typecd is a system daemon for tracking the state of various USB Type C ports and connected peripherals on a Chromebook. It interfaces with the Linux Type C connector class framework to obtain notifications about Type C events, and to pull updated information about ports and port-partners state. It also listens to USB events for handling USB device add/remove.
The general structure of the classes is best illustrated by a few diagrams:
Daemon | | | ------------------------------------------------------------------------------------------------------ | | | | | | | | | | | | | | | | | | | | | | | | UdevMonitor ----usb- udev- events--> UsbMonitor | | | | | | | | | ------typec- udev- events-----> PortManager ---> ECUtil --> NotificationManager SessionManagerProxy /|\ | | | | -------------- | | | ---------------------------------------------------------- session_manager events
All communication and event notification between the Linux Kernel Type C connector class framework and typecd occurs through the udev mechanism. This class watches for any events of the typec
subsystem. Other classes (in this case, PortManager
) can register TypecObserver
s with UdevMonitor
. When any notification occurs, UdevMonitor
calls the relevant function callback from the registered TypecObserver
s.
This class also watches for events of the usb
subsystem. Similar to TypecObserver
, there is UsbObserver
with callbacks for usb
add/remove events.
This class has basic parsing to determine which Observer
should be called (is this a port/partner/cable notification? is it add/remove/change?)
This class maintains a representation of all the state of a typec port exposed by the Type C connector class via sysfs. The primary entity for PortManager
is a Port.
PortManager(UdevMonitor::TypecObserver) | | | --------------------------------------- | | | | | | | | | Port0 Port1 .... PortN
PortManager
sub-classes UdevMonitor::TypecObserver
, and registers itself to receive typec event notifications. In turn, it routes the notifications to the relevant object (Port, Partner, Cable) that the notification affects.
This class represents a physical Type C connector on the host, along with components that are connected to it. Each Port
has a sysfs path associated with it of the form /sys/class/typec/portX
where all the data (including relevant PD information) is exposed by the kernel. On udev events this sysfs directory is read to update the Port
's in-memory state. A Port
can be detailed as follows:
Port | | ----------------------------------------------------------- | | | | | | (sysfs path info) Partner Cable
This class represents a device/peripheral connected to a Port
. There can only be 1 partner for each Port
. Each Partner
has a sysfs path associated with it of the form /sys/class/typec/portX-partner
where all the data (including relevant PD information) is exposed by the kernel. On udev events this sysfs directory is read to update the Partner
's in-memory state.
This class also stores a list of Alternate Modes which are supported by the partner. Each Alternate mode is given an index according to the index ascribed to it by the kernel.
Partner | | ------------------------------------------------------------------------ | | | | | | | | | | (sysfs path info) PD Identity info AltMode0 AltMode1 ... AltModeN
There are getters and setters to access the PD identity information (for example, {Get,Set}ProductVDO()
). There are also functions to retrieve information associated with partner altmodes, like getting a pointer to an altmode (GetAltMode()
).
This class represents a cable that connects a Port
to a Partner
. There can only be 1 cable for each Port
. Each Cable
has a sysfs path associated with it of the form /sys/class/typec/portX-cable
where the PD identity data is exposed by the kernel.
This class also stores a list of Alternate Modes which are supported by the cable. Each Alternate mode is given an index according to the index ascribed to it by the kernel. At present only SOP' cable plug alt modes are supported. Even though each cable plug (i.e SOP' and SOP'') has its own device and sysfs path (of the form /sys/class/typec/portX-plug.{0|1}
), since the Chrome OS Embedded Controller (EC) only enumerates SOP' alt modes, we don‘t create a separate class and instead just list the Alternate Modes of SOP’ as belonging to the associated Cable
.
When UdevMonitor
receives an add
event for a SOP' plug device, the Cable
code searches through the corresponding sysfs file and adds all the alternate Modes associated with that file. It also reacts to individual SOP' plug altmode device add udev events and registers those, in case they weren‘t already registered during SOP’ plug registration.
Cable | | ------------------------------------------------------------------------------------ | | | | | | | | | | (sysfs path info) PD Identity info SOP' AltMode0 SOP' AltMode1 ... SOP' AltModeN
There are getters and setters to access the PD identity information (for example, {Get,Set}ProductVDO()
). There are also functions to retrieve information associated with partner altmodes, like getting a pointer to an altmode (GetAltMode()
).
Since there is no consistent sysfs interface to trigger alternate (or USB4) mode entry/exit, typecd uses the EC to accomplish this. PortManager
possesses a pointer to an object implementing this interface. In production code, this interface is implemented by CrosECUtil
, which communicates with the EC via debugd
by means of D-Bus IPC. debugd in turn uses ectool
to send the relevant command to the EC.
The debugd
API used by CrosECUtil
is protected by D-Bus policy files that only allow users of type typecd
to call it.
PortManager | | CrosECUtil |---------------------> (implements ECUtil) | | | (D-Bus) | | |------------> debugd | | | (ectool) | | \|/ Chrome OS EC
For unit tests, a mock implementation of the interface is used (MockECUtil
) and its behaviour can be controlled based on what is being tested.
On devices where AP-driven mode entry is supported, the alternate mode which a Type C peripheral will enter is dictated by the current session state (logged in, locked, etc.). To receive the state updates, typecd
registers a listener for session_manager
session event D-Bus signals using SessionManagerProxy
. When these signals are received, PortManager
is notified. PortManager
then updates its internal state variable (which tracks session state), and depending on the session event, performs an alternate mode switch (by exiting the current mode and then running the mode entry sequence again).
PortManager (implements SessionManagerObserverInterface) /|\ | | |-------------> SessionManagerProxy /|\ | | (D-Bus) | | |---------- session_manager
For unit tests, where it's difficult to emulate the asynchronous session_manager
events, we emulate the same behaviour by calling the PortManager
's SessionManagerObserverInterface
functions.
This class maintains a representation of USB devices in sysfs.
UsbMonitor | | ------------------------------------------ | | | UsbDevice0 UsbDevice1 ... UsbDeviceN
Similar to PortManager
, UsbMonitor
sub-classes UdevMonitor::UsbObserver
, and registers itself to receive USB event notifications. In turn, it adds or removes relevant UsbDevice
object.
This class represents a connected USB device. A UsbDevice
may contain Type C port number if it is connected to a Type C port.
UsbDevice | | ----------------------------- | | | busnum devnum typec_port_num
The PortManager
contains a pointer to a NotificationManager
instance which signals notification requests to Chromium over D-bus. In Chromium, Aura Shell (Ash) includes instances of the PciePeripheralNotificationController
and UsbPeripheralNotificationController
classes which inherit from the TypecdClient
class. The NotificationManager
supports two types of D-bus message. (1) DeviceConnectedType
which signals the capabilities of the connected device and (2) CableWarningType
which signals a scenario where the connected partner may be limited in some way by the cable. On receiving D-bus signals sent by the typec NotificationManager
, the USB and PCIe notification controller classes in Ash will process the type of signal received to determine which notification, if any, to show the user.
PortManager -------> NotificationManager | | (D-Bus) | \|/ Ash | | ----------------------------------------------------------- | | | | PciePeripheralNotificationController UsbPeripheralNotificationController (implements TypecdClient) (implements TypecdClient)
On Partner
s which support both Thunderbolt 3 (TBT3) alternate mode as well as DisplayPort (DP) alternate mode, the choice of which mode to enter can depend on a few factors like the current user session state and the value of the PeripheralDataAccessEnabled
device setting. We can describe the expected behaviour with the help of a table. NOTE: The following applies only to TBT3 docks and peripherals that also support DP alternate mode.
Device Event | PciPeripheralAccess == true | PciPeripheralAccess == false |
---|---|---|
Hotplug when unlocked | TBT3 | DP |
Hotplug when locked | DP | DP |
Hotplug when logged out | DP | DP |
Hotplug - Guest Mode | DP | DP |
Already connected, then screen unlocks | DP -> TBT3 | DP |
Already connected, then screen locks | TBT3 | DP |
Already connected, then login occurs | DP -> TBT3 | DP |
Already connected, then logout occurs | TBT3 -> DP | DP |