System Control and Management Interface (SCMI) Message Protocol ---------------------------------------------------------- The SCMI is intended to allow agents such as OSPM to manage various functions that are provided by the hardware platform it is running on, including power and performance functions. This binding is intended to define the interface the firmware implementing the SCMI as described in ARM document number ARM DEN 0056A ("ARM System Control and Management Interface Platform Design Document")[0] provide for OSPM in the device tree. Required properties: The scmi node with the following properties shall be under the /firmware/ node. - compatible : shall be "arm,scmi" or "arm,scmi-smc" for smc/hvc transports, or "linaro,scmi-optee" for OP-TEE transport. - mboxes: List of phandle and mailbox channel specifiers. It should contain exactly one or two mailboxes, one for transmitting messages("tx") and another optional for receiving the notifications("rx") if supported. - shmem : List of phandle pointing to the shared memory(SHM) area as per generic mailbox client binding. - #address-cells : should be '1' if the device has sub-nodes, maps to protocol identifier for a given sub-node. - #size-cells : should be '0' as 'reg' property doesn't have any size associated with it. - arm,smc-id : SMC id required when using smc or hvc transports - linaro,optee-channel-id : Channel specifier required when using OP-TEE transport. Optional properties: - mbox-names: shall be "tx" or "rx" depending on mboxes entries. See Documentation/devicetree/bindings/mailbox/mailbox.txt for more details about the generic mailbox controller and client driver bindings. Mailbox doorbell is used as a mechanism to alert the presence of a messages and/or notification. Each protocol supported shall have a sub-node with corresponding compatible as described in the following sections. If the platform supports dedicated communication channel for a particular protocol, properties shall be present in the sub-node corresponding to that protocol. These properties are: - mboxes, mbox-names and shmem for mailbox transport - arm,smc-id and shmem for smc/hvc transport - linaro,optee-channel-id and possibly shmem for OP-TEE transport Clock/Performance bindings for the clocks/OPPs based on SCMI Message Protocol ------------------------------------------------------------ This binding uses the common clock binding[1]. Required properties: - #clock-cells : Should be 1. Contains the Clock ID value used by SCMI commands. Power domain bindings for the power domains based on SCMI Message Protocol ------------------------------------------------------------ This binding for the SCMI power domain providers uses the generic power domain binding[2]. Required properties: - #power-domain-cells : Should be 1. Contains the device or the power domain ID value used by SCMI commands. Regulator bindings for the SCMI Regulator based on SCMI Message Protocol ------------------------------------------------------------ An SCMI Regulator is permanently bound to a well defined SCMI Voltage Domain, and should be always positioned as a root regulator. It does not support any current operation. SCMI Regulators are grouped under a 'regulators' node which in turn is a child of the SCMI Voltage protocol node inside the desired SCMI instance node. This binding uses the common regulator binding[6]. Required properties: - reg : shall identify an existent SCMI Voltage Domain. Sensor bindings for the sensors based on SCMI Message Protocol -------------------------------------------------------------- SCMI provides an API to access the various sensors on the SoC. Required properties: - #thermal-sensor-cells: should be set to 1. This property follows the thermal device tree bindings[3]. Valid cell values are raw identifiers (Sensor ID) as used by the firmware. Refer to platform details for your implementation for the IDs to use. Reset signal bindings for the reset domains based on SCMI Message Protocol ------------------------------------------------------------ This binding for the SCMI reset domain providers uses the generic reset signal binding[5]. Required properties: - #reset-cells : Should be 1. Contains the reset domain ID value used by SCMI commands. SRAM and Shared Memory for SCMI ------------------------------- A small area of SRAM is reserved for SCMI communication between application processors and SCP. The properties should follow the generic mmio-sram description found in [4] Each sub-node represents the reserved area for SCMI. Required sub-node properties: - reg : The base offset and size of the reserved area with the SRAM - compatible : should be "arm,scmi-shmem" for Non-secure SRAM based shared memory [0] http://infocenter.arm.com/help/topic/com.arm.doc.den0056a/index.html [1] Documentation/devicetree/bindings/clock/clock-bindings.txt [2] Documentation/devicetree/bindings/power/power-domain.yaml [3] Documentation/devicetree/bindings/thermal/thermal.txt [4] Documentation/devicetree/bindings/sram/sram.yaml [5] Documentation/devicetree/bindings/reset/reset.txt [6] Documentation/devicetree/bindings/regulator/regulator.yaml Example: sram@50000000 { compatible = "mmio-sram"; reg = <0x0 0x50000000 0x0 0x10000>; #address-cells = <1>; #size-cells = <1>; ranges = <0 0x0 0x50000000 0x10000>; cpu_scp_lpri: scp-shmem@0 { compatible = "arm,scmi-shmem"; reg = <0x0 0x200>; }; cpu_scp_hpri: scp-shmem@200 { compatible = "arm,scmi-shmem"; reg = <0x200 0x200>; }; }; mailbox@40000000 { .... #mbox-cells = <1>; reg = <0x0 0x40000000 0x0 0x10000>; }; firmware { ... scmi { compatible = "arm,scmi"; mboxes = <&mailbox 0 &mailbox 1>; mbox-names = "tx", "rx"; shmem = <&cpu_scp_lpri &cpu_scp_hpri>; #address-cells = <1>; #size-cells = <0>; scmi_devpd: protocol@11 { reg = <0x11>; #power-domain-cells = <1>; }; scmi_dvfs: protocol@13 { reg = <0x13>; #clock-cells = <1>; }; scmi_clk: protocol@14 { reg = <0x14>; #clock-cells = <1>; }; scmi_sensors0: protocol@15 { reg = <0x15>; #thermal-sensor-cells = <1>; }; scmi_reset: protocol@16 { reg = <0x16>; #reset-cells = <1>; }; scmi_voltage: protocol@17 { reg = <0x17>; regulators { regulator_devX: regulator@0 { reg = <0x0>; regulator-max-microvolt = <3300000>; }; regulator_devY: regulator@9 { reg = <0x9>; regulator-min-microvolt = <500000>; regulator-max-microvolt = <4200000>; }; ... }; }; }; }; cpu@0 { ... reg = <0 0>; clocks = <&scmi_dvfs 0>; }; hdlcd@7ff60000 { ... reg = <0 0x7ff60000 0 0x1000>; clocks = <&scmi_clk 4>; power-domains = <&scmi_devpd 1>; resets = <&scmi_reset 10>; }; thermal-zones { soc_thermal { polling-delay-passive = <100>; polling-delay = <1000>; /* sensor ID */ thermal-sensors = <&scmi_sensors0 3>; ... }; };