[RFC PATCH v2 0/4] Type-C Port Manager
From: Guenter Roeck
Date: Wed Aug 17 2016 - 18:04:52 EST
The following series of patches implements a USB Type-C Port Manager
using the pending USB Type-C class code as basis. The code is still WIP,
but I think it is important to get feedback from the community at this point.
There are four patches in the series. The first two patches make necessary
changes to the Type-C class code. The third patch implements the Type-C
Port Manager state machine. The forth patch is an interface between the
Type-C Port Manager and a TCPCI (Type-C Port Controller Interface) compliant
USB Type-C Port Controller.
Patch 4/4 (the interface to a TCPCI compliant chip) is currently untested
since I don't have the necessary hardware available. The port manager code
was tested connecting to an Embedded Controller on a Chromebook, bypassing
the Port Manager implementation in the EC.
Both Source and Sink operation was tested with various Type-C chargers, docks,
and connectors. Alternate mode support is partially implemented (Alternate mode
support is requested from the partner), but alternate modes are actually
selected. Implementing this will require more thought, since the actual
alternate mode support has to be implemented elsewhere, such as in a dedicated
Phy driver. It should be possible to implement the interface between phy driver
and Type-C Port Controller driver using extcon, but I have not further explored
the possibilities, and other options might be possible and/or better.
v2:
- Class code no longer uses locking, so the patch to remove it is no longer
necessary.
- tcpm: Only update polarity if setting it was successful
If setting the CC line polarity in the driver was not successful,
don't update the internal polarity state.
- tcpm: All PD messages are little endian; convert to and from CPU endianness.
- tcpm: Avoid comparisons against NULL.
- tcpm: Use u8/u16/u32 instead of uint8_t/uint16_t/uint32_t consistently.
- tcpm/tcpc: Callbacks into tcpm need to be lockless to avoid timing problems
in low level drivers.
- tcpm/tcpc: Simplify callbacks; tcpm can request the current state of cc/vbus
when it is ready to use it.
- Applies to v5 of "USB Type-C Connector class" patch series.