| * Universal Flash Storage (UFS) Host Controller |
| |
| UFSHC nodes are defined to describe on-chip UFS host controllers. |
| Each UFS controller instance should have its own node. |
| |
| Required properties: |
| - compatible : must contain "jedec,ufs-1.1", may also list one or more |
| of the following: |
| "qcom,msm8994-ufshc" |
| "qcom,msm8996-ufshc" |
| "qcom,ufshc" |
| - interrupts : <interrupt mapping for UFS host controller IRQ> |
| - reg : <registers mapping> |
| first entry should contain UFS host controller register address space (mandatory), |
| second entry is the device ref. clock control register map (optional). |
| - reset : reset specifier pair consists of phandle for the reset provider |
| and reset lines used by this controller. |
| - reset-names : reset signal name strings sorted in the same order as the resets property. |
| |
| Optional properties: |
| - phys : phandle to UFS PHY node |
| - phy-names : the string "ufsphy" when is found in a node, along |
| with "phys" attribute, provides phandle to UFS PHY node |
| - vdd-hba-supply : phandle to UFS host controller supply regulator node |
| - vcc-supply : phandle to VCC supply regulator node |
| - vccq-supply : phandle to VCCQ supply regulator node |
| - vccq2-supply : phandle to VCCQ2 supply regulator node |
| - vcc-supply-1p8 : For embedded UFS devices, valid VCC range is 1.7-1.95V |
| or 2.7-3.6V. This boolean property when set, specifies |
| to use low voltage range of 1.7-1.95V. Note for external |
| UFS cards this property is invalid and valid VCC range is |
| always 2.7-3.6V. |
| - vcc-max-microamp : specifies max. load that can be drawn from vcc supply |
| - vccq-max-microamp : specifies max. load that can be drawn from vccq supply |
| - vccq2-max-microamp : specifies max. load that can be drawn from vccq2 supply |
| - <name>-fixed-regulator : boolean property specifying that <name>-supply is a fixed regulator |
| |
| - clocks : List of phandle and clock specifier pairs |
| - clock-names : List of clock input name strings sorted in the same |
| order as the clocks property. |
| - freq-table-hz : Array of <min max> operating frequencies stored in the same |
| order as the clocks property. If this property is not |
| defined or a value in the array is "0" then it is assumed |
| that the frequency is set by the parent clock or a |
| fixed rate clock source. |
| - rpm-level : UFS Runtime power management level. Following PM levels are suppported: |
| 0 - Both UFS device and Link in active state (Highest power consumption) |
| 1 - UFS device in active state but Link in Hibern8 state |
| 2 - UFS device in Sleep state but Link in active state |
| 3 - UFS device in Sleep state and Link in hibern8 state (default PM level) |
| 4 - UFS device in Power-down state and Link in Hibern8 state |
| 5 - UFS device in Power-down state and Link in OFF state (Lowest power consumption) |
| - spm-level : UFS System power management level. Allowed PM levels are same as rpm-level. |
| - ufs-qcom-crypto : phandle to UFS-QCOM ICE (Inline Cryptographic Engine) node |
| - lanes-per-direction: number of lanes available per direction - either 1 or 2. |
| Note that it is assume same number of lanes is used both directions at once. |
| If not specified, default is 2 lanes per direction. |
| - pinctrl-names, pinctrl-0, pinctrl-1,.. pinctrl-n: Refer to "Documentation/devicetree/bindings/pinctrl/pinctrl-bindings.txt" |
| for these optional properties |
| - limit-tx-hs-gear : Specify the max. limit on the TX HS gear. |
| Valid range: 1-3. 1 => HS-G1, 2 => HS-G2, 3 => HS-G3 |
| - limit-rx-hs-gear : Specify the max. limit on the RX HS gear. Refer "limit-tx-hs-gear" for expected values. |
| - limit-tx-pwm-gear : Specify the max. limit on the TX PWM gear |
| Valid range: 1-4. 1 => PWM-G1, 2 => PWM-G2, 3 => PWM-G3, 4 => PWM-G4 |
| - limit-rx-pwm-gear : Specify the max. limit on the RX PWM gear. Refer "limit-tx-pwm-gear" for expected values. |
| - scsi-cmd-timeout : Specify the command timeout (in seconds) for scsi commands |
| - dev-ref-clk-freq : Specify the device reference clock frequency, must be one of the following: |
| 0: 19.2 MHz |
| 1: 26 MHz |
| 2: 38.4 MHz |
| 3: 52 MHz |
| Defaults to 26 MHz if not specified. |
| - extcon: phandle to external connector (Refer Documentation/devicetree/bindings/extcon/extcon-gpio.txt for more details). |
| |
| Note: If above properties are not defined it can be assumed that the supply |
| regulators or clocks are always on. |
| |
| Example: |
| ufshc@0xfc598000 { |
| compatible = "jedec,ufs-1.1"; |
| reg = <0xfc598000 0x800>, <0xfd512074 0x4>; |
| interrupts = <0 28 0>; |
| |
| ufs-qcom-crypto = <&ufs_ice>; |
| vdd-hba-supply = <&xxx_reg0>; |
| vdd-hba-fixed-regulator; |
| vcc-supply = <&xxx_reg1>; |
| vcc-supply-1p8; |
| vccq-supply = <&xxx_reg2>; |
| vccq2-supply = <&xxx_reg3>; |
| vcc-max-microamp = 500000; |
| vccq-max-microamp = 200000; |
| vccq2-max-microamp = 200000; |
| |
| clocks = <&core 0>, <&ref 0>, <&iface 0>; |
| clock-names = "core_clk", "ref_clk", "iface_clk"; |
| freq-table-hz = <100000000 200000000>, <0 0>, <0 0>; |
| resets = <clock_gcc GCC_UFS_BCR>; |
| reset-names = "core_reset"; |
| phys = <&ufsphy1>; |
| phy-names = "ufsphy"; |
| rpm-level = <3>; |
| spm-level = <5>; |
| dev-ref-clk-freq = <0>; /* reference clock freq: 19.2 MHz */ |
| }; |
| |
| ==== MSM UFS platform driver properties ===== |
| * For UFS host controller in MSM platform following clocks are required - |
| Controller clock source - |
| "core_clk_src", max-clock-frequency-hz = 200MHz |
| |
| Controller System clock branch: |
| "core_clk" - Controller core clock |
| |
| AHB/AXI interface clocks: |
| "iface_clk" - AHB interface clock |
| "bus_clk" - AXI bus master clock |
| |
| PHY to controller symbol synchronization clocks: |
| "rx_lane0_sync_clk" - RX Lane 0 |
| "rx_lane1_sync_clk" - RX Lane 1 |
| "tx_lane0_sync_clk" - TX Lane 0 |
| "tx_lane1_sync_clk" - TX Lane 1 |
| |
| Optional reference clock input to UFS device |
| "ref_clk", max-clock-frequency-hz = 19.2MHz |
| |
| * Following bus parameters are required - |
| - qcom,msm-bus,name |
| - qcom,msm-bus,num-cases |
| - qcom,msm-bus,num-paths |
| - qcom,msm-bus,vectors-KBps |
| For the above four properties please refer to |
| Documentation/devicetree/bindings/arm/msm/msm_bus.txt |
| Note: The instantaneous bandwidth (IB) value in the vectors-KBps field should |
| be zero as UFS data transfer path doesn't have latency requirements and |
| voting for aggregated bandwidth (AB) should take care of providing |
| optimum throughput requested. |
| |
| - qcom,bus-vector-names: specifies string IDs for the corresponding |
| bus vectors in the same order as qcom,msm-bus,vectors-KBps property. |
| |
| * The following parameters are optional, but required in order for PM QoS to be |
| enabled and functional in the driver: |
| - qcom,pm-qos-cpu-groups: arrays of unsigned integers representing the cpu groups. |
| The number of values in the array defines the number of cpu-groups. |
| Each value is a bit-mask defining the cpus that take part in that cpu group. |
| i.e. if bit N is set, then cpuN is a part of the cpu group. So basically, |
| a cpu group corelated to a cpu cluster. |
| A PM QoS request object is maintained for each cpu-group. |
| - qcom,pm-qos-cpu-group-latency-us: array of values used for PM QoS voting, one for each cpu-group defined. |
| the number of values must match the number of values defined in |
| qcom,pm-qos-cpu-mask property. |
| - qcom,pm-qos-default-cpu: PM QoS voting is based on the cpu associated with each IO request by the block layer. |
| This defined the default cpu used for PM QoS voting in case a specific cpu value is not available. |
| |
| - qcom,vddp-ref-clk-supply : reference clock to ufs device. Controlled by the host driver. |
| - qcom,vddp-ref-clk-max-microamp : specifies max. load that can be drawn for |
| ref-clk supply. |
| Example: |
| ufshc@0xfc598000 { |
| ... |
| |
| qcom,msm-bus,name = "ufs1"; |
| qcom,msm-bus,num-cases = <22>; |
| qcom,msm-bus,num-paths = <2>; |
| qcom,msm-bus,vectors-KBps = |
| <95 512 0 0>, <1 650 0 0>, /* No vote */ |
| |
| <95 512 922 0>, <1 650 1000 0>, /* PWM G1 */ |
| <95 512 1844 0>, <1 650 1000 0>, /* PWM G2 */ |
| <95 512 3688 0>, <1 650 1000 0>, /* PWM G3 */ |
| <95 512 7376 0>, <1 650 1000 0>, /* PWM G4 */ |
| <95 512 1844 0>, <1 650 1000 0>, /* PWM G1 L2 */ |
| <95 512 3688 0>, <1 650 1000 0>, /* PWM G2 L2 */ |
| <95 512 7376 0>, <1 650 1000 0>, /* PWM G3 L2 */ |
| <95 512 14752 0>, <1 650 1000 0>, /* PWM G4 L2 */ |
| |
| <95 512 127796 0>, <1 650 1000 0>, /* HS G1 RA */ |
| <95 512 255591 0>, <1 650 1000 0>, /* HS G2 RA */ |
| <95 512 511181 0>, <1 650 1000 0>, /* HS G3 RA */ |
| <95 512 255591 0>, <1 650 1000 0>, /* HS G1 RA L2 */ |
| <95 512 511181 0>, <1 650 1000 0>, /* HS G2 RA L2 */ |
| <95 512 1022362 0>, <1 650 1000 0>, /* HS G3 RA L2 */ |
| |
| <95 512 149422 0>, <1 650 1000 0>, /* HS G1 RB */ |
| <95 512 298189 0>, <1 650 1000 0>, /* HS G2 RB */ |
| <95 512 596378 0>, <1 650 1000 0>, /* HS G3 RB */ |
| <95 512 298189 0>, <1 650 1000 0>, /* HS G1 RB L2 */ |
| <95 512 596378 0>, <1 650 1000 0>, /* HS G2 RB L2 */ |
| <95 512 1192756 0>, <1 650 1000 0>, /* HS G3 RB L2 */ |
| |
| <95 512 4096000 0>, <1 650 1000 0>; /* Max. bandwidth */ |
| |
| qcom,bus-vector-names = "MIN", |
| "PWM_G1_L1", "PWM_G2_L1", "PWM_G3_L1", "PWM_G4_L1", |
| "PWM_G1_L2", "PWM_G2_L2", "PWM_G3_L2", "PWM_G4_L2", |
| "HS_RA_G1_L1", "HS_RA_G2_L1", "HS_RA_G3_L1", |
| "HS_RA_G1_L2", "HS_RA_G2_L2", "HS_RA_G3_L2", |
| "HS_RB_G1_L1", "HS_RB_G2_L1", "HS_RB_G3_L1", |
| "HS_RB_G1_L2", "HS_RB_G2_L2", "HS_RB_G3_L2", |
| "MAX"; |
| |
| qcom,pm-qos-cpu-groups = <0x03 0x0C>; /* group0: cpu0, cpu1, group1: cpu2, cpu3 */ |
| qcom,pm-qos-cpu-group-latency-us = <200 300>; /* group0: 200us, group1: 300us */ |
| qcom,pm-qos-default-cpu = <0>; |
| }; |