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  • Case ID: 356716
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SSD1306 OLED display fails for nRF52840 boards using nRF Connect SDK 3.2.1

zpm1066

Hello,

I’ve been using SSD1306 128x64 OLED displays with nRF52840 boards for several years without any issues, building with nRF Connect SDK 2.5.x to 3.1.0. Recently, I've been attempting to move existing NCS 3.1.0 projects over to NCS 3.2.1. However, I’m unable to successfully get the SSD1306 OLED display to work with any of the nRF52840 boards using the latest nRF Connect SDK 3.2.1.

All the nRF52840 boards with SSD1306 display work fine when built with vanilla Zephyr 4.1.x and 4.2.x.

Also, the target for thingy53/nrf5340/cpuapp/ns failed to run successfully with both NCS 3.1.0 and NCS 3.2.1. The target thingy53/nrf5340/cpuapp ran fine with the SSD1306 OLED.

To try to isolate the issue, I’ve taken the Zephyr sample, “/opt/nordic/ncs/v3.2.1/zephyr/samples/subsys/display/cfb_custom_font” and built it for a couple of different nRF52840 boards (e.g. particle_xenon_nrf52840, promicro_nrf52840) plus thingy/nrf5340/cpuapp.

Built exactly the same sample "cfb_custom_font" main.c (modified to display board target and Zephyr version) & used the same devicetree overlays. All the builds compiled and linked without any issues.  However, only particle_xenon/nrf52840 using NCS 3.1.0 and thingy53/nrf5340/cpuapp using NCS 3.2.1 ran successfully with the SSD1306 displays.

I used the below board configuration and the overlays with the ssd1306 devicetree included in the I2C sections of the overlays. Default sysbuild option used from with the nRF Connect SDKs.

I don't see anything that is obvious that may be wrong. I would appreciate if you could determine the cause of the issue with the nRF52840 boards with SSD1306 when using  nRF Connect SDK 3.2.1.

Also, Is there any reason as to why the target for thingy53/nrf5340/ns doesn’t run successfully with the I2C SSD1306 display?

Thank you.

particle_xenon_nrf52840.overlay:

/ {
	chosen {
		zephyr,display = &ssd1306;
		zephyr,console = &uart0;
		zephyr,shell-uart = &uart0;
	};
};

&uart0 {
	compatible = "nordic,nrf-uarte";
	status = "okay";
	current-speed = <115200>;
	pinctrl-0 = <&uart0_default>;
	pinctrl-1 = <&uart0_sleep>;
	pinctrl-names = "default", "sleep";
};

&gpio0{
	status = "okay";
};

&i2c0 {
	compatible = "nordic,nrf-twi";
	status = "okay";
	pinctrl-0 = <&i2c0_default>;
	pinctrl-1 = <&i2c0_sleep>;
    pinctrl-names = "default", "sleep";
	ssd1306: ssd1306@3c {
		compatible = "solomon,ssd1306fb";
		reg = <0x3c>;
		width = <128>;
		height = <64>;
		segment-offset = <0>;
		page-offset = <0>;
		display-offset = <0>;
		multiplex-ratio = <63>;
		segment-remap;
		com-invdir;
		prechargep = <0x22>;
	};
};

thingy53_nrf5340_cpuapp.overlay

/ {
	chosen {
		zephyr,display = &ssd1306;
	};
};

&pinctrl {
	i2c0_default: i2c0_default {
		group1 {
			psels = <NRF_PSEL(TWIM_SDA, 0, 5)>,
				<NRF_PSEL(TWIM_SCL, 0, 4)>;
		};
	};

	i2c0_sleep: i2c0_sleep {
		group1 {
			psels = <NRF_PSEL(TWIM_SDA, 0, 5)>,
				<NRF_PSEL(TWIM_SCL, 0, 4)>;
		};
	};
};

&i2c0 {
	compatible = "nordic,nrf-twim";
	status = "okay";
	clock-frequency = <I2C_BITRATE_FAST>;
	zephyr,concat-buf-size = <4096>;
	pinctrl-0 = <&i2c0_default>;
	pinctrl-1 = <&i2c0_sleep>;
    pinctrl-names = "default", "sleep";
	ssd1306: ssd1306@3c {
		compatible = "solomon,ssd1306fb";
		reg = <0x3c>;
		width = <128>;
		height = <64>;
		segment-offset = <0>;
		page-offset = <0>;
		display-offset = <0>;
		multiplex-ratio = <63>;
		segment-remap;
		com-invdir;
		prechargep = <0x22>;
	};
};

prj.conf:

CONFIG_HEAP_MEM_POOL_SIZE=16384

CONFIG_DISPLAY=y
CONFIG_SSD1306=y

CONFIG_CHARACTER_FRAMEBUFFER=y
CONFIG_CHARACTER_FRAMEBUFFER_USE_DEFAULT_FONTS=n

CONFIG_LOG=y

# Preferred SHELL options
CONFIG_SHELL=y
CONFIG_DEVICE_SHELL=y
CONFIG_INIT_STACKS=y
CONFIG_KERNEL_SHELL=y
CONFIG_SHELL_STATS=n
CONFIG_I2C_SHELL=y

# Enable RTT to replace UART
CONFIG_UART_CONSOLE=y
CONFIG_USE_SEGGER_RTT=n
CONFIG_SHELL_BACKEND_RTT=n

CONFIG_LOG_BACKEND_UART=y
CONFIG_SHELL_LOG_BACKEND=y

Console Output 

NCS 3.2.1 build  - particle_xenon_nrf52840 with  SSD1306 (particle_xenon/nrf52840):

*** Booting nRF Connect SDK v3.2.1-d8887f6f32df ***
*** Using Zephyr OS v4.2.99-ec78104f1569 ***

Display device not ready

Failed to turn off display blanking

NCS 3.1.0 build  - particle_xenon_nrf52840 with  SSD1306 (particle_xenon/nrf52840):

*** Booting nRF Connect SDK v3.1.0-6c6e5b32496e ***
*** Using Zephyr OS v4.1.99-1612683d4010 ***
Zephyr v4.1.99
Board target: particle_xenon/nrf52840

NCS 3.2.1 build  - thingy53_nrf5340_cpuapp with  SSD1306:

*** Booting nRF Connect SDK v3.2.1-d8887f6f32df ***
*** Using Zephyr OS v4.2.99-ec78104f1569 ***
[00:00:00.035,614] <inf> udc_nrf: Initialized
Zephyr v4.2.99
Board target: thingy53/nrf5340/cpuapp

NCS 3.1.0 build  - thingy53_nrf5340_cpuapp with  SSD1306:

[Disconnected]
[Connected]
*** Booting nRF Connect SDK v3.1.0-6c6e5b32496e ***
*** Using Zephyr OS v4.1.99-1612683d4010 ***
Zephyr v4.1.99
Board target: thingy53/nrf5340/cpuapp

Vanilla Zephyr 4.2.x from terminal command line: SSD1306 displays works fine.

*** Booting Zephyr OS build v4.2.0-717-g85e135362445 ***
Zephyr v4.2.99
Board target: particle_xenon/nrf52840
uart:~$

Parents
  • 0

    Hello,

    There was a major update to the nrfx layer in SDK v3.2.0, which included a switch to standard POSIX error codes. Unfortunately, for the legacy TWI driver, we missed updating the Zephyr integration to handle the new return codes. This was later fixed in Zephyr, and we also added tests to improve the driver’s test coverage, see https://github.com/nrfconnect/sdk-zephyr/pull/3624/changes/1a8ca7c52da4e7b8083a2fe09b61bcd5f819f557

    You could cherry pick this commit, but the best solution is to switch from using TWI to TWIM by selecting "nordic,nrf-twim" binding in your overlay instead of "nordic,nrf-twi". 

    Best regards,

    Vidar

  • 0 in reply to Vidar Berg

    Hi Vidar,

    Thank you for your quick response. It's much appreciated.

    After posting the ticket yesterday, I noticed that the Thingy53 device overlay was using TWIM, so I did switch from TWI to TWIM for the nRF52840 boards. This has resolved the SSD1306 issue with Particle Xenon nRF52840 when building the application with NCS 3.2.1.

    However, I'm still having problems with a promicro_nrf52840 board when hooked up to a SSD1306 display.

    When building promicro/nrf52840/uf2 with the default build setting (i.e. sysbuild), the SD1306 doesn't show anything and the USB-C serial console doesn't come up. A no-sysbuild with NCS 3.2.1 works fine with the SSD1306.

    Any thoughts on why the sysbuild doesn't bring up the display & serial console? Thanks.

    Also, the build for target thingy53/nrf5340/ns fails to start successfully. Thanks.


    Best Regards,
    Ravi

  • 0 in reply to Vidar Berg

    Hi Vidar,

    No modification to the original peripheral_lbs sample was made when building for thingy53/nrf5340/cpuapp/ns. Building the sample for nrf5340dk/nrf5340/cpuapp/ns works, and it runs fine. The issue is with the Thingy53 NS.

    I have just taken another copy of peripheral_lbs from the NCS 3.2.1 samples and attempted to build for thingy53/nrf5340/cpuapp/ns.

    Again, I get the FLASH overflow error, as below.




    Can you please try to build peripheral_lbs for  thingy53/nrf5340/cpuapp/ns? Thank you.

    On Github nrfconnect sdk, for the peripheral_lbs, I noticed that there was a change in the Kconfig.sysbuild last week. PM was disabled for the Thingy53.

    config PARTITION_MANAGER
	default n if !BOARD_THINGY53 && !BOARD_IS_NON_SECURE

config NRF_DEFAULT_IPC_RADIO
	default y

config NETCORE_IPC_RADIO_BT_HCI_IPC
	default y

source "share/sysbuild/Kconfig"



    I haven't updated NCS 3.2.1 to the latest but will later today.

    Also, from the sample.yml history, the Thingy53 non secure target got removed because of BT_CRYPTO support.

    Anyway, I've ended up the path of modifying TF_M size for the Thingy53 NS applications because of the additional space required to support BT_CRYPTO.

    As mentioned before, if I silence (CONFIG_TFM_LOG_LEVEL_SILENCE=y) the TF-M logs, the Thingy NS applications run fine.

    I like to know what's causing TFM Log bus faults and if here is a way to have TFM logs enabled for Thing NS builds.. Thank you.


    Best Regards,
    Ravi

  • 0 in reply to zpm1066

    Hi Ravi,

    I thought you were getting the same warning on nrf5340DK. Have now tried to build for the thingy53 as well after making the following changes in the board directory:

    diff --git a/boards/nordic/thingy53/pm_static_thingy53_nrf5340_cpuapp_ns.yml b/boards/nordic/thingy53/pm_static_thingy53_nrf5340_cpuapp_ns.yml
index 70ffe6d9c12..b05346273bd 100644
--- a/boards/nordic/thingy53/pm_static_thingy53_nrf5340_cpuapp_ns.yml
+++ b/boards/nordic/thingy53/pm_static_thingy53_nrf5340_cpuapp_ns.yml
@@ -8,20 +8,20 @@ mcuboot_pad:
   size: 0x200
 tfm_secure:
   address: 0x10000
-  size: 0xc000
+  size: 0x18000 
   span: [mcuboot_pad, tfm]
 tfm_nonsecure:
-  address: 0x1c000
-  size: 0xd4000
+  address: 0x28000
+  size: 0xc8000
   span: [app]
 tfm:
   address: 0x10200
   region: flash_primary
-  size: 0xbe00
+  size: 0x17e00
 app:
-  address: 0x1c000
+  address: 0x28000
   region: flash_primary
-  size: 0xd4000
+  size: 0xc8000
 mcuboot_primary:
   address: 0x10000
   orig_span: &id001
diff --git a/boards/nordic/thingy53/thingy53_nrf5340_cpuapp_ns_defconfig b/boards/nordic/thingy53/thingy53_nrf5340_cpuapp_ns_defconfig
index f831ec5148e..aeb0691df9d 100644
--- a/boards/nordic/thingy53/thingy53_nrf5340_cpuapp_ns_defconfig
+++ b/boards/nordic/thingy53/thingy53_nrf5340_cpuapp_ns_defconfig
@@ -6,6 +6,17 @@ CONFIG_ARM_MPU=y
 # Enable TrustZone-M
 CONFIG_ARM_TRUSTZONE_M=y
 
+# TF-M profile has to be properly configured to be able to run
+# the Bluetooth stack which uses PSA crypto API.
+# The following configuration is a minimal set of options required.
+CONFIG_TFM_PROFILE_TYPE_NOT_SET=y
+
+CONFIG_TFM_PARTITION_PLATFORM=y
+CONFIG_TFM_PARTITION_CRYPTO=y
+CONFIG_TFM_PARTITION_INTERNAL_TRUSTED_STORAGE=y
+CONFIG_TFM_PARTITION_PROTECTED_STORAGE=n
+CONFIG_TFM_PARTITION_INITIAL_ATTESTATION=n
+
 # This Board implies building Non-Secure firmware
 CONFIG_TRUSTED_EXECUTION_NONSECURE=y

    I did not see any warnings or errors in the log.

    Best regards,

    Vidar

  • 0 in reply to Vidar Berg

    HI Vidar,

    Thank you for the TF-M Kconfig. Using the minimal set of option for TF-M, I can now build and run my BT applications (including peripheral_lbs) for thingy53/nrf5340/cpuapp/ns. Your help is much appreciated.

    What minimal TF-M configuration should be used to build & successfully run thingy53/nrf5340/cpuapp/ns applications that do not use BT?

    I'm finding that I need to turn off logging (CONFIG_LOG=n) in order to get the non-BT thingy53/nrf5340/cpuapp/ns applications to run successfully.

    Is this related to "When building TF-M with logging enabled, UART instance used by TF-M must be disabled in the non-secure application, otherwise the non-secure application will fail to run." as mentioned in the TF-M Logging docs?  Thingy53 has the TF-M logging on UART0, same as the console.

    Regards,
    Ravi

  • 0 in reply to zpm1066

    Hi Ravi, 

    Good to hear that it works now. What configuration to use for your TF-M image depends on what you are going to use it for. The configuration I used provides the crypto services needed to perform LE secure connections pairing. Please refer to the SDK documentation here for more details on this: https://docs.nordicsemi.com/bundle/ncs-latest/page/nrf/security/tfm/tfm_supported_services.html#tf-m-version-in-the-ncs

    zpm1066 said:
    I'm finding that I need to turn off logging (CONFIG_LOG=n) in order to get the non-BT thingy53/nrf5340/cpuapp/ns applications to run successfully.

    Is this related to "When building TF-M with logging enabled, UART instance used by TF-M must be disabled in the non-secure application, otherwise the non-secure application will fail to run." as mentioned in the TF-M Logging docs?  Thingy53 has the TF-M logging on UART0, same as the console.

    The ns application is using the USB device for console/logging. UART0 is not used. 

    Best regards,

    Vidar

  • 0 in reply to Vidar Berg

    HI Vidar,

    For the non-BT TF-M applications, I have tried to use your suggested TF-M minimal configuration. The applications build but din't run. However, as mentioned, when I turn off logging, the applications run successfully.

    I've reviewed the TF-M docs but will take another look later today. The issue now is how to get successful TF-M for non-BT applications. I've tried a few different configurations but not been successful yet, other than by disabling logging.

    I tried building the "tfm_hello_world" sample unmodified on the Thingy53 as NS. The build runs successfully if I disable TF-M logging (CONFIG_TFM_LOG_LEVEL_SILENCE=y) .



    Best Regards,
    Ravi

Reply
  • 0 in reply to Vidar Berg

    HI Vidar,

    For the non-BT TF-M applications, I have tried to use your suggested TF-M minimal configuration. The applications build but din't run. However, as mentioned, when I turn off logging, the applications run successfully.

    I've reviewed the TF-M docs but will take another look later today. The issue now is how to get successful TF-M for non-BT applications. I've tried a few different configurations but not been successful yet, other than by disabling logging.

    I tried building the "tfm_hello_world" sample unmodified on the Thingy53 as NS. The build runs successfully if I disable TF-M logging (CONFIG_TFM_LOG_LEVEL_SILENCE=y) .



    Best Regards,
    Ravi

Children
  • 0 in reply to zpm1066

    Hi Ravi,

    I don't see any reason for why the same TF-M configuration should not work for non-BT applications. I'm not able to reproduce this here with the same board modifications I posted earlier either.

    Best regards,

    Vidar

  • 0 in reply to Vidar Berg

    Hi Vidar,

    I agree. The same TF-M configuration should also work for non-BT applications on Thingy53.

    In my previous comment, I meant to say that the non-BT applications work if I silence the TF-M logs (    CONFIG_TFM_LOG_LEVEL_SILENCE=y) and use the TF-M minimal configuration. 

    If TFM logs are enabled and "CONFIG_RESET_ON_FATAL_ERROR=n ", then the non-BT applications don't run and the USB serial console doesn't show up.

    This thingy53_nrf5340_cpuapp_ns works but fails if CONFIG_TFM_LOG_LEVEL_SILENCE=n
    # TF-M profile has to be properly configured to be able to run
# the Bluetooth stack which uses PSA crypto API.
# The following configuration is a minimal set of options required.
CONFIG_TFM_PROFILE_TYPE_NOT_SET=y
CONFIG_TFM_PARTITION_PLATFORM=y
CONFIG_TFM_PARTITION_CRYPTO=y
CONFIG_TFM_PARTITION_INTERNAL_TRUSTED_STORAGE=y
CONFIG_TFM_PARTITION_PROTECTED_STORAGE=n
CONFIG_TFM_PARTITION_INITIAL_ATTESTATION=n

# This Board implies building Non-Secure firmware
CONFIG_TRUSTED_EXECUTION_NONSECURE=y

# Disables reboots on fatal error
CONFIG_RESET_ON_FATAL_ERROR=n

# TFM logs disabled
CONFIG_TFM_LOG_LEVEL_SILENCE=y


    Best Regards,
    Ravi
  • 0 in reply to zpm1066

    Hi Ravi,

    This don't make much sense to me. I can try to debug this on my end, but I would need to know the exact sample and configuration to use in that case.

    Best regards,

    Vidar

  • 0 in reply to Vidar Berg

    Hi Vidar,

    I had another look at the Thingy53 NS builds for non-BT applications.

    After making the following Kconfig change, the non-BT applications now run on the Thing53.

    # Set TF-M to share the default console
CONFIG_TFM_SECURE_UART0=y
CONFIG_TFM_SECURE_UART_SHARE_INSTANCE=y


    The Thingy53 uses the USB cdc_acm_uart for the application console and UART0 by default is disabled.

    It seems that although UART0 is disabled, TF-M logging still requires UART0 configuration and to share TF-M's UART instance with the NS application.

    Earlier, without the above configuration,  NS applications on Thingy53 worked only if the TF-M logging was disabled via "CONFIG_TFM_LOG_LEVEL_SILENCE=y".

    I've verified the resolution using the Zephyr sample "/zephyr/samples/subsys/display/cfb" with     TF-M Configurable builds.

    TF-M size set to 96kB using static partitioning file "pm_static_thingy53_nrf5340_cpuapp_ns.yml" in the project folder.

    thingy53_nrf5340_cpuapp_ns.conf:

    # TF-M profile has to be properly configured to be able to run
# the Bluetooth stack which uses PSA crypto API.
# The following configuration is a minimal set of options required.
CONFIG_TFM_PROFILE_TYPE_NOT_SET=y
CONFIG_TFM_PARTITION_PLATFORM=y
CONFIG_TFM_PARTITION_CRYPTO=y
CONFIG_TFM_PARTITION_INTERNAL_TRUSTED_STORAGE=y
CONFIG_TFM_PARTITION_PROTECTED_STORAGE=n
CONFIG_TFM_PARTITION_INITIAL_ATTESTATION=n

# This Board implies building Non-Secure firmware
CONFIG_TRUSTED_EXECUTION_NONSECURE=y

# Set TF-M to share the default console
CONFIG_TFM_SECURE_UART0=y
CONFIG_TFM_SECURE_UART_SHARE_INSTANCE=y

    Console output:

    [Disconnected]
[Connected]
Initialized ssd1306@3c
font width 10, font height 16
font width 15, font height 24
font width 20, font height 32
x_res 128, y_res 64, ppt 8, rows 8, cols 128

[00:00:00.000,885] <inf> udc_nrf: Preinit
*** Booting nRF Connect SDK v3.2.1-d8887f6f32df ***
*** Using Zephyr OS v4.2.99-ec78104f1569 ***
[00:00:00.012,756] <inf> udc_nrf: Initialized
[00:00:00.013,153] <dbg> cfb: cfb_framebuffer_init: number of fonts 3
[00:00:00.016,967] <inf> udc_nrf: SUSPEND state detected
[00:00:00.114,532] <inf> udc_nrf: Reset
[00:00:00.114,562] <inf> udc: ep 0x80 is not halted|disabled
[00:00:00.114,593] <inf> udc_nrf: RESUMING from suspend


    Also, I've ran the sample NS  build of sample "tfm_hello_world" on the Thingy53. I noticed an unexpected behaviour.

    Initially, I got the following console output below. Some messages seem to have been dropped for some reason.

    [Connected]
84--- 16 messages dropped ---
dfde2b22388088bd36ccfbcdd9aab068e63105303997eb0d5a
Example finished successfully!
[00:00:00.005,279] <inf> udc_nrf: SUSPEND state detected
[00:00:00.103,698] <inf> udc_nrf: Reset
[00:00:00.103,729] <inf> udc: ep 0x80 is not halted|disabled
[00:00:00.103,759] <inf> udc_nrf: RESUMING from suspend



    If I set "CONFIG_SHELL=y", then the console output is:

    [Connected]
*** Booting nRF Connect SDK v3.2.1-d8887f6f32df ***
*** Using Zephyr OS v4.2.99-ec78104f1569 ***
Hello World! thingy53/nrf5340/cpuapp/ns
Reading some secure memory that NS is allowed to read
Approximate IPC overhead us: 174
FICR->INFO.FLASH: 0x00000400
Generating random number
0xf1663a5d54a3d23924674a231407b1e44908755aad87a0f8a8c364e5986025ca
Hashing 'Hello World! thingy53/nrf5340/cpuapp/ns'
SHA256 digest:
0x8d062694d91c7504ce428d05b015fb1bfcb3437cf5a2fab6ec5db63830751c1e
Example finished successfully!


    I don't understand why the SHELL configuration resolves the dropped messages.

    Can you please run the "tfm_hello_world" sample on a Thingy53 to see if you get the same behaviour. Thank you.

    Best Regards,
    Ravi

  • 0 in reply to zpm1066

    HI Vidar,

    I've found out that the TF-M configuration and logging is slightly different on the nRF5340-DK.

    According to log output from TF-M on the nRF5340-DK, one option is to wire the secure and non-secure UART peripherals to the same pins, i.e. physically wire together the pins P0.25 and P0.26 to P0.20 and P0.22, respectively.

    After wiring together P.025 -> P0.20 & P0.26 -> P0.22, plus using the following TF-M configuration (same as what was used on the Thingy53) worked for NS applications.

    # TF-M profile has to be properly configured to be able to run
# the Bluetooth stack which uses PSA crypto API.
# The following configuration is a minimal set of options required.
CONFIG_TFM_PROFILE_TYPE_NOT_SET=y
CONFIG_TFM_PARTITION_PLATFORM=y
CONFIG_TFM_PARTITION_CRYPTO=y
CONFIG_TFM_PARTITION_INTERNAL_TRUSTED_STORAGE=y
CONFIG_TFM_PARTITION_PROTECTED_STORAGE=n
CONFIG_TFM_PARTITION_INITIAL_ATTESTATION=n

# This Board implies building Non-Secure firmware
CONFIG_TRUSTED_EXECUTION_NONSECURE=y

# Set TF-M to share the default console
CONFIG_TFM_SECURE_UART0=y
CONFIG_TFM_SECURE_UART_SHARE_INSTANCE=y


    Console output (shared by application and TF-M):

    All pins have been configured as non-secure
Booting TF-M v2.2.0
[Sec Thread] Secure image initializing!
TF-M Float ABI: Hard
Lazy stacking enabled

*** Booting nRF Connect SDK v3.2.1-d8887f6f32df ***
*** Using Zephyr OS v4.2.99-ec78104f1569 ***
[00:00:05.421,661] <inf> app: Board target: nrf5340dk/nrf5340/cpuapp/ns

[00:00:05.421,691] <inf> app: bme688x_iaq_ssd1306 - App started
[00:00:05.421,691] <inf> app: Init ssd1306
[00:00:05.421,875] <dbg> cfb: cfb_framebuffer_init: number of fonts 2
[00:00:05.449,005] <inf> oled: Index[0] font dimensions  5x8
[00:00:05.449,035] <inf> oled: Index[1] font dimensions  8x8
[00:00:05.449,035] <inf> oled: Selected font: index[0]
[00:00:05.449,066] <inf> oled: x_res 128, y_res 64, ppt 8, rows 8, cols 128


    Do you know where it is specified that TF-M uses P.25 & P.26 on the nRF5340DK for logging? I couldn't find any reference to it in the nRF5340-DK Hardware Guide or the nRF5340-DK devicetree.

    Also, What pins are used on the Thingy53 for TF-M logging, as I do not see the shared TF-M / application outputs in the Thing53 console output as in nRF5340-DK?

    Thank you.

    Best Regards,
    Ravi

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