/* * Copyright (C) 2019 Rockchip Electronics Co., Ltd. * * This software is available to you under a choice of one of two * licenses. You may choose to be licensed under the terms of the GNU * General Public License (GPL), available from the file * COPYING in the main directory of this source tree, or the * OpenIB.org BSD license below: * * Redistribution and use in source and binary forms, with or * without modification, are permitted provided that the following * conditions are met: * * - Redistributions of source code must retain the above * copyright notice, this list of conditions and the following * disclaimer. * * - Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials * provided with the distribution. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "camera_control.h" #include "camera_pu_control.h" #include "uvc-gadget.h" #include "uvc_log.h" #include "uvc_process_unit.h" #include "uvc_video.h" extern void camera_control_set_zoom(int val); /* Enable debug prints. */ //#define ENABLE_BUFFER_DEBUG #define ENABLE_USB_REQUEST_DEBUG #define CLEAR(x) memset(&(x), 0, sizeof(x)) #define max(a, b) (((a) > (b)) ? (a) : (b)) #define ARRAY_SIZE(arr) (sizeof(arr) / sizeof((arr)[0])) #define clamp(val, min, max) \ ({ \ typeof(val) __val = (val); \ typeof(min) __min = (min); \ typeof(max) __max = (max); \ (void)(&__val == &__min); \ (void)(&__val == &__max); \ __val = __val < __min ? __min : __val; \ __val > __max ? __max : __val; \ }) #define pixfmtstr(x) \ (x) & 0xff, ((x) >> 8) & 0xff, ((x) >> 16) & 0xff, ((x) >> 24) & 0xff static int silent = 1; #define DBG(...) \ do { \ if (silent) \ LOG_INFO(__VA_ARGS__); \ } while (0) /* * The UVC webcam gadget kernel driver (g_webcam.ko) supports changing * the Brightness attribute of the Processing Unit (PU). by default. If * the underlying video capture device supports changing the Brightness * attribute of the image being acquired (like the Virtual Video, VIVI * driver), then we should route this UVC request to the respective * video capture device. * * Incase, there is no actual video capture device associated with the * UVC gadget and we wish to use this application as the final * destination of the UVC specific requests then we should return * pre-cooked (static) responses to GET_CUR(BRIGHTNESS) and * SET_CUR(BRIGHTNESS) commands to keep command verifier test tools like * UVC class specific test suite of USBCV, happy. * * Note that the values taken below are in sync with the VIVI driver and * must be changed for your specific video capture device. These values * also work well in case there in no actual video capture device. */ #define PU_BRIGHTNESS_MIN_VAL 0 #define PU_BRIGHTNESS_MAX_VAL 100 #define PU_BRIGHTNESS_STEP_SIZE 1 #define PU_BRIGHTNESS_DEFAULT_VAL 50 #define PU_CONTRAST_MIN_VAL 0 #define PU_CONTRAST_MAX_VAL 100 #define PU_CONTRAST_STEP_SIZE 1 #define PU_CONTRAST_DEFAULT_VAL 50 #define PU_HUE_MIN_VAL 0 #define PU_HUE_MAX_VAL 100 #define PU_HUE_STEP_SIZE 1 #define PU_HUE_DEFAULT_VAL 50 #define PU_SATURATION_MIN_VAL 0 #define PU_SATURATION_MAX_VAL 100 #define PU_SATURATION_STEP_SIZE 1 #define PU_SATURATION_DEFAULT_VAL 50 #define PU_SHARPNESS_MIN_VAL 0 #define PU_SHARPNESS_MAX_VAL 100 #define PU_SHARPNESS_STEP_SIZE 1 #define PU_SHARPNESS_DEFAULT_VAL 50 #define PU_GAMMA_MIN_VAL 1 #define PU_GAMMA_MAX_VAL 500 #define PU_GAMMA_STEP_SIZE 1 #define PU_GAMMA_DEFAULT_VAL 100 // 1.0 #define PU_WHITE_BALANCE_TEMPERATURE_MIN_VAL 2800 #define PU_WHITE_BALANCE_TEMPERATURE_MAX_VAL 6500 #define PU_WHITE_BALANCE_TEMPERATURE_STEP_SIZE 37 #define PU_WHITE_BALANCE_TEMPERATURE_DEFAULT_VAL 5000 #define PU_GAIN_MIN_VAL 0 #define PU_GAIN_MAX_VAL 5 #define PU_GAIN_STEP_SIZE 1 #define PU_GAIN_DEFAULT_VAL 1 #define PU_HUE_AUTO_DEFAULT_VAL 0 // ZOOM #define CT_ZOOM_ABSOLUTE_CONTROL_MIN_VAL 10 #define CT_ZOOM_ABSOLUTE_CONTROL_MAX_VAL 50 #define CT_ZOOM_ABSOLUTE_CONTROL_STEP_SIZE 1 #define CT_ZOOM_ABSOLUTE_CONTROL_DEFAULT_VAL 10 // PANTILT #define CT_PANTILT_ABSOLUTE_CONTROL_MIN_VAL -36000 #define CT_PANTILT_ABSOLUTE_CONTROL_MAX_VAL 36000 #define CT_PANTILT_ABSOLUTE_CONTROL_STEP_SIZE 3600 #define CT_PANTILT_ABSOLUTE_CONTROL_DEFAULT_VAL 0 // ROLL #define CT_ROLL_ABSOLUTE_CONTROL_MIN_VAL 0 #define CT_ROLL_ABSOLUTE_CONTROL_MAX_VAL 3 #define CT_ROLL_ABSOLUTE_CONTROL_STEP_SIZE 1 #define CT_ROLL_ABSOLUTE_CONTROL_DEFAULT_VAL 0 // EXPOSURE_TIME_ABSOLUTE #define CT_EXPOSURE_TIME_ABSOLUTE_CONTROL_MIN_VAL 5 #define CT_EXPOSURE_TIME_ABSOLUTE_CONTROL_MAX_VAL 2500 #define CT_EXPOSURE_TIME_ABSOLUTE_CONTROL_STEP_SIZE 1 // 100us #define CT_EXPOSURE_TIME_ABSOLUTE_CONTROL_DEFAULT_VAL \ 312 // 5 10 20 39 78 156 312 625 1250 2500 (-11 ~ -2) // IRIS_ABSOLUTE #define CT_IRIS_ABSOLUTE_CONTROL_MIN_VAL 0 #define CT_IRIS_ABSOLUTE_CONTROL_MAX_VAL 10 #define CT_IRIS_ABSOLUTE_CONTROL_STEP_SIZE 1 #define CT_IRIS_ABSOLUTE_CONTROL_DEFAULT_VAL 5 #define PU_DIGITAL_MULTIPLIER_CONTROL_MIN_VAL 10 #define PU_DIGITAL_MULTIPLIER_CONTROL_MAX_VAL 50 #define PU_DIGITAL_MULTIPLIER_CONTROL_STEP_SIZE 1 #define PU_DIGITAL_MULTIPLIER_CONTROL_DEFAULT_VAL 10 #define XU_CAMERA_VERSION_DEFAULT "1100010233010110010" #define XU_EPTZ_FLAG_DEFAULT_VAL 0 #define XU_H265_DEFAULT_VAL 0 /* --------------------------------------------------------------------------- * V4L2 and UVC device instances */ /* Represents a V4L2 based video capture device */ struct v4l2_device { /* v4l2 device specific */ int v4l2_fd; int is_streaming; char *v4l2_devname; /* v4l2 buffer specific */ enum io_method io; struct buffer *mem; unsigned int nbufs; /* v4l2 buffer queue and dequeue counters */ unsigned long long int qbuf_count; unsigned long long int dqbuf_count; /* uvc device hook */ struct uvc_device *udev; }; void update_camera_ip(struct uvc_device *dev) { char cmd[32] = {0}; char ip[20] = {0}; int num = snprintf(ip, sizeof(ip), "%d.%d.%d.%d", dev->ex_ip_data[0], dev->ex_ip_data[1], dev->ex_ip_data[2], dev->ex_ip_data[3]); snprintf(cmd, 32, "ifconfig usb0 %d.%d.%d.%d", dev->ex_ip_data[0], dev->ex_ip_data[1], dev->ex_ip_data[2], dev->ex_ip_data[3]); // system("ifconfig usb0 down"); LOG_DEBUG("update_camera_ip num:%d,cmd:%s\n", num, cmd); system(cmd); // system("ifconfig usb0 up"); char *next = "/data/uvc_xu_ip_save"; FILE *fp_output = NULL; strncpy(cmd, next, 32); cmd[strlen(next)] = '\0'; fp_output = fopen(cmd, "w+b"); if (NULL == fp_output) { LOG_ERROR("failed to open uvc xu ip file %s\n", cmd); } else { ip[num + 1] = "\0"; fwrite(ip, num + 1, 1, fp_output); fclose(fp_output); } } /* --------------------------------------------------------------------------- * V4L2 streaming related */ static int v4l2_uninit_device(struct v4l2_device *dev) { unsigned int i; int ret; switch (dev->io) { case IO_METHOD_MMAP: for (i = 0; i < dev->nbufs; ++i) { ret = munmap(dev->mem[i].start, dev->mem[i].length); if (ret < 0) { LOG_ERROR("V4L2: munmap failed\n"); return ret; } } free(dev->mem); break; case IO_METHOD_USERPTR: default: break; } return 0; } static int v4l2_reqbufs_mmap(struct v4l2_device *dev, int nbufs) { struct v4l2_requestbuffers req; unsigned int i = 0; int ret; CLEAR(req); req.count = nbufs; req.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; req.memory = V4L2_MEMORY_MMAP; ret = ioctl(dev->v4l2_fd, VIDIOC_REQBUFS, &req); if (ret < 0) { if (ret == -EINVAL) LOG_ERROR("V4L2: does not support memory mapping\n"); else LOG_ERROR("V4L2: VIDIOC_REQBUFS error %s (%d).\n", strerror(errno), errno); goto err; } if (!req.count) return 0; if (req.count < 2) { LOG_ERROR("V4L2: Insufficient buffer memory.\n"); ret = -EINVAL; goto err; } /* Map the buffers. */ dev->mem = calloc(req.count, sizeof dev->mem[0]); if (!dev->mem) { LOG_ERROR("V4L2: Out of memory\n"); ret = -ENOMEM; goto err; } for (i = 0; i < req.count; ++i) { memset(&dev->mem[i].buf, 0, sizeof(dev->mem[i].buf)); dev->mem[i].buf.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; dev->mem[i].buf.memory = V4L2_MEMORY_MMAP; dev->mem[i].buf.index = i; ret = ioctl(dev->v4l2_fd, VIDIOC_QUERYBUF, &(dev->mem[i].buf)); if (ret < 0) { LOG_ERROR("V4L2: VIDIOC_QUERYBUF failed for buf %d: " "%s (%d).\n", i, strerror(errno), errno); ret = -EINVAL; goto err_free; } dev->mem[i].start = mmap(NULL /* start anywhere */, dev->mem[i].buf.length, PROT_READ | PROT_WRITE /* required */, MAP_SHARED /* recommended */, dev->v4l2_fd, dev->mem[i].buf.m.offset); if (MAP_FAILED == dev->mem[i].start) { LOG_ERROR("V4L2: Unable to map buffer %u: %s (%d).\n", i, strerror(errno), errno); dev->mem[i].length = 0; ret = -EINVAL; goto err_free; } dev->mem[i].length = dev->mem[i].buf.length; LOG_DEBUG("V4L2: Buffer %u mapped at address %p.\n", i, dev->mem[i].start); } dev->nbufs = req.count; LOG_DEBUG("V4L2: %u buffers allocated.\n", req.count); return 0; err_free: free(dev->mem); err: return ret; } static int v4l2_reqbufs_userptr(struct v4l2_device *dev, int nbufs) { struct v4l2_requestbuffers req; int ret; CLEAR(req); req.count = nbufs; req.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; req.memory = V4L2_MEMORY_USERPTR; ret = ioctl(dev->v4l2_fd, VIDIOC_REQBUFS, &req); if (ret < 0) { if (ret == -EINVAL) LOG_ERROR("V4L2: does not support user pointer i/o\n"); else LOG_ERROR("V4L2: VIDIOC_REQBUFS error %s (%d).\n", strerror(errno), errno); return ret; } dev->nbufs = req.count; LOG_DEBUG("V4L2: %u buffers allocated.\n", req.count); return 0; } static int v4l2_reqbufs(struct v4l2_device *dev, int nbufs) { int ret = 0; switch (dev->io) { case IO_METHOD_MMAP: ret = v4l2_reqbufs_mmap(dev, nbufs); break; case IO_METHOD_USERPTR: ret = v4l2_reqbufs_userptr(dev, nbufs); break; default: LOG_ERROR("no support such io:%d\n", dev->io); ret = -EINVAL; break; } return ret; } static int v4l2_qbuf_mmap(struct v4l2_device *dev) { unsigned int i; int ret; for (i = 0; i < dev->nbufs; ++i) { memset(&dev->mem[i].buf, 0, sizeof(dev->mem[i].buf)); dev->mem[i].buf.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; dev->mem[i].buf.memory = V4L2_MEMORY_MMAP; dev->mem[i].buf.index = i; ret = ioctl(dev->v4l2_fd, VIDIOC_QBUF, &(dev->mem[i].buf)); if (ret < 0) { LOG_ERROR("V4L2: VIDIOC_QBUF failed : %s (%d).\n", strerror(errno), errno); return ret; } dev->qbuf_count++; } return 0; } static int v4l2_qbuf(struct v4l2_device *dev) { int ret = 0; switch (dev->io) { case IO_METHOD_MMAP: ret = v4l2_qbuf_mmap(dev); break; case IO_METHOD_USERPTR: /* Empty. */ ret = 0; break; default: ret = -EINVAL; break; } return ret; } static int v4l2_process_data(struct v4l2_device *dev) { int ret; struct v4l2_buffer vbuf; struct v4l2_buffer ubuf; /* Return immediately if V4l2 streaming has not yet started. */ if (!dev->is_streaming) return 0; if (dev->udev->first_buffer_queued) if (dev->dqbuf_count >= dev->qbuf_count) return 0; /* Dequeue spent buffer rom V4L2 domain. */ CLEAR(vbuf); vbuf.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; switch (dev->io) { case IO_METHOD_USERPTR: vbuf.memory = V4L2_MEMORY_USERPTR; break; case IO_METHOD_MMAP: default: vbuf.memory = V4L2_MEMORY_MMAP; break; } ret = ioctl(dev->v4l2_fd, VIDIOC_DQBUF, &vbuf); if (ret < 0) return ret; dev->dqbuf_count++; #ifdef ENABLE_BUFFER_DEBUG LOG_INFO("Dequeueing buffer at V4L2 side = %d\n", vbuf.index); #endif /* Queue video buffer to UVC domain. */ CLEAR(ubuf); ubuf.type = V4L2_BUF_TYPE_VIDEO_OUTPUT; switch (dev->udev->io) { case IO_METHOD_MMAP: ubuf.memory = V4L2_MEMORY_MMAP; ubuf.length = vbuf.length; ubuf.index = vbuf.index; ubuf.bytesused = vbuf.bytesused; break; case IO_METHOD_USERPTR: default: ubuf.memory = V4L2_MEMORY_USERPTR; ubuf.m.userptr = (unsigned long)dev->mem[vbuf.index].start; ubuf.length = dev->mem[vbuf.index].length; ubuf.index = vbuf.index; ubuf.bytesused = vbuf.bytesused; break; } ret = ioctl(dev->udev->uvc_fd, VIDIOC_QBUF, &ubuf); if (ret < 0) { LOG_ERROR("UVC: Unable to queue buffer %d: %s (%d).\n", ubuf.index, strerror(errno), errno); /* Check for a USB disconnect/shutdown event. */ if (errno == ENODEV) { dev->udev->uvc_shutdown_requested = 1; LOG_INFO("UVC: Possible USB shutdown requested from " "Host, seen during VIDIOC_QBUF\n"); return 0; } else { return ret; } } dev->udev->qbuf_count++; #ifdef ENABLE_BUFFER_DEBUG LOG_INFO("Queueing buffer at UVC side = %d\n", ubuf.index); #endif if (!dev->udev->first_buffer_queued && !dev->udev->run_standalone) { uvc_video_stream(dev->udev, 1); dev->udev->first_buffer_queued = 1; dev->udev->is_streaming = 1; } return 0; } /* --------------------------------------------------------------------------- * V4L2 generic stuff */ static int v4l2_get_format(struct v4l2_device *dev) { struct v4l2_format fmt; int ret; CLEAR(fmt); fmt.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; ret = ioctl(dev->v4l2_fd, VIDIOC_G_FMT, &fmt); if (ret < 0) { LOG_ERROR("V4L2: Unable to get format: %s (%d).\n", strerror(errno), errno); return ret; } LOG_DEBUG("V4L2: Getting current format: %c%c%c%c %ux%u\n", pixfmtstr(fmt.fmt.pix.pixelformat), fmt.fmt.pix.width, fmt.fmt.pix.height); return 0; } static int v4l2_set_format(struct v4l2_device *dev, struct v4l2_format *fmt) { int ret; ret = ioctl(dev->v4l2_fd, VIDIOC_S_FMT, fmt); if (ret < 0) { LOG_ERROR("V4L2: Unable to set format %s (%d).\n", strerror(errno), errno); return ret; } LOG_DEBUG("V4L2: Setting format to: %c%c%c%c %ux%u\n", pixfmtstr(fmt->fmt.pix.pixelformat), fmt->fmt.pix.width, fmt->fmt.pix.height); return 0; } static int v4l2_set_ctrl(struct v4l2_device *dev, int new_val, int ctrl) { struct v4l2_queryctrl queryctrl; struct v4l2_control control; int ret; CLEAR(queryctrl); switch (ctrl) { case V4L2_CID_BRIGHTNESS: queryctrl.id = V4L2_CID_BRIGHTNESS; ret = ioctl(dev->v4l2_fd, VIDIOC_QUERYCTRL, &queryctrl); if (-1 == ret) { if (errno != EINVAL) LOG_ERROR("V4L2: VIDIOC_QUERYCTRL" " failed: %s (%d).\n", strerror(errno), errno); else LOG_ERROR("V4L2_CID_BRIGHTNESS is not" " supported: %s (%d).\n", strerror(errno), errno); return ret; } else if (queryctrl.flags & V4L2_CTRL_FLAG_DISABLED) { LOG_ERROR("V4L2_CID_BRIGHTNESS is not supported.\n"); ret = -EINVAL; return ret; } else { CLEAR(control); control.id = V4L2_CID_BRIGHTNESS; control.value = new_val; ret = ioctl(dev->v4l2_fd, VIDIOC_S_CTRL, &control); if (-1 == ret) { LOG_ERROR("V4L2: VIDIOC_S_CTRL failed: %s (%d).\n", strerror(errno), errno); return ret; } } LOG_INFO("V4L2: Brightness control changed to value = 0x%x\n", new_val); break; default: /* TODO: We don't support any other controls. */ return -EINVAL; } return 0; } static int v4l2_start_capturing(struct v4l2_device *dev) { int type = V4L2_BUF_TYPE_VIDEO_CAPTURE; int ret; ret = ioctl(dev->v4l2_fd, VIDIOC_STREAMON, &type); if (ret < 0) { LOG_ERROR("V4L2: Unable to start streaming: %s (%d).\n", strerror(errno), errno); return ret; } LOG_DEBUG("V4L2: Starting video stream.\n"); return 0; } static int v4l2_stop_capturing(struct v4l2_device *dev) { enum v4l2_buf_type type; int ret; switch (dev->io) { case IO_METHOD_MMAP: type = V4L2_BUF_TYPE_VIDEO_CAPTURE; ret = ioctl(dev->v4l2_fd, VIDIOC_STREAMOFF, &type); if (ret < 0) { LOG_ERROR("V4L2: VIDIOC_STREAMOFF failed: %s (%d).\n", strerror(errno), errno); return ret; } break; default: /* Nothing to do. */ break; } return 0; } static int v4l2_open(struct v4l2_device **v4l2, char *devname, struct v4l2_format *s_fmt) { struct v4l2_device *dev; struct v4l2_capability cap; int fd; int ret = -EINVAL; fd = open(devname, O_RDWR | O_NONBLOCK, 0); if (fd == -1) { LOG_ERROR("V4L2: device open failed: %s (%d).\n", strerror(errno), errno); return ret; } ret = ioctl(fd, VIDIOC_QUERYCAP, &cap); if (ret < 0) { LOG_ERROR("V4L2: VIDIOC_QUERYCAP failed: %s (%d).\n", strerror(errno), errno); goto err; } if (!(cap.capabilities & V4L2_CAP_VIDEO_CAPTURE)) { LOG_ERROR("V4L2: %s is no video capture device\n", devname); goto err; } if (!(cap.capabilities & V4L2_CAP_STREAMING)) { LOG_ERROR("V4L2: %s does not support streaming i/o\n", devname); goto err; } dev = calloc(1, sizeof *dev); if (dev == NULL) { ret = -ENOMEM; goto err; } LOG_DEBUG("V4L2 device is %s on bus %s\n", cap.card, cap.bus_info); dev->v4l2_fd = fd; /* Get the default image format supported. */ ret = v4l2_get_format(dev); if (ret < 0) goto err_free; /* * Set the desired image format. * Note: VIDIOC_S_FMT may change width and height. */ ret = v4l2_set_format(dev, s_fmt); if (ret < 0) goto err_free; /* Get the changed image format. */ ret = v4l2_get_format(dev); if (ret < 0) goto err_free; LOG_DEBUG("v4l2 open succeeded, file descriptor = %d\n", fd); *v4l2 = dev; return 0; err_free: free(dev); err: close(fd); return ret; } static void v4l2_close(struct v4l2_device *dev) { close(dev->v4l2_fd); free(dev); } /* --------------------------------------------------------------------------- * UVC generic stuff */ static int uvc_video_set_format(struct uvc_device *dev) { struct v4l2_format fmt; int ret; CLEAR(fmt); fmt.type = V4L2_BUF_TYPE_VIDEO_OUTPUT; fmt.fmt.pix.width = dev->width; fmt.fmt.pix.height = dev->height; fmt.fmt.pix.pixelformat = dev->fcc; fmt.fmt.pix.field = V4L2_FIELD_NONE; if (dev->fcc == V4L2_PIX_FMT_MJPEG) fmt.fmt.pix.sizeimage = dev->width * dev->height/*1.5*/; if ((dev->fcc == V4L2_PIX_FMT_H264) || (dev->fcc == V4L2_PIX_FMT_H265)) #ifdef RK_ENABLE_FASTBOOT fmt.fmt.pix.sizeimage = dev->width * dev->height / 2; #else fmt.fmt.pix.sizeimage = dev->width * dev->height; #endif ret = ioctl(dev->uvc_fd, VIDIOC_S_FMT, &fmt); if (ret < 0) { LOG_ERROR("UVC: Unable to set format %s (%d).\n", strerror(errno), errno); return ret; } LOG_INFO("UVC: Setting format to: %c%c%c%c %ux%u\n", pixfmtstr(dev->fcc), dev->width, dev->height); return 0; } int uvc_video_stream(struct uvc_device *dev, int enable) { int type = V4L2_BUF_TYPE_VIDEO_OUTPUT; int ret; if (!enable) { ret = ioctl(dev->uvc_fd, VIDIOC_STREAMOFF, &type); if (ret < 0) { LOG_ERROR("UVC: VIDIOC_STREAMOFF failed: %s (%d).\n", strerror(errno), errno); return ret; } LOG_DEBUG("UVC: Stopping video stream.\n"); return 0; } ret = ioctl(dev->uvc_fd, VIDIOC_STREAMON, &type); if (ret < 0) { LOG_ERROR("UVC: Unable to start streaming %s (%d).\n", strerror(errno), errno); return ret; } LOG_DEBUG("UVC: Starting video stream.\n"); dev->uvc_shutdown_requested = 0; return 0; } static int uvc_uninit_device(struct uvc_device *dev) { unsigned int i; int ret; switch (dev->io) { case IO_METHOD_MMAP: for (i = 0; i < dev->nbufs; ++i) { ret = munmap(dev->mem[i].start, dev->mem[i].length); if (ret < 0) { LOG_ERROR("UVC: munmap failed\n"); return ret; } } free(dev->mem); break; case IO_METHOD_USERPTR: if (dev->run_standalone) { for (i = 0; i < dev->nbufs; ++i) free(dev->dummy_buf[i].start); free(dev->dummy_buf); } break; case IO_METHOD_DMA_BUFF: break; default: break; } return 0; } static int uvc_open(struct uvc_device **uvc, char *devname) { struct uvc_device *dev; struct v4l2_capability cap; int fd; int ret = -EINVAL; fd = open(devname, O_RDWR | O_NONBLOCK); if (fd == -1) { LOG_ERROR("UVC: device open failed: %s (%d).\n", strerror(errno), errno); return ret; } ret = ioctl(fd, VIDIOC_QUERYCAP, &cap); if (ret < 0) { LOG_ERROR("UVC: unable to query uvc device: %s (%d)\n", strerror(errno), errno); goto err; } if (!(cap.capabilities & V4L2_CAP_VIDEO_OUTPUT)) { LOG_ERROR("UVC: %s is no video output device\n", devname); goto err; } dev = calloc(1, sizeof *dev); if (dev == NULL) { ret = -ENOMEM; goto err; } LOG_DEBUG("uvc device is %s on bus %s\n", cap.card, cap.bus_info); LOG_DEBUG("uvc open succeeded, file descriptor = %d\n", fd); dev->uvc_fd = fd; dev->eptz_flag = XU_EPTZ_FLAG_DEFAULT_VAL; dev->xu_h265 = XU_H265_DEFAULT_VAL; camera_pu_control_init(UVC_PU_BRIGHTNESS_CONTROL, PU_BRIGHTNESS_DEFAULT_VAL, PU_BRIGHTNESS_MIN_VAL, PU_BRIGHTNESS_MAX_VAL); dev->brightness_val = camera_pu_control_get(UVC_PU_BRIGHTNESS_CONTROL, PU_BRIGHTNESS_DEFAULT_VAL); camera_pu_control_init(UVC_PU_CONTRAST_CONTROL, PU_CONTRAST_DEFAULT_VAL, PU_CONTRAST_MIN_VAL, PU_CONTRAST_MAX_VAL); dev->contrast_val = camera_pu_control_get(UVC_PU_CONTRAST_CONTROL, PU_CONTRAST_DEFAULT_VAL); camera_pu_control_init(UVC_PU_HUE_CONTROL, PU_HUE_DEFAULT_VAL, PU_HUE_MIN_VAL, PU_HUE_MAX_VAL); dev->hue_val = camera_pu_control_get(UVC_PU_HUE_CONTROL, PU_HUE_DEFAULT_VAL); camera_pu_control_init(UVC_PU_SATURATION_CONTROL, PU_SATURATION_DEFAULT_VAL, PU_SATURATION_MIN_VAL, PU_SATURATION_MAX_VAL); dev->saturation_val = camera_pu_control_get(UVC_PU_SATURATION_CONTROL, PU_SATURATION_DEFAULT_VAL); camera_pu_control_init(UVC_PU_SHARPNESS_CONTROL, PU_SHARPNESS_DEFAULT_VAL, PU_SHARPNESS_MIN_VAL, PU_SHARPNESS_MAX_VAL); dev->sharpness_val = camera_pu_control_get(UVC_PU_SHARPNESS_CONTROL, PU_SHARPNESS_DEFAULT_VAL); camera_pu_control_init(UVC_PU_GAMMA_CONTROL, PU_GAMMA_DEFAULT_VAL, PU_GAMMA_MIN_VAL, PU_GAMMA_MAX_VAL); dev->gamma_val = camera_pu_control_get(UVC_PU_GAMMA_CONTROL, PU_GAMMA_DEFAULT_VAL); camera_pu_control_init(UVC_PU_WHITE_BALANCE_TEMPERATURE_CONTROL, PU_WHITE_BALANCE_TEMPERATURE_DEFAULT_VAL, PU_WHITE_BALANCE_TEMPERATURE_MIN_VAL, PU_WHITE_BALANCE_TEMPERATURE_MAX_VAL); dev->white_balance_temperature_val = camera_pu_control_get(UVC_PU_WHITE_BALANCE_TEMPERATURE_CONTROL, PU_WHITE_BALANCE_TEMPERATURE_DEFAULT_VAL); camera_pu_control_init(UVC_PU_WHITE_BALANCE_TEMPERATURE_AUTO_CONTROL, 1, 0, 1); dev->white_balance_temperature_auto_val = camera_pu_control_get(UVC_PU_WHITE_BALANCE_TEMPERATURE_AUTO_CONTROL, 1); camera_pu_control_init(UVC_PU_GAIN_CONTROL, PU_GAIN_DEFAULT_VAL, PU_GAIN_MIN_VAL, PU_GAIN_MAX_VAL); dev->gain_val = camera_pu_control_get(UVC_PU_GAIN_CONTROL, PU_GAIN_DEFAULT_VAL); camera_pu_control_init(UVC_PU_HUE_AUTO_CONTROL, 1, 0, 1); dev->hue_auto_val = camera_pu_control_get(UVC_PU_HUE_AUTO_CONTROL, 1); camera_pu_control_set(UVC_PU_POWER_LINE_FREQUENCY_CONTROL, 1); // set default AntiFlickerMode 1:50hz,2:60hz dev->power_line_frequency_val = V4L2_CID_POWER_LINE_FREQUENCY_50HZ; // zoom dev->zoom_val = CT_ZOOM_ABSOLUTE_CONTROL_DEFAULT_VAL; // pan dev->pan_val = CT_PANTILT_ABSOLUTE_CONTROL_DEFAULT_VAL; // tilt dev->tilt_val = CT_PANTILT_ABSOLUTE_CONTROL_DEFAULT_VAL; // roll dev->roll_val = CT_ROLL_ABSOLUTE_CONTROL_DEFAULT_VAL; // exposure_time dev->exposure_time_val = CT_EXPOSURE_TIME_ABSOLUTE_CONTROL_DEFAULT_VAL; // ae mode dev->ae_mode_val = 0x02; // Auto Mode – auto Exposure Time, auto Iris char *ver = XU_CAMERA_VERSION_DEFAULT; strncpy(dev->ex_sn_data, ver, MAX_UVC_REQUEST_DATA_LENGTH); memset(dev->ex_tool_ctrl1, 0, sizeof(dev->ex_tool_ctrl1)); *uvc = dev; return 0; err: close(fd); return ret; } static void uvc_close(struct uvc_device *dev) { if (dev) { if (dev->uvc_fd) close(dev->uvc_fd); if (dev->vbuf_info) free(dev->vbuf_info); if (dev->imgdata) free(dev->imgdata); free(dev); } } /* --------------------------------------------------------------------------- * UVC streaming related */ static void uvc_video_release_cache_buffer(struct uvc_device *dev, struct v4l2_buffer *buf) { uvc_user_release_cache_buffer(dev, buf, dev->video_id); } static struct uvc_buffer *uvc_video_fill_buffer(struct uvc_device *dev, struct v4l2_buffer *buf) { return uvc_user_fill_buffer(dev, buf, dev->video_id); } static int uvc_video_process(struct uvc_device *dev) { struct v4l2_buffer vbuf; unsigned int i; int ret; int retry_cnt = 0; bool get_ok = false; struct uvc_buffer *uvc_buf = NULL; /* * Return immediately if UVC video output device has not started * streaming yet. */ if (!dev->is_streaming) { usleep(10000); return 0; } #ifdef ENABLE_BUFFER_TIME_DEBUG struct timeval process_time; gettimeofday(&process_time, NULL); LOG_ERROR("UVC V4L2 READY TO WRITE BUFFER:%d.%d (s)", process_time.tv_sec, process_time.tv_usec); #endif /* Prepare a v4l2 buffer to be dequeued from UVC domain. */ CLEAR(dev->ubuf); dev->ubuf.type = V4L2_BUF_TYPE_VIDEO_OUTPUT; switch (dev->io) { case IO_METHOD_MMAP: dev->ubuf.memory = V4L2_MEMORY_MMAP; break; case IO_METHOD_USERPTR: dev->ubuf.memory = V4L2_MEMORY_USERPTR; break; case IO_METHOD_DMA_BUFF: default: dev->ubuf.memory = V4L2_MEMORY_DMABUF; break; } if (dev->run_standalone) { REDQBUF: do { ret = ioctl(dev->uvc_fd, VIDIOC_DQBUF, &dev->ubuf); if (ret == 0) { dev->dqbuf_count++; uvc_video_release_cache_buffer(dev, &dev->ubuf); LOG_DEBUG( "dev->dqbuf_count:%lld, %d: DeQueued buffer at UVC side = %d\n", dev->dqbuf_count, dev->video_id, dev->ubuf.index); } else if (ret < 0) { break; // when stream on(not qbuf ever) dqbuf will go here. } else { LOG_ERROR("%d: UVC: Unable to DeQueued buffer: %s (%d) ret(%d).\n", dev->video_id, strerror(errno), errno, ret); } } while (ret == 0); do { if (!uvc_buf) uvc_buf = uvc_video_fill_buffer(dev, &dev->ubuf); if (!uvc_buf) { // !dev->ubuf.bytesused && !dev->ubuf.m.fd dev->drop_count++; LOG_INFO("%d: UVC: Unable to queue buffer length is 0, dqbuf:%lld " "qbuf:%lld drop count:%d\n", dev->video_id, dev->dqbuf_count, dev->qbuf_count, dev->drop_count); if (dev->qbuf_count && retry_cnt < 50) { retry_cnt++; goto REDQBUF; // ret null packet will cause uvc err between send // data(need alloc a null buf fix this case?) } else { // todo: how to aviod this case? return 0; } } ret = ioctl(dev->uvc_fd, VIDIOC_QBUF, &dev->ubuf); if (ret < 0 && errno != 19) { // 19:No such device,disconnect dev->try_count++; LOG_ERROR("%d: UVC: Unable to queue buffer:fd:%d frame:%p %s " "(%d).retry qbuf:%d\n", dev->video_id, uvc_buf->fd, uvc_buf->frame, strerror(errno), errno, dev->try_count); // uvc_buffer_read_set(dev->video_id, uvc_buf); // wait for moment usleep(1000); // reqbuf this uvc_buf goto REDQBUF; // return ret; // will err if just return. } else { dev->qbuf_count++; uvc_buffer_write_set(dev->video_id, uvc_buf); // for save mb buf(when destory uvc need clear cache mb buf) uvc_buffer_cache_set(dev->video_id, uvc_buf); } LOG_DEBUG("dev->qbuf_count:%lld,%d: ReQueueing buffer at UVC side = %d " "size = %d\n", dev->qbuf_count, dev->video_id, dev->ubuf.index, dev->ubuf.bytesused); #ifdef ENABLE_BUFFER_TIME_DEBUG struct timeval buffer_time; gettimeofday(&buffer_time, NULL); LOG_ERROR("UVC V4L2 BUFFER TIME END:%d.%d (s)", buffer_time.tv_sec, buffer_time.tv_usec); #endif uvc_buf = NULL; } while (uvc_buffer_read_enable(dev->video_id)); } return 0; } static int uvc_video_qbuf_mmap(struct uvc_device *dev) { unsigned int i; int ret; for (i = 0; i < dev->nbufs; ++i) { memset(&dev->mem[i].buf, 0, sizeof(dev->mem[i].buf)); dev->mem[i].buf.type = V4L2_BUF_TYPE_VIDEO_OUTPUT; dev->mem[i].buf.memory = V4L2_MEMORY_MMAP; dev->mem[i].buf.index = i; ret = ioctl(dev->uvc_fd, VIDIOC_QBUF, &(dev->mem[i].buf)); if (ret < 0) { LOG_ERROR("UVC: VIDIOC_QBUF failed : %s (%d).\n", strerror(errno), errno); return ret; } dev->qbuf_count++; } return 0; } static int uvc_video_qbuf_userptr(struct uvc_device *dev) { unsigned int i; int ret; /* UVC standalone setup. */ if (dev->run_standalone) { for (i = 0; i < dev->nbufs; ++i) { struct v4l2_buffer buf; CLEAR(buf); buf.type = V4L2_BUF_TYPE_VIDEO_OUTPUT; buf.memory = V4L2_MEMORY_USERPTR; buf.m.userptr = (unsigned long)dev->dummy_buf[i].start; buf.length = dev->dummy_buf[i].length; buf.index = i; ret = ioctl(dev->uvc_fd, VIDIOC_QBUF, &buf); if (ret < 0) { LOG_ERROR("UVC: VIDIOC_QBUF failed : %s (%d).\n", strerror(errno), errno); return ret; } dev->qbuf_count++; } } return 0; } int uvc_video_qbuf(struct uvc_device *dev) { int ret = 0; switch (dev->io) { case IO_METHOD_MMAP: ret = uvc_video_qbuf_mmap(dev); break; case IO_METHOD_USERPTR: ret = uvc_video_qbuf_userptr(dev); break; case IO_METHOD_DMA_BUFF: break; default: ret = -EINVAL; break; } return ret; } static int uvc_video_reqbufs_mmap(struct uvc_device *dev, int nbufs) { struct v4l2_requestbuffers rb; unsigned int i; int ret; CLEAR(rb); rb.count = nbufs; rb.type = V4L2_BUF_TYPE_VIDEO_OUTPUT; rb.memory = V4L2_MEMORY_MMAP; ret = ioctl(dev->uvc_fd, VIDIOC_REQBUFS, &rb); if (ret < 0) { if (ret == -EINVAL) LOG_ERROR("UVC: does not support memory mapping\n"); else LOG_ERROR("UVC: Unable to allocate buffers: %s (%d).\n", strerror(errno), errno); goto err; } if (!rb.count) return 0; if (rb.count < 2) { LOG_ERROR("UVC: Insufficient buffer memory.\n"); ret = -EINVAL; goto err; } /* Map the buffers. */ dev->mem = calloc(rb.count, sizeof dev->mem[0]); if (!dev->mem) { LOG_ERROR("UVC: Out of memory\n"); ret = -ENOMEM; goto err; } for (i = 0; i < rb.count; ++i) { memset(&dev->mem[i].buf, 0, sizeof(dev->mem[i].buf)); dev->mem[i].buf.type = V4L2_BUF_TYPE_VIDEO_OUTPUT; dev->mem[i].buf.memory = V4L2_MEMORY_MMAP; dev->mem[i].buf.index = i; ret = ioctl(dev->uvc_fd, VIDIOC_QUERYBUF, &(dev->mem[i].buf)); if (ret < 0) { LOG_ERROR("UVC: VIDIOC_QUERYBUF failed for buf %d: " "%s (%d).\n", i, strerror(errno), errno); ret = -EINVAL; goto err_free; } dev->mem[i].start = mmap(NULL /* start anywhere */, dev->mem[i].buf.length, PROT_READ | PROT_WRITE /* required */, MAP_SHARED /* recommended */, dev->uvc_fd, dev->mem[i].buf.m.offset); if (MAP_FAILED == dev->mem[i].start) { LOG_ERROR("UVC: Unable to map buffer %u: %s (%d).\n", i, strerror(errno), errno); dev->mem[i].length = 0; ret = -EINVAL; goto err_free; } dev->mem[i].length = dev->mem[i].buf.length; LOG_DEBUG("UVC: Buffer %u mapped at address %p.\n", i, dev->mem[i].start); } dev->nbufs = rb.count; LOG_DEBUG("UVC: %u buffers allocated.\n", rb.count); return 0; err_free: free(dev->mem); err: return ret; } static int uvc_video_reqbufs_dmabuff(struct uvc_device *dev, int nbufs) { struct v4l2_requestbuffers rb; unsigned int i, j, bpl = 0, payload_size; int ret; CLEAR(rb); rb.count = nbufs; rb.type = V4L2_BUF_TYPE_VIDEO_OUTPUT; rb.memory = V4L2_MEMORY_DMABUF; ret = ioctl(dev->uvc_fd, VIDIOC_REQBUFS, &rb); if (ret < 0) { if (ret == -EINVAL) LOG_ERROR("UVC: does not support dma buff i/o\n"); else LOG_ERROR("UVC: VIDIOC_REQBUFS error %s (%d).\n", strerror(errno), errno); goto err; } if (!rb.count) return 0; err: return ret; } static int uvc_video_reqbufs_userptr(struct uvc_device *dev, int nbufs) { struct v4l2_requestbuffers rb; unsigned int i, j, bpl = 0, payload_size; int ret; CLEAR(rb); rb.count = nbufs; rb.type = V4L2_BUF_TYPE_VIDEO_OUTPUT; rb.memory = V4L2_MEMORY_USERPTR; ret = ioctl(dev->uvc_fd, VIDIOC_REQBUFS, &rb); if (ret < 0) { if (ret == -EINVAL) LOG_ERROR("UVC: does not support user pointer i/o\n"); else LOG_ERROR("UVC: VIDIOC_REQBUFS error %s (%d).\n", strerror(errno), errno); goto err; } if (!rb.count) return 0; dev->nbufs = rb.count; LOG_DEBUG("UVC: %u buffers allocated.\n", rb.count); if (dev->run_standalone) { /* Allocate buffers to hold dummy data pattern. */ dev->dummy_buf = calloc(rb.count, sizeof dev->dummy_buf[0]); if (!dev->dummy_buf) { LOG_ERROR("UVC: Out of memory\n"); ret = -ENOMEM; goto err; } switch (dev->fcc) { case V4L2_PIX_FMT_YUYV: case V4L2_PIX_FMT_NV12: bpl = dev->width * 2; payload_size = dev->width * dev->height * 2; break; case V4L2_PIX_FMT_MJPEG: case V4L2_PIX_FMT_H264: case V4L2_PIX_FMT_H265: payload_size = dev->imgsize; break; default: return -1; } for (i = 0; i < rb.count; ++i) { dev->dummy_buf[i].length = payload_size; dev->dummy_buf[i].start = malloc(payload_size); if (!dev->dummy_buf[i].start) { LOG_ERROR("UVC: Out of memory\n"); ret = -ENOMEM; goto err; } if (V4L2_PIX_FMT_YUYV == dev->fcc) for (j = 0; j < dev->height; ++j) memset(dev->dummy_buf[i].start + j * bpl, dev->color++, bpl); if (V4L2_PIX_FMT_MJPEG == dev->fcc && dev->imgdata) memcpy(dev->dummy_buf[i].start, dev->imgdata, dev->imgsize); } } return 0; err: return ret; } int uvc_video_reqbufs(struct uvc_device *dev, int nbufs) { int ret = 0; switch (dev->io) { case IO_METHOD_MMAP: ret = uvc_video_reqbufs_mmap(dev, nbufs); break; case IO_METHOD_USERPTR: ret = uvc_video_reqbufs_userptr(dev, nbufs); break; case IO_METHOD_DMA_BUFF: ret = uvc_video_reqbufs_dmabuff(dev, nbufs); break; default: ret = -EINVAL; break; } return ret; } /* * This function is called in response to either: * - A SET_ALT(interface 1, alt setting 1) command from USB host, * if the UVC gadget supports an ISOCHRONOUS video streaming endpoint * or, * * - A UVC_VS_COMMIT_CONTROL command from USB host, if the UVC gadget * supports a BULK type video streaming endpoint. */ static int uvc_handle_streamon_event(struct uvc_device *dev) { int ret; if (!dev->run_standalone) { /* UVC - V4L2 integrated path. */ if (IO_METHOD_USERPTR == dev->vdev->io) { /* * Ensure that the V4L2 video capture device has already * some buffers queued. */ ret = v4l2_reqbufs(dev->vdev, dev->vdev->nbufs); if (ret < 0) goto err; } ret = v4l2_qbuf(dev->vdev); if (ret < 0) goto err; /* Start V4L2 capturing now. */ ret = v4l2_start_capturing(dev->vdev); if (ret < 0) goto err; dev->vdev->is_streaming = 1; } /* Common setup. */ if (dev->run_standalone) { dev->first_buffer_queued = 1; dev->is_streaming = 1; } uvc_control_streamon(dev); set_uvc_control_start(dev->video_id, dev->width, dev->height, dev->fps, dev->fcc, dev->eptz_flag); return 0; err: return ret; } /* --------------------------------------------------------------------------- * UVC Request processing */ static void uvc_fill_streaming_control(struct uvc_device *dev, struct uvc_streaming_control *ctrl, int iformat, int iframe, unsigned int ival) { const struct uvc_function_config_format *format; const struct uvc_function_config_frame *frame; unsigned int i; /* * Restrict the iformat, iframe and ival to valid values. Negative * values for iformat or iframe will result in the maximum valid value * being selected. */ iformat = clamp((unsigned int)iformat, 1U, dev->fc->streaming.num_formats); format = &dev->fc->streaming.formats[iformat - 1]; iframe = clamp((unsigned int)iframe, 1U, format->num_frames); frame = &format->frames[iframe - 1]; for (i = 0; i < frame->num_intervals; ++i) { if (ival <= frame->intervals[i]) { ival = frame->intervals[i]; break; } } if (i == frame->num_intervals) ival = frame->intervals[frame->num_intervals - 1]; memset(ctrl, 0, sizeof *ctrl); ctrl->bmHint = 1; ctrl->bFormatIndex = iformat; ctrl->bFrameIndex = iframe; ctrl->dwFrameInterval = ival; dev->width = frame->width; dev->height = frame->height; dev->fcc = format->fcc; switch (format->fcc) { case V4L2_PIX_FMT_YUYV: case V4L2_PIX_FMT_NV12: ctrl->dwMaxVideoFrameSize = frame->width * frame->height * 2; break; case V4L2_PIX_FMT_MJPEG: dev->imgsize = frame->width * frame->height; ctrl->dwMaxVideoFrameSize = dev->imgsize; break; case V4L2_PIX_FMT_H264: case V4L2_PIX_FMT_H265: #ifdef RK_ENABLE_FASTBOOT dev->imgsize = frame->width * frame->height / 2; #else dev->imgsize = frame->width * frame->height; #endif ctrl->dwMaxVideoFrameSize = dev->imgsize; break; } LOG_INFO("dev->fcc:%d,dev->width:%d,dev->height:%d,dev->imgsize:%d,ctrl->" "dwFrameInterval:%d\n", dev->fcc, dev->width, dev->height, dev->imgsize, ctrl->dwFrameInterval); /* TODO: the UVC maxpayload transfer size should be filled * by the driver. */ if (!dev->bulk) { ctrl->dwMaxPayloadTransferSize = dev->fc->streaming.ep .wMaxPacketSize; /*get_uvc_streaming_maxpacket();/*(dev->maxpkt) * (dev->mult + 1) * (dev->burst + 1);*/ LOG_INFO("+++++++++dwMaxPayloadTransferSize:%d\n", ctrl->dwMaxPayloadTransferSize); } else { ctrl->dwMaxPayloadTransferSize = ctrl->dwMaxVideoFrameSize; } ctrl->bmFramingInfo = 3; ctrl->bPreferedVersion = 1; ctrl->bMaxVersion = 1; } static void uvc_events_process_standard(struct uvc_device *dev, struct usb_ctrlrequest *ctrl, struct uvc_request_data *resp) { LOG_DEBUG("standard request\n"); (void)dev; (void)ctrl; (void)resp; } static void uvc_events_process_control(struct uvc_device *dev, uint8_t req, uint8_t cs, uint8_t entity_id, uint8_t len, struct uvc_request_data *resp) { LOG_DEBUG("req = %d cs = %d entity_id =%d len = %d \n", req, cs, entity_id, len); dev->cs = cs; dev->entity_id = entity_id; switch (entity_id) { case UVC_CTRL_INTERFACE_ID: switch (cs) { case UVC_VC_REQUEST_ERROR_CODE_CONTROL: /* Send the request error code last prepared. */ resp->data[0] = dev->request_error_code.data[0]; resp->length = dev->request_error_code.length; break; default: /* * If we were not supposed to handle this * 'cs', prepare an error code response. */ dev->request_error_code.data[0] = 0x06; dev->request_error_code.length = 1; break; } break; /* Camera terminal unit 'UVC_VC_INPUT_TERMINAL'. */ case UVC_CTRL_CAMERA_TERMINAL_ID: switch (cs) { case UVC_CT_ZOOM_ABSOLUTE_CONTROL: switch (req) { LOG_INFO("UVC_CT_ZOOM_ABSOLUTE_CONTROL:req=%d \n", req); case UVC_SET_CUR: resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: resp->data[0] = CT_ZOOM_ABSOLUTE_CONTROL_MIN_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = CT_ZOOM_ABSOLUTE_CONTROL_MAX_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->zoom_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = CT_ZOOM_ABSOLUTE_CONTROL_DEFAULT_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = CT_ZOOM_ABSOLUTE_CONTROL_STEP_SIZE; // must be 1 resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_CT_PANTILT_ABSOLUTE_CONTROL: switch (req) { LOG_INFO("UVC_CT_PANTILT_ABSOLUTE_CONTROL:req=%d len:%d\n", req, len); case UVC_SET_CUR: // resp->data[0] = 0x0; // resp->data[4] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: { int a = CT_PANTILT_ABSOLUTE_CONTROL_MIN_VAL; int b = CT_PANTILT_ABSOLUTE_CONTROL_MIN_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &a, 4); memcpy(&resp->data[4], &b, 4); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_MAX: { int c = CT_PANTILT_ABSOLUTE_CONTROL_MAX_VAL; int d = CT_PANTILT_ABSOLUTE_CONTROL_MAX_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &c, 4); memcpy(&resp->data[4], &d, 4); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_CUR: { resp->length = len; memset(resp->data, 0, sizeof(resp->data)); memcpy(&resp->data[0], &dev->pan_val, 4); memcpy(&resp->data[4], &dev->tilt_val, 4); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_INFO: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x03; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: { int e = CT_PANTILT_ABSOLUTE_CONTROL_STEP_SIZE; int f = CT_PANTILT_ABSOLUTE_CONTROL_STEP_SIZE; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &e, 4); memcpy(&resp->data[4], &f, 4); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_DEF: memset(resp->data, 0, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_CT_ROLL_ABSOLUTE_CONTROL: switch (req) { LOG_DEBUG("UVC_CT_ROLL_ABSOLUTE_CONTROL:req=%d len:%d\n", req, len); case UVC_SET_CUR: // resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: { short min = CT_ROLL_ABSOLUTE_CONTROL_MIN_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &min, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_MAX: { short max = CT_ROLL_ABSOLUTE_CONTROL_MAX_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &max, resp->length); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_CUR: resp->length = len; memcpy(&resp->data[0], &dev->roll_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = CT_ROLL_ABSOLUTE_CONTROL_STEP_SIZE; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: memset(resp->data, 0, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_CT_AE_MODE_CONTROL: switch (req) { case UVC_SET_CUR: /* Incase of auto exposure, attempts to * programmatically set the auto-adjusted * controls are ignored. */ resp->data[0] = 0x01; resp->length = 1; /* * For every successfully handled control * request set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: /* * TODO: We support Set and Get requests, but * don't support async updates on an video * status (interrupt) endpoint as of * now. */ resp->data[0] = 0x03; resp->length = 1; /* * For every successfully handled control * request set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 1; /* Auto Mode - auto Exposure Time, auto Iris. */ memcpy(&resp->data[0], &dev->ae_mode_val, resp->length); /* * For every successfully handled control * request set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: case UVC_GET_RES: /* Auto Mode - auto Exposure Time, auto Iris. */ resp->data[0] = 0x02; resp->length = 1; /* * For every successfully handled control * request set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: /* * We don't support this control, so STALL the * control ep. */ resp->length = -EL2HLT; /* * For every unsupported control request * set the request error code to appropriate * value. */ dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_CT_FOCUS_AUTO_CONTROL: switch (req) { case UVC_SET_CUR: /* Incase of auto exposure, attempts to * programmatically set the auto-adjusted * controls are ignored. */ resp->data[0] = 0x01; resp->length = 1; /* * For every successfully handled control * request set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: /* * TODO: We support Set and Get requests, but * don't support async updates on an video * status (interrupt) endpoint as of * now. */ resp->data[0] = 0x03; resp->length = 1; /* * For every successfully handled control * request set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: case UVC_GET_DEF: case UVC_GET_RES: resp->data[0] = 1; resp->length = 1; /* * For every successfully handled control * request set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: /* * We don't support this control, so STALL the * control ep. */ resp->length = -EL2HLT; /* * For every unsupported control request * set the request error code to appropriate * value. */ dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_CT_FOCUS_ABSOLUTE_CONTROL: { /* * We don't support this control, so STALL the * control ep. */ resp->length = -EL2HLT; /* * For every unsupported control request * set the request error code to appropriate * value. */ dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; } break; case UVC_CT_EXPOSURE_TIME_ABSOLUTE_CONTROL: LOG_DEBUG("++++++++UVC_CT_EXPOSURE_TIME_ABSOLUTE_CONTROL req:%d", req); switch (req) { case UVC_SET_CUR: // resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: { int min_time = CT_EXPOSURE_TIME_ABSOLUTE_CONTROL_MIN_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &min_time, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_MAX: { int max_time = CT_EXPOSURE_TIME_ABSOLUTE_CONTROL_MAX_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &max_time, resp->length); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_CUR: resp->length = len; memcpy(&resp->data[0], &dev->exposure_time_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = CT_EXPOSURE_TIME_ABSOLUTE_CONTROL_STEP_SIZE; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: { int def_time = CT_EXPOSURE_TIME_ABSOLUTE_CONTROL_DEFAULT_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &def_time, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } default: /* * We don't support this control, so STALL the * control ep. */ resp->length = -EL2HLT; /* * For every unsupported control request * set the request error code to appropriate * value. */ dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; } break; case UVC_CT_IRIS_ABSOLUTE_CONTROL: LOG_DEBUG("++++++++UVC_CT_IRIS_ABSOLUTE_CONTROL req:%d", req); switch (req) { case UVC_SET_CUR: // resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: { int min_time = CT_IRIS_ABSOLUTE_CONTROL_MIN_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &min_time, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_MAX: { int max_time = CT_IRIS_ABSOLUTE_CONTROL_MAX_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &max_time, resp->length); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_CUR: resp->length = len; memcpy(&resp->data[0], &dev->iris_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = CT_IRIS_ABSOLUTE_CONTROL_STEP_SIZE; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: { int def_time = CT_IRIS_ABSOLUTE_CONTROL_DEFAULT_VAL; memset(resp->data, 0, sizeof(resp->data)); resp->length = len; memcpy(&resp->data, &def_time, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } default: /* * We don't support this control, so STALL the * control ep. */ resp->length = -EL2HLT; /* * For every unsupported control request * set the request error code to appropriate * value. */ dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; } break; default: LOG_DEBUG("++++++++Input Terminal usb default req ,cs:%d", cs); switch (req) { case UVC_GET_LEN: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = sizeof(resp->data); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_SET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: memset(resp->data, 0, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: memset(resp->data, 0xFF, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 1; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; } break; /* processing unit 'UVC_VC_PROCESSING_UNIT' */ case UVC_CTRL_PROCESSING_UNIT_ID: switch (cs) { case UVC_PU_BRIGHTNESS_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 0x0; resp->length = len; /* * For every successfully handled control * request set the request error code to no * error */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; LOG_INFO("set brightness\n"); break; case UVC_GET_MIN: resp->data[0] = PU_BRIGHTNESS_MIN_VAL; resp->length = 2; /* * For every successfully handled control * request set the request error code to no * error */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = PU_BRIGHTNESS_MAX_VAL; resp->length = 2; /* * For every successfully handled control * request set the request error code to no * error */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->brightness_val, resp->length); /* * For every successfully handled control * request set the request error code to no * error */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: /* * We support Set and Get requests and don't * support async updates on an interrupt endpt */ resp->data[0] = 0x03; resp->length = 1; /* * For every successfully handled control * request, set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = PU_BRIGHTNESS_DEFAULT_VAL; resp->length = 2; /* * For every successfully handled control * request, set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = PU_BRIGHTNESS_STEP_SIZE; resp->length = 2; /* * For every successfully handled control * request, set the request error code to no * error. */ dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: /* * We don't support this control, so STALL the * default control ep. */ resp->length = -EL2HLT; /* * For every unsupported control request * set the request error code to appropriate * code. */ dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_CONTRAST_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: resp->data[0] = PU_CONTRAST_MIN_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = PU_CONTRAST_MAX_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->contrast_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = PU_CONTRAST_DEFAULT_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = PU_CONTRAST_STEP_SIZE; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_HUE_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: resp->data[0] = PU_HUE_MIN_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = PU_HUE_MAX_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->hue_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = PU_HUE_DEFAULT_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = PU_HUE_STEP_SIZE; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_SATURATION_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: resp->data[0] = PU_SATURATION_MIN_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = PU_SATURATION_MAX_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->saturation_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = PU_SATURATION_DEFAULT_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = PU_SATURATION_STEP_SIZE; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_SHARPNESS_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: resp->data[0] = PU_SHARPNESS_MIN_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = PU_SHARPNESS_MAX_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->sharpness_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = PU_SHARPNESS_DEFAULT_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = PU_SHARPNESS_STEP_SIZE; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_GAMMA_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: resp->data[0] = PU_GAMMA_MIN_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = PU_GAMMA_MAX_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->gamma_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = PU_GAMMA_DEFAULT_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = PU_GAMMA_STEP_SIZE; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_WHITE_BALANCE_TEMPERATURE_CONTROL: switch (req) { case UVC_SET_CUR: resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: { int wbt_min = PU_WHITE_BALANCE_TEMPERATURE_MIN_VAL; resp->length = 2; memcpy(&resp->data[0], &wbt_min, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_MAX: { int wbt_max = PU_WHITE_BALANCE_TEMPERATURE_MAX_VAL; resp->length = 2; memcpy(&resp->data[0], &wbt_max, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->white_balance_temperature_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: { int wbt_def = PU_WHITE_BALANCE_TEMPERATURE_DEFAULT_VAL; resp->length = 2; memcpy(&resp->data[0], &wbt_def, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } case UVC_GET_RES: { int wbt_res = PU_WHITE_BALANCE_TEMPERATURE_STEP_SIZE; resp->length = 2; memcpy(&resp->data[0], &wbt_res, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; } default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_WHITE_BALANCE_TEMPERATURE_AUTO_CONTROL: switch (req) { case UVC_SET_CUR: resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 1; resp->data[0] = dev->white_balance_temperature_auto_val; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; break; case UVC_GET_DEF: resp->data[0] = 1; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_GAIN_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: resp->data[0] = PU_GAIN_MIN_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = PU_GAIN_MAX_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->gain_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = PU_GAIN_DEFAULT_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = PU_GAIN_STEP_SIZE; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_HUE_AUTO_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 1; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 1; resp->data[0] = dev->hue_auto_val; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = 1; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_POWER_LINE_FREQUENCY_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 1; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: resp->data[0] = 0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = 2; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = 1; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 1; memcpy(&resp->data[0], &dev->power_line_frequency_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 3; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = 1; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case UVC_PU_DIGITAL_MULTIPLIER_CONTROL: switch (req) { case UVC_SET_CUR: resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: resp->data[0] = PU_DIGITAL_MULTIPLIER_CONTROL_MIN_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: resp->data[0] = PU_DIGITAL_MULTIPLIER_CONTROL_MAX_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = 2; memcpy(&resp->data[0], &dev->zoom_val, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: resp->data[0] = PU_DIGITAL_MULTIPLIER_CONTROL_DEFAULT_VAL; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: resp->data[0] = PU_DIGITAL_MULTIPLIER_CONTROL_STEP_SIZE; resp->length = 2; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; default: LOG_DEBUG("++++++++Processing unit usb default req ,cs:%d", cs); switch (req) { case UVC_GET_LEN: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = sizeof(resp->data); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_SET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: memset(resp->data, 0, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: memset(resp->data, 0xFF, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 1; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; } break; /* Extension unit 'UVC_VC_Extension_Unit'. */ case UVC_CTRL_XU_UNIT_ID: switch (cs) { case CMD_TOOLS_CTRL_1: switch (req) { case UVC_GET_LEN: resp->data[0] = 0x4; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_SET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: memset(resp->data, 0, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: memset(resp->data, 0xFF, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = len < sizeof(dev->ex_tool_ctrl1) ? len : sizeof(dev->ex_tool_ctrl1); memcpy(resp->data, dev->ex_tool_ctrl1, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 1; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case CMD_GET_CAMERA_VERSION: switch (req) { case UVC_GET_LEN: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = sizeof(resp->data); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_SET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: memset(resp->data, 0, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: memset(resp->data, 0xFF, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = len < sizeof(dev->ex_sn_data) ? len : sizeof(dev->ex_sn_data); memcpy(resp->data, dev->ex_sn_data, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 1; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case CMD_SET_CAMERA_IP: switch (req) { case UVC_GET_LEN: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = sizeof(resp->data); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_SET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: memset(resp->data, 0, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: memset(resp->data, 0xFF, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = len < sizeof(dev->ex_ip_data) ? len : sizeof(dev->ex_ip_data); memcpy(resp->data, dev->ex_ip_data, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 1; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; case CMD_SET_H265: switch (req) { case UVC_GET_LEN: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = sizeof(resp->data); resp->length = 4; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_SET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = 4; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: memset(resp->data, 0, sizeof(resp->data)); resp->length = 4; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: memset(resp->data, 0xFF, sizeof(resp->data)); resp->length = 4; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: resp->length = len < sizeof(dev->xu_h265) ? len : sizeof(dev->xu_h265); memcpy(&resp->data[0], &dev->xu_h265, resp->length); dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0; resp->length = 4; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 1; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; default: LOG_DEBUG("+++++++++Extension unit usb default req ,cs:%d", cs); switch (req) { case UVC_GET_LEN: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = sizeof(resp->data); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_SET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MIN: memset(resp->data, 0, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_MAX: memset(resp->data, 0xFF, sizeof(resp->data)); resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_CUR: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0x0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_DEF: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 0; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; case UVC_GET_RES: memset(resp->data, 0, sizeof(resp->data)); resp->data[0] = 1; resp->length = len; dev->request_error_code.data[0] = 0x00; dev->request_error_code.length = 1; break; default: resp->length = -EL2HLT; dev->request_error_code.data[0] = 0x07; dev->request_error_code.length = 1; break; } break; /* * We don't support this control, so STALL the control * ep. resp->length = -EL2HLT; /* * If we were not supposed to handle this * 'cs', prepare a Request Error Code response. dev->request_error_code.data[0] = 0x06; dev->request_error_code.length = 1; break; */ } break; default: /* * If we were not supposed to handle this * 'cs', prepare a Request Error Code response. */ dev->request_error_code.data[0] = 0x06; dev->request_error_code.length = 1; break; } if (resp->length == -EL2HLT) { LOG_DEBUG("unsupported: req=%02x, cs=%d, entity_id=%d, len=%d\n", req, cs, entity_id, len); resp->length = 0; } LOG_DEBUG("control request (req %02x cs %02x)\n", req, cs); } static void uvc_events_process_streaming(struct uvc_device *dev, uint8_t req, uint8_t cs, struct uvc_request_data *resp) { struct uvc_streaming_control *ctrl; LOG_DEBUG("streaming request (req %02x cs %02x)\n", req, cs); if (cs != UVC_VS_PROBE_CONTROL && cs != UVC_VS_COMMIT_CONTROL) return; ctrl = (struct uvc_streaming_control *)&resp->data; resp->length = sizeof *ctrl; switch (req) { case UVC_SET_CUR: dev->control = cs; resp->length = 34; break; case UVC_GET_CUR: if (cs == UVC_VS_PROBE_CONTROL) memcpy(ctrl, &dev->probe, sizeof *ctrl); else memcpy(ctrl, &dev->commit, sizeof *ctrl); #if 1 LOG_DEBUG("bmHint: %u\n", ctrl->bmHint); LOG_DEBUG("bFormatIndex: %u\n", ctrl->bFormatIndex); LOG_DEBUG("bFrameIndex: %u\n", ctrl->bFrameIndex); LOG_DEBUG("dwFrameInterval: %u\n", ctrl->dwFrameInterval); LOG_DEBUG("wKeyFrameRate: %u\n", ctrl->wKeyFrameRate); LOG_DEBUG("wPFrameRate: %u\n", ctrl->wPFrameRate); LOG_DEBUG("wCompQuality: %u\n", ctrl->wCompQuality); LOG_DEBUG("wCompWindowSize: %u\n", ctrl->wCompWindowSize); LOG_DEBUG("wDelay: %u\n", ctrl->wDelay); LOG_DEBUG("dwMaxVideoFrameSize: %u\n", ctrl->dwMaxVideoFrameSize); LOG_DEBUG("dwMaxPayloadTransferSize: %u\n", ctrl->dwMaxPayloadTransferSize); LOG_DEBUG("dwClockFrequency: %u\n", ctrl->dwClockFrequency); LOG_DEBUG("bmFramingInfo: %u\n", ctrl->bmFramingInfo); LOG_DEBUG("bPreferedVersion: %u\n", ctrl->bPreferedVersion); LOG_DEBUG("bMinVersion: %u\n", ctrl->bMinVersion); LOG_DEBUG("bMaxVersion: %u\n", ctrl->bMaxVersion); #endif break; case UVC_GET_MIN: case UVC_GET_MAX: case UVC_GET_DEF: if (req == UVC_GET_MAX) uvc_fill_streaming_control(dev, ctrl, -1, -1, UINT_MAX); else uvc_fill_streaming_control(dev, ctrl, 1, 1, 0); break; case UVC_GET_RES: CLEAR(ctrl); break; case UVC_GET_LEN: resp->data[0] = 0x00; resp->data[1] = 0x22; resp->length = 2; break; case UVC_GET_INFO: resp->data[0] = 0x03; resp->length = 1; break; } } static void uvc_events_process_class(struct uvc_device *dev, struct usb_ctrlrequest *ctrl, struct uvc_request_data *resp) { if ((ctrl->bRequestType & USB_RECIP_MASK) != USB_RECIP_INTERFACE) return; unsigned int interface = ctrl->wIndex & 0xff; if (interface == dev->fc->control.intf.bInterfaceNumber) { uvc_events_process_control(dev, ctrl->bRequest, ctrl->wValue >> 8, ctrl->wIndex >> 8, ctrl->wLength, resp); } else if (interface == dev->fc->streaming.intf.bInterfaceNumber) { uvc_events_process_streaming(dev, ctrl->bRequest, ctrl->wValue >> 8, resp); } } static void uvc_events_process_setup(struct uvc_device *dev, struct usb_ctrlrequest *ctrl, struct uvc_request_data *resp) { dev->control = 0; #ifdef ENABLE_USB_REQUEST_DEBUG LOG_DEBUG("\nbRequestType %02x bRequest %02x wValue %04x wIndex %04x " "wLength %04x\n", ctrl->bRequestType, ctrl->bRequest, ctrl->wValue, ctrl->wIndex, ctrl->wLength); #endif switch (ctrl->bRequestType & USB_TYPE_MASK) { case USB_TYPE_STANDARD: uvc_events_process_standard(dev, ctrl, resp); break; case USB_TYPE_CLASS: uvc_events_process_class(dev, ctrl, resp); break; default: break; } } static int uvc_events_process_control_data(struct uvc_device *dev, uint8_t cs, uint8_t entity_id, struct uvc_request_data *data) { unsigned int *val = (unsigned int *)data->data; LOG_DEBUG(" data = %d, length = %d , current_cs = %d\n", *val, data->length, dev->cs); switch (entity_id) { case 1: switch (cs) { case UVC_CT_EXPOSURE_TIME_ABSOLUTE_CONTROL: if (sizeof(dev->exposure_time_val) >= data->length) { memcpy(&dev->exposure_time_val, data->data, data->length); LOG_INFO("set exposure_time :%d \n", dev->exposure_time_val); camera_pu_control_set(UVC_PU_EXPOSURE_TIME_CONTROL, dev->exposure_time_val); } break; case UVC_CT_IRIS_ABSOLUTE_CONTROL: if (sizeof(dev->iris_val) >= data->length) { memcpy(&dev->iris_val, data->data, data->length); LOG_INFO("set iris value :%d \n", dev->iris_val); } break; case UVC_CT_AE_MODE_CONTROL: if (sizeof(dev->ae_mode_val) >= data->length) { memcpy(&dev->ae_mode_val, data->data, data->length); LOG_INFO("set AE Mode :%d \n", dev->ae_mode_val); camera_pu_control_set(UVC_PU_AE_MODE_CONTROL, dev->ae_mode_val); } break; default: break; } break; /* Processing unit 'UVC_VC_PROCESSING_UNIT'. */ case 2: switch (cs) { case UVC_PU_BRIGHTNESS_CONTROL: if (sizeof(dev->brightness_val) >= data->length) { memcpy(&dev->brightness_val, data->data, data->length); } if (!dev->run_standalone) /* * Try to change the Brightness attribute on * Video capture device. Note that this try may * succeed or end up with some error on the * video capture side. By default to keep tools * like USBCV's UVC test suite happy, we are * maintaining a local copy of the current * brightness value in 'dev->brightness_val' * variable and we return the same value to the * Host on receiving a GET_CUR(BRIGHTNESS) * control request. * * FIXME: Keeping in view the point discussed * above, notice that we ignore the return value * from the function call below. To be strictly * compliant, we should return the same value * accordingly. */ v4l2_set_ctrl(dev->vdev, dev->brightness_val, V4L2_CID_BRIGHTNESS); break; case UVC_PU_CONTRAST_CONTROL: LOG_INFO("UVC_PU_CONTRAST_CONTROL receive\n"); if (sizeof(dev->contrast_val) >= data->length) { memcpy(&dev->contrast_val, data->data, data->length); LOG_INFO("UVC_PU_CONTRAST_CONTROL: 0x%02x 0x%02x\n", data->data[0], data->data[1]); } break; case UVC_PU_HUE_CONTROL: if (sizeof(dev->hue_val) >= data->length) { memcpy(&dev->hue_val, data->data, data->length); } break; case UVC_PU_SATURATION_CONTROL: if (sizeof(dev->saturation_val) >= data->length) { memcpy(&dev->saturation_val, data->data, data->length); } break; case UVC_PU_SHARPNESS_CONTROL: if (sizeof(dev->sharpness_val) >= data->length) memcpy(&dev->sharpness_val, data->data, data->length); break; case UVC_PU_GAMMA_CONTROL: if (sizeof(dev->gamma_val) >= data->length) memcpy(&dev->gamma_val, data->data, data->length); break; case UVC_PU_WHITE_BALANCE_TEMPERATURE_CONTROL: LOG_INFO("UVC_PU_WHITE_BALANCE_TEMPERATURE_CONTROL: 0x%02x 0x%02x\n", data->data[0], data->data[1]); if (sizeof(dev->white_balance_temperature_val) >= data->length) { memcpy(&dev->white_balance_temperature_val, data->data, data->length); } break; case UVC_PU_WHITE_BALANCE_TEMPERATURE_AUTO_CONTROL: LOG_INFO("UVC_PU_WHITE_BALANCE_TEMPERATURE_AUTO_CONTROL: 0x%02x\n", data->data[0]); if (sizeof(dev->white_balance_temperature_auto_val) >= data->length) { memcpy(&dev->white_balance_temperature_auto_val, data->data, data->length); } break; case UVC_PU_GAIN_CONTROL: if (sizeof(dev->gain_val) >= data->length) memcpy(&dev->gain_val, data->data, data->length); break; case UVC_PU_HUE_AUTO_CONTROL: if (sizeof(dev->hue_auto_val) >= data->length) memcpy(&dev->hue_auto_val, data->data, data->length); break; case UVC_PU_POWER_LINE_FREQUENCY_CONTROL: if (sizeof(dev->power_line_frequency_val) >= data->length) { memcpy(&dev->power_line_frequency_val, data->data, data->length); } break; case UVC_PU_DIGITAL_MULTIPLIER_CONTROL: if (sizeof(dev->zoom_val) >= data->length) { memcpy(&dev->zoom_val, data->data, data->length); camera_control_set_zoom(dev->zoom_val); } break; default: break; } camera_pu_control_set(cs, *val); if (uvc_pu_control_cb) uvc_pu_control_cb(cs, *val); break; /* Extension unit 'UVC_VC_Extension_Unit'. */ case 6: switch (cs) { case CMD_TOOLS_CTRL_1: if (sizeof(dev->ex_tool_ctrl1) >= data->length) { memset(dev->ex_tool_ctrl1, 0, sizeof(dev->ex_tool_ctrl1)); memcpy(dev->ex_tool_ctrl1, data->data, data->length); LOG_INFO("Extension:CMD_TOOLS_CTRL_1 set cur data: 0x%02x 0x%02x " "0x%02x 0x%02x\n", data->data[0], data->data[1], data->data[2], data->data[3]); unsigned int command = 0; memcpy(&command, dev->ex_tool_ctrl1, sizeof(command)); if (command == 0xFFFFFFFF) { LOG_INFO("recive host reboot loader cmd"); // system("reboot loader &"); system("touch /tmp/reboot_loader &"); } } break; case CMD_GET_CAMERA_VERSION: if (sizeof(dev->ex_sn_data) >= data->length) { memset(dev->ex_sn_data, 0, sizeof(dev->ex_sn_data)); memcpy(dev->ex_sn_data, data->data, data->length); LOG_INFO("Extension:CMD_GET_CAMERA_VERSION set cur data: 0x%02x 0x%02x " "0x%02x\n", data->data[0], data->data[1], data->data[2]); } break; case CMD_SET_CAMERA_IP: if (sizeof(dev->ex_ip_data) >= data->length) { memcpy(dev->ex_ip_data, data->data, data->length); LOG_INFO("CMD_SET_CAMERA_IP : %d.%d.%d.%d \n", dev->ex_ip_data[0], dev->ex_ip_data[1], dev->ex_ip_data[2], dev->ex_ip_data[3]); update_camera_ip(dev); } break; case CMD_SET_H265: if (sizeof(dev->xu_h265) >= data->length) { memcpy(&dev->xu_h265, data->data, data->length); LOG_INFO("Extension: CMD_SET_H265 set cur data: %d\n", dev->xu_h265); } break; default: break; } break; default: break; } LOG_DEBUG("Control Request data phase (cs %02x data %d entity %02x)\n", cs, *val, entity_id); return 0; } static int uvc_events_process_data(struct uvc_device *dev, struct uvc_request_data *data) { struct uvc_streaming_control *target; struct uvc_streaming_control *ctrl; struct v4l2_format fmt; int ret = 0; if (dev->usb_state == USB_STATE_INIT) { dev->usb_state = USB_STATE_FIRST_CMD; struct timespec now_tm = {0, 0}; clock_gettime(CLOCK_MONOTONIC, &now_tm); dev->first_cmd_pts = now_tm.tv_sec * 1000000LL + now_tm.tv_nsec / 1000; // us } switch (dev->control) { case UVC_VS_PROBE_CONTROL: LOG_DEBUG("setting probe control, length = %d\n", data->length); target = &dev->probe; break; case UVC_VS_COMMIT_CONTROL: LOG_DEBUG("setting commit control, length = %d\n", data->length); target = &dev->commit; break; default: LOG_DEBUG("setting process control, length = %d\n", data->length); LOG_DEBUG("cs: %u, entity_id: %u\n", dev->cs, dev->entity_id); ret = uvc_events_process_control_data(dev, dev->cs, dev->entity_id, data); if (ret < 0) goto err; return 0; } ctrl = (struct uvc_streaming_control *)&data->data; if (dev->control == UVC_VS_PROBE_CONTROL) { #if 1 LOG_DEBUG("host probe want ++++vs config:\n"); LOG_DEBUG("bmHint: %u\n", ctrl->bmHint); LOG_DEBUG("bFormatIndex: %u\n", ctrl->bFormatIndex); LOG_DEBUG("bFrameIndex: %u\n", ctrl->bFrameIndex); LOG_DEBUG("dwFrameInterval: %u\n", ctrl->dwFrameInterval); LOG_DEBUG("wKeyFrameRate: %u\n", ctrl->wKeyFrameRate); LOG_DEBUG("wPFrameRate: %u\n", ctrl->wPFrameRate); LOG_DEBUG("wCompQuality: %u\n", ctrl->wCompQuality); LOG_DEBUG("wCompWindowSize: %u\n", ctrl->wCompWindowSize); LOG_DEBUG("wDelay: %u\n", ctrl->wDelay); LOG_DEBUG("dwMaxVideoFrameSize: %u\n", ctrl->dwMaxVideoFrameSize); LOG_DEBUG("dwMaxPayloadTransferSize: %u\n", ctrl->dwMaxPayloadTransferSize); LOG_DEBUG("dwClockFrequency: %u\n", ctrl->dwClockFrequency); LOG_DEBUG("bmFramingInfo: %u\n", ctrl->bmFramingInfo); LOG_DEBUG("bPreferedVersion: %u\n", ctrl->bPreferedVersion); LOG_DEBUG("bMinVersion: %u\n", ctrl->bMinVersion); LOG_DEBUG("bMaxVersion: %u\n", ctrl->bMaxVersion); #endif } uvc_fill_streaming_control(dev, target, ctrl->bFormatIndex, ctrl->bFrameIndex, ctrl->dwFrameInterval); dev->fps = 10000000 / target->dwFrameInterval; // uvc_control_config(dev); if (dev->control == UVC_VS_COMMIT_CONTROL) { if (uvc_video_get_uvc_process(dev->video_id)) return 0; uvc_control_config(dev); /* * Try to set the default format at the V4L2 video capture * device as requested by the user. */ CLEAR(fmt); fmt.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; fmt.fmt.pix.field = V4L2_FIELD_ANY; fmt.fmt.pix.width = dev->width; fmt.fmt.pix.height = dev->height; fmt.fmt.pix.pixelformat = dev->fcc; switch (dev->fcc) { case V4L2_PIX_FMT_YUYV: case V4L2_PIX_FMT_NV12: fmt.fmt.pix.sizeimage = (fmt.fmt.pix.width * fmt.fmt.pix.height * 2); break; case V4L2_PIX_FMT_MJPEG: fmt.fmt.pix.sizeimage = (fmt.fmt.pix.width * fmt.fmt.pix.height); break; case V4L2_PIX_FMT_H264: case V4L2_PIX_FMT_H265: #ifdef RK_ENABLE_FASTBOOT fmt.fmt.pix.sizeimage = (fmt.fmt.pix.width * fmt.fmt.pix.height) / 2; #else fmt.fmt.pix.sizeimage = (fmt.fmt.pix.width * fmt.fmt.pix.height); #endif break; } uvc_set_user_resolution(fmt.fmt.pix.width, fmt.fmt.pix.height, dev->video_id); uvc_set_user_fcc(fmt.fmt.pix.pixelformat, dev->video_id); if (uvc_buffer_init(dev)) goto err; /* * As per the new commit command received from the UVC host * change the current format selection at both UVC and V4L2 * sides. */ ret = uvc_video_set_format(dev); if (ret < 0) goto err; if (!dev->run_standalone) { /* UVC - V4L2 integrated path. */ ret = v4l2_set_format(dev->vdev, &fmt); if (ret < 0) goto err; } if (dev->bulk) { ret = uvc_handle_streamon_event(dev); if (ret < 0) goto err; } } return 0; err: return ret; } static void uvc_events_process(struct uvc_device *dev) { struct v4l2_event v4l2_event; struct uvc_event *uvc_event = (void *)&v4l2_event.u.data; struct uvc_request_data resp; int ret = 0; ret = ioctl(dev->uvc_fd, VIDIOC_DQEVENT, &v4l2_event); if (ret < 0) { LOG_ERROR("VIDIOC_DQEVENT failed: %s (%d)\n", strerror(errno), errno); return; } memset(&resp, 0, sizeof resp); resp.length = -EL2HLT; switch (v4l2_event.type) { case UVC_EVENT_CONNECT: return; case UVC_EVENT_DISCONNECT: dev->uvc_shutdown_requested = 1; LOG_DEBUG("UVC: Possible USB shutdown requested from " "Host, seen via UVC_EVENT_DISCONNECT \n"); return; case UVC_EVENT_SETUP: LOG_DEBUG("uvc_events_process:UVC_EVENT_SETUP \n"); if (dev->suspend) { dev->suspend = 0; set_uvc_control_suspend(0); } uvc_events_process_setup(dev, &uvc_event->req, &resp); break; case UVC_EVENT_DATA: LOG_DEBUG("uvc_events_process:UVC_EVENT_DATA \n"); ret = uvc_events_process_data(dev, &uvc_event->data); if (ret < 0) break; return; case UVC_EVENT_STREAMON: LOG_INFO("uvc_events_process:UVC_EVENT_STREAMON dev->io=%d dev->bulk:%d, " "video_id:%d\n", dev->io, dev->bulk, dev->video_id); #ifdef ENABLE_BUFFER_TIME_DEBUG struct timeval buffer_time; gettimeofday(&buffer_time, NULL); LOG_ERROR("UVC STREAMON START TIME:%d.%d (us)", buffer_time.tv_sec, buffer_time.tv_usec); #endif if (!dev->bulk) uvc_handle_streamon_event(dev); dev->drop_count = 0; dev->get_buf_count = 0; dev->qbuf_count = 0; dev->dqbuf_count = 0; dev->try_count = 0; dev->usb_state = USB_STATE_FIRST_GET_READY; struct timespec now_tm = {0, 0}; clock_gettime(CLOCK_MONOTONIC, &now_tm); dev->stream_on_pts = now_tm.tv_sec * 1000000LL + now_tm.tv_nsec / 1000; // us #if UVC_DYNAMIC_DEBUG_FPS uvc_debug_info.stream_on_pts = dev->stream_on_pts; uvc_debug_info.first_frm = true; gettimeofday(&uvc_debug_info.enter_time, NULL); #endif return; case UVC_EVENT_STREAMOFF: LOG_INFO("uvc_events_process:UVC_EVENT_STREAMOFF enter\n"); uvc_control_streamoff(dev->video_id); // uvc_buffer_deinit(dev->video_id); // sleep(1); /* Stop V4L2 streaming... */ if (!dev->run_standalone && dev->vdev->is_streaming) { /* UVC - V4L2 integrated path. */ v4l2_stop_capturing(dev->vdev); v4l2_uninit_device(dev->vdev); v4l2_reqbufs(dev->vdev, 0); dev->vdev->is_streaming = 0; } set_uvc_control_stop(dev->video_id); /* ... and now UVC streaming.. */ if (dev->is_streaming) { uvc_video_stream(dev, 0); uvc_uninit_device(dev); uvc_video_reqbufs(dev, 0); dev->is_streaming = 0; dev->first_buffer_queued = 0; } dev->usb_state = USB_STATE_INIT; LOG_INFO("UVC_EVENT_STREAMOFF exit\n"); return; case UVC_EVENT_RESUME: LOG_INFO("UVC_EVENT_RESUME:\n"); if (dev->suspend) { dev->suspend = 0; set_uvc_control_suspend(0); } return; case UVC_EVENT_SUSPEND: LOG_INFO("UVC_EVENT_SUSPEND\n"); set_uvc_control_suspend(1); dev->suspend = 1; return; } ret = ioctl(dev->uvc_fd, UVCIOC_SEND_RESPONSE, &resp); if (ret < 0) { LOG_ERROR("UVCIOC_S_EVENT failed: %s (%d)\n", strerror(errno), errno); return; } } static void uvc_events_init(struct uvc_device *dev) { struct v4l2_event_subscription sub; unsigned int payload_size; switch (dev->fcc) { case V4L2_PIX_FMT_YUYV: case V4L2_PIX_FMT_NV12: payload_size = dev->width * dev->height * 2; break; case V4L2_PIX_FMT_MJPEG: case V4L2_PIX_FMT_H264: case V4L2_PIX_FMT_H265: payload_size = dev->imgsize; break; default: return; } uvc_fill_streaming_control(dev, &dev->probe, 1, 1, 0); uvc_fill_streaming_control(dev, &dev->commit, 1, 1, 0); if (dev->bulk) { /* FIXME Crude hack, must be negotiated with the driver. */ dev->probe.dwMaxPayloadTransferSize = dev->commit.dwMaxPayloadTransferSize = payload_size; } memset(&sub, 0, sizeof sub); sub.type = UVC_EVENT_SETUP; ioctl(dev->uvc_fd, VIDIOC_SUBSCRIBE_EVENT, &sub); sub.type = UVC_EVENT_DATA; ioctl(dev->uvc_fd, VIDIOC_SUBSCRIBE_EVENT, &sub); sub.type = UVC_EVENT_STREAMON; ioctl(dev->uvc_fd, VIDIOC_SUBSCRIBE_EVENT, &sub); sub.type = UVC_EVENT_STREAMOFF; ioctl(dev->uvc_fd, VIDIOC_SUBSCRIBE_EVENT, &sub); sub.type = UVC_EVENT_RESUME; ioctl(dev->uvc_fd, VIDIOC_SUBSCRIBE_EVENT, &sub); sub.type = UVC_EVENT_SUSPEND; ioctl(dev->uvc_fd, VIDIOC_SUBSCRIBE_EVENT, &sub); } /* --------------------------------------------------------------------------- * main */ static void image_load(struct uvc_device *dev, const char *img) { int fd = -1; if (img == NULL) return; fd = open(img, O_RDONLY); if (fd == -1) { LOG_ERROR("Unable to open MJPEG image '%s'\n", img); return; } dev->imgsize = lseek(fd, 0, SEEK_END); lseek(fd, 0, SEEK_SET); dev->imgdata = malloc(dev->imgsize); if (dev->imgdata == NULL) { LOG_ERROR("Unable to allocate memory for MJPEG image\n"); dev->imgsize = 0; return; } read(fd, dev->imgdata, dev->imgsize); close(fd); } extern int app_quit; int uvc_gadget_main(struct uvc_function_config *fc) { struct uvc_device *udev = NULL; struct v4l2_device *vdev; struct timeval tv; struct v4l2_format fmt; char uvc_devname[32] = {0}; char *v4l2_devname = "/dev/video0"; char *mjpeg_image = NULL; fd_set fdsv, fdsu; int ret, nfds; int bulk_mode = 0; int dummy_data_gen_mode = 1; /* Frame format/resolution related params. */ int default_format = 1; int default_resolution = 1; /* USB speed related params */ int mult = 0; int burst = 0; enum usb_device_speed speed = USB_SPEED_HIGH; /* High-Speed 1109 is usb 2.0*/ #if (UVC_IO_METHOD == UVC_IO_METHOD_MMAP) enum io_method uvc_io_method = IO_METHOD_MMAP; #elif (UVC_IO_METHOD == UVC_IO_METHOD_USERPTR) enum io_method uvc_io_method = IO_METHOD_USERPTR; #else enum io_method uvc_io_method = IO_METHOD_DMA_BUFF; #endif int id = fc->video; snprintf(uvc_devname, sizeof(uvc_devname), "/dev/video%d", id); /* Open the UVC device. */ ret = uvc_open(&udev, uvc_devname); if (udev == NULL || ret < 0) return 1; udev->uvc_devname = uvc_devname; udev->video_id = id; udev->fc = fc; /* Set parameters as passed by user. */ udev->width = (default_resolution == 0) ? 640 : 1280; udev->height = (default_resolution == 0) ? 480 : 720; udev->imgsize = (default_format == 0) ? (udev->width * udev->height * 2) : (udev->width * udev->height); switch (default_format) { case 1: udev->fcc = V4L2_PIX_FMT_MJPEG; break; case 2: udev->fcc = V4L2_PIX_FMT_H264; break; case 3: udev->fcc = V4L2_PIX_FMT_H265; break; case 0: default: udev->fcc = V4L2_PIX_FMT_YUYV; break; } uvc_set_user_fcc(udev->fcc, udev->video_id); udev->io = uvc_io_method; udev->bulk = bulk_mode; udev->nbufs = 0; udev->mult = mult; udev->burst = burst; udev->speed = speed; udev->control = 0; if (dummy_data_gen_mode || mjpeg_image) /* UVC standalone setup. */ udev->run_standalone = 1; switch (speed) { case USB_SPEED_FULL: /* Full Speed. */ if (bulk_mode) udev->maxpkt = 64; else udev->maxpkt = 1023; break; case USB_SPEED_HIGH: /* High Speed. */ if (bulk_mode) udev->maxpkt = 512; else udev->maxpkt = 1024; break; case USB_SPEED_SUPER: default: /* Super Speed. */ if (bulk_mode) udev->maxpkt = 1024; else udev->maxpkt = 1024; break; } if (mjpeg_image) image_load(udev, mjpeg_image); /* Init UVC events. */ uvc_events_init(udev); uvc_set_user_run_state(true, udev->video_id); while (uvc_get_user_run_state(udev->video_id)) { FD_ZERO(&fdsu); /* We want both setup and data events on UVC interface.. */ FD_SET(udev->uvc_fd, &fdsu); fd_set efds = fdsu; fd_set dfds = fdsu; /* Timeout. */ tv.tv_sec = 5; tv.tv_usec = 0; ret = select(udev->uvc_fd + 1, NULL, &dfds, &efds, &tv); if (-1 == ret) { LOG_ERROR("select error %d, %s\n", errno, strerror(errno)); if (EINTR == errno) continue; break; } if (0 == ret) { if (udev->bulk) continue; LOG_ERROR("select timeout\n"); if (!access("/tmp/uvc_no_timeout", 0)) continue; break; } if (app_quit) { LOG_ERROR("app quit=%d...\n", app_quit); if (3 == app_quit) { uvc_control_inbuf_deinit(); break; app_quit = 0; } else break; } if (FD_ISSET(udev->uvc_fd, &efds)) uvc_events_process(udev); if (FD_ISSET(udev->uvc_fd, &dfds)) uvc_video_process(udev); } set_uvc_control_stop(id); if (udev->is_streaming) { /* ... and now UVC streaming.. */ uvc_video_stream(udev, 0); uvc_uninit_device(udev); uvc_video_reqbufs(udev, 0); udev->is_streaming = 0; } uvc_control_streamoff(id); uvc_control_delete(id); uvc_close(udev); set_uvc_control_restart(); LOG_INFO("uvc_gadget_main exit"); return 0; }