When station 'show' is invoked, parse and print any IP addresses
associated with the interface.
If iwd network configuration is disabled and no IP addresses were
configured, print a hint to the user that a DHCP client might need to be
configured.
WEP networks are not supported by iwd. However, the only indication is the
message "Operation not supported" while trying to connect. It is not clear
enough that this is due to intentional lack of support (as opposed to some
kind of misconfiguration). This patch explicitly lists WEP networks shown
with get-networks as unsupported. Hopefully this will make it clearer for
those of us not as familiar with iwd.
This fixes up a previous commit which breaks iwctl. The
check was added to satisfy static analysis but it ended
up preventing iwctl from starting. In this case mkdir
can fail (e.g. if the directory already exists) and only
if it fails should the history be read. Otherwise a
successful mkdir return indicates the history folder is
new and there is no reason to try reading it.
The diagnostic interface will now only come up when station is
connected. This avoids the need for display station to return
a 'connected' out parameter. We can instead just see that
the diagnostic interface doesn't exist.
This will show some basic AP information like Started and
network Name. Some cleanup was done to make the AP interface
and client table columns line up.
StartProfile was added to the AP interface but the required
command was never added to iwctl. This command requires a
profile exists in <configuration dir>/ap/. The syntax is as
follows:
ap <wlanX> start-profile <profile_name>
This command uses GetDiagnostics to show a list of connected
clients and some information about them. The information
contained for each connected station nearly maps 1:1 with the
station diagnostics information shown in "station <wlan> show"
apart from "ConnectedBss" which is now "Address".
For now this module serves as a helper for printing diagnostic
dictionary values. The new API (diagnostic_display) takes a
Dbus iterator which has been entered into a dictionary and
prints out each key and value. A mapping struct was defined
which maps keys to types and units. For simple cases the mapping
will consist of a dbus type character and a units string,
e.g. dBm, Kbit/s etc. For more complex printing which requires
processing the value the 'units' void* cant be set to a
function which can be custom written to handle the value.
This takes a Dbus iterator which has been entered into a
dictionary and prints out each key and value. It requires
a mapping which maps keys to types and units. For simple
cases the mapping will consist of a dbus type character
and a units string, e.g. dBm, Kbit/s etc. For more complex
printing which requires processing the value the 'units'
void* cant be set to a function which can be custom written
to handle the value.
The information requested with GetDiagnostics will now appear in
the "station <iface> show" command. If IWD is not connected, or
there is no diagnostic interface (older IWD version) 'show' will
behave as it always has, only showing scanning/connected.
Readline uses the characters \001 and \002 to mark the start and end
of zero-length character sequnces in the prompt before prompt
expansion. Without these characters the input point can become offset
from the visual end of the prompt when performing some actions.
When the client is interrupted in the middle of user input entry and the
input is masked, the terminal might be left in a weird state. Make sure
to reset the prompt if the agent is being cleaned up in the middle of an
operation.
The display refresh is automatically enabled or disabled depending on
the width of the window. This allows to avoid the incorrect display on
refresh for the small windows.
Instead of calling display(""), explicitly use the sequence of
commands to force readline to properly update its internal state
and re-display the prompt.
Doing 'ad-hoc <wlan> start_open <"network name">' returned a
"No matching method found" error because start_open called
net.connman.iwd.AdHoc.Start instead of net.connman.iwd.AdHoc.StartOpen.
Do agent registration as part of agent manager proxy creation.
This ensures that the registration call is made only after the agent
manager’s interface becomes available on the bus.
Add the newly created proxy objects into the queue before the
interface specific initialization logic takes place. This way the new
proxy objects can be used within the initialization procedures.
Previously, the parsing of the OMs objects has been done in one pass,
therefore, the proxy object's dependencies may not have been parsed at the
time when they were looked up for the dependency assignments. Now, the
parsing of the OM objects is done in two passes: 1) Create proxy objects -
one per interface and path, 2) Populate the proxy objects with properties
and assign dependencies. Therefore, we are guaranteed to have the proxy
objects created by the time they are looked up for the dependency
assignments.
These arrays should have been declared extern in the first place.
Newer versions of gcc now complain about this:
/usr/lib/gcc/x86_64-pc-linux-gnu/9.2.0/../../../../x86_64-pc-linux-gnu/bin/ld: client/dbus-proxy.o:(.bss+0x0): multiple definition of `properties_yes_no_opts'; client/adapter.o:(.bss+0x0): first defined here
/usr/lib/gcc/x86_64-pc-linux-gnu/9.2.0/../../../../x86_64-pc-linux-gnu/bin/ld: client/dbus-proxy.o:(.bss+0x20): multiple definition of `properties_on_off_opts'; client/adapter.o:(.bss+0x20): first defined here
/usr/lib/gcc/x86_64-pc-linux-gnu/9.2.0/../../../../x86_64-pc-linux-gnu/bin/ld: client/device.o:(.bss+0x20): multiple definition of `properties_on_off_opts'; client/adapter.o:(.bss+0x20): first defined here
/usr/lib/gcc/x86_64-pc-linux-gnu/9.2.0/../../../../x86_64-pc-linux-gnu/bin/ld: client/device.o:(.bss+0x0): multiple definition of `properties_yes_no_opts'; client/adapter.o:(.bss+0x0): first defined here
/usr/lib/gcc/x86_64-pc-linux-gnu/9.2.0/../../../../x86_64-pc-linux-gnu/bin/ld: client/known-networks.o:(.bss+0x0): multiple definition of `properties_yes_no_opts'; client/adapter.o:(.bss+0x0): first defined here
/usr/lib/gcc/x86_64-pc-linux-gnu/9.2.0/../../../../x86_64-pc-linux-gnu/bin/ld: client/known-networks.o:(.bss+0x20): multiple definition of `properties_on_off_opts'; client/adapter.o:(.bss+0x20): first defined here
/usr/lib/gcc/x86_64-pc-linux-gnu/9.2.0/../../../../x86_64-pc-linux-gnu/bin/ld: client/properties.o:(.data.rel.local+0x0): multiple definition of `properties_yes_no_opts'; client/adapter.o:(.bss+0x0): first defined here
/usr/lib/gcc/x86_64-pc-linux-gnu/9.2.0/../../../../x86_64-pc-linux-gnu/bin/ld: client/properties.o:(.data.rel.local+0x20): multiple definition of `properties_on_off_opts'; client/adapter.o:
In non-interactive mode request the managed object right away and do
not wait for the service to appear. This way client can fail right
away instead of endlessly waiting in non-interactive mode.
Keep cursor's position consistent when passphrase is reaching
its maximum by adding characters in the middle of the string
The use case is very rare as not many people will attempt to
modify the masked passphrase from the middle.
Previously, CTRL+D used to cause termination of the client. Now, the
command will cancel the agent’s prompts in agent mod. In regular mode
the behavior is unchanged.