/* * Copyright (c) 2021, MediaTek Inc. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef ATF_PLAT_CIRQ_UNSUPPORT #include #include #endif #define CONSTRAINT_BUS26M_ALLOW \ (MT_RM_CONSTRAINT_ALLOW_CPU_BUCK_OFF | \ MT_RM_CONSTRAINT_ALLOW_DRAM_S0 | \ MT_RM_CONSTRAINT_ALLOW_DRAM_S1 | \ MT_RM_CONSTRAINT_ALLOW_VCORE_LP | \ MT_RM_CONSTRAINT_ALLOW_LVTS_STATE | \ MT_RM_CONSTRAINT_ALLOW_BUS26M_OFF) #define CONSTRAINT_BUS26M_PCM_FLAG \ (SPM_FLAG_DISABLE_INFRA_PDN | \ SPM_FLAG_DISABLE_VCORE_DVS | \ SPM_FLAG_DISABLE_VCORE_DFS | \ SPM_FLAG_SRAM_SLEEP_CTRL | \ SPM_FLAG_ENABLE_TIA_WORKAROUND | \ SPM_FLAG_ENABLE_LVTS_WORKAROUND | \ SPM_FLAG_KEEP_CSYSPWRACK_HIGH | \ SPM_FLAG_DISABLE_DRAMC_MCU_SRAM_SLEEP) #define CONSTRAINT_BUS26M_PCM_FLAG1 0U #define CONSTRAINT_BUS26M_RESOURCE_REQ 0U static unsigned int bus26m_ext_opand; static struct mt_irqremain *refer2remain_irq; static struct mt_spm_cond_tables cond_bus26m = { .name = "bus26m", .table_cg = { 0xFFFFD408, /* MTCMOS1 */ 0x2284C802, /* INFRA0 */ 0x27AF8000, /* INFRA1 */ 0x86040650, /* INFRA2 */ 0x30038020, /* INFRA3 */ 0x80000000, /* INFRA4 */ 0x00080ABB, /* PERI0 */ 0x00004000, /* VPPSYS0_0 */ 0x08803000, /* VPPSYS0_1 */ 0x00000000, /* VPPSYS0_2 */ 0x80005555, /* VPPSYS1_0 */ 0x00009008, /* VPPSYS1_1 */ 0x60060000, /* VDOSYS0_0 */ 0x00000000, /* VDOSYS0_1 */ 0x201E01F8, /* VDOSYS1_0 */ 0x00800000, /* VDOSYS1_1 */ 0x00000000, /* VDOSYS1_2 */ 0x00000080, /* I2C */ }, .table_pll = (PLL_BIT_UNIVPLL | PLL_BIT_MFGPLL | PLL_BIT_MSDCPLL | PLL_BIT_TVDPLL | PLL_BIT_MMPLL), }; static struct mt_spm_cond_tables cond_bus26m_res = { .table_cg = { 0U }, .table_pll = 0U, }; static struct constraint_status status = { .id = MT_RM_CONSTRAINT_ID_BUS26M, .valid = (MT_SPM_RC_VALID_SW | MT_SPM_RC_VALID_COND_LATCH), .cond_block = 0U, .enter_cnt = 0U, .cond_res = &cond_bus26m_res, }; /* * Cirq will take the place of gic when gic is off. * However, cirq cannot work if 26m clk is turned off when system idle/suspend. * Therefore, we need to set irq pending for specific wakeup source. */ #ifdef ATF_PLAT_CIRQ_UNSUPPORT #define do_irqs_delivery() #else static void mt_spm_irq_remain_dump(struct mt_irqremain *irqs, unsigned int irq_index, struct wake_status *wakeup) { INFO("[SPM] r12 = 0x%08x(0x%08x), flag = 0x%08x 0x%08x 0x%08x\n", wakeup->tr.comm.r12, wakeup->md32pcm_wakeup_sta, wakeup->tr.comm.debug_flag, wakeup->tr.comm.b_sw_flag0, wakeup->tr.comm.b_sw_flag1); INFO("irq:%u(0x%08x) set pending\n", irqs->wakeupsrc[irq_index], irqs->irqs[irq_index]); } static void do_irqs_delivery(void) { unsigned int idx; int res = 0; struct wake_status *wakeup = NULL; struct mt_irqremain *irqs = refer2remain_irq; res = spm_conservation_get_result(&wakeup); if ((res != 0) && (irqs == NULL)) { return; } for (idx = 0U; idx < irqs->count; ++idx) { if (((wakeup->tr.comm.r12 & irqs->wakeupsrc[idx]) != 0U) || ((wakeup->raw_sta & irqs->wakeupsrc[idx]) != 0U)) { if ((irqs->wakeupsrc_cat[idx] & MT_IRQ_REMAIN_CAT_LOG) != 0U) { mt_spm_irq_remain_dump(irqs, idx, wakeup); } mt_irq_set_pending(irqs->irqs[idx]); } } } #endif static void spm_bus26m_conduct(struct spm_lp_scen *spm_lp, unsigned int *resource_req) { spm_lp->pwrctrl->pcm_flags = (uint32_t)CONSTRAINT_BUS26M_PCM_FLAG; spm_lp->pwrctrl->pcm_flags1 = (uint32_t)CONSTRAINT_BUS26M_PCM_FLAG1; *resource_req |= CONSTRAINT_BUS26M_RESOURCE_REQ; } bool spm_is_valid_rc_bus26m(unsigned int cpu, int state_id) { (void)cpu; (void)state_id; return (status.cond_block == 0U) && IS_MT_RM_RC_READY(status.valid); } int spm_update_rc_bus26m(int state_id, int type, const void *val) { const struct mt_spm_cond_tables *tlb; const struct mt_spm_cond_tables *tlb_check; int res = MT_RM_STATUS_OK; if (val == NULL) { return MT_RM_STATUS_BAD; } if (type == PLAT_RC_UPDATE_CONDITION) { tlb = (const struct mt_spm_cond_tables *)val; tlb_check = (const struct mt_spm_cond_tables *)&cond_bus26m; status.cond_block = mt_spm_cond_check(state_id, tlb, tlb_check, ((status.valid & MT_SPM_RC_VALID_COND_LATCH) != 0U) ? &cond_bus26m_res : NULL); } else if (type == PLAT_RC_UPDATE_REMAIN_IRQS) { refer2remain_irq = (struct mt_irqremain *)val; } else { res = MT_RM_STATUS_BAD; } return res; } unsigned int spm_allow_rc_bus26m(int state_id) { (void)state_id; return CONSTRAINT_BUS26M_ALLOW; } int spm_run_rc_bus26m(unsigned int cpu, int state_id) { (void)cpu; #ifndef ATF_PLAT_SPM_SSPM_NOTIFIER_UNSUPPORT mt_spm_sspm_notify_u32(MT_SPM_NOTIFY_LP_ENTER, CONSTRAINT_BUS26M_ALLOW | (IS_PLAT_SUSPEND_ID(state_id) ? MT_RM_CONSTRAINT_ALLOW_AP_SUSPEND : 0U)); #endif if (IS_PLAT_SUSPEND_ID(state_id)) { mt_spm_suspend_enter(state_id, (MT_SPM_EX_OP_SET_WDT | MT_SPM_EX_OP_HW_S1_DETECT | MT_SPM_EX_OP_SET_SUSPEND_MODE | bus26m_ext_opand), CONSTRAINT_BUS26M_RESOURCE_REQ); } else { mt_spm_idle_generic_enter(state_id, MT_SPM_EX_OP_HW_S1_DETECT, spm_bus26m_conduct); } return 0; } int spm_reset_rc_bus26m(unsigned int cpu, int state_id) { unsigned int ext_op = MT_SPM_EX_OP_HW_S1_DETECT; (void)cpu; #ifndef ATF_PLAT_SPM_SSPM_NOTIFIER_UNSUPPORT mt_spm_sspm_notify_u32(MT_SPM_NOTIFY_LP_LEAVE, 0U); #endif if (IS_PLAT_SUSPEND_ID(state_id)) { ext_op |= (bus26m_ext_opand | MT_SPM_EX_OP_SET_WDT); mt_spm_suspend_resume(state_id, ext_op, NULL); bus26m_ext_opand = 0U; } else { mt_spm_idle_generic_resume(state_id, ext_op, NULL); status.enter_cnt++; } do_irqs_delivery(); return 0; }