// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2012, 2015-2019, The Linux Foundation. All rights reserved. */ #define pr_fmt(fmt) "%s: " fmt, __func__ #include #include #include #include #include "sde_rotator_r1_hwio.h" #include "sde_rotator_base.h" #include "sde_rotator_util.h" #include "sde_rotator_r1_internal.h" #include "sde_rotator_core.h" #include "sde_rotator_trace.h" #define SMP_MB_SIZE (mdss_res->smp_mb_size) #define SMP_MB_CNT (mdss_res->smp_mb_cnt) #define SMP_MB_ENTRY_SIZE 16 #define MAX_BPP 4 #define PIPE_CLEANUP_TIMEOUT_US 100000 /* following offsets are relative to ctrl register bit offset */ #define CLK_FORCE_ON_OFFSET 0x0 #define CLK_FORCE_OFF_OFFSET 0x1 /* following offsets are relative to status register bit offset */ #define CLK_STATUS_OFFSET 0x0 #define QOS_LUT_NRT_READ 0x0 #define PANIC_LUT_NRT_READ 0x0 #define ROBUST_LUT_NRT_READ 0xFFFF /* Priority 2, no panic */ #define VBLANK_PANIC_DEFAULT_CONFIG 0x200000 static inline void sde_mdp_pipe_write(struct sde_mdp_pipe *pipe, u32 reg, u32 val) { SDEROT_DBG("pipe%d:%6.6x:%8.8x\n", pipe->num, pipe->offset + reg, val); writel_relaxed(val, pipe->base + reg); } static int sde_mdp_pipe_qos_lut(struct sde_mdp_pipe *pipe) { u32 qos_lut; qos_lut = QOS_LUT_NRT_READ; /* low priority for nrt */ trace_rot_perf_set_qos_luts(pipe->num, pipe->src_fmt->format, qos_lut, sde_mdp_is_linear_format(pipe->src_fmt)); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_CREQ_LUT, qos_lut); return 0; } /** * @sde_mdp_pipe_nrt_vbif_setup - * @mdata: pointer to global driver data. * @pipe: pointer to a pipe * * This function assumes that clocks are enabled, so it is callers * responsibility to enable clocks before calling this function. */ static void sde_mdp_pipe_nrt_vbif_setup(struct sde_rot_data_type *mdata, struct sde_mdp_pipe *pipe) { uint32_t nrt_vbif_client_sel; if (pipe->type != SDE_MDP_PIPE_TYPE_DMA) return; nrt_vbif_client_sel = readl_relaxed(mdata->mdp_base + MMSS_MDP_RT_NRT_VBIF_CLIENT_SEL); if (sde_mdp_is_nrt_vbif_client(mdata, pipe)) nrt_vbif_client_sel |= BIT(pipe->num - SDE_MDP_SSPP_DMA0); else nrt_vbif_client_sel &= ~BIT(pipe->num - SDE_MDP_SSPP_DMA0); SDEROT_DBG("mdp:%6.6x:%8.8x\n", MMSS_MDP_RT_NRT_VBIF_CLIENT_SEL, nrt_vbif_client_sel); writel_relaxed(nrt_vbif_client_sel, mdata->mdp_base + MMSS_MDP_RT_NRT_VBIF_CLIENT_SEL); } /** * sde_mdp_qos_vbif_remapper_setup - Program the VBIF QoS remapper * registers based on real or non real time clients * @mdata: Pointer to the global mdss data structure. * @pipe: Pointer to source pipe struct to get xin id's. * @is_realtime: To determine if pipe's client is real or * non real time. * This function assumes that clocks are on, so it is caller responsibility to * call this function with clocks enabled. */ static void sde_mdp_qos_vbif_remapper_setup(struct sde_rot_data_type *mdata, struct sde_mdp_pipe *pipe, bool is_realtime) { u32 mask, reg_val, i, vbif_qos; if (mdata->npriority_lvl == 0) return; for (i = 0; i < mdata->npriority_lvl; i++) { reg_val = SDE_VBIF_READ(mdata, SDE_VBIF_QOS_REMAP_BASE + i*4); mask = 0x3 << (pipe->xin_id * 2); reg_val &= ~(mask); vbif_qos = is_realtime ? mdata->vbif_rt_qos[i] : mdata->vbif_nrt_qos[i]; reg_val |= vbif_qos << (pipe->xin_id * 2); SDE_VBIF_WRITE(mdata, SDE_VBIF_QOS_REMAP_BASE + i*4, reg_val); } } struct sde_mdp_pipe *sde_mdp_pipe_assign(struct sde_rot_data_type *mdata, struct sde_mdp_mixer *mixer, u32 ndx) { struct sde_mdp_pipe *pipe = NULL; static struct sde_mdp_pipe sde_pipe[16]; static const u32 offset[] = {0x00025000, 0x00027000}; static const u32 xin_id[] = {2, 10}; static const struct sde_mdp_shared_reg_ctrl clk_ctrl[] = { {0x2AC, 8}, {0x2B4, 8} }; if (ndx >= ARRAY_SIZE(offset)) { SDEROT_ERR("invalid parameters\n"); return ERR_PTR(-EINVAL); } pipe = &sde_pipe[ndx]; pipe->num = ndx + SDE_MDP_SSPP_DMA0; pipe->offset = offset[pipe->num - SDE_MDP_SSPP_DMA0]; pipe->xin_id = xin_id[pipe->num - SDE_MDP_SSPP_DMA0]; pipe->base = mdata->sde_io.base + pipe->offset; pipe->type = SDE_MDP_PIPE_TYPE_DMA; pipe->mixer_left = mixer; pipe->clk_ctrl = clk_ctrl[pipe->num - SDE_MDP_SSPP_DMA0]; return pipe; } int sde_mdp_pipe_destroy(struct sde_mdp_pipe *pipe) { return 0; } void sde_mdp_pipe_position_update(struct sde_mdp_pipe *pipe, struct sde_rect *src, struct sde_rect *dst) { u32 src_size, src_xy, dst_size, dst_xy; src_size = (src->h << 16) | src->w; src_xy = (src->y << 16) | src->x; dst_size = (dst->h << 16) | dst->w; dst_xy = (dst->y << 16) | dst->x; sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC_SIZE, src_size); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC_XY, src_xy); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_OUT_SIZE, dst_size); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_OUT_XY, dst_xy); } static int sde_mdp_image_setup(struct sde_mdp_pipe *pipe, struct sde_mdp_data *data) { u32 img_size, ystride0, ystride1; u32 width, height, decimation; int ret = 0; struct sde_rect dst, src; bool rotation = false; SDEROT_DBG( "ctl: %d pnum=%d wh=%dx%d src={%d,%d,%d,%d} dst={%d,%d,%d,%d}\n", pipe->mixer_left->ctl->num, pipe->num, pipe->img_width, pipe->img_height, pipe->src.x, pipe->src.y, pipe->src.w, pipe->src.h, pipe->dst.x, pipe->dst.y, pipe->dst.w, pipe->dst.h); width = pipe->img_width; height = pipe->img_height; if (pipe->flags & SDE_SOURCE_ROTATED_90) rotation = true; sde_mdp_get_plane_sizes(pipe->src_fmt, width, height, &pipe->src_planes, pipe->bwc_mode, rotation); if (data != NULL) { ret = sde_mdp_data_check(data, &pipe->src_planes, pipe->src_fmt); if (ret) return ret; } if ((pipe->flags & SDE_DEINTERLACE) && !(pipe->flags & SDE_SOURCE_ROTATED_90)) { int i; for (i = 0; i < pipe->src_planes.num_planes; i++) pipe->src_planes.ystride[i] *= 2; width *= 2; height /= 2; } decimation = ((1 << pipe->horz_deci) - 1) << 8; decimation |= ((1 << pipe->vert_deci) - 1); if (decimation) SDEROT_DBG("Image decimation h=%d v=%d\n", pipe->horz_deci, pipe->vert_deci); dst = pipe->dst; src = pipe->src; ystride0 = (pipe->src_planes.ystride[0]) | (pipe->src_planes.ystride[1] << 16); ystride1 = (pipe->src_planes.ystride[2]) | (pipe->src_planes.ystride[3] << 16); img_size = (height << 16) | width; sde_mdp_pipe_position_update(pipe, &src, &dst); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC_IMG_SIZE, img_size); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC_YSTRIDE0, ystride0); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC_YSTRIDE1, ystride1); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_DECIMATION_CONFIG, decimation); return 0; } static int sde_mdp_format_setup(struct sde_mdp_pipe *pipe) { struct sde_mdp_format_params *fmt; u32 chroma_samp, unpack, src_format; u32 secure = 0; u32 opmode; struct sde_rot_data_type *mdata = sde_rot_get_mdata(); fmt = pipe->src_fmt; if (pipe->flags & SDE_SECURE_OVERLAY_SESSION) secure = 0xF; opmode = pipe->bwc_mode; if (pipe->flags & SDE_FLIP_LR) opmode |= SDE_MDP_OP_FLIP_LR; if (pipe->flags & SDE_FLIP_UD) opmode |= SDE_MDP_OP_FLIP_UD; SDEROT_DBG("pnum=%d format=%d opmode=%x\n", pipe->num, fmt->format, opmode); chroma_samp = fmt->chroma_sample; if (pipe->flags & SDE_SOURCE_ROTATED_90) { if (chroma_samp == SDE_MDP_CHROMA_H2V1) chroma_samp = SDE_MDP_CHROMA_H1V2; else if (chroma_samp == SDE_MDP_CHROMA_H1V2) chroma_samp = SDE_MDP_CHROMA_H2V1; } src_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); if (sde_mdp_is_tilea4x_format(fmt)) src_format |= BIT(30); if (sde_mdp_is_tilea5x_format(fmt)) src_format |= BIT(31); if (pipe->flags & SDE_ROT_90) src_format |= BIT(11); /* ROT90 */ if (fmt->alpha_enable && fmt->fetch_planes != SDE_MDP_PLANE_INTERLEAVED) src_format |= BIT(8); /* SRCC3_EN */ unpack = (fmt->element[3] << 24) | (fmt->element[2] << 16) | (fmt->element[1] << 8) | (fmt->element[0] << 0); src_format |= ((fmt->unpack_count - 1) << 12) | (fmt->unpack_tight << 17) | (fmt->unpack_align_msb << 18) | ((fmt->bpp - 1) << 9); if (sde_mdp_is_ubwc_format(fmt)) opmode |= BIT(0); if (fmt->is_yuv) src_format |= BIT(15); if (fmt->frame_format != SDE_MDP_FMT_LINEAR && mdata->highest_bank_bit) { sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_FETCH_CONFIG, SDE_MDP_FETCH_CONFIG_RESET_VALUE | mdata->highest_bank_bit << 18); } sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC_FORMAT, src_format); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC_UNPACK_PATTERN, unpack); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC_OP_MODE, opmode); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC_ADDR_SW_STATUS, secure); /* clear UBWC error */ sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_UBWC_ERROR_STATUS, BIT(31)); return 0; } static int sde_mdp_src_addr_setup(struct sde_mdp_pipe *pipe, struct sde_mdp_data *src_data) { struct sde_mdp_data data = *src_data; u32 x = 0, y = 0; int ret = 0; SDEROT_DBG("pnum=%d\n", pipe->num); ret = sde_mdp_data_check(&data, &pipe->src_planes, pipe->src_fmt); if (ret) return ret; sde_rot_data_calc_offset(&data, x, y, &pipe->src_planes, pipe->src_fmt); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC0_ADDR, data.p[0].addr); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC1_ADDR, data.p[1].addr); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC2_ADDR, data.p[2].addr); sde_mdp_pipe_write(pipe, SDE_MDP_REG_SSPP_SRC3_ADDR, data.p[3].addr); return 0; } static void sde_mdp_set_ot_limit_pipe(struct sde_mdp_pipe *pipe) { struct sde_mdp_set_ot_params ot_params = {0,}; ot_params.xin_id = pipe->xin_id; ot_params.num = pipe->num; ot_params.width = pipe->src.w; ot_params.height = pipe->src.h; ot_params.fps = 60; ot_params.reg_off_vbif_lim_conf = MMSS_VBIF_RD_LIM_CONF; ot_params.reg_off_mdp_clk_ctrl = pipe->clk_ctrl.reg_off; ot_params.bit_off_mdp_clk_ctrl = pipe->clk_ctrl.bit_off + CLK_FORCE_ON_OFFSET; ot_params.fmt = (pipe->src_fmt) ? pipe->src_fmt->format : 0; sde_mdp_set_ot_limit(&ot_params); } int sde_mdp_pipe_queue_data(struct sde_mdp_pipe *pipe, struct sde_mdp_data *src_data) { int ret = 0; u32 params_changed; struct sde_rot_data_type *mdata = sde_rot_get_mdata(); if (!pipe) { SDEROT_ERR("pipe not setup properly for queue\n"); return -ENODEV; } /* * Reprogram the pipe when there is no dedicated wfd blk and * virtual mixer is allocated for the DMA pipe during concurrent * line and block mode operations */ params_changed = (pipe->params_changed); if (params_changed) { bool is_realtime = !(pipe->mixer_left->rotator_mode); sde_mdp_qos_vbif_remapper_setup(mdata, pipe, is_realtime); if (mdata->vbif_nrt_io.base) sde_mdp_pipe_nrt_vbif_setup(mdata, pipe); } if (params_changed) { pipe->params_changed = 0; ret = sde_mdp_image_setup(pipe, src_data); if (ret) { SDEROT_ERR("image setup error for pnum=%d\n", pipe->num); goto done; } ret = sde_mdp_format_setup(pipe); if (ret) { SDEROT_ERR("format %d setup error pnum=%d\n", pipe->src_fmt->format, pipe->num); goto done; } if (test_bit(SDE_QOS_PER_PIPE_LUT, mdata->sde_qos_map)) sde_mdp_pipe_qos_lut(pipe); sde_mdp_set_ot_limit_pipe(pipe); } ret = sde_mdp_src_addr_setup(pipe, src_data); if (ret) { SDEROT_ERR("addr setup error for pnum=%d\n", pipe->num); goto done; } sde_mdp_mixer_pipe_update(pipe, pipe->mixer_left, params_changed); done: return ret; }