// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2016-2019, The Linux Foundation. All rights reserved. */ #define pr_fmt(fmt) "[sde_rsc_hw:%s:%d]: " fmt, __func__, __LINE__ #include #include #include #include "sde_rsc_priv.h" #include "sde_rsc_hw.h" #include "sde_dbg.h" static int _rsc_hw_qtimer_init(struct sde_rsc_priv *rsc) { pr_debug("rsc hardware qtimer init\n"); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_QTMR_AC_HW_FRAME_SEL_1, 0xffffffff, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_QTMR_AC_HW_FRAME_SEL_2, 0xffffffff, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_QTMR_AC_CNTACR0_FG0, 0x1, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_QTMR_AC_CNTACR1_FG0, 0x1, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F0_QTMR_V1_CNTP_CVAL_LO, 0xffffffff, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F0_QTMR_V1_CNTP_CVAL_HI, 0xffffffff, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F1_QTMR_V1_CNTP_CVAL_LO, 0xffffffff, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F1_QTMR_V1_CNTP_CVAL_HI, 0xffffffff, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F0_QTMR_V1_CNTP_CTL, 0x1, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F1_QTMR_V1_CNTP_CTL, 0x1, rsc->debug_mode); return 0; } static int _rsc_hw_pdc_init(struct sde_rsc_priv *rsc) { pr_debug("rsc hardware pdc init\n"); dss_reg_w(&rsc->drv_io, SDE_RSCC_PDC_SEQ_START_ADDR_REG_OFFSET_DRV0, 0x4520, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_PDC_MATCH_VALUE_LO_REG_OFFSET_DRV0, 0x4510, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_PDC_MATCH_VALUE_HI_REG_OFFSET_DRV0, 0x4514, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_PDC_SLAVE_ID_DRV0, 0x1, rsc->debug_mode); return 0; } static int _rsc_hw_wrapper_init(struct sde_rsc_priv *rsc) { pr_debug("rsc hardware wrapper init\n"); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_STATIC_WAKEUP_0, rsc->timer_config.static_wakeup_time_ns, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_RSCC_MODE_THRESHOLD, rsc->timer_config.rsc_mode_threshold_time_ns, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, BIT(8), rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_MODE_MIN_THRESHOLD, rsc->timer_config.min_threshold_time_ns, rsc->debug_mode); return 0; } static int _rsc_hw_seq_memory_init_v3(struct sde_rsc_priv *rsc) { const u32 mode_0_start_addr = 0x0; const u32 mode_1_start_addr = 0xc; const u32 mode_2_start_addr = 0x18; u32 br_offset = 0; pr_debug("rsc sequencer memory init v2\n"); /* Mode - 0 sequence */ dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x0, 0xff399ebe, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x4, 0x20209ebe, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x8, 0x20202020, rsc->debug_mode); /* Mode - 1 sequence */ dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0xc, 0xe0389ebe, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x10, 0x9ebeff39, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x14, 0x20202020, rsc->debug_mode); /* Mode - 2 sequence */ dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x18, 0xfab9baa0, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x1c, 0x9afebdf9, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x20, 0xe1a13899, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x24, 0xa2e0ac81, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x28, 0x9d3982e2, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x2c, 0x20208cfd, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x30, 0x20202020, rsc->debug_mode); /* tcs sleep & wake sequence */ dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x34, 0x01a6fcbc, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x38, 0x20209ce6, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x3c, 0x01a7fcbc, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_MEM_0_DRV0 + 0x40, 0x00209ce7, rsc->debug_mode); /* branch address */ if (rsc->hw_drv_ver >= SDE_RSC_HW_MAJOR_MINOR_STEP(2,0,5)) br_offset = 0xf0; dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_CFG_BR_ADDR_0_DRV0 + br_offset, 0x34, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SEQ_CFG_BR_ADDR_1_DRV0 + br_offset, 0x3c, rsc->debug_mode); /* start address */ dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_OVERRIDE_CTRL_DRV0, mode_0_start_addr, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM0_DRV0_MODE0, mode_0_start_addr, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM0_DRV0_MODE1, mode_1_start_addr, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM0_DRV0_MODE2, mode_2_start_addr, rsc->debug_mode); return 0; } static int _rsc_hw_solver_init(struct sde_rsc_priv *rsc) { pr_debug("rsc solver init\n"); dss_reg_w(&rsc->drv_io, SDE_RSCC_SOFT_WAKEUP_TIME_LO_DRV0, 0xFFFFFFFF, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SOFT_WAKEUP_TIME_HI_DRV0, 0xFFFFFFFF, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_MAX_IDLE_DURATION_DRV0, 0xEFFFFFFF, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_TIME_SLOT_TABLE_0_DRV0, 0x0, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_TIME_SLOT_TABLE_1_DRV0, rsc->timer_config.bwi_threshold_time_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_TIME_SLOT_TABLE_2_DRV0, rsc->timer_config.rsc_time_slot_1_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_TIME_SLOT_TABLE_3_DRV0, rsc->timer_config.rsc_time_slot_2_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_SOLVER_MODES_ENABLED_DRV0, 0x7, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PRI_TABLE_SLOT0_PRI0_DRV0, 0x0, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PRI_TABLE_SLOT1_PRI0_DRV0, 0x1, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PRI_TABLE_SLOT1_PRI3_DRV0, 0x1, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PRI_TABLE_SLOT2_PRI0_DRV0, 0x2, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PRI_TABLE_SLOT2_PRI3_DRV0, 0x2, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_OVERRIDE_MODE_DRV0, 0x0, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_TIMERS_CONSIDERED_DRV0, 0x1, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_OVERRIDE_IDLE_TIME_DRV0, 0x01000010, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM1_DRV0_MODE0, 0x80000000, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM2_DRV0_MODE0, rsc->timer_config.rsc_backoff_time_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM3_DRV0_MODE0, rsc->timer_config.pdc_backoff_time_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM1_DRV0_MODE1, 0x80000000, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM2_DRV0_MODE1, rsc->timer_config.rsc_backoff_time_ns * 2, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM3_DRV0_MODE1, rsc->timer_config.pdc_backoff_time_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM1_DRV0_MODE2, 0x80000000, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM2_DRV0_MODE2, 0x0, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM3_DRV0_MODE2, rsc->timer_config.pdc_backoff_time_ns, rsc->debug_mode); return 0; } static int sde_rsc_mode2_entry_trigger(struct sde_rsc_priv *rsc) { int rc; int count, wrapper_status, ctrl2_status; unsigned long reg; /* update qtimers to high during clk & video mode state */ if ((rsc->current_state == SDE_RSC_VID_STATE) || (rsc->current_state == SDE_RSC_CLK_STATE)) { dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F0_QTMR_V1_CNTP_CVAL_HI, 0xffffffff, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F0_QTMR_V1_CNTP_CVAL_LO, 0xffffffff, rsc->debug_mode); } wrapper_status = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_WRAPPER_CTRL, rsc->debug_mode); wrapper_status |= BIT(3); wrapper_status |= BIT(0); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_CTRL, wrapper_status, rsc->debug_mode); ctrl2_status = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL2, rsc->debug_mode); ctrl2_status &= ~BIT(3); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL2, ctrl2_status, rsc->debug_mode); wmb(); /* make sure that vsync source is disabled */ /** * force busy and idle during clk & video mode state because it * is trying to entry in mode-2 without turning on the vysnc. */ if ((rsc->current_state == SDE_RSC_VID_STATE) || (rsc->current_state == SDE_RSC_CLK_STATE)) { dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, BIT(0) | BIT(1), rsc->debug_mode); wmb(); /* force busy gurantee */ dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, BIT(0) | BIT(9), rsc->debug_mode); } wmb(); /* make sure that mode-2 is triggered before wait*/ rc = -EBUSY; /* this wait is required to turn off the rscc clocks */ for (count = MAX_CHECK_LOOPS; count > 0; count--) { reg = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_PWR_CTRL, rsc->debug_mode); if (test_bit(POWER_CTRL_BIT_12, ®)) { rc = 0; break; } usleep_range(10, 100); } return rc; } static void sde_rsc_reset_mode_0_1(struct sde_rsc_priv *rsc) { u32 seq_busy, current_mode, curr_inst_addr; seq_busy = dss_reg_r(&rsc->drv_io, SDE_RSCC_SEQ_BUSY_DRV0, rsc->debug_mode); current_mode = dss_reg_r(&rsc->drv_io, SDE_RSCC_SOLVER_STATUS2_DRV0, rsc->debug_mode); curr_inst_addr = dss_reg_r(&rsc->drv_io, SDE_RSCC_SEQ_PROGRAM_COUNTER, rsc->debug_mode); SDE_EVT32(seq_busy, current_mode, curr_inst_addr); if (seq_busy && (current_mode == SDE_RSC_MODE_0_VAL || current_mode == SDE_RSC_MODE_1_VAL)) { dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F1_QTMR_V1_CNTP_CVAL_HI, 0xffffff, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F1_QTMR_V1_CNTP_CVAL_LO, 0xffffffff, rsc->debug_mode); wmb(); /* unstick f1 qtimer */ dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F1_QTMR_V1_CNTP_CVAL_HI, 0x0, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F1_QTMR_V1_CNTP_CVAL_LO, 0x0, rsc->debug_mode); wmb(); /* manually trigger f1 qtimer interrupt */ dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F0_QTMR_V1_CNTP_CVAL_HI, 0xffffff, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F0_QTMR_V1_CNTP_CVAL_LO, 0xffffffff, rsc->debug_mode); wmb(); /* unstick f0 qtimer */ dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F0_QTMR_V1_CNTP_CVAL_HI, 0x0, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_F0_QTMR_V1_CNTP_CVAL_LO, 0x0, rsc->debug_mode); wmb(); /* manually trigger f0 qtimer interrupt */ } } static int sde_rsc_mode2_entry_v3(struct sde_rsc_priv *rsc) { int rc = 0, i; u32 reg; if (rsc->power_collapse_block) return -EINVAL; if (rsc->sw_fs_enabled) { rc = regulator_set_mode(rsc->fs, REGULATOR_MODE_FAST); if (rc) { pr_err("vdd reg fast mode set failed rc:%d\n", rc); return rc; } } dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_SOLVER_MODES_ENABLED_DRV0, 0x7, rsc->debug_mode); for (i = 0; i <= MAX_MODE2_ENTRY_TRY; i++) { rc = sde_rsc_mode2_entry_trigger(rsc); if (!rc) break; reg = dss_reg_r(&rsc->drv_io, SDE_RSCC_SEQ_PROGRAM_COUNTER, rsc->debug_mode); pr_err("mdss gdsc power down failed, instruction:0x%x, rc:%d\n", reg, rc); SDE_EVT32(rc, reg, SDE_EVTLOG_ERROR); /* avoid touching f1 qtimer for last try */ if (i != MAX_MODE2_ENTRY_TRY) sde_rsc_reset_mode_0_1(rsc); } if (rc) goto end; if ((rsc->current_state == SDE_RSC_VID_STATE) || (rsc->current_state == SDE_RSC_CLK_STATE)) { dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, BIT(0) | BIT(8), rsc->debug_mode); wmb(); /* force busy on vsync */ } if (rsc->sw_fs_enabled) { regulator_disable(rsc->fs); rsc->sw_fs_enabled = false; } return 0; end: sde_rsc_mode2_exit(rsc, rsc->current_state); return rc; } static int sde_rsc_state_update_v3(struct sde_rsc_priv *rsc, enum sde_rsc_state state) { int rc = 0; int reg, ctrl2_config; if (rsc->power_collapse) { rc = sde_rsc_mode2_exit(rsc, state); if (rc) pr_err("power collapse: mode2 exit failed\n"); else rsc->power_collapse = false; } switch (state) { case SDE_RSC_CMD_STATE: pr_debug("command mode handling\n"); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, 0x0, rsc->debug_mode); wmb(); /* disable double buffer config before vsync select */ dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL2, BIT(1) | BIT(2) | BIT(3), rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_CTRL, 0x1, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SOLVER_OVERRIDE_CTRL_DRV0, 0x0, rsc->debug_mode); reg = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, rsc->debug_mode); reg |= (BIT(0) | BIT(8)); reg &= ~(BIT(1) | BIT(2) | BIT(3) | BIT(6) | BIT(7) | BIT(9)); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, reg, rsc->debug_mode); wmb(); /* make sure that solver is enabled */ break; case SDE_RSC_VID_STATE: pr_debug("video mode handling\n"); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, 0x0, rsc->debug_mode); wmb(); /* disable double buffer config before vsync select */ ctrl2_config = (rsc->vsync_source & 0x7) << 4; ctrl2_config |= (BIT(0) | BIT(1) | BIT(3)); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL2, ctrl2_config, rsc->debug_mode); wmb(); /* select vsync before double buffer config enabled */ dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_CTRL, 0x1, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSCC_SOLVER_OVERRIDE_CTRL_DRV0, 0x0, rsc->debug_mode); reg = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, rsc->debug_mode); reg |= (BIT(0) | BIT(8)); reg &= ~(BIT(1) | BIT(2) | BIT(3) | BIT(6) | BIT(7) | BIT(9)); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, reg, rsc->debug_mode); wmb(); /* make sure that solver is enabled */ break; case SDE_RSC_CLK_STATE: pr_debug("clk state handling\n"); ctrl2_config = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL2, rsc->debug_mode); ctrl2_config &= ~(BIT(0) | BIT(1) | BIT(2)); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL2, ctrl2_config, rsc->debug_mode); reg = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, rsc->debug_mode); reg &= ~(BIT(0) | BIT(8)); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, reg, rsc->debug_mode); wmb(); /* make sure that solver mode is disabled */ reg = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, rsc->debug_mode); reg |= BIT(8); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_OVERRIDE_CTRL, reg, rsc->debug_mode); wmb(); /* enable double buffer vsync configuration */ break; case SDE_RSC_IDLE_STATE: rc = sde_rsc_mode2_entry_v3(rsc); if (rc) pr_err("power collapse - mode 2 entry failed\n"); else rsc->power_collapse = true; break; default: pr_err("state:%d handling is not supported\n", state); break; } return rc; } int rsc_hw_init_v3(struct sde_rsc_priv *rsc) { int rc = 0; rsc->hw_drv_ver = dss_reg_r(&rsc->drv_io, SDE_RSCC_RSC_ID_DRV0, rsc->debug_mode); rc = _rsc_hw_qtimer_init(rsc); if (rc) { pr_err("rsc hw qtimer init failed\n"); goto end; } rc = _rsc_hw_wrapper_init(rsc); if (rc) { pr_err("rsc hw wrapper init failed\n"); goto end; } rc = _rsc_hw_seq_memory_init_v3(rsc); if (rc) { pr_err("rsc sequencer memory init failed\n"); goto end; } rc = _rsc_hw_solver_init(rsc); if (rc) { pr_err("rsc solver init failed\n"); goto end; } rc = _rsc_hw_pdc_init(rsc); if (rc) { pr_err("rsc hw pdc init failed\n"); goto end; } wmb(); /* make sure that hw is initialized */ pr_info("sde rsc init successfully done\n"); end: return rc; } int rsc_hw_bwi_status_v3(struct sde_rsc_priv *rsc, bool bw_indication) { int count, bw_ack; int rc = 0; dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_BW_INDICATION, bw_indication, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_CTRL, 0x1, rsc->debug_mode); bw_ack = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_WRAPPER_DEBUG_CTRL2, rsc->debug_mode) & BIT(14); /* check for sequence running status before exiting */ for (count = MAX_CHECK_LOOPS; count > 0 && !bw_ack; count--) { usleep_range(8, 10); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_BW_INDICATION, bw_indication, rsc->debug_mode); bw_ack = dss_reg_r(&rsc->wrapper_io, SDE_RSCC_WRAPPER_DEBUG_CTRL2, rsc->debug_mode) & BIT(14); } if (!bw_ack) rc = -EINVAL; return rc; } static int rsc_hw_timer_update_v3(struct sde_rsc_priv *rsc) { if (!rsc) { pr_debug("invalid input param\n"); return -EINVAL; } pr_debug("rsc hw timer update\n"); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_TIME_SLOT_TABLE_1_DRV0, rsc->timer_config.rsc_time_slot_0_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_TIME_SLOT_TABLE_2_DRV0, rsc->timer_config.rsc_time_slot_1_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_TIME_SLOT_TABLE_3_DRV0, rsc->timer_config.rsc_time_slot_2_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM2_DRV0_MODE0, rsc->timer_config.rsc_backoff_time_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM3_DRV0_MODE0, rsc->timer_config.pdc_backoff_time_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM2_DRV0_MODE1, rsc->timer_config.rsc_backoff_time_ns * 2, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM3_DRV0_MODE1, rsc->timer_config.pdc_backoff_time_ns, rsc->debug_mode); dss_reg_w(&rsc->drv_io, SDE_RSC_SOLVER_MODE_PARM3_DRV0_MODE2, rsc->timer_config.pdc_backoff_time_ns, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_STATIC_WAKEUP_0, rsc->timer_config.static_wakeup_time_ns, rsc->debug_mode); dss_reg_w(&rsc->wrapper_io, SDE_RSCC_WRAPPER_RSCC_MODE_THRESHOLD, rsc->timer_config.rsc_mode_threshold_time_ns, rsc->debug_mode); /* make sure that hw timers are updated */ wmb(); return 0; } int sde_rsc_hw_register_v3(struct sde_rsc_priv *rsc) { pr_debug("rsc hardware register v3\n"); rsc->hw_ops.init = rsc_hw_init_v3; rsc->hw_ops.state_update = sde_rsc_state_update_v3; rsc->hw_ops.bwi_status = rsc_hw_bwi_status_v3; rsc->hw_ops.timer_update = rsc_hw_timer_update_v3; rsc->hw_ops.tcs_wait = rsc_hw_tcs_wait; rsc->hw_ops.tcs_use_ok = rsc_hw_tcs_use_ok; rsc->hw_ops.is_amc_mode = rsc_hw_is_amc_mode; rsc->hw_ops.hw_vsync = rsc_hw_vsync; rsc->hw_ops.debug_show = sde_rsc_debug_show; rsc->hw_ops.mode_ctrl = rsc_hw_mode_ctrl; rsc->hw_ops.debug_dump = rsc_hw_debug_dump; return 0; }