This property will be TRUE if the bearer has the data session
connected through a multiplexed interface.
If the bearer is disconnected, or connected without multiplexing, the
property will report FALSE.
In addition to the amount of bearers a user may connect without
multiplexing enabled (the default until now), we now also expose the
maximum number of bearers a user may connect after enabling
multiplexing over one single network interface (if supported).
The method responsible for creating the MMBearerList is now also
subclassable, so that implementations supporting multiplexing can
provide their own version with their own thresholds.
Both the Simple.Connect() and Modem.CreateBearer() are updated to
allow a new 'multiplex' setting in the properties provided by the user
in both of these methods.
The new setting expects a MMBearerMultiplexSupport enum indicating
what kind of multiplex needs the user has:
* none: if multiplex must not be used.
* requested: if multiplex should be used if available.
* required: if multiplex must be used.
The underlying implementations will take care of accepting or
rejecting the setting depending on the system and modem capabilities.
The ModemManager1.Sim.PreferredNetworks property contains the preferred
networks (and access technologies, if available) configured to the
SIM card.
This commit implements preferred networks reading with AT+CPOL.
This new method allows changing the SIM slot considered as primary,
when the modem supports multiple SIM slots.
The generic handling of this method will make sure that the modem
object and all its SIM objects are re-probed from scratch as soon as a
successful SIM slot switch happens.
Implementations may report MM_CORE_ERROR_EXISTS when the switch
doesn't need to happen (e.g. if the requested SIM slot is already the
active one).
The 'SimSlots' property exposes an array of SIM object paths, with one
array item for each available SIM slot in the system. If a valid SIM
card is found in a given slot, the path of the SIM object will be
exposed in the array item; if no valid SIM card is found, the empty
object path ("/") will be exposed instead.
The 'PrimarySimSlot' property exposes which of the SIM slots available
in the system is the one configured as being primary. In a Multi-SIM
Single-Standby setup, the primary slot will be the one corresponding
to the single active SIM in the system. In a Multi-SIM Multi-Standby
setup, the primary slot will be the one configured to act as primary
(e.g. the one that will be used for the data connection) among all the
active SIM cards found.
In preparation for the multi-SIM setup, we need a way to tell whether
a given SIM card is active or not in the system.
On systems with one single SIM slot, the available SIM card will
always be active.
On Multi-SIM Single-Standby setups we may have multiple SIM slots with
multiple SIM cards, but only one of them will be active at any given
time.
On Multi-SIM Multi-Standby setups we may have multiple SIM slots with
multiple SIM cards that may be active at the same time. E.g. the QMI
protocol allows up to 5 different active SIM cards (primary,
secondary, tertiary...).
Extended the ModemManager Signal interface to include 5G signal
information for RSRP, RSRQ and SINR via libqmi. Also extended mmci
to print 5G signal info.
When we're reusing over and over the same bearer object, we can
provide statistical information about the number of connection
attempts that have been done and how many of them failed.
So that bindings know how to free the list of structs.
This commit ends up triggering an API break in the bindings generated
via GObject introspection, because the methods to access the items of
a MMModem3gppNetwork are no longer treated as Modem3gpp class methods.
E.g. instead of:
ModemManager.Modem3gpp.network_get_operator_code(network)
We should now do:
network.get_operator_code()
There is no API break in libmm-glib.
This new flag allows users of the API to know whether general purpose
voice calls are allowed or otherwise only voice calls to the
registered emergency numbers should be performed.
ModemManager won't really do any distinction between emergency and
non-emergency calls at this point, this flag is just an early
indication for the user of the API that no normal voice call should be
attempted.
This method will join all active and held calls into a single
multiparty call, and then request the network to terminate the call on
the subscriber's end and transfer the control of the call to the
parties that are still in the call.
This method will put the currently active call on hold, and right away
accept the next available call.
The user of the API does not need to specify explicitly which is the
next call to accept, because that is decided automatically:
* If there is any waiting call, it will accept it right away.
* If there is no waiting call but there is a held call, it will make
the held call active again.
This method will hangup the currently active call and right away
accept the next available call.
The user of the API does not need to specify explicitly which is the
next call to accept, because that is decided automatically:
* If there is any waiting call, it will accept it right away.
* If there is no waiting call but there is a held call, it will make
the held call active again.
Which reports the version of the currently active carrier
configuration.
We also update the firmware 'version' reported in the firmware
settings so that carrier-specific upgrades can be performed (e.g. when
the firmware stays the same but the MCFG is updated).
During initialization phase we will allow querying the modem for the
details of which carrier-specific configuration is being used, and
will expose a description string in the API.
In addition to showing the current configuration, we will also allow
automatically switching the configuration based on the SIM card
detected in the device. In order to allow this, plugins/modems will
need to provide the expected mapping between carrier config
description and MCCMNC. This mapping cannot be generic, because
different manufacturers may use different description strings.
This new method allows users of the ModemManager API to take full
control of a given device.
Unlike other operations in the API, the inhibition is maintained as
long as the caller exists in the bus, or until the same caller
uninhibits the device.
https://gitlab.freedesktop.org/mobile-broadband/ModemManager/issues/98
