Re: ODP: [Zephyr-users] console_getline vs 0ms char delay in UART comms

Piotr Barszczewski <piotr@...>

Hello Krzysztof,

Good point, forgot to mention that. Flow control pins are specified in DTS as well as FT232R has FC lines connected to nRF52832. Changing FC settings in Cutecom doesn’t change anything and data is corrupted as before.
The board itself has no issues with doing DFU with on other firmware written in various versions of nRF5 SDK and by default HWFC is required there.

Best regards,

On 18 March 2021 at 15:08:13, Chruściński, Krzysztof (krzysztof.chruscinski@...) wrote:


do you have flow control enabled? When it is disabled then after each byte receiver is stopped and restarted after reading the byte. Restarting may happen when transmitter is already started, in the middle of the byte. In that case, byte will be corrupted.


Od: users@... <users@...> w imieniu użytkownika Piotr Barszczewski via <>
Wysłane: czwartek, 18 marca 2021 14:35
Do: Lawrence King <lawrence.king@...>; users@... <users@...>
Temat: Re: [Zephyr-users] console_getline vs 0ms char delay in UART comms
I actually was about to check the signals out of curiosity and sending them in the attachment. All of the following were done with 8N1 @ 115200 and flashed with having different DTS for the custom board of course. Every time I’ve sent "1234\r\n” to the nrf52832-QFAA chip and connected with the probes directly to UART lines.
I’ve checked the PCBs on Linux and OSX to get rid of suspicion that the OS drivers might somehow be involved in makig things funny.
  1. nrf52832-DK-0ms-delay.png - nRF52832 DK with 0ms delay set. All ok
  2. nrf52832-DK-1ms-delay.png - nRF52832 DK with 1ms delay set. All ok
  3. nrf52832-pcb-UART-0ms-char-delay.png - the tested custom PCB with 0ms delay. Data gets corrupted actually on TX and RX but what is returned is different thatn what is sent
  4. nrf52832-pcb-UART-1ms-char-delay.png - As above but 1ms delay. All ok
  5. nrf52832-pcb-UART-OSX-0ms-char-delay.png - Same as 3 but on OSX using Coolterm
  6. nrf52832-pcb-UART-OSX-1ms-char-delay.png - Same as 4 but on OSX using Coolterm
I’ve also tried changing to 8N2 but the result was the same.
From the nrf52832-pcb-UART-0ms it looks like the RX corruption happens when nrf52832 starts transmitting but then it handles every n-th byte correctly. What is even stranger is that the analyzer gets a different value than what was sent and what nRF52832 received. I don’t really understand what could be the difference as both are nrf52832 (same frequency clocks) in the end, the only thing that is different is the way USB-UART converter is made and handled on OS level. Though I can’t really say that FT232R has failed like that before. It’s just this particular firmware and the way it handles the data.

I will try to find some USB-UART converter which will enumerate as ttyACM device on my Linux, unsolder the FTDI chip and try talking through ttyACM it instead of a /dev/ttyUSB one. Maybe there is something to it.

Best regards,

On 17 March 2021 at 23:49:09, Lawrence King (lawrence.king@...) wrote:

I wasn’t suspecting your FT232R HW, just how the various terminal programs set up the HW may be different. When all other debugging fails, nothing beats the certainty of capturing the waveforms with an oscilloscope and validating that all of the characters were sent, and the signal levels are good. But you are not likely to this level of debugging yet.


When you are using cutecom, try setting to 8N2. This adds one extra bit time between characters which a lot less than 1mS and may be enough that you stop dropping characters.


What baudrate are you running at? The usual 115200? Do you see the same problem if you try slower speeds like 38400 or 19200? Of course you need to change both ends of the link if you select an alternat baud rate.


Finally, what processor and processor clock rate are you running, you may simply be sending characters faster than your processor can respond to interrupts and receive the characters (which would make sense if you are missing every second character).


Lawrence King

Principal Developer



From: Piotr Barszczewski <piotr@...>
Sent: Wednesday, March 17, 2021 3:43 PM
To: Lawrence King <lawrence.king@...>; users@...
Subject: RE: [Zephyr-users] console_getline vs 0ms char delay in UART comms


Hello Lawrence,


Thank you for your reply. I’m working with 8N1 and the USB-UART is FT232R of which I’m pretty certain that it’s working correctly. It works with other firmware, developed with older Nordics SDK and haven’t experienced issues with it yet. In my experience I’ve narrowed it down to the 0ms delay in Cutecom making the getline console example to loose some characters on hadrware which works ok with different firmware with the same Cutecom settings.


As for hardware design it uses a schematic which has been validated by FTDI support as on a different device we’ve been experiencing different issues so I find it unlikely that it would be at blame here.


When I have a moment I’ll try to replicate it with nrf52832 DK but I expect that it could be better as the DK enumerates as ttyACM port device which I’ve previously found to behave differently than ttyUSB which I wrote down in and unfortunately it’s still unsolved by me. Maybe FT232R and Zephyr sometimes don’t really get along for some reason?


Best regards,



On 17 March 2021 at 14:30:35, Lawrence King (lawrence.king@...) wrote:

Hi Piotr


There are may be pieces of equipment along  the path between cutecom and the serial input on your micro-controller. Usually there is a USB to Serial chip. The programs inside screen and cutecom set parameters in the USB2Serial chip. Specifically I would be worried about the number of databits and stop bits, also parity. The ‘normal’ setting is 8N1 which means send a start bit, 8 data bits, no parity bits, and a single stop bit. However if cutecom selected 7N1, or screen selected 8N1 and the serial port on your Zephyr board was set to 8N2 you would see these types of problems.


Curiously you are consistently loosing the characters with Even parity. Is your Zephyr board set up to expect 7O1?


You need to look at the data being send from the USB2Serial adapter and ensure that it is valid. I have never had a problem with Zephyr dropping characters, but it really depends on your board, and kernel options.


Lawrence King

Principal Developer



From:users@... <users@...> On Behalf Of Piotr Barszczewski
Sent: Monday, March 15, 2021 12:31 PM
Subject: [Zephyr-users] console_getline vs 0ms char delay in UART comms




I’ve been reviewing code from a colleague, which (code, not the colleague) is heavily based on the I’ve been experiencing some unexpected behaviour when using CuteCom vs screen to communicate with the console. I’ve dug deeper and deeper and eventually it seemed like the value returned by console_getline function was indeed already corrupted. In screen everything worked fine.


My assumption was that when I’m using screen each character is passed 1-by-1 to a buffer and everything is golden. On the other hand CuteCom buffers the input until I press enter and fires away at the serial port - pretty much like M2M communications would work over UART.

Eventually I opened up the project and the behaviour was the same. It corrupted the buffer when used in Cutecom and worked ok with screen. 


This is an example of the output of FW when sending “1234” over Cutecom with 0ms delay (which is what I have been using +/- forever):

[17:07:53:997] 13␍␊
[17:07:54:012] line: 13
[17:07:54:012] last char was: 0x33
[17:07:54:842] 13
[17:07:54:859] line: 13
[17:07:54:859] last char was: 0x33
[17:07:55:794] 13
[17:07:55:810] line: 13
[17:07:55:810] last char was: 0x33
[17:07:57:074] 1S@

In the end I’ve changed CuteComs char delay to 1ms and everything works well:

[17:07:50:368] 1234␍␊
[17:07:50:368] line: 1234
[17:07:50:384] last char was: 0x34


Is there some simple CONFIG_ argument to change this? I’ve looked in menuconfig but without luck. 

It’s not much of a problem to instruct every user of the FW to change it to 1ms but I’m a bit concerned about using various scripts to communicate with the firmware which will use the console. Depending on the implementation of serial driver it might require additional work to accound for the buffer not handling bursts of data.


Best regards






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