MIPI DSI (Display Serial Interface) busses ========================================== The MIPI Display Serial Interface specifies a serial bus and a protocol for communication between a host and up to four peripherals. This document will define the syntax used to represent a DSI bus in a device tree. This document describes DSI bus-specific properties only or defines existing standard properties in the context of the DSI bus. Each DSI host provides a DSI bus. The DSI host controller's node contains a set of properties that characterize the bus. Child nodes describe individual peripherals on that bus. The following assumes that only a single peripheral is connected to a DSI host. Experience shows that this is true for the large majority of setups. DSI host ======== In addition to the standard properties and those defined by the parent bus of a DSI host, the following properties apply to a node representing a DSI host. Required properties: - #address-cells: The number of cells required to represent an address on the bus. DSI peripherals are addressed using a 2-bit virtual channel number, so a maximum of 4 devices can be addressed on a single bus. Hence the value of this property should be 1. - #size-cells: Should be 0. There are cases where it makes sense to use a different value here. See below. DSI peripheral ============== Peripherals with DSI as control bus, or no control bus ------------------------------------------------------ Peripherals with the DSI bus as the primary control bus, or peripherals with no control bus but use the DSI bus to transmit pixel data are represented as child nodes of the DSI host's node. Properties described here apply to all DSI peripherals, but individual bindings may want to define additional, device-specific properties. Required properties: - reg: The virtual channel number of a DSI peripheral. Must be in the range from 0 to 3. Some DSI peripherals respond to more than a single virtual channel. In that case two alternative representations can be chosen: - The reg property can take multiple entries, one for each virtual channel that the peripheral responds to. - If the virtual channels that a peripheral responds to are consecutive, the #size-cells can be set to 1. The first cell of each entry in the reg property is the number of the first virtual channel and the second cell is the number of consecutive virtual channels. Peripherals with a different control bus ---------------------------------------- There are peripherals that have I2C/SPI (or some other non-DSI bus) as the primary control bus, but are also connected to a DSI bus (mostly for the data path). Connections between such peripherals and a DSI host can be represented using the graph bindings [1], [2]. [1] Documentation/devicetree/bindings/graph.txt [2] Documentation/devicetree/bindings/media/video-interfaces.txt Examples ======== - (1), (2) and (3) are examples of a DSI host and peripheral on the DSI bus with different virtual channel configurations. - (4) is an example of a peripheral on a I2C control bus connected to a DSI host using of-graph bindings. 1) dsi-host { ... #address-cells = <1>; #size-cells = <0>; /* peripheral responds to virtual channel 0 */ peripheral@0 { compatible = "..."; reg = <0>; }; ... }; 2) dsi-host { ... #address-cells = <1>; #size-cells = <0>; /* peripheral responds to virtual channels 0 and 2 */ peripheral@0 { compatible = "..."; reg = <0, 2>; }; ... }; 3) dsi-host { ... #address-cells = <1>; #size-cells = <1>; /* peripheral responds to virtual channels 1, 2 and 3 */ peripheral@1 { compatible = "..."; reg = <1 3>; }; ... }; 4) i2c-host { ... dsi-bridge@35 { compatible = "..."; reg = <0x35>; ports { ... port { bridge_mipi_in: endpoint { remote-endpoint = <&host_mipi_out>; }; }; }; }; }; dsi-host { ... ports { ... port { host_mipi_out: endpoint { remote-endpoint = <&bridge_mipi_in>; }; }; }; };