The comments and instructions below are for the new IP stack in Zephyr.
Here are instructions how to communicate between Zephyr that is running inside QEMU, and host device that is running Linux.
You need to run socat and tunslip to create a minimally working network setup.
There are convenience scripts (loop-socat.sh and loop-slip-tap.sh) for running socat and tunslip6 processes. For running these, you need two terminals.
Terminal 1:
$ ./loop-socat.sh
Terminal 2:
$ sudo ./loop-slip-tap.sh
After running these scripts you do not need to manually restart them when qemu process stops.
In the Qemu side, you need to compile the kernel with proper config. Minimally you need these settings active in your project config file.
CONFIG_NETWORKING=y
CONFIG_NET_IPV6=y
CONFIG_NET_IPV4=y
CONFIG_NET_YAIP=y
CONFIG_NET_UDP=y
CONFIG_NET_LOG=y
CONFIG_NET_SLIP=y
CONFIG_SLIP_TAP=y
CONFIG_SYS_LOG=y
CONFIG_SYS_LOG_SHOW_COLOR=y
CONFIG_NANO_TIMEOUTS=y
CONFIG_TEST_RANDOM_GENERATOR=y
After you have the loop scripts and Qemu running running you can communicate with the Zephyr.
If your have echo-server running in the Qemu, then you can use the echo-client tool in net-tools directory to communicate with it.
# ./echo-client -i tap0 2001:db8::1
The IP stack responds to ping requests if properly configured.
$ ping6 -I tap0 -c 1 2001:db8::1
You can attach wireshark to tap0 interface to see what data is being transferred.
If building with CONFIG_NET_TCP=y in your project config file, it's possible to run the echo-server sample in Zephyr, and then test the TCP stack using the supplied tcptest.py script:
$ ./tcptest.py tap0 2001:db8::1
This script will send numbers to the echo-server program, read them back, and compare if it got the exact bytes back. Transmission errors, timeouts, and time to get the response are all recorded and printed to the standard output.
Be sure to use Python 3, as it requires a function from the socket module that's only available in this version (wrapper around if_nametoindex(3)).
Install stunnel
Fedora:
$ dnf install stunnel
Ubuntu:
$ apt-get install stunnel4 -y
Finally run the stunnel script in Linux
$ ./stunnel.sh
And connect echo-client to this SSL tunnel (note that the IP address is the address of Linux host where the tunnel end point is located).
$ ./echo-client -p 4243 2001:db8::2 -t
If you are running echo-client in Zephyr QEMU, then run echo-server like this:
$ ./echo-server -p 4244 -i tap0
If you want to re-create the certificates in echo-server and echo-client in Zephyr net samples, then they can be created like this (note that you do not need to do this as the certs have been prepared already in echo-server and echo-client sample sources):
$ openssl genrsa -out echo-apps-key.pem 2048
$ openssl req -new -x509 -key echo-apps-key.pem -out echo-apps-cert.pem \
-days 10000 -subj '/CN=localhost'
The cert that is to be embedded into test_certs.h in echo-server and echo-client, can be generated like this:
$ openssl x509 -in echo-apps-cert.pem -outform DER | \
hexdump -e '8/1 "0x%02x, " "\n"' | sed 's/0x ,//g'
The private key to be embedded into test_certs.h in echo-server can be generated like this:
$ openssl pkcs8 -topk8 -inform PEM -outform DER -nocrypt \
-in echo-apps-key.pem | hexdump -e '8/1 "0x%02x, " "\n"' | \
sed 's/0x ,//g'
For DTLS client functionality, you can do this
$ ./dtls-client -c echo-apps-cert.pem 2001:db8::1
or
$ ./dtls-client -c echo-apps-cert.pem 192.0.2.1
For DTLS server functionality, you can do this
$ ./dtls-server
If you see this error print in zephyr console
[net/app] [ERR] _net_app_ssl_mainloop: Closing connection -0x7180 (SSL - Verification of the message MAC failed)
Then increasing the mbedtls heap size might help. So you can set the option CONFIG_MBEDTLS_HEAP_SIZE to some higher value.
Example:
CONFIG_MBEDTLS_HEAP_SIZE=30000