/* * Copyright (C) 2013 Paul Kocialkowski * * Based on crespo libcamera and exynos4 hal libcamera: * Copyright 2008, The Android Open Source Project * Copyright 2010, Samsung Electronics Co. LTD * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * 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. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #define LOG_TAG "exynos_camera" #include #include #include "exynos_camera.h" #define BIG2LITTLE_ENDIAN(big) ((big & 0xff) << 24 | (big & 0xff00) << 8 | (big & 0xff0000) >> 8 | (big & 0xff000000) >> 24) /* * Devices configurations */ struct exynos_camera_mbus_resolution exynos_camera_mbus_resolutions_s5k6a3_smdk4x12[] = { // 16:9 ratio { 1280, 720, 1344, 756 }, // 4:3 ratio { 1280, 960, 1392, 1044 }, { 960, 720, 1392, 1044 }, { 640, 480, 1392, 1044 }, { 320, 240, 1392, 1044 }, // 1:1 ratio { 1392, 1392, 1392, 1392 }, { 704, 704, 1392, 1392 }, { 320, 320, 1392, 1392 }, }; struct exynos_camera_videosnapshot_resolution exynos_camera_videosnapshot_resolutions_s5c73m3[] = { //Capture Size - Snapshot Size { 1920, 1080, 3264, 1836 }, { 1280, 720, 3264, 1836 }, { 720, 480, 3264, 2176 }, { 640, 480, 3264, 2488 }, { 352, 288, 3264, 2488 }, { 320, 240, 3264, 2488 }, { 176, 144, 3264, 2488 }, }; struct exynos_camera_preset exynos_camera_presets_smdk4x12[] = { { .name = "S5C73M3", .facing = CAMERA_FACING_BACK, .orientation = 90, .rotation = 0, .hflip = 0, .vflip = 0, .capture_format = V4L2_PIX_FMT_INTERLEAVED, .picture_format = V4L2_PIX_FMT_JPEG, .fimc_is = 0, .focal_length = 3.7f, .horizontal_view_angle = 63.0f, .vertical_view_angle = 49.3f, .metering = METERING_CENTER, .params = { .preview_size_values = "960x720,1280x720,1184x666,960x640,704x576,640x480,352x288,320x240", .preview_size = "960x720", .preview_format_values = "yuv420sp,yuv420p,rgb565", .preview_format = "yuv420sp", .preview_frame_rate_values = "30,20,15", .preview_frame_rate = 30, .preview_fps_range_values = "(15000,15000),(15000,30000),(30000,30000)", .preview_fps_range = "15000,30000", .picture_size_values = "640x480,1024x768,1280x720,1600x1200,2560x1920,3264x2448,2048x1536,3264x1836,2048x1152,3264x2176", .picture_size = "3264x2448", .picture_format_values = "jpeg", .picture_format = "jpeg", .jpeg_thumbnail_size_values = "160x120,160x90,144x96", .jpeg_thumbnail_width = 160, .jpeg_thumbnail_height = 120, .jpeg_thumbnail_quality = 100, .jpeg_quality = 90, .video_snapshot_supported = 1, .full_video_snap_supported = 0, .recording_size = "1280x720", .recording_size_values = "1280x720,1920x1080,720x480,640x480,352x288,320x240,176x144", .recording_format = "yuv420sp", .focus_mode = "auto", .focus_mode_values = "auto,infinity,macro,fixed,continuous-picture,continuous-video", .focus_distances = "0.15,1.20,Infinity", .focus_areas = "(0,0,0,0,0)", .max_num_focus_areas = 1, .max_detected_faces = 15, .zoom_supported = 1, .smooth_zoom_supported = 0, .zoom_ratios = "100,102,104,109,111,113,119,121,124,131,134,138,146,150,155,159,165,170,182,189,200,213,222,232,243,255,283,300,319,364,400", .zoom = 0, .max_zoom = 30, .auto_exposure_lock_supported = 1, .auto_exposure_lock = 0, .auto_white_balance_lock_supported = 1, .auto_white_balance_lock = 0, .flash_mode = "off", .flash_mode_values = "off,auto,on,torch", .exposure_compensation = 0, .exposure_compensation_step = 0.5, .min_exposure_compensation = -4, .max_exposure_compensation = 4, .whitebalance = "auto", .whitebalance_values = "auto,incandescent,fluorescent,daylight,cloudy-daylight", .antibanding = "auto", .antibanding_values = "off,auto,50hz,60hz", .scene_mode = "auto", .scene_mode_values = "auto,portrait,landscape,night,beach,snow,sunset,fireworks,action,party,candlelight,dusk-dawn,fall-color,text,back-light,high-sensitivity", .effect = "none", .effect_values = "none,mono,negative,sepia,solarize,posterize,washed,vintage-warm,vintage-cold,point-blue,point-red-yellow,point-green", .iso = "auto", .iso_values = "auto,ISO100,ISO200,ISO400,ISO800", .image_stabilization = "off", .image_stabilization_values = "on,off", }, .mbus_resolutions = NULL, .mbus_resolutions_count = 0, .videosnapshot_resolutions = (struct exynos_camera_videosnapshot_resolution *) &exynos_camera_videosnapshot_resolutions_s5c73m3, .videosnapshot_resolutions_count = 7, }, { .name = "S5K6A3", .facing = CAMERA_FACING_FRONT, .orientation = 270, .rotation = 0, .hflip = 0, .vflip = 0, .capture_format = V4L2_PIX_FMT_UYVY, .picture_format = V4L2_PIX_FMT_JPEG, .fimc_is = 1, .focal_length = 2.73f, .horizontal_view_angle = 52.58f, .vertical_view_angle = 52.58f, .metering = METERING_CENTER, .params = { .preview_size_values = "1280x720,960x720,640x480,320x240,704x704,320x320", .preview_size = "960x720", .preview_format_values = "yuv420sp,yuv420p,rgb565", .preview_format = "yuv420sp", .preview_frame_rate_values = "30,20,15,8", .preview_frame_rate = 30, .preview_fps_range_values = "(8000,8000),(15000,15000),(15000,30000),(30000,30000)", .preview_fps_range = "15000,30000", .picture_size_values = "1280x960,1392x1392,640x480,1280x720,720x480,320x240", .picture_size = "1280x960", .picture_format_values = "jpeg", .picture_format = "jpeg", .jpeg_thumbnail_size_values = "160x120,160x160,160x90,144x96", .jpeg_thumbnail_width = 160, .jpeg_thumbnail_height = 120, .jpeg_thumbnail_quality = 100, .jpeg_quality = 90, .video_snapshot_supported = 1, .full_video_snap_supported = 1, .recording_size = "1280x720", .recording_size_values = "1280x720,720x480,640x480,352x288,320x320,320x240,176x144", .recording_format = "yuv420sp", .focus_mode = "fixed", .focus_mode_values = "infinity,fixed", .focus_distances = "0.20,0.25,Infinity", .focus_areas = NULL, .max_num_focus_areas = 0, .zoom_supported = 0, .auto_exposure_lock_supported = 0, .auto_exposure_lock = 0, .auto_white_balance_lock_supported = 0, .auto_white_balance_lock = 0, .flash_mode = NULL, .flash_mode_values = NULL, .max_detected_faces = 5, .exposure_compensation = 0, .exposure_compensation_step = 0.5, .min_exposure_compensation = -4, .max_exposure_compensation = 4, .whitebalance = "auto", .whitebalance_values = "auto,incandescent,fluorescent,daylight,cloudy-daylight", .antibanding = NULL, .antibanding_values = NULL, .scene_mode = NULL, .scene_mode_values = NULL, .effect = "none", .effect_values = "none,mono,negative,sepia,solarize,posterize,washed,vintage-warm,vintage-cold,point-blue,point-red-yellow,point-green", .iso = "auto", .iso_values = "auto", .image_stabilization = "off", .image_stabilization_values = "off", }, .mbus_resolutions = (struct exynos_camera_mbus_resolution *) &exynos_camera_mbus_resolutions_s5k6a3_smdk4x12, .mbus_resolutions_count = 8, }, }; struct exynos_v4l2_node exynos_v4l2_nodes_smdk4x12[] = { { // FIMC0 is used for capture .id = 0, .node = "/dev/video0", }, { // FIMC1 is used for preview output .id = 1, .node = "/dev/video1", }, { // FIMC2 is used for picture output .id = 2, .node = "/dev/video2", }, { // FIMC3 is used for recording output .id = 3, .node = "/dev/video3", }, }; struct exynox_camera_config exynos_camera_config_smdk4x12 = { .presets = (struct exynos_camera_preset *) &exynos_camera_presets_smdk4x12, .presets_count = 2, .v4l2_nodes = (struct exynos_v4l2_node *) &exynos_v4l2_nodes_smdk4x12, .v4l2_nodes_count = 4, }; /* * Exynos Camera */ struct exynox_camera_config *exynos_camera_config = &exynos_camera_config_smdk4x12; int exynos_camera_start(struct exynos_camera *exynos_camera, int id) { int rc; if (exynos_camera == NULL || id >= exynos_camera->config->presets_count) return -EINVAL; // ION #ifdef EXYNOS_ION rc = exynos_ion_init(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to init ION", __func__); goto error; } rc = exynos_ion_open(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to open ION", __func__); goto error; } #endif // V4L2 rc = exynos_v4l2_init(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to init v4l2", __func__); goto error; } // FIMC0 rc = exynos_v4l2_open(exynos_camera, 0); if (rc < 0) { ALOGE("%s: Unable to open v4l2 device", __func__); goto error; } rc = exynos_v4l2_querycap_cap(exynos_camera, 0); if (rc < 0) { ALOGE("%s: Unable to query capabilities", __func__); goto error; } rc = exynos_v4l2_enum_input(exynos_camera, 0, id); if (rc < 0) { ALOGE("%s: Unable to enumerate input", __func__); goto error; } rc = exynos_v4l2_s_input(exynos_camera, 0, id); if (rc < 0) { ALOGE("%s: Unable to set inputs", __func__); goto error; } // Recording exynos_camera->recording_metadata = 1; // Params rc = exynos_camera_params_init(exynos_camera, id); if (rc < 0) { ALOGE("%s: Unable to init params", __func__); goto error; } // Gralloc rc = hw_get_module(GRALLOC_HARDWARE_MODULE_ID, (const struct hw_module_t **) &exynos_camera->gralloc); if (rc) ALOGE("%s: Unable to get gralloc module", __func__); rc = 0; goto complete; error: exynos_v4l2_close(exynos_camera, 0); #ifdef EXYNOS_ION exynos_ion_close(exynos_camera); #endif rc = -1; complete: return rc; } void exynos_camera_stop(struct exynos_camera *exynos_camera) { int i; int id; if (exynos_camera == NULL || exynos_camera->config == NULL) return; exynos_v4l2_close(exynos_camera, 0); #ifdef EXYNOS_ION exynos_ion_close(exynos_camera); #endif } // Params int exynos_camera_params_init(struct exynos_camera *exynos_camera, int id) { int rc; if (exynos_camera == NULL || id >= exynos_camera->config->presets_count) return -EINVAL; // Camera params exynos_camera->camera_rotation = exynos_camera->config->presets[id].rotation; exynos_camera->camera_hflip = exynos_camera->config->presets[id].hflip; exynos_camera->camera_vflip = exynos_camera->config->presets[id].vflip; exynos_camera->camera_capture_format = exynos_camera->config->presets[id].capture_format; exynos_camera->camera_picture_format = exynos_camera->config->presets[id].picture_format; exynos_camera->camera_fimc_is = exynos_camera->config->presets[id].fimc_is; exynos_camera->camera_focal_length = (int) (exynos_camera->config->presets[id].focal_length * 100); exynos_camera->camera_metering = exynos_camera->config->presets[id].metering; exynos_camera->camera_mbus_resolutions = exynos_camera->config->presets[id].mbus_resolutions; exynos_camera->camera_mbus_resolutions_count = exynos_camera->config->presets[id].mbus_resolutions_count; exynos_camera->camera_videosnapshot_resolutions = exynos_camera->config->presets[id].videosnapshot_resolutions; exynos_camera->camera_videosnapshot_resolutions_count = exynos_camera->config->presets[id].videosnapshot_resolutions_count; // Recording preview exynos_param_string_set(exynos_camera, "preferred-preview-size-for-video", exynos_camera->config->presets[id].params.preview_size); // Preview exynos_param_string_set(exynos_camera, "preview-size-values", exynos_camera->config->presets[id].params.preview_size_values); exynos_param_string_set(exynos_camera, "preview-size", exynos_camera->config->presets[id].params.preview_size); exynos_param_string_set(exynos_camera, "preview-format-values", exynos_camera->config->presets[id].params.preview_format_values); exynos_param_string_set(exynos_camera, "preview-format", exynos_camera->config->presets[id].params.preview_format); exynos_param_string_set(exynos_camera, "preview-frame-rate-values", exynos_camera->config->presets[id].params.preview_frame_rate_values); exynos_param_int_set(exynos_camera, "preview-frame-rate", exynos_camera->config->presets[id].params.preview_frame_rate); exynos_param_string_set(exynos_camera, "preview-fps-range-values", exynos_camera->config->presets[id].params.preview_fps_range_values); exynos_param_string_set(exynos_camera, "preview-fps-range", exynos_camera->config->presets[id].params.preview_fps_range); // Picture exynos_param_string_set(exynos_camera, "picture-size-values", exynos_camera->config->presets[id].params.picture_size_values); exynos_param_string_set(exynos_camera, "picture-size", exynos_camera->config->presets[id].params.picture_size); exynos_param_string_set(exynos_camera, "picture-format-values", exynos_camera->config->presets[id].params.picture_format_values); exynos_param_string_set(exynos_camera, "picture-format", exynos_camera->config->presets[id].params.picture_format); exynos_param_string_set(exynos_camera, "jpeg-thumbnail-size-values", exynos_camera->config->presets[id].params.jpeg_thumbnail_size_values); exynos_param_int_set(exynos_camera, "jpeg-thumbnail-width", exynos_camera->config->presets[id].params.jpeg_thumbnail_width); exynos_param_int_set(exynos_camera, "jpeg-thumbnail-height", exynos_camera->config->presets[id].params.jpeg_thumbnail_height); exynos_param_int_set(exynos_camera, "jpeg-thumbnail-quality", exynos_camera->config->presets[id].params.jpeg_thumbnail_quality); exynos_param_int_set(exynos_camera, "jpeg-quality", exynos_camera->config->presets[id].params.jpeg_quality); if (exynos_camera->config->presets[id].params.video_snapshot_supported == 1) exynos_param_string_set(exynos_camera, "video-snapshot-supported", "true"); if (exynos_camera->config->presets[id].params.full_video_snap_supported == 1) exynos_param_string_set(exynos_camera, "full-video-snap-supported", "true"); // Recording exynos_param_string_set(exynos_camera, "video-size", exynos_camera->config->presets[id].params.recording_size); exynos_param_string_set(exynos_camera, "video-size-values", exynos_camera->config->presets[id].params.recording_size_values); exynos_param_string_set(exynos_camera, "video-frame-format", exynos_camera->config->presets[id].params.recording_format); // Focus exynos_param_string_set(exynos_camera, "focus-mode", exynos_camera->config->presets[id].params.focus_mode); exynos_param_string_set(exynos_camera, "focus-mode-values", exynos_camera->config->presets[id].params.focus_mode_values); exynos_param_string_set(exynos_camera, "focus-distances", exynos_camera->config->presets[id].params.focus_distances); if (exynos_camera->config->presets[id].params.max_num_focus_areas > 0) { exynos_param_string_set(exynos_camera, "focus-areas", exynos_camera->config->presets[id].params.focus_areas); sprintf(exynos_camera->raw_focus_areas,"%s", exynos_camera->config->presets[id].params.focus_areas); exynos_param_int_set(exynos_camera, "max-num-focus-areas", exynos_camera->config->presets[id].params.max_num_focus_areas); } // Face Detection exynos_camera->max_detected_faces = exynos_camera->config->presets[id].params.max_detected_faces; exynos_param_int_set(exynos_camera, "max-num-detected-faces-hw", exynos_camera->max_detected_faces); // Zoom if (exynos_camera->config->presets[id].params.zoom_supported == 1) { exynos_param_string_set(exynos_camera, "zoom-supported", "true"); if (exynos_camera->config->presets[id].params.smooth_zoom_supported == 1) exynos_param_string_set(exynos_camera, "smooth-zoom-supported", "true"); if (exynos_camera->config->presets[id].params.zoom_ratios != NULL) exynos_param_string_set(exynos_camera, "zoom-ratios", exynos_camera->config->presets[id].params.zoom_ratios); exynos_param_int_set(exynos_camera, "zoom", exynos_camera->config->presets[id].params.zoom); exynos_param_int_set(exynos_camera, "max-zoom", exynos_camera->config->presets[id].params.max_zoom); } else { exynos_param_string_set(exynos_camera, "zoom-supported", "false"); } // AE lock if (exynos_camera->config->presets[id].params.auto_exposure_lock_supported == 1) { exynos_param_string_set(exynos_camera, "auto-exposure-lock-supported", "true"); if (exynos_camera->config->presets[id].params.auto_exposure_lock) exynos_param_string_set(exynos_camera, "auto-exposure-lock", "true"); else exynos_param_string_set(exynos_camera, "auto-exposure-lock", "false"); } // AWB lock if (exynos_camera->config->presets[id].params.auto_white_balance_lock_supported == 1) { exynos_param_string_set(exynos_camera, "auto-whitebalance-lock-supported", "true"); if (exynos_camera->config->presets[id].params.auto_white_balance_lock) exynos_param_string_set(exynos_camera, "auto-whitebalance-lock", "true"); else exynos_param_string_set(exynos_camera, "auto-whitebalance-lock", "false"); } // Flash exynos_param_string_set(exynos_camera, "flash-mode", exynos_camera->config->presets[id].params.flash_mode); exynos_param_string_set(exynos_camera, "flash-mode-values", exynos_camera->config->presets[id].params.flash_mode_values); // Exposure exynos_param_int_set(exynos_camera, "exposure-compensation", exynos_camera->config->presets[id].params.exposure_compensation); exynos_param_float_set(exynos_camera, "exposure-compensation-step", exynos_camera->config->presets[id].params.exposure_compensation_step); exynos_param_int_set(exynos_camera, "min-exposure-compensation", exynos_camera->config->presets[id].params.min_exposure_compensation); exynos_param_int_set(exynos_camera, "max-exposure-compensation", exynos_camera->config->presets[id].params.max_exposure_compensation); // Antibanding exynos_param_string_set(exynos_camera, "antibanding", exynos_camera->config->presets[id].params.antibanding); exynos_param_string_set(exynos_camera, "antibanding-values", exynos_camera->config->presets[id].params.antibanding_values); // WB exynos_param_string_set(exynos_camera, "whitebalance", exynos_camera->config->presets[id].params.whitebalance); exynos_param_string_set(exynos_camera, "whitebalance-values", exynos_camera->config->presets[id].params.whitebalance_values); // Scene mode exynos_param_string_set(exynos_camera, "scene-mode", exynos_camera->config->presets[id].params.scene_mode); exynos_param_string_set(exynos_camera, "scene-mode-values", exynos_camera->config->presets[id].params.scene_mode_values); // Effect exynos_param_string_set(exynos_camera, "effect", exynos_camera->config->presets[id].params.effect); exynos_param_string_set(exynos_camera, "effect-values", exynos_camera->config->presets[id].params.effect_values); // ISO exynos_param_string_set(exynos_camera, "iso", exynos_camera->config->presets[id].params.iso); exynos_param_string_set(exynos_camera, "iso-values", exynos_camera->config->presets[id].params.iso_values); // Image stabilization (Anti-shake) exynos_param_string_set(exynos_camera, "image-stabilization", exynos_camera->config->presets[id].params.image_stabilization); exynos_param_string_set(exynos_camera, "image-stabilization-values", exynos_camera->config->presets[id].params.image_stabilization_values); // Camera exynos_param_float_set(exynos_camera, "focal-length", exynos_camera->config->presets[id].focal_length); exynos_param_float_set(exynos_camera, "horizontal-view-angle", exynos_camera->config->presets[id].horizontal_view_angle); exynos_param_float_set(exynos_camera, "vertical-view-angle", exynos_camera->config->presets[id].vertical_view_angle); rc = exynos_camera_params_apply(exynos_camera, 1); if (rc < 0) { ALOGE("%s: Unable to apply params", __func__); return -1; } return 0; } static int validate_focus_areas(int l, int t, int r, int b, int w) { if (!(l || r || t || b || w)) { // All zeros is a valid area return 0; } // If existing, a focus area must be contained between -1000 and 1000, // on both dimensions if (l < -1000 || t < -1000 || r > 1000 || b > 1000) { return -EINVAL; } // No superimposed or reverted edges if (l >= r || t >= b) { return -EINVAL; } // If there's an area defined, weight must be positive and up to 1000 if ((l !=0 || r !=0) && (w < 1 || w > 1000)) { return -EINVAL; } return 0; } int exynos_camera_params_apply(struct exynos_camera *exynos_camera, int force) { char *recording_hint_string; char *recording_preview_size_string; char *preview_size_string; int preview_width = 0; int preview_height = 0; char *preview_format_string; int preview_format; int preview_fps; char *picture_size_string; int picture_width = 0; int picture_height = 0; char *picture_format_string; int picture_format; int jpeg_thumbnail_width; int jpeg_thumbnail_height; int jpeg_thumbnail_quality; int jpeg_quality; char *video_size_string; int recording_width = 0; int recording_height = 0; char *video_frame_format_string; int recording_format; int camera_sensor_mode; int fimc_is_mode = 0; char *focus_mode_string; int focus_mode = FOCUS_MODE_DEFAULT; char *focus_areas_string; int focus_left, focus_top, focus_right, focus_bottom, focus_weight; int focus_x; int focus_y; char *zoom_supported_string; int zoom, max_zoom; char *ae_lock_supported_string; char *ae_lock_string; int ae_lock = 0; char *awb_lock_supported_string; char *awb_lock_string; int awb_lock = 0; int aeawb = 0; char *flash_mode_string; int flash_mode = 0; int exposure_compensation; int min_exposure_compensation; int max_exposure_compensation; char *antibanding_string; int antibanding; char *whitebalance_string; int whitebalance; char *scene_mode_string; int scene_mode; char *effect_string; int effect; char *iso_string; int iso; char *image_stabilization_string; int image_stabilization; int w, h; char *k; int rc, i; if (exynos_camera == NULL) return -EINVAL; // Preview preview_size_string = exynos_param_string_get(exynos_camera, "preview-size"); if (preview_size_string != NULL) { sscanf(preview_size_string, "%dx%d", &preview_width, &preview_height); if (preview_width < 0 && preview_height < 0) { char reset_preview[128]; sprintf(reset_preview, "%dx%d", exynos_camera->preview_width, exynos_camera->preview_height); exynos_param_string_set(exynos_camera, "preview-size", reset_preview); return -EINVAL; } if (preview_width != 0 && preview_width != exynos_camera->preview_width) exynos_camera->preview_width = preview_width; if (preview_height != 0 && preview_height != exynos_camera->preview_height) exynos_camera->preview_height = preview_height; } preview_format_string = exynos_param_string_get(exynos_camera, "preview-format"); if (preview_format_string != NULL) { if (strcmp(preview_format_string, "yuv420sp") == 0) { preview_format = V4L2_PIX_FMT_NV21; } else if (strcmp(preview_format_string, "yuv420p") == 0) { preview_format = V4L2_PIX_FMT_YUV420; } else if (strcmp(preview_format_string, "rgb565") == 0) { preview_format = V4L2_PIX_FMT_RGB565; } else if (strcmp(preview_format_string, "rgb8888") == 0) { preview_format = V4L2_PIX_FMT_RGB32; } else { ALOGE("%s: Unsupported preview format: %s", __func__, preview_format_string); preview_format = V4L2_PIX_FMT_NV21; } if (preview_format != exynos_camera->preview_format) exynos_camera->preview_format = preview_format; } preview_fps = exynos_param_int_get(exynos_camera, "preview-frame-rate"); if (preview_fps > 0) exynos_camera->preview_fps = preview_fps; else exynos_camera->preview_fps = 0; // Picture picture_format_string = exynos_param_string_get(exynos_camera, "picture-format"); if (picture_format_string != NULL) { if (strcmp(picture_format_string, "jpeg") == 0) { picture_format = V4L2_PIX_FMT_JPEG; } else { ALOGE("%s: Unsupported picture format: %s", __func__, picture_format_string); picture_format = V4L2_PIX_FMT_JPEG; } if (picture_format != exynos_camera->picture_format) exynos_camera->picture_format = picture_format; } jpeg_thumbnail_width = exynos_param_int_get(exynos_camera, "jpeg-thumbnail-width"); if (jpeg_thumbnail_width > 0) exynos_camera->jpeg_thumbnail_width = jpeg_thumbnail_width; jpeg_thumbnail_height = exynos_param_int_get(exynos_camera, "jpeg-thumbnail-height"); if (jpeg_thumbnail_height > 0) exynos_camera->jpeg_thumbnail_height = jpeg_thumbnail_height; jpeg_thumbnail_quality = exynos_param_int_get(exynos_camera, "jpeg-thumbnail-quality"); if (jpeg_thumbnail_quality > 0) exynos_camera->jpeg_thumbnail_quality = jpeg_thumbnail_quality; jpeg_quality = exynos_param_int_get(exynos_camera, "jpeg-quality"); if (jpeg_quality <= 100 && jpeg_quality >= 0 && (jpeg_quality != exynos_camera->jpeg_quality || force)) { exynos_camera->jpeg_quality = jpeg_quality; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAM_JPEG_QUALITY, jpeg_quality); if (rc < 0) ALOGE("%s: Unable to set jpeg quality", __func__); } // Recording video_size_string = exynos_param_string_get(exynos_camera, "video-size"); if (video_size_string == NULL) video_size_string = exynos_param_string_get(exynos_camera, "preview-size"); if (video_size_string != NULL) { sscanf(video_size_string, "%dx%d", &recording_width, &recording_height); if (recording_width != 0 && recording_width != exynos_camera->recording_width) exynos_camera->recording_width = recording_width; if (recording_height != 0 && recording_height != exynos_camera->recording_height) exynos_camera->recording_height = recording_height; } video_frame_format_string = exynos_param_string_get(exynos_camera, "video-frame-format"); if (video_frame_format_string != NULL) { if (strcmp(video_frame_format_string, "yuv420sp") == 0) { recording_format = V4L2_PIX_FMT_NV12; } else if (strcmp(video_frame_format_string, "yuv420p") == 0) { recording_format = V4L2_PIX_FMT_YUV420; } else if (strcmp(video_frame_format_string, "rgb565") == 0) { recording_format = V4L2_PIX_FMT_RGB565; } else if (strcmp(video_frame_format_string, "rgb8888") == 0) { recording_format = V4L2_PIX_FMT_RGB32; } else { ALOGE("%s: Unsupported recording format: %s", __func__, video_frame_format_string); recording_format = V4L2_PIX_FMT_NV12; } if (recording_format != exynos_camera->recording_format) exynos_camera->recording_format = recording_format; } recording_hint_string = exynos_param_string_get(exynos_camera, "recording-hint"); if (recording_hint_string != NULL && strcmp(recording_hint_string, "true") == 0) { camera_sensor_mode = SENSOR_MOVIE; k = exynos_param_string_get(exynos_camera, "preview-size-values"); while (recording_width != 0 && recording_height != 0) { if (k == NULL) break; sscanf(k, "%dx%d", &w, &h); // Look for same aspect ratio if ((recording_width * h) / recording_height == w) { preview_width = w; preview_height = h; break; } k = strchr(k, ','); if (k == NULL) break; k++; } if (preview_width != 0 && preview_width != exynos_camera->preview_width) exynos_camera->preview_width = preview_width; if (preview_height != 0 && preview_height != exynos_camera->preview_height) exynos_camera->preview_height = preview_height; if (exynos_camera->camera_fimc_is) fimc_is_mode = IS_MODE_PREVIEW_VIDEO; } else { camera_sensor_mode = SENSOR_CAMERA; if (exynos_camera->camera_fimc_is) fimc_is_mode = IS_MODE_PREVIEW_STILL; } // Picture size and Video Snapshot Resolution picture_size_string = exynos_param_string_get(exynos_camera, "picture-size"); if (picture_size_string != NULL) { sscanf(picture_size_string, "%dx%d", &picture_width, &picture_height); if (camera_sensor_mode == SENSOR_MOVIE) { //Set Video Recording SnapShot Resolutions if (exynos_camera->camera_videosnapshot_resolutions != NULL) { //Back Camera if (!exynos_camera->camera_fimc_is) { for (i = 0; i < exynos_camera->camera_videosnapshot_resolutions_count; i++) { if (exynos_camera->camera_videosnapshot_resolutions[i].video_width == exynos_camera->recording_width && exynos_camera->camera_videosnapshot_resolutions[i].video_height == exynos_camera->recording_height) { picture_width = exynos_camera->camera_videosnapshot_resolutions[i].snapshot_width; picture_height = exynos_camera->camera_videosnapshot_resolutions[i].snapshot_height; break; } } } else { //Front Facing Camera - Use Recording size as Snapshot size picture_width = exynos_camera->recording_width; picture_height = exynos_camera->recording_height; } } } if (picture_width != 0 && picture_height != 0 && (picture_width != exynos_camera->picture_width || picture_height != exynos_camera->picture_height)) { exynos_camera->picture_width = picture_width; exynos_camera->picture_height = picture_height; if (!exynos_camera->camera_fimc_is) { rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_JPEG_RESOLUTION, (picture_width & 0xffff) << 16 | (picture_height & 0xffff)); if (rc < 0) ALOGE("%s: Unable to set jpeg resolution", __func__); } } } // Switching modes if (camera_sensor_mode != exynos_camera->camera_sensor_mode) { exynos_camera->camera_sensor_mode = camera_sensor_mode; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_SENSOR_MODE, camera_sensor_mode); if (rc < 0) ALOGE("%s: Unable to set sensor mode", __func__); } if (exynos_camera->camera_fimc_is && fimc_is_mode != exynos_camera->fimc_is_mode) { exynos_camera->fimc_is_mode = fimc_is_mode; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_IS_S_FORMAT_SCENARIO, exynos_camera->fimc_is_mode); if (rc < 0) ALOGE("%s: Unable to set FIMC-IS scenario", __func__); } // Focus focus_areas_string = exynos_param_string_get(exynos_camera, "focus-areas"); if (focus_areas_string != NULL) { focus_left = focus_top = focus_right = focus_bottom = focus_weight = 0; rc = sscanf(focus_areas_string, "(%d,%d,%d,%d,%d)", &focus_left, &focus_top, &focus_right, &focus_bottom, &focus_weight); if (rc != 5) { ALOGE("%s: Unable to scan focus areas", __func__); } else if (validate_focus_areas(focus_left, focus_top, focus_right, focus_bottom, focus_weight) != 0 || strstr(focus_areas_string, "),(")) { exynos_param_string_set(exynos_camera, "focus-areas", exynos_camera->raw_focus_areas); return -EINVAL; } else if ((focus_left != 0 || focus_right != 0) && (focus_top != 0 || focus_bottom != 0)) { sprintf(exynos_camera->raw_focus_areas,"%s",focus_areas_string); focus_x = (((focus_left + focus_right) / 2) + 1000) * preview_width / 2000; focus_y = (((focus_top + focus_bottom) / 2) + 1000) * preview_height / 2000; if (focus_x != exynos_camera->focus_x || force) { exynos_camera->focus_x = focus_x; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_OBJECT_POSITION_X, focus_x); if (rc < 0) ALOGE("%s: Unable to set object x position", __func__); } if (focus_y != exynos_camera->focus_y || force) { exynos_camera->focus_y = focus_y; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_OBJECT_POSITION_Y, focus_y); if (rc < 0) ALOGE("%s: Unable to set object y position", __func__); } /* After taking a picture, focus-areas is reseted by stock camera app to the center of the screen */ if (! ( (focus_x == (preview_width / 2)) && (focus_y == (preview_height / 2)) )) { //ALOGV("%s focus_mode changed to %d due to focus-areas='%s'", __func__, focus_mode, focus_areas_string); focus_mode = FOCUS_MODE_TOUCH; } } } // Zoom zoom_supported_string = exynos_param_string_get(exynos_camera, "zoom-supported"); if (zoom_supported_string != NULL && strcmp(zoom_supported_string, "true") == 0) { zoom = exynos_param_int_get(exynos_camera, "zoom"); max_zoom = exynos_param_int_get(exynos_camera, "max-zoom"); if (zoom <= max_zoom && zoom >= 0 && (zoom != exynos_camera->zoom || force)) { exynos_camera->zoom = zoom; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_ZOOM, zoom); if (rc < 0) ALOGE("%s: Unable to set camera zoom", __func__); } else if (zoom > max_zoom) { exynos_param_int_set(exynos_camera, "zoom", max_zoom); return -EINVAL; } } // AE lock ae_lock_supported_string = exynos_param_string_get(exynos_camera, "auto-exposure-lock-supported"); ae_lock_string = exynos_param_string_get(exynos_camera, "auto-exposure-lock"); if (ae_lock_supported_string != NULL && ae_lock_string != NULL && strcmp(ae_lock_supported_string, "true") == 0 && strcmp(ae_lock_string, "true") == 0) ae_lock = 1; else ae_lock = 0; // AWB lock awb_lock_supported_string = exynos_param_string_get(exynos_camera, "auto-whitebalance-lock-supported"); awb_lock_string = exynos_param_string_get(exynos_camera, "auto-whitebalance-lock"); if (awb_lock_supported_string != NULL && awb_lock_string != NULL && strcmp(awb_lock_supported_string, "true") == 0 && strcmp(awb_lock_string, "true") == 0) awb_lock = 1; else awb_lock = 0; // Scene mode scene_mode_string = exynos_param_string_get(exynos_camera, "scene-mode"); if (scene_mode_string != NULL) { if (strcmp(scene_mode_string, "auto") == 0) scene_mode = SCENE_MODE_NONE; else if (strcmp(scene_mode_string, "portrait") == 0) { scene_mode = SCENE_MODE_PORTRAIT; flash_mode = FLASH_MODE_AUTO; } else if (strcmp(scene_mode_string, "landscape") == 0) scene_mode = SCENE_MODE_LANDSCAPE; else if (strcmp(scene_mode_string, "night") == 0) scene_mode = SCENE_MODE_NIGHTSHOT; else if (strcmp(scene_mode_string, "beach") == 0) scene_mode = SCENE_MODE_BEACH_SNOW; else if (strcmp(scene_mode_string, "snow") == 0) scene_mode = SCENE_MODE_BEACH_SNOW; else if (strcmp(scene_mode_string, "sunset") == 0) scene_mode = SCENE_MODE_SUNSET; else if (strcmp(scene_mode_string, "fireworks") == 0) scene_mode = SCENE_MODE_FIREWORKS; else if (strcmp(scene_mode_string, "action") == 0) scene_mode = SCENE_MODE_SPORTS; else if (strcmp(scene_mode_string, "party") == 0) { scene_mode = SCENE_MODE_PARTY_INDOOR; flash_mode = FLASH_MODE_AUTO; } else if (strcmp(scene_mode_string, "candlelight") == 0) scene_mode = SCENE_MODE_CANDLE_LIGHT; else if (strcmp(scene_mode_string, "dusk-dawn") == 0) scene_mode = SCENE_MODE_DUSK_DAWN; else if (strcmp(scene_mode_string, "fall-color") == 0) scene_mode = SCENE_MODE_FALL_COLOR; else if (strcmp(scene_mode_string, "back-light") == 0) scene_mode = SCENE_MODE_BACK_LIGHT; else if (strcmp(scene_mode_string, "text") == 0) scene_mode = SCENE_MODE_TEXT; else if (strcmp(scene_mode_string, "high-sensitivity") == 0) scene_mode = SCENE_MODE_LOW_LIGHT; else scene_mode = SCENE_MODE_NONE; if (scene_mode != exynos_camera->scene_mode || force) { exynos_camera->scene_mode = scene_mode; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_SCENE_MODE, scene_mode); if (rc < 0) ALOGE("%s: Unable to set scene mode", __func__); } if (scene_mode != SCENE_MODE_NONE && !flash_mode && focus_mode == FOCUS_MODE_DEFAULT) { flash_mode = FLASH_MODE_OFF; focus_mode = FOCUS_MODE_AUTO; } } // Flash flash_mode_string = exynos_param_string_get(exynos_camera, "flash-mode"); if (flash_mode_string != NULL) { if (flash_mode == 0) { if (strcmp(flash_mode_string, "off") == 0) flash_mode = FLASH_MODE_OFF; else if (strcmp(flash_mode_string, "auto") == 0) flash_mode = FLASH_MODE_AUTO; else if (strcmp(flash_mode_string, "on") == 0) flash_mode = FLASH_MODE_ON; else if (strcmp(flash_mode_string, "torch") == 0) flash_mode = FLASH_MODE_TORCH; else { exynos_param_string_set(exynos_camera, "flash-mode", exynos_camera->raw_flash_mode); return -EINVAL; } } if (flash_mode != exynos_camera->flash_mode || force) { exynos_camera->flash_mode = flash_mode; sprintf(exynos_camera->raw_flash_mode, "%s", flash_mode_string); rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_FLASH_MODE, flash_mode); if (rc < 0) ALOGE("%s:Unable to set flash mode", __func__); } } // Lock Auto Exposure and White Balance only when Flash is OFF if ((ae_lock != exynos_camera->ae_lock || awb_lock != exynos_camera->awb_lock || force) && exynos_camera->flash_mode == FLASH_MODE_OFF) { exynos_camera->ae_lock = ae_lock; exynos_camera->awb_lock = awb_lock; aeawb = (ae_lock ? 0x1 : 0x0) | (awb_lock ? 0x2 : 0x0); rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_AEAWB_LOCK_UNLOCK, aeawb); if (rc < 0) ALOGE("%s: Unable to set AEAWB lock", __func__); } focus_mode_string = exynos_param_string_get(exynos_camera, "focus-mode"); if (focus_mode_string != NULL) { if (focus_mode == FOCUS_MODE_DEFAULT) { if (strcmp(focus_mode_string, "auto") == 0) focus_mode = FOCUS_MODE_AUTO; else if (strcmp(focus_mode_string, "infinity") == 0) focus_mode = FOCUS_MODE_INFINITY; else if (strcmp(focus_mode_string, "macro") == 0) focus_mode = FOCUS_MODE_MACRO; else if (strcmp(focus_mode_string, "fixed") == 0) focus_mode = FOCUS_MODE_FIXED; else if (strcmp(focus_mode_string, "facedetect") == 0) focus_mode = FOCUS_MODE_FACEDETECT; else if (strcmp(focus_mode_string, "continuous-video") == 0) focus_mode = FOCUS_MODE_CONTINOUS_VIDEO; else if (strcmp(focus_mode_string, "continuous-picture") == 0) focus_mode = FOCUS_MODE_CONTINOUS_PICTURE; else { exynos_param_string_set(exynos_camera, "focus-mode", exynos_camera->raw_focus_mode); return -EINVAL; } } if (focus_mode != exynos_camera->focus_mode || force) { rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_FOCUS_MODE, focus_mode); if (rc < 0) ALOGE("%s: Unable to set focus mode", __func__); } exynos_camera->focus_mode = focus_mode; sprintf(exynos_camera->raw_focus_mode, "%s", focus_mode_string); } // Exposure exposure_compensation = exynos_param_int_get(exynos_camera, "exposure-compensation"); min_exposure_compensation = exynos_param_int_get(exynos_camera, "min-exposure-compensation"); max_exposure_compensation = exynos_param_int_get(exynos_camera, "max-exposure-compensation"); if (exposure_compensation <= max_exposure_compensation && exposure_compensation >= min_exposure_compensation && (exposure_compensation != exynos_camera->exposure_compensation || force)) { exynos_camera->exposure_compensation = exposure_compensation; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_BRIGHTNESS, exposure_compensation); if (rc < 0) ALOGE("%s: Unable to set exposure", __func__); } // Antibanding antibanding_string = exynos_param_string_get(exynos_camera, "antibanding"); if (antibanding_string != NULL) { if (strcmp(antibanding_string, "auto") == 0) antibanding = ANTI_BANDING_AUTO; else if (strcmp(antibanding_string, "50hz") == 0) antibanding = ANTI_BANDING_50HZ; else if (strcmp(antibanding_string, "60hz") == 0) antibanding = ANTI_BANDING_60HZ; else if (strcmp(antibanding_string, "off") == 0) antibanding = ANTI_BANDING_OFF; else antibanding = ANTI_BANDING_AUTO; if (antibanding != exynos_camera->antibanding || force) { exynos_camera->antibanding = antibanding; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_ANTI_BANDING, antibanding); if (rc < 0) ALOGE("%s: Unable to set antibanding", __func__); } } // WB whitebalance_string = exynos_param_string_get(exynos_camera, "whitebalance"); if (whitebalance_string != NULL) { if (strcmp(whitebalance_string, "auto") == 0) whitebalance = WHITE_BALANCE_AUTO; else if (strcmp(whitebalance_string, "incandescent") == 0) whitebalance = WHITE_BALANCE_TUNGSTEN; else if (strcmp(whitebalance_string, "fluorescent") == 0) whitebalance = WHITE_BALANCE_FLUORESCENT; else if (strcmp(whitebalance_string, "daylight") == 0) whitebalance = WHITE_BALANCE_SUNNY; else if (strcmp(whitebalance_string, "cloudy-daylight") == 0) whitebalance = WHITE_BALANCE_CLOUDY; else whitebalance = WHITE_BALANCE_AUTO; if (whitebalance != exynos_camera->whitebalance || force) { exynos_camera->whitebalance = whitebalance; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_WHITE_BALANCE, whitebalance); if (rc < 0) ALOGE("%s: Unable to set whitebalance", __func__); } } // Effect effect_string = exynos_param_string_get(exynos_camera, "effect"); if (effect_string != NULL) { if (strcmp(effect_string, "auto") == 0) effect = IMAGE_EFFECT_NONE; if (strcmp(effect_string, "none") == 0) effect = IMAGE_EFFECT_NONE; else if (strcmp(effect_string, "mono") == 0) effect = IMAGE_EFFECT_BNW; else if (strcmp(effect_string, "negative") == 0) effect = IMAGE_EFFECT_NEGATIVE; else if (strcmp(effect_string, "sepia") == 0) effect = IMAGE_EFFECT_SEPIA; else if (strcmp(effect_string, "aqua") == 0) effect = IMAGE_EFFECT_AQUA; else if (strcmp(effect_string, "solarize") == 0) effect = IMAGE_EFFECT_SOLARIZE; else if (strcmp(effect_string, "posterize") == 0) effect = IMAGE_EFFECT_POSTERIZE; else if (strcmp(effect_string, "washed") == 0) effect = IMAGE_EFFECT_WASHED; else if (strcmp(effect_string, "sketch") == 0) effect = IMAGE_EFFECT_SKETCH; else if (strcmp(effect_string, "vintage-warm") == 0) effect = IMAGE_EFFECT_VINTAGE_WARM; else if (strcmp(effect_string, "vintage-cold") == 0) effect = IMAGE_EFFECT_VINTAGE_COLD; else if (strcmp(effect_string, "point-blue") == 0) effect = IMAGE_EFFECT_POINT_BLUE; else if (strcmp(effect_string, "point-red-yellow") == 0) effect = IMAGE_EFFECT_POINT_RED_YELLOW; else if (strcmp(effect_string, "point-green") == 0) effect = IMAGE_EFFECT_POINT_GREEN; else effect = IMAGE_EFFECT_NONE; if (effect != exynos_camera->effect || force) { exynos_camera->effect = effect; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_EFFECT, effect); if (rc < 0) ALOGE("%s: Unable to set effect", __func__); } } // ISO iso_string = exynos_param_string_get(exynos_camera, "iso"); if (iso_string != NULL) { if (strcmp(iso_string, "auto") == 0) iso = ISO_AUTO; else if (strcmp(iso_string, "ISO50") == 0) iso = ISO_50; else if (strcmp(iso_string, "ISO100") == 0) iso = ISO_100; else if (strcmp(iso_string, "ISO200") == 0) iso = ISO_200; else if (strcmp(iso_string, "ISO400") == 0) iso = ISO_400; else if (strcmp(iso_string, "ISO800") == 0) iso = ISO_800; else iso = ISO_AUTO; if (iso != exynos_camera->iso || force) { exynos_camera->iso = iso; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_ISO, iso); if (rc < 0) ALOGE("%s: Unable to set iso", __func__); } } // Image stabilization (Anti-shake) image_stabilization_string = exynos_param_string_get(exynos_camera, "image-stabilization"); if (image_stabilization_string != NULL) { if (strcmp(image_stabilization_string, "on") == 0) image_stabilization = ANTI_SHAKE_STILL_ON; else image_stabilization = ANTI_SHAKE_OFF; if (image_stabilization != exynos_camera->image_stabilization || force) { exynos_camera->image_stabilization = image_stabilization; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_ANTI_SHAKE, image_stabilization); if (rc < 0) ALOGE("%s: Unable to set image-stabilization", __func__); } } ALOGD("%s: Preview size: %dx%d, picture size: %dx%d, recording size: %dx%d", __func__, preview_width, preview_height, picture_width, picture_height, recording_width, recording_height); return 0; } // Capture int s5c73m3_interleaved_decode(struct exynos_camera *exynos_camera, void *data, int size, void *yuv_data, int *yuv_size, int yuv_width, int yuv_height, void *jpeg_data, int *jpeg_size, int *decoded, int *auto_focus_result, struct exynos_exif *exif) { exif_attribute_t *attributes; camera_face_t caface[exynos_camera->max_detected_faces]; int yuv_length; int jpeg_length; int num_detected_faces; int face; unsigned char *yuv_p; unsigned char *jpeg_p; unsigned char *data_p; unsigned int *offset_p; unsigned int pointers_array_offset; unsigned int pointers_array_size; unsigned int interleaved_size; unsigned char s5c73m3_auto_focus_result; unsigned int yuv_offset_last; unsigned int yuv_offset; unsigned int yuv_line_size; unsigned short *jpeg_start_p; int gap; unsigned int i; if (data == NULL || size <= 0 || yuv_data == NULL || yuv_size == NULL || yuv_width <= 0 || yuv_height <= 0 || jpeg_data == NULL || jpeg_size == NULL || decoded == NULL || auto_focus_result == NULL) return -EINVAL; yuv_length = 0; jpeg_length = 0; data_p = (unsigned char *) data; data_p += size - 0x1000; // End of the first plane (interleaved buffer) data_p += 4046; // Experimental offset for decoded *decoded = (int) *data_p; data_p = (unsigned char *) data; data_p += size - 0x1000; // End of the first plane (interleaved buffer) data_p += 50; // Experimental offset for auto-focus result *auto_focus_result = (int) *data_p; data_p = (unsigned char *) data; data_p += size - 0x1000; // End of the first plane (interleaved buffer) data_p += 4084; // Experimental offset for interleaved size // Read the pointers array offset offset_p = (unsigned int *) data_p; pointers_array_offset = BIG2LITTLE_ENDIAN(*offset_p); interleaved_size = pointers_array_offset; // Read the pointers array size, it should be 4 * yuv_height data_p += sizeof(pointers_array_offset); offset_p = (unsigned int *) data_p; pointers_array_size = BIG2LITTLE_ENDIAN(*offset_p); // FaceDetection Information data_p = (unsigned char *) data; data_p += size - 0x1000; // End of the first plane (interleaved buffer) data_p += 108; //Number of Faces Detected num_detected_faces = (int) *data_p; data_p += 2; //Start of Face Detection Info exynos_camera->mFaceData.faces = caface; if (num_detected_faces > 0 && num_detected_faces < exynos_camera->max_detected_faces) { for (face = 0; face < num_detected_faces; face++) { exynos_camera->mFaceData.faces[face].rect[0] = (short)(data_p[1] << 8) + data_p[0]; data_p += 2; exynos_camera->mFaceData.faces[face].rect[1] = (short)(data_p[1] << 8) + data_p[0]; data_p += 2; exynos_camera->mFaceData.faces[face].rect[2] = (short)(data_p[1] << 8) + data_p[0]; data_p += 2; exynos_camera->mFaceData.faces[face].rect[3] = (short)(data_p[1] << 8) + data_p[0]; data_p += 2; exynos_camera->mFaceData.faces[face].score = (short)(data_p[1] << 8) + data_p[0]; data_p += 2; exynos_camera->mFaceData.faces[face].id = (short)(data_p[1] << 8) + data_p[0]; data_p += 2; } } exynos_camera->mFaceData.number_of_faces = num_detected_faces; if (!*decoded) return 0; attributes = &exif->attributes; //Extract the EXIF from the Metadata //Flash data_p = (unsigned char *) data; data_p += size - 0x1000; // End of the first plane (interleaved buffer) data_p += 4; // EXIF Flash Offset attributes->flash = (int) data_p[0]; //ISO data_p += 4; // EXIF ISO Offset attributes->iso_speed_rating = (data_p[1] << 8) + data_p[0]; //Exposure data_p += 4; // EXIF Exposure Offset attributes->brightness.num = (int) data_p[0]; //Exposure Bias data_p += 4; // EXIF Exposure Bias Offset attributes->exposure_bias.num = (data_p[1] << 8) + data_p[0]; //Exposure Time data_p += 8; // EXIF Exposure Time Offset attributes->exposure_time.den = (data_p[1] << 8) + data_p[0]; ALOGD("%s: Interleaved pointers array is at offset 0x%x, 0x%x bytes long\n", __func__, pointers_array_offset, pointers_array_size); if ((int) pointers_array_offset > size || (int) pointers_array_size > size || (int) pointers_array_size < yuv_height * (int) sizeof(unsigned int)) { ALOGE("%s: Invalid informations", __func__); return -1; } data_p = (unsigned char *) data; data_p += pointers_array_offset; yuv_p = (unsigned char *) yuv_data; jpeg_p = (unsigned char *) jpeg_data; jpeg_start_p = NULL; yuv_line_size = yuv_width * 2; yuv_offset_last = 0; yuv_offset = 0; i = 0; while (i < pointers_array_size) { offset_p = (unsigned int *) data_p; yuv_offset = BIG2LITTLE_ENDIAN(*offset_p); if (yuv_offset > size - yuv_line_size) return -1; gap = yuv_offset - yuv_offset_last - yuv_line_size; if (gap > 0) { data_p = (unsigned char *) data + yuv_offset_last + yuv_line_size; if (jpeg_start_p == NULL) { jpeg_start_p = (unsigned short *) data_p; if (*jpeg_start_p != 0xd8ff) { ALOGE("%s: Invalid jpeg start", __func__); return -1; } } memcpy(jpeg_p, data_p, gap); jpeg_p += gap; jpeg_length += gap; } yuv_offset_last = yuv_offset; data_p = (unsigned char *) data + yuv_offset; memcpy(yuv_p, data_p, yuv_line_size); yuv_p += yuv_line_size; yuv_length += yuv_line_size; data_p = (unsigned char *) offset_p; data_p += sizeof(yuv_offset); i += sizeof(yuv_offset); } gap = interleaved_size - yuv_offset_last - yuv_line_size; if (gap > 0) { data_p = (unsigned char *) data + yuv_offset_last + yuv_line_size; memcpy(jpeg_p, data_p, gap); jpeg_p += gap; jpeg_length += gap; } *yuv_size = yuv_length; *jpeg_size = jpeg_length; return 0; } int exynos_camera_capture(struct exynos_camera *exynos_camera) { struct exynos_camera_buffer *buffers = NULL; struct exynos_camera_buffer *buffer; int width, height, format; int yuv_length, jpeg_length; int jpeg_offset, jpeg_size; int jpeg_thumbnail_offset, jpeg_thumbnail_size; int buffers_count; int buffer_length; int auto_focus_result; int current_af; int decoded; int busy; void *pointer; void *picture_yuv_pointer = NULL; int address; int offset; int index; int rc; if (exynos_camera == NULL) return -EINVAL; width = exynos_camera->capture_width; height = exynos_camera->capture_height; format = exynos_camera->capture_format; buffers_count = exynos_camera->capture_buffers_count; buffer_length = exynos_camera->capture_buffer_length; // V4L2 index = exynos_v4l2_dqbuf_cap(exynos_camera, 0); if (index < 0 || index >= buffers_count) { rc = exynos_v4l2_poll(exynos_camera, 0); if (rc < 0) { ALOGE("%s Unable to poll", __func__); goto error; } else if (rc == 0) { // Timeout rc = 0; goto complete; } index = exynos_v4l2_dqbuf_cap(exynos_camera, 0); if (index < 0 || index >= buffers_count) { ALOGE("%s: Unable to dequeue buffer", __func__); goto error; } } exynos_camera->capture_memory_index = index; address = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_PADDR_Y, index); if (address == 0 || address == (int) 0xffffffff) { ALOGE("%s: Unable to get address", __func__); goto error; } offset = address - exynos_camera->capture_memory_address; if (offset != index * buffer_length) ALOGE("%s: Inconsistent memory offset (0x%x/0x%x)", __func__, offset, index * buffer_length); pointer = (void *) ((unsigned char *) exynos_camera->capture_memory->data + offset); // Buffers if (!exynos_camera->camera_fimc_is) { yuv_length = jpeg_length = 0; auto_focus_result = decoded = 0; rc = s5c73m3_interleaved_decode(exynos_camera, pointer, buffer_length, exynos_camera->capture_yuv_buffer, &yuv_length, width, height, exynos_camera->capture_jpeg_buffer, &jpeg_length, &decoded, &auto_focus_result, &exynos_camera->exif); if (rc < 0) { ALOGE("%s: Unable to decode S5C73M3 interleaved", __func__); goto error; } // AutoFocus switch (auto_focus_result) { case S5C73M3_CAF_STATUS_FOCUSING: case S5C73M3_CAF_STATUS_FIND_SEARCHING_DIR: case S5C73M3_AF_STATUS_FOCUSING: current_af = CAMERA_AF_STATUS_IN_PROGRESS; break; case S5C73M3_CAF_STATUS_FOCUSED: case S5C73M3_AF_STATUS_FOCUSED: current_af = CAMERA_AF_STATUS_SUCCESS; break; case S5C73M3_CAF_STATUS_UNFOCUSED: case S5C73M3_AF_STATUS_UNFOCUSED: current_af = CAMERA_AF_STATUS_FAIL; break; case S5C73M3_AF_STATUS_INVALID: default: current_af = CAMERA_AF_STATUS_RESTART; } if (exynos_camera->auto_focus_enabled) { rc = exynos_camera_auto_focus(exynos_camera, current_af); if (rc < 0) { ALOGE("%s: Unable to auto focus", __func__); goto error; } } // CAF switch (auto_focus_result) { case S5C73M3_CAF_STATUS_FOCUSING: case S5C73M3_CAF_STATUS_FIND_SEARCHING_DIR: current_af = CAMERA_AF_STATUS_IN_PROGRESS; break; case S5C73M3_CAF_STATUS_FOCUSED: current_af = CAMERA_AF_STATUS_SUCCESS; break; case S5C73M3_CAF_STATUS_UNFOCUSED: default: current_af = CAMERA_AF_STATUS_RESTART; } rc = exynos_camera_continuous_auto_focus(exynos_camera, current_af); if (rc < 0) { ALOGE("%s: Unable to continuous auto focus", __func__); goto error; } if (!decoded) { buffers_count = 1; buffers = (struct exynos_camera_buffer *) calloc(buffers_count, sizeof(struct exynos_camera_buffer)); buffer = buffers; buffer->pointer = pointer; buffer->address = address; buffer->length = buffer_length; buffer->width = width; buffer->height = height; buffer->format = V4L2_PIX_FMT_UYVY; } else { buffers_count = 2; buffers = (struct exynos_camera_buffer *) calloc(buffers_count, sizeof(struct exynos_camera_buffer)); buffer = buffers; memcpy(pointer, exynos_camera->capture_yuv_buffer, yuv_length); buffer->pointer = pointer; buffer->address = address; buffer->length = yuv_length; buffer->width = width; buffer->height = height; buffer->format = V4L2_PIX_FMT_UYVY; memcpy(&exynos_camera->picture_yuv_buffer, buffer, sizeof(struct exynos_camera_buffer)); pointer = (void *) ((unsigned char *) pointer + yuv_length); address += yuv_length; buffer = (struct exynos_camera_buffer *) ((unsigned char *) buffer + sizeof(struct exynos_camera_buffer)); memcpy(pointer, exynos_camera->capture_jpeg_buffer, jpeg_length); buffer->pointer = pointer; buffer->address = address; buffer->length = jpeg_length; buffer->width = exynos_camera->picture_width; buffer->height = exynos_camera->picture_height; buffer->format = exynos_camera->picture_format; memcpy(&exynos_camera->picture_jpeg_buffer, buffer, sizeof(struct exynos_camera_buffer)); exynos_camera_picture_thread_start(exynos_camera); memcpy(buffer, &exynos_camera->picture_yuv_buffer, sizeof(struct exynos_camera_buffer)); } } else { buffers_count = 1; buffers = (struct exynos_camera_buffer *) calloc(buffers_count, sizeof(struct exynos_camera_buffer)); buffer = buffers; buffer->pointer = pointer; buffer->address = address; buffer->length = buffer_length; buffer->width = width; buffer->height = height; buffer->format = format; if (exynos_camera->picture_enabled) { memcpy(&exynos_camera->picture_yuv_buffer, buffer, sizeof(struct exynos_camera_buffer)); exynos_camera_picture_thread_start(exynos_camera); } } // Preview if (exynos_camera->preview_enabled) { memcpy(&exynos_camera->preview_buffer, buffer, sizeof(struct exynos_camera_buffer)); if (!exynos_camera->preview_output_enabled) { rc = exynos_camera_preview_output_start(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to start Preview Output", __func__); goto error; } } rc = exynos_camera_preview(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to process Camera Preview", __func__); goto error; } } //Recording if (exynos_camera->recording_enabled) { if (exynos_camera->recording_output_enabled) { memcpy(&exynos_camera->recording_buffer, buffer, sizeof(struct exynos_camera_buffer)); exynos_camera->recording_memory_index = index; rc = exynos_camera_recording(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to process Camera Recording", __func__); goto error; } } else { memcpy(&exynos_camera->recording_buffer, buffer, sizeof(struct exynos_camera_buffer)); rc = exynos_camera_recording_output_start(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to start recording output", __func__); goto error; } } } else { if (exynos_camera->recording_output_enabled) exynos_camera_recording_output_stop(exynos_camera); } rc = exynos_v4l2_qbuf_cap(exynos_camera, 0, index); if (rc < 0) { ALOGE("%s: Unable to queue buffer", __func__); goto error; } rc = 0; goto complete; error: rc = -1; complete: if (buffers != NULL) free(buffers); return rc; } void *exynos_camera_capture_thread(void *data) { struct exynos_camera *exynos_camera; int rc; if (data == NULL) return NULL; exynos_camera = (struct exynos_camera *) data; ALOGE("%s: Starting thread", __func__); exynos_camera->capture_thread_running = 1; while (exynos_camera->capture_thread_enabled) { pthread_mutex_lock(&exynos_camera->capture_lock_mutex); while (exynos_camera->capture_enabled) { pthread_mutex_lock(&exynos_camera->capture_mutex); if (!exynos_camera->capture_enabled) { pthread_mutex_unlock(&exynos_camera->capture_mutex); break; } rc = exynos_camera_capture(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to capture", __func__); pthread_mutex_unlock(&exynos_camera->capture_mutex); break; } pthread_mutex_unlock(&exynos_camera->capture_mutex); // Wait a bit to let others lock the mutex if they need to usleep(10); } } exynos_camera->capture_thread_running = 0; ALOGE("%s: Exiting thread", __func__); return NULL; } void exynos_camera_picture_thread_start(struct exynos_camera *exynos_camera) { int rc; if (exynos_camera->picture_running) return; exynos_camera->picture_completed = 0; pthread_attr_t thread_attr; pthread_attr_init(&thread_attr); pthread_attr_setdetachstate(&thread_attr, PTHREAD_CREATE_DETACHED); rc = pthread_create(&exynos_camera->picture_thread, &thread_attr, exynos_camera_picture, (void *) exynos_camera); if (rc < 0) ALOGE("%s: Unable to create thread", __func__); exynos_camera->picture_running = 1; return; } int exynos_camera_capture_thread_start(struct exynos_camera *exynos_camera) { pthread_attr_t thread_attr; int rc; if (exynos_camera == NULL) return -EINVAL; ALOGD("%s()", __func__); if (exynos_camera->capture_thread_enabled) { ALOGE("Capture thread was already started!"); return -1; } pthread_mutex_init(&exynos_camera->capture_mutex, NULL); pthread_mutex_init(&exynos_camera->capture_lock_mutex, NULL); // Initial lock pthread_mutex_lock(&exynos_camera->capture_lock_mutex); pthread_attr_init(&thread_attr); pthread_attr_setdetachstate(&thread_attr, PTHREAD_CREATE_DETACHED); exynos_camera->capture_thread_enabled = 1; rc = pthread_create(&exynos_camera->capture_thread, &thread_attr, exynos_camera_capture_thread, (void *) exynos_camera); if (rc < 0) { ALOGE("%s: Unable to create thread", __func__); goto error; } rc = 0; goto complete; error: pthread_mutex_destroy(&exynos_camera->capture_mutex); pthread_mutex_destroy(&exynos_camera->capture_lock_mutex); rc = -1; complete: return rc; } void exynos_camera_capture_thread_stop(struct exynos_camera *exynos_camera) { int i; if (exynos_camera == NULL) return; ALOGD("%s()", __func__); if (!exynos_camera->capture_thread_enabled) { ALOGE("Capture thread was already stopped!"); return; } exynos_camera->capture_enabled = 0; exynos_camera->capture_thread_enabled = 0; pthread_mutex_unlock(&exynos_camera->capture_lock_mutex); // Wait for the thread to end i = 0; while (exynos_camera->capture_thread_running) { if (i++ > 10000) { ALOGE("Capture thread is taking too long to end, something is going wrong"); break; } usleep(100); } if (exynos_camera->capture_enabled) { pthread_mutex_lock(&exynos_camera->capture_mutex); exynos_camera_capture_stop(exynos_camera); pthread_mutex_unlock(&exynos_camera->capture_mutex); } pthread_mutex_destroy(&exynos_camera->capture_mutex); pthread_mutex_destroy(&exynos_camera->capture_lock_mutex); } int exynos_camera_capture_start(struct exynos_camera *exynos_camera) { struct v4l2_streamparm fps_param; int width, height, format; int mbus_width, mbus_height; int buffers_count, buffer_length; camera_memory_t *memory = NULL; int value; int fd; int rc; int i; if (exynos_camera == NULL) return -EINVAL; ALOGD("%s()", __func__); if (exynos_camera->capture_enabled) { ALOGE("Capture was already started!"); return -1; } width = exynos_camera->capture_width; height = exynos_camera->capture_height; format = exynos_camera->capture_format; // V4L2 if (!exynos_camera->camera_fimc_is) { ALOGD("Enabling hybrid capture"); rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_HYBRID, 1); if (rc < 0) { ALOGE("%s: Unable to set hybrid", __func__); goto error; } } else { rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_IS_S_FORMAT_SCENARIO, exynos_camera->fimc_is_mode); if (rc < 0) { ALOGE("%s: Unable to set FIMC-IS scenario", __func__); goto error; } } rc = exynos_v4l2_enum_fmt_cap(exynos_camera, 0, format); if (rc < 0) { ALOGE("%s: Unable to enumerate formats", __func__); goto error; } mbus_width = width; mbus_height = height; if (exynos_camera->camera_mbus_resolutions != NULL) { for (i = 0; i < exynos_camera->camera_mbus_resolutions_count; i++) { if (exynos_camera->camera_mbus_resolutions[i].width == width && exynos_camera->camera_mbus_resolutions[i].height == height) { mbus_width = exynos_camera->camera_mbus_resolutions[i].mbus_width; mbus_height = exynos_camera->camera_mbus_resolutions[i].mbus_height; break; } } } if (exynos_camera->camera_fimc_is) { // Set MBUS width/height/format rc = exynos_v4l2_s_fmt_pix(exynos_camera, 0, V4L2_BUF_TYPE_PRIVATE, mbus_width, mbus_height, format, exynos_camera->fimc_is_mode, V4L2_PIX_FMT_MODE_PREVIEW); if (rc < 0) { ALOGE("%s: Unable to set MBUS capture pixel format", __func__); goto error; } } rc = exynos_v4l2_s_fmt_pix_cap(exynos_camera, 0, width, height, format, V4L2_PIX_FMT_MODE_PREVIEW); if (rc < 0) { ALOGE("%s: Unable to set capture pixel format", __func__); goto error; } if (!exynos_camera->camera_fimc_is) { // Set MBUS width/height/format rc = exynos_v4l2_s_fmt_pix(exynos_camera, 0, V4L2_BUF_TYPE_PRIVATE, mbus_width, mbus_height, format, V4L2_FIELD_NONE, V4L2_PIX_FMT_MODE_PREVIEW); if (rc < 0) { ALOGE("%s: Unable to set MBUS capture pixel format", __func__); goto error; } rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CACHEABLE, 0); if (rc < 0) { ALOGE("%s: Unable to set cacheable", __func__); goto error; } // This must be set to 1 for interleaved data decoding rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_EMBEDDEDDATA_ENABLE, 1); if (rc < 0) { ALOGE("%s: Unable to set embdedded data enable", __func__); goto error; } } else { rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CACHEABLE, 1); if (rc < 0) { ALOGE("%s: Unable to set cacheable", __func__); goto error; } rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_IS_S_SCENARIO_MODE, exynos_camera->fimc_is_mode); if (rc < 0) { ALOGE("%s: Unable to set FIMC-IS scenario mode", __func__); goto error; } } // Let's assume FIMC0 has memory available through mmap for (i = EXYNOS_CAMERA_CAPTURE_BUFFERS_COUNT; i > 0; i--) { rc = exynos_v4l2_reqbufs_cap(exynos_camera, 0, i); if (rc >= 0) break; } if (rc < 0) { ALOGE("%s: Unable to request buffers", __func__); goto error; } buffers_count = rc; ALOGD("Found %d buffers available for capture!", buffers_count); memset(&fps_param, 0, sizeof(fps_param)); fps_param.parm.capture.timeperframe.numerator = 1; fps_param.parm.capture.timeperframe.denominator = exynos_camera->preview_fps; rc = exynos_v4l2_s_parm_cap(exynos_camera, 0, &fps_param); if (rc < 0) { ALOGE("%s: Unable to set fps", __func__); goto error; } for (i = 0; i < buffers_count; i++) { rc = exynos_v4l2_querybuf_cap(exynos_camera, 0, i); if (rc < 0) { ALOGE("%s: Unable to query buffers", __func__); goto error; } } buffer_length = rc; value = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_PADDR_Y, 0); if (value == 0 || value == (int) 0xffffffff) { ALOGE("%s: Unable to get address", __func__); goto error; } exynos_camera->capture_memory_address = value; if (EXYNOS_CAMERA_CALLBACK_DEFINED(request_memory)) { fd = exynos_v4l2_fd(exynos_camera, 0); if (fd < 0) { ALOGE("%s: Unable to get v4l2 fd for id %d", __func__, 0); goto error; } exynos_camera->capture_memory = NULL; memory = exynos_camera->callbacks.request_memory(fd, buffer_length, buffers_count, exynos_camera->callbacks.user); if (memory == NULL || memory->data == NULL || memory->data == MAP_FAILED) { ALOGE("%s: Unable to request memory", __func__); goto error; } exynos_camera->capture_memory = memory; memory = exynos_camera->callbacks.request_memory(-1, 1, 1, exynos_camera->callbacks.user); exynos_camera->face_data = memory; } else { ALOGE("%s: No memory request function!", __func__); goto error; } if (!exynos_camera->camera_fimc_is) { exynos_camera->capture_yuv_buffer = malloc(buffer_length); exynos_camera->capture_jpeg_buffer = malloc(buffer_length); } // Start EXIF memset(&exynos_camera->exif, 0, sizeof(struct exynos_exif)); exynos_exif_start(exynos_camera, &exynos_camera->exif); for (i = 0; i < buffers_count; i++) { rc = exynos_v4l2_qbuf_cap(exynos_camera, 0, i); if (rc < 0) { ALOGE("%s: Unable to queue buffer", __func__); goto error; } } exynos_camera->capture_buffers_count = buffers_count; exynos_camera->capture_buffer_length = buffer_length; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_ROTATION, exynos_camera->camera_rotation); if (rc < 0) { ALOGE("%s: Unable to set rotation", __func__); goto error; } rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_HFLIP, exynos_camera->camera_hflip); if (rc < 0) { ALOGE("%s: Unable to set hflip", __func__); goto error; } rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_VFLIP, exynos_camera->camera_vflip); if (rc < 0) { ALOGE("%s: Unable to set vflip", __func__); goto error; } rc = exynos_v4l2_streamon_cap(exynos_camera, 0); if (rc < 0) { ALOGE("%s: Unable to start stream", __func__); goto error; } // Few Scene Modes require to be set after stream on rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_SCENE_MODE, exynos_camera->scene_mode); if (rc < 0) { ALOGE("%s: Unable to set scene mode", __func__); goto error; } if (exynos_camera->camera_fimc_is) { rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_IS_CMD_FD, IS_FD_COMMAND_START); if (rc < 0) { ALOGE("%s: Unable to start face detection", __func__); goto error; } } exynos_camera->capture_enabled = 1; pthread_mutex_unlock(&exynos_camera->capture_lock_mutex); rc = 0; goto complete; error: if (exynos_camera->face_data != NULL && exynos_camera->face_data->release != NULL) { exynos_camera->face_data->release(exynos_camera->face_data); exynos_camera->face_data = NULL; } if (exynos_camera->capture_memory != NULL && exynos_camera->capture_memory->release != NULL) { exynos_camera->capture_memory->release(exynos_camera->capture_memory); exynos_camera->capture_memory = NULL; } rc = -1; complete: return rc; } void exynos_camera_capture_stop(struct exynos_camera *exynos_camera) { int rc; int i; if (exynos_camera == NULL) return; ALOGD("%s()", __func__); if (!exynos_camera->capture_enabled) { ALOGE("Capture was already stopped!"); return; } if (!exynos_camera->camera_fimc_is) { ALOGD("Disabling hybrid capture"); rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_HYBRID, 0); if (rc < 0) ALOGE("%s: Unable to set hybrid", __func__); } if (exynos_camera->camera_fimc_is) { rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_IS_CMD_FD, IS_FD_COMMAND_STOP); if (rc < 0) ALOGE("%s: Unable to stop face detection", __func__); } rc = exynos_v4l2_streamoff_cap(exynos_camera, 0); if (rc < 0) { ALOGE("%s: Unable to stop stream", __func__); } if (exynos_camera->face_data != NULL && exynos_camera->face_data->release != NULL) { exynos_camera->face_data->release(exynos_camera->face_data); exynos_camera->face_data = NULL; } if (exynos_camera->capture_memory != NULL && exynos_camera->capture_memory->release != NULL) { exynos_camera->capture_memory->release(exynos_camera->capture_memory); exynos_camera->capture_memory = NULL; } if (exynos_camera->capture_yuv_buffer != NULL) { free(exynos_camera->capture_yuv_buffer); exynos_camera->capture_yuv_buffer = NULL; } if (exynos_camera->capture_jpeg_buffer != NULL) { free(exynos_camera->capture_jpeg_buffer); exynos_camera->capture_jpeg_buffer = NULL; } if (&exynos_camera->exif.enabled) exynos_exif_stop(exynos_camera, &exynos_camera->exif); exynos_camera->capture_enabled = 0; } int exynos_camera_capture_setup(struct exynos_camera *exynos_camera) { int width, height, format; int rc; if (exynos_camera == NULL) return -EINVAL; ALOGD("%s()", __func__); format = exynos_camera->camera_capture_format; width = exynos_camera->preview_width; height = exynos_camera->preview_height; ALOGD("%s: Selected width: %d, height: %d, format: 0x%x", __func__, width, height, format); if (!exynos_camera->capture_enabled) { exynos_camera->capture_width = width; exynos_camera->capture_height = height; exynos_camera->capture_format = format; rc = exynos_camera_capture_start(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to start capture", __func__); return -1; } } else if (exynos_camera->capture_width != width || exynos_camera->capture_height != height || exynos_camera->capture_format != format) { exynos_camera_capture_stop(exynos_camera); exynos_camera->capture_width = width; exynos_camera->capture_height = height; exynos_camera->capture_format = format; rc = exynos_camera_capture_start(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to start capture", __func__); return -1; } } return 0; } // Preview int exynos_camera_preview_output_start(struct exynos_camera *exynos_camera) { struct exynos_v4l2_output *output; int rc; if (exynos_camera == NULL) return -EINVAL; ALOGD("%s()", __func__); if (exynos_camera->preview_output_enabled) { ALOGE("Preview was already started!"); return -1; } output = &exynos_camera->preview_output; memset(output, 0, sizeof(struct exynos_v4l2_output)); output->v4l2_id = 1; output->width = exynos_camera->preview_width; output->height = exynos_camera->preview_height; output->format = exynos_camera->preview_format; output->buffer_width = exynos_camera->preview_buffer.width; output->buffer_height = exynos_camera->preview_buffer.height; output->buffer_format = exynos_camera->preview_buffer.format; output->buffers_count = EXYNOS_CAMERA_PREVIEW_BUFFERS_COUNT; rc = exynos_v4l2_output_start(exynos_camera, output); if (rc < 0) { ALOGE("%s: Unable to start preview output", __func__); goto error; } exynos_camera->preview_output_enabled = 1; rc = 0; goto complete; error: rc = -1; complete: return rc; } void exynos_camera_preview_output_stop(struct exynos_camera *exynos_camera) { struct exynos_v4l2_output *output; if (exynos_camera == NULL) return; ALOGD("%s()", __func__); if (!exynos_camera->preview_output_enabled) { ALOGE("Preview was already stopped!"); return; } output = &exynos_camera->preview_output; exynos_v4l2_output_stop(exynos_camera, output); exynos_camera->preview_output_enabled = 0; } int exynos_camera_preview(struct exynos_camera *exynos_camera) { struct exynos_v4l2_output *output; int width, height, format; buffer_handle_t *window_buffer; void *window_data; int window_stride; camera_memory_t *memory; camera_face_t caface[exynos_camera->max_detected_faces]; void *memory_pointer; int memory_index; int memory_size; int rc; if (exynos_camera == NULL) goto error; // ALOGD("%s()", __func__); width = exynos_camera->preview_width; height = exynos_camera->preview_height; format = exynos_camera->preview_format; output = &exynos_camera->preview_output; if (exynos_camera->preview_output_enabled) { rc = exynos_v4l2_output(exynos_camera, output, exynos_camera->preview_buffer.address); if (rc < 0) { ALOGE("%s: Unable to output preview", __func__); goto error; } memory = output->memory; memory_index = output->memory_index; memory_pointer = (void *) ((unsigned char *) memory->data + output->buffer_length * memory_index); memory_size = output->buffer_length; } else { // In that case, we can directly use the capture memory memory = exynos_camera->capture_memory; memory_index = exynos_camera->capture_memory_index; memory_pointer = exynos_camera->preview_buffer.pointer; memory_size = exynos_camera->preview_buffer.length; } if (exynos_camera->preview_window != NULL && exynos_camera->gralloc != NULL) { exynos_camera->preview_window->dequeue_buffer(exynos_camera->preview_window, &window_buffer, &window_stride); exynos_camera->gralloc->lock(exynos_camera->gralloc, *window_buffer, GRALLOC_USAGE_SW_WRITE_OFTEN, 0, 0, width, height, &window_data); if (window_data == NULL) { ALOGE("%s: Unable to lock gralloc", __func__); goto error; } memcpy(window_data, memory_pointer, memory_size); exynos_camera->gralloc->unlock(exynos_camera->gralloc, *window_buffer); exynos_camera->preview_window->enqueue_buffer(exynos_camera->preview_window, window_buffer); } if (exynos_camera->camera_fimc_is) { exynos_camera->mFaceData.faces = caface; exynos_v4l2_s_ext_ctrl_face_detection(exynos_camera, 0, &exynos_camera->mFaceData); } if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_PREVIEW_FRAME) && EXYNOS_CAMERA_CALLBACK_DEFINED(data) && !exynos_camera->callback_lock) { exynos_camera->callbacks.data(CAMERA_MSG_PREVIEW_FRAME, memory, memory_index, NULL, exynos_camera->callbacks.user); } if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_PREVIEW_METADATA) && EXYNOS_CAMERA_CALLBACK_DEFINED(data) && !exynos_camera->callback_lock) { exynos_camera->callbacks.data(CAMERA_MSG_PREVIEW_METADATA, exynos_camera->face_data, 0, &exynos_camera->mFaceData, exynos_camera->callbacks.user); } if (exynos_camera->preview_output_enabled) { rc = exynos_v4l2_output_release(exynos_camera, output); if (rc < 0) { ALOGE("%s: Unable to release preview output", __func__); goto error; } } rc = 0; goto complete; error: rc = -1; complete: return rc; } int exynos_camera_preview_start(struct exynos_camera *exynos_camera) { if (exynos_camera == NULL) return -EINVAL; ALOGD("%s()", __func__); if (exynos_camera->preview_enabled) { ALOGE("Preview was already started!"); return -1; } exynos_camera_capture_setup(exynos_camera); exynos_camera->preview_enabled = 1; return 0; } void exynos_camera_preview_stop(struct exynos_camera *exynos_camera) { int i; if (exynos_camera == NULL) return; ALOGD("%s()", __func__); if (!exynos_camera->preview_enabled) { ALOGE("Preview was already stopped!"); return; } exynos_camera->preview_enabled = 0; if (exynos_camera->capture_enabled) { pthread_mutex_lock(&exynos_camera->capture_mutex); exynos_camera_capture_stop(exynos_camera); pthread_mutex_unlock(&exynos_camera->capture_mutex); } if (exynos_camera->preview_output_enabled) exynos_camera_preview_output_stop(exynos_camera); exynos_camera->preview_window = NULL; } // Picture void *exynos_camera_picture(void *data) { struct exynos_camera *exynos_camera; struct exynos_camera_buffer *jpeg_buffer; struct exynos_camera_buffer *yuv_buffer; struct exynos_v4l2_output output; struct exynos_jpeg jpeg; int output_enabled = 0; int width, height, format; int buffer_width, buffer_height, buffer_format, buffer_address; camera_memory_t *memory = NULL; int memory_size; unsigned char *p; camera_memory_t *jpeg_memory = NULL; void *jpeg_data = NULL; int jpeg_size = 0; camera_memory_t *jpeg_thumbnail_memory = NULL; void *jpeg_thumbnail_data = NULL; int jpeg_thumbnail_size = 0; void *yuv_data = NULL; int yuv_address = 0; int yuv_size = 0; void *yuv_thumbnail_data = NULL; int yuv_thumbnail_address; int yuv_thumbnail_size = 0; int rc; exynos_camera = (struct exynos_camera *) data; if (exynos_camera == NULL) goto error; ALOGD("%s()", __func__); jpeg_buffer = &exynos_camera->picture_jpeg_buffer; yuv_buffer = &exynos_camera->picture_yuv_buffer; if (jpeg_buffer->pointer != NULL && jpeg_buffer->length > 0) { jpeg_data = jpeg_buffer->pointer; jpeg_size = jpeg_buffer->length; } if (yuv_buffer->pointer != NULL && yuv_buffer->length > 0) { yuv_data = yuv_buffer->pointer; yuv_address = yuv_buffer->address; yuv_size = yuv_buffer->length; } // JPEG if (jpeg_data == NULL) { if (yuv_data == NULL || yuv_size <= 0) { ALOGE("%s: Unable to create jpeg without an YUV buffer", __func__); goto error; } width = exynos_camera->picture_width; height = exynos_camera->picture_height; format = yuv_buffer->format; buffer_width = yuv_buffer->width; buffer_height = yuv_buffer->height; buffer_format = yuv_buffer->format; buffer_address = yuv_buffer->address; if ((width != buffer_width && height != buffer_height) || exynos_camera->camera_fimc_is) { format = EXYNOS_CAMERA_PICTURE_OUTPUT_FORMAT; memset(&output, 0, sizeof(output)); output.v4l2_id = 2; output.width = width; output.height = height; output.format = format; output.buffer_width = buffer_width; output.buffer_height = buffer_height; output.buffer_format = buffer_format; output.buffers_count = 1; rc = exynos_v4l2_output_start(exynos_camera, &output); if (rc < 0) { ALOGE("%s: Unable to start picture output", __func__); goto error; } rc = exynos_v4l2_output(exynos_camera, &output, buffer_address); if (rc < 0) { ALOGE("%s: Unable to output picture", __func__); goto error; } output_enabled = 1; yuv_data = output.memory->data; yuv_address = output.memory_address; yuv_size = output.buffer_length; if (exynos_camera->camera_fimc_is) exynos_exif_create(exynos_camera, &exynos_camera->exif); } memset(&jpeg, 0, sizeof(jpeg)); jpeg.width = width; jpeg.height = height; jpeg.format = format; jpeg.quality = exynos_camera->jpeg_quality; rc = exynos_jpeg_start(exynos_camera, &jpeg); if (rc < 0) { ALOGE("%s: Unable to start jpeg", __func__); goto error; } if (jpeg.memory_in_pointer == NULL) { ALOGE("%s: Invalid memory input pointer", __func__); goto error; } memcpy(jpeg.memory_in_pointer, yuv_data, yuv_size); rc = exynos_jpeg(exynos_camera, &jpeg); if (rc < 0) { ALOGE("%s: Unable to jpeg", __func__); goto error; } jpeg_size = jpeg.memory_out_size; if (jpeg_size <= 0) { ALOGE("%s: Invalid jpeg size", __func__); goto error; } if (EXYNOS_CAMERA_CALLBACK_DEFINED(request_memory)) { jpeg_memory = exynos_camera->callbacks.request_memory(-1, jpeg_size, 1, exynos_camera->callbacks.user); if (jpeg_memory == NULL || jpeg_memory->data == NULL || jpeg_memory->data == MAP_FAILED) { ALOGE("%s: Unable to request memory", __func__); goto error; } } else { ALOGE("%s: No memory request function!", __func__); goto error; } jpeg_data = jpeg_memory->data; memcpy(jpeg_data, jpeg.memory_out_pointer, jpeg_size); exynos_jpeg_stop(exynos_camera, &jpeg); if (output_enabled) { exynos_v4l2_output_stop(exynos_camera, &output); output_enabled = 0; } } // Thumbnail if (yuv_data == NULL || yuv_size <= 0) { ALOGE("%s: Unable to create jpeg thumbnail without an YUV buffer", __func__); goto error; } width = exynos_camera->jpeg_thumbnail_width; height = exynos_camera->jpeg_thumbnail_height; format = yuv_buffer->format; buffer_width = yuv_buffer->width; buffer_height = yuv_buffer->height; buffer_format = yuv_buffer->format; buffer_address = yuv_buffer->address; if (width != buffer_width && height != buffer_height) { format = EXYNOS_CAMERA_PICTURE_OUTPUT_FORMAT; memset(&output, 0, sizeof(output)); output.v4l2_id = 2; output.width = width; output.height = height; output.format = format; output.buffer_width = buffer_width; output.buffer_height = buffer_height; output.buffer_format = buffer_format; output.buffers_count = 1; rc = exynos_v4l2_output_start(exynos_camera, &output); if (rc < 0) { ALOGE("%s: Unable to start thumbnail picture output", __func__); goto error; } output_enabled = 1; rc = exynos_v4l2_output(exynos_camera, &output, buffer_address); if (rc < 0) { ALOGE("%s: Unable to output thumbnail picture", __func__); goto error; } yuv_thumbnail_data = output.memory->data; yuv_thumbnail_address = output.memory_address; yuv_thumbnail_size = output.buffer_length; } memset(&jpeg, 0, sizeof(jpeg)); jpeg.width = width; jpeg.height = height; jpeg.format = format; jpeg.quality = exynos_camera->jpeg_thumbnail_quality; rc = exynos_jpeg_start(exynos_camera, &jpeg); if (rc < 0) { ALOGE("%s: Unable to start jpeg", __func__); goto error; } if (jpeg.memory_in_pointer == NULL) { ALOGE("%s: Invalid memory input pointer", __func__); goto error; } memcpy(jpeg.memory_in_pointer, yuv_thumbnail_data, yuv_thumbnail_size); rc = exynos_jpeg(exynos_camera, &jpeg); if (rc < 0) { ALOGE("%s: Unable to jpeg", __func__); goto error; } jpeg_thumbnail_size = jpeg.memory_out_size; if (jpeg_thumbnail_size <= 0) { ALOGE("%s: Invalid jpeg size", __func__); goto error; } if (EXYNOS_CAMERA_CALLBACK_DEFINED(request_memory)) { jpeg_thumbnail_memory = exynos_camera->callbacks.request_memory(-1, jpeg_thumbnail_size, 1, exynos_camera->callbacks.user); if (jpeg_thumbnail_memory == NULL || jpeg_thumbnail_memory->data == NULL || jpeg_thumbnail_memory->data == MAP_FAILED) { ALOGE("%s: Unable to request memory", __func__); goto error; } } else { ALOGE("%s: No memory request function!", __func__); goto error; } jpeg_thumbnail_data = jpeg_thumbnail_memory->data; memcpy(jpeg_thumbnail_data, jpeg.memory_out_pointer, jpeg_thumbnail_size); exynos_jpeg_stop(exynos_camera, &jpeg); if (output_enabled) { exynos_v4l2_output_stop(exynos_camera, &output); output_enabled = 0; } // EXIF exynos_exif_create(exynos_camera, &exynos_camera->exif); exynos_camera->exif.jpeg_thumbnail_data = jpeg_thumbnail_data; exynos_camera->exif.jpeg_thumbnail_size = jpeg_thumbnail_size; rc = exynos_exif(exynos_camera, &exynos_camera->exif); if (rc < 0) { ALOGE("%s: Unable to exif", __func__); goto error; } memory_size = exynos_camera->exif.memory_size + jpeg_size; if (EXYNOS_CAMERA_CALLBACK_DEFINED(request_memory)) { memory = exynos_camera->callbacks.request_memory(-1, memory_size, 1, exynos_camera->callbacks.user); if (memory == NULL || memory->data == NULL || memory->data == MAP_FAILED) { ALOGE("%s: Unable to request memory", __func__); goto error; } } else { ALOGE("%s: No memory request function!", __func__); goto error; } p = (unsigned char *) memory->data; // Copy the first two bytes of the JPEG picture memcpy(p, jpeg_data, 2); p += 2; // Copy the EXIF data memcpy(p, exynos_camera->exif.memory->data, exynos_camera->exif.memory_size); p += exynos_camera->exif.memory_size; // Copy the JPEG picture memcpy(p, (void *) ((unsigned char *) jpeg_data + 2), jpeg_size - 2); exynos_camera->picture_memory = memory; goto complete; error: if (output_enabled) exynos_v4l2_output_stop(exynos_camera, &output); if (memory != NULL && memory->release != NULL) { memory->release(memory); exynos_camera->picture_memory = NULL; } if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_ERROR) && EXYNOS_CAMERA_CALLBACK_DEFINED(notify) && !exynos_camera->callback_lock) exynos_camera->callbacks.notify(CAMERA_MSG_ERROR, -1, 0, exynos_camera->callbacks.user); complete: if (jpeg_memory != NULL && jpeg_memory->release != NULL) jpeg_memory->release(jpeg_memory); if (jpeg_thumbnail_memory != NULL && jpeg_thumbnail_memory->release != NULL) jpeg_thumbnail_memory->release(jpeg_thumbnail_memory); exynos_camera->picture_completed = 1; exynos_camera_picture_stop(exynos_camera); exynos_camera->picture_running = 0; return NULL; } int exynos_camera_picture_start(struct exynos_camera *exynos_camera) { int rc; if (exynos_camera == NULL) return -EINVAL; ALOGD("%s()", __func__); if (exynos_camera->picture_enabled) { ALOGE("Picture was already started!"); return 0; } if (!exynos_camera->camera_fimc_is) { rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_CAPTURE, 0); if (rc < 0) { ALOGE("%s: Unable to set capture", __func__); return -1; } rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_HYBRID_CAPTURE, 1); if (rc < 0) { ALOGE("%s: Unable to set hybrid capture", __func__); return -1; } } exynos_camera->picture_enabled = 1; return 0; } void exynos_camera_picture_stop(struct exynos_camera *exynos_camera) { camera_memory_t *memory; int rc, i; if (exynos_camera == NULL) return; ALOGD("%s()", __func__); if (!exynos_camera->picture_enabled) { ALOGE("Picture was already stopped!"); return; } memory = exynos_camera->picture_memory; if (exynos_camera->picture_completed && memory != NULL) { // It is important to return at this point (and not before) for burst if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_SHUTTER) && EXYNOS_CAMERA_CALLBACK_DEFINED(notify) && !exynos_camera->callback_lock) exynos_camera->callbacks.notify(CAMERA_MSG_SHUTTER, 0, 0, exynos_camera->callbacks.user); if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_COMPRESSED_IMAGE) && EXYNOS_CAMERA_CALLBACK_DEFINED(data) && !exynos_camera->callback_lock) exynos_camera->callbacks.data(CAMERA_MSG_COMPRESSED_IMAGE, memory, 0, NULL, exynos_camera->callbacks.user); if (memory->release != NULL) { memory->release(memory); exynos_camera->picture_memory = NULL; } } rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_AEAWB_LOCK_UNLOCK, AE_UNLOCK_AWB_UNLOCK); if (rc < 0) ALOGE("%s: Unable to set AEAWB lock", __func__); exynos_camera->picture_enabled = 0; } // Recording int exynos_camera_recording_output_start(struct exynos_camera *exynos_camera) { struct exynos_v4l2_output *output; int rc; if (exynos_camera == NULL) return -EINVAL; ALOGD("%s()", __func__); if (exynos_camera->recording_output_enabled) { ALOGE("Recording was already started!"); return -1; } output = &exynos_camera->recording_output; memset(output, 0, sizeof(struct exynos_v4l2_output)); output->v4l2_id = 3; output->width = exynos_camera->recording_width; output->height = exynos_camera->recording_height; output->format = exynos_camera->recording_format; output->buffer_width = exynos_camera->recording_buffer.width; output->buffer_height = exynos_camera->recording_buffer.height; output->buffer_format = exynos_camera->recording_buffer.format; output->buffers_count = EXYNOS_CAMERA_RECORDING_BUFFERS_COUNT; rc = exynos_v4l2_output_start(exynos_camera, output); if (rc < 0) { ALOGE("%s: Unable to start recording output", __func__); goto error; } exynos_camera->recording_output_enabled = 1; rc = 0; goto complete; error: rc = -1; complete: return rc; } void exynos_camera_recording_output_stop(struct exynos_camera *exynos_camera) { struct exynos_v4l2_output *output; if (exynos_camera == NULL) return; ALOGD("%s()", __func__); if (!exynos_camera->recording_output_enabled) { ALOGE("Recording was already stopped!"); return; } output = &exynos_camera->recording_output; exynos_v4l2_output_stop(exynos_camera, output); exynos_camera->recording_output_enabled = 0; } void exynos_camera_recording_frame_release(struct exynos_camera *exynos_camera) { struct exynos_v4l2_output *output; int rc; if (exynos_camera == NULL) return; // ALOGD("%s()", __func__); output = &exynos_camera->recording_output; if (!exynos_camera->recording_output_enabled) { ALOGE("%s: Recording output should always be enabled", __func__); return; } rc = exynos_v4l2_output_release(exynos_camera, output); if (rc < 0) { ALOGE("%s: Unable to release recording output", __func__); return; } } int exynos_camera_recording(struct exynos_camera *exynos_camera) { struct exynos_v4l2_output *output; struct exynos_camera_addrs *addrs; int width, height, format; camera_memory_t *memory; int memory_address; int memory_index; int buffer_length; int buffers_count; nsecs_t timestamp; int rc; if (exynos_camera == NULL) goto error; // ALOGD("%s()", __func__); width = exynos_camera->recording_width; height = exynos_camera->recording_height; format = exynos_camera->recording_format; output = &exynos_camera->recording_output; buffer_length = exynos_camera->recording_buffer_length; buffers_count = exynos_camera->recording_buffers_count; timestamp = systemTime(1); if (!exynos_camera->recording_output_enabled) { ALOGE("%s: Recording output should always be enabled", __func__); goto error; } rc = exynos_v4l2_output(exynos_camera, output, exynos_camera->recording_buffer.address); if (rc < 0) { ALOGE("%s: Unable to output recording", __func__); goto error; } if (exynos_camera->recording_metadata) { memory = exynos_camera->recording_memory; memory_index = exynos_camera->recording_memory_index; memory_address = output->memory_address + output->buffer_length * output->memory_index; addrs = (struct exynos_camera_addrs *) ((unsigned char *) memory->data + buffer_length * memory_index); memset(addrs, 0, sizeof(struct exynos_camera_addrs)); addrs->type = 0; // kMetadataBufferTypeCameraSource addrs->index = memory_index; exynos_camera_yuv_planes(width, height, format, memory_address, (int *) &addrs->y, (int *) &addrs->cbcr, NULL); } else { memory = output->memory; memory_index = output->memory_index; } if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_VIDEO_FRAME) && EXYNOS_CAMERA_CALLBACK_DEFINED(data_timestamp) && !exynos_camera->callback_lock) exynos_camera->callbacks.data_timestamp(timestamp, CAMERA_MSG_VIDEO_FRAME, memory, memory_index, exynos_camera->callbacks.user); else exynos_camera_recording_frame_release(exynos_camera); rc = 0; goto complete; error: rc = -1; complete: return rc; } int exynos_camera_recording_start(struct exynos_camera *exynos_camera) { int rc; camera_memory_t *memory = NULL; int buffer_length; int buffers_count; if (exynos_camera == NULL) return -EINVAL; ALOGD("%s()", __func__); if (exynos_camera->recording_enabled) { ALOGE("Recording was already started!"); return -1; } exynos_camera->recording_enabled = 1; if (exynos_camera->recording_metadata) { buffer_length = sizeof(struct exynos_camera_addrs); buffers_count = EXYNOS_CAMERA_RECORDING_BUFFERS_COUNT; if (EXYNOS_CAMERA_CALLBACK_DEFINED(request_memory)) { memory = exynos_camera->callbacks.request_memory(-1, buffer_length, buffers_count, exynos_camera->callbacks.user); if (memory == NULL || memory->data == NULL || memory->data == MAP_FAILED) { ALOGE("%s: Unable to request memory", __func__); goto error; } } else { ALOGE("%s: No memory request function!", __func__); goto error; } exynos_camera->recording_memory = memory; exynos_camera->recording_buffer_length = buffer_length; exynos_camera->recording_buffers_count = buffers_count; } rc = 0; goto complete; error: if (memory != NULL && memory->release != NULL) { memory->release(memory); exynos_camera->recording_memory = NULL; } rc = -1; complete: return rc; } void exynos_camera_recording_stop(struct exynos_camera *exynos_camera) { int i; if (exynos_camera == NULL) return; ALOGD("%s()", __func__); if (!exynos_camera->recording_enabled) { ALOGE("Recording was already stopped!"); return; } exynos_camera->recording_enabled = 0; } // Auto-focus int exynos_camera_auto_focus(struct exynos_camera *exynos_camera, int auto_focus_status) { if (exynos_camera == NULL) return -EINVAL; // ALOGD("%s()", __func__); switch (auto_focus_status) { case CAMERA_AF_STATUS_SUCCESS: if (exynos_camera->auto_focus_started) { if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_FOCUS) && EXYNOS_CAMERA_CALLBACK_DEFINED(notify) && !exynos_camera->callback_lock) exynos_camera->callbacks.notify(CAMERA_MSG_FOCUS, 1, 0, exynos_camera->callbacks.user); exynos_camera_auto_focus_finish(exynos_camera); } break; case CAMERA_AF_STATUS_FAIL: if (exynos_camera->auto_focus_started) { if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_FOCUS) && EXYNOS_CAMERA_CALLBACK_DEFINED(notify) && !exynos_camera->callback_lock) exynos_camera->callbacks.notify(CAMERA_MSG_FOCUS, 0, 0, exynos_camera->callbacks.user); exynos_camera_auto_focus_finish(exynos_camera); } break; case CAMERA_AF_STATUS_IN_PROGRESS: exynos_camera->auto_focus_started = 1; break; case CAMERA_AF_STATUS_RESTART: default: break; } return 0; } int exynos_camera_continuous_auto_focus(struct exynos_camera *exynos_camera, int auto_focus_status) { if (exynos_camera == NULL) return -EINVAL; switch (auto_focus_status) { case CAMERA_AF_STATUS_IN_PROGRESS: if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_FOCUS_MOVE) && EXYNOS_CAMERA_CALLBACK_DEFINED(notify) && !exynos_camera->callback_lock) exynos_camera->callbacks.notify(CAMERA_MSG_FOCUS_MOVE, 1, 0, exynos_camera->callbacks.user); break; case CAMERA_AF_STATUS_SUCCESS: if (EXYNOS_CAMERA_MSG_ENABLED(CAMERA_MSG_FOCUS_MOVE) && EXYNOS_CAMERA_CALLBACK_DEFINED(notify) && !exynos_camera->callback_lock) exynos_camera->callbacks.notify(CAMERA_MSG_FOCUS_MOVE, 0, 0, exynos_camera->callbacks.user); break; case CAMERA_AF_STATUS_RESTART: default: break; } return 0; } int exynos_camera_auto_focus_start(struct exynos_camera *exynos_camera) { int auto_focus; int rc; if (exynos_camera == NULL) return -EINVAL; ALOGD("%s()", __func__); auto_focus = AUTO_FOCUS_ON | (exynos_camera->preview_width & 0xfff) << 20 | (exynos_camera->preview_height & 0xfff) << 8; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_SET_AUTO_FOCUS, auto_focus); if (rc < 0) { ALOGE("%s: Unable to set auto-focus on", __func__); goto error; } exynos_camera->auto_focus_enabled = 1; rc = 0; goto complete; error: rc = -1; complete: return rc; } void exynos_camera_auto_focus_finish(struct exynos_camera *exynos_camera) { int rc; ALOGD("%s()", __func__); if (!exynos_camera->auto_focus_enabled) { return; } exynos_camera->auto_focus_enabled = 0; exynos_camera->auto_focus_started = 0; rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_AEAWB_LOCK_UNLOCK, AE_UNLOCK_AWB_UNLOCK); if (rc < 0) ALOGE("%s: Unable to set AEAWB lock", __func__); } void exynos_camera_auto_focus_stop(struct exynos_camera *exynos_camera) { int rc; int i; if (exynos_camera == NULL) return; ALOGD("%s()", __func__); rc = exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_SET_AUTO_FOCUS, AUTO_FOCUS_OFF); if (rc < 0) ALOGE("%s: Unable to set auto-focus off", __func__); if (exynos_camera->auto_focus_enabled) exynos_camera_auto_focus_finish(exynos_camera); } /* * Exynos Camera OPS */ int exynos_camera_set_preview_window(struct camera_device *dev, struct preview_stream_ops *w) { struct exynos_camera *exynos_camera; int width, height, format, gralloc_format; buffer_handle_t *buffer; int stride; void *addr = NULL; int rc; ALOGD("%s(%p, %p)", __func__, dev, w); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; if (w == NULL) { exynos_camera->preview_window = NULL; return 0; } if (w->set_buffer_count == NULL || w->set_usage == NULL || w->set_buffers_geometry == NULL) goto error; rc = w->set_buffer_count(w, EXYNOS_CAMERA_GRALLOC_BUFFERS_COUNT); if (rc) { ALOGE("%s: Unable to set buffer count: %d", __func__, EXYNOS_CAMERA_GRALLOC_BUFFERS_COUNT); goto error; } rc = w->set_usage(w, GRALLOC_USAGE_SW_WRITE_OFTEN); if (rc) { ALOGE("%s: Unable to set usage", __func__); goto error; } width = exynos_camera->preview_width; height = exynos_camera->preview_height; format = exynos_camera->preview_format; switch (format) { case V4L2_PIX_FMT_NV21: gralloc_format = HAL_PIXEL_FORMAT_YCrCb_420_SP; break; case V4L2_PIX_FMT_YUV420: gralloc_format = HAL_PIXEL_FORMAT_YV12; break; case V4L2_PIX_FMT_RGB565: gralloc_format = HAL_PIXEL_FORMAT_RGB_565; break; case V4L2_PIX_FMT_RGB32: gralloc_format = HAL_PIXEL_FORMAT_RGBX_8888; break; default: gralloc_format = HAL_PIXEL_FORMAT_YCrCb_420_SP; break; } rc = w->set_buffers_geometry(w, width, height, gralloc_format); if (rc) { ALOGE("%s: Unable to set buffers geometry", __func__); goto error; } exynos_camera->preview_window = w; rc = 0; goto complete; error: exynos_camera->preview_window = NULL; rc = -1; complete: return rc; } void exynos_camera_set_callbacks(struct camera_device *dev, camera_notify_callback notify_cb, camera_data_callback data_cb, camera_data_timestamp_callback data_cb_timestamp, camera_request_memory get_memory, void *user) { struct exynos_camera *exynos_camera; ALOGD("%s(%p, %p)", __func__, dev, user); if (dev == NULL || dev->priv == NULL) return; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera->callbacks.notify = notify_cb; exynos_camera->callbacks.data = data_cb; exynos_camera->callbacks.data_timestamp = data_cb_timestamp; exynos_camera->callbacks.request_memory = get_memory; exynos_camera->callbacks.user = user; } void exynos_camera_enable_msg_type(struct camera_device *dev, int32_t msg_type) { struct exynos_camera *exynos_camera; ALOGD("%s(%p, %d)", __func__, dev, msg_type); if (dev == NULL || dev->priv == NULL) return; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera->messages_enabled |= msg_type; } void exynos_camera_disable_msg_type(struct camera_device *dev, int32_t msg_type) { struct exynos_camera *exynos_camera; ALOGD("%s(%p, %d)", __func__, dev, msg_type); if (dev == NULL || dev->priv == NULL) return; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera->messages_enabled &= ~msg_type; } int exynos_camera_msg_type_enabled(struct camera_device *dev, int32_t msg_type) { struct exynos_camera *exynos_camera; ALOGD("%s(%p, %d)", __func__, dev, msg_type); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; return exynos_camera->messages_enabled & msg_type; } int exynos_camera_start_preview(struct camera_device *dev) { struct exynos_camera *exynos_camera; int rc; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera->callback_lock = 1; rc = exynos_camera_preview_start(exynos_camera); exynos_camera->callback_lock = 0; return rc; } void exynos_camera_stop_preview(struct camera_device *dev) { struct exynos_camera *exynos_camera; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera->callback_lock = 1; exynos_camera_preview_stop(exynos_camera); exynos_camera->callback_lock = 0; } int exynos_camera_preview_enabled(struct camera_device *dev) { struct exynos_camera *exynos_camera; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; return exynos_camera->preview_enabled; } int exynos_camera_store_meta_data_in_buffers(struct camera_device *dev, int enable) { struct exynos_camera *exynos_camera; ALOGD("%s(%p, %d)", __func__, dev, enable); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; if (!exynos_camera->recording_enabled) exynos_camera->recording_metadata = enable; else ALOGE("%s: Recording is running!", __func__); return 0; } int exynos_camera_start_recording(struct camera_device *dev) { struct exynos_camera *exynos_camera; int rc; ALOGD("%s(%p)", __func__, dev); exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera->callback_lock = 1; rc = exynos_camera_recording_start(exynos_camera); exynos_camera->callback_lock = 0; return rc; } void exynos_camera_stop_recording(struct camera_device *dev) { struct exynos_camera *exynos_camera; ALOGD("%s(%p)", __func__, dev); exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera->callback_lock = 1; exynos_camera_recording_stop(exynos_camera); exynos_camera->callback_lock = 0; } int exynos_camera_recording_enabled(struct camera_device *dev) { struct exynos_camera *exynos_camera; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; return exynos_camera->recording_enabled; } void exynos_camera_release_recording_frame(struct camera_device *dev, const void *opaque) { struct exynos_camera *exynos_camera; // ALOGD("%s(%p, %p)", __func__, dev, opaque); if (dev == NULL || dev->priv == NULL) return; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera_recording_frame_release(exynos_camera); } int exynos_camera_start_auto_focus(struct camera_device *dev) { struct exynos_camera *exynos_camera; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; return exynos_camera_auto_focus_start(exynos_camera); } int exynos_camera_cancel_auto_focus(struct camera_device *dev) { struct exynos_camera *exynos_camera; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera_auto_focus_stop(exynos_camera); return 0; } int exynos_camera_take_picture(struct camera_device *dev) { struct exynos_camera *exynos_camera; int rc; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera->callback_lock = 1; rc = exynos_camera_picture_start(exynos_camera); exynos_camera->callback_lock = 0; return rc; } int exynos_camera_cancel_picture(struct camera_device *dev) { struct exynos_camera *exynos_camera; int rc; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera->callback_lock = 1; exynos_camera_picture_stop(exynos_camera); exynos_camera->callback_lock = 0; return 0; } int exynos_camera_set_parameters(struct camera_device *dev, const char *params) { struct exynos_camera *exynos_camera; int rc; ALOGD("%s(%p, %s)", __func__, dev, params); if (dev == NULL || dev->priv == NULL || params == NULL) return -EINVAL; exynos_camera = (struct exynos_camera *) dev->priv; if (strstr(params, "gps-timestamp=") == NULL) { /* Make sure the GPS data is ignored, it may have * been explicitly erased with removeGpsData() */ exynos_param_int_set(exynos_camera, "gps-timestamp", -1); exynos_param_int_set(exynos_camera, "gps-latitude", -1); exynos_param_int_set(exynos_camera, "gps-longitude", -1); } rc = exynos_params_string_set(exynos_camera, (char *) params); if (rc < 0) { ALOGE("%s: Unable to set params string", __func__); return -1; } rc = exynos_camera_params_apply(exynos_camera, 0); if (rc < 0) { ALOGE("%s: Unable to apply params", __func__); return -1; } return 0; } char *exynos_camera_get_parameters(struct camera_device *dev) { struct exynos_camera *exynos_camera; char *params; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return NULL; exynos_camera = (struct exynos_camera *) dev->priv; params = exynos_params_string_get(exynos_camera); if (params == NULL) { ALOGE("%s: Couldn't find any param", __func__); return strdup(""); } return params; } void exynos_camera_put_parameters(struct camera_device *dev, char *params) { ALOGD("%s(%p)", __func__, dev); if (params != NULL) free(params); } int setFaceDetect(struct exynos_camera *exynos_camera, int face_detect) { ALOGD("%s(face_detect(%d))", __func__, face_detect); if (exynos_camera->camera_fimc_is) { if (face_detect < IS_FD_COMMAND_STOP || IS_FD_COMMAND_MAX <= face_detect) { ALOGE("ERR(%s):Invalid face_detect value (%d)", __func__, face_detect); return -1; } } else { if (face_detect < FACE_DETECTION_OFF || FACE_DETECTION_MAX <= face_detect) { ALOGE("ERR(%s):Invalid face_detect value (%d)", __func__, face_detect); return -1; } } if (exynos_camera->camera_fimc_is) { if (exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_IS_CMD_FD, face_detect) < 0) { ALOGE("ERR(%s):Fail on V4L2_CID_IS_CMD_FD", __func__); return -1; } } else { if (exynos_v4l2_s_ctrl(exynos_camera, 0, V4L2_CID_CAMERA_FACE_DETECTION, face_detect) < 0) { ALOGE("ERR(%s):Fail on V4L2_CID_CAMERA_FACE_DETECTION", __func__); return -1; } } return 0; } int exynos_camera_send_command(struct camera_device *dev, int32_t cmd, int32_t arg1, int32_t arg2) { struct exynos_camera *exynos_camera; exynos_camera = (struct exynos_camera *) dev->priv; ALOGD("%s(%p, %d, %d, %d)", __func__, dev, cmd, arg1, arg2); switch (cmd) { case CAMERA_CMD_START_FACE_DETECTION: if (setFaceDetect(exynos_camera, FACE_DETECTION_ON) < 0) { ALOGE("ERR: Fail on setFaceDetect(ON)"); return -EINVAL; } else { return 0; } break; case CAMERA_CMD_STOP_FACE_DETECTION: if (setFaceDetect(exynos_camera, FACE_DETECTION_OFF) < 0) { ALOGE("ERR: Fail on setFaceDetect(OFF)"); return -EINVAL; } else { return 0; } break; default: break; } return 0; } void exynos_camera_release(struct camera_device *dev) { struct exynos_camera *exynos_camera; ALOGD("%s(%p)", __func__, dev); if (dev == NULL || dev->priv == NULL) return; exynos_camera = (struct exynos_camera *) dev->priv; exynos_camera_capture_thread_stop(exynos_camera); exynos_camera_stop(exynos_camera); } int exynos_camera_dump(struct camera_device *dev, int fd) { ALOGD("%s(%p, %d)", __func__, dev, fd); return 0; } /* * Interface */ struct camera_device_ops exynos_camera_ops = { .set_preview_window = exynos_camera_set_preview_window, .set_callbacks = exynos_camera_set_callbacks, .enable_msg_type = exynos_camera_enable_msg_type, .disable_msg_type = exynos_camera_disable_msg_type, .msg_type_enabled = exynos_camera_msg_type_enabled, .start_preview = exynos_camera_start_preview, .stop_preview = exynos_camera_stop_preview, .preview_enabled = exynos_camera_preview_enabled, .store_meta_data_in_buffers = exynos_camera_store_meta_data_in_buffers, .start_recording = exynos_camera_start_recording, .stop_recording = exynos_camera_stop_recording, .recording_enabled = exynos_camera_recording_enabled, .release_recording_frame = exynos_camera_release_recording_frame, .auto_focus = exynos_camera_start_auto_focus, .cancel_auto_focus = exynos_camera_cancel_auto_focus, .take_picture = exynos_camera_take_picture, .cancel_picture = exynos_camera_cancel_picture, .set_parameters = exynos_camera_set_parameters, .get_parameters = exynos_camera_get_parameters, .put_parameters = exynos_camera_put_parameters, .send_command = exynos_camera_send_command, .release = exynos_camera_release, .dump = exynos_camera_dump, }; int exynos_camera_close(hw_device_t *device) { struct camera_device *camera_device; struct exynos_camera *exynos_camera; ALOGD("%s(%p)", __func__, device); if (device == NULL) return -EINVAL; camera_device = (struct camera_device *) device; if (camera_device->priv != NULL) { free(camera_device->priv); } free(camera_device); return 0; } int exynos_camera_open(const struct hw_module_t* module, const char *camera_id, struct hw_device_t** device) { struct camera_device *camera_device = NULL; struct exynos_camera *exynos_camera = NULL; int id; int rc; ALOGD("%s(%p, %s, %p)", __func__, module, camera_id, device); if (module == NULL || camera_id == NULL || device == NULL) return -EINVAL; id = atoi(camera_id); if (id < 0) return -EINVAL; exynos_camera = calloc(1, sizeof(struct exynos_camera)); exynos_camera->config = exynos_camera_config; if (exynos_camera->config->v4l2_nodes_count > EXYNOS_CAMERA_MAX_V4L2_NODES_COUNT) goto error_preset; if (id >= exynos_camera->config->presets_count) goto error_preset; rc = exynos_camera_start(exynos_camera, id); if (rc < 0) { ALOGE("%s: Unable to start camera", __func__); goto error; } rc = exynos_camera_capture_thread_start(exynos_camera); if (rc < 0) { ALOGE("%s: Unable to start capture thread", __func__); goto error; } camera_device = calloc(1, sizeof(struct camera_device)); camera_device->common.tag = HARDWARE_DEVICE_TAG; camera_device->common.version = 0; camera_device->common.module = (struct hw_module_t *) module; camera_device->common.close = exynos_camera_close; camera_device->ops = &exynos_camera_ops; camera_device->priv = exynos_camera; *device = (struct hw_device_t *) &(camera_device->common); return 0; error: exynos_camera_stop(exynos_camera); error_device: if (camera_device != NULL) free(camera_device); error_preset: if (exynos_camera != NULL) free(exynos_camera); return -1; } int exynos_camera_get_number_of_cameras(void) { ALOGD("%s()", __func__); if (exynos_camera_config == NULL || exynos_camera_config->presets == NULL) { ALOGE("%s: Unable to find proper camera config", __func__); return -1; } return exynos_camera_config->presets_count; } int exynos_camera_get_camera_info(int id, struct camera_info *info) { ALOGD("%s(%d, %p)", __func__, id, info); if (id < 0 || info == NULL) return -EINVAL; if (exynos_camera_config == NULL || exynos_camera_config->presets == NULL) { ALOGE("%s: Unable to find proper camera config", __func__); return -1; } if (id >= exynos_camera_config->presets_count) return -EINVAL; ALOGD("Selected camera: %s", exynos_camera_config->presets[id].name); info->facing = exynos_camera_config->presets[id].facing; info->orientation = exynos_camera_config->presets[id].orientation; return 0; } struct hw_module_methods_t exynos_camera_module_methods = { .open = exynos_camera_open, }; struct camera_module HAL_MODULE_INFO_SYM = { .common = { .tag = HARDWARE_MODULE_TAG, .hal_api_version = HARDWARE_HAL_API_VERSION, .module_api_version = CAMERA_MODULE_API_VERSION_1_0, .id = CAMERA_HARDWARE_MODULE_ID, .name = "Exynos Camera - Dheeraj CVR", .author = "Paul Kocialkowski", .methods = &exynos_camera_module_methods, }, .get_number_of_cameras = exynos_camera_get_number_of_cameras, .get_camera_info = exynos_camera_get_camera_info, };