UPSTREAM: iface-modem: ignore SIM events during a controlled SIM slot switch If there is an ongoing SIM slot switch, we must ignore all SIM hotswap related events happening during the process. The flag that is set in the Modem interface private info to track this is never reset back to FALSE on a successful SIM slot switch, it will be set for as long as the modem object exists. After the successful SIM slot switch, a new modem reprobe will be requested, which leads to the old modem object to be disposed (the one that had the flag set) and a new modem object created. The logic that already existed in the MBIM modem object is now generalized in the Modem interface itself so that SIM events reported via other protocols are also properly ignored. Signed-off-by: Aleksander Morgado <aleksandermj@google.com> (cherry picked from commit 7d4784ed28cfd4da0532a9e9d0ec02c6751003fc) BUG=b:419062153 TEST=Manual SIM slot switching and reconnection Change-Id: Id59645db5558405e618d196fea9dfb8cc6f93b8a Reviewed-on: https://chromium-review.googlesource.com/c/chromiumos/third_party/modemmanager-next/+/6672869 Commit-Queue: Aleksander Morgado <aleksandermj@google.com> Reviewed-by: Ujjwal Pande <ujjwalpande@google.com> Tested-by: Aleksander Morgado <aleksandermj@google.com>
ModemManager provides a unified high level API for communicating with mobile broadband modems, regardless of the protocol used to communicate with the actual device (Generic AT, vendor-specific AT, QCDM, QMI, MBIM...).
ModemManager uses the meson build system. Meson is likely available as a package from your Linux distribution, but if not please refer to the Meson project for installation instructions. Once you have Meson installed you'll probably want to install libmbim and libqmi which most modems require.
After dependencies are installed you can build ModemManager with:
$ meson setup build --prefix=/usr --buildtype=release $ ninja -C build
And after a successful build, install with:
$ sudo ninja -C build install
ModemManager is a system daemon and is not meant to be used directly from the command line. However, since it provides a DBus API, it is possible to use ‘dbus-send’ commands or the new ‘mmcli’ command line interface to control it from the terminal. The devices are queried from udev and automatically updated based on hardware events, although a manual re-scan can also be requested to look for RS232 modems.
ModemManager is a DBus system bus activated service (meaning it's started automatically when a request arrives). It is written in C, using glib and gio. Several GInterfaces specify different features that the modems support, including the generic MMIfaceModem3gpp and MMIfaceModemCdma which provide basic operations for 3GPP (GSM, UMTS, LTE) or CDMA (CDMA1x, EV-DO) modems. If a given feature is not available in the modem, the specific interface will not be exported in DBus.
Plugins are loaded on startup, and must implement the MMPlugin interface. It consists of a couple of methods which tell the daemon whether the plugin supports a port and to create custom MMBroadbandModem implementations. It most likely makes sense to derive custom modem implementations from one of the generic classes and just add (or override) operations which are not standard. There are multiple fully working plugins in the plugins/ directory that can be used as an example for writing new plugins. Writing new plugins is highly encouraged! The plugin API is open for changes, so if you're writing a plugin and need to add or change some public method, feel free to suggest it!
The ModemManager and mmcli binaries are both GPLv2+ (See COPYING). The libmm-glib library and the ModemManager API headers are LGPLv2+ (See COPYING.LIB).
Please note that this project is released with a Contributor Code of Conduct. By participating in this project you agree to abide by its terms, which you can find in the following link: https://www.freedesktop.org/wiki/CodeOfConduct
CoC issues may be raised to the project maintainers at the following address: modemmanager-devel-owner@lists.freedesktop.org