 1138c2ecf20Sopenharmony_ci } 1148c2ecf20Sopenharmony_ci writeb(val, priv->base + PHY_INTR_MASK0); 1158c2ecf20Sopenharmony_ci} 1168c2ecf20Sopenharmony_ci 1178c2ecf20Sopenharmony_cistatic void qcom_snps_hsphy_disable_hv_interrupts(struct hsphy_priv *priv) 1188c2ecf20Sopenharmony_ci{ 1198c2ecf20Sopenharmony_ci u32 val; 1208c2ecf20Sopenharmony_ci 1218c2ecf20Sopenharmony_ci val = readb(priv->base + PHY_INTR_MASK0); 1228c2ecf20Sopenharmony_ci val &= ~DPDM_MASK; 1238c2ecf20Sopenharmony_ci writeb(val, priv->base + PHY_INTR_MASK0); 1248c2ecf20Sopenharmony_ci 1258c2ecf20Sopenharmony_ci /* Clear any pending interrupts */ 1268c2ecf20Sopenharmony_ci val = readb(priv->base + PHY_INTR_CLEAR0); 1278c2ecf20Sopenharmony_ci val |= DPDM_MASK; 1288c2ecf20Sopenharmony_ci writeb(val, priv->base + PHY_INTR_CLEAR0); 1298c2ecf20Sopenharmony_ci 1308c2ecf20Sopenharmony_ci writeb(0x0, priv->base + PHY_IRQ_CMD); 1318c2ecf20Sopenharmony_ci usleep_range(200, 220); 1328c2ecf20Sopenharmony_ci 1338c2ecf20Sopenharmony_ci writeb(0x1, priv->base + PHY_IRQ_CMD); 1348c2ecf20Sopenharmony_ci usleep_range(200, 220); 1358c2ecf20Sopenharmony_ci} 1368c2ecf20Sopenharmony_ci 1378c2ecf20Sopenharmony_cistatic void qcom_snps_hsphy_enter_retention(struct hsphy_priv *priv) 1388c2ecf20Sopenharmony_ci{ 1398c2ecf20Sopenharmony_ci u32 val; 1408c2ecf20Sopenharmony_ci 1418c2ecf20Sopenharmony_ci val = readb(priv->base + PHY_CTRL_COMMON0); 1428c2ecf20Sopenharmony_ci val |= SIDDQ; 1438c2ecf20Sopenharmony_ci writeb(val, priv->base + PHY_CTRL_COMMON0); 1448c2ecf20Sopenharmony_ci} 1458c2ecf20Sopenharmony_ci 1468c2ecf20Sopenharmony_cistatic void qcom_snps_hsphy_exit_retention(struct hsphy_priv *priv) 1478c2ecf20Sopenharmony_ci{ 1488c2ecf20Sopenharmony_ci u32 val; 1498c2ecf20Sopenharmony_ci 1508c2ecf20Sopenharmony_ci val = readb(priv->base + PHY_CTRL_COMMON0); 1518c2ecf20Sopenharmony_ci val &= ~SIDDQ; 1528c2ecf20Sopenharmony_ci writeb(val, priv->base + PHY_CTRL_COMMON0); 1538c2ecf20Sopenharmony_ci} 1548c2ecf20Sopenharmony_ci 1558c2ecf20Sopenharmony_cistatic int qcom_snps_hsphy_power_on(struct phy *phy) 1568c2ecf20Sopenharmony_ci{ 1578c2ecf20Sopenharmony_ci struct hsphy_priv *priv = phy_get_drvdata(phy); 1588c2ecf20Sopenharmony_ci int ret; 1598c2ecf20Sopenharmony_ci 1608c2ecf20Sopenharmony_ci ret = regulator_bulk_enable(VREG_NUM, priv->vregs); 1618c2ecf20Sopenharmony_ci if (ret) 1628c2ecf20Sopenharmony_ci return ret; 1638c2ecf20Sopenharmony_ci 1648c2ecf20Sopenharmony_ci qcom_snps_hsphy_disable_hv_interrupts(priv); 1658c2ecf20Sopenharmony_ci qcom_snps_hsphy_exit_retention(priv); 1668c2ecf20Sopenharmony_ci 1678c2ecf20Sopenharmony_ci return 0; 1688c2ecf20Sopenharmony_ci} 1698c2ecf20Sopenharmony_ci 1708c2ecf20Sopenharmony_cistatic int qcom_snps_hsphy_power_off(struct phy *phy) 1718c2ecf20Sopenharmony_ci{ 1728c2ecf20Sopenharmony_ci struct hsphy_priv *priv = phy_get_drvdata(phy); 1738c2ecf20Sopenharmony_ci 1748c2ecf20Sopenharmony_ci qcom_snps_hsphy_enter_retention(priv); 1758c2ecf20Sopenharmony_ci qcom_snps_hsphy_enable_hv_interrupts(priv); 1768c2ecf20Sopenharmony_ci regulator_bulk_disable(VREG_NUM, priv->vregs); 1778c2ecf20Sopenharmony_ci 1788c2ecf20Sopenharmony_ci return 0; 1798c2ecf20Sopenharmony_ci} 1808c2ecf20Sopenharmony_ci 1818c2ecf20Sopenharmony_cistatic int qcom_snps_hsphy_reset(struct hsphy_priv *priv) 1828c2ecf20Sopenharmony_ci{ 1838c2ecf20Sopenharmony_ci int ret; 1848c2ecf20Sopenharmony_ci 1858c2ecf20Sopenharmony_ci ret = reset_control_assert(priv->phy_reset); 1868c2ecf20Sopenharmony_ci if (ret) 1878c2ecf20Sopenharmony_ci return ret; 1888c2ecf20Sopenharmony_ci 1898c2ecf20Sopenharmony_ci usleep_range(10, 15); 1908c2ecf20Sopenharmony_ci 1918c2ecf20Sopenharmony_ci ret = reset_control_deassert(priv->phy_reset); 1928c2ecf20Sopenharmony_ci if (ret) 1938c2ecf20Sopenharmony_ci return ret; 1948c2ecf20Sopenharmony_ci 1958c2ecf20Sopenharmony_ci usleep_range(80, 100); 1968c2ecf20Sopenharmony_ci 1978c2ecf20Sopenharmony_ci return 0; 1988c2ecf20Sopenharmony_ci} 1998c2ecf20Sopenharmony_ci 2008c2ecf20Sopenharmony_cistatic void qcom_snps_hsphy_init_sequence(struct hsphy_priv *priv) 2018c2ecf20Sopenharmony_ci{ 2028c2ecf20Sopenharmony_ci const struct hsphy_data *data = priv->data; 2038c2ecf20Sopenharmony_ci const struct hsphy_init_seq *seq; 2048c2ecf20Sopenharmony_ci int i; 2058c2ecf20Sopenharmony_ci 2068c2ecf20Sopenharmony_ci /* Device match data is optional. */ 2078c2ecf20Sopenharmony_ci if (!data) 2088c2ecf20Sopenharmony_ci return; 2098c2ecf20Sopenharmony_ci 2108c2ecf20Sopenharmony_ci seq = data->init_seq; 2118c2ecf20Sopenharmony_ci 2128c2ecf20Sopenharmony_ci for (i = 0; i < data->init_seq_num; i++, seq++) { 2138c2ecf20Sopenharmony_ci writeb(seq->val, priv->base + seq->offset); 2148c2ecf20Sopenharmony_ci if (seq->delay) 2158c2ecf20Sopenharmony_ci usleep_range(seq->delay, seq->delay + 10); 2168c2ecf20Sopenharmony_ci } 2178c2ecf20Sopenharmony_ci} 2188c2ecf20Sopenharmony_ci 2198c2ecf20Sopenharmony_cistatic int qcom_snps_hsphy_por_reset(struct hsphy_priv *priv) 2208c2ecf20Sopenharmony_ci{ 2218c2ecf20Sopenharmony_ci int ret; 2228c2ecf20Sopenharmony_ci 2238c2ecf20Sopenharmony_ci ret = reset_control_assert(priv->por_reset); 2248c2ecf20Sopenharmony_ci if (ret) 2258c2ecf20Sopenharmony_ci return ret; 2268c2ecf20Sopenharmony_ci 2278c2ecf20Sopenharmony_ci /* 2288c2ecf20Sopenharmony_ci * The Femto PHY is POR reset in the following scenarios. 2298c2ecf20Sopenharmony_ci * 2308c2ecf20Sopenharmony_ci * 1. After overriding the parameter registers. 2318c2ecf20Sopenharmony_ci * 2. Low power mode exit from PHY retention. 2328c2ecf20Sopenharmony_ci * 2338c2ecf20Sopenharmony_ci * Ensure that SIDDQ is cleared before bringing the PHY 2348c2ecf20Sopenharmony_ci * out of reset. 2358c2ecf20Sopenharmony_ci */ 2368c2ecf20Sopenharmony_ci qcom_snps_hsphy_exit_retention(priv); 2378c2ecf20Sopenharmony_ci 2388c2ecf20Sopenharmony_ci /* 2398c2ecf20Sopenharmony_ci * As per databook, 10 usec delay is required between 2408c2ecf20Sopenharmony_ci * PHY POR assert and de-assert. 2418c2ecf20Sopenharmony_ci */ 2428c2ecf20Sopenharmony_ci usleep_range(10, 20); 2438c2ecf20Sopenharmony_ci ret = reset_control_deassert(priv->por_reset); 2448c2ecf20Sopenharmony_ci if (ret) 2458c2ecf20Sopenharmony_ci return ret; 2468c2ecf20Sopenharmony_ci 2478c2ecf20Sopenharmony_ci /* 2488c2ecf20Sopenharmony_ci * As per databook, it takes 75 usec for PHY to stabilize 2498c2ecf20Sopenharmony_ci * after the reset. 2508c2ecf20Sopenharmony_ci */ 2518c2ecf20Sopenharmony_ci usleep_range(80, 100); 2528c2ecf20Sopenharmony_ci 2538c2ecf20Sopenharmony_ci return 0; 2548c2ecf20Sopenharmony_ci} 2558c2ecf20Sopenharmony_ci 2568c2ecf20Sopenharmony_cistatic int qcom_snps_hsphy_init(struct phy *phy) 2578c2ecf20Sopenharmony_ci{ 2588c2ecf20Sopenharmony_ci struct hsphy_priv *priv = phy_get_drvdata(phy); 2598c2ecf20Sopenharmony_ci int ret; 2608c2ecf20Sopenharmony_ci 2618c2ecf20Sopenharmony_ci ret = clk_bulk_prepare_enable(priv->num_clks, priv->clks); 2628c2ecf20Sopenharmony_ci if (ret) 2638c2ecf20Sopenharmony_ci return ret; 2648c2ecf20Sopenharmony_ci 2658c2ecf20Sopenharmony_ci ret = qcom_snps_hsphy_reset(priv); 2668c2ecf20Sopenharmony_ci if (ret) 2678c2ecf20Sopenharmony_ci goto disable_clocks; 2688c2ecf20Sopenharmony_ci 2698c2ecf20Sopenharmony_ci qcom_snps_hsphy_init_sequence(priv); 2708c2ecf20Sopenharmony_ci 2718c2ecf20Sopenharmony_ci ret = qcom_snps_hsphy_por_reset(priv); 2728c2ecf20Sopenharmony_ci if (ret) 2738c2ecf20Sopenharmony_ci goto disable_clocks; 2748c2ecf20Sopenharmony_ci 2758c2ecf20Sopenharmony_ci return 0; 2768c2ecf20Sopenharmony_ci 2778c2ecf20Sopenharmony_cidisable_clocks: 2788c2ecf20Sopenharmony_ci clk_bulk_disable_unprepare(priv->num_clks, priv->clks); 2798c2ecf20Sopenharmony_ci return ret; 2808c2ecf20Sopenharmony_ci} 2818c2ecf20Sopenharmony_ci 2828c2ecf20Sopenharmony_cistatic int qcom_snps_hsphy_exit(struct phy *phy) 2838c2ecf20Sopenharmony_ci{ 2848c2ecf20Sopenharmony_ci struct hsphy_priv *priv = phy_get_drvdata(phy); 2858c2ecf20Sopenharmony_ci 2868c2ecf20Sopenharmony_ci clk_bulk_disable_unprepare(priv->num_clks, priv->clks); 2878c2ecf20Sopenharmony_ci 2888c2ecf20Sopenharmony_ci return 0; 2898c2ecf20Sopenharmony_ci} 2908c2ecf20Sopenharmony_ci 2918c2ecf20Sopenharmony_cistatic const struct phy_ops qcom_snps_hsphy_ops = { 2928c2ecf20Sopenharmony_ci .init = qcom_snps_hsphy_init, 2938c2ecf20Sopenharmony_ci .exit = qcom_snps_hsphy_exit, 2948c2ecf20Sopenharmony_ci .power_on = qcom_snps_hsphy_power_on, 2958c2ecf20Sopenharmony_ci .power_off = qcom_snps_hsphy_power_off, 2968c2ecf20Sopenharmony_ci .set_mode = qcom_snps_hsphy_set_mode, 2978c2ecf20Sopenharmony_ci .owner = THIS_MODULE, 2988c2ecf20Sopenharmony_ci}; 2998c2ecf20Sopenharmony_ci 3008c2ecf20Sopenharmony_cistatic const char * const qcom_snps_hsphy_clks[] = { 3018c2ecf20Sopenharmony_ci "ref", 3028c2ecf20Sopenharmony_ci "ahb", 3038c2ecf20Sopenharmony_ci "sleep", 3048c2ecf20Sopenharmony_ci}; 3058c2ecf20Sopenharmony_ci 3068c2ecf20Sopenharmony_cistatic int qcom_snps_hsphy_probe(struct platform_device *pdev) 3078c2ecf20Sopenharmony_ci{ 3088c2ecf20Sopenharmony_ci struct device *dev = &pdev->dev; 3098c2ecf20Sopenharmony_ci struct phy_provider *provider; 3108c2ecf20Sopenharmony_ci struct hsphy_priv *priv; 3118c2ecf20Sopenharmony_ci struct phy *phy; 3128c2ecf20Sopenharmony_ci int ret; 3138c2ecf20Sopenharmony_ci int i; 3148c2ecf20Sopenharmony_ci 3158c2ecf20Sopenharmony_ci priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); 3168c2ecf20Sopenharmony_ci if (!priv) 3178c2ecf20Sopenharmony_ci return -ENOMEM; 3188c2ecf20Sopenharmony_ci 3198c2ecf20Sopenharmony_ci priv->base = devm_platform_ioremap_resource(pdev, 0); 3208c2ecf20Sopenharmony_ci if (IS_ERR(priv->base)) 3218c2ecf20Sopenharmony_ci return PTR_ERR(priv->base); 3228c2ecf20Sopenharmony_ci 3238c2ecf20Sopenharmony_ci priv->num_clks = ARRAY_SIZE(qcom_snps_hsphy_clks); 3248c2ecf20Sopenharmony_ci priv->clks = devm_kcalloc(dev, priv->num_clks, sizeof(*priv->clks), 3258c2ecf20Sopenharmony_ci GFP_KERNEL); 3268c2ecf20Sopenharmony_ci if (!priv->clks) 3278c2ecf20Sopenharmony_ci return -ENOMEM; 3288c2ecf20Sopenharmony_ci 3298c2ecf20Sopenharmony_ci for (i = 0; i < priv->num_clks; i++) 3308c2ecf20Sopenharmony_ci priv->clks[i].id = qcom_snps_hsphy_clks[i]; 3318c2ecf20Sopenharmony_ci 3328c2ecf20Sopenharmony_ci ret = devm_clk_bulk_get(dev, priv->num_clks, priv->clks); 3338c2ecf20Sopenharmony_ci if (ret) 3348c2ecf20Sopenharmony_ci return ret; 3358c2ecf20Sopenharmony_ci 3368c2ecf20Sopenharmony_ci priv->phy_reset = devm_reset_control_get_exclusive(dev, "phy"); 3378c2ecf20Sopenharmony_ci if (IS_ERR(priv->phy_reset)) 3388c2ecf20Sopenharmony_ci return PTR_ERR(priv->phy_reset); 3398c2ecf20Sopenharmony_ci 3408c2ecf20Sopenharmony_ci priv->por_reset = devm_reset_control_get_exclusive(dev, "por"); 3418c2ecf20Sopenharmony_ci if (IS_ERR(priv->por_reset)) 3428c2ecf20Sopenharmony_ci return PTR_ERR(priv->por_reset); 3438c2ecf20Sopenharmony_ci 3448c2ecf20Sopenharmony_ci priv->vregs[VDD].supply = "vdd"; 3458c2ecf20Sopenharmony_ci priv->vregs[VDDA_1P8].supply = "vdda1p8"; 3468c2ecf20Sopenharmony_ci priv->vregs[VDDA_3P3].supply = "vdda3p3"; 3478c2ecf20Sopenharmony_ci 3488c2ecf20Sopenharmony_ci ret = devm_regulator_bulk_get(dev, VREG_NUM, priv->vregs); 3498c2ecf20Sopenharmony_ci if (ret) 3508c2ecf20Sopenharmony_ci return ret; 3518c2ecf20Sopenharmony_ci 3528c2ecf20Sopenharmony_ci /* Get device match data */ 3538c2ecf20Sopenharmony_ci priv->data = device_get_match_data(dev); 3548c2ecf20Sopenharmony_ci 3558c2ecf20Sopenharmony_ci phy = devm_phy_create(dev, dev->of_node, &qcom_snps_hsphy_ops); 3568c2ecf20Sopenharmony_ci if (IS_ERR(phy)) 3578c2ecf20Sopenharmony_ci return PTR_ERR(phy); 3588c2ecf20Sopenharmony_ci 3598c2ecf20Sopenharmony_ci phy_set_drvdata(phy, priv); 3608c2ecf20Sopenharmony_ci 3618c2ecf20Sopenharmony_ci provider = devm_of_phy_provider_register(dev, of_phy_simple_xlate); 3628c2ecf20Sopenharmony_ci if (IS_ERR(provider)) 3638c2ecf20Sopenharmony_ci return PTR_ERR(provider); 3648c2ecf20Sopenharmony_ci 3658c2ecf20Sopenharmony_ci ret = regulator_set_load(priv->vregs[VDDA_1P8].consumer, 19000); 3668c2ecf20Sopenharmony_ci if (ret < 0) 3678c2ecf20Sopenharmony_ci return ret; 3688c2ecf20Sopenharmony_ci 3698c2ecf20Sopenharmony_ci ret = regulator_set_load(priv->vregs[VDDA_3P3].consumer, 16000); 3708c2ecf20Sopenharmony_ci if (ret < 0) 3718c2ecf20Sopenharmony_ci goto unset_1p8_load; 3728c2ecf20Sopenharmony_ci 3738c2ecf20Sopenharmony_ci return 0; 3748c2ecf20Sopenharmony_ci 3758c2ecf20Sopenharmony_ciunset_1p8_load: 3768c2ecf20Sopenharmony_ci regulator_set_load(priv->vregs[VDDA_1P8].consumer, 0); 3778c2ecf20Sopenharmony_ci 3788c2ecf20Sopenharmony_ci return ret; 3798c2ecf20Sopenharmony_ci} 3808c2ecf20Sopenharmony_ci 3818c2ecf20Sopenharmony_ci/* 3828c2ecf20Sopenharmony_ci * The macro is used to define an initialization sequence. Each tuple 3838c2ecf20Sopenharmony_ci * is meant to program 'value' into phy register at 'offset' with 'delay' 3848c2ecf20Sopenharmony_ci * in us followed. 3858c2ecf20Sopenharmony_ci */ 3868c2ecf20Sopenharmony_ci#define HSPHY_INIT_CFG(o, v, d) { .offset = o, .val = v, .delay = d, } 3878c2ecf20Sopenharmony_ci 3888c2ecf20Sopenharmony_cistatic const struct hsphy_init_seq init_seq_femtophy[] = { 3898c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0xc0, 0x01, 0), 3908c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0xe8, 0x0d, 0), 3918c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0x74, 0x12, 0), 3928c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0x98, 0x63, 0), 3938c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0x9c, 0x03, 0), 3948c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0xa0, 0x1d, 0), 3958c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0xa4, 0x03, 0), 3968c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0x8c, 0x23, 0), 3978c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0x78, 0x08, 0), 3988c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0x7c, 0xdc, 0), 3998c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0x90, 0xe0, 20), 4008c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0x74, 0x10, 0), 4018c2ecf20Sopenharmony_ci HSPHY_INIT_CFG(0x90, 0x60, 0), 4028c2ecf20Sopenharmony_ci}; 4038c2ecf20Sopenharmony_ci 4048c2ecf20Sopenharmony_cistatic const struct hsphy_data hsphy_data_femtophy = { 4058c2ecf20Sopenharmony_ci .init_seq = init_seq_femtophy, 4068c2ecf20Sopenharmony_ci .init_seq_num = ARRAY_SIZE(init_seq_femtophy), 4078c2ecf20Sopenharmony_ci}; 4088c2ecf20Sopenharmony_ci 4098c2ecf20Sopenharmony_cistatic const struct of_device_id qcom_snps_hsphy_match[] = { 4108c2ecf20Sopenharmony_ci { .compatible = "qcom,usb-hs-28nm-femtophy", .data = &hsphy_data_femtophy, }, 4118c2ecf20Sopenharmony_ci { }, 4128c2ecf20Sopenharmony_ci}; 4138c2ecf20Sopenharmony_ciMODULE_DEVICE_TABLE(of, qcom_snps_hsphy_match); 4148c2ecf20Sopenharmony_ci 4158c2ecf20Sopenharmony_cistatic struct platform_driver qcom_snps_hsphy_driver = { 4168c2ecf20Sopenharmony_ci .probe = qcom_snps_hsphy_probe, 4178c2ecf20Sopenharmony_ci .driver = { 4188c2ecf20Sopenharmony_ci .name = "qcom,usb-hs-28nm-phy", 4198c2ecf20Sopenharmony_ci .of_match_table = qcom_snps_hsphy_match, 4208c2ecf20Sopenharmony_ci }, 4218c2ecf20Sopenharmony_ci}; 4228c2ecf20Sopenharmony_cimodule_platform_driver(qcom_snps_hsphy_driver); 4238c2ecf20Sopenharmony_ci 4248c2ecf20Sopenharmony_ciMODULE_DESCRIPTION("Qualcomm 28nm Hi-Speed USB PHY driver"); 4258c2ecf20Sopenharmony_ciMODULE_LICENSE("GPL v2"); 426