Hi all,so I have good news. With the help of one of the pinetab developers, I finally managed to get a working DT together. I did not realize I had to use another clock to drive it, but the rest of the DT was already ok.
While I played around with the IMX driver trying to improve it, I finally went back to the current mainline branch version testing it with the rkisp1 and - voila! - the large 13M res does not work, but the 1920x1080 worked out immediately, using the pure command-line config of media-ctl and video-ctl - the libcamera refuses operation due to the missing database info and the lack of certain caps in the driver.
There are a few things on my list though and I wanted to hear your thoughts before I move on now.
1) First of all, the image seems to be very badly balanced in terms of color and brightness. I assume it has to do with not properly adjusting parameters of the camera. I did not play around with it, as I have no graphical user interface on the board - it would make more sense I do that once I am able to visualize changes in real-time. @Ricardo, would you be willing to review changes I do to the IMX214 driver in the kernel based on the application guide I shared earlier? As I'm not a driver guy AT ALL, fixing things for me might break things for others, and I don't know how to verify that without having anyone else to check (I mean, do more than just code review, probably).
2) The DT overlay - it is nice that I have it now, but I had to put everything together myself - should I contribute it into mainline (or armbian), does that make sense and what is the procedure?
3) I don't have any other camera to work with, as I just ordered FPC FCC pinouts for 24-pin cams and have to rewire/solder a converter for the RockPro64. That might happen as soon as I get them from China - no Amazon or anything available right now. Still the DT seems to be the most valuable part of all of this right now.
4) The libcamera fix - I saw lc_compliance and gst-video work already after a few minor copy/paste fixes, but by pulling the driver from mainline broke it again expectedly. What's the plausible roadmap? Fixing libcamera alone resorts to fixing 10 lines of code probably, but that does not make sense without fixing the IMX214 driver in the kernel first, right?
Best Clemens Am 28.02.22 um 09:15 schrieb Ricardo Ribalda Delgado:
On Sun, Feb 27, 2022 at 5:50 PM Clemens Arth <clemens.arth@xxxxxxxxx> wrote:Hi, so I moved on with some tests and trying to fix the driver and the current libcamera version. The driver has still wrong registers I guess, but I can fix them later. Here's the output of v4l-ctl https://pastebin.com/ZkMZ1mjJ which looks kind of ok to me. However what does absolutely make no sense to me is the output of the gst-launcher, which also makes lc_compliance go totally crazy at some point: https://pastebin.com/6MdFL5BL Although I dived through a large number of drivers, I did not get how to set the available formats. While Ricardo included 2 formats, there are obviously 6 or so according to the documentation, however, how are those defined such that they show up correctly there? It's clear to me that the available formats should be defined first, before moving on to getting something out from the device, right? Is this a part of the libcamera part or the driver?I had limited access to the doc, so most of the register setting come from comparing with other sensors and from 3rd party drivers (nvidia kernel) Also my isp only supported the 2 formats that I added support to.I had to add quite a bunch of controls to the driver, and without checking the i2c communication in detail, there are at least no errors when I do v4l2-ctl -d /dev/v4l-subdev3 --set-ctrl "test_pattern=2" So I suspect that this actually works as expected... Best Clemens Am 25.02.22 um 08:37 schrieb Ricardo Ribalda Delgado:Hi I think Heiko and Kieran have already given you a lot of clues. I would recommend to start looking at i2c communication with i2c tools: i2cget, i2set, i2cdetect.... before trying any video operation. Your life will be much easier if you get your hands into a logic analyser like this one https://www.saleae.com/ Regarding the i2c address, bear in mind that vendors and Linux might use different nomenclature (7 bits to 8 bits). Good luck! On Thu, Feb 24, 2022 at 6:03 PM Heiko Stuebner <heiko@xxxxxxxxx> wrote:Am Donnerstag, 24. Februar 2022, 16:10:06 CET schrieb Clemens Arth:Hi Kieran, Thx, I’m on my mobile now so I hope copy pasting works… apologies for typos… Kieran Bingham <kieran.bingham@xxxxxxxxxxxxxxxx> schrieb am Do. 24. Feb. 2022 um 13:49:Hi Clemens, Quoting Clemens Arth (2022-02-23 18:36:28)Hi everyone, + Ricardo and Heiko in CC as the driver originators and rockchip pros... I'm reaching out to you based on a discussion with Sebastian Fricke, who was working on the OV13850 driver for the v5 kernel. I tried getting the IMX214 finally to work on the RockPro64 from Pine64, which only works on Android so far and I need to get that done on Mainline Linux (I did not find anyone who managed that and reported about it). However, I'm also totally stuck. The RockPro64 runs Dietpi, which is essentially Armbian + a few tweaks. I'm using the Armbian 5.15.18 kernel, so mainline, with a custom device tree, which in the first place powers the MIPI ports. I suspect it is a bad idea to have one pinctrl as a placeholder for 4 converters, however, I'm not too deep into proxying in the devicetree, so here's the current status: https://pastebin.com/vs277ex0Your regulators are all listed as fixed-regulators. Are you sure there's nothing else to turn on ? I expect this was from another fragement for the same platform? So I hope it's consistent.The schematics are here, from which I took the regulator and gpio config. The regulators all seem to be fixed ones. There is just one pin that pulls up all the regulators (DVP_PWR). https://files.pine64.org/doc/rockpro64/rockpro64_v21-SCH.pdf The IMX214 driver has only one pin, the enable_pin, but it is somewhat different from the IMX219 for example. Looking at both driver's code I believe what is the reset_pin with the IMX219 is the enable_pin with the IMX214, but I am not sure about that. There is no MIPI reset on the RockPro64 afaik. Therefore I think it needs to be wired to the DVP_PDN0_H pin, but other drivers define that one specifically and it apparently does something different.For the pins also check the direction (active_low / active_high). I remember having fun somewhere when changing between the vendor kernel and mainline.Can you validate that the enable-gpios definition is to the correct GPIO to enable the camera ?The camera is connected to the first MIPI port. The kernel boot logs look ok to me (except for the cyclic dependency issue, but I think that does not matter much). https://pastebin.com/hvhdEfxm Without the camera configured in the device tree, it shows up as 0x0c device on the #1 I2C bus, which is a bit suspicious to me given the addresses in the documentation and the info given in the kernel documentation. However, I essentially followed the description according to this guide to set up the RKISP: https://linuxtv.org/downloads/v4l-dvb-apis/admin-guide/rkisp1.html using this: https://pastebin.com/ZqWC5vhC It looks like this (see also png attached). https://pastebin.com/MfTNp5Pd However, the IMX214 driver does not complain until that point and seems to do right. I expected that at least something happens, however it does not. The last command does this: VIDIOC_STREAMON returned -1 (No such device or address) and this is the kernel output [1509.435228] imx214 1-000c: write_table error: -6 [1509.435868] imx214 1-000c: could not sent common table -6-6 is ENXIO 6 No such device or address. So I expect the device isn't responding to the I2C controller. What shows up with i2c-detect -r -y 1 ?From the top of my head, it shows 1c on the 0x0c address iirc, but only if I remove the IMX from the DT. Otherwise the driver takes over and it shows UU. I removed the camera physically and it was gone on i2cdetect, so I suspect that it indeed is the camera. From the driver and the documentation I need to configure it 4-lane, as it is hardcoded in the driver (compared to the application notes for registers for the ImX214).There is no more info given, even if I do some "echo 0x3F > /sys/class/video4linux/v4l-subdev0/dev_debug" to the subdevs. Here's the IMX214 documentation btw. that I got through a detour fromCSDN.https://www.dropbox.com/sh/5d3mp2akr3kmu7t/AADaAsSxZu2kVSIfEceStwuoa?dl=0I'm not entirely sure, but there is something wrong somewhere and I can't find out if it is with the driver, the RKISP or anything else. Here's what "v4l2-ctl -d /dev/v4l-subdev3 --all" gives - not sure but shouldn't it show supported resolutions or something? https://pastebin.com/ckAFPbAsYou might find it useful to check what is missing to support libcamera with this sensor, then you can use cam/qcam to test it too. The RKISP1 pipeline handler in libcamera will handle all the media controller configuration, and identifying the available formats for you, but we haven't had an IMX214 sensor added yet, so you might need to add a mapping to the src/libcamera/camera_sensor_properties.cpp sensor database, and the driver is missing at least V4L2_CID_HBLANK and V4L2_CID_VBLANK that are required for libcamera. So it might not be as straightforward as I'd like, but it would be helpful I expect.I tried that at an earlier stage, to no avail unfortunately. But I will try again as soon as I get back to my desk.But ... I think your issues are more likely underlying hardware or DT issues, as the device sounds like it's not responding on the i2c address. Sometimes I2C devices have a configurable address, can you check if this really is the correct I2C address for your camera? That’s one of the issues. Ricardo wrote about iirc 0x10 and 0x1a, but theapp note says something entirely different (forgot), and my camera appears to be on yet another address…not specific to cameras, but in the past I had i2c devices that set the address depending on the state of a gpio during powerup - which was floating in my old case, producing random settings ;-) . Heiko
Attachment:
out.jpeg
Description: JPEG image