/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (C) 2021 MediaTek Inc. */ #include #include #include "include/pmic.h" #include "include/pmic_api.h" #include "include/pmic_api_ldo.h" #include "include/pmic_api_buck.h" #include "include/regulator_codegen.h" static const int vfe28_voltages[] = { 2800000, }; static const int vxo22_voltages[] = { 2200000, 2400000, }; static const int vrf18_voltages[] = { 1800000, }; static const int vrf12_voltages[] = { 1200000, }; static const int vefuse_voltages[] = { 1200000, 1300000, 1500000, 1800000, 2800000, 2900000, 3000000, 3300000, }; static const int vcn33_bt_voltages[] = { 3300000, 3400000, 3500000, }; static const int vcn33_wifi_voltages[] = { 3300000, 3400000, 3500000, }; static const int vcn28_voltages[] = { 2800000, }; static const int vcn18_voltages[] = { 1800000, }; static const int vcama_voltages[] = { 2500000, 2800000, }; static const int vcamd_voltages[] = { 1000000, 1100000, 1200000, 1300000, 1500000, 1800000, }; static const int vcamio_voltages[] = { 1800000, }; static const int vldo28_voltages[] = { 2800000, 3000000, }; static const int vaux18_voltages[] = { 1800000, }; static const int vaud28_voltages[] = { 2800000, }; static const int vio28_voltages[] = { 2800000, }; static const int vio18_voltages[] = { 1800000, }; static const int vdram_voltages[] = { 1100000, 1200000, }; static const int vmc_voltages[] = { 1800000, 2900000, 3000000, 3300000, }; static const int vmch_voltages[] = { 2900000, 3000000, 3300000, }; static const int vemc_voltages[] = { 2900000, 3000000, 3300000, }; static const int vsim1_voltages[] = { 1700000, 1800000, 2700000, 3000000, 3100000, }; static const int vsim2_voltages[] = { 1700000, 1800000, 2700000, 3000000, 3100000, }; static const int vibr_voltages[] = { 1200000, 1300000, 1500000, 1800000, 2000000, 2800000, 3000000, 3300000, }; static const int vusb33_voltages[] = { 3000000, 3100000, }; static const int vxo22_idx[] = { 0, 2, }; static const int vefuse_idx[] = { 0, 1, 2, 4, 9, 10, 11, 13, }; static const int vcn33_bt_idx[] = { 1, 2, 3, }; static const int vcn33_wifi_idx[] = { 1, 2, 3, }; static const int vcama_idx[] = { 7, 10, }; static const int vcamd_idx[] = { 4, 5, 6, 7, 9, 12, }; static const int vldo28_idx[] = { 1, 3, }; static const int vdram_idx[] = { 1, 2, }; static const int vmc_idx[] = { 4, 10, 11, 13, }; static const int vmch_idx[] = { 2, 3, 5, }; static const int vemc_idx[] = { 2, 3, 5, }; static const int vsim1_idx[] = { 3, 4, 8, 11, 12, }; static const int vsim2_idx[] = { 3, 4, 8, 11, 12, }; static const int vibr_idx[] = { 0, 1, 2, 4, 9, 10, 11, 13, }; static const int vusb33_idx[] = { 3, 4, }; /* Regulator vfe28 enable */ static int pmic_ldo_vfe28_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vfe28 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vfe28 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vfe28 disable */ static int pmic_ldo_vfe28_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vfe28 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vfe28 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vfe28 is_enabled */ static int pmic_ldo_vfe28_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vfe28 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vfe28 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vs1 enable */ static int pmic_buck_vs1_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vs1 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("buck vs1 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vs1 disable */ static int pmic_buck_vs1_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vs1 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { RGLTRLOG("buck vs1 don't be disabled\n"); ret = 0; } return ret; } /* Regulator vs1 is_enabled */ static int pmic_buck_vs1_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vs1 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("buck vs1 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vs1 set_voltage_sel */ static int pmic_buck_vs1_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; RGLTRLOG("buck vs1 set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(selector); else { RGLTRLOG("buck vs1 don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vs1 get_voltage_sel */ static int pmic_buck_vs1_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vs1 get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("buck vs1 don't have da_vol_cb\n"); return -1; } return (mreg->da_vol_cb)(); } /* Regulator vxo22 enable */ static int pmic_ldo_vxo22_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vxo22 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vxo22 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vxo22 disable */ static int pmic_ldo_vxo22_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vxo22 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vxo22 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vxo22 is_enabled */ static int pmic_ldo_vxo22_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vxo22 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vxo22 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vxo22 set_voltage_sel */ static int pmic_ldo_vxo22_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vxo22_idx[selector]; RGLTRLOG("ldo vxo22 set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vxo22 don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vxo22 get_voltage_sel */ static int pmic_ldo_vxo22_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vxo22 get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vxo22 don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vxo22_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vxo22 list_voltage */ static int pmic_ldo_vxo22_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vxo22_voltages[selector]; RGLTRLOG("ldo vxo22 list_voltage: %d\n", voltage); return voltage; } /* Regulator vrf18 enable */ static int pmic_ldo_vrf18_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vrf18 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vrf18 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vrf18 disable */ static int pmic_ldo_vrf18_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vrf18 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vrf18 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vrf18 is_enabled */ static int pmic_ldo_vrf18_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vrf18 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vrf18 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vrf12 enable */ static int pmic_ldo_vrf12_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vrf12 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vrf12 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vrf12 disable */ static int pmic_ldo_vrf12_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vrf12 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vrf12 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vrf12 is_enabled */ static int pmic_ldo_vrf12_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vrf12 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vrf12 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vefuse enable */ static int pmic_ldo_vefuse_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vefuse enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vefuse don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vefuse disable */ static int pmic_ldo_vefuse_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vefuse disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vefuse don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vefuse is_enabled */ static int pmic_ldo_vefuse_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vefuse is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vefuse don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vefuse set_voltage_sel */ static int pmic_ldo_vefuse_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vefuse_idx[selector]; RGLTRLOG("ldo vefuse set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vefuse don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vefuse get_voltage_sel */ static int pmic_ldo_vefuse_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vefuse get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vefuse don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vefuse_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vefuse list_voltage */ static int pmic_ldo_vefuse_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vefuse_voltages[selector]; RGLTRLOG("ldo vefuse list_voltage: %d\n", voltage); return voltage; } /* Regulator vcn33_bt enable */ static int pmic_ldo_vcn33_bt_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcn33_bt enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vcn33_bt don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vcn33_bt disable */ static int pmic_ldo_vcn33_bt_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcn33_bt disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vcn33_bt don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vcn33_bt is_enabled */ static int pmic_ldo_vcn33_bt_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn33_bt is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vcn33_bt don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vcn33_bt set_voltage_sel */ static int pmic_ldo_vcn33_bt_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vcn33_bt_idx[selector]; RGLTRLOG("ldo vcn33_bt set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vcn33_bt don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vcn33_bt get_voltage_sel */ static int pmic_ldo_vcn33_bt_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn33_bt get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vcn33_bt don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vcn33_bt_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vcn33_bt list_voltage */ static int pmic_ldo_vcn33_bt_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vcn33_bt_voltages[selector]; RGLTRLOG("ldo vcn33_bt list_voltage: %d\n", voltage); return voltage; } /* Regulator vcn33_wifi enable */ static int pmic_ldo_vcn33_wifi_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn33_wifi enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vcn33_wifi don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vcn33_wifi disable */ static int pmic_ldo_vcn33_wifi_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn33_wifi disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vcn33_wifi don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vcn33_wifi is_enabled */ static int pmic_ldo_vcn33_wifi_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn33_wifi is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vcn33_wifi don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vcn33_wifi set_voltage_sel */ static int pmic_ldo_vcn33_wifi_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vcn33_wifi_idx[selector]; RGLTRLOG("ldo vcn33_wifi set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vcn33_wifi don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vcn33_wifi get_voltage_sel */ static int pmic_ldo_vcn33_wifi_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn33_wifi get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vcn33_wifi don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vcn33_wifi_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vcn33_wifi list_voltage */ static int pmic_ldo_vcn33_wifi_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vcn33_wifi_voltages[selector]; RGLTRLOG("ldo vcn33_wifi list_voltage: %d\n", voltage); return voltage; } /* Regulator vcn28 enable */ static int pmic_ldo_vcn28_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn28 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vcn28 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vcn28 disable */ static int pmic_ldo_vcn28_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn28 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vcn28 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vcn28 is_enabled */ static int pmic_ldo_vcn28_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn28 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vcn28 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vcn18 enable */ static int pmic_ldo_vcn18_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcn18 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vcn18 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vcn18 disable */ static int pmic_ldo_vcn18_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcn18 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vcn18 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vcn18 is_enabled */ static int pmic_ldo_vcn18_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcn18 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vcn18 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vcama enable */ static int pmic_ldo_vcama_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcama enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vcama don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vcama disable */ static int pmic_ldo_vcama_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcama disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vcama don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vcama is_enabled */ static int pmic_ldo_vcama_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcama is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vcama don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vcama set_voltage_sel */ static int pmic_ldo_vcama_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vcama_idx[selector]; RGLTRLOG("ldo vcama set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vcama don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vcama get_voltage_sel */ static int pmic_ldo_vcama_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcama get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vcama don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vcama_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vcama list_voltage */ static int pmic_ldo_vcama_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vcama_voltages[selector]; RGLTRLOG("ldo vcama list_voltage: %d\n", voltage); return voltage; } /* Regulator vcamd enable */ static int pmic_ldo_vcamd_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcamd enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vcamd don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vcamd disable */ static int pmic_ldo_vcamd_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcamd disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vcamd don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vcamd is_enabled */ static int pmic_ldo_vcamd_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcamd is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vcamd don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vcamd set_voltage_sel */ static int pmic_ldo_vcamd_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vcamd_idx[selector]; RGLTRLOG("ldo vcamd set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vcamd don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vcamd get_voltage_sel */ static int pmic_ldo_vcamd_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcamd get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vcamd don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vcamd_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vcamd list_voltage */ static int pmic_ldo_vcamd_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vcamd_voltages[selector]; RGLTRLOG("ldo vcamd list_voltage: %d\n", voltage); return voltage; } /* Regulator vmodem enable */ static int pmic_buck_vmodem_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vmodem enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("buck vmodem don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vmodem disable */ static int pmic_buck_vmodem_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vmodem disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("buck vmodem don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vmodem is_enabled */ static int pmic_buck_vmodem_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vmodem is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("buck vmodem don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vmodem set_voltage_sel */ static int pmic_buck_vmodem_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; RGLTRLOG("buck vmodem set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(selector); else { RGLTRLOG("buck vmodem don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vmodem get_voltage_sel */ static int pmic_buck_vmodem_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vmodem get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("buck vmodem don't have da_vol_cb\n"); return -1; } return (mreg->da_vol_cb)(); } /* Regulator vcore enable */ static int pmic_buck_vcore_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vcore enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("buck vcore don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vcore disable */ static int pmic_buck_vcore_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vcore disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("buck vcore don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vcore is_enabled */ static int pmic_buck_vcore_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vcore is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("buck vcore don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vcore set_voltage_sel */ static int pmic_buck_vcore_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; RGLTRLOG("buck vcore set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(selector); else { RGLTRLOG("buck vcore don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vcore get_voltage_sel */ static int pmic_buck_vcore_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vcore get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("buck vcore don't have da_vol_cb\n"); return -1; } return (mreg->da_vol_cb)(); } /* Regulator vcamio enable */ static int pmic_ldo_vcamio_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcamio enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vcamio don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vcamio disable */ static int pmic_ldo_vcamio_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vcamio disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vcamio don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vcamio is_enabled */ static int pmic_ldo_vcamio_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vcamio is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vcamio don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vldo28 enable */ static int pmic_ldo_vldo28_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vldo28 enable\n"); if (mreg->en_cb != NULL) { ret = (mreg->en_cb)(1); /* this OC interrupt needs to delay 1ms after enable power */ dsb(sy); mdelay(1); dsb(sy); pmic_enable_interrupt(INT_VLDO28_OC, 1, "PMIC"); } else { RGLTRLOG("ldo vldo28 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vldo28 disable */ static int pmic_ldo_vldo28_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vldo28 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) { ret = (mreg->en_cb)(0); /* After disable power, this OC interrupt should be * disabled as well */ pmic_enable_interrupt(INT_VLDO28_OC, 0, "PMIC"); } else { RGLTRLOG("ldo vldo28 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vldo28 is_enabled */ static int pmic_ldo_vldo28_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vldo28 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vldo28 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vldo28 set_voltage_sel */ static int pmic_ldo_vldo28_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vldo28_idx[selector]; RGLTRLOG("ldo vldo28 set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vldo28 don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vldo28 get_voltage_sel */ static int pmic_ldo_vldo28_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vldo28 get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vldo28 don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vldo28_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vldo28 list_voltage */ static int pmic_ldo_vldo28_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vldo28_voltages[selector]; RGLTRLOG("ldo vldo28 list_voltage: %d\n", voltage); return voltage; } /* Regulator vsram_others enable */ static int pmic_ldo_vsram_others_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsram_others enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vsram_others don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vsram_others disable */ static int pmic_ldo_vsram_others_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsram_others disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vsram_others don't have en callback\n"); ret = -1; } } return ret; } /* Regulator vsram_others is_enabled */ static int pmic_ldo_vsram_others_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsram_others is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vsram_others don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vsram_others set_voltage_sel */ static int pmic_ldo_vsram_others_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; RGLTRLOG("ldo vsram_others set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(selector); else { RGLTRLOG("ldo vsram_others don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vsram_others get_voltage_sel */ static int pmic_ldo_vsram_others_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsram_others get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vsram_others don't have da_vol_cb\n"); return -1; } return (mreg->da_vol_cb)(); } /* Regulator vproc enable */ static int pmic_buck_vproc_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vproc enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("buck vproc don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vproc disable */ static int pmic_buck_vproc_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vproc disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("buck vproc don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vproc is_enabled */ static int pmic_buck_vproc_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vproc is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("buck vproc don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vproc set_voltage_sel */ static int pmic_buck_vproc_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; RGLTRLOG("buck vproc set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(selector); else { RGLTRLOG("buck vproc don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vproc get_voltage_sel */ static int pmic_buck_vproc_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vproc get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("buck vproc don't have da_vol_cb\n"); return -1; } return (mreg->da_vol_cb)(); } /* Regulator vsram_proc enable */ static int pmic_ldo_vsram_proc_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsram_proc enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vsram_proc don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vsram_proc disable */ static int pmic_ldo_vsram_proc_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsram_proc disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vsram_proc don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vsram_proc is_enabled */ static int pmic_ldo_vsram_proc_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsram_proc is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vsram_proc don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vsram_proc set_voltage_sel */ static int pmic_ldo_vsram_proc_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; RGLTRLOG("ldo vsram_proc set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(selector); else { RGLTRLOG("ldo vsram_proc don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vsram_proc get_voltage_sel */ static int pmic_ldo_vsram_proc_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsram_proc get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vsram_proc don't have da_vol_cb\n"); return -1; } return (mreg->da_vol_cb)(); } /* Regulator vaux18 enable */ static int pmic_ldo_vaux18_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vaux18 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vaux18 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vaux18 disable */ static int pmic_ldo_vaux18_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vaux18 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vaux18 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vaux18 is_enabled */ static int pmic_ldo_vaux18_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vaux18 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vaux18 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vpa enable */ static int pmic_buck_vpa_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vpa enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("buck vpa don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vpa disable */ static int pmic_buck_vpa_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vpa disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("buck vpa don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vpa is_enabled */ static int pmic_buck_vpa_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vpa is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("buck vpa don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vpa set_voltage_sel */ static int pmic_buck_vpa_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; RGLTRLOG("buck vpa set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(selector); else { RGLTRLOG("buck vpa don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vpa get_voltage_sel */ static int pmic_buck_vpa_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("buck vpa get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("buck vpa don't have da_vol_cb\n"); return -1; } return (mreg->da_vol_cb)(); } /* Regulator vaud28 enable */ static int pmic_ldo_vaud28_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vaud28 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vaud28 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vaud28 disable */ static int pmic_ldo_vaud28_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vaud28 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vaud28 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vaud28 is_enabled */ static int pmic_ldo_vaud28_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vaud28 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vaud28 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vio28 enable */ static int pmic_ldo_vio28_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vio28 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vio28 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vio28 disable */ static int pmic_ldo_vio28_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vio28 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { RGLTRLOG("ldo vio28 don't be disabled\n"); ret = 0; } return ret; } /* Regulator vio28 is_enabled */ static int pmic_ldo_vio28_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vio28 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vio28 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vio18 enable */ static int pmic_ldo_vio18_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vio18 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vio18 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vio18 disable */ static int pmic_ldo_vio18_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vio18 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { RGLTRLOG("ldo vio18 don't be disabled\n"); ret = 0; } return ret; } /* Regulator vio18 is_enabled */ static int pmic_ldo_vio18_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vio18 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vio18 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vdram enable */ static int pmic_ldo_vdram_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vdram enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vdram don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vdram disable */ static int pmic_ldo_vdram_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vdram disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vdram don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vdram is_enabled */ static int pmic_ldo_vdram_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vdram is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vdram don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vdram set_voltage_sel */ static int pmic_ldo_vdram_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vdram_idx[selector]; RGLTRLOG("ldo vdram set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vdram don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vdram get_voltage_sel */ static int pmic_ldo_vdram_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vdram get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vdram don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vdram_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vdram list_voltage */ static int pmic_ldo_vdram_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vdram_voltages[selector]; RGLTRLOG("ldo vdram list_voltage: %d\n", voltage); return voltage; } /* Regulator vmc enable */ static int pmic_ldo_vmc_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vmc enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vmc don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vmc disable */ static int pmic_ldo_vmc_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vmc disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vmc don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vmc is_enabled */ static int pmic_ldo_vmc_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vmc is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vmc don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vmc set_voltage_sel */ static int pmic_ldo_vmc_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vmc_idx[selector]; RGLTRLOG("ldo vmc set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vmc don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vmc get_voltage_sel */ static int pmic_ldo_vmc_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vmc get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vmc don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vmc_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vmc list_voltage */ static int pmic_ldo_vmc_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vmc_voltages[selector]; RGLTRLOG("ldo vmc list_voltage: %d\n", voltage); return voltage; } /* Regulator vmch enable */ static int pmic_ldo_vmch_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vmch enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vmch don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vmch disable */ static int pmic_ldo_vmch_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vmch disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vmch don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vmch is_enabled */ static int pmic_ldo_vmch_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vmch is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vmch don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vmch set_voltage_sel */ static int pmic_ldo_vmch_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vmch_idx[selector]; RGLTRLOG("ldo vmch set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vmch don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vmch get_voltage_sel */ static int pmic_ldo_vmch_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vmch get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vmch don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vmch_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vmch list_voltage */ static int pmic_ldo_vmch_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vmch_voltages[selector]; RGLTRLOG("ldo vmch list_voltage: %d\n", voltage); return voltage; } /* Regulator vemc enable */ static int pmic_ldo_vemc_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vemc enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vemc don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vemc disable */ static int pmic_ldo_vemc_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vemc disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vemc don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vemc is_enabled */ static int pmic_ldo_vemc_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vemc is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vemc don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vemc set_voltage_sel */ static int pmic_ldo_vemc_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vemc_idx[selector]; RGLTRLOG("ldo vemc set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vemc don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vemc get_voltage_sel */ static int pmic_ldo_vemc_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vemc get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vemc don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vemc_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vemc list_voltage */ static int pmic_ldo_vemc_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vemc_voltages[selector]; RGLTRLOG("ldo vemc list_voltage: %d\n", voltage); return voltage; } /* Regulator vsim1 enable */ static int pmic_ldo_vsim1_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vsim1 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vsim1 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vsim1 disable */ static int pmic_ldo_vsim1_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vsim1 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vsim1 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vsim1 is_enabled */ static int pmic_ldo_vsim1_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsim1 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vsim1 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vsim1 set_voltage_sel */ static int pmic_ldo_vsim1_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vsim1_idx[selector]; RGLTRLOG("ldo vsim1 set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vsim1 don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vsim1 get_voltage_sel */ static int pmic_ldo_vsim1_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsim1 get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vsim1 don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vsim1_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vsim1 list_voltage */ static int pmic_ldo_vsim1_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vsim1_voltages[selector]; RGLTRLOG("ldo vsim1 list_voltage: %d\n", voltage); return voltage; } /* Regulator vsim2 enable */ static int pmic_ldo_vsim2_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vsim2 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vsim2 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vsim2 disable */ static int pmic_ldo_vsim2_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vsim2 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vsim2 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vsim2 is_enabled */ static int pmic_ldo_vsim2_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsim2 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vsim2 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vsim2 set_voltage_sel */ static int pmic_ldo_vsim2_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vsim2_idx[selector]; RGLTRLOG("ldo vsim2 set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vsim2 don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vsim2 get_voltage_sel */ static int pmic_ldo_vsim2_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vsim2 get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vsim2 don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vsim2_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vsim2 list_voltage */ static int pmic_ldo_vsim2_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vsim2_voltages[selector]; RGLTRLOG("ldo vsim2 list_voltage: %d\n", voltage); return voltage; } /* Regulator vibr enable */ static int pmic_ldo_vibr_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vibr enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vibr don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vibr disable */ static int pmic_ldo_vibr_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); pr_info("ldo vibr disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vibr don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vibr is_enabled */ static int pmic_ldo_vibr_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vibr is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vibr don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vibr set_voltage_sel */ static int pmic_ldo_vibr_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vibr_idx[selector]; RGLTRLOG("ldo vibr set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vibr don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vibr get_voltage_sel */ static int pmic_ldo_vibr_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vibr get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vibr don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vibr_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vibr list_voltage */ static int pmic_ldo_vibr_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vibr_voltages[selector]; RGLTRLOG("ldo vibr list_voltage: %d\n", voltage); return voltage; } /* Regulator vusb33 enable */ static int pmic_ldo_vusb33_enable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vusb33 enable\n"); if (mreg->en_cb != NULL) ret = (mreg->en_cb)(1); else { RGLTRLOG("ldo vusb33 don't have en_cb\n"); ret = -1; } return ret; } /* Regulator vusb33 disable */ static int pmic_ldo_vusb33_disable(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vusb33 disable\n"); if (rdev->use_count == 0) { RGLTRLOG("%s should not be disable. (use_count=0).\n" , __func__); ret = -1; } else { if (mreg->en_cb != NULL) ret = (mreg->en_cb)(0); else { RGLTRLOG("ldo vusb33 don't have enable callback\n"); ret = -1; } } return ret; } /* Regulator vusb33 is_enabled */ static int pmic_ldo_vusb33_is_enabled(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vusb33 is_enabled\n"); if (mreg->da_en_cb == NULL) { RGLTRLOG("ldo vusb33 don't have da_en_cb\n"); return -1; } return (mreg->da_en_cb)(); } /* Regulator vusb33 set_voltage_sel */ static int pmic_ldo_vusb33_set_voltage_sel(struct regulator_dev *rdev, unsigned int selector) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int idx = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); mreg->vosel.cur_sel = selector; idx = vusb33_idx[selector]; RGLTRLOG("ldo vusb33 set_voltage_sel: %d\n", selector); if (mreg->vol_cb != NULL) ret = (mreg->vol_cb)(idx); else { RGLTRLOG("ldo vusb33 don't have vol_cb\n"); ret = -1; } return ret; } /* Regulator vusb33 get_voltage_sel */ static int pmic_ldo_vusb33_get_voltage_sel(struct regulator_dev *rdev) { const struct regulator_desc *rdesc = rdev->desc; struct mtk_regulator *mreg; unsigned int i = 0, selector = 0; int ret = 0; mreg = container_of(rdesc, struct mtk_regulator, desc); RGLTRLOG("ldo vusb33 get_voltage_sel\n"); if (mreg->da_vol_cb == NULL) { RGLTRLOG("ldo vusb33 don't have da_vol_cb\n"); ret = -1; } else { ret = -1; selector = (mreg->da_vol_cb)(); for (i = 0; i < rdesc->n_voltages; i++) { if (vusb33_idx[i] == selector) { ret = i; break; } } } return ret; } /* Regulator vusb33 list_voltage */ static int pmic_ldo_vusb33_list_voltage(struct regulator_dev *rdev, unsigned int selector) { int voltage; voltage = vusb33_voltages[selector]; RGLTRLOG("ldo vusb33 list_voltage: %d\n", voltage); return voltage; } /* Regulator vfe28 ops */ static struct regulator_ops pmic_ldo_vfe28_ops = { .enable = pmic_ldo_vfe28_enable, .disable = pmic_ldo_vfe28_disable, .is_enabled = pmic_ldo_vfe28_is_enabled, /* .enable_time = pmic_ldo_vfe28_enable_time, */ }; /* Regulator vs1 ops */ static struct regulator_ops pmic_buck_vs1_ops = { .enable = pmic_buck_vs1_enable, .disable = pmic_buck_vs1_disable, .is_enabled = pmic_buck_vs1_is_enabled, .get_voltage_sel = pmic_buck_vs1_get_voltage_sel, .set_voltage_sel = pmic_buck_vs1_set_voltage_sel, .list_voltage = regulator_list_voltage_linear, /* .enable_time = pmic_buck_vs1_enable_time, */ }; /* Regulator vxo22 ops */ static struct regulator_ops pmic_ldo_vxo22_ops = { .enable = pmic_ldo_vxo22_enable, .disable = pmic_ldo_vxo22_disable, .is_enabled = pmic_ldo_vxo22_is_enabled, .get_voltage_sel = pmic_ldo_vxo22_get_voltage_sel, .set_voltage_sel = pmic_ldo_vxo22_set_voltage_sel, .list_voltage = pmic_ldo_vxo22_list_voltage, /* .enable_time = pmic_ldo_vxo22_enable_time, */ }; /* Regulator vrf18 ops */ static struct regulator_ops pmic_ldo_vrf18_ops = { .enable = pmic_ldo_vrf18_enable, .disable = pmic_ldo_vrf18_disable, .is_enabled = pmic_ldo_vrf18_is_enabled, /* .enable_time = pmic_ldo_vrf18_enable_time, */ }; /* Regulator vrf12 ops */ static struct regulator_ops pmic_ldo_vrf12_ops = { .enable = pmic_ldo_vrf12_enable, .disable = pmic_ldo_vrf12_disable, .is_enabled = pmic_ldo_vrf12_is_enabled, /* .enable_time = pmic_ldo_vrf12_enable_time, */ }; /* Regulator vefuse ops */ static struct regulator_ops pmic_ldo_vefuse_ops = { .enable = pmic_ldo_vefuse_enable, .disable = pmic_ldo_vefuse_disable, .is_enabled = pmic_ldo_vefuse_is_enabled, .get_voltage_sel = pmic_ldo_vefuse_get_voltage_sel, .set_voltage_sel = pmic_ldo_vefuse_set_voltage_sel, .list_voltage = pmic_ldo_vefuse_list_voltage, /* .enable_time = pmic_ldo_vefuse_enable_time, */ }; /* Regulator vcn33_bt ops */ static struct regulator_ops pmic_ldo_vcn33_bt_ops = { .enable = pmic_ldo_vcn33_bt_enable, .disable = pmic_ldo_vcn33_bt_disable, .is_enabled = pmic_ldo_vcn33_bt_is_enabled, .get_voltage_sel = pmic_ldo_vcn33_bt_get_voltage_sel, .set_voltage_sel = pmic_ldo_vcn33_bt_set_voltage_sel, .list_voltage = pmic_ldo_vcn33_bt_list_voltage, /* .enable_time = pmic_ldo_vcn33_bt_enable_time, */ }; /* Regulator vcn33_wifi ops */ static struct regulator_ops pmic_ldo_vcn33_wifi_ops = { .enable = pmic_ldo_vcn33_wifi_enable, .disable = pmic_ldo_vcn33_wifi_disable, .is_enabled = pmic_ldo_vcn33_wifi_is_enabled, .get_voltage_sel = pmic_ldo_vcn33_wifi_get_voltage_sel, .set_voltage_sel = pmic_ldo_vcn33_wifi_set_voltage_sel, .list_voltage = pmic_ldo_vcn33_wifi_list_voltage, /* .enable_time = pmic_ldo_vcn33_wifi_enable_time, */ }; /* Regulator vcn28 ops */ static struct regulator_ops pmic_ldo_vcn28_ops = { .enable = pmic_ldo_vcn28_enable, .disable = pmic_ldo_vcn28_disable, .is_enabled = pmic_ldo_vcn28_is_enabled, /* .enable_time = pmic_ldo_vcn28_enable_time, */ }; /* Regulator vcn18 ops */ static struct regulator_ops pmic_ldo_vcn18_ops = { .enable = pmic_ldo_vcn18_enable, .disable = pmic_ldo_vcn18_disable, .is_enabled = pmic_ldo_vcn18_is_enabled, /* .enable_time = pmic_ldo_vcn18_enable_time, */ }; /* Regulator vcama ops */ static struct regulator_ops pmic_ldo_vcama_ops = { .enable = pmic_ldo_vcama_enable, .disable = pmic_ldo_vcama_disable, .is_enabled = pmic_ldo_vcama_is_enabled, .get_voltage_sel = pmic_ldo_vcama_get_voltage_sel, .set_voltage_sel = pmic_ldo_vcama_set_voltage_sel, .list_voltage = pmic_ldo_vcama_list_voltage, /* .enable_time = pmic_ldo_vcama_enable_time, */ }; /* Regulator vcamd ops */ static struct regulator_ops pmic_ldo_vcamd_ops = { .enable = pmic_ldo_vcamd_enable, .disable = pmic_ldo_vcamd_disable, .is_enabled = pmic_ldo_vcamd_is_enabled, .get_voltage_sel = pmic_ldo_vcamd_get_voltage_sel, .set_voltage_sel = pmic_ldo_vcamd_set_voltage_sel, .list_voltage = pmic_ldo_vcamd_list_voltage, /* .enable_time = pmic_ldo_vcamd_enable_time, */ }; /* Regulator vmodem ops */ static struct regulator_ops pmic_buck_vmodem_ops = { .enable = pmic_buck_vmodem_enable, .disable = pmic_buck_vmodem_disable, .is_enabled = pmic_buck_vmodem_is_enabled, .get_voltage_sel = pmic_buck_vmodem_get_voltage_sel, .set_voltage_sel = pmic_buck_vmodem_set_voltage_sel, .list_voltage = regulator_list_voltage_linear, /* .enable_time = pmic_buck_vmodem_enable_time, */ }; /* Regulator vcore ops */ static struct regulator_ops pmic_buck_vcore_ops = { .enable = pmic_buck_vcore_enable, .disable = pmic_buck_vcore_disable, .is_enabled = pmic_buck_vcore_is_enabled, .get_voltage_sel = pmic_buck_vcore_get_voltage_sel, .set_voltage_sel = pmic_buck_vcore_set_voltage_sel, .list_voltage = regulator_list_voltage_linear, /* .enable_time = pmic_buck_vcore_enable_time, */ }; /* Regulator vcamio ops */ static struct regulator_ops pmic_ldo_vcamio_ops = { .enable = pmic_ldo_vcamio_enable, .disable = pmic_ldo_vcamio_disable, .is_enabled = pmic_ldo_vcamio_is_enabled, /* .enable_time = pmic_ldo_vcamio_enable_time, */ }; /* Regulator vldo28 ops */ static struct regulator_ops pmic_ldo_vldo28_ops = { .enable = pmic_ldo_vldo28_enable, .disable = pmic_ldo_vldo28_disable, .is_enabled = pmic_ldo_vldo28_is_enabled, .get_voltage_sel = pmic_ldo_vldo28_get_voltage_sel, .set_voltage_sel = pmic_ldo_vldo28_set_voltage_sel, .list_voltage = pmic_ldo_vldo28_list_voltage, /* .enable_time = pmic_ldo_vldo28_enable_time, */ }; /* Regulator vsram_others ops */ static struct regulator_ops pmic_ldo_vsram_others_ops = { .enable = pmic_ldo_vsram_others_enable, .disable = pmic_ldo_vsram_others_disable, .is_enabled = pmic_ldo_vsram_others_is_enabled, .get_voltage_sel = pmic_ldo_vsram_others_get_voltage_sel, .set_voltage_sel = pmic_ldo_vsram_others_set_voltage_sel, .list_voltage = regulator_list_voltage_linear, /* .enable_time = pmic_ldo_vsram_others_enable_time, */ }; /* Regulator vproc ops */ static struct regulator_ops pmic_buck_vproc_ops = { .enable = pmic_buck_vproc_enable, .disable = pmic_buck_vproc_disable, .is_enabled = pmic_buck_vproc_is_enabled, .get_voltage_sel = pmic_buck_vproc_get_voltage_sel, .set_voltage_sel = pmic_buck_vproc_set_voltage_sel, .list_voltage = regulator_list_voltage_linear, /* .enable_time = pmic_buck_vproc_enable_time, */ }; /* Regulator vsram_proc ops */ static struct regulator_ops pmic_ldo_vsram_proc_ops = { .enable = pmic_ldo_vsram_proc_enable, .disable = pmic_ldo_vsram_proc_disable, .is_enabled = pmic_ldo_vsram_proc_is_enabled, .get_voltage_sel = pmic_ldo_vsram_proc_get_voltage_sel, .set_voltage_sel = pmic_ldo_vsram_proc_set_voltage_sel, .list_voltage = regulator_list_voltage_linear, /* .enable_time = pmic_ldo_vsram_proc_enable_time, */ }; /* Regulator vaux18 ops */ static struct regulator_ops pmic_ldo_vaux18_ops = { .enable = pmic_ldo_vaux18_enable, .disable = pmic_ldo_vaux18_disable, .is_enabled = pmic_ldo_vaux18_is_enabled, /* .enable_time = pmic_ldo_vaux18_enable_time, */ }; /* Regulator vpa ops */ static struct regulator_ops pmic_buck_vpa_ops = { .enable = pmic_buck_vpa_enable, .disable = pmic_buck_vpa_disable, .is_enabled = pmic_buck_vpa_is_enabled, .get_voltage_sel = pmic_buck_vpa_get_voltage_sel, .set_voltage_sel = pmic_buck_vpa_set_voltage_sel, .list_voltage = regulator_list_voltage_linear, /* .enable_time = pmic_buck_vpa_enable_time, */ }; /* Regulator vaud28 ops */ static struct regulator_ops pmic_ldo_vaud28_ops = { .enable = pmic_ldo_vaud28_enable, .disable = pmic_ldo_vaud28_disable, .is_enabled = pmic_ldo_vaud28_is_enabled, /* .enable_time = pmic_ldo_vaud28_enable_time, */ }; /* Regulator vio28 ops */ static struct regulator_ops pmic_ldo_vio28_ops = { .enable = pmic_ldo_vio28_enable, .disable = pmic_ldo_vio28_disable, .is_enabled = pmic_ldo_vio28_is_enabled, /* .enable_time = pmic_ldo_vio28_enable_time, */ }; /* Regulator vio18 ops */ static struct regulator_ops pmic_ldo_vio18_ops = { .enable = pmic_ldo_vio18_enable, .disable = pmic_ldo_vio18_disable, .is_enabled = pmic_ldo_vio18_is_enabled, /* .enable_time = pmic_ldo_vio18_enable_time, */ }; /* Regulator vdram ops */ static struct regulator_ops pmic_ldo_vdram_ops = { .enable = pmic_ldo_vdram_enable, .disable = pmic_ldo_vdram_disable, .is_enabled = pmic_ldo_vdram_is_enabled, .get_voltage_sel = pmic_ldo_vdram_get_voltage_sel, .set_voltage_sel = pmic_ldo_vdram_set_voltage_sel, .list_voltage = pmic_ldo_vdram_list_voltage, /* .enable_time = pmic_ldo_vdram_enable_time, */ }; /* Regulator vmc ops */ static struct regulator_ops pmic_ldo_vmc_ops = { .enable = pmic_ldo_vmc_enable, .disable = pmic_ldo_vmc_disable, .is_enabled = pmic_ldo_vmc_is_enabled, .get_voltage_sel = pmic_ldo_vmc_get_voltage_sel, .set_voltage_sel = pmic_ldo_vmc_set_voltage_sel, .list_voltage = pmic_ldo_vmc_list_voltage, /* .enable_time = pmic_ldo_vmc_enable_time, */ }; /* Regulator vmch ops */ static struct regulator_ops pmic_ldo_vmch_ops = { .enable = pmic_ldo_vmch_enable, .disable = pmic_ldo_vmch_disable, .is_enabled = pmic_ldo_vmch_is_enabled, .get_voltage_sel = pmic_ldo_vmch_get_voltage_sel, .set_voltage_sel = pmic_ldo_vmch_set_voltage_sel, .list_voltage = pmic_ldo_vmch_list_voltage, /* .enable_time = pmic_ldo_vmch_enable_time, */ }; /* Regulator vemc ops */ static struct regulator_ops pmic_ldo_vemc_ops = { .enable = pmic_ldo_vemc_enable, .disable = pmic_ldo_vemc_disable, .is_enabled = pmic_ldo_vemc_is_enabled, .get_voltage_sel = pmic_ldo_vemc_get_voltage_sel, .set_voltage_sel = pmic_ldo_vemc_set_voltage_sel, .list_voltage = pmic_ldo_vemc_list_voltage, /* .enable_time = pmic_ldo_vemc_enable_time, */ }; /* Regulator vsim1 ops */ static struct regulator_ops pmic_ldo_vsim1_ops = { .enable = pmic_ldo_vsim1_enable, .disable = pmic_ldo_vsim1_disable, .is_enabled = pmic_ldo_vsim1_is_enabled, .get_voltage_sel = pmic_ldo_vsim1_get_voltage_sel, .set_voltage_sel = pmic_ldo_vsim1_set_voltage_sel, .list_voltage = pmic_ldo_vsim1_list_voltage, /* .enable_time = pmic_ldo_vsim1_enable_time, */ }; /* Regulator vsim2 ops */ static struct regulator_ops pmic_ldo_vsim2_ops = { .enable = pmic_ldo_vsim2_enable, .disable = pmic_ldo_vsim2_disable, .is_enabled = pmic_ldo_vsim2_is_enabled, .get_voltage_sel = pmic_ldo_vsim2_get_voltage_sel, .set_voltage_sel = pmic_ldo_vsim2_set_voltage_sel, .list_voltage = pmic_ldo_vsim2_list_voltage, /* .enable_time = pmic_ldo_vsim2_enable_time, */ }; /* Regulator vibr ops */ static struct regulator_ops pmic_ldo_vibr_ops = { .enable = pmic_ldo_vibr_enable, .disable = pmic_ldo_vibr_disable, .is_enabled = pmic_ldo_vibr_is_enabled, .get_voltage_sel = pmic_ldo_vibr_get_voltage_sel, .set_voltage_sel = pmic_ldo_vibr_set_voltage_sel, .list_voltage = pmic_ldo_vibr_list_voltage, /* .enable_time = pmic_ldo_vibr_enable_time, */ }; /* Regulator vusb33 ops */ static struct regulator_ops pmic_ldo_vusb33_ops = { .enable = pmic_ldo_vusb33_enable, .disable = pmic_ldo_vusb33_disable, .is_enabled = pmic_ldo_vusb33_is_enabled, .get_voltage_sel = pmic_ldo_vusb33_get_voltage_sel, .set_voltage_sel = pmic_ldo_vusb33_set_voltage_sel, .list_voltage = pmic_ldo_vusb33_list_voltage, /* .enable_time = pmic_ldo_vusb33_enable_time, */ }; /*------Regulator ATTR------*/ static ssize_t show_regulator_status(struct device *dev, struct device_attribute *attr, char *buf) { struct mtk_regulator *mreg; unsigned int ret_value = 0; mreg = container_of(attr, struct mtk_regulator, en_att); if (mreg->da_en_cb != NULL) ret_value = (mreg->da_en_cb)(); else ret_value = 9999; RGLTRLOG("[EM] %s_STATUS : %d\n", mreg->desc.name, ret_value); return sprintf(buf, "%u\n", ret_value); } static ssize_t store_regulator_status(struct device *dev, struct device_attribute *attr, const char *buf, size_t size) { RGLTRLOG("[EM] Not Support Write Function\n"); return size; } static ssize_t show_regulator_voltage(struct device *dev, struct device_attribute *attr, char *buf) { struct mtk_regulator *mreg; const int *pVoltage; const int *pVoltidx; unsigned short regVal; unsigned int ret_value = 0, i = 0, ret = 0; mreg = container_of(attr, struct mtk_regulator, voltage_att); if (mreg->desc.n_voltages != 1) { if (mreg->da_vol_cb != NULL) { regVal = (mreg->da_vol_cb)(); if (mreg->pvoltages != NULL) { pVoltage = (const int *)mreg->pvoltages; pVoltidx = (const int *)mreg->idxs; for (i = 0; i < mreg->desc.n_voltages; i++) { if (pVoltidx[i] == regVal) { ret = i; break; } } ret_value = pVoltage[ret]; } else ret_value = mreg->desc.min_uV + mreg->desc.uV_step * regVal; } else RGLTRLOG("[EM] %s_VOLTAGE have no da_vol_cb\n" , mreg->desc.name); } else { if (mreg->pvoltages != NULL) { pVoltage = (const int *)mreg->pvoltages; ret_value = pVoltage[0]; } else if (mreg->desc.fixed_uV) ret_value = mreg->desc.fixed_uV; else RGLTRLOG("[EM] %s_VOLTAGE have no pVolatges\n" , mreg->desc.name); } ret_value = ret_value / 1000; RGLTRLOG("[EM] %s_VOLTAGE : %d\n", mreg->desc.name, ret_value); return sprintf(buf, "%u\n", ret_value); } static ssize_t store_regulator_voltage(struct device *dev, struct device_attribute *attr, const char *buf, size_t size) { RGLTRLOG("[EM] Not Support Write Function\n"); return size; } /* Regulator: BUCK */ #define BUCK_EN REGULATOR_CHANGE_STATUS #define BUCK_VOL REGULATOR_CHANGE_VOLTAGE #define BUCK_VOL_EN (REGULATOR_CHANGE_STATUS | REGULATOR_CHANGE_VOLTAGE) struct mtk_regulator mt_bucks[] = { REGULAR_VOLTAGE_REGULATOR_BUCK_GEN(vs1, buck, 1200000, 2200000, 12500, 0, BUCK_VOL_EN, 1), REGULAR_VOLTAGE_REGULATOR_BUCK_GEN(vmodem, buck, 500000, 1193750, 6250, 0, BUCK_VOL_EN, 1), REGULAR_VOLTAGE_REGULATOR_BUCK_GEN(vcore, buck, 518750, 1312500, 6250, 0, BUCK_VOL_EN, 1), REGULAR_VOLTAGE_REGULATOR_BUCK_GEN(vproc, buck, 518750, 1312500, 6250, 0, BUCK_VOL_EN, 1), REGULAR_VOLTAGE_REGULATOR_BUCK_GEN(vpa, buck, 500000, 3650000, 50000, 0, BUCK_VOL_EN, 1), }; /* Regulator: LDO */ #define LDO_EN REGULATOR_CHANGE_STATUS #define LDO_VOL REGULATOR_CHANGE_VOLTAGE #define LDO_VOL_EN (REGULATOR_CHANGE_STATUS | REGULATOR_CHANGE_VOLTAGE) struct mtk_regulator mt_ldos[] = { FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vfe28, ldo, 2800000, LDO_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vxo22, ldo, vxo22_voltages, vxo22_idx, LDO_VOL_EN, 1), FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vrf18, ldo, 1800000, LDO_EN, 1), FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vrf12, ldo, 1200000, LDO_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vefuse, ldo, vefuse_voltages, vefuse_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vcn33_bt, ldo, vcn33_bt_voltages, vcn33_bt_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vcn33_wifi, ldo, vcn33_wifi_voltages, vcn33_wifi_idx, LDO_VOL_EN, 1), FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vcn28, ldo, 2800000, LDO_EN, 1), FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vcn18, ldo, 1800000, LDO_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vcama, ldo, vcama_voltages, vcama_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vcamd, ldo, vcamd_voltages, vcamd_idx, LDO_VOL_EN, 1), FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vcamio, ldo, 1800000, LDO_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vldo28, ldo, vldo28_voltages, vldo28_idx, LDO_VOL_EN, 1), REGULAR_VOLTAGE_REGULATOR_LDO_GEN(vsram_others, ldo, 518750, 1312500, 6250, 0, LDO_VOL_EN, 1), REGULAR_VOLTAGE_REGULATOR_LDO_GEN(vsram_proc, ldo, 518750, 1312500, 6250, 0, LDO_VOL_EN, 1), FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vaux18, ldo, 1800000, LDO_EN, 1), FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vaud28, ldo, 2800000, LDO_EN, 1), FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vio28, ldo, 2800000, LDO_EN, 1), FIXED_REGULAR_VOLTAGE_REGULATOR_GEN(vio18, ldo, 1800000, LDO_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vdram, ldo, vdram_voltages, vdram_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vmc, ldo, vmc_voltages, vmc_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vmch, ldo, vmch_voltages, vmch_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vemc, ldo, vemc_voltages, vemc_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vsim1, ldo, vsim1_voltages, vsim1_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vsim2, ldo, vsim2_voltages, vsim2_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vibr, ldo, vibr_voltages, vibr_idx, LDO_VOL_EN, 1), NON_REGULAR_VOLTAGE_REGULATOR_GEN(vusb33, ldo, vusb33_voltages, vusb33_idx, LDO_VOL_EN, 1), }; int mt_ldos_size = ARRAY_SIZE(mt_ldos); int mt_bucks_size = ARRAY_SIZE(mt_bucks); /* -------Code Gen End-------*/ #ifdef CONFIG_OF #if !defined CONFIG_MTK_LEGACY #define PMIC_REGULATOR_LDO_OF_MATCH(_name, _id) \ { \ .name = #_name, \ .driver_data = &mt_ldos[MT6357_POWER_LDO_##_id], \ } #define PMIC_REGULATOR_BUCK_OF_MATCH(_name, _id) \ { \ .name = #_name, \ .driver_data = &mt_bucks[MT6357_POWER_BUCK_##_id], \ } struct of_regulator_match pmic_regulator_buck_matches[] = { PMIC_REGULATOR_BUCK_OF_MATCH(buck_vs1, VS1), PMIC_REGULATOR_BUCK_OF_MATCH(buck_vmodem, VMODEM), PMIC_REGULATOR_BUCK_OF_MATCH(buck_vcore, VCORE), PMIC_REGULATOR_BUCK_OF_MATCH(buck_vproc, VPROC), PMIC_REGULATOR_BUCK_OF_MATCH(buck_vpa, VPA), }; struct of_regulator_match pmic_regulator_ldo_matches[] = { PMIC_REGULATOR_LDO_OF_MATCH(ldo_vfe28, VFE28), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vxo22, VXO22), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vrf18, VRF18), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vrf12, VRF12), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vefuse, VEFUSE), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vcn33_bt, VCN33_BT), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vcn33_wifi, VCN33_WIFI), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vcn28, VCN28), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vcn18, VCN18), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vcama, VCAMA), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vcamd, VCAMD), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vcamio, VCAMIO), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vldo28, VLDO28), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vsram_others, VSRAM_OTHERS), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vsram_proc, VSRAM_PROC), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vaux18, VAUX18), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vaud28, VAUD28), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vio28, VIO28), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vio18, VIO18), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vdram, VDRAM), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vmc, VMC), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vmch, VMCH), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vemc, VEMC), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vsim1, VSIM1), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vsim2, VSIM2), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vibr, VIBR), PMIC_REGULATOR_LDO_OF_MATCH(ldo_vusb33, VUSB33), }; int pmic_regulator_ldo_matches_size = ARRAY_SIZE(pmic_regulator_ldo_matches); int pmic_regulator_buck_matches_size = ARRAY_SIZE(pmic_regulator_buck_matches); #endif /* End of #ifdef CONFIG_OF */ #endif /* End of #if !defined CONFIG_MTK_LEGACY */