/* * Copyright (c) 2021-2022, Stephan Gerhold * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include "msm8916_pm.h" #define CPU_PWR_CTL 0x4 #define APC_PWR_GATE_CTL 0x14 #define CPU_PWR_CTL_CLAMP BIT_32(0) #define CPU_PWR_CTL_CORE_MEM_CLAMP BIT_32(1) #define CPU_PWR_CTL_L1_RST_DIS BIT_32(2) #define CPU_PWR_CTL_CORE_MEM_HS BIT_32(3) #define CPU_PWR_CTL_CORE_RST BIT_32(4) #define CPU_PWR_CTL_COREPOR_RST BIT_32(5) #define CPU_PWR_CTL_GATE_CLK BIT_32(6) #define CPU_PWR_CTL_CORE_PWRD_UP BIT_32(7) #define APC_PWR_GATE_CTL_GHDS_EN BIT_32(0) #define APC_PWR_GATE_CTL_GHDS_CNT(cnt) ((cnt) << 24) #define PWR_CTL_OVERRIDE 0xc #define L2_PWR_CTL 0x14 #define L2_PWR_STATUS 0x18 #define CORE_CBCR 0x58 #define PWR_CTL_OVERRIDE_PRESETDBG BIT_32(22) #define L2_PWR_CTL_L2_ARRAY_HS BIT_32(0) #define L2_PWR_CTL_SCU_ARRAY_HS BIT_32(1) #define L2_PWR_CTL_L2_RST_DIS BIT_32(2) #define L2_PWR_CTL_L2_HS_CLAMP BIT_32(8) #define L2_PWR_CTL_L2_HS_EN BIT_32(9) #define L2_PWR_CTL_L2_HS_RST BIT_32(10) #define L2_PWR_CTL_L2_SLEEP_STATE BIT_32(11) #define L2_PWR_CTL_SYS_RESET BIT_32(12) #define L2_PWR_CTL_L2_RET_SLP BIT_32(13) #define L2_PWR_CTL_SCU_ARRAY_HS_CLAMP BIT_32(14) #define L2_PWR_CTL_L2_ARRAY_HS_CLAMP BIT_32(15) #define L2_PWR_CTL_L2_HS_CNT(cnt) ((cnt) << 16) #define L2_PWR_CTL_PMIC_APC_ON BIT_32(28) #define L2_PWR_STATUS_L2_HS_STS BIT_32(9) #define CORE_CBCR_CLK_ENABLE BIT_32(0) #define CORE_CBCR_HW_CTL BIT_32(1) /* Boot a secondary CPU core for the first time. */ void msm8916_cpu_boot(uintptr_t acs) { uint32_t pwr_ctl; VERBOSE("PSCI: Powering on CPU @ 0x%08lx\n", acs); pwr_ctl = CPU_PWR_CTL_CLAMP | CPU_PWR_CTL_CORE_MEM_CLAMP | CPU_PWR_CTL_CORE_RST | CPU_PWR_CTL_COREPOR_RST; mmio_write_32(acs + CPU_PWR_CTL, pwr_ctl); dsb(); mmio_write_32(acs + APC_PWR_GATE_CTL, APC_PWR_GATE_CTL_GHDS_EN | APC_PWR_GATE_CTL_GHDS_CNT(16)); dsb(); udelay(2); pwr_ctl &= ~CPU_PWR_CTL_CORE_MEM_CLAMP; mmio_write_32(acs + CPU_PWR_CTL, pwr_ctl); dsb(); pwr_ctl |= CPU_PWR_CTL_CORE_MEM_HS; mmio_write_32(acs + CPU_PWR_CTL, pwr_ctl); dsb(); udelay(2); pwr_ctl &= ~CPU_PWR_CTL_CLAMP; mmio_write_32(acs + CPU_PWR_CTL, pwr_ctl); dsb(); udelay(2); pwr_ctl &= ~(CPU_PWR_CTL_CORE_RST | CPU_PWR_CTL_COREPOR_RST); mmio_write_32(acs + CPU_PWR_CTL, pwr_ctl); dsb(); pwr_ctl |= CPU_PWR_CTL_CORE_PWRD_UP; mmio_write_32(acs + CPU_PWR_CTL, pwr_ctl); dsb(); } /* Power on cluster L2 cache for the first time. */ void msm8916_l2_boot(uintptr_t base) { uint32_t pwr_ctl, cbcr, ovr; /* Skip if cluster L2 is already powered on */ if (mmio_read_32(base + L2_PWR_STATUS) & L2_PWR_STATUS_L2_HS_STS) { VERBOSE("PSCI: L2 cache @ 0x%08lx is already powered on\n", base); return; } VERBOSE("PSCI: Powering on L2 cache @ 0x%08lx\n", base); pwr_ctl = L2_PWR_CTL_L2_HS_CLAMP | L2_PWR_CTL_L2_HS_EN | L2_PWR_CTL_L2_HS_RST | L2_PWR_CTL_SYS_RESET | L2_PWR_CTL_SCU_ARRAY_HS_CLAMP | L2_PWR_CTL_L2_ARRAY_HS_CLAMP | L2_PWR_CTL_L2_HS_CNT(16); mmio_write_32(base + L2_PWR_CTL, pwr_ctl); ovr = PWR_CTL_OVERRIDE_PRESETDBG; mmio_write_32(base + PWR_CTL_OVERRIDE, ovr); dsb(); udelay(2); pwr_ctl &= ~(L2_PWR_CTL_SCU_ARRAY_HS_CLAMP | L2_PWR_CTL_L2_ARRAY_HS_CLAMP); mmio_write_32(base + L2_PWR_CTL, pwr_ctl); pwr_ctl |= (L2_PWR_CTL_L2_ARRAY_HS | L2_PWR_CTL_SCU_ARRAY_HS); mmio_write_32(base + L2_PWR_CTL, pwr_ctl); dsb(); udelay(2); cbcr = CORE_CBCR_CLK_ENABLE; mmio_write_32(base + CORE_CBCR, cbcr); pwr_ctl &= ~L2_PWR_CTL_L2_HS_CLAMP; mmio_write_32(base + L2_PWR_CTL, pwr_ctl); dsb(); udelay(2); ovr &= ~PWR_CTL_OVERRIDE_PRESETDBG; mmio_write_32(base + PWR_CTL_OVERRIDE, ovr); pwr_ctl &= ~(L2_PWR_CTL_L2_HS_RST | L2_PWR_CTL_SYS_RESET); mmio_write_32(base + L2_PWR_CTL, pwr_ctl); dsb(); udelay(54); pwr_ctl |= L2_PWR_CTL_PMIC_APC_ON; mmio_write_32(base + L2_PWR_CTL, pwr_ctl); cbcr |= CORE_CBCR_HW_CTL; mmio_write_32(base + CORE_CBCR, cbcr); dsb(); }