Hi Dafna and Tomasz, On Wed, Jul 22, 2020 at 03:24:59PM +0000, Tomasz Figa wrote: > On Sat, Jul 11, 2020 at 01:04:31PM +0200, Dafna Hirschfeld wrote: > > On 16.08.19 02:13, Laurent Pinchart wrote: > > > On Tue, Jul 30, 2019 at 03:42:47PM -0300, Helen Koike wrote: > > [snip] > > > > > +static void rkisp1_isp_queue_event_sof(struct rkisp1_isp_subdev *isp) > > > > +{ > > > > + struct v4l2_event event = { > > > > + .type = V4L2_EVENT_FRAME_SYNC, > > > > + .u.frame_sync.frame_sequence = > > > > + atomic_inc_return(&isp->frm_sync_seq) - 1, > > > > > > I would move the increment to the caller, hiding it in this function is > > > error-prone (and if you look at the caller I'm pointing out one possible > > > error :-)). > > > > > > In general usage of frm_sync_seq through the driver seems to be very > > > race-prone. It's read in various IRQ handling functions, all coming from > > > the same IRQ, so that part is fine (and wouldn't require an atomic > > > variable), but when read from the buffer queue handlers I really get a > > > red light flashing in my head. I'll try to investigate more when > > > reviewing the next patches. > > > > I see that the only place were 'frame_sequence' is read outside of the irq > > handlers is in the capture in 'rkisp1_vb2_buf_queue': > > > > /* > > * If there's no next buffer assigned, queue this buffer directly > > * as the next buffer, and update the memory interface. > > */ > > if (cap->is_streaming && !cap->buf.next && > > atomic_read(&cap->rkisp1->isp.frame_sequence) == -1) { > > cap->buf.next = ispbuf; > > rkisp1_set_next_buf(cap); > > } else { > > list_add_tail(&ispbuf->queue, &cap->buf.queue); > > } > > > > This "if" condition seems very specific, a case where we already stream but v-start was not yet received. > > I think it is possible to remove the test 'atomic_read(&cap->rkisp1->isp.frame_sequence) == -1' > > from the above condition so that the next buffer is updated in case it is null not just before the first > > v-start signal. > > We don't have this special case in the Chrome OS code. > > I suppose it would make it possible to resume the capture 1 frame > earlier after a queue underrun, as otherwise the new buffer would be > only programmed after the next frame start interrupt and used for the > next-next frame. However, it's racy, because programming of the buffer > addresses is not atomic and could end up with the hardware using few > plane addresses from the new buffer and few from the dummy buffer. > > Given that and also the fact that a queue underrun is a very special > case, where the system was already having problems catching up, I'd just > remove this special case. > > [snip] > > > > > +void rkisp1_isp_isr(unsigned int isp_mis, struct rkisp1_device *dev) > > > > +{ > > > > + void __iomem *base = dev->base_addr; > > > > + unsigned int isp_mis_tmp = 0; > > > > > > _tmp are never good names :-S > > > > > > > + unsigned int isp_err = 0; > > > > > > Neither of these variable need to be initialised to 0. > > > > > > > + > > > > + /* start edge of v_sync */ > > > > + if (isp_mis & CIF_ISP_V_START) { > > > > + rkisp1_isp_queue_event_sof(&dev->isp_sdev); > > > > > > This will increment the frame sequence number. What if the interrupt is > > > slightly delayed and the next frame starts before we get a change to > > > copy the sequence number to the buffers (before they will complete > > > below) ? > > > > Do you mean that we get two sequental v-start signals and then the next > > frame-end signal in MI_MIS belongs to the first v-start signal of the two? > > How can this be solved? I wonder if any v-start signal has a later signal > > that correspond to the same frame so that we can follow it? > > > > Maybe we should have one counter that is incremented on v-start signal, > > and another counter that is incremented uppon some other signal? > > We're talking about a hard IRQ. I can't imagine the interrupt handler > being delayed for a time close to a full frame interval (~16ms for 60 > fps) to trigger such scenario. I've been burnt too many times by making such statements and then seeing a wifi driver disablign interrupts for 40ms... :-S We can only perform as well as the system and the hardware allow us to, I understand we can't solve all issues related to long interrupt delays as that would require more hardware support. I'm not sure what an appropriate best effort level is though. > > > > + > > > > + writel(CIF_ISP_V_START, base + CIF_ISP_ICR); > > > > > > Do you need to clear all interrupt bits individually, can't you write > > > isp_mis to CIF_ISP_ICR at the beginning of the function to clear them > > > all in one go ? > > > > > > > + isp_mis_tmp = readl(base + CIF_ISP_MIS); > > > > + if (isp_mis_tmp & CIF_ISP_V_START) > > > > + v4l2_err(&dev->v4l2_dev, "isp icr v_statr err: 0x%x\n", > > > > + isp_mis_tmp); > > > > > > This require some explanation. It looks like a naive way to protect > > > against something, but I think it could trigger under normal > > > circumstances if IRQ handling is delayed, and wouldn't do much anyway. > > > Same for the similar constructs below. > > > > > > > + } > > > > + > > > > + if ((isp_mis & CIF_ISP_PIC_SIZE_ERROR)) { > > > > + /* Clear pic_size_error */ > > > > + writel(CIF_ISP_PIC_SIZE_ERROR, base + CIF_ISP_ICR); > > > > + isp_err = readl(base + CIF_ISP_ERR); > > > > + v4l2_err(&dev->v4l2_dev, > > > > + "CIF_ISP_PIC_SIZE_ERROR (0x%08x)", isp_err); > > > > > > What does this mean ? > > > > > > > + writel(isp_err, base + CIF_ISP_ERR_CLR); > > > > + } else if ((isp_mis & CIF_ISP_DATA_LOSS)) { > > > > > > Are CIF_ISP_PIC_SIZE_ERROR and CIF_ISP_DATA_LOSS mutually exclusive ? > > > > > > > + /* Clear data_loss */ > > > > + writel(CIF_ISP_DATA_LOSS, base + CIF_ISP_ICR); > > > > + v4l2_err(&dev->v4l2_dev, "CIF_ISP_DATA_LOSS\n"); > > > > + writel(CIF_ISP_DATA_LOSS, base + CIF_ISP_ICR); > > > > + } > > > > + > > > > + /* sampled input frame is complete */ > > > > + if (isp_mis & CIF_ISP_FRAME_IN) { > > > > + writel(CIF_ISP_FRAME_IN, base + CIF_ISP_ICR); > > > > + isp_mis_tmp = readl(base + CIF_ISP_MIS); > > > > + if (isp_mis_tmp & CIF_ISP_FRAME_IN) > > > > + v4l2_err(&dev->v4l2_dev, "isp icr frame_in err: 0x%x\n", > > > > + isp_mis_tmp); > > > > + } > > > > + > > > > + /* frame was completely put out */ > > > > > > "put out" ? :-) What's the difference between ISP_FRAME_IN and ISP_FRAME > > > ? The two comments could do with a bit of brush up, and I think the > > > ISP_FRAME_IN interrupt could be disabled as it doesn't perform any > > > action. > > > > Those two oneline comments are just copy-paste from the datasheet. > > > > "" > > 5 MIS_FRAME_IN sampled input frame is complete > > 1 MIS_FRAME frame was completely put out > > "" > > > > Unfrotunately, the datasheet does not add any further explanation about those signals. > > My loose recollection is that the former is signaled when then frame > is fully input to the ISP and the latter when the ISP completes > outputting the frame to the next block in the pipeline, but someone > would need to verify this, for example by printing timestamps for all > the various interrupts. > > > > > > > > + if (isp_mis & CIF_ISP_FRAME) { > > > > + u32 isp_ris = 0; > > > > > > No need to initialise this to 0. > > > > > > > + /* Clear Frame In (ISP) */ > > > > + writel(CIF_ISP_FRAME, base + CIF_ISP_ICR); > > > > + isp_mis_tmp = readl(base + CIF_ISP_MIS); > > > > + if (isp_mis_tmp & CIF_ISP_FRAME) > > > > + v4l2_err(&dev->v4l2_dev, > > > > + "isp icr frame end err: 0x%x\n", isp_mis_tmp); > > > > + > > > > + isp_ris = readl(base + CIF_ISP_RIS); > > > > + if (isp_ris & (CIF_ISP_AWB_DONE | CIF_ISP_AFM_FIN | > > > > + CIF_ISP_EXP_END | CIF_ISP_HIST_MEASURE_RDY)) > > > > + rkisp1_stats_isr(&dev->stats_vdev, isp_ris); > > > > > > Is there a guarantee that the statistics will be fully written out > > > before the video frame itself ? And doesn't this test if any of the > > > statistics is complete, not all of them ? I think the logic is wrong, it > > > > The datasheet does not add any explanation of what is expected to come first. > > Should we wait until all statistics measurements are done? In the struct > > sent to userspace there is a bitmaks for which of the statistics are read. > > I think that if only part of the statistics are ready, we can already send the once > > that are ready to userspace. > > If we look further into the code, rkisp1_stats_isr() checks the > interrupt status mask passed to it and reads out only the parameters > with indicated completion. The statistics metadata buffer format > includes a bit mask which tells the userspace which measurements are > available. > > However, I think I've spotted a bug there. At the beginning of > rkisp1_stats_isr(), all the 4 interrupt status bits are cleared, > regardless of the mask used later to decide which readouts need to be > done. This could mean that with an unfortunate timing, some measurements > would be lost. So at least the code should be fixed to only clear the > interrupts bits really handled. > > As for whether to send separate buffers for each measurement, I guess > it's not a bad thing to let the userspace access the ones available > earlier. Now I only don't recall why we decided to put all the > measurements into one metadata structure, rather than splitting the 4 > into their own structures and buffer queues... > > > > seems it should be moved out of the CIF_ISP_FRAME test, to a test of its > > > own. It's hard to tell for sure without extra information though (for > > > instance why are the stats-related bits read from CIF_ISP_RIS, when > > > they seem to be documented as valid in CIF_ISP_ISR), but this should be > > > validated, and most probably fixed. Care should be taken to keep > > > synchronisation of sequence number between the different queues. > > > > I see that the capture buffers are done before incrementing the frame_sequence with > > the following explanation: > > > > /* > > * Call rkisp1_capture_isr() first to handle the frame that > > * potentially completed using the current frame_sequence number before > > * it is potentially incremented by rkisp1_isp_isr() in the vertical > > * sync. > > */ > > > > I think reading the stats/params should also be done before calling rkisp1_capture_isr > > for the same reason. (so to match the correct frame_sequence) > > My recollection of the sequence of interrupts in this hardware is like > this: > > CIF_ISP_V_START (frame 0) > CIF_ISP_FRAME_IN (frame 0) > CIF_ISP_FRAME (frame 0) > CIF_ISP_AWB_DONE > CIF_ISP_AFM_FIN > CIF_ISP_EXP_END > CIF_ISP_HIST_MEASURE_RDY > CIF_MI_FRAME* > CIF_ISP_V_START (frame 1) > CIF_ISP_FRAME_IN (frame 1) > CIF_ISP_FRAME (frame 1) > ... > > where the interrupts at the same indentation level can happen > independently of each other. Again, someone would have to verify this. -- Regards, Laurent Pinchart