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[MATTER-135] TE8 fixes (#16721)
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OTA
* add support for compiling without OTA support. If this happens, then the
application is written at address 0 in flash (instead at 0 + 16K - required
for SSBL). Also, more space is available for the app in this case;
* add detailed README instructions;
* increase idle task stack size - that's because writes to the eeprom are
done on the idle task;
* allow the application to specify the block size for each OTA fragment;
* add NXP SDK fixes for fixing eeprom race conditions;
* add NXP SDK fix for allowing the processing of OTA blocks of different
sizes;
* add support for parsing the OTA header;
* fix OTA logic such that the application can pace the rate at which new OTA
fragments are requested;

Tokenizer
* add detailed README instructions.

Light app/Lock app
* enable lock tracking;
* schedule OTA/Matter attribute change/Server operations on the Matter task;
* avoid checking if thread is provisioned in a busy loop on eeprom - use an
event instead;
* disable mbedtls error logging (~13K) and instead add error logs in MemConfig.cpp
in case mbedtls memory allocations fail;
* change task priorities such that the app task has a smaller priority than the
Matter one;
* enable CHIP_DEVICE_CONFIG_ENABLE_TEST_SETUP_PARAMS such that the PBKDF are
hard-coded on the device side;
* refactor the gn options such that K32W0 module can be easily configured to be
attached to a dk different than DK6;
* group initialization calls in a single function;
* consider the case when WriteConfigValueStr is not called with a NULL-terminated
string.
* refactor board initialization code;
* allow building k32w light application with ota support - disable ble
for the moment, until a size-optimized SDK is released;
* fix NFC compilation error is BLE is disabled.

Signed-off-by: Doru Gucea <[email protected]>
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doru91 authored and pull[bot] committed May 13, 2022
1 parent 44b73a3 commit 1533636
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16 changes: 16 additions & 0 deletions .github/.wordlist.txt
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Expand Up @@ -12,6 +12,7 @@ aabbccddeeff
aarch
abcdef
abfb
appwrite
ABI
ABIs
ables
Expand Down Expand Up @@ -175,6 +176,7 @@ CatalogVendorId
CBB
cbd
ccf
csg
CCMP
CCS
CCSTUDIO
Expand Down Expand Up @@ -315,6 +317,7 @@ dataset
datasets
DataVersion
dbf
doru
DBG
dBm
DBUILD
Expand Down Expand Up @@ -594,8 +597,10 @@ IDF
IDL
IDLs
idx
ifconfig
ifdef
ifdefs
itsfoss
IGMP
ignoreApplyUpdate
ignoreQueryImage
Expand Down Expand Up @@ -897,6 +902,8 @@ optionOverride
optionsMask
optionsOverride
orgs
otaissues
otatesting
OTA
OTADownloader
otaDownloadPath
Expand Down Expand Up @@ -940,7 +947,10 @@ pbxproj
PCA
pcaps
PDFs
PDM
PDK
PSECT
pdm
peerAddrStr
peerNodeId
peerSessionId
Expand All @@ -949,6 +959,7 @@ percentageLiftValue
periodicQueryTimeout
pexpect
pickString
psect
PID
Pigweed
PinCode
Expand Down Expand Up @@ -1019,6 +1030,7 @@ QRCodeUrl
QSPI
QueryImage
QueryImageResponse
Quickstart
queryImageStatus
qvCHIP
RADVD
Expand All @@ -1028,6 +1040,7 @@ rAv
RCP
ReadAttribute
ReadConfigValue
RPis
readelf
readfds
README
Expand Down Expand Up @@ -1089,6 +1102,7 @@ scalable
scm
sco
scp
ssbl
ScriptBinding
SDC
SDHC
Expand Down Expand Up @@ -1119,6 +1133,7 @@ SetupQRCode
sexualized
SHA
ShadeConfiguration
SSBL
showDocumentation
shubhamdp
SIGINT
Expand Down Expand Up @@ -1345,6 +1360,7 @@ whde
whitespace
whitespaces
whl
wg
wic
WiFiNetworkDiagnostics
WindowCovering
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6 changes: 3 additions & 3 deletions .github/workflows/examples-k32w.yaml
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Expand Up @@ -70,8 +70,8 @@ jobs:
run: |
scripts/run_in_build_env.sh "\
./scripts/build/build_examples.py \
--target k32w-light-release \
--target k32w-light-tokenizer-release \
--target k32w-light-ota-se \
--target k32w-light-release-no-ota \
--target k32w-lock-low-power-release \
--target k32w-shell-release \
build \
Expand All @@ -82,7 +82,7 @@ jobs:
run: |
.environment/pigweed-venv/bin/python3 scripts/tools/memory/gh_sizes.py \
k32w k32w061+release light \
out/artifacts/k32w-light-release/chip-k32w061-light-example \
out/artifacts/k32w-light-release-no-ota/chip-k32w061-light-example \
/tmp/bloat_reports/
- name: Get lock size stats
timeout-minutes: 5
Expand Down
12 changes: 11 additions & 1 deletion examples/lighting-app/nxp/k32w/k32w0/BUILD.gn
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Expand Up @@ -21,6 +21,7 @@ import("${k32w0_sdk_build_root}/k32w0_sdk.gni")

import("${chip_root}/src/crypto/crypto.gni")
import("${chip_root}/src/lib/core/core.gni")
import("${chip_root}/src/lib/core/core.gni")
import("${chip_root}/src/platform/device.gni")

if (chip_pw_tokenizer_logging) {
Expand Down Expand Up @@ -82,7 +83,7 @@ k32w0_executable("light_app") {
deps = [
":sdk",
"${chip_root}/examples/common/QRCode",
"${chip_root}/examples/ota-requestor-app/ota-requestor-common",
"${chip_root}/examples/lighting-app/lighting-common/",
"${chip_root}/src/lib",
"${chip_root}/third_party/mbedtls:mbedtls",
"${k32w0_platform_dir}/app/support:freertos_mbedtls_utils",
Expand All @@ -108,6 +109,15 @@ k32w0_executable("light_app") {

ldflags = [ "-T" + rebase_path(ldscript, root_build_dir) ]

if (chip_enable_ota_requestor) {
ldflags += [
"-Wl,--defsym",
"-Wl,__app_load_address__=0x4000",
"-Wl,--defsym",
"-Wl,__app_stated_size__=0x99A00",
]
}

output_dir = root_out_dir
}

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218 changes: 208 additions & 10 deletions examples/lighting-app/nxp/k32w/k32w0/README.md
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Expand Up @@ -23,13 +23,14 @@ network.
- [Device UI](#device-ui)
- [Building](#building)
- [Flashing and debugging](#flashdebug)
- [Testing the example](#testing-the-example)
- [Pigweed Tokenizer](#tokenizer)
- [Detokenizer script](#detokenizer)
- [Notes](#detokenizer-notes)
- [Known issues](#detokenizer-known-issues)

<hr>
- [OTA](#ota) - [Writing the SSBL](#ssbl) - [Writing the PSECT](#psect) -
[Writing the application](#appwrite) - [OTA Testing](#otatesting) -
[Known issues](#otaissues)
</hr>

<a name="intro"></a>

Expand Down Expand Up @@ -226,13 +227,6 @@ All you have to do is to replace the Openthread binaries from the above
documentation with _out/debug/chip-k32w061-light-example.bin_ if DK6Programmer
is used or with _out/debug/chip-k32w061-light-example_ if MCUXpresso is used.

## Testing the example

The app can be deployed against any generic OpenThread Border Router. See the
guide
[Commissioning NXP K32W using Android CHIPTool](../../../docs/guides/nxp_k32w_android_commissioning.md)
for step-by-step instructions.

<a name="tokenizer"></a>

## Pigweed tokenizer
Expand Down Expand Up @@ -299,3 +293,207 @@ script won't find them in the special-created sections.
If run, closed and rerun with the serial option on the same serial port, the
detokenization script will get stuck and not show any logs. The solution is to
unplug and plug the board and then rerun the script.

<a name="ota"></a>

## OTA

The internal flash needs to be prepared for the OTA process. First 16K of the
internal flash needs to be populated with a Secondary Stage Bootloader (SSBL)
related data while the last 8.5K of flash space is holding image directory
related data (PSECT). The space between these two zones will be filled by the
application.

<a name="ssbl"></a>

### Writing the SSBL

The SSBL can ge generated from one of the SDK demo examples. The SDK demo
example needs to be compiled inside MCUXpresso with the define _PDM_EXT_FLASH_.
The SSBL demo application can be imported from the _Quickstart panel_: _Import
SDK example(s)_ -> select _wireless->framework->ssbl_ application.

![SSBL Application Select](../../../../platform/nxp/k32w/k32w0/doc/images/ssbl_select.JPG)

The SSBL project must be compiled using the PDM_EXT_FLASH define.

![PDM_EXT_FLASH](../../../../platform/nxp/k32w/k32w0/doc/images/pdm_ext_flash.JPG)

Once compiled, the required ssbl file is called k32w061dk6_ssbl.bin

![SSBL_BIN](../../../../platform/nxp/k32w/k32w0/doc/images/ssbl_bin.JPG)

Before writing the SSBL, it it recommanded to fully erase the internal flash:

```
DK6Programmer.exe -V 5 -P 1000000 -s <COM_PORT> -e Flash
```

k32w061dk6_ssbl.bin must be written at address 0 in the internal flash:

```
DK6Programmer.exe -V2 -s <COM_PORT> -P 1000000 -Y -p FLASH@0x00="k32w061dk6_ssbl.bin"
```

<a name="psect"></a>

### Writing the PSECT

First, image directory 0 must be written:

```
DK6Programmer.exe -V5 -s <COM port> -P 1000000 -w image_dir_0=0000000010000000
```

Here is the interpretation of the fields:

```
00000000 -> start address 0x00000000
1000 -> size = 0x0010 pages of 512-bytes (= 8kB)
00 -> not bootable (only used by the SSBL to support SSBL update)
00 -> SSBL Image Type
```

Second, image directory 1 must be written:

```
DK6Programmer.exe -V5 -s <COM port> -P 1000000 -w image_dir_1=00400000CD040101
```

Here is the interpretation of the fields:

```
00400000 -> start address 0x00004000
CD04 -> 0x4CD pages of 512-bytes (= 614,5kB)
01 -> bootable flag
01 -> image type for the application
```

<a name="appwrite"></a>

### Writing the application

DK6Programmer can be used for flashing the application:

```
DK6Programmer.exe -V2 -s <COM_PORT> -P 1000000 -Y -p FLASH@0x4000="chip-k32w061-light-example.bin"
```

If debugging is needed, MCUXpresso can be used then for flashing the
application. Please make sure that the application is written at address 0x4000:

![FLASH_LOCATION](../../../../platform/nxp/k32w/k32w0/doc/images/flash_location.JPG)

<a name="otatesting"></a>

### OTA Testing

The OTA topology used for OTA testing is illustrated in the figure below.
Topology is similar with the one used for Matter Test Events.

![OTA_TOPOLOGY](../../../../platform/nxp/k32w/k32w0/doc/images/ota_topology.JPG)

The concept for OTA is the next one:

- there is an OTA Provider Application that holds the OTA image. In our case,
this is a Linux application running on an Ubuntu based-system;
- the OTA Requestor functionality is embedded inside the Lighting Application.
It will be used for requesting OTA blocks from the OTA Provider;
- the controller (a linux application called chip-tool) will be used for
commissioning both the device and the OTA Provider App. The device will be
commissioned using the standard Matter flow (BLE + IEEE 802.15.4) while the
OTA Provider Application will be commissioned using the _onnetwork_ option
of chip-tool;
- during commissioning, each device is assigned a node id by the chip-tool
(can be specified manually by the user). Using the node id of the device and
of the lighting application, chip-tool triggers the OTA transfer by invoking
the _announce-ota-provider_ command - basically, the OTA Requestor is
informed of the node id of the OTA Provider Application.

_Computer #1_ can be any system running an Ubuntu distribution. We recommand
using TE 7.5 instructions from
[here](https://groups.csa-iot.org/wg/matter-csg/document/24839), where RPi 4 are
proposed. Also, TE 7.5 instructions document point to the OS/Docker images that
should be used on the RPis. For compatibility reasons, we recommand compiling
chip-tool and OTA Provider applications with the same commit id that was used
for compiling the Lighting Application. Also, please note that there is a single
controller (chip-tool) running on Computer #1 which is used for commissioning
both the device and the OTA Provider Application. If needed,
[these instructions](https://itsfoss.com/connect-wifi-terminal-ubuntu/) could be
used for connecting the RPis to WiFi.

Build the Linux OTA provider application:

```
doru@computer1:~/connectedhomeip$ : ./scripts/examples/gn_build_example.sh examples/ota-provider-app/linux out/ota-provider-app chip_config_network_layer_ble=false
```

Build OTA image and start the OTA Provider Application:

```
doru@computer1:~/connectedhomeip$ : ./src/app/ota_image_tool.py create -v 0xDEAD -p 0xBEEF -vn 1 -vs "1.0" -da sha256 chip-k32w061-light-example.bin chip-k32w061-light-example.ota
doru@computer1:~/connectedhomeip$ : rm -rf /tmp/chip_*
doru@computer1:~/connectedhomeip$ : ./out/ota-provider-app/chip-ota-provider-app -f chip-k32w061-light-example.ota
```

Build Linux chip-tool:

```
doru@computer1:~/connectedhomeip$ : ./scripts/examples/gn_build_example.sh examples/chip-tool out/chip-tool-app
```

Provision the OTA provider application and assign node id _1_. Also, grant ACL
entries to allow OTA requestors:

```
doru@computer1:~/connectedhomeip$ : rm -rf /tmp/chip_*
doru@computer1:~/connectedhomeip$ : ./out/chip-tool-app/chip-tool pairing onnetwork 1 20202021
doru@computer1:~/connectedhomeip$ : ./out/chip-tool-app/chip-tool accesscontrol write acl '[{"fabricIndex": 1, "privilege": 5, "authMode": 2, "subjects": [112233], "targets": null}, {"fabricIndex": 1, "privilege": 3, "authMode": 2, "subjects": null, "targets": null}]' 1 0
```

Provision the device and assign node id _2_:

```
doru@computer1:~/connectedhomeip$ : ./out/chip-tool-app/chip-tool pairing ble-thread 2 hex:<operationalDataset> 20202021 3840
```

Start the OTA process:

```
doru@computer1:~/connectedhomeip$ : ./out/chip-tool-app/chip-tool otasoftwareupdaterequestor announce-ota-provider 1 0 0 0 2 0
```

<a name="otaissues"></a>

## Known issues

- SRP cache on the openthread border router needs to flushed each time a new
commissioning process is attempted. For this, factory reset the device, then
execute _ot-ctl server disable_ followed by _ot-ctl server enable_. After
this step, the commissioning process of the device can start;
- Due to some MDNS issues, the commissioning of the OTA Provider Application
may fail. Please make sure that the SRP cache is disabled (_ot-ctl srp
server disable_) on the openthread border router while commissioning the OTA
Provider Application;
- No other Docker image should be running (e.g.: Docker image needed by Test
Harness) except the OTBR one. A docker image can be killed using the
command:

```
doru@computer1:~/connectedhomeip$ : sudo docker kill $container_id
```

- In order to avoid MDNS issues, only one interface should be active at one
time. E.g.: if WiFi is used then disable the Ethernet interface and also
disable multicast on that interface:

```
doru@computer1:~/connectedhomeip$ sudo ip link set dev eth0 down
doru@computer1:~/connectedhomeip$ sudo ifconfig eth0 -multicast
```

- If OTBR Docker image is used, then the "-B" parameter should point to the
interface used for the backbone.

- If Wi-Fi is used on a RPI4, then a 5Ghz network should be selected.
Otherwise, issues related to BLE-WiFi combo may appear.
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