Hi Jerry, On Mon, Jun 24, 2019 at 11:22 PM Jerry-ch Chen <Jerry-ch.Chen@xxxxxxxxxxxx> wrote: > > Hi Tomasz, > > On Thu, 2019-06-06 at 18:43 +0800, Tomasz Figa wrote: > > Hi Jerry, > > > > On Tue, Apr 23, 2019 at 06:45:05PM +0800, Jerry-ch Chen wrote: > > > From: Jerry-ch Chen <jerry-ch.chen@xxxxxxxxxxxx> > > > > > > This patch adds the driver of Face Detection (FD) unit in > > > Mediatek camera system, providing face detection function. > > > > > > The mtk-isp directory will contain drivers for multiple IP > > > blocks found in Mediatek ISP system. It will include ISP Pass 1 > > > driver (CAM), sensor interface driver, DIP driver and face > > > detection driver. > > > > > > > Thanks for the patch. > > > > First of all a general comment about the design: > > > > My understanding is that this is a relatively straightforward > > memory-to-memory device that reads a video frame and detects faces on it. > > Such devices should be implemented as normal V4L2 memory-to-memory devices, > > with contexts (instances; pipes) represented by v4l2_fh. > > > > Also, please replace the META_OUTPUT queue with proper V4L2 controls, as I > > don't think there is anything that we couldn't model using controls here. > > > > The end result should be a V4L2 m2m driver (using the m2m helpers), where > > you get a new context (instance; pipe) whenever you open the video node, > > similar to codecs, video processors (like MTK MDP) and so on. > > > > Also please see my comments inline. > > > I appreciate your comments, > sorry for sending the previous two unfinished mail... > > FD driver will be implemented as a normal V4L2 m2m driver which has an > IMAGE_OUTPUT queue and a META_CAPTURE queue(face result). > > We will use the following properties. > /* Is a video mem-to-mem device that supports multiplanar formats */ > #define V4L2_CAP_VIDEO_M2M_MPLANE 0x00004000 > > The original META_OUTPUT queue contains the following structure will be > replaced by V4L2 controls, > > /* FD_SCALE_NUM is 15. */ > struct fd_user_param { > uint8_t rip_feature; > uint8_t gfd_skip; > uint8_t dynamic_change_model; > uint8_t scale_num_from_user; > uint16_t source_img_width[FD_SCALE_NUM]; > uint16_t source_img_height[FD_SCALE_NUM]; > } __packed; //share with co-processor > > However, we found that testM2MFormats() in the V4L2 compliance test will > assume the capture queue has the same format as output queue has, > therefore, FD driver's capture queue wouldn't be able to use META format > or the v4l2 test will be failed. > > reference: v4l2-compliance/v4l2-test-formats.cpp > // m2m devices are special in that the format is often per-filehandle. > // But colorspace information should be passed from output to capture, > // so test that. > if (node->is_m2m) > return testM2MFormats(node); > > May we ask for your suggestions about this part? > Ah, I didn't mean mem-to-mem device specifically as per V4L2_CAP_VIDEO_M2M_MPLANE, because that one implies the regular VIDEO_OUTPUT -> VIDEO_CAPTURE processing indeed. We should expose just VIDEO_OUTPUT_MPLANE and META_CAPTURE in the capabilities, but all the rest would still behave like a mem-to-mem device, i.e. v4l2_fh for contexts/instances, v4l2_m2m helpers and so on. [snip] > > > + > > > + return 0; > > > +} > > > + > > > +static int mtk_fd_suspend(struct device *dev) > > > +{ > > > + struct mtk_fd_dev *fd_dev; > > > + int ret; > > > + > > > + if (pm_runtime_suspended(dev)) > > > + return 0; > > > + > > > + fd_dev = dev_get_drvdata(dev); > > > + > > > + if (atomic_read(&fd_dev->fd_hw.fd_user_cnt) > 0) { > > > + ret = pm_runtime_put_sync(fd_dev->fd_hw.larb_dev); > > > + clk_disable_unprepare(fd_dev->fd_hw.fd_clk); > > > + return ret; > > > + } > > > > This isn't going to work, because the hardware may be still processing a > > frame at this point. You need a way to ensure that the hardware goes idle > > here first and then in resume, you need to make the hardware continue when > > it left before suspend. > > > For this part, I would like to do as following: > when suspend, it should set the driver power state as idle or suspended > to stop further enqueue jobs, should be judged in mtk_fd_hw_job_exec() > or somewhere, then wait for the unfinished job return or timeout, and > finally close the clock. > When resume, we set the driver power state as resumed and let the new > jobs to be enqueued. > > Or another way is to create a wait queue or work queue to store the jobs > from user. When suspend, we change the driver status to restrict the new > jobs joining to work queue and close the clock. When resume, driver > continue execute the jobs from the work queue. > I wouldn't introduce a workqueue only for handling suspend/resume. If we end up in a need to use a workqueue for some other purposes too, then a freezable workqueue could work for blocking further requests during suspend indeed. If we don't need a workqueue for anything else, then a simple boolean flag set and wait for last job to finish in suspend and flag reset and call to schedule a next job in resume should be good enough. Best regards, Tomasz