/**************************************************************************** * drivers/video/video.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "video_framebuff.h" /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ #define MAX_VIDEO_FILE_PATH (32) #define MAX_VIDEO_FMT (2) #define VIDEO_FMT_MAIN (0) #define VIDEO_FMT_SUB (1) #define VIDEO_REMAINING_CAPNUM_INFINITY (-1) #define VIDEO_SCENE_MAX (sizeof(g_video_scene_parameter) / \ sizeof(video_scene_params_t)) #define VIDEO_ID(x, y) (((x) << 16) | y) /**************************************************************************** * Private Types ****************************************************************************/ enum video_state_e { VIDEO_STATE_STREAMOFF = 0, /* capture trigger event is not received */ VIDEO_STATE_STREAMON = 1, /* capture trigger event is received, * but capture is not operated. */ VIDEO_STATE_CAPTURE = 2, /* On capture */ }; enum video_state_transition_cause { CAUSE_VIDEO_STOP = 0, /* Stop capture event for video stream */ CAUSE_VIDEO_START = 1, /* Start capture event for video stream */ CAUSE_VIDEO_DQBUF = 2, /* DQBUF timing for video stream */ CAUSE_STILL_STOP = 3, /* Stop capture event for still stream */ CAUSE_STILL_START = 4, /* Start capture event for still stream */ }; enum video_waitend_cause_e { VIDEO_WAITEND_CAUSE_CAPTUREDONE = 0, VIDEO_WAITEND_CAUSE_DQCANCEL = 1, VIDEO_WAITEND_CAUSE_STILLSTOP = 2, }; struct video_wait_capture_s { FAR sem_t dqbuf_wait_flg; /* Save container which capture is done */ FAR vbuf_container_t *done_container; enum video_waitend_cause_e waitend_cause; }; typedef struct video_wait_capture_s video_wait_capture_t; struct video_format_s { uint16_t width; uint16_t height; uint32_t pixelformat; }; typedef struct video_format_s video_format_t; struct video_type_inf_s { mutex_t lock_state; enum video_state_e state; int32_t remaining_capnum; video_wait_capture_t wait_capture; uint8_t nr_fmt; video_format_t fmt[MAX_VIDEO_FMT]; struct v4l2_rect clip; struct v4l2_fract frame_interval; video_framebuff_t bufinf; }; typedef struct video_type_inf_s video_type_inf_t; struct video_mng_s { FAR char *devpath; /* parameter of video_initialize() */ mutex_t lock_open_num; uint8_t open_num; video_type_inf_t video_inf; video_type_inf_t still_inf; }; typedef struct video_mng_s video_mng_t; struct video_scene_params_s { uint8_t mode; /* enum v4l2_scene_mode */ int32_t brightness; int32_t contrast; int32_t saturation; int32_t hue; bool awb; int32_t red; int32_t blue; int32_t gamma; uint32_t gamma_curve_sz; uint8_t *gamma_curve; int32_t ev; bool hflip_video; bool vflip_video; bool hflip_still; bool vflip_still; int32_t sharpness; enum v4l2_colorfx colorfx; bool auto_brightness; int32_t rotate; enum v4l2_exposure_auto_type ae; int32_t exposure_time; int32_t focus; bool af; int32_t zoom; int32_t iris; enum v4l2_auto_n_preset_white_balance wb; int32_t wdr; bool stabilization; enum v4l2_iso_sensitivity_auto_type iso_auto; int32_t iso; enum v4l2_exposure_metering meter; int32_t threea_lock; enum v4l2_flash_led_mode led; int32_t jpeg_quality; }; typedef struct video_scene_params_s video_scene_params_t; struct video_parameter_name_s { uint32_t id; char *name; }; typedef struct video_parameter_name_s video_parameter_name_t; /**************************************************************************** * Private Function Prototypes ****************************************************************************/ /* Character driver methods. */ static int video_open(FAR struct file *filep); static int video_close(FAR struct file *filep); static int video_ioctl(FAR struct file *filep, int cmd, unsigned long arg); /* Common function */ static FAR video_type_inf_t *get_video_type_inf (FAR video_mng_t *vmng, uint8_t type); static enum video_state_e estimate_next_video_state (FAR video_mng_t *vmng, enum video_state_transition_cause cause); static void change_video_state(FAR video_mng_t *vmng, enum video_state_e next_state); static bool is_taking_still_picture(FAR video_mng_t *vmng); static bool is_bufsize_sufficient(FAR video_mng_t *vmng, uint32_t bufsize); static void cleanup_resources(FAR video_mng_t *vmng); static bool is_sem_waited(FAR sem_t *sem); static int save_scene_param(enum v4l2_scene_mode mode, uint32_t id, struct v4l2_ext_control *control); static int video_complete_capture(uint8_t err_code, uint32_t datasize); static int validate_frame_setting(enum v4l2_buf_type type, uint8_t nr_fmt, FAR video_format_t *vfmt, FAR struct v4l2_fract *interval); /* internal function for each cmds of ioctl */ static int video_querycap(FAR struct v4l2_capability *cap); static int video_reqbufs(FAR struct video_mng_s *vmng, FAR struct v4l2_requestbuffers *reqbufs); static int video_qbuf(FAR struct video_mng_s *vmng, FAR struct v4l2_buffer *buf); static int video_dqbuf(FAR struct video_mng_s *vmng, FAR struct v4l2_buffer *buf); static int video_cancel_dqbuf(FAR struct video_mng_s *vmng, enum v4l2_buf_type type); static int video_s_fmt(FAR struct video_mng_s *priv, FAR struct v4l2_format *fmt); static int video_s_parm(FAR struct video_mng_s *priv, FAR struct v4l2_streamparm *parm); static int video_streamon(FAR struct video_mng_s *vmng, FAR enum v4l2_buf_type *type); static int video_streamoff(FAR struct video_mng_s *vmng, FAR enum v4l2_buf_type *type); static int video_do_halfpush(FAR struct video_mng_s *priv, bool enable); static int video_takepict_start(FAR struct video_mng_s *vmng, int32_t capture_num); static int video_takepict_stop(FAR struct video_mng_s *vmng, bool halfpush); static int video_queryctrl(FAR struct v4l2_queryctrl *ctrl); static int video_query_ext_ctrl(FAR struct v4l2_query_ext_ctrl *ctrl); static int video_querymenu(FAR struct v4l2_querymenu *menu); static int video_g_ctrl(FAR struct video_mng_s *priv, FAR struct v4l2_control *ctrl); static int video_s_ctrl(FAR struct video_mng_s *priv, FAR struct v4l2_control *ctrl); static int video_g_ext_ctrls(FAR struct video_mng_s *priv, FAR struct v4l2_ext_controls *ctrls); static int video_s_ext_ctrls(FAR struct video_mng_s *priv, FAR struct v4l2_ext_controls *ctrls); static int video_query_ext_ctrl_scene(FAR struct v4s_query_ext_ctrl_scene *ctrl); static int video_querymenu_scene(FAR struct v4s_querymenu_scene *menu); static int video_g_ext_ctrls_scene(FAR struct v4s_ext_controls_scene *ctrls); static int video_s_ext_ctrls_scene(FAR struct v4s_ext_controls_scene *ctrls); /**************************************************************************** * Private Data ****************************************************************************/ static const struct file_operations g_video_fops = { video_open, /* open */ video_close, /* close */ NULL, /* read */ NULL, /* write */ NULL, /* seek */ video_ioctl, /* ioctl */ NULL /* poll */ #ifndef CONFIG_DISABLE_PSEUDOFS_OPERATIONS , NULL /* unlink */ #endif }; static bool is_initialized = false; enum v4l2_scene_mode g_video_scene_mode = V4L2_SCENE_MODE_NONE; video_scene_params_t g_video_scene_parameter[] = { { V4L2_SCENE_MODE_NONE }, #ifdef CONFIG_VIDEO_SCENE_BACKLIGHT { V4L2_SCENE_MODE_BACKLIGHT }, #endif /* CONFIG_VIDEO_SCENE_BACKLIGHT */ #ifdef CONFIG_VIDEO_SCENE_BEACHSNOW { V4L2_SCENE_MODE_BEACH_SNOW }, #endif /* CONFIG_VIDEO_SCENE_BEACHSNOW */ #ifdef CONFIG_VIDEO_SCENE_CANDLELIGHT { V4L2_SCENE_MODE_CANDLE_LIGHT }, #endif /* CONFIG_VIDEO_SCENE_CANDLELIGHT */ #ifdef CONFIG_VIDEO_SCENE_DAWNDUSK { V4L2_SCENE_MODE_DAWN_DUSK }, #endif /* CONFIG_VIDEO_SCENE_DAWNDUSK */ #ifdef CONFIG_VIDEO_SCENE_FALLCOLORS { V4L2_SCENE_MODE_FALL_COLORS, }, #endif /* CONFIG_VIDEO_SCENE_FALLCOLORS */ #ifdef CONFIG_VIDEO_SCENE_FIREWORKS { V4L2_SCENE_MODE_FIREWORKS }, #endif /* CONFIG_VIDEO_SCENE_FIREWORKS */ #ifdef CONFIG_VIDEO_SCENE_LANDSCAPE { V4L2_SCENE_MODE_LANDSCAPE }, #endif /* CONFIG_VIDEO_SCENE_LANDSCAPE */ #ifdef CONFIG_VIDEO_SCENE_NIGHT { V4L2_SCENE_MODE_NIGHT }, #endif /* CONFIG_VIDEO_SCENE_NIGHT */ #ifdef CONFIG_VIDEO_SCENE_PARTYINDOOR { V4L2_SCENE_MODE_PARTY_INDOOR }, #endif /* CONFIG_VIDEO_SCENE_PARTYINDOOR */ #ifdef CONFIG_VIDEO_SCENE_PORTRAIT { V4L2_SCENE_MODE_PORTRAIT }, #endif /* CONFIG_VIDEO_SCENE_PORTRAIT */ #ifdef CONFIG_VIDEO_SCENE_SPORTS { V4L2_SCENE_MODE_SPORTS }, #endif /* CONFIG_VIDEO_SCENE_SPORTS */ #ifdef CONFIG_VIDEO_SCENE_SUNSET { V4L2_SCENE_MODE_SUNSET }, #endif /* CONFIG_VIDEO_SCENE_SUNSET */ #ifdef CONFIG_VIDEO_SCENE_TEXT { V4L2_SCENE_MODE_TEXT }, #endif /* CONFIG_VIDEO_SCENE_TEXT */ }; static video_parameter_name_t g_video_parameter_name[] = { {IMGSENSOR_ID_BRIGHTNESS, "Brightness"}, {IMGSENSOR_ID_CONTRAST, "Contrast"}, {IMGSENSOR_ID_SATURATION, "Saturation"}, {IMGSENSOR_ID_HUE, "Hue"}, {IMGSENSOR_ID_AUTO_WHITE_BALANCE, "Automatic white balance"}, {IMGSENSOR_ID_RED_BALANCE, "Red balance"}, {IMGSENSOR_ID_BLUE_BALANCE, "Blue balance"}, {IMGSENSOR_ID_GAMMA, "Gamma value"}, {IMGSENSOR_ID_GAMMA_CURVE, "Gamma adjustment(curve)"}, {IMGSENSOR_ID_EXPOSURE, "Exposure value"}, {IMGSENSOR_ID_HFLIP_VIDEO, "Mirror horizontally(VIDEO)"}, {IMGSENSOR_ID_VFLIP_VIDEO, "Mirror vertically(VIDEO)"}, {IMGSENSOR_ID_HFLIP_STILL, "Mirror horizontally(STILL)"}, {IMGSENSOR_ID_VFLIP_STILL, "Mirror vertically(STILL)"}, {IMGSENSOR_ID_SHARPNESS, "Sharpness"}, {IMGSENSOR_ID_COLOR_KILLER, "Color killer"}, {IMGSENSOR_ID_COLORFX, "Color effect"}, {IMGSENSOR_ID_AUTOBRIGHTNESS, "Auto brightness"}, {IMGSENSOR_ID_ROTATE, "Rotate"}, {IMGSENSOR_ID_EXPOSURE_AUTO, "Auto Exposure"}, {IMGSENSOR_ID_EXPOSURE_ABSOLUTE, "Exposure time(100 usec)"}, {IMGSENSOR_ID_FOCUS_ABSOLUTE, "Focus(absolute value)"}, {IMGSENSOR_ID_FOCUS_RELATIVE, "Focus(relative value)"}, {IMGSENSOR_ID_FOCUS_AUTO, "Continuous Auto Focus"}, {IMGSENSOR_ID_ZOOM_ABSOLUTE, "Zoom(absolute value)"}, {IMGSENSOR_ID_ZOOM_RELATIVE, "Zoom(relative value)"}, {IMGSENSOR_ID_ZOOM_CONTINUOUS, "Continuous zoom"}, {IMGSENSOR_ID_IRIS_ABSOLUTE, "Iris(absolute value)"}, {IMGSENSOR_ID_IRIS_RELATIVE, "Iris(relative value)"}, {IMGSENSOR_ID_AUTO_N_PRESET_WB, "Preset white balance"}, {IMGSENSOR_ID_WIDE_DYNAMIC_RANGE, "Wide dynamic range"}, {IMGSENSOR_ID_IMG_STABILIZATION, "Image stabilization"}, {IMGSENSOR_ID_ISO_SENSITIVITY, "ISO sensitivity"}, {IMGSENSOR_ID_ISO_SENSITIVITY_AUTO, "Automatic ISO sensitivity"}, {IMGSENSOR_ID_EXPOSURE_METERING, "Photometry"}, {IMGSENSOR_ID_3A_LOCK, "Lock AWB/AE"}, {IMGSENSOR_ID_AUTO_FOCUS_START, "Start single Auto Focus"}, {IMGSENSOR_ID_AUTO_FOCUS_STOP, "Stop single Auto Focus"}, {IMGSENSOR_ID_3A_PARAMETER, "3A parameter"}, {IMGSENSOR_ID_3A_STATUS, "3A status"}, {IMGSENSOR_ID_FLASH_LED_MODE, "LED mode"}, {IMGSENSOR_ID_JPEG_QUALITY, "JPEG compression quality"} }; static FAR void *video_handler; static FAR const struct imgsensor_ops_s **g_video_registered_sensor; static int g_video_registered_sensor_num; static FAR const struct imgsensor_ops_s *g_video_sensor_ops; static FAR const struct imgdata_ops_s *g_video_data_ops; /**************************************************************************** * Private Functions ****************************************************************************/ static FAR video_type_inf_t *get_video_type_inf (FAR video_mng_t *vmng, uint8_t type) { FAR video_type_inf_t *type_inf; switch (type) { case V4L2_BUF_TYPE_VIDEO_CAPTURE: type_inf = &vmng->video_inf; break; case V4L2_BUF_TYPE_STILL_CAPTURE: type_inf = &vmng->still_inf; break; default: /* Error case */ type_inf = NULL; break; } return type_inf; } static enum video_state_e estimate_next_video_state (FAR video_mng_t *vmng, enum video_state_transition_cause cause) { enum video_state_e current_state = vmng->video_inf.state; switch (cause) { case CAUSE_VIDEO_STOP: return VIDEO_STATE_STREAMOFF; case CAUSE_VIDEO_START: if (is_taking_still_picture(vmng)) { return VIDEO_STATE_STREAMON; } else { return VIDEO_STATE_CAPTURE; } case CAUSE_STILL_STOP: if (current_state == VIDEO_STATE_STREAMON) { return VIDEO_STATE_CAPTURE; } else { return current_state; } case CAUSE_STILL_START: if (current_state == VIDEO_STATE_CAPTURE) { return VIDEO_STATE_STREAMON; } else { return current_state; } case CAUSE_VIDEO_DQBUF: if ((current_state == VIDEO_STATE_STREAMON) && !is_taking_still_picture(vmng)) { return VIDEO_STATE_CAPTURE; } else { return current_state; } default: return current_state; } } static void convert_to_imgdatafmt(FAR video_format_t *video, FAR imgdata_format_t *data) { ASSERT(video && data); data->width = video->width; data->height = video->height; switch (video->pixelformat) { case V4L2_PIX_FMT_UYVY : data->pixelformat = IMGDATA_PIX_FMT_UYVY; break; case V4L2_PIX_FMT_RGB565 : data->pixelformat = IMGDATA_PIX_FMT_RGB565; break; case V4L2_PIX_FMT_JPEG : data->pixelformat = IMGDATA_PIX_FMT_JPEG; break; default : /* V4L2_PIX_FMT_JPEG_WITH_SUBIMG */ data->pixelformat = IMGDATA_PIX_FMT_JPEG_WITH_SUBIMG; break; } } static void convert_to_imgsensorfmt(FAR video_format_t *video, FAR imgsensor_format_t *sensor) { ASSERT(video && sensor); sensor->width = video->width; sensor->height = video->height; switch (video->pixelformat) { case V4L2_PIX_FMT_UYVY : sensor->pixelformat = IMGSENSOR_PIX_FMT_UYVY; break; case V4L2_PIX_FMT_RGB565 : sensor->pixelformat = IMGSENSOR_PIX_FMT_RGB565; break; case V4L2_PIX_FMT_JPEG : sensor->pixelformat = IMGSENSOR_PIX_FMT_JPEG; break; default : /* V4L2_PIX_FMT_JPEG_WITH_SUBIMG */ sensor->pixelformat = IMGSENSOR_PIX_FMT_JPEG_WITH_SUBIMG; break; } } static void convert_to_imgdatainterval(FAR struct v4l2_fract *video, FAR imgdata_interval_t *data) { ASSERT(video && data); data->numerator = video->numerator; data->denominator = video->denominator; } static void convert_to_imgsensorinterval(FAR struct v4l2_fract *video, FAR imgsensor_interval_t *sensor) { ASSERT(video && sensor); sensor->numerator = video->numerator; sensor->denominator = video->denominator; } static bool is_clipped(FAR struct v4l2_rect *clip) { bool ret = false; if (clip) { if ((clip->left != 0) || (clip->top != 0) || (clip->width != 0) || (clip->height != 0)) { ret = true; } } return ret; } static void get_clipped_format(uint8_t nr_fmt, FAR video_format_t *fmt, FAR struct v4l2_rect *clip, FAR video_format_t *c_fmt) { DEBUGASSERT(fmt && c_fmt); if (is_clipped(clip)) { c_fmt[VIDEO_FMT_MAIN].width = clip->width; c_fmt[VIDEO_FMT_MAIN].height = clip->height; c_fmt[VIDEO_FMT_MAIN].pixelformat = fmt[VIDEO_FMT_MAIN].pixelformat; if (nr_fmt > 1) { /* clipped size of thumbnail is * small as ratio of main size and thumbnal size. */ memcpy(&c_fmt[VIDEO_FMT_SUB], &fmt[VIDEO_FMT_SUB], sizeof(video_format_t)); c_fmt[VIDEO_FMT_SUB].width = (uint32_t)c_fmt[VIDEO_FMT_SUB].width * clip->width / fmt[VIDEO_FMT_MAIN].width; c_fmt[VIDEO_FMT_SUB].height = (uint32_t)c_fmt[VIDEO_FMT_SUB].height * clip->height / fmt[VIDEO_FMT_MAIN].height; } } else { memcpy(c_fmt, fmt, nr_fmt * sizeof(video_format_t)); } } static int start_capture(enum v4l2_buf_type type, uint8_t nr_fmt, FAR video_format_t *fmt, FAR struct v4l2_rect *clip, FAR struct v4l2_fract *interval, uint32_t bufaddr, uint32_t bufsize) { video_format_t c_fmt[MAX_VIDEO_FMT]; imgdata_format_t df[MAX_VIDEO_FMT]; imgsensor_format_t sf[MAX_VIDEO_FMT]; imgdata_interval_t di; imgsensor_interval_t si; ASSERT(fmt && interval && g_video_sensor_ops && g_video_data_ops); if ((g_video_sensor_ops->start_capture == NULL) || (g_video_data_ops->start_capture == NULL) || (g_video_data_ops->set_buf == NULL)) { return -ENOTTY; } get_clipped_format(nr_fmt, fmt, clip, c_fmt); convert_to_imgdatafmt(&c_fmt[VIDEO_FMT_MAIN], &df[IMGDATA_FMT_MAIN]); convert_to_imgdatafmt(&c_fmt[VIDEO_FMT_SUB], &df[IMGDATA_FMT_SUB]); convert_to_imgdatainterval(interval, &di); convert_to_imgsensorfmt(&fmt[VIDEO_FMT_MAIN], &sf[IMGSENSOR_FMT_MAIN]); convert_to_imgsensorfmt(&fmt[VIDEO_FMT_SUB], &sf[IMGSENSOR_FMT_SUB]); convert_to_imgsensorinterval(interval, &si); g_video_sensor_ops->start_capture ((type == V4L2_BUF_TYPE_VIDEO_CAPTURE) ? IMGSENSOR_STREAM_TYPE_VIDEO : IMGSENSOR_STREAM_TYPE_STILL, nr_fmt, sf, &si); g_video_data_ops->start_capture(nr_fmt, df, &di, video_complete_capture); g_video_data_ops->set_buf((FAR uint8_t *)bufaddr, bufsize); return OK; } static void change_video_state(FAR video_mng_t *vmng, enum video_state_e next_state) { enum video_state_e current_state = vmng->video_inf.state; enum video_state_e updated_next_state = next_state; FAR vbuf_container_t *container; if ((current_state != VIDEO_STATE_CAPTURE) && (next_state == VIDEO_STATE_CAPTURE)) { container = video_framebuff_get_vacant_container(&vmng->video_inf.bufinf); if (container) { start_capture(V4L2_BUF_TYPE_VIDEO_CAPTURE, vmng->video_inf.nr_fmt, vmng->video_inf.fmt, &vmng->video_inf.clip, &vmng->video_inf.frame_interval, container->buf.m.userptr, container->buf.length); } else { updated_next_state = VIDEO_STATE_STREAMON; } } else { if ((current_state == VIDEO_STATE_CAPTURE) && (next_state != VIDEO_STATE_CAPTURE)) { g_video_data_ops->stop_capture(); } } vmng->video_inf.state = updated_next_state; return; } static bool is_taking_still_picture(FAR video_mng_t *vmng) { return ((vmng->still_inf.state == VIDEO_STATE_STREAMON) || (vmng->still_inf.state == VIDEO_STATE_CAPTURE)); } static bool is_bufsize_sufficient(FAR video_mng_t *vmng, uint32_t bufsize) { /* Depend on format, frame size, and JPEG compression quality */ return true; } static void initialize_frame_setting(FAR uint8_t *nr_fmt, FAR video_format_t *fmt, FAR struct v4l2_fract *interval) { ASSERT(nr_fmt && fmt && interval); /* Initial setting : QVGA YUV4:2:2 15FPS */ *nr_fmt = 1; fmt[VIDEO_FMT_MAIN].width = VIDEO_HSIZE_QVGA; fmt[VIDEO_FMT_MAIN].height = VIDEO_VSIZE_QVGA; fmt[VIDEO_FMT_MAIN].pixelformat = V4L2_PIX_FMT_UYVY; interval->denominator = 15; interval->numerator = 1; } static void initialize_streamresources(FAR video_type_inf_t *type_inf) { memset(type_inf, 0, sizeof(video_type_inf_t)); type_inf->remaining_capnum = VIDEO_REMAINING_CAPNUM_INFINITY; nxmutex_init(&type_inf->lock_state); nxsem_init(&type_inf->wait_capture.dqbuf_wait_flg, 0, 0); initialize_frame_setting(&type_inf->nr_fmt, type_inf->fmt, &type_inf->frame_interval); video_framebuff_init(&type_inf->bufinf); return; } static int32_t get_default_value(uint32_t id) { int ret; imgsensor_supported_value_t value; if ((g_video_sensor_ops == NULL) || (g_video_sensor_ops->get_supported_value == NULL)) { return -EINVAL; } ret = g_video_sensor_ops->get_supported_value(id, &value); if (ret != OK) { /* Don't care(unsupported parameter) */ return 0; } switch (value.type) { case IMGSENSOR_CTRL_TYPE_INTEGER_MENU: return value.u.discrete.default_value; case IMGSENSOR_CTRL_TYPE_U8: case IMGSENSOR_CTRL_TYPE_U16: case IMGSENSOR_CTRL_TYPE_U32: /* Don't care */ return 0; default: return value.u.range.default_value; } } static int32_t initialize_scene_gamma(uint8_t **gamma) { int ret; imgsensor_supported_value_t sup_val; imgsensor_value_t val; int32_t sz; *gamma = NULL; ASSERT(g_video_sensor_ops); if ((g_video_sensor_ops->get_supported_value == NULL) || (g_video_sensor_ops->get_value == NULL)) { return -ENOTTY; } ret = g_video_sensor_ops->get_supported_value (IMGSENSOR_ID_GAMMA_CURVE, &sup_val); if (ret != OK) { /* Unsupported parameter */ return -EINVAL; } switch (sup_val.type) { case IMGSENSOR_CTRL_TYPE_U8: sz = sup_val.u.elems.nr_elems * sizeof(uint8_t); if (sz / sizeof(uint8_t) != sup_val.u.elems.nr_elems) { /* Multiplication overflow */ return -EINVAL; } break; case IMGSENSOR_CTRL_TYPE_U16: sz = sup_val.u.elems.nr_elems * sizeof(uint16_t); if (sz / sizeof(uint16_t) != sup_val.u.elems.nr_elems) { /* Multiplication overflow */ return -EINVAL; } break; default: /* IMGSENSOR_CTRL_TYPE_U32 */ sz = sup_val.u.elems.nr_elems * sizeof(uint32_t); if (sz / sizeof(uint32_t) != sup_val.u.elems.nr_elems) { /* Multiplication overflow */ return -EINVAL; } break; } *gamma = malloc(sz); val.p_u8 = (FAR uint8_t *)*gamma; g_video_sensor_ops->get_value(IMGSENSOR_ID_GAMMA_CURVE, sz, &val); return sz; } static void initialize_scene_parameter(video_scene_params_t *sp) { ASSERT(sp); sp->brightness = get_default_value(IMGSENSOR_ID_BRIGHTNESS); sp->contrast = get_default_value(IMGSENSOR_ID_CONTRAST); sp->saturation = get_default_value(IMGSENSOR_ID_SATURATION); sp->hue = get_default_value(IMGSENSOR_ID_HUE); sp->awb = get_default_value(IMGSENSOR_ID_AUTO_WHITE_BALANCE); sp->red = get_default_value(IMGSENSOR_ID_RED_BALANCE); sp->blue = get_default_value(IMGSENSOR_ID_BLUE_BALANCE); sp->gamma = get_default_value(IMGSENSOR_ID_GAMMA); sp->gamma_curve_sz = initialize_scene_gamma(&sp->gamma_curve); sp->ev = get_default_value(IMGSENSOR_ID_EXPOSURE); sp->hflip_video = get_default_value(IMGSENSOR_ID_HFLIP_VIDEO); sp->vflip_video = get_default_value(IMGSENSOR_ID_VFLIP_VIDEO); sp->hflip_still = get_default_value(IMGSENSOR_ID_HFLIP_STILL); sp->vflip_still = get_default_value(IMGSENSOR_ID_VFLIP_STILL); sp->sharpness = get_default_value(IMGSENSOR_ID_SHARPNESS); sp->colorfx = get_default_value(IMGSENSOR_ID_COLORFX); sp->auto_brightness = get_default_value(IMGSENSOR_ID_AUTOBRIGHTNESS); sp->rotate = get_default_value(IMGSENSOR_ID_ROTATE); sp->ae = get_default_value(IMGSENSOR_ID_EXPOSURE_AUTO); sp->exposure_time = get_default_value(IMGSENSOR_ID_EXPOSURE_ABSOLUTE); sp->focus = get_default_value(IMGSENSOR_ID_FOCUS_ABSOLUTE); sp->af = get_default_value(IMGSENSOR_ID_FOCUS_AUTO); sp->zoom = get_default_value(IMGSENSOR_ID_ZOOM_ABSOLUTE); sp->iris = get_default_value(IMGSENSOR_ID_IRIS_ABSOLUTE); sp->wb = get_default_value(IMGSENSOR_ID_AUTO_N_PRESET_WB); sp->wdr = get_default_value(IMGSENSOR_ID_WIDE_DYNAMIC_RANGE); sp->stabilization = get_default_value(IMGSENSOR_ID_IMG_STABILIZATION); sp->iso_auto = get_default_value(IMGSENSOR_ID_ISO_SENSITIVITY_AUTO); sp->iso = get_default_value(IMGSENSOR_ID_ISO_SENSITIVITY); sp->meter = get_default_value(IMGSENSOR_ID_EXPOSURE_METERING); sp->threea_lock = get_default_value(IMGSENSOR_ID_3A_LOCK); sp->led = get_default_value(IMGSENSOR_ID_FLASH_LED_MODE); sp->jpeg_quality = get_default_value(IMGSENSOR_ID_JPEG_QUALITY); } static void initialize_scenes_parameter(void) { int i; video_scene_params_t *sp = &g_video_scene_parameter[0]; for (i = 0; i < VIDEO_SCENE_MAX; i++) { initialize_scene_parameter(sp++); } } static void initialize_resources(FAR video_mng_t *vmng) { initialize_streamresources(&vmng->video_inf); initialize_streamresources(&vmng->still_inf); initialize_scenes_parameter(); return; } static void cleanup_streamresources(FAR video_type_inf_t *type_inf) { video_framebuff_uninit(&type_inf->bufinf); nxsem_destroy(&type_inf->wait_capture.dqbuf_wait_flg); nxmutex_destroy(&type_inf->lock_state); memset(type_inf, 0, sizeof(video_type_inf_t)); type_inf->remaining_capnum = VIDEO_REMAINING_CAPNUM_INFINITY; return; } static void cleanup_scene_parameter(video_scene_params_t *sp) { ASSERT(sp); if (sp->gamma_curve) { free(sp->gamma_curve); } } static void cleanup_scenes_parameter(void) { int i; video_scene_params_t *sp = &g_video_scene_parameter[0]; for (i = 0; i < VIDEO_SCENE_MAX; i++, sp++) { cleanup_scene_parameter(sp); } } static void cleanup_resources(FAR video_mng_t *vmng) { /* clean up resource */ if ((vmng->video_inf.state == VIDEO_STATE_CAPTURE) || (vmng->still_inf.state == VIDEO_STATE_CAPTURE)) { /* If in capture, stop */ g_video_data_ops->stop_capture(); } cleanup_streamresources(&vmng->video_inf); cleanup_streamresources(&vmng->still_inf); cleanup_scenes_parameter(); return; } static bool is_sem_waited(FAR sem_t *sem) { int ret; int semcount; ret = nxsem_get_value(sem, &semcount); if ((ret == OK) && (semcount < 0)) { return true; } else { return false; } } static FAR const struct imgsensor_ops_s *get_connected_imgsensor(void) { int i; FAR const struct imgsensor_ops_s *ops = NULL; for (i = 0; i < g_video_registered_sensor_num; i++) { if (g_video_registered_sensor[i] && g_video_registered_sensor[i]->is_available()) { ops = g_video_registered_sensor[i]; break; } } return ops; } static int video_open(FAR struct file *filep) { FAR struct inode *inode = filep->f_inode; FAR video_mng_t *priv = (FAR video_mng_t *)inode->i_private; int ret = OK; nxmutex_lock(&priv->lock_open_num); if (priv->open_num == 0) { /* Only in first execution, open device */ g_video_sensor_ops = get_connected_imgsensor(); if (g_video_sensor_ops) { ret = g_video_sensor_ops->init(); if (ret == OK) { ret = g_video_data_ops->init(); if (ret == OK) { initialize_resources(priv); } } } else { ret = -ENODEV; } } /* In second or later execution, ret is initial value(=OK) */ if (ret == OK) { priv->open_num++; } nxmutex_unlock(&priv->lock_open_num); return ret; } static int video_close(FAR struct file *filep) { FAR struct inode *inode = filep->f_inode; FAR video_mng_t *priv = (FAR video_mng_t *)inode->i_private; int ret = ERROR; nxmutex_lock(&priv->lock_open_num); if (priv->open_num == 0) { return OK; } priv->open_num--; if (priv->open_num == 0) { cleanup_resources(priv); g_video_sensor_ops->uninit(); g_video_data_ops->uninit(); } nxmutex_unlock(&priv->lock_open_num); return ret; } static int video_querycap(FAR struct v4l2_capability *cap) { FAR const char *name; ASSERT(g_video_sensor_ops); if (cap == NULL) { return -EINVAL; } if (g_video_sensor_ops->get_driver_name == NULL) { return -ENOTTY; } name = g_video_sensor_ops->get_driver_name(); memset(cap, 0, sizeof(struct v4l2_capability)); /* cap->driver needs to be NULL-terminated. */ strlcpy((FAR char *)cap->driver, name, sizeof(cap->driver)); return OK; } static int video_reqbufs(FAR struct video_mng_s *vmng, FAR struct v4l2_requestbuffers *reqbufs) { int ret = OK; FAR video_type_inf_t *type_inf; irqstate_t flags; if ((vmng == NULL) || (reqbufs == NULL)) { return -EINVAL; } type_inf = get_video_type_inf(vmng, reqbufs->type); if (type_inf == NULL) { return -EINVAL; } flags = enter_critical_section(); if (type_inf->state == VIDEO_STATE_CAPTURE) { /* In capture, REQBUFS is not permitted */ ret = -EPERM; } else { video_framebuff_change_mode(&type_inf->bufinf, reqbufs->mode); ret = video_framebuff_realloc_container(&type_inf->bufinf, reqbufs->count); } leave_critical_section(flags); return ret; } static int video_qbuf(FAR struct video_mng_s *vmng, FAR struct v4l2_buffer *buf) { FAR video_type_inf_t *type_inf; FAR vbuf_container_t *container; enum video_state_e next_video_state; irqstate_t flags; if ((vmng == NULL) || (buf == NULL)) { return -EINVAL; } type_inf = get_video_type_inf(vmng, buf->type); if (type_inf == NULL) { return -EINVAL; } if (!is_bufsize_sufficient(vmng, buf->length)) { return -EINVAL; } container = video_framebuff_get_container(&type_inf->bufinf); if (container == NULL) { return -ENOMEM; } memcpy(&container->buf, buf, sizeof(struct v4l2_buffer)); video_framebuff_queue_container(&type_inf->bufinf, container); nxmutex_lock(&type_inf->lock_state); flags = enter_critical_section(); if (type_inf->state == VIDEO_STATE_STREAMON) { leave_critical_section(flags); if (buf->type == V4L2_BUF_TYPE_VIDEO_CAPTURE) { nxmutex_lock(&vmng->still_inf.lock_state); next_video_state = estimate_next_video_state (vmng, CAUSE_VIDEO_START); change_video_state(vmng, next_video_state); nxmutex_unlock(&vmng->still_inf.lock_state); } else { container = video_framebuff_get_vacant_container (&type_inf->bufinf); if (container) { start_capture(buf->type, type_inf->nr_fmt, type_inf->fmt, &type_inf->clip, &type_inf->frame_interval, container->buf.m.userptr, container->buf.length); type_inf->state = VIDEO_STATE_CAPTURE; } } } else { leave_critical_section(flags); } nxmutex_unlock(&type_inf->lock_state); return OK; } static int video_dqbuf(FAR struct video_mng_s *vmng, FAR struct v4l2_buffer *buf) { irqstate_t flags; FAR video_type_inf_t *type_inf; FAR vbuf_container_t *container; sem_t *dqbuf_wait_flg; enum video_state_e next_video_state; if ((vmng == NULL) || (buf == NULL)) { return -EINVAL; } type_inf = get_video_type_inf(vmng, buf->type); if (type_inf == NULL) { return -EINVAL; } container = video_framebuff_dq_valid_container(&type_inf->bufinf); if (container == NULL) { /* Not yet done capture. Wait done */ dqbuf_wait_flg = &type_inf->wait_capture.dqbuf_wait_flg; /* Loop until semaphore is unlocked by capture done or DQCANCEL */ do { if (buf->type == V4L2_BUF_TYPE_VIDEO_CAPTURE) { /* If start capture condition is satisfied, start capture */ flags = enter_critical_section(); next_video_state = estimate_next_video_state (vmng, CAUSE_VIDEO_DQBUF); change_video_state(vmng, next_video_state); leave_critical_section(flags); } nxsem_wait_uninterruptible(dqbuf_wait_flg); } while (type_inf->wait_capture.waitend_cause == VIDEO_WAITEND_CAUSE_STILLSTOP); container = type_inf->wait_capture.done_container; if (!container) { /* Waking up without captured data means abort. * Therefore, Check cause. */ if (type_inf->wait_capture.waitend_cause == VIDEO_WAITEND_CAUSE_DQCANCEL) { return -ECANCELED; } } type_inf->wait_capture.done_container = NULL; } memcpy(buf, &container->buf, sizeof(struct v4l2_buffer)); video_framebuff_free_container(&type_inf->bufinf, container); return OK; } static int video_cancel_dqbuf(FAR struct video_mng_s *vmng, enum v4l2_buf_type type) { FAR video_type_inf_t *type_inf; type_inf = get_video_type_inf(vmng, type); if (type_inf == NULL) { return -EINVAL; } if (!is_sem_waited(&type_inf->wait_capture.dqbuf_wait_flg)) { /* In not waiting DQBUF case, return OK */ return OK; } type_inf->wait_capture.waitend_cause = VIDEO_WAITEND_CAUSE_DQCANCEL; /* If capture is done before nxsem_post, cause is overwritten */ nxsem_post(&type_inf->wait_capture.dqbuf_wait_flg); return OK; } static bool validate_clip_range(int32_t pos, uint32_t c_sz, uint16_t frm_sz) { if ((pos < 0) || (c_sz > frm_sz) || (pos + c_sz > frm_sz)) { return false; } return true; } static bool validate_clip_setting(FAR struct v4l2_rect *clip, FAR video_format_t *fmt) { int ret = true; DEBUGASSERT(clip && fmt); /* Not permit the setting which do not fit inside frame size. */ if (!validate_clip_range(clip->left, clip->width, fmt->width) || !validate_clip_range(clip->top, clip->height, fmt->height)) { ret = false; } return ret; } static int video_s_selection(FAR struct video_mng_s *vmng, FAR struct v4l2_selection *clip) { FAR video_type_inf_t *type_inf; int ret; int32_t id; uint32_t p_u32[IMGSENSOR_CLIP_NELEM]; imgsensor_value_t val; video_format_t c_fmt[MAX_VIDEO_FMT]; ASSERT(g_video_sensor_ops && vmng); if (g_video_sensor_ops->set_value == NULL) { return -ENOTTY; } if (clip == NULL) { return -EINVAL; } type_inf = get_video_type_inf(vmng, clip->type); if (type_inf == NULL) { return -EINVAL; } if (type_inf->state != VIDEO_STATE_STREAMOFF) { return -EBUSY; } if (!validate_clip_setting(&clip->r, type_inf->fmt)) { return -EINVAL; } /* Query that clipped size is available. */ get_clipped_format(type_inf->nr_fmt, type_inf->fmt, &clip->r, c_fmt); ret = validate_frame_setting(clip->type, type_inf->nr_fmt, c_fmt, &type_inf->frame_interval); if (ret != OK) { return ret; } id = (clip->type == V4L2_BUF_TYPE_VIDEO_CAPTURE) ? IMGSENSOR_ID_CLIP_VIDEO : IMGSENSOR_ID_CLIP_STILL; p_u32[IMGSENSOR_CLIP_INDEX_LEFT] = (uint32_t)clip->r.left; p_u32[IMGSENSOR_CLIP_INDEX_TOP] = (uint32_t)clip->r.top; p_u32[IMGSENSOR_CLIP_INDEX_WIDTH] = clip->r.width; p_u32[IMGSENSOR_CLIP_INDEX_HEIGHT] = clip->r.height; val.p_u32 = p_u32; ret = g_video_sensor_ops->set_value (id, sizeof(p_u32), val); if (ret != OK) { return ret; } memcpy(&type_inf->clip, &clip->r, sizeof(struct v4l2_rect)); return ret; } static int video_g_selection(FAR struct video_mng_s *vmng, FAR struct v4l2_selection *clip) { FAR video_type_inf_t *type_inf; ASSERT(vmng); if (clip == NULL) { return -EINVAL; } type_inf = get_video_type_inf(vmng, clip->type); if (type_inf == NULL) { return -EINVAL; } memcpy(&clip->r, &type_inf->clip, sizeof(struct v4l2_rect)); return OK; } static int validate_frame_setting(enum v4l2_buf_type type, uint8_t nr_fmt, FAR video_format_t *vfmt, FAR struct v4l2_fract *interval) { int ret; imgdata_format_t df[MAX_VIDEO_FMT]; imgsensor_format_t sf[MAX_VIDEO_FMT]; imgdata_interval_t di; imgsensor_interval_t si; ASSERT(vfmt && interval && g_video_sensor_ops && g_video_data_ops); if ((g_video_sensor_ops->validate_frame_setting == NULL) || (g_video_data_ops->validate_frame_setting == NULL)) { return -ENOTTY; } /* Return OK only in case both image data driver and * image sensor driver support. */ convert_to_imgdatafmt(&vfmt[VIDEO_FMT_MAIN], &df[IMGDATA_FMT_MAIN]); convert_to_imgdatafmt(&vfmt[VIDEO_FMT_SUB], &df[IMGDATA_FMT_SUB]); convert_to_imgdatainterval(interval, &di); convert_to_imgsensorfmt(&vfmt[VIDEO_FMT_MAIN], &sf[IMGSENSOR_FMT_MAIN]); convert_to_imgsensorfmt(&vfmt[VIDEO_FMT_SUB], &sf[IMGSENSOR_FMT_SUB]); convert_to_imgsensorinterval(interval, &si); ret = g_video_sensor_ops->validate_frame_setting(type, nr_fmt, sf, &si); if (ret != OK) { return ret; } return g_video_data_ops->validate_frame_setting(nr_fmt, df, &di); } static int video_try_fmt(FAR struct video_mng_s *priv, FAR struct v4l2_format *v4l2) { FAR video_type_inf_t *type_inf; uint8_t nr_fmt; video_format_t vf[MAX_VIDEO_FMT]; ASSERT(priv && g_video_sensor_ops && g_video_data_ops); if ((g_video_sensor_ops->validate_frame_setting == NULL) || (g_video_data_ops->validate_frame_setting == NULL)) { return -ENOTTY; } if (v4l2 == NULL) { return -EINVAL; } type_inf = get_video_type_inf(priv, v4l2->type); if (type_inf == NULL) { return -EINVAL; } switch (v4l2->fmt.pix.pixelformat) { case V4L2_PIX_FMT_SUBIMG_UYVY: case V4L2_PIX_FMT_SUBIMG_RGB565: if (type_inf->fmt[VIDEO_FMT_MAIN].pixelformat != V4L2_PIX_FMT_JPEG_WITH_SUBIMG) { return -EPERM; } /* Validate both main image and subimage. */ nr_fmt = 2; memcpy(&vf[VIDEO_FMT_MAIN], &type_inf->fmt[VIDEO_FMT_MAIN], sizeof(video_format_t)); vf[VIDEO_FMT_SUB].width = v4l2->fmt.pix.width; vf[VIDEO_FMT_SUB].height = v4l2->fmt.pix.height; vf[VIDEO_FMT_SUB].pixelformat = (v4l2->fmt.pix.pixelformat == V4L2_PIX_FMT_SUBIMG_UYVY) ? V4L2_PIX_FMT_UYVY : V4L2_PIX_FMT_RGB565; break; case V4L2_PIX_FMT_UYVY: case V4L2_PIX_FMT_RGB565: case V4L2_PIX_FMT_JPEG: case V4L2_PIX_FMT_JPEG_WITH_SUBIMG: nr_fmt = 1; vf[VIDEO_FMT_MAIN].width = v4l2->fmt.pix.width; vf[VIDEO_FMT_MAIN].height = v4l2->fmt.pix.height; vf[VIDEO_FMT_MAIN].pixelformat = v4l2->fmt.pix.pixelformat; break; default: return -EINVAL; } return validate_frame_setting(v4l2->type, nr_fmt, vf, &type_inf->frame_interval); } static int video_s_fmt(FAR struct video_mng_s *priv, FAR struct v4l2_format *fmt) { int ret; FAR video_type_inf_t *type_inf; ret = video_try_fmt(priv, fmt); if (ret != 0) { return ret; } type_inf = get_video_type_inf(priv, fmt->type); if (type_inf == NULL) { return -EINVAL; } if (type_inf->state != VIDEO_STATE_STREAMOFF) { return -EBUSY; } switch (fmt->fmt.pix.pixelformat) { case V4L2_PIX_FMT_SUBIMG_UYVY: case V4L2_PIX_FMT_SUBIMG_RGB565: if (type_inf->fmt[VIDEO_FMT_MAIN].pixelformat != V4L2_PIX_FMT_JPEG_WITH_SUBIMG) { return -EPERM; } type_inf->fmt[VIDEO_FMT_SUB].width = fmt->fmt.pix.width; type_inf->fmt[VIDEO_FMT_SUB].height = fmt->fmt.pix.height; type_inf->fmt[VIDEO_FMT_SUB].pixelformat = (fmt->fmt.pix.pixelformat == V4L2_PIX_FMT_SUBIMG_UYVY) ? V4L2_PIX_FMT_UYVY : V4L2_PIX_FMT_RGB565; type_inf->nr_fmt = 2; break; default: type_inf->fmt[VIDEO_FMT_MAIN].width = fmt->fmt.pix.width; type_inf->fmt[VIDEO_FMT_MAIN].height = fmt->fmt.pix.height; type_inf->fmt[VIDEO_FMT_MAIN].pixelformat = fmt->fmt.pix.pixelformat; type_inf->nr_fmt = 1; break; } return OK; } static int video_s_parm(FAR struct video_mng_s *priv, FAR struct v4l2_streamparm *parm) { int ret; FAR video_type_inf_t *type_inf; ASSERT(g_video_sensor_ops && g_video_data_ops); if ((g_video_sensor_ops->validate_frame_setting == NULL) || (g_video_data_ops->validate_frame_setting == NULL) || (parm == NULL)) { return -EINVAL; } type_inf = get_video_type_inf(priv, parm->type); if (type_inf == NULL) { return -EINVAL; } if (type_inf->state != VIDEO_STATE_STREAMOFF) { return -EBUSY; } ret = validate_frame_setting(parm->type, type_inf->nr_fmt, type_inf->fmt, &parm->parm.capture.timeperframe); if (ret != OK) { return ret; } memcpy(&type_inf->frame_interval, &parm->parm.capture.timeperframe, sizeof(struct v4l2_fract)); return ret; } static int video_g_parm(FAR struct video_mng_s *vmng, FAR struct v4l2_streamparm *parm) { int ret = -EINVAL; FAR video_type_inf_t *type_inf; DEBUGASSERT(vmng && g_video_sensor_ops); type_inf = get_video_type_inf(vmng, parm->type); if (type_inf == NULL) { return -EINVAL; } if ((type_inf->state == VIDEO_STATE_CAPTURE) && (g_video_sensor_ops->get_frame_interval != NULL)) { /* If capture is started and lower driver has the get_frame_interval(), * query lower driver. */ memset(&parm->parm, 0, sizeof(parm->parm)); ret = g_video_sensor_ops->get_frame_interval (parm->type, (imgsensor_interval_t *)&parm->parm.capture.timeperframe); } if (ret != OK) { /* In no capture state or error case, return stored value. */ memcpy(&parm->parm.capture.timeperframe, &type_inf->frame_interval, sizeof(struct v4l2_fract)); } return OK; } static int video_streamon(FAR struct video_mng_s *vmng, FAR enum v4l2_buf_type *type) { FAR video_type_inf_t *type_inf; enum video_state_e next_video_state; int ret = OK; if ((vmng == NULL) || (type == NULL)) { return -EINVAL; } type_inf = get_video_type_inf(vmng, *type); if (type_inf == NULL) { return -EINVAL; } if (*type != V4L2_BUF_TYPE_VIDEO_CAPTURE) { /* No procedure for VIDIOC_STREAMON(STILL_CAPTURE) */ return OK; } nxmutex_lock(&type_inf->lock_state); if (type_inf->state != VIDEO_STATE_STREAMOFF) { ret = -EPERM; } else { next_video_state = estimate_next_video_state (vmng, CAUSE_VIDEO_START); change_video_state(vmng, next_video_state); } nxmutex_unlock(&type_inf->lock_state); return ret; } static int video_streamoff(FAR struct video_mng_s *vmng, FAR enum v4l2_buf_type *type) { FAR video_type_inf_t *type_inf; enum video_state_e next_video_state; irqstate_t flags; int ret = OK; if ((vmng == NULL) || (type == NULL)) { return -EINVAL; } type_inf = get_video_type_inf(vmng, *type); if (type_inf == NULL) { return -EINVAL; } if (*type != V4L2_BUF_TYPE_VIDEO_CAPTURE) { /* No procedure for VIDIOC_STREAMOFF(STILL_CAPTURE) */ return OK; } flags = enter_critical_section(); if (type_inf->state == VIDEO_STATE_STREAMOFF) { ret = -EPERM; } else { next_video_state = estimate_next_video_state (vmng, CAUSE_VIDEO_STOP); change_video_state(vmng, next_video_state); } leave_critical_section(flags); return ret; } static int video_do_halfpush(FAR struct video_mng_s *priv, bool enable) { int ret; struct v4l2_ext_controls ext_controls; struct v4l2_ext_control control[2]; /* Replace to VIDIOC_S_EXT_CTRLS format */ control[0].id = V4L2_CID_3A_LOCK; control[0].value = enable ? (V4L2_LOCK_EXPOSURE | V4L2_LOCK_WHITE_BALANCE) : 0; control[1].id = V4L2_CID_AUTO_FOCUS_START; control[1].value = enable ? true : false; ext_controls.ctrl_class = V4L2_CTRL_CLASS_CAMERA; ext_controls.count = 2; ext_controls.controls = control; /* Execute VIDIOC_S_EXT_CTRLS */ ret = video_s_ext_ctrls(priv, &ext_controls); return ret; } static int video_takepict_start(FAR struct video_mng_s *vmng, int32_t capture_num) { irqstate_t flags; enum video_state_e next_video_state; FAR vbuf_container_t *container; int ret = OK; if (vmng == NULL) { return -EINVAL; } nxmutex_lock(&vmng->still_inf.lock_state); if (vmng->still_inf.state != VIDEO_STATE_STREAMOFF) { ret = -EPERM; } else { if (capture_num > 0) { vmng->still_inf.remaining_capnum = capture_num; } else { vmng->still_inf.remaining_capnum = VIDEO_REMAINING_CAPNUM_INFINITY; } /* Control video stream prior to still stream */ flags = enter_critical_section(); next_video_state = estimate_next_video_state(vmng, CAUSE_STILL_START); change_video_state(vmng, next_video_state); leave_critical_section(flags); container = video_framebuff_get_vacant_container (&vmng->still_inf.bufinf); if (container) { /* Start still stream capture */ start_capture(V4L2_BUF_TYPE_STILL_CAPTURE, vmng->still_inf.nr_fmt, vmng->still_inf.fmt, &vmng->still_inf.clip, &vmng->still_inf.frame_interval, container->buf.m.userptr, container->buf.length); vmng->still_inf.state = VIDEO_STATE_CAPTURE; } else { vmng->still_inf.state = VIDEO_STATE_STREAMON; } } nxmutex_unlock(&vmng->still_inf.lock_state); return ret; } static int video_takepict_stop(FAR struct video_mng_s *vmng, bool halfpush) { int ret = OK; irqstate_t flags; enum video_state_e next_video_state; if (vmng == NULL) { return -EINVAL; } nxmutex_lock(&vmng->still_inf.lock_state); if ((vmng->still_inf.state == VIDEO_STATE_STREAMOFF) && (vmng->still_inf.remaining_capnum == VIDEO_REMAINING_CAPNUM_INFINITY)) { ret = -EPERM; } else { flags = enter_critical_section(); if (vmng->still_inf.state == VIDEO_STATE_CAPTURE) { g_video_data_ops->stop_capture(); } leave_critical_section(flags); vmng->still_inf.state = VIDEO_STATE_STREAMOFF; vmng->still_inf.remaining_capnum = VIDEO_REMAINING_CAPNUM_INFINITY; /* Control video stream */ nxmutex_lock(&vmng->video_inf.lock_state); next_video_state = estimate_next_video_state(vmng, CAUSE_STILL_STOP); change_video_state(vmng, next_video_state); nxmutex_unlock(&vmng->video_inf.lock_state); } nxmutex_unlock(&vmng->still_inf.lock_state); return ret; } static int video_queryctrl(FAR struct v4l2_queryctrl *ctrl) { int ret; struct v4l2_query_ext_ctrl ext_ctrl; if (ctrl == NULL) { return -EINVAL; } /* Replace to VIDIOC_QUERY_EXT_CTRL format */ ext_ctrl.ctrl_class = ctrl->ctrl_class; ext_ctrl.id = ctrl->id; ret = video_query_ext_ctrl(&ext_ctrl); if (ret != OK) { return ret; } if ((ext_ctrl.type == V4L2_CTRL_TYPE_INTEGER64) || (ext_ctrl.type == V4L2_CTRL_TYPE_U8) || (ext_ctrl.type == V4L2_CTRL_TYPE_U16) || (ext_ctrl.type == V4L2_CTRL_TYPE_U32)) { /* Unsupported type in VIDIOC_QUERYCTRL */ return -EINVAL; } /* Replace gotten value to VIDIOC_QUERYCTRL */ ctrl->type = ext_ctrl.type; ctrl->minimum = ext_ctrl.minimum; ctrl->maximum = ext_ctrl.maximum; ctrl->step = ext_ctrl.step; ctrl->default_value = ext_ctrl.default_value; ctrl->flags = ext_ctrl.flags; strlcpy(ctrl->name, ext_ctrl.name, sizeof(ctrl->name)); return OK; } static void set_parameter_name(uint32_t id, char *name) { int cnt; int size = sizeof(g_video_parameter_name) / sizeof(video_parameter_name_t); for (cnt = 0; cnt < size; cnt++) { if (g_video_parameter_name[cnt].id == id) { break; } } ASSERT(cnt < size); /* copy size = 32 is due to V4L2 specification. */ strlcpy(name, g_video_parameter_name[cnt].name, 32); } static int video_query_ext_ctrl(FAR struct v4l2_query_ext_ctrl *attr) { int ret; imgsensor_supported_value_t value; imgsensor_capability_range_t *range = &value.u.range; imgsensor_capability_discrete_t *disc = &value.u.discrete; imgsensor_capability_elems_t *elem = &value.u.elems; ASSERT(g_video_sensor_ops); if (g_video_sensor_ops->get_supported_value == NULL) { return -ENOTTY; } if (attr == NULL) { return -EINVAL; } if ((attr->ctrl_class == V4L2_CTRL_CLASS_CAMERA) && (attr->id == V4L2_CID_SCENE_MODE)) { /* Scene mode is processed in only video driver. */ attr->type = V4L2_CTRL_TYPE_INTEGER_MENU; attr->minimum = 0; attr->maximum = VIDEO_SCENE_MAX - 1; attr->step = 1; attr->default_value = 0; strlcpy(attr->name, "Scene Mode", 32); } else { ret = g_video_sensor_ops->get_supported_value (VIDEO_ID(attr->ctrl_class, attr->id), &value); if (ret < 0) { return ret; } attr->type = value.type; switch (value.type) { case IMGSENSOR_CTRL_TYPE_INTEGER_MENU: attr->minimum = 0; attr->maximum = disc->nr_values - 1; attr->step = 1; attr->default_value = disc->default_value; break; case IMGSENSOR_CTRL_TYPE_U8: case IMGSENSOR_CTRL_TYPE_U16: case IMGSENSOR_CTRL_TYPE_U32: attr->minimum = elem->minimum; attr->maximum = elem->maximum; attr->step = elem->step; attr->elems = elem->nr_elems; break; default: attr->minimum = range->minimum; attr->maximum = range->maximum; attr->step = range->step; attr->default_value = range->default_value; break; } set_parameter_name(VIDEO_ID(attr->ctrl_class, attr->id), attr->name); } return OK; } static int video_querymenu(FAR struct v4l2_querymenu *menu) { int ret; imgsensor_supported_value_t value; ASSERT(g_video_sensor_ops); if (g_video_sensor_ops->get_supported_value == NULL) { return -ENOTTY; } if (menu == NULL) { return -EINVAL; } if ((menu->ctrl_class == V4L2_CTRL_CLASS_CAMERA) && (menu->id == V4L2_CID_SCENE_MODE)) { /* Scene mode is processed in only video driver. */ if (menu->index > VIDEO_SCENE_MAX - 1) { return -EINVAL; } menu->value = g_video_scene_parameter[menu->index].mode; } else { ret = g_video_sensor_ops->get_supported_value (VIDEO_ID(menu->ctrl_class, menu->id), &value); if (ret < 0) { return ret; } if (value.type != IMGSENSOR_CTRL_TYPE_INTEGER_MENU) { /* VIDIOC_QUERYMENU is used only for * IMGSENSOR_CTRL_TYPE_INTEGER_MENU. */ return -EINVAL; } if (menu->index >= value.u.discrete.nr_values) { return -EINVAL; } menu->value = value.u.discrete.values[menu->index]; } return OK; } static int video_g_ctrl(FAR struct video_mng_s *priv, FAR struct v4l2_control *ctrl) { int ret; struct v4l2_ext_controls ext_controls; struct v4l2_ext_control control; if (ctrl == NULL) { return -EINVAL; } /* Replace to VIDIOC_G_EXT_CTRLS format */ control.id = ctrl->id; ext_controls.ctrl_class = V4L2_CTRL_CLASS_USER; ext_controls.count = 1; ext_controls.controls = &control; /* Execute VIDIOC_G_EXT_CTRLS */ ret = video_g_ext_ctrls(priv, &ext_controls); if (ret == OK) { /* Replace gotten value to VIDIOC_G_CTRL parameter */ ctrl->value = control.value; } return ret; } static int video_s_ctrl(FAR struct video_mng_s *priv, FAR struct v4l2_control *ctrl) { int ret; struct v4l2_ext_controls ext_controls; struct v4l2_ext_control control; if (ctrl == NULL) { return -EINVAL; } /* Replace to VIDIOC_S_EXT_CTRLS format */ control.id = ctrl->id; control.value = ctrl->value; ext_controls.ctrl_class = V4L2_CTRL_CLASS_USER; ext_controls.count = 1; ext_controls.controls = &control; /* Execute VIDIOC_S_EXT_CTRLS */ ret = video_s_ext_ctrls(priv, &ext_controls); return ret; } static int video_g_ext_ctrls(FAR struct video_mng_s *priv, FAR struct v4l2_ext_controls *ctrls) { int ret = OK; int cnt; FAR struct v4l2_ext_control *control; ASSERT(g_video_sensor_ops); if (g_video_sensor_ops->get_value == NULL) { return -ENOTTY; } if ((priv == NULL) || (ctrls == NULL)) { return -EINVAL; } for (cnt = 0, control = ctrls->controls; cnt < ctrls->count; cnt++, control++) { ret = g_video_sensor_ops->get_value (VIDEO_ID(ctrls->ctrl_class, control->id), control->size, (imgsensor_value_t *)&control->value64); if (ret < 0) { /* Set cnt in that error occurred */ ctrls->error_idx = cnt; return ret; } } return ret; } static int set_intvalue(uint32_t id, int32_t value32) { imgsensor_value_t value; ASSERT(g_video_sensor_ops); if (g_video_sensor_ops->set_value == NULL) { return -ENOTTY; } value.value32 = value32; return g_video_sensor_ops->set_value(id, sizeof(int32_t), value); } static int set_pvalue(uint32_t id, int size, void *pval) { imgsensor_value_t value; ASSERT(g_video_sensor_ops); if (g_video_sensor_ops->set_value == NULL) { return -ENOTTY; } value.p_u8 = (FAR uint8_t *)pval; return g_video_sensor_ops->set_value(id, size, value); } static video_scene_params_t *search_scene_param(enum v4l2_scene_mode mode) { int i; video_scene_params_t *sp = &g_video_scene_parameter[0]; for (i = 0; i < VIDEO_SCENE_MAX; i++, sp++) { if (sp->mode == mode) { return sp; } } return NULL; } static int reflect_scene_parameter(enum v4l2_scene_mode mode) { video_scene_params_t *sp; sp = search_scene_param(mode); if (sp == NULL) { /* Unsupported scene mode */ return -EINVAL; } set_intvalue(IMGSENSOR_ID_BRIGHTNESS, sp->brightness); set_intvalue(IMGSENSOR_ID_CONTRAST, sp->contrast); set_intvalue(IMGSENSOR_ID_SATURATION, sp->saturation); set_intvalue(IMGSENSOR_ID_HUE , sp->hue); set_intvalue(IMGSENSOR_ID_AUTO_WHITE_BALANCE, sp->awb); set_intvalue(IMGSENSOR_ID_RED_BALANCE , sp->red); set_intvalue(IMGSENSOR_ID_BLUE_BALANCE, sp->blue); set_intvalue(IMGSENSOR_ID_GAMMA, sp->gamma); set_pvalue(IMGSENSOR_ID_GAMMA_CURVE, sp->gamma_curve_sz, sp->gamma_curve); set_intvalue(IMGSENSOR_ID_EXPOSURE, sp->ev); set_intvalue(IMGSENSOR_ID_HFLIP_VIDEO, sp->hflip_video); set_intvalue(IMGSENSOR_ID_VFLIP_VIDEO, sp->vflip_video); set_intvalue(IMGSENSOR_ID_HFLIP_STILL, sp->hflip_still); set_intvalue(IMGSENSOR_ID_VFLIP_STILL, sp->vflip_still); set_intvalue(IMGSENSOR_ID_SHARPNESS, sp->sharpness); set_intvalue(IMGSENSOR_ID_COLORFX, sp->colorfx); set_intvalue(IMGSENSOR_ID_AUTOBRIGHTNESS, sp->auto_brightness); set_intvalue(IMGSENSOR_ID_ROTATE, sp->rotate); set_intvalue(IMGSENSOR_ID_EXPOSURE_AUTO, sp->ae); if ((sp->ae == V4L2_EXPOSURE_MANUAL) || (sp->ae == V4L2_EXPOSURE_SHUTTER_PRIORITY)) { set_intvalue(IMGSENSOR_ID_EXPOSURE_ABSOLUTE, sp->exposure_time); } set_intvalue(IMGSENSOR_ID_FOCUS_ABSOLUTE, sp->focus); set_intvalue(IMGSENSOR_ID_FOCUS_AUTO, sp->af); set_intvalue(IMGSENSOR_ID_ZOOM_ABSOLUTE, sp->zoom); if ((sp->ae == V4L2_EXPOSURE_MANUAL) || (sp->ae == V4L2_EXPOSURE_APERTURE_PRIORITY)) { set_intvalue(IMGSENSOR_ID_IRIS_ABSOLUTE, sp->iris); } set_intvalue(IMGSENSOR_ID_AUTO_N_PRESET_WB, sp->wb); set_intvalue(IMGSENSOR_ID_WIDE_DYNAMIC_RANGE, sp->wdr); set_intvalue(IMGSENSOR_ID_IMG_STABILIZATION, sp->stabilization); set_intvalue(IMGSENSOR_ID_ISO_SENSITIVITY_AUTO, sp->iso_auto); if (sp->iso_auto == V4L2_ISO_SENSITIVITY_MANUAL) { set_intvalue(IMGSENSOR_ID_ISO_SENSITIVITY, sp->iso); } set_intvalue(IMGSENSOR_ID_EXPOSURE_METERING, sp->meter); set_intvalue(IMGSENSOR_ID_3A_LOCK, sp->threea_lock); set_intvalue(IMGSENSOR_ID_FLASH_LED_MODE, sp->led); set_intvalue(IMGSENSOR_ID_JPEG_QUALITY, sp->jpeg_quality); g_video_scene_mode = mode; return OK; } static int video_s_ext_ctrls(FAR struct video_mng_s *priv, FAR struct v4l2_ext_controls *ctrls) { int ret = OK; int cnt; FAR struct v4l2_ext_control *control; ASSERT(g_video_sensor_ops); if (g_video_sensor_ops->set_value == NULL) { return -ENOTTY; } if ((priv == NULL) || (ctrls == NULL)) { return -EINVAL; } for (cnt = 0, control = ctrls->controls; cnt < ctrls->count; cnt++, control++) { if ((ctrls->ctrl_class == V4L2_CTRL_CLASS_CAMERA) && (control->id == V4L2_CID_SCENE_MODE)) { ret = reflect_scene_parameter(control->value); } else { ret = g_video_sensor_ops->set_value (VIDEO_ID(ctrls->ctrl_class, control->id), control->size, (imgsensor_value_t)control->value64); if (ret == 0) { if (g_video_scene_mode == V4L2_SCENE_MODE_NONE) { save_scene_param (V4L2_SCENE_MODE_NONE, VIDEO_ID(ctrls->ctrl_class, control->id), control); } } } if (ret < 0) { /* Set cnt in that error occurred */ ctrls->error_idx = cnt; return ret; } } return ret; } static int video_query_ext_ctrl_scene (FAR struct v4s_query_ext_ctrl_scene *attr) { if (attr == NULL) { return -EINVAL; } return video_query_ext_ctrl(&attr->control); } static int video_querymenu_scene(FAR struct v4s_querymenu_scene *menu) { if (menu == NULL) { return -EINVAL; } return video_querymenu(&menu->menu); } static int read_scene_param(enum v4l2_scene_mode mode, uint32_t id, struct v4l2_ext_control *control) { int ret = OK; video_scene_params_t *sp; imgsensor_supported_value_t value; ASSERT(g_video_sensor_ops); if (g_video_sensor_ops->get_supported_value == NULL) { return -ENOTTY; } if (control == NULL) { return -EINVAL; } sp = search_scene_param(mode); if (sp == NULL) { /* Unsupported scene mode */ return -EINVAL; } ret = g_video_sensor_ops->get_supported_value(id, &value); if (ret < 0) { /* Unsupported camera parameter */ return ret; } switch (id) { case IMGSENSOR_ID_BRIGHTNESS: control->value = sp->brightness; break; case IMGSENSOR_ID_CONTRAST: control->value = sp->contrast; break; case IMGSENSOR_ID_SATURATION: control->value = sp->saturation; break; case IMGSENSOR_ID_HUE: control->value = sp->hue; break; case IMGSENSOR_ID_AUTO_WHITE_BALANCE: control->value = sp->awb; break; case IMGSENSOR_ID_RED_BALANCE: control->value = sp->red; break; case IMGSENSOR_ID_BLUE_BALANCE: control->value = sp->blue; break; case IMGSENSOR_ID_GAMMA: control->value = sp->gamma; break; case IMGSENSOR_ID_GAMMA_CURVE: memcpy(control->p_u8, sp->gamma_curve, sp->gamma_curve_sz); break; case IMGSENSOR_ID_EXPOSURE: control->value = sp->ev; break; case IMGSENSOR_ID_HFLIP_VIDEO: control->value = sp->hflip_video; break; case IMGSENSOR_ID_VFLIP_VIDEO: control->value = sp->vflip_video; break; case IMGSENSOR_ID_HFLIP_STILL: control->value = sp->hflip_still; break; case IMGSENSOR_ID_VFLIP_STILL: control->value = sp->vflip_still; break; case IMGSENSOR_ID_SHARPNESS: control->value = sp->sharpness; break; case IMGSENSOR_ID_COLOR_KILLER: control->value = (sp->colorfx == V4L2_COLORFX_BW) ? true : false; break; case IMGSENSOR_ID_COLORFX: control->value = sp->colorfx; break; case IMGSENSOR_ID_AUTOBRIGHTNESS: control->value = sp->auto_brightness; break; case IMGSENSOR_ID_ROTATE: control->value = sp->rotate; break; case IMGSENSOR_ID_EXPOSURE_AUTO: control->value = sp->ae; break; case IMGSENSOR_ID_EXPOSURE_ABSOLUTE: control->value = sp->exposure_time; break; case IMGSENSOR_ID_FOCUS_ABSOLUTE: control->value = sp->focus; break; case IMGSENSOR_ID_FOCUS_AUTO: control->value = sp->af; break; case IMGSENSOR_ID_ZOOM_ABSOLUTE: control->value = sp->zoom; break; case IMGSENSOR_ID_IRIS_ABSOLUTE: control->value = sp->iris; break; case IMGSENSOR_ID_AUTO_N_PRESET_WB: control->value = sp->wb; break; case IMGSENSOR_ID_WIDE_DYNAMIC_RANGE: control->value = sp->wdr; break; case IMGSENSOR_ID_IMG_STABILIZATION: control->value = sp->stabilization; break; case IMGSENSOR_ID_ISO_SENSITIVITY: control->value = sp->iso; break; case IMGSENSOR_ID_ISO_SENSITIVITY_AUTO: control->value = sp->iso_auto; break; case IMGSENSOR_ID_EXPOSURE_METERING: control->value = sp->meter; break; case IMGSENSOR_ID_3A_LOCK: control->value = sp->threea_lock; break; case IMGSENSOR_ID_FLASH_LED_MODE: control->value = sp->led; break; case IMGSENSOR_ID_JPEG_QUALITY: control->value = sp->jpeg_quality; break; default: ret = -EINVAL; } return ret; } static int video_g_ext_ctrls_scene(FAR struct v4s_ext_controls_scene *ctrls) { int ret = OK; int cnt; FAR struct v4l2_ext_control *control; if (ctrls == NULL) { return -EINVAL; } for (cnt = 0, control = ctrls->control.controls; cnt < ctrls->control.count; cnt++, control++) { ret = read_scene_param (ctrls->mode, VIDEO_ID(ctrls->control.ctrl_class, control->id), control); if (ret != OK) { ctrls->control.error_idx = cnt; return ret; } } return ret; } static int check_range(int64_t value, int64_t min, int64_t max, uint64_t step) { if ((value < min) || (value > max) || ((value - min) % step != 0)) { return -EINVAL; } return OK; } static int save_scene_param(enum v4l2_scene_mode mode, uint32_t id, struct v4l2_ext_control *control) { int ret; int i; video_scene_params_t *sp; imgsensor_supported_value_t value; imgsensor_capability_range_t *range = &value.u.range; imgsensor_capability_discrete_t *disc = &value.u.discrete; imgsensor_capability_elems_t *elem = &value.u.elems; ASSERT(g_video_sensor_ops); if (g_video_sensor_ops->get_supported_value == NULL) { return -ENOTTY; } sp = search_scene_param(mode); if (sp == NULL) { /* Unsupported scene mode */ return -EINVAL; } ret = g_video_sensor_ops->get_supported_value(id, &value); if (ret < 0) { /* Unsupported camera parameter */ return ret; } switch (value.type) { case IMGSENSOR_CTRL_TYPE_INTEGER_MENU: for (i = 0; i < disc->nr_values; i++) { if (control->value == disc->values[i]) { break; } } if (i >= disc->nr_values) { return -EINVAL; } break; case IMGSENSOR_CTRL_TYPE_U8: for (i = 0; i < elem->nr_elems; i++) { ret = check_range(control->p_u8[i], elem->minimum, elem->maximum, elem->step); if (ret != OK) { return ret; } } break; case IMGSENSOR_CTRL_TYPE_U16: for (i = 0; i < elem->nr_elems; i++) { ret = check_range(control->p_u16[i], elem->minimum, elem->maximum, elem->step); if (ret != OK) { return ret; } } break; case IMGSENSOR_CTRL_TYPE_U32: for (i = 0; i < elem->nr_elems; i++) { ret = check_range(control->p_u32[i], elem->minimum, elem->maximum, elem->step); if (ret != OK) { return ret; } } break; default: ret = check_range(control->value, range->minimum, range->maximum, range->step); if (ret != OK) { return ret; } break; } switch (id) { case IMGSENSOR_ID_BRIGHTNESS: sp->brightness = control->value; break; case IMGSENSOR_ID_CONTRAST: sp->contrast = control->value; break; case IMGSENSOR_ID_SATURATION: sp->saturation = control->value; break; case IMGSENSOR_ID_HUE: sp->hue = control->value; break; case IMGSENSOR_ID_AUTO_WHITE_BALANCE: sp->awb = control->value; break; case IMGSENSOR_ID_RED_BALANCE: sp->red = control->value; break; case IMGSENSOR_ID_BLUE_BALANCE: sp->blue = control->value; break; case IMGSENSOR_ID_GAMMA: sp->gamma = control->value; break; case IMGSENSOR_ID_GAMMA_CURVE: memcpy(sp->gamma_curve, control->p_u8, sp->gamma_curve_sz); break; case IMGSENSOR_ID_EXPOSURE: sp->ev = control->value; break; case IMGSENSOR_ID_HFLIP_VIDEO: sp->hflip_video = control->value; break; case IMGSENSOR_ID_VFLIP_VIDEO: sp->vflip_video = control->value; break; case IMGSENSOR_ID_HFLIP_STILL: sp->hflip_still = control->value; break; case IMGSENSOR_ID_VFLIP_STILL: sp->vflip_still = control->value; break; case IMGSENSOR_ID_SHARPNESS: sp->sharpness = control->value; break; case IMGSENSOR_ID_COLOR_KILLER: sp->colorfx = (control->value == true) ? V4L2_COLORFX_BW : V4L2_COLORFX_NONE; break; case IMGSENSOR_ID_COLORFX: sp->colorfx = control->value; break; case IMGSENSOR_ID_AUTOBRIGHTNESS: sp->auto_brightness = control->value; break; case IMGSENSOR_ID_ROTATE: sp->rotate = control->value; break; case IMGSENSOR_ID_EXPOSURE_AUTO: sp->ae = control->value; break; case IMGSENSOR_ID_EXPOSURE_ABSOLUTE: sp->exposure_time = control->value; break; case IMGSENSOR_ID_FOCUS_ABSOLUTE: sp->focus = control->value; break; case IMGSENSOR_ID_FOCUS_AUTO: sp->af = control->value; break; case IMGSENSOR_ID_ZOOM_ABSOLUTE: sp->zoom = control->value; break; case IMGSENSOR_ID_IRIS_ABSOLUTE: sp->iris = control->value; break; case IMGSENSOR_ID_AUTO_N_PRESET_WB: sp->wb = control->value; break; case IMGSENSOR_ID_WIDE_DYNAMIC_RANGE: sp->wdr = control->value; break; case IMGSENSOR_ID_IMG_STABILIZATION: sp->stabilization = control->value; break; case IMGSENSOR_ID_ISO_SENSITIVITY: sp->iso = control->value; break; case IMGSENSOR_ID_ISO_SENSITIVITY_AUTO: sp->iso_auto = control->value; break; case IMGSENSOR_ID_EXPOSURE_METERING: sp->meter = control->value; break; case IMGSENSOR_ID_3A_LOCK: sp->threea_lock = control->value; break; case IMGSENSOR_ID_FLASH_LED_MODE: sp->led = control->value; break; case IMGSENSOR_ID_JPEG_QUALITY: sp->jpeg_quality = control->value; break; default: return -EINVAL; } return OK; } static int video_s_ext_ctrls_scene(FAR struct v4s_ext_controls_scene *ctrls) { int ret = OK; int cnt; FAR struct v4l2_ext_control *control; if (ctrls == NULL) { return -EINVAL; } for (cnt = 0, control = ctrls->control.controls; cnt < ctrls->control.count; cnt++, control++) { ret = save_scene_param (ctrls->mode, VIDEO_ID(ctrls->control.ctrl_class, control->id), control); if (ret != OK) { ctrls->control.error_idx = cnt; return ret; } } return ret; } /**************************************************************************** * Name: video_ioctl * * Description: * Standard character driver ioctl method. * ****************************************************************************/ static int video_ioctl(FAR struct file *filep, int cmd, unsigned long arg) { FAR struct inode *inode = filep->f_inode; FAR video_mng_t *priv = (FAR video_mng_t *)inode->i_private; int ret = OK; switch (cmd) { case VIDIOC_QUERYCAP: ret = video_querycap((FAR struct v4l2_capability *)arg); break; case VIDIOC_REQBUFS: ret = video_reqbufs(priv, (FAR struct v4l2_requestbuffers *)arg); break; case VIDIOC_QBUF: ret = video_qbuf(priv, (FAR struct v4l2_buffer *)arg); break; case VIDIOC_DQBUF: ret = video_dqbuf(priv, (FAR struct v4l2_buffer *)arg); break; case VIDIOC_CANCEL_DQBUF: ret = video_cancel_dqbuf(priv, (FAR enum v4l2_buf_type)arg); break; case VIDIOC_STREAMON: ret = video_streamon(priv, (FAR enum v4l2_buf_type *)arg); break; case VIDIOC_STREAMOFF: ret = video_streamoff(priv, (FAR enum v4l2_buf_type *)arg); break; case VIDIOC_DO_HALFPUSH: ret = video_do_halfpush(priv, arg); break; case VIDIOC_TAKEPICT_START: ret = video_takepict_start(priv, (int32_t)arg); break; case VIDIOC_TAKEPICT_STOP: ret = video_takepict_stop(priv, arg); break; case VIDIOC_S_SELECTION: ret = video_s_selection(priv, (FAR struct v4l2_selection *)arg); break; case VIDIOC_G_SELECTION: ret = video_g_selection(priv, (FAR struct v4l2_selection *)arg); break; case VIDIOC_TRY_FMT: ret = video_try_fmt(priv, (FAR struct v4l2_format *)arg); break; case VIDIOC_S_FMT: ret = video_s_fmt(priv, (FAR struct v4l2_format *)arg); break; case VIDIOC_S_PARM: ret = video_s_parm(priv, (FAR struct v4l2_streamparm *)arg); break; case VIDIOC_G_PARM: ret = video_g_parm(priv, (FAR struct v4l2_streamparm *)arg); break; case VIDIOC_QUERYCTRL: ret = video_queryctrl((FAR struct v4l2_queryctrl *)arg); break; case VIDIOC_QUERY_EXT_CTRL: ret = video_query_ext_ctrl((FAR struct v4l2_query_ext_ctrl *)arg); break; case VIDIOC_QUERYMENU: ret = video_querymenu((FAR struct v4l2_querymenu *)arg); break; case VIDIOC_G_CTRL: ret = video_g_ctrl(priv, (FAR struct v4l2_control *)arg); break; case VIDIOC_S_CTRL: ret = video_s_ctrl(priv, (FAR struct v4l2_control *)arg); break; case VIDIOC_G_EXT_CTRLS: ret = video_g_ext_ctrls(priv, (FAR struct v4l2_ext_controls *)arg); break; case VIDIOC_S_EXT_CTRLS: ret = video_s_ext_ctrls(priv, (FAR struct v4l2_ext_controls *)arg); break; case V4SIOC_QUERY_EXT_CTRL_SCENE: ret = video_query_ext_ctrl_scene ((FAR struct v4s_query_ext_ctrl_scene *)arg); break; case V4SIOC_QUERYMENU_SCENE: ret = video_querymenu_scene((FAR struct v4s_querymenu_scene *)arg); break; case V4SIOC_G_EXT_CTRLS_SCENE: ret = video_g_ext_ctrls_scene ((FAR struct v4s_ext_controls_scene *)arg); break; case V4SIOC_S_EXT_CTRLS_SCENE: ret = video_s_ext_ctrls_scene ((FAR struct v4s_ext_controls_scene *)arg); break; default: verr("Unrecognized cmd: %d\n", cmd); ret = - ENOTTY; break; } return ret; } static FAR void *video_register(FAR const char *devpath) { FAR video_mng_t *priv; int ret; size_t allocsize; /* Input devpath Error Check */ if (!devpath) { return NULL; } allocsize = strnlen(devpath, MAX_VIDEO_FILE_PATH - 1/* Space for '\0' */); if ((allocsize < 2) || (devpath[0] != '/') || ((allocsize == (MAX_VIDEO_FILE_PATH - 1)) && (devpath[MAX_VIDEO_FILE_PATH] != '\0'))) { return NULL; } /* Initialize video device structure */ priv = (FAR video_mng_t *)kmm_malloc(sizeof(video_mng_t)); if (!priv) { verr("Failed to allocate instance\n"); return NULL; } memset(priv, 0, sizeof(video_mng_t)); /* Save device path */ priv->devpath = (FAR char *)kmm_malloc(allocsize + 1); if (!priv->devpath) { kmm_free(priv); return NULL; } memcpy(priv->devpath, devpath, allocsize); priv->devpath[allocsize] = '\0'; /* Initialize mutex */ nxmutex_init(&priv->lock_open_num); /* Register the character driver */ ret = register_driver(priv->devpath, &g_video_fops, 0666, priv); if (ret < 0) { verr("Failed to register driver: %d\n", ret); nxmutex_destroy(&priv->lock_open_num); kmm_free(priv->devpath); kmm_free(priv); return NULL; } return priv; } static int video_unregister(FAR video_mng_t *v_mgr) { int ret = OK; if (!v_mgr) { ret = -ENODEV; } else { nxmutex_destroy(&v_mgr->lock_open_num); unregister_driver(v_mgr->devpath); kmm_free(v_mgr->devpath); kmm_free(v_mgr); } return ret; } /* Callback function which device driver call when capture has done. */ static int video_complete_capture(uint8_t err_code, uint32_t datasize) { FAR video_mng_t *vmng = (FAR video_mng_t *)video_handler; FAR video_type_inf_t *type_inf; FAR vbuf_container_t *container = NULL; enum v4l2_buf_type buf_type; irqstate_t flags; flags = enter_critical_section(); buf_type = (vmng->still_inf.state == VIDEO_STATE_CAPTURE) ? V4L2_BUF_TYPE_STILL_CAPTURE : V4L2_BUF_TYPE_VIDEO_CAPTURE; type_inf = get_video_type_inf(vmng, buf_type); if (type_inf == NULL) { leave_critical_section(flags); return -EINVAL; } if (err_code == 0) { type_inf->bufinf.vbuf_curr->buf.flags = 0; if (type_inf->remaining_capnum > 0) { type_inf->remaining_capnum--; } } else { type_inf->bufinf.vbuf_curr->buf.flags = V4L2_BUF_FLAG_ERROR; } type_inf->bufinf.vbuf_curr->buf.bytesused = datasize; video_framebuff_capture_done(&type_inf->bufinf); if (is_sem_waited(&type_inf->wait_capture.dqbuf_wait_flg)) { /* If waiting capture in DQBUF, * get/save container and unlock wait */ type_inf->wait_capture.done_container = video_framebuff_pop_curr_container(&type_inf->bufinf); type_inf->wait_capture.waitend_cause = VIDEO_WAITEND_CAUSE_CAPTUREDONE; nxsem_post(&type_inf->wait_capture.dqbuf_wait_flg); } if (type_inf->remaining_capnum == 0) { g_video_data_ops->stop_capture(); type_inf->state = VIDEO_STATE_STREAMOFF; /* If stop still stream, notify it to video stream */ if ((buf_type == V4L2_BUF_TYPE_STILL_CAPTURE) && is_sem_waited(&vmng->video_inf.wait_capture.dqbuf_wait_flg)) { vmng->video_inf.wait_capture.waitend_cause = VIDEO_WAITEND_CAUSE_STILLSTOP; nxsem_post(&vmng->video_inf.wait_capture.dqbuf_wait_flg); } } else { container = video_framebuff_get_vacant_container(&type_inf->bufinf); if (!container) { g_video_data_ops->stop_capture(); type_inf->state = VIDEO_STATE_STREAMON; } else { g_video_data_ops->set_buf((FAR uint8_t *)container->buf.m.userptr, container->buf.length); } } leave_critical_section(flags); return OK; } /**************************************************************************** * Public Functions ****************************************************************************/ int video_initialize(FAR const char *devpath) { if (is_initialized) { return OK; } video_handler = video_register(devpath); is_initialized = true; return OK; } int video_uninitialize(void) { if (is_initialized) { return OK; } video_unregister(video_handler); is_initialized = false; return OK; } int imgsensor_register(FAR const struct imgsensor_ops_s *ops) { int ret = -ENOMEM; FAR const struct imgsensor_ops_s **new_addr; new_addr = realloc(g_video_registered_sensor, sizeof(ops) * (g_video_registered_sensor_num + 1)); if (new_addr) { new_addr[g_video_registered_sensor_num++] = ops; g_video_registered_sensor = new_addr; ret = OK; } return ret; } void imgdata_register(FAR const struct imgdata_ops_s *ops) { g_video_data_ops = ops; }