// SPDX-License-Identifier: GPL-2.0 /* * Copyright (c) 2019 MediaTek Inc. */ #include #include #include #include // ========== auto gen code 2018 0827 ==================== // ========== auto gen code 2018 0905 ==================== // ========== auto gen code 2018 0919 ==================== #define INFRACFG_AO_INFRA_BUS_DCM_REG0_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 3) | \ (0x1 << 4) | \ (0x1f << 5) | \ (0x1 << 20) | \ (0x1 << 23) | \ (0x1 << 30)) #define INFRACFG_AO_INFRA_BUS_DCM_REG1_MASK ((0x1f << 12) | \ (0x1 << 17) | \ (0x1 << 18)) #define INFRACFG_AO_INFRA_BUS_DCM_REG0_ON ((0x1 << 0) | \ (0x1 << 1) | \ (0x0 << 3) | \ (0x0 << 4) | \ (0x10 << 5) | \ (0x1 << 20) | \ (0x1 << 23) | \ (0x1 << 30)) #define INFRACFG_AO_INFRA_BUS_DCM_REG1_ON ((0x10 << 12) | \ (0x1 << 17) | \ (0x0 << 18)) #define INFRACFG_AO_INFRA_BUS_DCM_REG0_OFF ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 3) | \ (0x0 << 4) | \ (0x10 << 5) | \ (0x0 << 20) | \ (0x0 << 23) | \ (0x0 << 30)) #define INFRACFG_AO_INFRA_BUS_DCM_REG1_OFF ((0x10 << 12) | \ (0x0 << 17) | \ (0x1 << 18)) static void infracfg_ao_infra_dcm_rg_sfsel_set(unsigned int val) { reg_write(INFRA_BUS_DCM_CTRL, (reg_read(INFRA_BUS_DCM_CTRL) & ~(0x1f << 10)) | (val & 0x1f) << 10); } bool dcm_infracfg_ao_infra_bus_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(INFRA_BUS_DCM_CTRL) & INFRACFG_AO_INFRA_BUS_DCM_REG0_MASK) == (unsigned int) INFRACFG_AO_INFRA_BUS_DCM_REG0_ON); ret &= ((reg_read(INFRA_AXIMEM_IDLE_BIT_EN_0) & INFRACFG_AO_INFRA_BUS_DCM_REG1_MASK) == (unsigned int) INFRACFG_AO_INFRA_BUS_DCM_REG1_ON); return ret; } void dcm_infracfg_ao_infra_bus_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'infracfg_ao_infra_bus_dcm'" */ infracfg_ao_infra_dcm_rg_sfsel_set(0x1); reg_write(INFRA_BUS_DCM_CTRL, (reg_read(INFRA_BUS_DCM_CTRL) & ~INFRACFG_AO_INFRA_BUS_DCM_REG0_MASK) | INFRACFG_AO_INFRA_BUS_DCM_REG0_ON); reg_write(INFRA_AXIMEM_IDLE_BIT_EN_0, (reg_read(INFRA_AXIMEM_IDLE_BIT_EN_0) & ~INFRACFG_AO_INFRA_BUS_DCM_REG1_MASK) | INFRACFG_AO_INFRA_BUS_DCM_REG1_ON); } else { /* TINFO = "Turn OFF DCM 'infracfg_ao_infra_bus_dcm'" */ infracfg_ao_infra_dcm_rg_sfsel_set(0x1); reg_write(INFRA_BUS_DCM_CTRL, (reg_read(INFRA_BUS_DCM_CTRL) & ~INFRACFG_AO_INFRA_BUS_DCM_REG0_MASK) | INFRACFG_AO_INFRA_BUS_DCM_REG0_OFF); reg_write(INFRA_AXIMEM_IDLE_BIT_EN_0, (reg_read(INFRA_AXIMEM_IDLE_BIT_EN_0) & ~INFRACFG_AO_INFRA_BUS_DCM_REG1_MASK) | INFRACFG_AO_INFRA_BUS_DCM_REG1_OFF); } } #define INFRACFG_AO_INFRA_RX_P2P_DCM_REG0_MASK ((0xf << 0)) #define INFRACFG_AO_INFRA_RX_P2P_DCM_REG0_ON ((0x0 << 0)) #define INFRACFG_AO_INFRA_RX_P2P_DCM_REG0_OFF ((0xf << 0)) bool dcm_infracfg_ao_infra_rx_p2p_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(P2P_RX_CLK_ON) & INFRACFG_AO_INFRA_RX_P2P_DCM_REG0_MASK) == (unsigned int) INFRACFG_AO_INFRA_RX_P2P_DCM_REG0_ON); return ret; } void dcm_infracfg_ao_infra_rx_p2p_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'infracfg_ao_infra_rx_p2p_dcm'" */ reg_write(P2P_RX_CLK_ON, (reg_read(P2P_RX_CLK_ON) & ~INFRACFG_AO_INFRA_RX_P2P_DCM_REG0_MASK) | INFRACFG_AO_INFRA_RX_P2P_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'infracfg_ao_infra_rx_p2p_dcm'" */ reg_write(P2P_RX_CLK_ON, (reg_read(P2P_RX_CLK_ON) & ~INFRACFG_AO_INFRA_RX_P2P_DCM_REG0_MASK) | INFRACFG_AO_INFRA_RX_P2P_DCM_REG0_OFF); } } #define INFRACFG_AO_PERI_BUS_DCM_REG0_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 3) | \ (0x1 << 4) | \ (0x1f << 5) | \ (0x1f << 15) | \ (0x1 << 20) | \ (0x1 << 21)) #define INFRACFG_AO_PERI_BUS_DCM_REG0_ON ((0x1 << 0) | \ (0x1 << 1) | \ (0x0 << 3) | \ (0x0 << 4) | \ (0x1f << 5) | \ (0x1f << 15) | \ (0x1 << 20) | \ (0x1 << 21)) #define INFRACFG_AO_PERI_BUS_DCM_REG0_OFF ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 3) | \ (0x0 << 4) | \ (0x1f << 5) | \ (0x0 << 15) | \ (0x0 << 20) | \ (0x0 << 21)) static void infracfg_ao_peri_dcm_rg_sfsel_set(unsigned int val) { reg_write(PERI_BUS_DCM_CTRL, (reg_read(PERI_BUS_DCM_CTRL) & ~(0x1f << 10)) | (val & 0x1f) << 10); } bool dcm_infracfg_ao_peri_bus_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(PERI_BUS_DCM_CTRL) & INFRACFG_AO_PERI_BUS_DCM_REG0_MASK) == (unsigned int) INFRACFG_AO_PERI_BUS_DCM_REG0_ON); return ret; } void dcm_infracfg_ao_peri_bus_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'infracfg_ao_peri_bus_dcm'" */ infracfg_ao_peri_dcm_rg_sfsel_set(0x0); reg_write(PERI_BUS_DCM_CTRL, (reg_read(PERI_BUS_DCM_CTRL) & ~INFRACFG_AO_PERI_BUS_DCM_REG0_MASK) | INFRACFG_AO_PERI_BUS_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'infracfg_ao_peri_bus_dcm'" */ infracfg_ao_peri_dcm_rg_sfsel_set(0x1f); reg_write(PERI_BUS_DCM_CTRL, (reg_read(PERI_BUS_DCM_CTRL) & ~INFRACFG_AO_PERI_BUS_DCM_REG0_MASK) | INFRACFG_AO_PERI_BUS_DCM_REG0_OFF); } } #define INFRACFG_AO_PERI_MODULE_DCM_REG0_MASK ((0x1 << 28) | \ (0x1 << 29) | \ (0x1 << 30)) #define INFRACFG_AO_PERI_MODULE_DCM_REG0_ON ((0x1 << 28) | \ (0x1 << 29) | \ (0x1 << 30)) #define INFRACFG_AO_PERI_MODULE_DCM_REG0_OFF ((0x0 << 28) | \ (0x0 << 29) | \ (0x0 << 30)) bool dcm_infracfg_ao_peri_module_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(PERI_BUS_DCM_CTRL) & INFRACFG_AO_PERI_MODULE_DCM_REG0_MASK) == (unsigned int) INFRACFG_AO_PERI_MODULE_DCM_REG0_ON); return ret; } void dcm_infracfg_ao_peri_module_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'infracfg_ao_peri_module_dcm'" */ reg_write(PERI_BUS_DCM_CTRL, (reg_read(PERI_BUS_DCM_CTRL) & ~INFRACFG_AO_PERI_MODULE_DCM_REG0_MASK) | INFRACFG_AO_PERI_MODULE_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'infracfg_ao_peri_module_dcm'" */ reg_write(PERI_BUS_DCM_CTRL, (reg_read(PERI_BUS_DCM_CTRL) & ~INFRACFG_AO_PERI_MODULE_DCM_REG0_MASK) | INFRACFG_AO_PERI_MODULE_DCM_REG0_OFF); } } #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG0_MASK ((0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3) | \ (0x1 << 4) | \ (0x1 << 5) | \ (0x1 << 6) | \ (0x1 << 10) | \ (0x1 << 12)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG1_MASK ((0xffffffff << 0)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG2_MASK ((0xffffffff << 0)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG3_MASK ((0xffffffff << 0)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG0_ON ((0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3) | \ (0x1 << 4) | \ (0x1 << 5) | \ (0x1 << 6) | \ (0x1 << 10) | \ (0x1 << 12)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG1_ON ((0x40388000 << 0)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG2_ON ((0xff << 0)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG3_ON ((0x7 << 0)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG0_OFF ((0x0 << 1) | \ (0x0 << 2) | \ (0x0 << 3) | \ (0x0 << 4) | \ (0x0 << 5) | \ (0x0 << 6) | \ (0x0 << 10) | \ (0x0 << 12)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG1_OFF ((0x40388000 << 0)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG2_OFF ((0x0 << 0)) #define INFRACFG_AO_MEM_DCM_EMI_GROUP_REG3_OFF ((0x7 << 0)) bool dcm_infracfg_ao_mem_dcm_emi_group_is_on(void) { bool ret = true; ret &= ((reg_read(INFRA_EMI_DCM_CFG0) & INFRACFG_AO_MEM_DCM_EMI_GROUP_REG0_MASK) == (unsigned int) INFRACFG_AO_MEM_DCM_EMI_GROUP_REG0_ON); ret &= ((reg_read(INFRA_EMI_DCM_CFG1) & INFRACFG_AO_MEM_DCM_EMI_GROUP_REG1_MASK) == (unsigned int) INFRACFG_AO_MEM_DCM_EMI_GROUP_REG1_ON); ret &= ((reg_read(INFRA_EMI_DCM_CFG3) & INFRACFG_AO_MEM_DCM_EMI_GROUP_REG2_MASK) == (unsigned int) INFRACFG_AO_MEM_DCM_EMI_GROUP_REG2_ON); ret &= ((reg_read(TOP_CK_ANCHOR_CFG) & INFRACFG_AO_MEM_DCM_EMI_GROUP_REG3_MASK) == (unsigned int) INFRACFG_AO_MEM_DCM_EMI_GROUP_REG3_ON); return ret; } void dcm_infracfg_ao_mem_dcm_emi_group(int on) { if (on) { /* TINFO = "Turn ON DCM 'infracfg_ao_mem_dcm_emi_group'" */ reg_write(INFRA_EMI_DCM_CFG0, (reg_read(INFRA_EMI_DCM_CFG0) & ~INFRACFG_AO_MEM_DCM_EMI_GROUP_REG0_MASK) | INFRACFG_AO_MEM_DCM_EMI_GROUP_REG0_ON); reg_write(INFRA_EMI_DCM_CFG1, (reg_read(INFRA_EMI_DCM_CFG1) & ~INFRACFG_AO_MEM_DCM_EMI_GROUP_REG1_MASK) | INFRACFG_AO_MEM_DCM_EMI_GROUP_REG1_ON); reg_write(INFRA_EMI_DCM_CFG3, (reg_read(INFRA_EMI_DCM_CFG3) & ~INFRACFG_AO_MEM_DCM_EMI_GROUP_REG2_MASK) | INFRACFG_AO_MEM_DCM_EMI_GROUP_REG2_ON); reg_write(TOP_CK_ANCHOR_CFG, (reg_read(TOP_CK_ANCHOR_CFG) & ~INFRACFG_AO_MEM_DCM_EMI_GROUP_REG3_MASK) | INFRACFG_AO_MEM_DCM_EMI_GROUP_REG3_ON); } else { /* TINFO = "Turn OFF DCM 'infracfg_ao_mem_dcm_emi_group'" */ reg_write(INFRA_EMI_DCM_CFG0, (reg_read(INFRA_EMI_DCM_CFG0) & ~INFRACFG_AO_MEM_DCM_EMI_GROUP_REG0_MASK) | INFRACFG_AO_MEM_DCM_EMI_GROUP_REG0_OFF); reg_write(INFRA_EMI_DCM_CFG1, (reg_read(INFRA_EMI_DCM_CFG1) & ~INFRACFG_AO_MEM_DCM_EMI_GROUP_REG1_MASK) | INFRACFG_AO_MEM_DCM_EMI_GROUP_REG1_OFF); reg_write(INFRA_EMI_DCM_CFG3, (reg_read(INFRA_EMI_DCM_CFG3) & ~INFRACFG_AO_MEM_DCM_EMI_GROUP_REG2_MASK) | INFRACFG_AO_MEM_DCM_EMI_GROUP_REG2_OFF); reg_write(TOP_CK_ANCHOR_CFG, (reg_read(TOP_CK_ANCHOR_CFG) & ~INFRACFG_AO_MEM_DCM_EMI_GROUP_REG3_MASK) | INFRACFG_AO_MEM_DCM_EMI_GROUP_REG3_OFF); } } #define PWRAP_PMIC_WRAP_REG0_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3) | \ (0x1 << 4) | \ (0x1 << 5) | \ (0x1 << 6) | \ (0x1 << 7) | \ (0x1 << 8) | \ (0x1 << 9) | \ (0x1 << 10) | \ (0x1 << 11) | \ (0x1 << 12) | \ (0x1 << 13) | \ (0x1 << 14) | \ (0x1 << 15) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 18) | \ (0x1 << 19) | \ (0x1 << 20) | \ (0x1 << 21) | \ (0x1 << 22)) #define PWRAP_PMIC_WRAP_REG0_ON ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 2) | \ (0x0 << 3) | \ (0x0 << 4) | \ (0x0 << 5) | \ (0x0 << 6) | \ (0x0 << 7) | \ (0x0 << 8) | \ (0x0 << 9) | \ (0x0 << 10) | \ (0x0 << 11) | \ (0x0 << 12) | \ (0x0 << 13) | \ (0x0 << 14) | \ (0x0 << 15) | \ (0x0 << 16) | \ (0x0 << 17) | \ (0x0 << 18) | \ (0x0 << 19) | \ (0x0 << 20) | \ (0x0 << 21) | \ (0x0 << 22)) #define PWRAP_PMIC_WRAP_REG0_OFF ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 2) | \ (0x0 << 3) | \ (0x0 << 4) | \ (0x0 << 5) | \ (0x0 << 6) | \ (0x0 << 7) | \ (0x0 << 8) | \ (0x0 << 9) | \ (0x0 << 10) | \ (0x0 << 11) | \ (0x0 << 12) | \ (0x0 << 13) | \ (0x0 << 14) | \ (0x0 << 15) | \ (0x0 << 16) | \ (0x0 << 17) | \ (0x0 << 18) | \ (0x0 << 19) | \ (0x0 << 20) | \ (0x0 << 21) | \ (0x0 << 22)) bool dcm_pwrap_pmic_wrap_is_on(void) { bool ret = true; ret &= ((reg_read(PMIC_WRAP_DCM_EN) & PWRAP_PMIC_WRAP_REG0_MASK) == (unsigned int) PWRAP_PMIC_WRAP_REG0_ON); return ret; } void dcm_pwrap_pmic_wrap(int on) { if (on) { /* TINFO = "Turn ON DCM 'pwrap_pmic_wrap'" */ reg_write(PMIC_WRAP_DCM_EN, (reg_read(PMIC_WRAP_DCM_EN) & ~PWRAP_PMIC_WRAP_REG0_MASK) | PWRAP_PMIC_WRAP_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'pwrap_pmic_wrap'" */ reg_write(PMIC_WRAP_DCM_EN, (reg_read(PMIC_WRAP_DCM_EN) & ~PWRAP_PMIC_WRAP_REG0_MASK) | PWRAP_PMIC_WRAP_REG0_OFF); } } #define EMI_EMI_DCM_REG0_MASK ((0xff << 24)) #define EMI_EMI_DCM_REG1_MASK ((0xff << 24)) #define EMI_EMI_DCM_REG2_MASK ((0x1 << 13)) #define EMI_EMI_DCM_REG0_ON ((0x0 << 24)) #define EMI_EMI_DCM_REG1_ON ((0x0 << 24)) #define EMI_EMI_DCM_REG2_ON ((0x0 << 13)) #define EMI_EMI_DCM_REG0_OFF ((0xff << 24)) #define EMI_EMI_DCM_REG1_OFF ((0xff << 24)) #define EMI_EMI_DCM_REG2_OFF ((0x1 << 13)) bool dcm_emi_emi_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(EMI_CONM) & EMI_EMI_DCM_REG0_MASK) == (unsigned int) EMI_EMI_DCM_REG0_ON); ret &= ((reg_read(EMI_CONN) & EMI_EMI_DCM_REG1_MASK) == (unsigned int) EMI_EMI_DCM_REG1_ON); ret &= ((reg_read(EMI_THRO_CTRL0) & EMI_EMI_DCM_REG2_MASK) == (unsigned int) EMI_EMI_DCM_REG2_ON); return ret; } void dcm_emi_emi_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'emi_emi_dcm'" */ reg_write(EMI_CONM, (reg_read(EMI_CONM) & ~EMI_EMI_DCM_REG0_MASK) | EMI_EMI_DCM_REG0_ON); reg_write(EMI_CONN, (reg_read(EMI_CONN) & ~EMI_EMI_DCM_REG1_MASK) | EMI_EMI_DCM_REG1_ON); reg_write(EMI_THRO_CTRL0, (reg_read(EMI_THRO_CTRL0) & ~EMI_EMI_DCM_REG2_MASK) | EMI_EMI_DCM_REG2_ON); } else { /* TINFO = "Turn OFF DCM 'emi_emi_dcm'" */ reg_write(EMI_CONM, (reg_read(EMI_CONM) & ~EMI_EMI_DCM_REG0_MASK) | EMI_EMI_DCM_REG0_OFF); reg_write(EMI_CONN, (reg_read(EMI_CONN) & ~EMI_EMI_DCM_REG1_MASK) | EMI_EMI_DCM_REG1_OFF); reg_write(EMI_THRO_CTRL0, (reg_read(EMI_THRO_CTRL0) & ~EMI_EMI_DCM_REG2_MASK) | EMI_EMI_DCM_REG2_OFF); } } #define MM_IOMMU_MM_MMU_DCM_CFG_REG0_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3) | \ (0x1 << 4) | \ (0x1 << 5) | \ (0x1 << 6) | \ (0x1 << 7) | \ (0x1 << 8) | \ (0x1 << 9) | \ (0x1 << 10) | \ (0x1 << 11) | \ (0x1 << 12) | \ (0x1 << 13) | \ (0x1 << 14) | \ (0x1 << 15) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 18) | \ (0x1 << 19) | \ (0x1 << 20) | \ (0x1 << 21) | \ (0x1 << 22)) #define MM_IOMMU_MM_MMU_DCM_CFG_REG0_ON ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 2) | \ (0x0 << 3) | \ (0x0 << 4) | \ (0x0 << 5) | \ (0x0 << 6) | \ (0x0 << 7) | \ (0x0 << 8) | \ (0x0 << 9) | \ (0x0 << 10) | \ (0x0 << 11) | \ (0x0 << 12) | \ (0x0 << 13) | \ (0x0 << 14) | \ (0x0 << 15) | \ (0x0 << 16) | \ (0x0 << 17) | \ (0x0 << 18) | \ (0x0 << 19) | \ (0x0 << 20) | \ (0x0 << 21) | \ (0x0 << 22)) #define MM_IOMMU_MM_MMU_DCM_CFG_REG0_OFF ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3) | \ (0x1 << 4) | \ (0x1 << 5) | \ (0x1 << 6) | \ (0x1 << 7) | \ (0x1 << 8) | \ (0x1 << 9) | \ (0x1 << 10) | \ (0x1 << 11) | \ (0x1 << 12) | \ (0x1 << 13) | \ (0x1 << 14) | \ (0x1 << 15) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 18) | \ (0x1 << 19) | \ (0x1 << 20) | \ (0x1 << 21) | \ (0x1 << 22)) bool dcm_mm_iommu_mm_mmu_dcm_cfg_is_on(void) { bool ret = true; ret &= ((reg_read(MM_MMU_DCM_DIS) & MM_IOMMU_MM_MMU_DCM_CFG_REG0_MASK) == (unsigned int) MM_IOMMU_MM_MMU_DCM_CFG_REG0_ON); return ret; } void dcm_mm_iommu_mm_mmu_dcm_cfg(int on) { if (on) { /* TINFO = "Turn ON DCM 'mm_iommu_mm_mmu_dcm_cfg'" */ reg_write(MM_MMU_DCM_DIS, (reg_read(MM_MMU_DCM_DIS) & ~MM_IOMMU_MM_MMU_DCM_CFG_REG0_MASK) | MM_IOMMU_MM_MMU_DCM_CFG_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mm_iommu_mm_mmu_dcm_cfg'" */ reg_write(MM_MMU_DCM_DIS, (reg_read(MM_MMU_DCM_DIS) & ~MM_IOMMU_MM_MMU_DCM_CFG_REG0_MASK) | MM_IOMMU_MM_MMU_DCM_CFG_REG0_OFF); } } #define DRAMC_CH0_TOP0_DDRPHY_REG0_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 26) | \ (0x1 << 30) | \ (0x1 << 31)) #define DRAMC_CH0_TOP0_DDRPHY_REG1_MASK ((0x1 << 31)) #define DRAMC_CH0_TOP0_DDRPHY_REG0_ON ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x0 << 26) | \ (0x1 << 30) | \ (0x1 << 31)) #define DRAMC_CH0_TOP0_DDRPHY_REG1_ON ((0x1 << 31)) #define DRAMC_CH0_TOP0_DDRPHY_REG0_OFF ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 2) | \ (0x1 << 26) | \ (0x0 << 30) | \ (0x0 << 31)) #define DRAMC_CH0_TOP0_DDRPHY_REG1_OFF ((0x0 << 31)) bool dcm_dramc_ch0_top0_ddrphy_is_on(void) { bool ret = true; ret &= ((reg_read(DRAMC_CH0_TOP0_DRAMC_PD_CTRL) & DRAMC_CH0_TOP0_DDRPHY_REG0_MASK) == (unsigned int) DRAMC_CH0_TOP0_DDRPHY_REG0_ON); ret &= ((reg_read(DRAMC_CH0_TOP0_CLKAR) & DRAMC_CH0_TOP0_DDRPHY_REG1_MASK) == (unsigned int) DRAMC_CH0_TOP0_DDRPHY_REG1_ON); return ret; } void dcm_dramc_ch0_top0_ddrphy(int on) { if (on) { /* TINFO = "Turn ON DCM 'dramc_ch0_top0_ddrphy'" */ reg_write(DRAMC_CH0_TOP0_DRAMC_PD_CTRL, (reg_read(DRAMC_CH0_TOP0_DRAMC_PD_CTRL) & ~DRAMC_CH0_TOP0_DDRPHY_REG0_MASK) | DRAMC_CH0_TOP0_DDRPHY_REG0_ON); reg_write(DRAMC_CH0_TOP0_CLKAR, (reg_read(DRAMC_CH0_TOP0_CLKAR) & ~DRAMC_CH0_TOP0_DDRPHY_REG1_MASK) | DRAMC_CH0_TOP0_DDRPHY_REG1_ON); } else { /* TINFO = "Turn OFF DCM 'dramc_ch0_top0_ddrphy'" */ reg_write(DRAMC_CH0_TOP0_DRAMC_PD_CTRL, (reg_read(DRAMC_CH0_TOP0_DRAMC_PD_CTRL) & ~DRAMC_CH0_TOP0_DDRPHY_REG0_MASK) | DRAMC_CH0_TOP0_DDRPHY_REG0_OFF); reg_write(DRAMC_CH0_TOP0_CLKAR, (reg_read(DRAMC_CH0_TOP0_CLKAR) & ~DRAMC_CH0_TOP0_DDRPHY_REG1_MASK) | DRAMC_CH0_TOP0_DDRPHY_REG1_OFF); } } #define CHN0_EMI_CHN_EMI_DCM_REG0_MASK ((0xff << 24)) #define CHN0_EMI_CHN_EMI_DCM_REG0_ON ((0x0 << 24)) #define CHN0_EMI_CHN_EMI_DCM_REG0_OFF ((0xff << 24)) bool dcm_chn0_emi_chn_emi_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(CHN0_EMI_CHN_EMI_CONB) & CHN0_EMI_CHN_EMI_DCM_REG0_MASK) == (unsigned int) CHN0_EMI_CHN_EMI_DCM_REG0_ON); return ret; } void dcm_chn0_emi_chn_emi_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'chn0_emi_chn_emi_dcm'" */ reg_write(CHN0_EMI_CHN_EMI_CONB, (reg_read(CHN0_EMI_CHN_EMI_CONB) & ~CHN0_EMI_CHN_EMI_DCM_REG0_MASK) | CHN0_EMI_CHN_EMI_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'chn0_emi_chn_emi_dcm'" */ reg_write(CHN0_EMI_CHN_EMI_CONB, (reg_read(CHN0_EMI_CHN_EMI_CONB) & ~CHN0_EMI_CHN_EMI_DCM_REG0_MASK) | CHN0_EMI_CHN_EMI_DCM_REG0_OFF); } } #define DRAMC_CH0_TOP5_DDRPHY_REG0_MASK ((0x1 << 8) | \ (0x1 << 9) | \ (0x1 << 10) | \ (0x1 << 11) | \ (0x1 << 12) | \ (0x1 << 13) | \ (0x1 << 14) | \ (0x1 << 15) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 19)) #define DRAMC_CH0_TOP5_DDRPHY_REG1_MASK ((0x1 << 6) | \ (0x1 << 7) | \ (0x1 << 26)) #define DRAMC_CH0_TOP5_DDRPHY_REG2_MASK ((0x3 << 0)) #define DRAMC_CH0_TOP5_DDRPHY_REG0_ON ((0x0 << 8) | \ (0x0 << 9) | \ (0x0 << 10) | \ (0x0 << 11) | \ (0x0 << 12) | \ (0x0 << 13) | \ (0x0 << 14) | \ (0x0 << 15) | \ (0x0 << 16) | \ (0x0 << 17) | \ (0x0 << 19)) #define DRAMC_CH0_TOP5_DDRPHY_REG1_ON ((0x0 << 6) | \ (0x0 << 7) | \ (0x0 << 26)) #define DRAMC_CH0_TOP5_DDRPHY_REG2_ON ((0x0 << 0)) #define DRAMC_CH0_TOP5_DDRPHY_REG0_OFF ((0x1 << 8) | \ (0x1 << 9) | \ (0x1 << 10) | \ (0x1 << 11) | \ (0x1 << 12) | \ (0x1 << 13) | \ (0x1 << 14) | \ (0x1 << 15) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 19)) #define DRAMC_CH0_TOP5_DDRPHY_REG1_OFF ((0x1 << 6) | \ (0x1 << 7) | \ (0x0 << 26)) #define DRAMC_CH0_TOP5_DDRPHY_REG2_OFF ((0x1 << 0)) static void dramc_ch0_top5_rg_mem_dcm_idle_fsel_set(unsigned int val) { reg_write(DRAMC_CH0_TOP5_MISC_CG_CTRL2, (reg_read(DRAMC_CH0_TOP5_MISC_CG_CTRL2) & ~(0x1f << 21)) | (val & 0x1f) << 21); } bool dcm_dramc_ch0_top5_ddrphy_is_on(void) { bool ret = true; ret &= ((reg_read(DRAMC_CH0_TOP5_MISC_CG_CTRL0) & DRAMC_CH0_TOP5_DDRPHY_REG0_MASK) == (unsigned int) DRAMC_CH0_TOP5_DDRPHY_REG0_ON); ret &= ((reg_read(DRAMC_CH0_TOP5_MISC_CG_CTRL2) & DRAMC_CH0_TOP5_DDRPHY_REG1_MASK) == (unsigned int) DRAMC_CH0_TOP5_DDRPHY_REG1_ON); ret &= ((reg_read(DRAMC_CH0_TOP5_MISC_CTRL2) & DRAMC_CH0_TOP5_DDRPHY_REG2_MASK) == (unsigned int) DRAMC_CH0_TOP5_DDRPHY_REG2_ON); return ret; } void dcm_dramc_ch0_top5_ddrphy(int on) { if (on) { /* TINFO = "Turn ON DCM 'dramc_ch0_top5_ddrphy'" */ dramc_ch0_top5_rg_mem_dcm_idle_fsel_set(0x8); reg_write(DRAMC_CH0_TOP5_MISC_CG_CTRL0, (reg_read(DRAMC_CH0_TOP5_MISC_CG_CTRL0) & ~DRAMC_CH0_TOP5_DDRPHY_REG0_MASK) | DRAMC_CH0_TOP5_DDRPHY_REG0_ON); reg_write(DRAMC_CH0_TOP5_MISC_CG_CTRL2, (reg_read(DRAMC_CH0_TOP5_MISC_CG_CTRL2) & ~DRAMC_CH0_TOP5_DDRPHY_REG1_MASK) | DRAMC_CH0_TOP5_DDRPHY_REG1_ON); reg_write(DRAMC_CH0_TOP5_MISC_CTRL2, (reg_read(DRAMC_CH0_TOP5_MISC_CTRL2) & ~DRAMC_CH0_TOP5_DDRPHY_REG2_MASK) | DRAMC_CH0_TOP5_DDRPHY_REG2_ON); } else { /* TINFO = "Turn OFF DCM 'dramc_ch0_top5_ddrphy'" */ dramc_ch0_top5_rg_mem_dcm_idle_fsel_set(0x0); reg_write(DRAMC_CH0_TOP5_MISC_CG_CTRL0, (reg_read(DRAMC_CH0_TOP5_MISC_CG_CTRL0) & ~DRAMC_CH0_TOP5_DDRPHY_REG0_MASK) | DRAMC_CH0_TOP5_DDRPHY_REG0_OFF); reg_write(DRAMC_CH0_TOP5_MISC_CG_CTRL2, (reg_read(DRAMC_CH0_TOP5_MISC_CG_CTRL2) & ~DRAMC_CH0_TOP5_DDRPHY_REG1_MASK) | DRAMC_CH0_TOP5_DDRPHY_REG1_OFF); reg_write(DRAMC_CH0_TOP5_MISC_CTRL2, (reg_read(DRAMC_CH0_TOP5_MISC_CTRL2) & ~DRAMC_CH0_TOP5_DDRPHY_REG2_MASK) | DRAMC_CH0_TOP5_DDRPHY_REG2_OFF); } } #define DRAMC_CH1_TOP0_DDRPHY_REG0_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 26) | \ (0x1 << 30) | \ (0x1 << 31)) #define DRAMC_CH1_TOP0_DDRPHY_REG1_MASK ((0x1 << 31)) #define DRAMC_CH1_TOP0_DDRPHY_REG0_ON ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x0 << 26) | \ (0x1 << 30) | \ (0x1 << 31)) #define DRAMC_CH1_TOP0_DDRPHY_REG1_ON ((0x1 << 31)) #define DRAMC_CH1_TOP0_DDRPHY_REG0_OFF ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 2) | \ (0x1 << 26) | \ (0x0 << 30) | \ (0x0 << 31)) #define DRAMC_CH1_TOP0_DDRPHY_REG1_OFF ((0x0 << 31)) bool dcm_dramc_ch1_top0_ddrphy_is_on(void) { bool ret = true; ret &= ((reg_read(DRAMC_CH1_TOP0_DRAMC_PD_CTRL) & DRAMC_CH1_TOP0_DDRPHY_REG0_MASK) == (unsigned int) DRAMC_CH1_TOP0_DDRPHY_REG0_ON); ret &= ((reg_read(DRAMC_CH1_TOP0_CLKAR) & DRAMC_CH1_TOP0_DDRPHY_REG1_MASK) == (unsigned int) DRAMC_CH1_TOP0_DDRPHY_REG1_ON); return ret; } void dcm_dramc_ch1_top0_ddrphy(int on) { if (on) { /* TINFO = "Turn ON DCM 'dramc_ch1_top0_ddrphy'" */ reg_write(DRAMC_CH1_TOP0_DRAMC_PD_CTRL, (reg_read(DRAMC_CH1_TOP0_DRAMC_PD_CTRL) & ~DRAMC_CH1_TOP0_DDRPHY_REG0_MASK) | DRAMC_CH1_TOP0_DDRPHY_REG0_ON); reg_write(DRAMC_CH1_TOP0_CLKAR, (reg_read(DRAMC_CH1_TOP0_CLKAR) & ~DRAMC_CH1_TOP0_DDRPHY_REG1_MASK) | DRAMC_CH1_TOP0_DDRPHY_REG1_ON); } else { /* TINFO = "Turn OFF DCM 'dramc_ch1_top0_ddrphy'" */ reg_write(DRAMC_CH1_TOP0_DRAMC_PD_CTRL, (reg_read(DRAMC_CH1_TOP0_DRAMC_PD_CTRL) & ~DRAMC_CH1_TOP0_DDRPHY_REG0_MASK) | DRAMC_CH1_TOP0_DDRPHY_REG0_OFF); reg_write(DRAMC_CH1_TOP0_CLKAR, (reg_read(DRAMC_CH1_TOP0_CLKAR) & ~DRAMC_CH1_TOP0_DDRPHY_REG1_MASK) | DRAMC_CH1_TOP0_DDRPHY_REG1_OFF); } } #define DRAMC_CH1_TOP5_DDRPHY_REG0_MASK ((0x1 << 8) | \ (0x1 << 9) | \ (0x1 << 10) | \ (0x1 << 11) | \ (0x1 << 12) | \ (0x1 << 13) | \ (0x1 << 14) | \ (0x1 << 15) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 19)) #define DRAMC_CH1_TOP5_DDRPHY_REG1_MASK ((0x1 << 6) | \ (0x1 << 7) | \ (0x1 << 26)) #define DRAMC_CH1_TOP5_DDRPHY_REG2_MASK ((0x3 << 0)) #define DRAMC_CH1_TOP5_DDRPHY_REG0_ON ((0x0 << 8) | \ (0x0 << 9) | \ (0x0 << 10) | \ (0x0 << 11) | \ (0x0 << 12) | \ (0x0 << 13) | \ (0x0 << 14) | \ (0x0 << 15) | \ (0x0 << 16) | \ (0x0 << 17) | \ (0x0 << 19)) #define DRAMC_CH1_TOP5_DDRPHY_REG1_ON ((0x0 << 6) | \ (0x0 << 7) | \ (0x0 << 26)) #define DRAMC_CH1_TOP5_DDRPHY_REG2_ON ((0x0 << 0)) #define DRAMC_CH1_TOP5_DDRPHY_REG0_OFF ((0x1 << 8) | \ (0x1 << 9) | \ (0x1 << 10) | \ (0x1 << 11) | \ (0x1 << 12) | \ (0x1 << 13) | \ (0x1 << 14) | \ (0x1 << 15) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 19)) #define DRAMC_CH1_TOP5_DDRPHY_REG1_OFF ((0x1 << 6) | \ (0x1 << 7) | \ (0x0 << 26)) #define DRAMC_CH1_TOP5_DDRPHY_REG2_OFF ((0x1 << 0)) static void dramc_ch1_top5_rg_mem_dcm_idle_fsel_set(unsigned int val) { reg_write(DRAMC_CH1_TOP5_MISC_CG_CTRL2, (reg_read(DRAMC_CH1_TOP5_MISC_CG_CTRL2) & ~(0x1f << 21)) | (val & 0x1f) << 21); } bool dcm_dramc_ch1_top5_ddrphy_is_on(void) { bool ret = true; ret &= ((reg_read(DRAMC_CH1_TOP5_MISC_CG_CTRL0) & DRAMC_CH1_TOP5_DDRPHY_REG0_MASK) == (unsigned int) DRAMC_CH1_TOP5_DDRPHY_REG0_ON); ret &= ((reg_read(DRAMC_CH1_TOP5_MISC_CG_CTRL2) & DRAMC_CH1_TOP5_DDRPHY_REG1_MASK) == (unsigned int) DRAMC_CH1_TOP5_DDRPHY_REG1_ON); ret &= ((reg_read(DRAMC_CH1_TOP5_MISC_CTRL2) & DRAMC_CH1_TOP5_DDRPHY_REG2_MASK) == (unsigned int) DRAMC_CH1_TOP5_DDRPHY_REG2_ON); return ret; } void dcm_dramc_ch1_top5_ddrphy(int on) { if (on) { /* TINFO = "Turn ON DCM 'dramc_ch1_top5_ddrphy'" */ dramc_ch1_top5_rg_mem_dcm_idle_fsel_set(0x8); reg_write(DRAMC_CH1_TOP5_MISC_CG_CTRL0, (reg_read(DRAMC_CH1_TOP5_MISC_CG_CTRL0) & ~DRAMC_CH1_TOP5_DDRPHY_REG0_MASK) | DRAMC_CH1_TOP5_DDRPHY_REG0_ON); reg_write(DRAMC_CH1_TOP5_MISC_CG_CTRL2, (reg_read(DRAMC_CH1_TOP5_MISC_CG_CTRL2) & ~DRAMC_CH1_TOP5_DDRPHY_REG1_MASK) | DRAMC_CH1_TOP5_DDRPHY_REG1_ON); reg_write(DRAMC_CH1_TOP5_MISC_CTRL2, (reg_read(DRAMC_CH1_TOP5_MISC_CTRL2) & ~DRAMC_CH1_TOP5_DDRPHY_REG2_MASK) | DRAMC_CH1_TOP5_DDRPHY_REG2_ON); } else { /* TINFO = "Turn OFF DCM 'dramc_ch1_top5_ddrphy'" */ dramc_ch1_top5_rg_mem_dcm_idle_fsel_set(0x0); reg_write(DRAMC_CH1_TOP5_MISC_CG_CTRL0, (reg_read(DRAMC_CH1_TOP5_MISC_CG_CTRL0) & ~DRAMC_CH1_TOP5_DDRPHY_REG0_MASK) | DRAMC_CH1_TOP5_DDRPHY_REG0_OFF); reg_write(DRAMC_CH1_TOP5_MISC_CG_CTRL2, (reg_read(DRAMC_CH1_TOP5_MISC_CG_CTRL2) & ~DRAMC_CH1_TOP5_DDRPHY_REG1_MASK) | DRAMC_CH1_TOP5_DDRPHY_REG1_OFF); reg_write(DRAMC_CH1_TOP5_MISC_CTRL2, (reg_read(DRAMC_CH1_TOP5_MISC_CTRL2) & ~DRAMC_CH1_TOP5_DDRPHY_REG2_MASK) | DRAMC_CH1_TOP5_DDRPHY_REG2_OFF); } } #define VPU_IOMMU_VPU_MMU_DCM_CFG_REG0_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3) | \ (0x1 << 4) | \ (0x1 << 5) | \ (0x1 << 6) | \ (0x1 << 7) | \ (0x1 << 8) | \ (0x1 << 9) | \ (0x1 << 10) | \ (0x1 << 11) | \ (0x1 << 12) | \ (0x1 << 13) | \ (0x1 << 14) | \ (0x1 << 15) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 18) | \ (0x1 << 19) | \ (0x1 << 20) | \ (0x1 << 21) | \ (0x1 << 22)) #define VPU_IOMMU_VPU_MMU_DCM_CFG_REG0_ON ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 2) | \ (0x0 << 3) | \ (0x0 << 4) | \ (0x0 << 5) | \ (0x0 << 6) | \ (0x0 << 7) | \ (0x0 << 8) | \ (0x0 << 9) | \ (0x0 << 10) | \ (0x0 << 11) | \ (0x0 << 12) | \ (0x0 << 13) | \ (0x0 << 14) | \ (0x0 << 15) | \ (0x0 << 16) | \ (0x0 << 17) | \ (0x0 << 18) | \ (0x0 << 19) | \ (0x0 << 20) | \ (0x0 << 21) | \ (0x0 << 22)) #define VPU_IOMMU_VPU_MMU_DCM_CFG_REG0_OFF ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3) | \ (0x1 << 4) | \ (0x1 << 5) | \ (0x1 << 6) | \ (0x1 << 7) | \ (0x1 << 8) | \ (0x1 << 9) | \ (0x1 << 10) | \ (0x1 << 11) | \ (0x1 << 12) | \ (0x1 << 13) | \ (0x1 << 14) | \ (0x1 << 15) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 18) | \ (0x1 << 19) | \ (0x1 << 20) | \ (0x1 << 21) | \ (0x1 << 22)) bool dcm_vpu_iommu_vpu_mmu_dcm_cfg_is_on(void) { bool ret = true; ret &= ((reg_read(VPU_MMU_DCM_DIS) & VPU_IOMMU_VPU_MMU_DCM_CFG_REG0_MASK) == (unsigned int) VPU_IOMMU_VPU_MMU_DCM_CFG_REG0_ON); return ret; } void dcm_vpu_iommu_vpu_mmu_dcm_cfg(int on) { if (on) { /* TINFO = "Turn ON DCM 'vpu_iommu_vpu_mmu_dcm_cfg'" */ reg_write(VPU_MMU_DCM_DIS, (reg_read(VPU_MMU_DCM_DIS) & ~VPU_IOMMU_VPU_MMU_DCM_CFG_REG0_MASK) | VPU_IOMMU_VPU_MMU_DCM_CFG_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'vpu_iommu_vpu_mmu_dcm_cfg'" */ reg_write(VPU_MMU_DCM_DIS, (reg_read(VPU_MMU_DCM_DIS) & ~VPU_IOMMU_VPU_MMU_DCM_CFG_REG0_MASK) | VPU_IOMMU_VPU_MMU_DCM_CFG_REG0_OFF); } } #define SSPM_SSPM_DCM_REG0_MASK ((0x1 << 8)) #define SSPM_SSPM_DCM_REG1_MASK ((0x1fffff << 0)) #define SSPM_SSPM_DCM_REG0_ON ((0x1 << 8)) #define SSPM_SSPM_DCM_REG1_ON ((0x1fbfff << 0)) #define SSPM_SSPM_DCM_REG0_OFF ((0x0 << 8)) #define SSPM_SSPM_DCM_REG1_OFF ((0x0 << 0)) bool dcm_sspm_sspm_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(SSPM_MCLK_DIV) & SSPM_SSPM_DCM_REG0_MASK) == (unsigned int) SSPM_SSPM_DCM_REG0_ON); ret &= ((reg_read(SSPM_DCM_CTRL) & SSPM_SSPM_DCM_REG1_MASK) == (unsigned int) SSPM_SSPM_DCM_REG1_ON); return ret; } void dcm_sspm_sspm_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'sspm_sspm_dcm'" */ reg_write(SSPM_MCLK_DIV, (reg_read(SSPM_MCLK_DIV) & ~SSPM_SSPM_DCM_REG0_MASK) | SSPM_SSPM_DCM_REG0_ON); reg_write(SSPM_DCM_CTRL, (reg_read(SSPM_DCM_CTRL) & ~SSPM_SSPM_DCM_REG1_MASK) | SSPM_SSPM_DCM_REG1_ON); } else { /* TINFO = "Turn OFF DCM 'sspm_sspm_dcm'" */ reg_write(SSPM_MCLK_DIV, (reg_read(SSPM_MCLK_DIV) & ~SSPM_SSPM_DCM_REG0_MASK) | SSPM_SSPM_DCM_REG0_OFF); reg_write(SSPM_DCM_CTRL, (reg_read(SSPM_DCM_CTRL) & ~SSPM_SSPM_DCM_REG1_MASK) | SSPM_SSPM_DCM_REG1_OFF); } } #define AUDIO_AUD_MAS_AHB_CK_DCM_REG0_MASK ((0x1 << 29) | \ (0x1 << 30)) #define AUDIO_AUD_MAS_AHB_CK_DCM_REG0_ON ((0x1 << 29) | \ (0x1 << 30)) #define AUDIO_AUD_MAS_AHB_CK_DCM_REG0_OFF ((0x0 << 29) | \ (0x0 << 30)) bool dcm_audio_aud_mas_ahb_ck_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(AUDIO_TOP_CON0) & AUDIO_AUD_MAS_AHB_CK_DCM_REG0_MASK) == (unsigned int) AUDIO_AUD_MAS_AHB_CK_DCM_REG0_ON); return ret; } void dcm_audio_aud_mas_ahb_ck_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'audio_aud_mas_ahb_ck_dcm'" */ reg_write(AUDIO_TOP_CON0, (reg_read(AUDIO_TOP_CON0) & ~AUDIO_AUD_MAS_AHB_CK_DCM_REG0_MASK) | AUDIO_AUD_MAS_AHB_CK_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'audio_aud_mas_ahb_ck_dcm'" */ reg_write(AUDIO_TOP_CON0, (reg_read(AUDIO_TOP_CON0) & ~AUDIO_AUD_MAS_AHB_CK_DCM_REG0_MASK) | AUDIO_AUD_MAS_AHB_CK_DCM_REG0_OFF); } } #define MSDC1_DCMEN_DCM_REG0_MASK ((0x1 << 21)) #define MSDC1_DCMEN_DCM_REG0_ON ((0x0 << 21)) #define MSDC1_DCMEN_DCM_REG0_OFF ((0x1 << 21)) bool dcm_msdc1_dcmen_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_DCMEN_DCM_REG0_MASK) == (unsigned int) MSDC1_DCMEN_DCM_REG0_ON); return ret; } void dcm_msdc1_dcmen_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_dcmen_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_DCMEN_DCM_REG0_MASK) | MSDC1_DCMEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_dcmen_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_DCMEN_DCM_REG0_MASK) | MSDC1_DCMEN_DCM_REG0_OFF); } } #define MSDC1_HGDMACKEN_DCM_REG0_MASK ((0x1 << 23)) #define MSDC1_HGDMACKEN_DCM_REG0_ON ((0x0 << 23)) #define MSDC1_HGDMACKEN_DCM_REG0_OFF ((0x1 << 23)) bool dcm_msdc1_hgdmacken_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_HGDMACKEN_DCM_REG0_MASK) == (unsigned int) MSDC1_HGDMACKEN_DCM_REG0_ON); return ret; } void dcm_msdc1_hgdmacken_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_hgdmacken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_HGDMACKEN_DCM_REG0_MASK) | MSDC1_HGDMACKEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_hgdmacken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_HGDMACKEN_DCM_REG0_MASK) | MSDC1_HGDMACKEN_DCM_REG0_OFF); } } #define MSDC1_MACMDCKEN_DCM_REG0_MASK ((0x1 << 27)) #define MSDC1_MACMDCKEN_DCM_REG0_ON ((0x0 << 27)) #define MSDC1_MACMDCKEN_DCM_REG0_OFF ((0x1 << 27)) bool dcm_msdc1_macmdcken_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_MACMDCKEN_DCM_REG0_MASK) == (unsigned int) MSDC1_MACMDCKEN_DCM_REG0_ON); return ret; } void dcm_msdc1_macmdcken_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_macmdcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MACMDCKEN_DCM_REG0_MASK) | MSDC1_MACMDCKEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_macmdcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MACMDCKEN_DCM_REG0_MASK) | MSDC1_MACMDCKEN_DCM_REG0_OFF); } } #define MSDC1_MPSCCKEN_DCM_REG0_MASK ((0x1 << 25)) #define MSDC1_MPSCCKEN_DCM_REG0_ON ((0x0 << 25)) #define MSDC1_MPSCCKEN_DCM_REG0_OFF ((0x1 << 25)) bool dcm_msdc1_mpsccken_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_MPSCCKEN_DCM_REG0_MASK) == (unsigned int) MSDC1_MPSCCKEN_DCM_REG0_ON); return ret; } void dcm_msdc1_mpsccken_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_mpsccken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MPSCCKEN_DCM_REG0_MASK) | MSDC1_MPSCCKEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_mpsccken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MPSCCKEN_DCM_REG0_MASK) | MSDC1_MPSCCKEN_DCM_REG0_OFF); } } #define MSDC1_MRCTLCKEN_DCM_REG0_MASK ((0x1 << 30)) #define MSDC1_MRCTLCKEN_DCM_REG0_ON ((0x0 << 30)) #define MSDC1_MRCTLCKEN_DCM_REG0_OFF ((0x1 << 30)) bool dcm_msdc1_mrctlcken_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_MRCTLCKEN_DCM_REG0_MASK) == (unsigned int) MSDC1_MRCTLCKEN_DCM_REG0_ON); return ret; } void dcm_msdc1_mrctlcken_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_mrctlcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MRCTLCKEN_DCM_REG0_MASK) | MSDC1_MRCTLCKEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_mrctlcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MRCTLCKEN_DCM_REG0_MASK) | MSDC1_MRCTLCKEN_DCM_REG0_OFF); } } #define MSDC1_MSDCKEN_DCM_REG0_MASK ((0x1 << 28)) #define MSDC1_MSDCKEN_DCM_REG0_ON ((0x0 << 28)) #define MSDC1_MSDCKEN_DCM_REG0_OFF ((0x1 << 28)) bool dcm_msdc1_msdcken_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_MSDCKEN_DCM_REG0_MASK) == (unsigned int) MSDC1_MSDCKEN_DCM_REG0_ON); return ret; } void dcm_msdc1_msdcken_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_msdcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MSDCKEN_DCM_REG0_MASK) | MSDC1_MSDCKEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_msdcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MSDCKEN_DCM_REG0_MASK) | MSDC1_MSDCKEN_DCM_REG0_OFF); } } #define MSDC1_MSHBFCKEN_DCM_REG0_MASK ((0x1 << 31)) #define MSDC1_MSHBFCKEN_DCM_REG0_ON ((0x0 << 31)) #define MSDC1_MSHBFCKEN_DCM_REG0_OFF ((0x1 << 31)) bool dcm_msdc1_mshbfcken_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_MSHBFCKEN_DCM_REG0_MASK) == (unsigned int) MSDC1_MSHBFCKEN_DCM_REG0_ON); return ret; } void dcm_msdc1_mshbfcken_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_mshbfcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MSHBFCKEN_DCM_REG0_MASK) | MSDC1_MSHBFCKEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_mshbfcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MSHBFCKEN_DCM_REG0_MASK) | MSDC1_MSHBFCKEN_DCM_REG0_OFF); } } #define MSDC1_MSPCCKEN_DCM_REG0_MASK ((0x1 << 24)) #define MSDC1_MSPCCKEN_DCM_REG0_ON ((0x0 << 24)) #define MSDC1_MSPCCKEN_DCM_REG0_OFF ((0x1 << 24)) bool dcm_msdc1_mspccken_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_MSPCCKEN_DCM_REG0_MASK) == (unsigned int) MSDC1_MSPCCKEN_DCM_REG0_ON); return ret; } void dcm_msdc1_mspccken_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_mspccken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MSPCCKEN_DCM_REG0_MASK) | MSDC1_MSPCCKEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_mspccken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MSPCCKEN_DCM_REG0_MASK) | MSDC1_MSPCCKEN_DCM_REG0_OFF); } } #define MSDC1_MVOLDTCKEN_DCM_REG0_MASK ((0x1 << 26)) #define MSDC1_MVOLDTCKEN_DCM_REG0_ON ((0x0 << 26)) #define MSDC1_MVOLDTCKEN_DCM_REG0_OFF ((0x1 << 26)) bool dcm_msdc1_mvoldtcken_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_MVOLDTCKEN_DCM_REG0_MASK) == (unsigned int) MSDC1_MVOLDTCKEN_DCM_REG0_ON); return ret; } void dcm_msdc1_mvoldtcken_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_mvoldtcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MVOLDTCKEN_DCM_REG0_MASK) | MSDC1_MVOLDTCKEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_mvoldtcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MVOLDTCKEN_DCM_REG0_MASK) | MSDC1_MVOLDTCKEN_DCM_REG0_OFF); } } #define MSDC1_MWCTLCKEN_DCM_REG0_MASK ((0x1 << 29)) #define MSDC1_MWCTLCKEN_DCM_REG0_ON ((0x0 << 29)) #define MSDC1_MWCTLCKEN_DCM_REG0_OFF ((0x1 << 29)) bool dcm_msdc1_mwctlcken_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MSDC1_PATCH_BIT1) & MSDC1_MWCTLCKEN_DCM_REG0_MASK) == (unsigned int) MSDC1_MWCTLCKEN_DCM_REG0_ON); return ret; } void dcm_msdc1_mwctlcken_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'msdc1_mwctlcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MWCTLCKEN_DCM_REG0_MASK) | MSDC1_MWCTLCKEN_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'msdc1_mwctlcken_dcm'" */ reg_write(MSDC1_PATCH_BIT1, (reg_read(MSDC1_PATCH_BIT1) & ~MSDC1_MWCTLCKEN_DCM_REG0_MASK) | MSDC1_MWCTLCKEN_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_ADB_DCM_REG0_MASK ((0x1 << 16) | \ (0x1 << 17)) #define MP_CPUSYS_TOP_ADB_DCM_REG1_MASK ((0x1 << 16) | \ (0x1 << 17)) #define MP_CPUSYS_TOP_ADB_DCM_REG2_MASK ((0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 18) | \ (0x1 << 19) | \ (0x1 << 20) | \ (0x1 << 21) | \ (0x1 << 22)) #define MP_CPUSYS_TOP_ADB_DCM_REG3_MASK ((0x1 << 3) | \ (0x1 << 4) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 18) | \ (0x1 << 19) | \ (0x1 << 20)) #define MP_CPUSYS_TOP_ADB_DCM_REG0_ON ((0x1 << 16) | \ (0x1 << 17)) #define MP_CPUSYS_TOP_ADB_DCM_REG1_ON ((0x1 << 16) | \ (0x1 << 17)) #define MP_CPUSYS_TOP_ADB_DCM_REG2_ON ((0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 18) | \ (0x1 << 19) | \ (0x1 << 20) | \ (0x1 << 21) | \ (0x1 << 22)) #define MP_CPUSYS_TOP_ADB_DCM_REG3_ON ((0x1 << 3) | \ (0x1 << 4) | \ (0x1 << 16) | \ (0x1 << 17) | \ (0x1 << 18) | \ (0x1 << 19) | \ (0x1 << 20)) #define MP_CPUSYS_TOP_ADB_DCM_REG0_OFF ((0x0 << 16) | \ (0x0 << 17)) #define MP_CPUSYS_TOP_ADB_DCM_REG1_OFF ((0x0 << 16) | \ (0x0 << 17)) #define MP_CPUSYS_TOP_ADB_DCM_REG2_OFF ((0x0 << 16) | \ (0x0 << 17) | \ (0x0 << 18) | \ (0x0 << 19) | \ (0x0 << 20) | \ (0x0 << 21) | \ (0x0 << 22)) #define MP_CPUSYS_TOP_ADB_DCM_REG3_OFF ((0x0 << 3) | \ (0x0 << 4) | \ (0x0 << 16) | \ (0x0 << 17) | \ (0x0 << 18) | \ (0x0 << 19) | \ (0x0 << 20)) bool dcm_mp_cpusys_top_adb_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MP_ADB_DCM_CFG0) & MP_CPUSYS_TOP_ADB_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_ADB_DCM_REG0_ON); ret &= ((reg_read(MP_ADB_DCM_CFG2) & MP_CPUSYS_TOP_ADB_DCM_REG1_MASK) == (unsigned int) MP_CPUSYS_TOP_ADB_DCM_REG1_ON); ret &= ((reg_read(MP_ADB_DCM_CFG4) & MP_CPUSYS_TOP_ADB_DCM_REG2_MASK) == (unsigned int) MP_CPUSYS_TOP_ADB_DCM_REG2_ON); ret &= ((reg_read(MCUSYS_DCM_CFG0) & MP_CPUSYS_TOP_ADB_DCM_REG3_MASK) == (unsigned int) MP_CPUSYS_TOP_ADB_DCM_REG3_ON); return ret; } void dcm_mp_cpusys_top_adb_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_adb_dcm'" */ reg_write(MP_ADB_DCM_CFG0, (reg_read(MP_ADB_DCM_CFG0) & ~MP_CPUSYS_TOP_ADB_DCM_REG0_MASK) | MP_CPUSYS_TOP_ADB_DCM_REG0_ON); reg_write(MP_ADB_DCM_CFG2, (reg_read(MP_ADB_DCM_CFG2) & ~MP_CPUSYS_TOP_ADB_DCM_REG1_MASK) | MP_CPUSYS_TOP_ADB_DCM_REG1_ON); reg_write(MP_ADB_DCM_CFG4, (reg_read(MP_ADB_DCM_CFG4) & ~MP_CPUSYS_TOP_ADB_DCM_REG2_MASK) | MP_CPUSYS_TOP_ADB_DCM_REG2_ON); reg_write(MCUSYS_DCM_CFG0, (reg_read(MCUSYS_DCM_CFG0) & ~MP_CPUSYS_TOP_ADB_DCM_REG3_MASK) | MP_CPUSYS_TOP_ADB_DCM_REG3_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_adb_dcm'" */ reg_write(MP_ADB_DCM_CFG0, (reg_read(MP_ADB_DCM_CFG0) & ~MP_CPUSYS_TOP_ADB_DCM_REG0_MASK) | MP_CPUSYS_TOP_ADB_DCM_REG0_OFF); reg_write(MP_ADB_DCM_CFG2, (reg_read(MP_ADB_DCM_CFG2) & ~MP_CPUSYS_TOP_ADB_DCM_REG1_MASK) | MP_CPUSYS_TOP_ADB_DCM_REG1_OFF); reg_write(MP_ADB_DCM_CFG4, (reg_read(MP_ADB_DCM_CFG4) & ~MP_CPUSYS_TOP_ADB_DCM_REG2_MASK) | MP_CPUSYS_TOP_ADB_DCM_REG2_OFF); reg_write(MCUSYS_DCM_CFG0, (reg_read(MCUSYS_DCM_CFG0) & ~MP_CPUSYS_TOP_ADB_DCM_REG3_MASK) | MP_CPUSYS_TOP_ADB_DCM_REG3_OFF); } } #define MP_CPUSYS_TOP_APB_DCM_REG0_MASK ((0x1 << 5)) #define MP_CPUSYS_TOP_APB_DCM_REG1_MASK ((0x1 << 8)) #define MP_CPUSYS_TOP_APB_DCM_REG2_MASK ((0x1 << 16)) #define MP_CPUSYS_TOP_APB_DCM_REG0_ON ((0x1 << 5)) #define MP_CPUSYS_TOP_APB_DCM_REG1_ON ((0x1 << 8)) #define MP_CPUSYS_TOP_APB_DCM_REG2_ON ((0x1 << 16)) #define MP_CPUSYS_TOP_APB_DCM_REG0_OFF ((0x0 << 5)) #define MP_CPUSYS_TOP_APB_DCM_REG1_OFF ((0x0 << 8)) #define MP_CPUSYS_TOP_APB_DCM_REG2_OFF ((0x0 << 16)) bool dcm_mp_cpusys_top_apb_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MP_MISC_DCM_CFG0) & MP_CPUSYS_TOP_APB_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_APB_DCM_REG0_ON); ret &= ((reg_read(MCUSYS_DCM_CFG0) & MP_CPUSYS_TOP_APB_DCM_REG1_MASK) == (unsigned int) MP_CPUSYS_TOP_APB_DCM_REG1_ON); ret &= ((reg_read(MP0_DCM_CFG0) & MP_CPUSYS_TOP_APB_DCM_REG2_MASK) == (unsigned int) MP_CPUSYS_TOP_APB_DCM_REG2_ON); return ret; } void dcm_mp_cpusys_top_apb_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_apb_dcm'" */ reg_write(MP_MISC_DCM_CFG0, (reg_read(MP_MISC_DCM_CFG0) & ~MP_CPUSYS_TOP_APB_DCM_REG0_MASK) | MP_CPUSYS_TOP_APB_DCM_REG0_ON); reg_write(MCUSYS_DCM_CFG0, (reg_read(MCUSYS_DCM_CFG0) & ~MP_CPUSYS_TOP_APB_DCM_REG1_MASK) | MP_CPUSYS_TOP_APB_DCM_REG1_ON); reg_write(MP0_DCM_CFG0, (reg_read(MP0_DCM_CFG0) & ~MP_CPUSYS_TOP_APB_DCM_REG2_MASK) | MP_CPUSYS_TOP_APB_DCM_REG2_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_apb_dcm'" */ reg_write(MP_MISC_DCM_CFG0, (reg_read(MP_MISC_DCM_CFG0) & ~MP_CPUSYS_TOP_APB_DCM_REG0_MASK) | MP_CPUSYS_TOP_APB_DCM_REG0_OFF); reg_write(MCUSYS_DCM_CFG0, (reg_read(MCUSYS_DCM_CFG0) & ~MP_CPUSYS_TOP_APB_DCM_REG1_MASK) | MP_CPUSYS_TOP_APB_DCM_REG1_OFF); reg_write(MP0_DCM_CFG0, (reg_read(MP0_DCM_CFG0) & ~MP_CPUSYS_TOP_APB_DCM_REG2_MASK) | MP_CPUSYS_TOP_APB_DCM_REG2_OFF); } } #define MP_CPUSYS_TOP_BUS_PLL_DIV_DCM_REG0_MASK ((0x1 << 11) | \ (0x1 << 24) | \ (0x1 << 25)) #define MP_CPUSYS_TOP_BUS_PLL_DIV_DCM_REG0_ON ((0x1 << 11) | \ (0x1 << 24) | \ (0x1 << 25)) #define MP_CPUSYS_TOP_BUS_PLL_DIV_DCM_REG0_OFF ((0x0 << 11) | \ (0x0 << 24) | \ (0x0 << 25)) bool dcm_mp_cpusys_top_bus_pll_div_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(BUS_PLLDIV_CFG) & MP_CPUSYS_TOP_BUS_PLL_DIV_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_BUS_PLL_DIV_DCM_REG0_ON); return ret; } void dcm_mp_cpusys_top_bus_pll_div_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_bus_pll_div_dcm'" */ reg_write(BUS_PLLDIV_CFG, (reg_read(BUS_PLLDIV_CFG) & ~MP_CPUSYS_TOP_BUS_PLL_DIV_DCM_REG0_MASK) | MP_CPUSYS_TOP_BUS_PLL_DIV_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_bus_pll_div_dcm'" */ reg_write(BUS_PLLDIV_CFG, (reg_read(BUS_PLLDIV_CFG) & ~MP_CPUSYS_TOP_BUS_PLL_DIV_DCM_REG0_MASK) | MP_CPUSYS_TOP_BUS_PLL_DIV_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_CORE_STALL_DCM_REG0_MASK ((0x1 << 0)) #define MP_CPUSYS_TOP_CORE_STALL_DCM_REG0_ON ((0x1 << 0)) #define MP_CPUSYS_TOP_CORE_STALL_DCM_REG0_OFF ((0x0 << 0)) bool dcm_mp_cpusys_top_core_stall_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MP0_DCM_CFG7) & MP_CPUSYS_TOP_CORE_STALL_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_CORE_STALL_DCM_REG0_ON); return ret; } void dcm_mp_cpusys_top_core_stall_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_core_stall_dcm'" */ reg_write(MP0_DCM_CFG7, (reg_read(MP0_DCM_CFG7) & ~MP_CPUSYS_TOP_CORE_STALL_DCM_REG0_MASK) | MP_CPUSYS_TOP_CORE_STALL_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_core_stall_dcm'" */ reg_write(MP0_DCM_CFG7, (reg_read(MP0_DCM_CFG7) & ~MP_CPUSYS_TOP_CORE_STALL_DCM_REG0_MASK) | MP_CPUSYS_TOP_CORE_STALL_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_CPUBIU_DBG_CG_REG0_MASK ((0x1 << 0)) #define MP_CPUSYS_TOP_CPUBIU_DBG_CG_REG0_ON ((0x0 << 0)) #define MP_CPUSYS_TOP_CPUBIU_DBG_CG_REG0_OFF ((0x1 << 0)) bool dcm_mp_cpusys_top_cpubiu_dbg_cg_is_on(void) { bool ret = true; ret &= ((reg_read(MCSI_CFG2) & MP_CPUSYS_TOP_CPUBIU_DBG_CG_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_CPUBIU_DBG_CG_REG0_ON); return ret; } void dcm_mp_cpusys_top_cpubiu_dbg_cg(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_cpubiu_dbg_cg'" */ reg_write(MCSI_CFG2, (reg_read(MCSI_CFG2) & ~MP_CPUSYS_TOP_CPUBIU_DBG_CG_REG0_MASK) | MP_CPUSYS_TOP_CPUBIU_DBG_CG_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_cpubiu_dbg_cg'" */ reg_write(MCSI_CFG2, (reg_read(MCSI_CFG2) & ~MP_CPUSYS_TOP_CPUBIU_DBG_CG_REG0_MASK) | MP_CPUSYS_TOP_CPUBIU_DBG_CG_REG0_OFF); } } #define MP_CPUSYS_TOP_CPUBIU_DCM_REG0_MASK ((0xffff << 0)) #define MP_CPUSYS_TOP_CPUBIU_DCM_REG0_ON ((0xffff << 0)) #define MP_CPUSYS_TOP_CPUBIU_DCM_REG0_OFF ((0x0 << 0)) bool dcm_mp_cpusys_top_cpubiu_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MCSI_DCM0) & MP_CPUSYS_TOP_CPUBIU_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_CPUBIU_DCM_REG0_ON); return ret; } void dcm_mp_cpusys_top_cpubiu_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_cpubiu_dcm'" */ reg_write(MCSI_DCM0, (reg_read(MCSI_DCM0) & ~MP_CPUSYS_TOP_CPUBIU_DCM_REG0_MASK) | MP_CPUSYS_TOP_CPUBIU_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_cpubiu_dcm'" */ reg_write(MCSI_DCM0, (reg_read(MCSI_DCM0) & ~MP_CPUSYS_TOP_CPUBIU_DCM_REG0_MASK) | MP_CPUSYS_TOP_CPUBIU_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_CPU_PLL_DIV_0_DCM_REG0_MASK ((0x1 << 11) | \ (0x1 << 24) | \ (0x1 << 25)) #define MP_CPUSYS_TOP_CPU_PLL_DIV_0_DCM_REG0_ON ((0x1 << 11) | \ (0x1 << 24) | \ (0x1 << 25)) #define MP_CPUSYS_TOP_CPU_PLL_DIV_0_DCM_REG0_OFF ((0x0 << 11) | \ (0x0 << 24) | \ (0x0 << 25)) bool dcm_mp_cpusys_top_cpu_pll_div_0_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(CPU_PLLDIV_CFG0) & MP_CPUSYS_TOP_CPU_PLL_DIV_0_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_CPU_PLL_DIV_0_DCM_REG0_ON); return ret; } void dcm_mp_cpusys_top_cpu_pll_div_0_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_cpu_pll_div_0_dcm'" */ reg_write(CPU_PLLDIV_CFG0, (reg_read(CPU_PLLDIV_CFG0) & ~MP_CPUSYS_TOP_CPU_PLL_DIV_0_DCM_REG0_MASK) | MP_CPUSYS_TOP_CPU_PLL_DIV_0_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_cpu_pll_div_0_dcm'" */ reg_write(CPU_PLLDIV_CFG0, (reg_read(CPU_PLLDIV_CFG0) & ~MP_CPUSYS_TOP_CPU_PLL_DIV_0_DCM_REG0_MASK) | MP_CPUSYS_TOP_CPU_PLL_DIV_0_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_CPU_PLL_DIV_1_DCM_REG0_MASK ((0x1 << 11) | \ (0x1 << 24) | \ (0x1 << 25)) #define MP_CPUSYS_TOP_CPU_PLL_DIV_1_DCM_REG0_ON ((0x1 << 11) | \ (0x1 << 24) | \ (0x1 << 25)) #define MP_CPUSYS_TOP_CPU_PLL_DIV_1_DCM_REG0_OFF ((0x0 << 11) | \ (0x0 << 24) | \ (0x0 << 25)) bool dcm_mp_cpusys_top_cpu_pll_div_1_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(CPU_PLLDIV_CFG1) & MP_CPUSYS_TOP_CPU_PLL_DIV_1_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_CPU_PLL_DIV_1_DCM_REG0_ON); return ret; } void dcm_mp_cpusys_top_cpu_pll_div_1_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_cpu_pll_div_1_dcm'" */ reg_write(CPU_PLLDIV_CFG1, (reg_read(CPU_PLLDIV_CFG1) & ~MP_CPUSYS_TOP_CPU_PLL_DIV_1_DCM_REG0_MASK) | MP_CPUSYS_TOP_CPU_PLL_DIV_1_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_cpu_pll_div_1_dcm'" */ reg_write(CPU_PLLDIV_CFG1, (reg_read(CPU_PLLDIV_CFG1) & ~MP_CPUSYS_TOP_CPU_PLL_DIV_1_DCM_REG0_MASK) | MP_CPUSYS_TOP_CPU_PLL_DIV_1_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_CPU_PLL_DIV_2_DCM_REG0_MASK ((0x1 << 11) | \ (0x1 << 24) | \ (0x1 << 25)) #define MP_CPUSYS_TOP_CPU_PLL_DIV_2_DCM_REG0_ON ((0x1 << 11) | \ (0x1 << 24) | \ (0x1 << 25)) #define MP_CPUSYS_TOP_CPU_PLL_DIV_2_DCM_REG0_OFF ((0x0 << 11) | \ (0x0 << 24) | \ (0x0 << 25)) bool dcm_mp_cpusys_top_cpu_pll_div_2_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(CPU_PLLDIV_CFG2) & MP_CPUSYS_TOP_CPU_PLL_DIV_2_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_CPU_PLL_DIV_2_DCM_REG0_ON); return ret; } void dcm_mp_cpusys_top_cpu_pll_div_2_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_cpu_pll_div_2_dcm'" */ reg_write(CPU_PLLDIV_CFG2, (reg_read(CPU_PLLDIV_CFG2) & ~MP_CPUSYS_TOP_CPU_PLL_DIV_2_DCM_REG0_MASK) | MP_CPUSYS_TOP_CPU_PLL_DIV_2_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_cpu_pll_div_2_dcm'" */ reg_write(CPU_PLLDIV_CFG2, (reg_read(CPU_PLLDIV_CFG2) & ~MP_CPUSYS_TOP_CPU_PLL_DIV_2_DCM_REG0_MASK) | MP_CPUSYS_TOP_CPU_PLL_DIV_2_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_FCM_STALL_DCM_REG0_MASK ((0x1 << 4)) #define MP_CPUSYS_TOP_FCM_STALL_DCM_REG0_ON ((0x1 << 4)) #define MP_CPUSYS_TOP_FCM_STALL_DCM_REG0_OFF ((0x0 << 4)) bool dcm_mp_cpusys_top_fcm_stall_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MP0_DCM_CFG7) & MP_CPUSYS_TOP_FCM_STALL_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_FCM_STALL_DCM_REG0_ON); return ret; } void dcm_mp_cpusys_top_fcm_stall_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_fcm_stall_dcm'" */ reg_write(MP0_DCM_CFG7, (reg_read(MP0_DCM_CFG7) & ~MP_CPUSYS_TOP_FCM_STALL_DCM_REG0_MASK) | MP_CPUSYS_TOP_FCM_STALL_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_fcm_stall_dcm'" */ reg_write(MP0_DCM_CFG7, (reg_read(MP0_DCM_CFG7) & ~MP_CPUSYS_TOP_FCM_STALL_DCM_REG0_MASK) | MP_CPUSYS_TOP_FCM_STALL_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_LAST_COR_IDLE_DCM_REG0_MASK ((0x1 << 31)) #define MP_CPUSYS_TOP_LAST_COR_IDLE_DCM_REG0_ON ((0x1 << 31)) #define MP_CPUSYS_TOP_LAST_COR_IDLE_DCM_REG0_OFF ((0x0 << 31)) bool dcm_mp_cpusys_top_last_cor_idle_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(BUS_PLLDIV_CFG) & MP_CPUSYS_TOP_LAST_COR_IDLE_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_LAST_COR_IDLE_DCM_REG0_ON); return ret; } void dcm_mp_cpusys_top_last_cor_idle_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_last_cor_idle_dcm'" */ reg_write(BUS_PLLDIV_CFG, (reg_read(BUS_PLLDIV_CFG) & ~MP_CPUSYS_TOP_LAST_COR_IDLE_DCM_REG0_MASK) | MP_CPUSYS_TOP_LAST_COR_IDLE_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_last_cor_idle_dcm'" */ reg_write(BUS_PLLDIV_CFG, (reg_read(BUS_PLLDIV_CFG) & ~MP_CPUSYS_TOP_LAST_COR_IDLE_DCM_REG0_MASK) | MP_CPUSYS_TOP_LAST_COR_IDLE_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_MISC_DCM_REG0_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 4)) #define MP_CPUSYS_TOP_MISC_DCM_REG0_ON ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 4)) #define MP_CPUSYS_TOP_MISC_DCM_REG0_OFF ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 2) | \ (0x0 << 4)) bool dcm_mp_cpusys_top_misc_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(MP_MISC_DCM_CFG0) & MP_CPUSYS_TOP_MISC_DCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_MISC_DCM_REG0_ON); return ret; } void dcm_mp_cpusys_top_misc_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_misc_dcm'" */ reg_write(MP_MISC_DCM_CFG0, (reg_read(MP_MISC_DCM_CFG0) & ~MP_CPUSYS_TOP_MISC_DCM_REG0_MASK) | MP_CPUSYS_TOP_MISC_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_misc_dcm'" */ reg_write(MP_MISC_DCM_CFG0, (reg_read(MP_MISC_DCM_CFG0) & ~MP_CPUSYS_TOP_MISC_DCM_REG0_MASK) | MP_CPUSYS_TOP_MISC_DCM_REG0_OFF); } } #define MP_CPUSYS_TOP_MP0_QDCM_REG0_MASK ((0x1 << 3)) #define MP_CPUSYS_TOP_MP0_QDCM_REG1_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3)) #define MP_CPUSYS_TOP_MP0_QDCM_REG0_ON ((0x1 << 3)) #define MP_CPUSYS_TOP_MP0_QDCM_REG1_ON ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3)) #define MP_CPUSYS_TOP_MP0_QDCM_REG0_OFF ((0x0 << 3)) #define MP_CPUSYS_TOP_MP0_QDCM_REG1_OFF ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 2) | \ (0x0 << 3)) bool dcm_mp_cpusys_top_mp0_qdcm_is_on(void) { bool ret = true; ret &= ((reg_read(MP_MISC_DCM_CFG0) & MP_CPUSYS_TOP_MP0_QDCM_REG0_MASK) == (unsigned int) MP_CPUSYS_TOP_MP0_QDCM_REG0_ON); ret &= ((reg_read(MP0_DCM_CFG0) & MP_CPUSYS_TOP_MP0_QDCM_REG1_MASK) == (unsigned int) MP_CPUSYS_TOP_MP0_QDCM_REG1_ON); return ret; } void dcm_mp_cpusys_top_mp0_qdcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'mp_cpusys_top_mp0_qdcm'" */ reg_write(MP_MISC_DCM_CFG0, (reg_read(MP_MISC_DCM_CFG0) & ~MP_CPUSYS_TOP_MP0_QDCM_REG0_MASK) | MP_CPUSYS_TOP_MP0_QDCM_REG0_ON); reg_write(MP0_DCM_CFG0, (reg_read(MP0_DCM_CFG0) & ~MP_CPUSYS_TOP_MP0_QDCM_REG1_MASK) | MP_CPUSYS_TOP_MP0_QDCM_REG1_ON); } else { /* TINFO = "Turn OFF DCM 'mp_cpusys_top_mp0_qdcm'" */ reg_write(MP_MISC_DCM_CFG0, (reg_read(MP_MISC_DCM_CFG0) & ~MP_CPUSYS_TOP_MP0_QDCM_REG0_MASK) | MP_CPUSYS_TOP_MP0_QDCM_REG0_OFF); reg_write(MP0_DCM_CFG0, (reg_read(MP0_DCM_CFG0) & ~MP_CPUSYS_TOP_MP0_QDCM_REG1_MASK) | MP_CPUSYS_TOP_MP0_QDCM_REG1_OFF); } } #define CPCCFG_REG_EMI_WFIFO_REG0_MASK ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3)) #define CPCCFG_REG_EMI_WFIFO_REG0_ON ((0x1 << 0) | \ (0x1 << 1) | \ (0x1 << 2) | \ (0x1 << 3)) #define CPCCFG_REG_EMI_WFIFO_REG0_OFF ((0x0 << 0) | \ (0x0 << 1) | \ (0x0 << 2) | \ (0x0 << 3)) bool dcm_cpccfg_reg_emi_wfifo_is_on(void) { bool ret = true; ret &= ((reg_read(EMI_WFIFO) & CPCCFG_REG_EMI_WFIFO_REG0_MASK) == (unsigned int) CPCCFG_REG_EMI_WFIFO_REG0_ON); return ret; } void dcm_cpccfg_reg_emi_wfifo(int on) { if (on) { /* TINFO = "Turn ON DCM 'cpccfg_reg_emi_wfifo'" */ reg_write(EMI_WFIFO, (reg_read(EMI_WFIFO) & ~CPCCFG_REG_EMI_WFIFO_REG0_MASK) | CPCCFG_REG_EMI_WFIFO_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'cpccfg_reg_emi_wfifo'" */ reg_write(EMI_WFIFO, (reg_read(EMI_WFIFO) & ~CPCCFG_REG_EMI_WFIFO_REG0_MASK) | CPCCFG_REG_EMI_WFIFO_REG0_OFF); } } #define CPCCFG_REG_MP_STALL_DCM_REG0_MASK ((0x1 << 4)) #define CPCCFG_REG_MP_STALL_DCM_REG0_ON ((0x1 << 4)) #define CPCCFG_REG_MP_STALL_DCM_REG0_OFF ((0x0 << 4)) bool dcm_cpccfg_reg_mp_stall_dcm_is_on(void) { bool ret = true; ret &= ((reg_read(SLOW_CK_CFG) & CPCCFG_REG_MP_STALL_DCM_REG0_MASK) == (unsigned int) CPCCFG_REG_MP_STALL_DCM_REG0_ON); return ret; } void dcm_cpccfg_reg_mp_stall_dcm(int on) { if (on) { /* TINFO = "Turn ON DCM 'cpccfg_reg_mp_stall_dcm'" */ reg_write(SLOW_CK_CFG, (reg_read(SLOW_CK_CFG) & ~CPCCFG_REG_MP_STALL_DCM_REG0_MASK) | CPCCFG_REG_MP_STALL_DCM_REG0_ON); } else { /* TINFO = "Turn OFF DCM 'cpccfg_reg_mp_stall_dcm'" */ reg_write(SLOW_CK_CFG, (reg_read(SLOW_CK_CFG) & ~CPCCFG_REG_MP_STALL_DCM_REG0_MASK) | CPCCFG_REG_MP_STALL_DCM_REG0_OFF); } }