// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2015-2019, The Linux Foundation. All rights reserved. */ #define pr_fmt(fmt) "%s: " fmt, __func__ #include #include #include "sde_rotator_r1_hwio.h" #include "sde_rotator_util.h" #include "sde_rotator_r1_internal.h" #include "sde_rotator_core.h" /* wait for at most 2 vsync for lowest refresh rate (24hz) */ #define KOFF_TIMEOUT msecs_to_jiffies(84) /* * if BWC enabled and format is H1V2 or 420, do not use site C or I. * Hence, set the bits 29:26 in format register, as zero. */ #define BWC_FMT_MASK 0xC3FFFFFF #define MDSS_DEFAULT_OT_SETTING 0x10 enum sde_mdp_writeback_type { SDE_MDP_WRITEBACK_TYPE_ROTATOR, SDE_MDP_WRITEBACK_TYPE_LINE, SDE_MDP_WRITEBACK_TYPE_WFD, }; struct sde_mdp_writeback_ctx { u32 wb_num; char __iomem *base; u8 ref_cnt; u8 type; struct completion wb_comp; int comp_cnt; u32 intr_type; u32 intf_num; u32 xin_id; u32 wr_lim; struct sde_mdp_shared_reg_ctrl clk_ctrl; u32 opmode; struct sde_mdp_format_params *dst_fmt; u16 img_width; u16 img_height; u16 width; u16 height; struct sde_rect dst_rect; u32 dnsc_factor_w; u32 dnsc_factor_h; u8 rot90; u32 bwc_mode; struct sde_mdp_plane_sizes dst_planes; ktime_t start_time; ktime_t end_time; u32 offset; }; static struct sde_mdp_writeback_ctx wb_ctx_list[SDE_MDP_MAX_WRITEBACK] = { { .type = SDE_MDP_WRITEBACK_TYPE_ROTATOR, .intr_type = SDE_MDP_IRQ_WB_ROT_COMP, .intf_num = 0, .xin_id = 3, .clk_ctrl.reg_off = 0x2BC, .clk_ctrl.bit_off = 0x8, }, { .type = SDE_MDP_WRITEBACK_TYPE_ROTATOR, .intr_type = SDE_MDP_IRQ_WB_ROT_COMP, .intf_num = 1, .xin_id = 11, .clk_ctrl.reg_off = 0x2BC, .clk_ctrl.bit_off = 0xC, }, }; static inline void sde_wb_write(struct sde_mdp_writeback_ctx *ctx, u32 reg, u32 val) { SDEROT_DBG("wb%d:%6.6x:%8.8x\n", ctx->wb_num, ctx->offset + reg, val); writel_relaxed(val, ctx->base + reg); } static int sde_mdp_writeback_addr_setup(struct sde_mdp_writeback_ctx *ctx, const struct sde_mdp_data *in_data) { int ret; struct sde_mdp_data data; if (!in_data) return -EINVAL; data = *in_data; SDEROT_DBG("wb_num=%d addr=0x%pa\n", ctx->wb_num, &data.p[0].addr); ret = sde_mdp_data_check(&data, &ctx->dst_planes, ctx->dst_fmt); if (ret) return ret; sde_rot_data_calc_offset(&data, ctx->dst_rect.x, ctx->dst_rect.y, &ctx->dst_planes, ctx->dst_fmt); if ((ctx->dst_fmt->fetch_planes == SDE_MDP_PLANE_PLANAR) && (ctx->dst_fmt->element[0] == C1_B_Cb)) swap(data.p[1].addr, data.p[2].addr); sde_wb_write(ctx, SDE_MDP_REG_WB_DST0_ADDR, data.p[0].addr); sde_wb_write(ctx, SDE_MDP_REG_WB_DST1_ADDR, data.p[1].addr); sde_wb_write(ctx, SDE_MDP_REG_WB_DST2_ADDR, data.p[2].addr); sde_wb_write(ctx, SDE_MDP_REG_WB_DST3_ADDR, data.p[3].addr); return 0; } static int sde_mdp_writeback_format_setup(struct sde_mdp_writeback_ctx *ctx, u32 format, struct sde_mdp_ctl *ctl) { struct sde_mdp_format_params *fmt; u32 dst_format, pattern, ystride0, ystride1, outsize, chroma_samp; u32 dnsc_factor, write_config = 0; u32 opmode = ctx->opmode; bool rotation = false; struct sde_rot_data_type *mdata = sde_rot_get_mdata(); SDEROT_DBG("wb_num=%d format=%d\n", ctx->wb_num, format); if (ctx->rot90) rotation = true; fmt = sde_get_format_params(format); if (!fmt) { SDEROT_ERR("wb format=%d not supported\n", format); return -EINVAL; } sde_mdp_get_plane_sizes(fmt, ctx->img_width, ctx->img_height, &ctx->dst_planes, ctx->opmode & SDE_MDP_OP_BWC_EN, rotation); ctx->dst_fmt = fmt; chroma_samp = fmt->chroma_sample; dst_format = (chroma_samp << 23) | (fmt->fetch_planes << 19) | (fmt->bits[C3_ALPHA] << 6) | (fmt->bits[C2_R_Cr] << 4) | (fmt->bits[C1_B_Cb] << 2) | (fmt->bits[C0_G_Y] << 0); dst_format &= BWC_FMT_MASK; if (fmt->bits[C3_ALPHA] || fmt->alpha_enable) { dst_format |= BIT(8); /* DSTC3_EN */ if (!fmt->alpha_enable) dst_format |= BIT(14); /* DST_ALPHA_X */ } if (fmt->is_yuv) dst_format |= BIT(15); pattern = (fmt->element[3] << 24) | (fmt->element[2] << 16) | (fmt->element[1] << 8) | (fmt->element[0] << 0); dst_format |= (fmt->unpack_align_msb << 18) | (fmt->unpack_tight << 17) | ((fmt->unpack_count - 1) << 12) | ((fmt->bpp - 1) << 9); ystride0 = (ctx->dst_planes.ystride[0]) | (ctx->dst_planes.ystride[1] << 16); ystride1 = (ctx->dst_planes.ystride[2]) | (ctx->dst_planes.ystride[3] << 16); outsize = (ctx->dst_rect.h << 16) | ctx->dst_rect.w; if (sde_mdp_is_ubwc_format(fmt)) { opmode |= BIT(0); dst_format |= BIT(31); if (mdata->highest_bank_bit) write_config |= (mdata->highest_bank_bit << 8); if (fmt->format == SDE_PIX_FMT_RGB_565_UBWC) write_config |= 0x8; } if (ctx->type == SDE_MDP_WRITEBACK_TYPE_ROTATOR) { dnsc_factor = (ctx->dnsc_factor_h) | (ctx->dnsc_factor_w << 16); sde_wb_write(ctx, SDE_MDP_REG_WB_ROTATOR_PIPE_DOWNSCALER, dnsc_factor); } sde_wb_write(ctx, SDE_MDP_REG_WB_ALPHA_X_VALUE, 0xFF); sde_wb_write(ctx, SDE_MDP_REG_WB_DST_FORMAT, dst_format); sde_wb_write(ctx, SDE_MDP_REG_WB_DST_OP_MODE, opmode); sde_wb_write(ctx, SDE_MDP_REG_WB_DST_PACK_PATTERN, pattern); sde_wb_write(ctx, SDE_MDP_REG_WB_DST_YSTRIDE0, ystride0); sde_wb_write(ctx, SDE_MDP_REG_WB_DST_YSTRIDE1, ystride1); sde_wb_write(ctx, SDE_MDP_REG_WB_OUT_SIZE, outsize); sde_wb_write(ctx, SDE_MDP_REG_WB_DST_WRITE_CONFIG, write_config); return 0; } static int sde_mdp_writeback_prepare_rot(struct sde_mdp_ctl *ctl, void *arg) { struct sde_mdp_writeback_ctx *ctx; struct sde_mdp_writeback_arg *wb_args; struct sde_rot_entry *entry; struct sde_rotation_item *item; struct sde_rot_data_type *mdata; u32 format; ctx = (struct sde_mdp_writeback_ctx *) ctl->priv_data; if (!ctx) return -ENODEV; wb_args = (struct sde_mdp_writeback_arg *) arg; if (!wb_args) return -ENOENT; entry = (struct sde_rot_entry *) wb_args->priv_data; if (!entry) { SDEROT_ERR("unable to retrieve rot session ctl=%d\n", ctl->num); return -ENODEV; } item = &entry->item; mdata = ctl->mdata; if (!mdata) { SDEROT_ERR("no mdata attached to ctl=%d", ctl->num); return -ENODEV; } SDEROT_DBG("rot setup wb_num=%d\n", ctx->wb_num); ctx->opmode = BIT(6); /* ROT EN */ if (ctl->mdata->rot_block_size == 128) ctx->opmode |= BIT(4); /* block size 128 */ ctx->bwc_mode = 0; ctx->opmode |= ctx->bwc_mode; ctx->img_width = item->output.width; ctx->img_height = item->output.height; ctx->width = ctx->dst_rect.w = item->dst_rect.w; ctx->height = ctx->dst_rect.h = item->dst_rect.h; ctx->dst_rect.x = item->dst_rect.x; ctx->dst_rect.y = item->dst_rect.y; ctx->dnsc_factor_w = entry->dnsc_factor_w; ctx->dnsc_factor_h = entry->dnsc_factor_h; ctx->rot90 = !!(item->flags & SDE_ROTATION_90); format = item->output.format; if (ctx->rot90) ctx->opmode |= BIT(5); /* ROT 90 */ return sde_mdp_writeback_format_setup(ctx, format, ctl); } static int sde_mdp_writeback_stop(struct sde_mdp_ctl *ctl, int panel_power_state) { struct sde_mdp_writeback_ctx *ctx; SDEROT_DBG("stop ctl=%d\n", ctl->num); ctx = (struct sde_mdp_writeback_ctx *) ctl->priv_data; if (ctx) { sde_mdp_set_intr_callback(ctx->intr_type, ctx->intf_num, NULL, NULL); complete_all(&ctx->wb_comp); ctl->priv_data = NULL; ctx->ref_cnt--; } return 0; } static void sde_mdp_writeback_intr_done(void *arg) { struct sde_mdp_ctl *ctl = arg; struct sde_mdp_writeback_ctx *ctx = ctl->priv_data; if (!ctx) { SDEROT_ERR("invalid ctx\n"); return; } SDEROT_DBG("intr wb_num=%d\n", ctx->wb_num); if (ctl->irq_num >= 0) disable_irq_nosync(ctl->irq_num); complete_all(&ctx->wb_comp); } static int sde_mdp_wb_wait4comp(struct sde_mdp_ctl *ctl, void *arg) { struct sde_mdp_writeback_ctx *ctx; int rc = 0; u64 rot_time = 0; u32 status, mask, isr = 0; ctx = (struct sde_mdp_writeback_ctx *) ctl->priv_data; if (!ctx) { SDEROT_ERR("invalid ctx\n"); return -ENODEV; } if (ctx->comp_cnt == 0) return rc; if (ctl->irq_num >= 0) { rc = wait_for_completion_timeout(&ctx->wb_comp, KOFF_TIMEOUT); sde_mdp_set_intr_callback(ctx->intr_type, ctx->intf_num, NULL, NULL); if (rc == 0) { mask = BIT(ctx->intr_type + ctx->intf_num); isr = readl_relaxed(ctl->mdata->mdp_base + SDE_MDP_REG_INTR_STATUS); status = mask & isr; SDEROT_INFO_ONCE( "mask: 0x%x, isr: 0x%x, status: 0x%x\n", mask, isr, status); if (status) { SDEROT_WARN("wb done but irq not triggered\n"); writel_relaxed(BIT(ctl->wb->num), ctl->mdata->mdp_base + SDE_MDP_REG_INTR_CLEAR); sde_mdp_writeback_intr_done(ctl); rc = 0; } else { rc = -ENODEV; WARN(1, "wb timeout (%d) ctl=%d\n", rc, ctl->num); if (ctl->irq_num >= 0) disable_irq_nosync(ctl->irq_num); } } else { rc = 0; } } else { /* use polling if interrupt is not available */ int cnt = 200; mask = BIT(ctl->wb->num); do { udelay(500); isr = readl_relaxed(ctl->mdata->mdp_base + SDE_MDP_REG_INTR_STATUS); status = mask & isr; cnt--; } while (cnt > 0 && !status); writel_relaxed(mask, ctl->mdata->mdp_base + SDE_MDP_REG_INTR_CLEAR); rc = (status) ? 0 : -ENODEV; } if (rc == 0) ctx->end_time = ktime_get(); sde_smmu_ctrl(0); ctx->comp_cnt--; if (!rc) { rot_time = (u64)ktime_to_us(ctx->end_time) - (u64)ktime_to_us(ctx->start_time); SDEROT_DBG( "ctx%d type:%d xin_id:%d intf_num:%d took %llu microsecs\n", ctx->wb_num, ctx->type, ctx->xin_id, ctx->intf_num, rot_time); } SDEROT_DBG("s:%8.8x %s t:%llu c:%d\n", isr, (rc)?"Timeout":"Done", rot_time, ctx->comp_cnt); return rc; } static void sde_mdp_set_ot_limit_wb(struct sde_mdp_writeback_ctx *ctx) { struct sde_mdp_set_ot_params ot_params = {0,}; ot_params.xin_id = ctx->xin_id; ot_params.num = ctx->wb_num; ot_params.width = ctx->width; ot_params.height = ctx->height; ot_params.fps = 60; ot_params.reg_off_vbif_lim_conf = MMSS_VBIF_WR_LIM_CONF; ot_params.reg_off_mdp_clk_ctrl = ctx->clk_ctrl.reg_off; ot_params.bit_off_mdp_clk_ctrl = ctx->clk_ctrl.bit_off; ot_params.fmt = (ctx->dst_fmt) ? ctx->dst_fmt->format : 0; sde_mdp_set_ot_limit(&ot_params); } static int sde_mdp_writeback_display(struct sde_mdp_ctl *ctl, void *arg) { struct sde_mdp_writeback_ctx *ctx; struct sde_mdp_writeback_arg *wb_args; u32 flush_bits = 0; int ret; if (!ctl || !ctl->mdata) return -ENODEV; ctx = (struct sde_mdp_writeback_ctx *) ctl->priv_data; if (!ctx) return -ENODEV; if (ctx->comp_cnt) { SDEROT_ERR("previous kickoff not completed yet, ctl=%d\n", ctl->num); return -EPERM; } if (ctl->mdata->default_ot_wr_limit || ctl->mdata->default_ot_rd_limit) sde_mdp_set_ot_limit_wb(ctx); wb_args = (struct sde_mdp_writeback_arg *) arg; if (!wb_args) return -ENOENT; ret = sde_mdp_writeback_addr_setup(ctx, wb_args->data); if (ret) { SDEROT_ERR("writeback data setup error ctl=%d\n", ctl->num); return ret; } sde_mdp_set_intr_callback(ctx->intr_type, ctx->intf_num, sde_mdp_writeback_intr_done, ctl); flush_bits |= ctl->flush_reg_data; flush_bits |= BIT(16); /* WB */ sde_wb_write(ctx, SDE_MDP_REG_WB_DST_ADDR_SW_STATUS, ctl->is_secure); sde_mdp_ctl_write(ctl, SDE_MDP_REG_CTL_FLUSH, flush_bits); reinit_completion(&ctx->wb_comp); if (ctl->irq_num >= 0) enable_irq(ctl->irq_num); ret = sde_smmu_ctrl(1); if (ret < 0) { SDEROT_ERR("IOMMU attach failed\n"); return ret; } ctx->start_time = ktime_get(); sde_mdp_ctl_write(ctl, SDE_MDP_REG_CTL_START, 1); /* ensure that start command is issued after the barrier */ wmb(); SDEROT_DBG("ctx%d type:%d xin_id:%d intf_num:%d start\n", ctx->wb_num, ctx->type, ctx->xin_id, ctx->intf_num); ctx->comp_cnt++; return 0; } int sde_mdp_writeback_start(struct sde_mdp_ctl *ctl) { struct sde_mdp_writeback_ctx *ctx; struct sde_mdp_writeback *wb; u32 mem_sel; SDEROT_DBG("start ctl=%d\n", ctl->num); if (!ctl->wb) { SDEROT_DBG("wb not setup in the ctl\n"); return 0; } wb = ctl->wb; mem_sel = (ctl->opmode & 0xF) - 1; if (mem_sel < SDE_MDP_MAX_WRITEBACK) { ctx = &wb_ctx_list[mem_sel]; if (ctx->ref_cnt) { SDEROT_ERR("writeback in use %d\n", mem_sel); return -EBUSY; } ctx->ref_cnt++; } else { SDEROT_ERR("invalid writeback mode %d\n", mem_sel); return -EINVAL; } ctl->priv_data = ctx; ctx->wb_num = wb->num; ctx->base = wb->base; ctx->offset = wb->offset; init_completion(&ctx->wb_comp); if (ctx->type == SDE_MDP_WRITEBACK_TYPE_ROTATOR) ctl->ops.prepare_fnc = sde_mdp_writeback_prepare_rot; ctl->ops.stop_fnc = sde_mdp_writeback_stop; ctl->ops.display_fnc = sde_mdp_writeback_display; ctl->ops.wait_fnc = sde_mdp_wb_wait4comp; return 0; } int sde_mdp_writeback_display_commit(struct sde_mdp_ctl *ctl, void *arg) { return sde_mdp_display_commit(ctl, arg, NULL); }