Ed van den Enden Posted yesterday at 12:02 PM Posted yesterday at 12:02 PM I'm unable to make an RTC module to work: RTC module ds3231, BPI M2Z and ARMBIAN Bookworm i2c pins 3 and 5 Driver RTC-ds1307 loaded, because RTC-ds3231 is not available. Why do I need a RTC-module? Often in the field I'm not online but I do need the right time on my observation camera's. My application does not allow me for having a monitor. My system does the recordings by motion detection, and the recordings do need the right time on it. armbian-config i2c0 set Tools installed: apt install python3-smbus i2c-tools i2cdetect -y 0 Detects address 068 and not UU as proof of driver been loaded File "hwclock-set" adapted #if [ -e /run/systemd/system ] ; then # exit 0 #fi Fake hwclock removed sudo apt -y remove fake-hwclock sudo update-rc.d -f fake-hwclock remove armbianEnv.txt overlay and dtoverlay correctly set modules.conf added: rtc-ds1307 Still, after a power down, the hardware clock shows 1970 as the date The same module tested on my RPi Zero 2W, and all is working perfect. If somebody can help me, that would be wonderful. 0 Quote
IBV Posted 15 hours ago Posted 15 hours ago Hi, is the hardware clock set before power off ? What does "sudo hwclock" say ? Why did you modify the hwclock-set script ? 0 Quote
Ed van den Enden Posted 13 hours ago Author Posted 13 hours ago Indeed, the hardware clock has been set and checked before power off. 1) date -s "April 22, 2024 11:54:00" 2) hwclock -w 3) hwclock -r 4) battery hwclock 3.6V 5) works flawless with RPi Zero 2W 6) i2cdetect -y 0 shows address 068 Why did you modify the hwclock-set script ? Suggested by many, but without modifying this script, it does not change mallfunction of the hwclock. When connected to WiFi hwclock --verbose tells me following: hwclock from util-linux 2.38.1 System Time: 1745389217.903091 Trying to open: /dev/rtc0 Using the rtc interface to the clock. Last drift adjustment done at 1745317708 seconds after 1969 Last calibration done at 1745317708 seconds after 1969 Hardware clock is on UTC time Assuming hardware clock is kept in UTC time. Waiting for clock tick... ...got clock tick Time read from Hardware Clock: 2025/04/23 06:20:20 Hw clock time : 2025/04/23 06:20:20 = 1745389220 seconds since 1969 Time since last adjustment is 71512 seconds Calculated Hardware Clock drift is 0.000000 seconds 2025-04-23 08:20:18.895813+02:00 After power down and When disconnected from WiFi (my application and so the reason why I need a hwclock to work) hwclock --verbose tells me following: hwclock from util-linux 2.38.1 System Time: 1745389772.399976 Trying to open: /dev/rtc0 Using the rtc interface to the clock. Last drift adjustment done at 1745317708 seconds after 1969 Last calibration done at 1745317708 seconds after 1969 Hardware clock is on UTC time Assuming hardware clock is kept in UTC time. Waiting for clock tick... ...got clock tick Time read from Hardware Clock: 1970/01/01 00:04:02 Hw clock time : 1970/01/01 00:04:02 = 242 seconds since 1969 Time since last adjustment is 1745317466 seconds Calculated Hardware Clock drift is 0.000000 seconds 1970/01/01 01:04:00.760027+01:00 0 Quote
IBV Posted 13 hours ago Posted 13 hours ago This would suggest that the battery of the rtc is dead, but it is confusing because you say it works with RPI zero. Could you provide logs with sudo armbianmonitor -u 0 Quote
Ed van den Enden Posted 13 hours ago Author Posted 13 hours ago (edited) See link https://paste.armbian.com/alehuretiw Now connected to WiFi Edited 13 hours ago by Ed van den Enden 0 Quote
Ed van den Enden Posted 13 hours ago Author Posted 13 hours ago Just measured again the battery on the battery pins of the RTC-ds3231, and it shows me 3.6 volt (not the BPI 3.3 volt pins (1 + 9) 0 Quote
IBV Posted 12 hours ago Posted 12 hours ago After boot, can you show the output of "timedatectl status" ? 0 Quote
Ed van den Enden Posted 12 hours ago Author Posted 12 hours ago When connected to WiFi root@clearview:~# timedatectl status Local time: Wed 2025-04-23 09:56:59 CEST Universal time: Wed 2025-04-23 07:56:59 UTC RTC time: Wed 2025-04-23 07:56:58 Time zone: Europe/Brussels (CEST, +0200) System clock synchronized: no NTP service: active RTC in local TZ: no After power down and disconnected from WiFi root@clearview:~# timedatectl status Local time: Wed 2025-04-23 10:04:43 CEST Universal time: Wed 2025-04-23 08:04:43 UTC RTC time: Wed 1970-01-01 00:02:45 Time zone: Europe/Brussels (CEST, +0200) System clock synchronized: no NTP service: active RTC in local TZ: no 0 Quote
Ed van den Enden Posted 12 hours ago Author Posted 12 hours ago To my understanding and the documentation I found, by investigating the RTC address, with the outcome 068, it indicates that the RTC driver is not loaded, otherwise the address request would show UU as outcome. 0 Quote
IBV Posted 12 hours ago Posted 12 hours ago There seems to be a RTC detected on boot [ 1.018029] sun6i-rtc 1f00000.rtc: registered as rtc0 [ 1.018081] sun6i-rtc 1f00000.rtc: setting system clock to 1970-01-01T00:00:04 UTC (4) Just to confirm, you could disconnect your RTC and boot again. Then check the boot log if the system says anything about rtc. 0 Quote
Ed van den Enden Posted 12 hours ago Author Posted 12 hours ago (edited) Another remark/question: The latest Armbian does not show a driver RTC-ds3231, just the RTC-ds1307 driver. Therefore I used fo my ds3231 RTC module the available driver RTC-ds1307. Could that be the reason for the malfunction of the hwclock? Edited 11 hours ago by Ed van den Enden 0 Quote
Ed van den Enden Posted 11 hours ago Author Posted 11 hours ago The below output with the RTC module taken off the BPI M2Z Further below I saw that there were some pin errors. (most probably nothing to do with this topic) https://paste.armbian.com/axoduwanuq [ 1.020506] usbcore: registered new interface driver usb-storage [ 1.022284] sun6i-rtc 1f00000.rtc: registered as rtc0 [ 1.022371] sun6i-rtc 1f00000.rtc: setting system clock to 1970-01-01T00:00:04 UTC (4) [ 1.023147] i2c_dev: i2c /dev entries driver [ 1.025025] sunxi-wdt 1c20ca0.watchdog: Watchdog enabled (timeout=16 sec, nowayout=0) [ 7.721526] sun8i-h3-pinctrl 1c20800.pinctrl: pin PD14 already requested by onewire@0; cannot claim for pps@0 [ 7.721577] sun8i-h3-pinctrl 1c20800.pinctrl: pin-110 (pps@0) status -22 [ 7.721597] sun8i-h3-pinctrl 1c20800.pinctrl: could not request pin 110 (PD14) from group PD14 on device 1c20800.pinctrl [ 7.721613] pps-gpio pps@0: Error applying setting, reverse things back 0 Quote
Ed van den Enden Posted 11 hours ago Author Posted 11 hours ago I notice that there is a linux driver available at GITHUB for the ds3231, but I have no clue how to compile/install this driver. https://github.com/AxelElRojo/ds3231-linux 0 Quote
IBV Posted 10 hours ago Posted 10 hours ago I believe the rtc_ds1307 is compatible with the ds3231. You can check that with "modinfo rtc_ds1307" 1 hour ago, Ed van den Enden said: [ 7.721526] sun8i-h3-pinctrl 1c20800.pinctrl: pin PD14 already requested by onewire@0; cannot claim for pps@0 [ 7.721577] sun8i-h3-pinctrl 1c20800.pinctrl: pin-110 (pps@0) status -22 [ 7.721597] sun8i-h3-pinctrl 1c20800.pinctrl: could not request pin 110 (PD14) from group PD14 on device 1c20800.pinctrl [ 7.721613] pps-gpio pps@0: Error applying setting, reverse things back I don't know the hardware, can you check that you don't have pin conflicts? Do you need these overlays : "pps-gpio w1-gpio" ? If not, you might remove them from armbianEnv.txt, boot and check again. 0 Quote
Ed van den Enden Posted 8 hours ago Author Posted 8 hours ago Indeed, the rtc_ds1307 is compatible with the ds3231 and removing pps-gpio w1-gpio did the errors disappear. The RTC module still doesn't work. 😭 0 Quote
IBV Posted 8 hours ago Posted 8 hours ago Try to enable i2c1 also (just a stupid suggestion) in armbianEnv.txt and scan the bus with i2cdetect. Who knows, maybe there's a weird mapping of the bus interfaces. 0 Quote
IBV Posted 7 hours ago Posted 7 hours ago 6 hours ago, Ed van den Enden said: i2cdetect -y 0 shows address 068 This should mean that the rtc is there. Take a look at https://wiki.banana-pi.org/BPI_RTC_real_time_Module You could try: echo ds3231 0x68 > /sys/class/i2c-adapter/i2c-0/new_device Then a dmesg to see if there's something new about rtc. 0 Quote
Ed van den Enden Posted 7 hours ago Author Posted 7 hours ago Nop, that didn't work had also both i2c0 and i2c1 activated root@clearview:~# i2cdetect -y 0 0 1 2 3 4 5 6 7 8 9 a b c d e f 00: -- -- -- -- -- -- -- -- 10: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- 20: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- 30: 30 -- 32 33 34 35 36 -- -- -- -- -- -- -- -- -- 40: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- 50: 50 51 52 53 54 55 56 57 58 59 5a 5b 5c 5d 5e 5f 60: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- 70: -- -- -- -- -- -- -- -- root@clearview:~# i2cdetect -y 1 Error: Could not open file `/dev/i2c-1' or `/dev/i2c/1': No such file or directory root@clearview:~# ls /dev/i2c-* /dev/i2c-0 0 Quote
Ed van den Enden Posted 7 hours ago Author Posted 7 hours ago (edited) I will leave it for what it is for now. I will move back to RPi zero 2W, solder an antenna, and I'm good to go. Would have loved to go to the BPI m2z and later to the BPI m4z, but for now not an option. By the way, with the latest Armbian upgrade an hour ago, my USB camera is also not working anymore. Thank you very much for the support. Kind regards, Ed👏 Edited 7 hours ago by Ed van den Enden 0 Quote
going Posted 3 hours ago Posted 3 hours ago 22.04.2025 в 15:02, Ed van den Enden сказал: armbian-config i2c0 set kernel version? uname -r 0 Quote
djurny Posted 2 hours ago Posted 2 hours ago Hi @Ed van den Enden, I think your BananaPi runs an Allwinner SoC, which is similar to the OrangePi zero. Can you list the RTCs on your board? ls /dev/rtc* On my OrangePi's here, the H2+ SoC also has an RTC that is wildly unprecise, but it's still used as /dev/rtc0 and therefore used by the kernel to synchronize to when the kernel boots. I do not know much about your SBC, but perhaps sharing my config for the OrangePi zero helps you as well: I have two RTCs, one from the H2+ SoC and one connected via i2c: djurny@sinaspi:~$ ls /dev/rtc* /dev/rtc /dev/rtc0 /dev/rtc1 As the SoC RTC will be seen first by the kernel, i had to update the DTB to make it appear later than the i2c one: Spoiler /dts-v1/; / { compatible = "allwinner,sun4i-a10\0allwinner,sun7i-a20\0allwinner,sun8i-h3\0allwinner,sun50i-a64\0allwinner,sun50i-h5"; fragment@0 { target-path = "/aliases"; __overlay__ { rtc0 = "/soc/i2c@1c2ac00/ds3231@68"; }; }; fragment@1 { target = < 0xffffffff >; __overlay__ { #address-cells = < 0x01 >; #size-cells = < 0x00 >; ds3231@68 { compatible = "dallas,ds3232"; reg = < 0x68 >; status = "okay"; }; }; }; fragment@2 { target-path = "/aliases"; __overlay__ { rtc1 = "/soc/rtc@1f00000"; }; }; fragment@3 { target = < 0xffffffff >; __overlay__ { rtc@1f00000 { status = "disabled"; }; }; }; __fixups__ { i2c0 = "/fragment@1:target:0"; rtc = "/fragment@3:target:0"; }; }; The dtb is specifically for the OrangePi zero (1), so most likely not suitable for your SBC. But the idea might help you to fixup your dtb. For my NanoPi neo3 i was not able to apply a dtb fix and had to make some oddball script (attached). It would check for any RTC that is currently being synced by NTP and if i cannot find one (during boot and before NTP can sync) it will copy the date/time from the first "external" RTC it can find. If it finds NTP is sync'ed, it will write the wallclock to the external "freerunning" RTCs to make sure the "external" RTC will have a reasonably accurate time when the system power cycles/reboots. Let me know if this works for you. About the dtb fixups, i cannot really remember unfortunately, but some other posts on here helped a lot. You can try here for more hints and things you can try: Hope some of this might help your case, Groetjes, rtc-sync 0 Quote
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