This commit introduces the packet verification (PV) framework for
certification tests.
- Add packet verification framework code
- Implement packet verification for cert 5.1.7 as a minimal
example. There will be more 1.1/1.2 tests with PV submitted in the
future.
- Download pre-built thread-wireshark binaries from
openthread/wireshark/releases for packet dissecting (used by
pyshark)
- Added a Github Action job for Packet Verification
This commit includes:
- Adding compile configurations necessary for MLR features
- Adding source/header files necessary for MLR features
- Send MLR.req for local MAs on ThreadNetif
- At most one MLR.req is outstanding
- Reregistration according to PBBR configuration
- Renewing periods according to PBBR configuration
- BBRs receive MLR.req with minimal processing and send MLR.rsp
- Add a test to verify that MLR.req is sent for local MAs.
This commit fixes key_id_mode handling and added exception handling
when key_id_mode is 0.
According to IEEE Std 802.15.4-2015, when Key Id Mode is 0x00:
Key is determined implicitly from the originator and recipient(s)
of the frame, as indicated in the frame header.
Our test scripts cannot handle such packets. If we leave key_id_mode =
0 case unhandled, we would get some exceptions that may cause
developers to think that something is wrong. However dropping packets
in this case is a normal behavior.
This commit adds enhanced frame pending feature of Thread 1.2. This
requires the platform radio driver to correctly set frame pending bit
for Data frames and MAC Data Request frames.
Add support for testing commissioning process, including:
1. Add DTLS, Thread Discovery and commissioning messages(JOIN_FIN.req etc) parsing;
2. Support parsing log from UART response, and construct decrypted messages;
3. Common commands for commissioning related verification;
This commit adds the following features:
- Example posix drivers to support virtual time simulation, allowing tests
to run faster than real time.
- A python-based simulation driver that coordinates the virtual time
simulations. Each alarm event and message transmission across all nodes
are scheduled in a single discrete time event queue. As a result, only
a single node is making forward progress at a time.
- Updated tests to utilize new virtual-time simulator, allowing them to run
faster than real time.
- To enable virtual time feature, define VIRTUAL_TIME=1 env var and set
CPPFLAGS=-DOPENTHREAD_POSIX_VIRTUAL_TIME=1.