/* Copyright (c) 2013-2018, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #define pr_fmt(fmt) "%s: " fmt, __func__ #include #include #include #include #include #include #include #include #include #include "mdp3_ctrl.h" #include "mdp3.h" #include "mdp3_ppp.h" #include "mdss_smmu.h" #define VSYNC_EXPIRE_TICK 4 static void mdp3_ctrl_pan_display(struct msm_fb_data_type *mfd); static int mdp3_overlay_unset(struct msm_fb_data_type *mfd, int ndx); static int mdp3_histogram_stop(struct mdp3_session_data *session, u32 block); static int mdp3_ctrl_clk_enable(struct msm_fb_data_type *mfd, int enable); static int mdp3_ctrl_vsync_enable(struct msm_fb_data_type *mfd, int enable); static int mdp3_ctrl_get_intf_type(struct msm_fb_data_type *mfd); static int mdp3_ctrl_lut_read(struct msm_fb_data_type *mfd, struct mdp_rgb_lut_data *cfg); static int mdp3_ctrl_lut_config(struct msm_fb_data_type *mfd, struct mdp_rgb_lut_data *cfg); static void mdp3_ctrl_pp_resume(struct msm_fb_data_type *mfd); static int mdp3_ctrl_reset(struct msm_fb_data_type *mfd); static int mdp3_ctrl_get_pack_pattern(u32 imgType); u32 mdp_lut_inverse16[MDP_LUT_SIZE] = { 0, 65536, 32768, 21845, 16384, 13107, 10923, 9362, 8192, 7282, 6554, 5958, 5461, 5041, 4681, 4369, 4096, 3855, 3641, 3449, 3277, 3121, 2979, 2849, 2731, 2621, 2521, 2427, 2341, 2260, 2185, 2114, 2048, 1986, 1928, 1872, 1820, 1771, 1725, 1680, 1638, 1598, 1560, 1524, 1489, 1456, 1425, 1394, 1365, 1337, 1311, 1285, 1260, 1237, 1214, 1192, 1170, 1150, 1130, 1111, 1092, 1074, 1057, 1040, 1024, 1008, 993, 978, 964, 950, 936, 923, 910, 898, 886, 874, 862, 851, 840, 830, 819, 809, 799, 790, 780, 771, 762, 753, 745, 736, 728, 720, 712, 705, 697, 690, 683, 676, 669, 662, 655, 649, 643, 636, 630, 624, 618, 612, 607, 601, 596, 590, 585, 580, 575, 570, 565, 560, 555, 551, 546, 542, 537, 533, 529, 524, 520, 516, 512, 508, 504, 500, 496, 493, 489, 485, 482, 478, 475, 471, 468, 465, 462, 458, 455, 452, 449, 446, 443, 440, 437, 434, 431, 428, 426, 423, 420, 417, 415, 412, 410, 407, 405, 402, 400, 397, 395, 392, 390, 388, 386, 383, 381, 379, 377, 374, 372, 370, 368, 366, 364, 362, 360, 358, 356, 354, 352, 350, 349, 347, 345, 343, 341, 340, 338, 336, 334, 333, 331, 329, 328, 326, 324, 323, 321, 320, 318, 317, 315, 314, 312, 311, 309, 308, 306, 305, 303, 302, 301, 299, 298, 297, 295, 294, 293, 291, 290, 289, 287, 286, 285, 284, 282, 281, 280, 279, 278, 277, 275, 274, 273, 272, 271, 270, 269, 267, 266, 265, 264, 263, 262, 261, 260, 259, 258, 257}; static void mdp3_bufq_init(struct mdp3_buffer_queue *bufq) { bufq->count = 0; bufq->push_idx = 0; bufq->pop_idx = 0; } static void mdp3_bufq_deinit(struct mdp3_buffer_queue *bufq) { int count = bufq->count; if (!count) return; while (count-- && (bufq->pop_idx >= 0)) { struct mdp3_img_data *data = &bufq->img_data[bufq->pop_idx]; bufq->pop_idx = (bufq->pop_idx + 1) % MDP3_MAX_BUF_QUEUE; mdp3_put_img(data, MDP3_CLIENT_DMA_P); } bufq->count = 0; bufq->push_idx = 0; bufq->pop_idx = 0; } static int mdp3_bufq_push(struct mdp3_buffer_queue *bufq, struct mdp3_img_data *data) { if (bufq->count >= MDP3_MAX_BUF_QUEUE) { pr_err("bufq full\n"); return -EPERM; } bufq->img_data[bufq->push_idx] = *data; bufq->push_idx = (bufq->push_idx + 1) % MDP3_MAX_BUF_QUEUE; bufq->count++; return 0; } static struct mdp3_img_data *mdp3_bufq_pop(struct mdp3_buffer_queue *bufq) { struct mdp3_img_data *data; if (bufq->count == 0) return NULL; data = &bufq->img_data[bufq->pop_idx]; bufq->count--; bufq->pop_idx = (bufq->pop_idx + 1) % MDP3_MAX_BUF_QUEUE; return data; } static int mdp3_bufq_count(struct mdp3_buffer_queue *bufq) { return bufq->count; } void mdp3_ctrl_notifier_register(struct mdp3_session_data *ses, struct notifier_block *notifier) { blocking_notifier_chain_register(&ses->notifier_head, notifier); } void mdp3_ctrl_notifier_unregister(struct mdp3_session_data *ses, struct notifier_block *notifier) { blocking_notifier_chain_unregister(&ses->notifier_head, notifier); } int mdp3_ctrl_notify(struct mdp3_session_data *ses, int event) { return blocking_notifier_call_chain(&ses->notifier_head, event, ses); } static void mdp3_dispatch_dma_done(struct work_struct *work) { struct mdp3_session_data *session; int cnt = 0; pr_debug("%s\n", __func__); session = container_of(work, struct mdp3_session_data, dma_done_work); if (!session) return; cnt = atomic_read(&session->dma_done_cnt); while (cnt > 0) { mdp3_ctrl_notify(session, MDP_NOTIFY_FRAME_DONE); atomic_dec(&session->dma_done_cnt); cnt--; } } static void mdp3_dispatch_clk_off(struct work_struct *work) { struct mdp3_session_data *session; int rc; bool dmap_busy; int retry_count = 2; pr_debug("%s\n", __func__); session = container_of(work, struct mdp3_session_data, clk_off_work); if (!session) return; mutex_lock(&session->lock); if (session->vsync_enabled || atomic_read(&session->vsync_countdown) != 0) { mutex_unlock(&session->lock); pr_debug("Ignoring clk shut down\n"); return; } if (session->intf->active) { retry_dma_done: rc = wait_for_completion_timeout(&session->dma_completion, WAIT_DMA_TIMEOUT); if (rc <= 0) { struct mdss_panel_data *panel; panel = session->panel; pr_debug("cmd kickoff timed out (%d)\n", rc); dmap_busy = session->dma->busy(); if (dmap_busy) { if (--retry_count) { pr_err("dmap is busy, retry %d\n", retry_count); goto retry_dma_done; } pr_err("dmap is still busy, bug_on\n"); BUG_ON(1); } else { pr_debug("dmap is not busy, continue\n"); } } } mdp3_ctrl_vsync_enable(session->mfd, 0); mdp3_ctrl_clk_enable(session->mfd, 0); mutex_unlock(&session->lock); } void vsync_notify_handler(void *arg) { struct mdp3_session_data *session = (struct mdp3_session_data *)arg; session->vsync_time = ktime_get(); sysfs_notify_dirent(session->vsync_event_sd); } void dma_done_notify_handler(void *arg) { struct mdp3_session_data *session = (struct mdp3_session_data *)arg; atomic_inc(&session->dma_done_cnt); schedule_work(&session->dma_done_work); complete_all(&session->dma_completion); } void vsync_count_down(void *arg) { struct mdp3_session_data *session = (struct mdp3_session_data *)arg; /* We are counting down to turn off clocks */ atomic_dec(&session->vsync_countdown); if (atomic_read(&session->vsync_countdown) == 0) schedule_work(&session->clk_off_work); } void mdp3_ctrl_reset_countdown(struct mdp3_session_data *session, struct msm_fb_data_type *mfd) { if (mdp3_ctrl_get_intf_type(mfd) == MDP3_DMA_OUTPUT_SEL_DSI_CMD) atomic_set(&session->vsync_countdown, VSYNC_EXPIRE_TICK); } static int mdp3_ctrl_vsync_enable(struct msm_fb_data_type *mfd, int enable) { struct mdp3_session_data *mdp3_session; struct mdp3_notification vsync_client; struct mdp3_notification *arg = NULL; pr_debug("mdp3_ctrl_vsync_enable =%d\n", enable); mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; if (!mdp3_session || !mdp3_session->panel || !mdp3_session->dma || !mdp3_session->intf) return -ENODEV; if (!mdp3_session->status) { pr_debug("fb%d is not on yet", mfd->index); return -EINVAL; } if (enable) { vsync_client.handler = vsync_notify_handler; vsync_client.arg = mdp3_session; arg = &vsync_client; } else if (atomic_read(&mdp3_session->vsync_countdown)) { /* * Now that vsync is no longer needed we will * shutdown dsi clocks as soon as cnt down == 0 * for cmd mode panels */ vsync_client.handler = vsync_count_down; vsync_client.arg = mdp3_session; arg = &vsync_client; enable = 1; } mdp3_clk_enable(1, 0); mdp3_session->dma->vsync_enable(mdp3_session->dma, arg); mdp3_clk_enable(0, 0); /* * Need to fake vsync whenever dsi interface is not * active or when dsi clocks are currently off */ if (enable && mdp3_session->status == 1 && (mdp3_session->vsync_before_commit || !mdp3_session->intf->active)) { mod_timer(&mdp3_session->vsync_timer, jiffies + msecs_to_jiffies(mdp3_session->vsync_period)); } else if (enable && !mdp3_session->clk_on) { mdp3_ctrl_reset_countdown(mdp3_session, mfd); mdp3_ctrl_clk_enable(mfd, 1); } else if (!enable) { del_timer(&mdp3_session->vsync_timer); } return 0; } void mdp3_vsync_timer_func(unsigned long arg) { struct mdp3_session_data *session = (struct mdp3_session_data *)arg; if (session->status == 1 && (session->vsync_before_commit || !session->intf->active)) { pr_debug("mdp3_vsync_timer_func trigger\n"); vsync_notify_handler(session); mod_timer(&session->vsync_timer, jiffies + msecs_to_jiffies(session->vsync_period)); } } static int mdp3_ctrl_async_blit_req(struct msm_fb_data_type *mfd, void __user *p) { struct mdp_async_blit_req_list req_list_header; int rc, count; void __user *p_req; if (copy_from_user(&req_list_header, p, sizeof(req_list_header))) return -EFAULT; p_req = p + sizeof(req_list_header); count = req_list_header.count; if (count < 0 || count >= MAX_BLIT_REQ) return -EINVAL; rc = mdp3_ppp_parse_req(p_req, &req_list_header, 1); if (!rc) rc = copy_to_user(p, &req_list_header, sizeof(req_list_header)); return rc; } static int mdp3_ctrl_blit_req(struct msm_fb_data_type *mfd, void __user *p) { struct mdp_async_blit_req_list req_list_header; int rc, count; void __user *p_req; if (copy_from_user(&(req_list_header.count), p, sizeof(struct mdp_blit_req_list))) return -EFAULT; p_req = p + sizeof(struct mdp_blit_req_list); count = req_list_header.count; if (count < 0 || count >= MAX_BLIT_REQ) return -EINVAL; req_list_header.sync.acq_fen_fd_cnt = 0; rc = mdp3_ppp_parse_req(p_req, &req_list_header, 0); return rc; } static ssize_t mdp3_vsync_show_event(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *fbi = dev_get_drvdata(dev); struct msm_fb_data_type *mfd = (struct msm_fb_data_type *)fbi->par; struct mdp3_session_data *mdp3_session = NULL; u64 vsync_ticks; int rc; if (!mfd || !mfd->mdp.private1) return -EAGAIN; mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; vsync_ticks = ktime_to_ns(mdp3_session->vsync_time); pr_debug("fb%d vsync=%llu\n", mfd->index, vsync_ticks); rc = scnprintf(buf, PAGE_SIZE, "VSYNC=%llu\n", vsync_ticks); return rc; } static ssize_t mdp3_packpattern_show(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *fbi = dev_get_drvdata(dev); struct msm_fb_data_type *mfd = (struct msm_fb_data_type *)fbi->par; struct mdp3_session_data *mdp3_session = NULL; int rc; u32 pattern = 0; if (!mfd || !mfd->mdp.private1) return -EAGAIN; mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; pattern = mdp3_session->dma->output_config.pack_pattern; /* If pattern was found to be 0 then get pattern for fb imagetype */ if (!pattern) pattern = mdp3_ctrl_get_pack_pattern(mfd->fb_imgType); pr_debug("fb%d pack_pattern c= %d.", mfd->index, pattern); rc = scnprintf(buf, PAGE_SIZE, "packpattern=%d\n", pattern); return rc; } static ssize_t mdp3_dyn_pu_show(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *fbi = dev_get_drvdata(dev); struct msm_fb_data_type *mfd = fbi->par; struct mdp3_session_data *mdp3_session = NULL; int ret, state; if (!mfd || !mfd->mdp.private1) return -EAGAIN; mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; state = (mdp3_session->dyn_pu_state >= 0) ? mdp3_session->dyn_pu_state : -1; ret = scnprintf(buf, PAGE_SIZE, "%d", state); return ret; } static ssize_t mdp3_dyn_pu_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { struct fb_info *fbi = dev_get_drvdata(dev); struct msm_fb_data_type *mfd = fbi->par; struct mdp3_session_data *mdp3_session = NULL; int ret, dyn_pu; if (!mfd || !mfd->mdp.private1) return -EAGAIN; mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; ret = kstrtoint(buf, 10, &dyn_pu); if (ret) { pr_err("Invalid input for partial update: ret = %d\n", ret); return ret; } mdp3_session->dyn_pu_state = dyn_pu; sysfs_notify(&dev->kobj, NULL, "dyn_pu"); return count; } static DEVICE_ATTR(vsync_event, S_IRUGO, mdp3_vsync_show_event, NULL); static DEVICE_ATTR(packpattern, S_IRUGO, mdp3_packpattern_show, NULL); static DEVICE_ATTR(dyn_pu, S_IRUGO | S_IWUSR | S_IWGRP, mdp3_dyn_pu_show, mdp3_dyn_pu_store); static struct attribute *generic_attrs[] = { &dev_attr_packpattern.attr, &dev_attr_dyn_pu.attr, NULL, }; static struct attribute *vsync_fs_attrs[] = { &dev_attr_vsync_event.attr, NULL, }; static struct attribute_group vsync_fs_attr_group = { .attrs = vsync_fs_attrs, }; static struct attribute_group generic_attr_group = { .attrs = generic_attrs, }; static int mdp3_ctrl_clk_enable(struct msm_fb_data_type *mfd, int enable) { struct mdp3_session_data *session; struct mdss_panel_data *panel; struct dsi_panel_clk_ctrl clk_ctrl; int rc = 0; pr_debug("mdp3_ctrl_clk_enable %d\n", enable); session = mfd->mdp.private1; panel = session->panel; if (!panel->event_handler) return 0; if ((enable && session->clk_on == 0) || (!enable && session->clk_on == 1)) { clk_ctrl.client = DSI_CLK_REQ_MDP_CLIENT; clk_ctrl.state = enable; rc = panel->event_handler(panel, MDSS_EVENT_PANEL_CLK_CTRL, (void *)&clk_ctrl); rc |= mdp3_res_update(enable, 1, MDP3_CLIENT_DMA_P); } else { pr_debug("enable = %d, clk_on=%d\n", enable, session->clk_on); } session->clk_on = enable; return rc; } static int mdp3_ctrl_res_req_bus(struct msm_fb_data_type *mfd, int status) { int rc = 0; if (status) { u64 ab = 0; u64 ib = 0; mdp3_calc_dma_res(mfd->panel_info, NULL, &ab, &ib, ppp_bpp(mfd->fb_imgType)); rc = mdp3_bus_scale_set_quota(MDP3_CLIENT_DMA_P, ab, ib); } else { rc = mdp3_bus_scale_set_quota(MDP3_CLIENT_DMA_P, 0, 0); } return rc; } static int mdp3_ctrl_res_req_clk(struct msm_fb_data_type *mfd, int status) { int rc = 0; if (status) { u64 mdp_clk_rate = 0; mdp3_calc_dma_res(mfd->panel_info, &mdp_clk_rate, NULL, NULL, 0); mdp3_clk_set_rate(MDP3_CLK_MDP_SRC, mdp_clk_rate, MDP3_CLIENT_DMA_P); mdp3_clk_set_rate(MDP3_CLK_VSYNC, MDP_VSYNC_CLK_RATE, MDP3_CLIENT_DMA_P); rc = mdp3_res_update(1, 1, MDP3_CLIENT_DMA_P); if (rc) { pr_err("mdp3 clk enable fail\n"); return rc; } } else { rc = mdp3_res_update(0, 1, MDP3_CLIENT_DMA_P); if (rc) pr_err("mdp3 clk disable fail\n"); } return rc; } static int mdp3_ctrl_get_intf_type(struct msm_fb_data_type *mfd) { int type; switch (mfd->panel.type) { case MIPI_VIDEO_PANEL: type = MDP3_DMA_OUTPUT_SEL_DSI_VIDEO; break; case MIPI_CMD_PANEL: type = MDP3_DMA_OUTPUT_SEL_DSI_CMD; break; case LCDC_PANEL: type = MDP3_DMA_OUTPUT_SEL_LCDC; break; default: type = MDP3_DMA_OUTPUT_SEL_MAX; } return type; } static int mdp3_ctrl_get_source_format(u32 imgType) { int format; switch (imgType) { case MDP_RGB_565: format = MDP3_DMA_IBUF_FORMAT_RGB565; break; case MDP_RGB_888: format = MDP3_DMA_IBUF_FORMAT_RGB888; break; case MDP_ARGB_8888: case MDP_RGBA_8888: format = MDP3_DMA_IBUF_FORMAT_XRGB8888; break; default: format = MDP3_DMA_IBUF_FORMAT_UNDEFINED; } return format; } static int mdp3_ctrl_get_pack_pattern(u32 imgType) { int packPattern = MDP3_DMA_OUTPUT_PACK_PATTERN_RGB; if (imgType == MDP_RGBA_8888 || imgType == MDP_RGB_888) packPattern = MDP3_DMA_OUTPUT_PACK_PATTERN_BGR; return packPattern; } static int mdp3_ctrl_intf_init(struct msm_fb_data_type *mfd, struct mdp3_intf *intf) { int rc = 0; struct mdp3_intf_cfg cfg; struct mdp3_video_intf_cfg *video = &cfg.video; struct mdss_panel_info *p = mfd->panel_info; int h_back_porch = p->lcdc.h_back_porch; int h_front_porch = p->lcdc.h_front_porch; int w = p->xres; int v_back_porch = p->lcdc.v_back_porch; int v_front_porch = p->lcdc.v_front_porch; int h = p->yres; int h_sync_skew = p->lcdc.hsync_skew; int h_pulse_width = p->lcdc.h_pulse_width; int v_pulse_width = p->lcdc.v_pulse_width; int hsync_period = h_front_porch + h_back_porch + w + h_pulse_width; int vsync_period = v_front_porch + v_back_porch + h + v_pulse_width; struct mdp3_session_data *mdp3_session; mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; vsync_period *= hsync_period; cfg.type = mdp3_ctrl_get_intf_type(mfd); if (cfg.type == MDP3_DMA_OUTPUT_SEL_DSI_VIDEO || cfg.type == MDP3_DMA_OUTPUT_SEL_LCDC) { video->hsync_period = hsync_period; video->hsync_pulse_width = h_pulse_width; video->vsync_period = vsync_period; video->vsync_pulse_width = v_pulse_width * hsync_period; video->display_start_x = h_back_porch + h_pulse_width; video->display_end_x = hsync_period - h_front_porch - 1; video->display_start_y = (v_back_porch + v_pulse_width) * hsync_period; video->display_end_y = vsync_period - v_front_porch * hsync_period - 1; video->active_start_x = video->display_start_x; video->active_end_x = video->display_end_x; video->active_h_enable = true; video->active_start_y = video->display_start_y; video->active_end_y = video->display_end_y; video->active_v_enable = true; video->hsync_skew = h_sync_skew; video->hsync_polarity = 1; video->vsync_polarity = 1; video->de_polarity = 1; video->underflow_color = p->lcdc.underflow_clr; } else if (cfg.type == MDP3_DMA_OUTPUT_SEL_DSI_CMD) { cfg.dsi_cmd.primary_dsi_cmd_id = 0; cfg.dsi_cmd.secondary_dsi_cmd_id = 1; cfg.dsi_cmd.dsi_cmd_tg_intf_sel = 0; } else return -EINVAL; if (!(mdp3_session->in_splash_screen)) { if (intf->config) rc = intf->config(intf, &cfg); else rc = -EINVAL; } return rc; } static int mdp3_ctrl_dma_init(struct msm_fb_data_type *mfd, struct mdp3_dma *dma) { int rc; struct mdss_panel_info *panel_info = mfd->panel_info; struct fb_info *fbi = mfd->fbi; struct fb_fix_screeninfo *fix; struct fb_var_screeninfo *var; struct mdp3_dma_output_config outputConfig; struct mdp3_dma_source sourceConfig; int frame_rate = mfd->panel_info->mipi.frame_rate; int vbp, vfp, vspw; int vtotal, vporch; struct mdp3_notification dma_done_callback; struct mdp3_tear_check te; struct mdp3_session_data *mdp3_session; mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; vbp = panel_info->lcdc.v_back_porch; vfp = panel_info->lcdc.v_front_porch; vspw = panel_info->lcdc.v_pulse_width; vporch = vbp + vfp + vspw; vtotal = vporch + panel_info->yres; fix = &fbi->fix; var = &fbi->var; sourceConfig.width = panel_info->xres; sourceConfig.height = panel_info->yres; sourceConfig.x = 0; sourceConfig.y = 0; sourceConfig.buf = mfd->iova; sourceConfig.vporch = vporch; sourceConfig.vsync_count = MDP_VSYNC_CLK_RATE / (frame_rate * vtotal); outputConfig.dither_en = 0; outputConfig.out_sel = mdp3_ctrl_get_intf_type(mfd); outputConfig.bit_mask_polarity = 0; outputConfig.color_components_flip = 0; outputConfig.pack_align = MDP3_DMA_OUTPUT_PACK_ALIGN_LSB; outputConfig.color_comp_out_bits = (MDP3_DMA_OUTPUT_COMP_BITS_8 << 4) | (MDP3_DMA_OUTPUT_COMP_BITS_8 << 2)| MDP3_DMA_OUTPUT_COMP_BITS_8; if (dma->update_src_cfg) { /* configuration has been updated through PREPARE call */ sourceConfig.format = dma->source_config.format; sourceConfig.stride = dma->source_config.stride; outputConfig.pack_pattern = dma->output_config.pack_pattern; } else { sourceConfig.format = mdp3_ctrl_get_source_format(mfd->fb_imgType); outputConfig.pack_pattern = mdp3_ctrl_get_pack_pattern(mfd->fb_imgType); sourceConfig.stride = fix->line_length; } te.frame_rate = panel_info->mipi.frame_rate; te.hw_vsync_mode = panel_info->mipi.hw_vsync_mode; te.tear_check_en = panel_info->te.tear_check_en; te.sync_cfg_height = panel_info->te.sync_cfg_height; te.vsync_init_val = panel_info->te.vsync_init_val; te.sync_threshold_start = panel_info->te.sync_threshold_start; te.sync_threshold_continue = panel_info->te.sync_threshold_continue; te.start_pos = panel_info->te.start_pos; te.rd_ptr_irq = panel_info->te.rd_ptr_irq; te.refx100 = panel_info->te.refx100; if (dma->dma_config) { if (!panel_info->partial_update_enabled) { dma->roi.w = sourceConfig.width; dma->roi.h = sourceConfig.height; dma->roi.x = sourceConfig.x; dma->roi.y = sourceConfig.y; } rc = dma->dma_config(dma, &sourceConfig, &outputConfig, mdp3_session->in_splash_screen); } else { pr_err("%s: dma config failed\n", __func__); rc = -EINVAL; } if (outputConfig.out_sel == MDP3_DMA_OUTPUT_SEL_DSI_CMD) { if (dma->dma_sync_config) rc = dma->dma_sync_config(dma, &sourceConfig, &te); else rc = -EINVAL; dma_done_callback.handler = dma_done_notify_handler; dma_done_callback.arg = mfd->mdp.private1; dma->dma_done_notifier(dma, &dma_done_callback); } return rc; } static int mdp3_ctrl_on(struct msm_fb_data_type *mfd) { int rc = 0; struct mdp3_session_data *mdp3_session; struct mdss_panel_data *panel; pr_debug("mdp3_ctrl_on\n"); mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; if (!mdp3_session || !mdp3_session->panel || !mdp3_session->dma || !mdp3_session->intf) { pr_err("mdp3_ctrl_on no device"); return -ENODEV; } mutex_lock(&mdp3_session->lock); panel = mdp3_session->panel; pr_err("%s %d in_splash_screen %d\n", __func__, __LINE__, mdp3_session->in_splash_screen); /* make sure DSI host is initialized properly */ if (panel) { pr_debug("%s : dsi host init, power state = %d Splash %d\n", __func__, mfd->panel_power_state, mdp3_session->in_splash_screen); if (mdss_fb_is_power_on_lp(mfd) || mdp3_session->in_splash_screen) { /* Turn on panel so that it can exit low power mode */ pr_err("%s %d\n", __func__, __LINE__); mdp3_clk_enable(1, 0); rc = panel->event_handler(panel, MDSS_EVENT_LINK_READY, NULL); rc |= panel->event_handler(panel, MDSS_EVENT_UNBLANK, NULL); rc |= panel->event_handler(panel, MDSS_EVENT_PANEL_ON, NULL); mdp3_clk_enable(0, 0); } } if (mdp3_session->status) { pr_err("fb%d is on already\n", mfd->index); goto end; } if (mdp3_session->intf->active) { pr_debug("continuous splash screen, initialized already\n"); mdp3_session->status = 1; goto end; } /* * Get a reference to the runtime pm device. * If idle pc feature is enabled, it will be released * at end of this routine else, when device is turned off. */ pm_runtime_get_sync(&mdp3_res->pdev->dev); /* Increment the overlay active count */ atomic_inc(&mdp3_res->active_intf_cnt); mdp3_ctrl_notifier_register(mdp3_session, &mdp3_session->mfd->mdp_sync_pt_data.notifier); /* request bus bandwidth before DSI DMA traffic */ rc = mdp3_ctrl_res_req_bus(mfd, 1); if (rc) { pr_err("fail to request bus resource\n"); goto on_error; } rc = mdp3_dynamic_clock_gating_ctrl(0); if (rc) { pr_err("fail to disable dynamic clock gating\n"); goto on_error; } mdp3_qos_remapper_setup(panel); rc = mdp3_ctrl_res_req_clk(mfd, 1); if (rc) { pr_err("fail to request mdp clk resource\n"); goto on_error; } if (panel->event_handler) { rc = panel->event_handler(panel, MDSS_EVENT_LINK_READY, NULL); rc |= panel->event_handler(panel, MDSS_EVENT_UNBLANK, NULL); rc |= panel->event_handler(panel, MDSS_EVENT_PANEL_ON, NULL); if (panel->panel_info.type == MIPI_CMD_PANEL) { struct dsi_panel_clk_ctrl clk_ctrl; clk_ctrl.state = MDSS_DSI_CLK_ON; clk_ctrl.client = DSI_CLK_REQ_MDP_CLIENT; rc |= panel->event_handler(panel, MDSS_EVENT_PANEL_CLK_CTRL, (void *)&clk_ctrl); } } if (rc) { pr_err("fail to turn on the panel\n"); goto on_error; } rc = mdp3_ctrl_dma_init(mfd, mdp3_session->dma); if (rc) { pr_err("dma init failed\n"); goto on_error; } rc = mdp3_ppp_init(); if (rc) { pr_err("ppp init failed\n"); goto on_error; } rc = mdp3_ctrl_intf_init(mfd, mdp3_session->intf); if (rc) { pr_err("display interface init failed\n"); goto on_error; } mdp3_session->clk_on = 1; mdp3_session->first_commit = true; if (mfd->panel_info->panel_dead) mdp3_session->esd_recovery = true; mdp3_session->status = 1; mdp3_ctrl_pp_resume(mfd); on_error: if (rc || (mdp3_res->idle_pc_enabled && (mfd->panel_info->type == MIPI_CMD_PANEL))) { if (rc) { pr_err("Failed to turn on fb%d\n", mfd->index); atomic_dec(&mdp3_res->active_intf_cnt); } pm_runtime_put(&mdp3_res->pdev->dev); } end: mutex_unlock(&mdp3_session->lock); return rc; } static int mdp3_ctrl_off(struct msm_fb_data_type *mfd) { int rc = 0; bool intf_stopped = true; struct mdp3_session_data *mdp3_session; struct mdss_panel_data *panel; pr_debug("mdp3_ctrl_off\n"); mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; if (!mdp3_session || !mdp3_session->panel || !mdp3_session->dma || !mdp3_session->intf) { pr_err("mdp3_ctrl_on no device"); return -ENODEV; } /* * Keep a reference to the runtime pm until the overlay is turned * off, and then release this last reference at the end. This will * help in distinguishing between idle power collapse versus suspend * power collapse */ pm_runtime_get_sync(&mdp3_res->pdev->dev); panel = mdp3_session->panel; mutex_lock(&mdp3_session->lock); pr_debug("Requested power state = %d\n", mfd->panel_power_state); if (mdss_fb_is_power_on_lp(mfd)) { /* * Transition to low power * As display updates are expected in low power mode, * keep the interface and clocks on. */ intf_stopped = false; } else { /* Transition to display off */ if (!mdp3_session->status) { pr_debug("fb%d is off already", mfd->index); goto off_error; } if (panel && panel->set_backlight) panel->set_backlight(panel, 0); } /* * While transitioning from interactive to low power, * events need to be sent to the interface so that the * panel can be configured in low power mode */ if (panel->event_handler) rc = panel->event_handler(panel, MDSS_EVENT_BLANK, (void *) (long int)mfd->panel_power_state); if (rc) pr_err("EVENT_BLANK error (%d)\n", rc); if (intf_stopped) { if (!mdp3_session->clk_on) mdp3_ctrl_clk_enable(mfd, 1); /* PP related programming for ctrl off */ mdp3_histogram_stop(mdp3_session, MDP_BLOCK_DMA_P); mutex_lock(&mdp3_session->dma->pp_lock); mdp3_session->dma->ccs_config.ccs_dirty = false; mdp3_session->dma->lut_config.lut_dirty = false; mutex_unlock(&mdp3_session->dma->pp_lock); rc = mdp3_session->dma->stop(mdp3_session->dma, mdp3_session->intf); if (rc) pr_debug("fail to stop the MDP3 dma\n"); /* Wait to ensure TG to turn off */ msleep(20); mfd->panel_info->cont_splash_enabled = 0; /* Disable Auto refresh once continuous splash disabled */ mdp3_autorefresh_disable(mfd->panel_info); mdp3_splash_done(mfd->panel_info); mdp3_irq_deregister(); } if (panel->event_handler) rc = panel->event_handler(panel, MDSS_EVENT_PANEL_OFF, (void *) (long int)mfd->panel_power_state); if (rc) pr_err("EVENT_PANEL_OFF error (%d)\n", rc); if (intf_stopped) { if (mdp3_session->clk_on) { pr_debug("mdp3_ctrl_off stop clock\n"); if (panel->event_handler && (panel->panel_info.type == MIPI_CMD_PANEL)) { struct dsi_panel_clk_ctrl clk_ctrl; clk_ctrl.state = MDSS_DSI_CLK_OFF; clk_ctrl.client = DSI_CLK_REQ_MDP_CLIENT; rc |= panel->event_handler(panel, MDSS_EVENT_PANEL_CLK_CTRL, (void *)&clk_ctrl); } rc = mdp3_dynamic_clock_gating_ctrl(1); rc = mdp3_res_update(0, 1, MDP3_CLIENT_DMA_P); if (rc) pr_err("mdp clock resource release failed\n"); } mdp3_ctrl_notifier_unregister(mdp3_session, &mdp3_session->mfd->mdp_sync_pt_data.notifier); mdp3_session->vsync_enabled = 0; atomic_set(&mdp3_session->vsync_countdown, 0); atomic_set(&mdp3_session->dma_done_cnt, 0); mdp3_session->clk_on = 0; mdp3_session->in_splash_screen = 0; mdp3_res->solid_fill_vote_en = false; mdp3_session->status = 0; if (atomic_dec_return(&mdp3_res->active_intf_cnt) != 0) { pr_warn("active_intf_cnt unbalanced\n"); atomic_set(&mdp3_res->active_intf_cnt, 0); } /* * Release the pm runtime reference held when * idle pc feature is not enabled */ if (!mdp3_res->idle_pc_enabled || (mfd->panel_info->type != MIPI_CMD_PANEL)) { rc = pm_runtime_put(&mdp3_res->pdev->dev); if (rc) pr_err("%s: pm_runtime_put failed (rc %d)\n", __func__, rc); } mdp3_bufq_deinit(&mdp3_session->bufq_out); if (mdp3_session->overlay.id != MSMFB_NEW_REQUEST) { mdp3_session->overlay.id = MSMFB_NEW_REQUEST; mdp3_bufq_deinit(&mdp3_session->bufq_in); } } off_error: mutex_unlock(&mdp3_session->lock); /* Release the last reference to the runtime device */ pm_runtime_put(&mdp3_res->pdev->dev); return 0; } static int mdp3_ctrl_reset(struct msm_fb_data_type *mfd) { int rc = 0; struct mdp3_session_data *mdp3_session; struct mdp3_dma *mdp3_dma; struct mdss_panel_data *panel; struct mdp3_notification vsync_client; pr_debug("mdp3_ctrl_reset\n"); mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; if (!mdp3_session || !mdp3_session->panel || !mdp3_session->dma || !mdp3_session->intf) { pr_err("mdp3_ctrl_reset no device"); return -ENODEV; } panel = mdp3_session->panel; mdp3_dma = mdp3_session->dma; mutex_lock(&mdp3_session->lock); if (mdp3_res->idle_pc) { mdp3_clk_enable(1, 0); mdp3_dynamic_clock_gating_ctrl(0); mdp3_qos_remapper_setup(panel); } rc = mdp3_iommu_enable(MDP3_CLIENT_DMA_P); if (rc) { pr_err("fail to attach dma iommu\n"); if (mdp3_res->idle_pc) mdp3_clk_enable(0, 0); goto reset_error; } vsync_client = mdp3_dma->vsync_client; mdp3_ctrl_intf_init(mfd, mdp3_session->intf); mdp3_ctrl_dma_init(mfd, mdp3_dma); mdp3_ppp_init(); mdp3_ctrl_pp_resume(mfd); if (vsync_client.handler) mdp3_dma->vsync_enable(mdp3_dma, &vsync_client); if (!mdp3_res->idle_pc) { mdp3_session->first_commit = true; mfd->panel_info->cont_splash_enabled = 0; mdp3_session->in_splash_screen = 0; mdp3_splash_done(mfd->panel_info); /* Disable Auto refresh */ mdp3_autorefresh_disable(mfd->panel_info); } else { mdp3_res->idle_pc = false; mdp3_clk_enable(0, 0); mdp3_iommu_disable(MDP3_CLIENT_DMA_P); } reset_error: mutex_unlock(&mdp3_session->lock); return rc; } static int mdp3_overlay_get(struct msm_fb_data_type *mfd, struct mdp_overlay *req) { int rc = 0; struct mdp3_session_data *mdp3_session = mfd->mdp.private1; mutex_lock(&mdp3_session->lock); if (mdp3_session->overlay.id == req->id) *req = mdp3_session->overlay; else rc = -EINVAL; mutex_unlock(&mdp3_session->lock); return rc; } static int mdp3_overlay_set(struct msm_fb_data_type *mfd, struct mdp_overlay *req) { int rc = 0; struct mdp3_session_data *mdp3_session = mfd->mdp.private1; struct mdp3_dma *dma = mdp3_session->dma; struct fb_fix_screeninfo *fix; struct fb_info *fbi = mfd->fbi; int stride; int format; fix = &fbi->fix; stride = req->src.width * ppp_bpp(req->src.format); format = mdp3_ctrl_get_source_format(req->src.format); if (mdp3_session->overlay.id != req->id) pr_err("overlay was not released, continue to recover\n"); /* * A change in overlay structure will always come with * MSMFB_NEW_REQUEST for MDP3 */ if (req->id == MSMFB_NEW_REQUEST) { mutex_lock(&mdp3_session->lock); if (dma->source_config.stride != stride || dma->source_config.format != format) { dma->source_config.format = format; dma->source_config.stride = stride; dma->output_config.pack_pattern = mdp3_ctrl_get_pack_pattern(req->src.format); dma->update_src_cfg = true; } mdp3_session->overlay = *req; mdp3_session->overlay.id = 1; req->id = 1; mutex_unlock(&mdp3_session->lock); } return rc; } static int mdp3_overlay_unset(struct msm_fb_data_type *mfd, int ndx) { int rc = 0; struct mdp3_session_data *mdp3_session = mfd->mdp.private1; struct fb_info *fbi = mfd->fbi; struct fb_fix_screeninfo *fix; int format; fix = &fbi->fix; format = mdp3_ctrl_get_source_format(mfd->fb_imgType); mutex_lock(&mdp3_session->lock); if (mdp3_session->overlay.id == ndx && ndx == 1) { mdp3_session->overlay.id = MSMFB_NEW_REQUEST; mdp3_bufq_deinit(&mdp3_session->bufq_in); } else { rc = -EINVAL; } mutex_unlock(&mdp3_session->lock); return rc; } static int mdp3_overlay_queue_buffer(struct msm_fb_data_type *mfd, struct msmfb_overlay_data *req) { int rc; struct mdp3_session_data *mdp3_session = mfd->mdp.private1; struct msmfb_data *img = &req->data; struct mdp3_img_data data; struct mdp3_dma *dma = mdp3_session->dma; memset(&data, 0, sizeof(struct mdp3_img_data)); rc = mdp3_get_img(img, &data, MDP3_CLIENT_DMA_P); if (rc) { pr_err("fail to get overlay buffer\n"); return rc; } if (data.len < dma->source_config.stride * dma->source_config.height) { pr_err("buf size(0x%lx) is smaller than dma config(0x%x)\n", data.len, (dma->source_config.stride * dma->source_config.height)); mdp3_put_img(&data, MDP3_CLIENT_DMA_P); return -EINVAL; } rc = mdp3_bufq_push(&mdp3_session->bufq_in, &data); if (rc) { pr_err("fail to queue the overlay buffer, buffer drop\n"); mdp3_put_img(&data, MDP3_CLIENT_DMA_P); return rc; } return 0; } static int mdp3_overlay_play(struct msm_fb_data_type *mfd, struct msmfb_overlay_data *req) { struct mdp3_session_data *mdp3_session = mfd->mdp.private1; int rc = 0; pr_debug("mdp3_overlay_play req id=%x mem_id=%d\n", req->id, req->data.memory_id); mutex_lock(&mdp3_session->lock); if (mdp3_session->overlay.id == MSMFB_NEW_REQUEST) { pr_err("overlay play without overlay set first\n"); mutex_unlock(&mdp3_session->lock); return -EINVAL; } if (mdss_fb_is_power_on(mfd)) rc = mdp3_overlay_queue_buffer(mfd, req); else rc = -EPERM; mutex_unlock(&mdp3_session->lock); return rc; } bool update_roi(struct mdp3_rect oldROI, struct mdp_rect newROI) { return ((newROI.x != oldROI.x) || (newROI.y != oldROI.y) || (newROI.w != oldROI.w) || (newROI.h != oldROI.h)); } bool is_roi_valid(struct mdp3_dma_source source_config, struct mdp_rect roi) { return (roi.w > 0) && (roi.h > 0) && (roi.x >= source_config.x) && ((roi.x + roi.w) <= source_config.width) && (roi.y >= source_config.y) && ((roi.y + roi.h) <= source_config.height); } static int mdp3_ctrl_display_commit_kickoff(struct msm_fb_data_type *mfd, struct mdp_display_commit *cmt_data) { struct mdp3_session_data *mdp3_session; struct mdp3_img_data *data; struct mdss_panel_info *panel_info; int rc = 0; static bool splash_done; struct mdss_panel_data *panel; if (!mfd || !mfd->mdp.private1) return -EINVAL; panel_info = mfd->panel_info; mdp3_session = mfd->mdp.private1; if (!mdp3_session || !mdp3_session->dma) return -EINVAL; if (mdp3_bufq_count(&mdp3_session->bufq_in) == 0) { pr_debug("no buffer in queue yet\n"); return -EPERM; } if (panel_info->partial_update_enabled && is_roi_valid(mdp3_session->dma->source_config, cmt_data->l_roi) && update_roi(mdp3_session->dma->roi, cmt_data->l_roi)) { mdp3_session->dma->roi.x = cmt_data->l_roi.x; mdp3_session->dma->roi.y = cmt_data->l_roi.y; mdp3_session->dma->roi.w = cmt_data->l_roi.w; mdp3_session->dma->roi.h = cmt_data->l_roi.h; mdp3_session->dma->update_src_cfg = true; pr_debug("%s: ROI: x=%d y=%d w=%d h=%d\n", __func__, mdp3_session->dma->roi.x, mdp3_session->dma->roi.y, mdp3_session->dma->roi.w, mdp3_session->dma->roi.h); } panel = mdp3_session->panel; if (mdp3_session->in_splash_screen || mdp3_res->idle_pc) { pr_debug("%s: reset- in_splash = %d, idle_pc = %d", __func__, mdp3_session->in_splash_screen, mdp3_res->idle_pc); rc = mdp3_ctrl_reset(mfd); if (rc) { pr_err("fail to reset display\n"); return -EINVAL; } } mutex_lock(&mdp3_session->lock); if (!mdp3_session->status) { pr_err("%s, display off!\n", __func__); mutex_unlock(&mdp3_session->lock); return -EPERM; } mdp3_ctrl_notify(mdp3_session, MDP_NOTIFY_FRAME_BEGIN); data = mdp3_bufq_pop(&mdp3_session->bufq_in); if (data) { mdp3_ctrl_reset_countdown(mdp3_session, mfd); mdp3_ctrl_clk_enable(mfd, 1); if (mdp3_session->dma->update_src_cfg && panel_info->partial_update_enabled) { panel->panel_info.roi.x = mdp3_session->dma->roi.x; panel->panel_info.roi.y = mdp3_session->dma->roi.y; panel->panel_info.roi.w = mdp3_session->dma->roi.w; panel->panel_info.roi.h = mdp3_session->dma->roi.h; rc = mdp3_session->dma->update(mdp3_session->dma, (void *)(int)data->addr, mdp3_session->intf, (void *)panel); } else { rc = mdp3_session->dma->update(mdp3_session->dma, (void *)(int)data->addr, mdp3_session->intf, NULL); } /* This is for the previous frame */ if (rc < 0) { mdp3_ctrl_notify(mdp3_session, MDP_NOTIFY_FRAME_TIMEOUT); } else { if (mdp3_ctrl_get_intf_type(mfd) == MDP3_DMA_OUTPUT_SEL_DSI_VIDEO) { mdp3_ctrl_notify(mdp3_session, MDP_NOTIFY_FRAME_DONE); } } mdp3_session->dma_active = 1; init_completion(&mdp3_session->dma_completion); mdp3_ctrl_notify(mdp3_session, MDP_NOTIFY_FRAME_FLUSHED); mdp3_bufq_push(&mdp3_session->bufq_out, data); } if (mdp3_bufq_count(&mdp3_session->bufq_out) > 1) { mdp3_release_splash_memory(mfd); data = mdp3_bufq_pop(&mdp3_session->bufq_out); if (data) mdp3_put_img(data, MDP3_CLIENT_DMA_P); } if (mdp3_session->first_commit) { /*wait to ensure frame is sent to panel*/ if (panel_info->mipi.init_delay) msleep(((1000 / panel_info->mipi.frame_rate) + 1) * panel_info->mipi.init_delay); else msleep(1000 / panel_info->mipi.frame_rate); mdp3_session->first_commit = false; if (panel) rc |= panel->event_handler(panel, MDSS_EVENT_POST_PANEL_ON, NULL); } mdp3_session->vsync_before_commit = 0; if (!splash_done || mdp3_session->esd_recovery == true) { if (panel && panel->set_backlight) panel->set_backlight(panel, panel->panel_info.bl_max); splash_done = true; mdp3_session->esd_recovery = false; } /* start vsync tick countdown for cmd mode if vsync isn't enabled */ if (mfd->panel.type == MIPI_CMD_PANEL && !mdp3_session->vsync_enabled) mdp3_ctrl_vsync_enable(mdp3_session->mfd, 0); mutex_unlock(&mdp3_session->lock); mdss_fb_update_notify_update(mfd); return 0; } static int mdp3_map_pan_buff_immediate(struct msm_fb_data_type *mfd) { int rc = 0; unsigned long length; dma_addr_t addr; int domain = mfd->mdp.fb_mem_get_iommu_domain(); rc = mdss_smmu_map_dma_buf(mfd->fbmem_buf, mfd->fb_table, domain, &addr, &length, DMA_BIDIRECTIONAL); if (IS_ERR_VALUE(rc)) goto err_unmap; else mfd->iova = addr; pr_debug("%s : smmu map dma buf VA: (%llx) MFD->iova %llx\n", __func__, (u64) addr, (u64) mfd->iova); return rc; err_unmap: pr_err("smmu map dma buf failed: (%d)\n", rc); dma_buf_unmap_attachment(mfd->fb_attachment, mfd->fb_table, mdss_smmu_dma_data_direction(DMA_BIDIRECTIONAL)); dma_buf_detach(mfd->fbmem_buf, mfd->fb_attachment); dma_buf_put(mfd->fbmem_buf); return rc; } static void mdp3_ctrl_pan_display(struct msm_fb_data_type *mfd) { struct fb_info *fbi; struct mdp3_session_data *mdp3_session; u32 offset; int bpp; struct mdss_panel_info *panel_info; static bool splash_done; struct mdss_panel_data *panel; int rc; pr_debug("mdp3_ctrl_pan_display\n"); if (!mfd || !mfd->mdp.private1) return; panel_info = mfd->panel_info; mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; if (!mdp3_session || !mdp3_session->dma) return; if (mdp3_session->in_splash_screen || mdp3_res->idle_pc) { pr_debug("%s: reset- in_splash = %d, idle_pc = %d", __func__, mdp3_session->in_splash_screen, mdp3_res->idle_pc); rc = mdp3_ctrl_reset(mfd); if (rc) { pr_err("fail to reset display\n"); return; } } mutex_lock(&mdp3_session->lock); if (!mdp3_session->status) { pr_err("mdp3_ctrl_pan_display, display off!\n"); goto pan_error; } fbi = mfd->fbi; bpp = fbi->var.bits_per_pixel / 8; offset = fbi->var.xoffset * bpp + fbi->var.yoffset * fbi->fix.line_length; if (offset > fbi->fix.smem_len) { pr_err("invalid fb offset=%u total length=%u\n", offset, fbi->fix.smem_len); goto pan_error; } if (mfd->fbi->screen_base) { mdp3_ctrl_reset_countdown(mdp3_session, mfd); mdp3_ctrl_notify(mdp3_session, MDP_NOTIFY_FRAME_BEGIN); mdp3_ctrl_clk_enable(mfd, 1); if (mdp3_session->first_commit) { rc = mdp3_map_pan_buff_immediate(mfd); if (IS_ERR_VALUE(rc)) goto pan_error; } rc = mdp3_session->dma->update(mdp3_session->dma, (void *)(int)(mfd->iova + offset), mdp3_session->intf, NULL); /* This is for the previous frame */ if (rc < 0) { mdp3_ctrl_notify(mdp3_session, MDP_NOTIFY_FRAME_TIMEOUT); } else { if (mdp3_ctrl_get_intf_type(mfd) == MDP3_DMA_OUTPUT_SEL_DSI_VIDEO) { mdp3_ctrl_notify(mdp3_session, MDP_NOTIFY_FRAME_DONE); } } mdp3_session->dma_active = 1; init_completion(&mdp3_session->dma_completion); mdp3_ctrl_notify(mdp3_session, MDP_NOTIFY_FRAME_FLUSHED); } else { pr_debug("mdp3_ctrl_pan_display no memory, stop interface"); mdp3_clk_enable(1, 0); mdp3_session->dma->stop(mdp3_session->dma, mdp3_session->intf); mdp3_clk_enable(0, 0); } panel = mdp3_session->panel; if (mdp3_session->first_commit) { /*wait to ensure frame is sent to panel*/ if (panel_info->mipi.init_delay) msleep(((1000 / panel_info->mipi.frame_rate) + 1) * panel_info->mipi.init_delay); else msleep(1000 / panel_info->mipi.frame_rate); mdp3_session->first_commit = false; if (panel) panel->event_handler(panel, MDSS_EVENT_POST_PANEL_ON, NULL); } mdp3_session->vsync_before_commit = 0; if (!splash_done || mdp3_session->esd_recovery == true) { if (panel && panel->set_backlight) panel->set_backlight(panel, panel->panel_info.bl_max); splash_done = true; mdp3_session->esd_recovery = false; } pan_error: mutex_unlock(&mdp3_session->lock); } static int mdp3_set_metadata(struct msm_fb_data_type *mfd, struct msmfb_metadata *metadata_ptr) { int ret = 0; switch (metadata_ptr->op) { case metadata_op_crc: ret = mdp3_ctrl_res_req_clk(mfd, 1); if (ret) { pr_err("failed to turn on mdp clks\n"); return ret; } ret = mdp3_misr_set(&metadata_ptr->data.misr_request); ret = mdp3_ctrl_res_req_clk(mfd, 0); if (ret) { pr_err("failed to release mdp clks\n"); return ret; } break; default: pr_warn("Unsupported request to MDP SET META IOCTL.\n"); ret = -EINVAL; break; } return ret; } static int mdp3_get_metadata(struct msm_fb_data_type *mfd, struct msmfb_metadata *metadata) { int ret = 0; switch (metadata->op) { case metadata_op_frame_rate: metadata->data.panel_frame_rate = mfd->panel_info->mipi.frame_rate; break; case metadata_op_get_caps: metadata->data.caps.mdp_rev = 305; metadata->data.caps.rgb_pipes = 0; metadata->data.caps.vig_pipes = 0; metadata->data.caps.dma_pipes = 1; break; case metadata_op_crc: ret = mdp3_ctrl_res_req_clk(mfd, 1); if (ret) { pr_err("failed to turn on mdp clks\n"); return ret; } ret = mdp3_misr_get(&metadata->data.misr_request); ret = mdp3_ctrl_res_req_clk(mfd, 0); if (ret) { pr_err("failed to release mdp clks\n"); return ret; } break; case metadata_op_get_ion_fd: if (mfd->fb_ion_handle && mfd->fb_ion_client) { get_dma_buf(mfd->fbmem_buf); metadata->data.fbmem_ionfd = ion_share_dma_buf_fd(mfd->fb_ion_client, mfd->fb_ion_handle); if (metadata->data.fbmem_ionfd < 0) { dma_buf_put(mfd->fbmem_buf); pr_err("fd allocation failed. fd = %d\n", metadata->data.fbmem_ionfd); } } break; default: pr_warn("Unsupported request to MDP GET META IOCTL.\n"); ret = -EINVAL; break; } return ret; } int mdp3_validate_start_req(struct mdp_histogram_start_req *req) { if (req->frame_cnt >= MDP_HISTOGRAM_FRAME_COUNT_MAX) { pr_err("%s invalid req frame_cnt\n", __func__); return -EINVAL; } if (req->bit_mask >= MDP_HISTOGRAM_BIT_MASK_MAX) { pr_err("%s invalid req bit mask\n", __func__); return -EINVAL; } if (req->block != MDP_BLOCK_DMA_P || req->num_bins != MDP_HISTOGRAM_BIN_NUM) { pr_err("mdp3_histogram_start invalid request\n"); return -EINVAL; } return 0; } int mdp3_validate_scale_config(struct mdp_bl_scale_data *data) { if (data->scale > MDP_HISTOGRAM_BL_SCALE_MAX) { pr_err("%s invalid bl_scale\n", __func__); return -EINVAL; } return 0; } int mdp3_validate_csc_data(struct mdp_csc_cfg_data *data) { int i; bool mv_valid = false; for (i = 0; i < 9; i++) { if (data->csc_data.csc_mv[i] >= MDP_HISTOGRAM_CSC_MATRIX_MAX) return -EINVAL; if ((!mv_valid) && (data->csc_data.csc_mv[i] != 0)) mv_valid = true; } if (!mv_valid) { pr_err("%s: black screen data! csc_mv is all 0s\n", __func__); return -EINVAL; } for (i = 0; i < 3; i++) { if (data->csc_data.csc_pre_bv[i] >= MDP_HISTOGRAM_CSC_VECTOR_MAX) return -EINVAL; if (data->csc_data.csc_post_bv[i] >= MDP_HISTOGRAM_CSC_VECTOR_MAX) return -EINVAL; } for (i = 0; i < 6; i++) { if (data->csc_data.csc_pre_lv[i] >= MDP_HISTOGRAM_CSC_VECTOR_MAX) return -EINVAL; if (data->csc_data.csc_post_lv[i] >= MDP_HISTOGRAM_CSC_VECTOR_MAX) return -EINVAL; } return 0; } static int mdp3_histogram_start(struct mdp3_session_data *session, struct mdp_histogram_start_req *req) { int ret; struct mdp3_dma_histogram_config histo_config; mutex_lock(&session->lock); if (!session->status) { mutex_unlock(&session->lock); return -EPERM; } pr_debug("mdp3_histogram_start\n"); ret = mdp3_validate_start_req(req); if (ret) return ret; if (!session->dma->histo_op || !session->dma->config_histo) { pr_err("mdp3_histogram_start not supported\n"); return -EINVAL; } mutex_lock(&session->histo_lock); if (session->histo_status) { pr_info("mdp3_histogram_start already started\n"); mutex_unlock(&session->histo_lock); return 0; } mdp3_res_update(1, 0, MDP3_CLIENT_DMA_P); ret = session->dma->histo_op(session->dma, MDP3_DMA_HISTO_OP_RESET); if (ret) { pr_err("mdp3_histogram_start reset error\n"); goto histogram_start_err; } histo_config.frame_count = req->frame_cnt; histo_config.bit_mask = req->bit_mask; histo_config.auto_clear_en = 1; histo_config.bit_mask_polarity = 0; ret = session->dma->config_histo(session->dma, &histo_config); if (ret) { pr_err("mdp3_histogram_start config error\n"); goto histogram_start_err; } ret = session->dma->histo_op(session->dma, MDP3_DMA_HISTO_OP_START); if (ret) { pr_err("mdp3_histogram_start config error\n"); goto histogram_start_err; } session->histo_status = 1; histogram_start_err: mdp3_res_update(0, 0, MDP3_CLIENT_DMA_P); mutex_unlock(&session->histo_lock); mutex_unlock(&session->lock); return ret; } static int mdp3_histogram_stop(struct mdp3_session_data *session, u32 block) { int ret; pr_debug("mdp3_histogram_stop\n"); if (!session->dma->histo_op || block != MDP_BLOCK_DMA_P) { pr_err("mdp3_histogram_stop not supported\n"); return -EINVAL; } mutex_lock(&session->histo_lock); if (!session->histo_status) { pr_debug("mdp3_histogram_stop already stopped!"); ret = 0; goto histogram_stop_err; } mdp3_clk_enable(1, 0); ret = session->dma->histo_op(session->dma, MDP3_DMA_HISTO_OP_CANCEL); mdp3_clk_enable(0, 0); if (ret) pr_err("mdp3_histogram_stop error\n"); session->histo_status = 0; histogram_stop_err: mutex_unlock(&session->histo_lock); return ret; } static int mdp3_histogram_collect(struct mdp3_session_data *session, struct mdp_histogram_data *hist) { int ret; struct mdp3_dma_histogram_data *mdp3_histo; pr_debug("%s\n", __func__); if (!session->dma->get_histo) { pr_err("mdp3_histogram_collect not supported\n"); return -EINVAL; } mutex_lock(&session->histo_lock); if (!session->histo_status) { pr_debug("mdp3_histogram_collect not started\n"); mutex_unlock(&session->histo_lock); return -EPROTO; } mutex_unlock(&session->histo_lock); if (!session->clk_on) { pr_debug("mdp/dsi clock off currently\n"); return -EPERM; } mdp3_clk_enable(1, 0); ret = session->dma->get_histo(session->dma); mdp3_clk_enable(0, 0); if (ret) { pr_debug("mdp3_histogram_collect error = %d\n", ret); return ret; } mdp3_histo = &session->dma->histo_data; ret = copy_to_user(hist->c0, mdp3_histo->r_data, sizeof(uint32_t) * MDP_HISTOGRAM_BIN_NUM); if (ret) return ret; ret = copy_to_user(hist->c1, mdp3_histo->g_data, sizeof(uint32_t) * MDP_HISTOGRAM_BIN_NUM); if (ret) return ret; ret = copy_to_user(hist->c2, mdp3_histo->b_data, sizeof(uint32_t) * MDP_HISTOGRAM_BIN_NUM); if (ret) return ret; ret = copy_to_user(hist->extra_info, mdp3_histo->extra, sizeof(uint32_t) * 2); if (ret) return ret; hist->bin_cnt = MDP_HISTOGRAM_BIN_NUM; hist->block = MDP_BLOCK_DMA_P; return ret; } static int mdp3_bl_scale_config(struct msm_fb_data_type *mfd, struct mdp_bl_scale_data *data) { int ret = 0; int curr_bl; mutex_lock(&mfd->bl_lock); curr_bl = mfd->bl_level; mfd->bl_scale = data->scale; pr_debug("update scale = %d\n", mfd->bl_scale); /* update current backlight to use new scaling*/ mdss_fb_set_backlight(mfd, curr_bl); mutex_unlock(&mfd->bl_lock); return ret; } static int mdp3_csc_config(struct mdp3_session_data *session, struct mdp_csc_cfg_data *data) { struct mdp3_dma_color_correct_config config; struct mdp3_dma_ccs ccs; int ret = -EINVAL; if (!data->csc_data.csc_mv || !data->csc_data.csc_pre_bv || !data->csc_data.csc_post_bv || !data->csc_data.csc_pre_lv || !data->csc_data.csc_post_lv) { pr_err("%s : Invalid csc vectors", __func__); return -EINVAL; } mutex_lock(&session->lock); mutex_lock(&session->dma->pp_lock); session->dma->cc_vect_sel = (session->dma->cc_vect_sel + 1) % 2; config.ccs_enable = 1; config.ccs_sel = session->dma->cc_vect_sel; config.pre_limit_sel = session->dma->cc_vect_sel; config.post_limit_sel = session->dma->cc_vect_sel; config.pre_bias_sel = session->dma->cc_vect_sel; config.post_bias_sel = session->dma->cc_vect_sel; config.ccs_dirty = true; ccs.mv = data->csc_data.csc_mv; ccs.pre_bv = data->csc_data.csc_pre_bv; ccs.post_bv = data->csc_data.csc_post_bv; ccs.pre_lv = data->csc_data.csc_pre_lv; ccs.post_lv = data->csc_data.csc_post_lv; /* cache one copy of setting for suspend/resume reconfiguring */ session->dma->ccs_cache = *data; mdp3_clk_enable(1, 0); ret = session->dma->config_ccs(session->dma, &config, &ccs); mdp3_clk_enable(0, 0); mutex_unlock(&session->dma->pp_lock); mutex_unlock(&session->lock); return ret; } static int mdp3_pp_ioctl(struct msm_fb_data_type *mfd, void __user *argp) { int ret = -EINVAL; struct msmfb_mdp_pp mdp_pp; struct mdp_lut_cfg_data *lut; struct mdp3_session_data *mdp3_session; if (!mfd || !mfd->mdp.private1) return -EINVAL; mdp3_session = mfd->mdp.private1; ret = copy_from_user(&mdp_pp, argp, sizeof(mdp_pp)); if (ret) return ret; switch (mdp_pp.op) { case mdp_bl_scale_cfg: ret = mdp3_validate_scale_config(&mdp_pp.data.bl_scale_data); if (ret) { pr_err("%s: invalid scale config\n", __func__); break; } ret = mdp3_bl_scale_config(mfd, (struct mdp_bl_scale_data *) &mdp_pp.data.bl_scale_data); break; case mdp_op_csc_cfg: /* Checking state of dyn_pu before programming CSC block */ if (mdp3_session->dyn_pu_state) { pr_debug("Partial update feature is enabled.\n"); return -EPERM; } ret = mdp3_validate_csc_data(&(mdp_pp.data.csc_cfg_data)); if (ret) { pr_err("%s: invalid csc data\n", __func__); break; } ret = mdp3_csc_config(mdp3_session, &(mdp_pp.data.csc_cfg_data)); break; case mdp_op_lut_cfg: lut = &mdp_pp.data.lut_cfg_data; if (lut->lut_type != mdp_lut_rgb) { pr_err("Lut type %d is not supported", lut->lut_type); return -EINVAL; } if (lut->data.rgb_lut_data.flags & MDP_PP_OPS_READ) ret = mdp3_ctrl_lut_read(mfd, &(lut->data.rgb_lut_data)); else ret = mdp3_ctrl_lut_config(mfd, &(lut->data.rgb_lut_data)); if (ret) pr_err("RGB LUT ioctl failed\n"); else ret = copy_to_user(argp, &mdp_pp, sizeof(mdp_pp)); break; default: pr_err("Unsupported request to MDP_PP IOCTL.\n"); ret = -EINVAL; break; } if (!ret) ret = copy_to_user(argp, &mdp_pp, sizeof(struct msmfb_mdp_pp)); return ret; } static int mdp3_histo_ioctl(struct msm_fb_data_type *mfd, u32 cmd, void __user *argp) { int ret = -ENOSYS; struct mdp_histogram_data hist; struct mdp_histogram_start_req hist_req; u32 block; struct mdp3_session_data *mdp3_session; if (!mfd || !mfd->mdp.private1) return -EINVAL; mdp3_session = mfd->mdp.private1; switch (cmd) { case MSMFB_HISTOGRAM_START: ret = copy_from_user(&hist_req, argp, sizeof(hist_req)); if (ret) return ret; ret = mdp3_histogram_start(mdp3_session, &hist_req); break; case MSMFB_HISTOGRAM_STOP: ret = copy_from_user(&block, argp, sizeof(int)); if (ret) return ret; ret = mdp3_histogram_stop(mdp3_session, block); break; case MSMFB_HISTOGRAM: ret = copy_from_user(&hist, argp, sizeof(hist)); if (ret) return ret; ret = mdp3_histogram_collect(mdp3_session, &hist); if (!ret) ret = copy_to_user(argp, &hist, sizeof(hist)); break; default: break; } return ret; } static int mdp3_validate_lut_data(struct fb_cmap *cmap) { u32 i = 0; if (!cmap || !cmap->red || !cmap->green || !cmap->blue) { pr_err("Invalid arguments!\n"); return -EINVAL; } for (i = 0; i < MDP_LUT_SIZE; i++) { if (cmap->red[i] > 0xFF || cmap->green[i] > 0xFF || cmap->blue[i] > 0xFF) { pr_err("LUT value over 255 (limit) at %d index\n", i); return -EINVAL; } } return 0; } static inline int mdp3_copy_lut_buffer(struct fb_cmap *dst, struct fb_cmap *src) { if (!dst || !src || !dst->red || !dst->blue || !dst->green || !src->red || !src->green || !src->blue) { pr_err("Invalid params\n"); return -EINVAL; } dst->start = src->start; dst->len = src->len; memcpy(dst->red, src->red, MDP_LUT_SIZE * sizeof(u16)); memcpy(dst->green, src->green, MDP_LUT_SIZE * sizeof(u16)); memcpy(dst->blue, src->blue, MDP_LUT_SIZE * sizeof(u16)); return 0; } static int mdp3_alloc_lut_buffer(struct platform_device *pdev, void **cmap) { struct fb_cmap *map; map = devm_kzalloc(&pdev->dev, sizeof(struct fb_cmap), GFP_KERNEL); if (map == NULL) { pr_err("Failed memory allocation for cmap\n"); return -ENOMEM; } memset(map, 0, sizeof(struct fb_cmap)); map->red = devm_kzalloc(&pdev->dev, MDP_LUT_SIZE * sizeof(u16), GFP_KERNEL); if (map->red == NULL) { pr_err("Failed cmap allocation for red\n"); goto exit_red; } memset(map->red, 0, sizeof(u16) * MDP_LUT_SIZE); map->green = devm_kzalloc(&pdev->dev, MDP_LUT_SIZE * sizeof(u16), GFP_KERNEL); if (map->green == NULL) { pr_err("Failed cmap allocation for green\n"); goto exit_green; } memset(map->green, 0, sizeof(u16) * MDP_LUT_SIZE); map->blue = devm_kzalloc(&pdev->dev, MDP_LUT_SIZE * sizeof(u16), GFP_KERNEL); if (map->blue == NULL) { pr_err("Failed cmap allocation for blue\n"); goto exit_blue; } memset(map->blue, 0, sizeof(u16) * MDP_LUT_SIZE); *cmap = map; return 0; exit_blue: devm_kfree(&pdev->dev, map->green); exit_green: devm_kfree(&pdev->dev, map->red); exit_red: devm_kfree(&pdev->dev, map); return -ENOMEM; } static void mdp3_free_lut_buffer(struct platform_device *pdev, void **cmap) { struct fb_cmap *map = (struct fb_cmap *)(*cmap); if (map == NULL) return; devm_kfree(&pdev->dev, map->blue); map->blue = NULL; devm_kfree(&pdev->dev, map->green); map->green = NULL; devm_kfree(&pdev->dev, map->red); map->red = NULL; devm_kfree(&pdev->dev, map); map = NULL; } static int mdp3_lut_combine_gain(struct fb_cmap *cmap, struct mdp3_dma *dma) { int i = 0; u32 r = 0, g = 0, b = 0; if (!cmap || !dma || !dma->gc_cmap || !dma->hist_cmap || !dma->gc_cmap->red || !dma->gc_cmap->green || !dma->gc_cmap->blue || !dma->hist_cmap->red || !dma->hist_cmap->green || !dma->hist_cmap->blue) { pr_err("Invalid params\n"); return -EINVAL; } for (i = 1; i < MDP_LUT_SIZE; i++) { r = MIN(dma->gc_cmap->red[i] * dma->hist_cmap->red[i] * mdp_lut_inverse16[i], 0xFF0000); g = MIN(dma->gc_cmap->green[i] * dma->hist_cmap->green[i] * mdp_lut_inverse16[i], 0xFF0000); b = MIN(dma->gc_cmap->blue[i] * dma->hist_cmap->blue[i] * mdp_lut_inverse16[i], 0xFF0000); cmap->red[i] = (r >> 16) & 0xFF; cmap->green[i] = (g >> 16) & 0xFF; cmap->blue[i] = (b >> 16) & 0xFF; } return 0; } /* Called from within pp_lock and session lock locked context */ static int mdp3_ctrl_lut_update(struct msm_fb_data_type *mfd, struct fb_cmap *cmap) { int rc = 0; struct mdp3_session_data *mdp3_session = mfd->mdp.private1; struct mdp3_dma *dma; struct mdp3_dma_lut_config lut_config; dma = mdp3_session->dma; if (!dma->config_lut) { pr_err("Config LUT not defined!\n"); return -EINVAL; } lut_config.lut_enable = 7; lut_config.lut_sel = mdp3_session->lut_sel; lut_config.lut_position = 1; lut_config.lut_dirty = true; if (!mdp3_session->status) { pr_err("display off!\n"); return -EPERM; } mdp3_clk_enable(1, 0); rc = dma->config_lut(dma, &lut_config, cmap); mdp3_clk_enable(0, 0); if (rc) pr_err("mdp3_ctrl_lut_update failed\n"); mdp3_session->lut_sel = (mdp3_session->lut_sel + 1) % 2; return rc; } static int mdp3_ctrl_lut_config(struct msm_fb_data_type *mfd, struct mdp_rgb_lut_data *cfg) { int rc = 0; bool data_validated = false; struct mdp3_session_data *mdp3_session = mfd->mdp.private1; struct mdp3_dma *dma; struct fb_cmap *cmap; dma = mdp3_session->dma; if ((cfg->cmap.start > MDP_LUT_SIZE) || (cfg->cmap.len > MDP_LUT_SIZE) || (cfg->cmap.start + cfg->cmap.len > MDP_LUT_SIZE)) { pr_err("Invalid arguments.\n"); return -EINVAL; } rc = mdp3_alloc_lut_buffer(mfd->pdev, (void **) &cmap); if (rc) { pr_err("No memory\n"); return -ENOMEM; } mutex_lock(&mdp3_session->lock); mutex_lock(&dma->pp_lock); rc = copy_from_user(cmap->red + cfg->cmap.start, cfg->cmap.red, sizeof(u16) * cfg->cmap.len); rc |= copy_from_user(cmap->green + cfg->cmap.start, cfg->cmap.green, sizeof(u16) * cfg->cmap.len); rc |= copy_from_user(cmap->blue + cfg->cmap.start, cfg->cmap.blue, sizeof(u16) * cfg->cmap.len); if (rc) { pr_err("Copying user data failed!\n"); goto exit_err; } switch (cfg->lut_type) { case mdp_rgb_lut_gc: if (cfg->flags & MDP_PP_OPS_DISABLE) { if (dma->lut_sts & MDP3_LUT_GC_EN) /* Free GC cmap cache since disabled */ mdp3_free_lut_buffer(mfd->pdev, (void **)&dma->gc_cmap); dma->lut_sts &= ~MDP3_LUT_GC_EN; } else if (!(dma->lut_sts & MDP3_LUT_GC_EN)) { /* Check if values sent are valid */ rc = mdp3_validate_lut_data(cmap); if (rc) { pr_err("Invalid GC LUT data\n"); goto exit_err; } data_validated = true; /* Allocate GC cmap cache to store values */ rc = mdp3_alloc_lut_buffer(mfd->pdev, (void **)&dma->gc_cmap); if (rc) { pr_err("GC LUT config failed\n"); goto exit_err; } dma->lut_sts |= MDP3_LUT_GC_EN; } /* * Copy the GC values from userspace to maintain the * correct values user intended to program in cache. * The values programmed in HW might factor in presence * of other LUT modifying features hence can be * different from these user given values. */ if (dma->lut_sts & MDP3_LUT_GC_EN) { /* Validate LUT data if not yet validated */ if (!data_validated) { rc = mdp3_validate_lut_data(cmap); if (rc) { pr_err("Invalid GC LUT data\n"); goto exit_err; } } rc = mdp3_copy_lut_buffer(dma->gc_cmap, cmap); if (rc) { pr_err("Could not store GC to cache\n"); goto exit_err; } } break; case mdp_rgb_lut_hist: if (cfg->flags & MDP_PP_OPS_DISABLE) { if (dma->lut_sts & MDP3_LUT_HIST_EN) /* Free HIST cmap cache since disabled */ mdp3_free_lut_buffer(mfd->pdev, (void **)&dma->hist_cmap); dma->lut_sts &= ~MDP3_LUT_HIST_EN; } else if (!(dma->lut_sts & MDP3_LUT_HIST_EN)) { /* Check if values sent are valid */ rc = mdp3_validate_lut_data(cmap); if (rc) { pr_err("Invalid HIST LUT data\n"); goto exit_err; } data_validated = true; /* Allocate HIST cmap cache to store values */ rc = mdp3_alloc_lut_buffer(mfd->pdev, (void **)&dma->hist_cmap); if (rc) { pr_err("HIST LUT config failed\n"); goto exit_err; } dma->lut_sts |= MDP3_LUT_HIST_EN; } /* * Copy the HIST LUT values from userspace to maintain * correct values user intended to program in cache. * The values programmed in HW might factor in presence * of other LUT modifying features hence can be * different from these user given values. */ if (dma->lut_sts & MDP3_LUT_HIST_EN) { /* Validate LUT data if not yet validated */ if (!data_validated) { rc = mdp3_validate_lut_data(cmap); if (rc) { pr_err("Invalid H LUT data\n"); goto exit_err; } } rc = mdp3_copy_lut_buffer(dma->hist_cmap, cmap); if (rc) { pr_err("Could not cache Hist LUT\n"); goto exit_err; } } break; default: pr_err("Invalid lut type: %u\n", cfg->lut_type); rc = -EINVAL; goto exit_err; } /* * In case both GC LUT and HIST LUT need to be programmed the gains * of each the individual LUTs need to be applied onto a single LUT * and applied in HW */ if ((dma->lut_sts & MDP3_LUT_HIST_EN) && (dma->lut_sts & MDP3_LUT_GC_EN)) { rc = mdp3_lut_combine_gain(cmap, dma); if (rc) { pr_err("Combining gains failed rc = %d\n", rc); goto exit_err; } } rc = mdp3_ctrl_lut_update(mfd, cmap); if (rc) pr_err("Updating LUT failed! rc = %d\n", rc); exit_err: mutex_unlock(&dma->pp_lock); mutex_unlock(&mdp3_session->lock); mdp3_free_lut_buffer(mfd->pdev, (void **) &cmap); return rc; } static int mdp3_ctrl_lut_read(struct msm_fb_data_type *mfd, struct mdp_rgb_lut_data *cfg) { int rc = 0; struct fb_cmap *cmap; struct mdp3_session_data *mdp3_session = mfd->mdp.private1; struct mdp3_dma *dma = mdp3_session->dma; switch (cfg->lut_type) { case mdp_rgb_lut_gc: if (!dma->gc_cmap) { pr_err("GC not programmed\n"); return -EPERM; } cmap = dma->gc_cmap; break; case mdp_rgb_lut_hist: if (!dma->hist_cmap) { pr_err("Hist LUT not programmed\n"); return -EPERM; } cmap = dma->hist_cmap; break; default: pr_err("Invalid lut type %u\n", cfg->lut_type); return -EINVAL; } cfg->cmap.start = cmap->start; cfg->cmap.len = cmap->len; mutex_lock(&dma->pp_lock); rc = copy_to_user(cfg->cmap.red, cmap->red, sizeof(u16) * MDP_LUT_SIZE); rc |= copy_to_user(cfg->cmap.green, cmap->green, sizeof(u16) * MDP_LUT_SIZE); rc |= copy_to_user(cfg->cmap.blue, cmap->blue, sizeof(u16) * MDP_LUT_SIZE); mutex_unlock(&dma->pp_lock); return rc; } /* Invoked from ctrl_on with session lock locked context */ static void mdp3_ctrl_pp_resume(struct msm_fb_data_type *mfd) { struct mdp3_session_data *mdp3_session; struct mdp3_dma *dma; struct fb_cmap *cmap; int rc = 0; mdp3_session = mfd->mdp.private1; dma = mdp3_session->dma; mutex_lock(&dma->pp_lock); /* * if dma->ccs_config.ccs_enable is set then DMA PP block was enabled * via user space IOCTL. * Then set dma->ccs_config.ccs_dirty flag * Then PP block will be reconfigured when next kickoff comes. */ if (dma->ccs_config.ccs_enable) dma->ccs_config.ccs_dirty = true; /* * If gamma correction was enabled then we program the LUT registers * with the last configuration data before suspend. If gamma correction * is not enabled then we do not program anything. The LUT from * histogram processing algorithms will program hardware based on new * frame data if they are enabled. */ if (dma->lut_sts & MDP3_LUT_GC_EN) { rc = mdp3_alloc_lut_buffer(mfd->pdev, (void **)&cmap); if (rc) { pr_err("No memory for GC LUT, rc = %d\n", rc); goto exit_err; } if (dma->lut_sts & MDP3_LUT_HIST_EN) { rc = mdp3_lut_combine_gain(cmap, dma); if (rc) { pr_err("Combining the gain failed rc=%d\n", rc); goto exit_err; } } else { rc = mdp3_copy_lut_buffer(cmap, dma->gc_cmap); if (rc) { pr_err("Updating GC failed rc = %d\n", rc); goto exit_err; } } rc = mdp3_ctrl_lut_update(mfd, cmap); if (rc) pr_err("GC Lut update failed rc=%d\n", rc); exit_err: mdp3_free_lut_buffer(mfd->pdev, (void **)&cmap); } mutex_unlock(&dma->pp_lock); } static int mdp3_overlay_prepare(struct msm_fb_data_type *mfd, struct mdp_overlay_list __user *user_ovlist) { struct mdp_overlay_list ovlist; struct mdp3_session_data *mdp3_session = mfd->mdp.private1; struct mdp_overlay *req_list; struct mdp_overlay *req; int rc; if (!mdp3_session) return -ENODEV; req = &mdp3_session->req_overlay; if (copy_from_user(&ovlist, user_ovlist, sizeof(ovlist))) return -EFAULT; if (ovlist.num_overlays != 1) { pr_err("OV_PREPARE failed: only 1 overlay allowed\n"); return -EINVAL; } if (copy_from_user(&req_list, ovlist.overlay_list, sizeof(struct mdp_overlay *))) return -EFAULT; if (copy_from_user(req, req_list, sizeof(*req))) return -EFAULT; rc = mdp3_overlay_set(mfd, req); if (!IS_ERR_VALUE(rc)) { if (copy_to_user(req_list, req, sizeof(*req))) return -EFAULT; } if (put_user(IS_ERR_VALUE(rc) ? 0 : 1, &user_ovlist->processed_overlays)) return -EFAULT; return rc; } static int mdp3_ctrl_ioctl_handler(struct msm_fb_data_type *mfd, u32 cmd, void __user *argp) { int rc = -EINVAL; struct mdp3_session_data *mdp3_session; struct msmfb_metadata metadata; struct mdp_overlay *req = NULL; struct msmfb_overlay_data ov_data; int val; mdp3_session = (struct mdp3_session_data *)mfd->mdp.private1; if (!mdp3_session) return -ENODEV; req = &mdp3_session->req_overlay; if (!mdp3_session->status && cmd != MSMFB_METADATA_GET && cmd != MSMFB_HISTOGRAM_STOP && cmd != MSMFB_HISTOGRAM) { pr_err("mdp3_ctrl_ioctl_handler, display off!\n"); return -EPERM; } switch (cmd) { case MSMFB_MDP_PP: rc = mdp3_pp_ioctl(mfd, argp); break; case MSMFB_HISTOGRAM_START: case MSMFB_HISTOGRAM_STOP: case MSMFB_HISTOGRAM: rc = mdp3_histo_ioctl(mfd, cmd, argp); break; case MSMFB_VSYNC_CTRL: case MSMFB_OVERLAY_VSYNC_CTRL: if (!copy_from_user(&val, argp, sizeof(val))) { mutex_lock(&mdp3_session->lock); mdp3_session->vsync_enabled = val; rc = mdp3_ctrl_vsync_enable(mfd, val); mutex_unlock(&mdp3_session->lock); } else { pr_err("MSMFB_OVERLAY_VSYNC_CTRL failed\n"); rc = -EFAULT; } break; case MSMFB_ASYNC_BLIT: if (mdp3_session->in_splash_screen || mdp3_res->idle_pc) { pr_err("%s: reset- in_splash = %d, idle_pc = %d", __func__, mdp3_session->in_splash_screen, mdp3_res->idle_pc); mdp3_ctrl_reset(mfd); } rc = mdp3_ctrl_async_blit_req(mfd, argp); break; case MSMFB_BLIT: if (mdp3_session->in_splash_screen) mdp3_ctrl_reset(mfd); rc = mdp3_ctrl_blit_req(mfd, argp); break; case MSMFB_METADATA_GET: rc = copy_from_user(&metadata, argp, sizeof(metadata)); if (!rc) rc = mdp3_get_metadata(mfd, &metadata); if (!rc) rc = copy_to_user(argp, &metadata, sizeof(metadata)); if (rc) pr_err("mdp3_get_metadata failed (%d)\n", rc); break; case MSMFB_METADATA_SET: rc = copy_from_user(&metadata, argp, sizeof(metadata)); if (!rc) rc = mdp3_set_metadata(mfd, &metadata); if (rc) pr_err("mdp3_set_metadata failed (%d)\n", rc); break; case MSMFB_OVERLAY_GET: rc = copy_from_user(req, argp, sizeof(*req)); if (!rc) { rc = mdp3_overlay_get(mfd, req); if (!IS_ERR_VALUE(rc)) rc = copy_to_user(argp, req, sizeof(*req)); } if (rc) pr_err("OVERLAY_GET failed (%d)\n", rc); break; case MSMFB_OVERLAY_SET: rc = copy_from_user(req, argp, sizeof(*req)); if (!rc) { rc = mdp3_overlay_set(mfd, req); if (!IS_ERR_VALUE(rc)) rc = copy_to_user(argp, req, sizeof(*req)); } if (rc) pr_err("OVERLAY_SET failed (%d)\n", rc); break; case MSMFB_OVERLAY_UNSET: if (!IS_ERR_VALUE(copy_from_user(&val, argp, sizeof(val)))) rc = mdp3_overlay_unset(mfd, val); break; case MSMFB_OVERLAY_PLAY: rc = copy_from_user(&ov_data, argp, sizeof(ov_data)); if (!rc) rc = mdp3_overlay_play(mfd, &ov_data); if (rc) pr_err("OVERLAY_PLAY failed (%d)\n", rc); break; case MSMFB_OVERLAY_PREPARE: rc = mdp3_overlay_prepare(mfd, argp); break; default: break; } return rc; } int mdp3_wait_for_dma_done(struct mdp3_session_data *session) { int rc = 0; if (session->dma_active) { rc = wait_for_completion_timeout(&session->dma_completion, KOFF_TIMEOUT); if (rc > 0) { session->dma_active = 0; rc = 0; } else if (rc == 0) { rc = -ETIME; } } return rc; } static int mdp3_update_panel_info(struct msm_fb_data_type *mfd, int mode, int dest_ctrl) { int ret = 0; struct mdp3_session_data *mdp3_session; struct mdss_panel_data *panel; u32 intf_type = 0; if (!mfd || !mfd->mdp.private1) return -EINVAL; mdp3_session = mfd->mdp.private1; panel = mdp3_session->panel; if (!panel->event_handler) return 0; ret = panel->event_handler(panel, MDSS_EVENT_DSI_UPDATE_PANEL_DATA, (void *)(unsigned long)mode); if (ret) pr_err("Dynamic switch to %s mode failed!\n", mode ? "command" : "video"); if (mode == 1) mfd->panel.type = MIPI_CMD_PANEL; else mfd->panel.type = MIPI_VIDEO_PANEL; if (mfd->panel.type != MIPI_VIDEO_PANEL) mdp3_session->wait_for_dma_done = mdp3_wait_for_dma_done; intf_type = mdp3_ctrl_get_intf_type(mfd); mdp3_session->intf->cfg.type = intf_type; mdp3_session->intf->available = 1; mdp3_session->intf->in_use = 1; mdp3_res->intf[intf_type].in_use = 1; mdp3_intf_init(mdp3_session->intf); mdp3_session->dma->output_config.out_sel = intf_type; mdp3_session->status = mdp3_session->intf->active; return 0; } int mdp3_ctrl_init(struct msm_fb_data_type *mfd) { struct device *dev = mfd->fbi->dev; struct msm_mdp_interface *mdp3_interface = &mfd->mdp; struct mdp3_session_data *mdp3_session = NULL; u32 intf_type = MDP3_DMA_OUTPUT_SEL_DSI_VIDEO; int rc; int splash_mismatch = 0; pr_info("mdp3_ctrl_init\n"); rc = mdp3_parse_dt_splash(mfd); if (rc) splash_mismatch = 1; mdp3_interface->on_fnc = mdp3_ctrl_on; mdp3_interface->off_fnc = mdp3_ctrl_off; mdp3_interface->do_histogram = NULL; mdp3_interface->cursor_update = NULL; mdp3_interface->dma_fnc = mdp3_ctrl_pan_display; mdp3_interface->ioctl_handler = mdp3_ctrl_ioctl_handler; mdp3_interface->kickoff_fnc = mdp3_ctrl_display_commit_kickoff; mdp3_interface->lut_update = NULL; mdp3_interface->configure_panel = mdp3_update_panel_info; mdp3_interface->signal_retire_fence = NULL; mdp3_session = kzalloc(sizeof(struct mdp3_session_data), GFP_KERNEL); if (!mdp3_session) { pr_err("fail to allocate mdp3 private data structure"); return -ENOMEM; } mutex_init(&mdp3_session->lock); INIT_WORK(&mdp3_session->clk_off_work, mdp3_dispatch_clk_off); INIT_WORK(&mdp3_session->dma_done_work, mdp3_dispatch_dma_done); atomic_set(&mdp3_session->vsync_countdown, 0); mutex_init(&mdp3_session->histo_lock); mdp3_session->dma = mdp3_get_dma_pipe(MDP3_DMA_CAP_ALL); if (!mdp3_session->dma) { rc = -ENODEV; goto init_done; } rc = mdp3_dma_init(mdp3_session->dma); if (rc) { pr_err("fail to init dma\n"); goto init_done; } intf_type = mdp3_ctrl_get_intf_type(mfd); mdp3_session->intf = mdp3_get_display_intf(intf_type); if (!mdp3_session->intf) { rc = -ENODEV; goto init_done; } rc = mdp3_intf_init(mdp3_session->intf); if (rc) { pr_err("fail to init interface\n"); goto init_done; } mdp3_session->dma->output_config.out_sel = intf_type; mdp3_session->mfd = mfd; mdp3_session->panel = dev_get_platdata(&mfd->pdev->dev); mdp3_session->status = mdp3_session->intf->active; mdp3_session->overlay.id = MSMFB_NEW_REQUEST; mdp3_bufq_init(&mdp3_session->bufq_in); mdp3_bufq_init(&mdp3_session->bufq_out); mdp3_session->histo_status = 0; mdp3_session->lut_sel = 0; BLOCKING_INIT_NOTIFIER_HEAD(&mdp3_session->notifier_head); init_timer(&mdp3_session->vsync_timer); mdp3_session->vsync_timer.function = mdp3_vsync_timer_func; mdp3_session->vsync_timer.data = (u32)mdp3_session; mdp3_session->vsync_period = 1000 / mfd->panel_info->mipi.frame_rate; mfd->mdp.private1 = mdp3_session; init_completion(&mdp3_session->dma_completion); if (intf_type != MDP3_DMA_OUTPUT_SEL_DSI_VIDEO) mdp3_session->wait_for_dma_done = mdp3_wait_for_dma_done; rc = sysfs_create_group(&dev->kobj, &vsync_fs_attr_group); if (rc) { pr_err("vsync sysfs group creation failed, ret=%d\n", rc); goto init_done; } rc = sysfs_create_group(&dev->kobj, &generic_attr_group); if (rc) { pr_err("generic sysfs group creation failed, ret=%d\n", rc); goto init_done; } mdp3_session->vsync_event_sd = sysfs_get_dirent(dev->kobj.sd, "vsync_event"); if (!mdp3_session->vsync_event_sd) { pr_err("vsync_event sysfs lookup failed\n"); rc = -ENODEV; goto init_done; } rc = mdp3_create_sysfs_link(dev); if (rc) pr_warn("problem creating link to mdp sysfs\n"); /* Enable PM runtime */ pm_runtime_set_suspended(&mdp3_res->pdev->dev); pm_runtime_enable(&mdp3_res->pdev->dev); kobject_uevent(&dev->kobj, KOBJ_ADD); pr_debug("vsync kobject_uevent(KOBJ_ADD)\n"); if (mdp3_get_cont_spash_en()) { mdp3_session->clk_on = 1; mdp3_session->in_splash_screen = 1; mdp3_ctrl_notifier_register(mdp3_session, &mdp3_session->mfd->mdp_sync_pt_data.notifier); } /* * Increment the overlay active count. * This is needed to ensure that if idle power collapse kicks in * right away, it would be handled correctly. */ atomic_inc(&mdp3_res->active_intf_cnt); if (splash_mismatch) { pr_err("splash memory mismatch, stop splash\n"); mdp3_ctrl_off(mfd); } mdp3_session->vsync_before_commit = true; mdp3_session->dyn_pu_state = mfd->panel_info->partial_update_enabled; init_done: if (IS_ERR_VALUE(rc)) kfree(mdp3_session); return rc; }