linux/Documentation/devicetree/bindings/memory-controllers/st,stm32mp25-omm.yaml

# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
%YAML 1.2
---
$id: http://devicetree.org/schemas/memory-controllers/st,stm32mp25-omm.yaml#
$schema: http://devicetree.org/meta-schemas/core.yaml#

title: STM32 Octo Memory Manager (OMM)

maintainers:
  - Patrice Chotard <patrice.chotard@foss.st.com>

description: |
  The STM32 Octo Memory Manager is a low-level interface that enables an
  efficient OCTOSPI pin assignment with a full I/O matrix (before alternate
  function map) and multiplex of single/dual/quad/octal SPI interfaces over
  the same bus. It Supports up to:
    - Two single/dual/quad/octal SPI interfaces
    - Two ports for pin assignment

properties:
  compatible:
    const: st,stm32mp25-omm

  "#address-cells":
    const: 2

  "#size-cells":
    const: 1

  ranges:
    description: |
      Reflects the memory layout per OSPI instance.
      Format:
      <chip-select> 0 <registers base address> <size>
    minItems: 2
    maxItems: 2

  reg:
    items:
      - description: OMM registers
      - description: OMM memory map area

  reg-names:
    items:
      - const: regs
      - const: memory_map

  memory-region:
    description:
      Memory region shared between the 2 OCTOSPI instance.
      One or two phandle to a node describing a memory mapped region
      depending of child number.
    minItems: 1
    maxItems: 2

  memory-region-names:
    description:
      Identify to which OSPI instance the memory region belongs to.
    items:
      enum: [ospi1, ospi2]
    minItems: 1
    maxItems: 2

  clocks:
    maxItems: 3

  clock-names:
    items:
      - const: omm
      - const: ospi1
      - const: ospi2

  resets:
    maxItems: 3

  reset-names:
    items:
      - const: omm
      - const: ospi1
      - const: ospi2

  access-controllers:
    maxItems: 1

  power-domains:
    maxItems: 1

  st,syscfg-amcr:
    $ref: /schemas/types.yaml#/definitions/phandle-array
    description: |
      The Address Mapping Control Register (AMCR) is used to split the 256MB
      memory map area shared between the 2 OSPI instance. The Octo Memory
      Manager sets the AMCR depending of the memory-region configuration.
      The memory split bitmask description is:
        - 000: OCTOSPI1 (256 Mbytes), OCTOSPI2 unmapped
        - 001: OCTOSPI1 (192 Mbytes), OCTOSPI2 (64 Mbytes)
        - 010: OCTOSPI1 (128 Mbytes), OCTOSPI2 (128 Mbytes)
        - 011: OCTOSPI1 (64 Mbytes), OCTOSPI2 (192 Mbytes)
        - 1xx: OCTOSPI1 unmapped, OCTOSPI2 (256 Mbytes)
    items:
      - items:
          - description: phandle to syscfg
          - description: register offset within syscfg
          - description: register bitmask for memory split

  st,omm-req2ack-ns:
    description:
      In multiplexed mode (MUXEN = 1), this field defines the time in
      nanoseconds between two transactions.
    default: 0

  st,omm-cssel-ovr:
    $ref: /schemas/types.yaml#/definitions/uint32
    description: |
      Configure the chip select selector override for the 2 OCTOSPIs.
      - 0: OCTOSPI1 chip select send to NCS1 OCTOSPI2 chip select send to NCS1
      - 1: OCTOSPI1 chip select send to NCS2 OCTOSPI2 chip select send to NCS1
      - 2: OCTOSPI1 chip select send to NCS1 OCTOSPI2 chip select send to NCS2
      - 3: OCTOSPI1 chip select send to NCS2 OCTOSPI2 chip select send to NCS2
    minimum: 0
    maximum: 3
    default: 0

  st,omm-mux:
    $ref: /schemas/types.yaml#/definitions/uint32
    description: |
      Configure the muxing between the 2 OCTOSPIs busses and the 2 output ports.
      - 0: direct mode
      - 1: mux OCTOSPI1 and OCTOSPI2 to port 1
      - 2: swapped mode
      - 3: mux OCTOSPI1 and OCTOSPI2 to port 2
    minimum: 0
    maximum: 3
    default: 0

patternProperties:
  ^spi@[0-9]:
    type: object
    $ref: /schemas/spi/st,stm32mp25-ospi.yaml#
    description: Required spi child node

required:
  - compatible
  - reg
  - "#address-cells"
  - "#size-cells"
  - clocks
  - clock-names
  - resets
  - reset-names
  - st,syscfg-amcr
  - ranges

additionalProperties: false

examples:
  - |
    #include <dt-bindings/clock/st,stm32mp25-rcc.h>
    #include <dt-bindings/interrupt-controller/arm-gic.h>
    #include <dt-bindings/reset/st,stm32mp25-rcc.h>
    ommanager@40500000 {
      compatible = "st,stm32mp25-omm";
      reg = <0x40500000 0x400>, <0x60000000 0x10000000>;
      reg-names = "regs", "memory_map";
      ranges = <0 0 0x40430000 0x400>,
               <1 0 0x40440000 0x400>;
      memory-region = <&mm_ospi1>, <&mm_ospi2>;
      memory-region-names = "ospi1", "ospi2";
      pinctrl-0 = <&ospi_port1_clk_pins_a
                   &ospi_port1_io03_pins_a
                   &ospi_port1_cs0_pins_a>;
      pinctrl-1 = <&ospi_port1_clk_sleep_pins_a
                   &ospi_port1_io03_sleep_pins_a
                   &ospi_port1_cs0_sleep_pins_a>;
      pinctrl-names = "default", "sleep";
      clocks = <&rcc CK_BUS_OSPIIOM>,
               <&scmi_clk CK_SCMI_OSPI1>,
               <&scmi_clk CK_SCMI_OSPI2>;
      clock-names = "omm", "ospi1", "ospi2";
      resets = <&rcc OSPIIOM_R>,
               <&scmi_reset RST_SCMI_OSPI1>,
               <&scmi_reset RST_SCMI_OSPI2>;
      reset-names = "omm", "ospi1", "ospi2";
      access-controllers = <&rifsc 111>;
      power-domains = <&CLUSTER_PD>;
      #address-cells = <2>;
      #size-cells = <1>;
      st,syscfg-amcr = <&syscfg 0x2c00 0x7>;
      st,omm-req2ack-ns = <0>;
      st,omm-mux = <0>;
      st,omm-cssel-ovr = <0>;

      spi@0 {
        compatible = "st,stm32mp25-ospi";
        reg = <0 0 0x400>;
        memory-region = <&mm_ospi1>;
        interrupts = <GIC_SPI 163 IRQ_TYPE_LEVEL_HIGH>;
        dmas = <&hpdma 2 0x62 0x00003121 0x0>,
               <&hpdma 2 0x42 0x00003112 0x0>;
        dma-names = "tx", "rx";
        clocks = <&scmi_clk CK_SCMI_OSPI1>;
        resets = <&scmi_reset RST_SCMI_OSPI1>, <&scmi_reset RST_SCMI_OSPI1DLL>;
        access-controllers = <&rifsc 74>;
        power-domains = <&CLUSTER_PD>;
        #address-cells = <1>;
        #size-cells = <0>;
        st,syscfg-dlyb = <&syscfg 0x1000>;
      };

      spi@1 {
        compatible = "st,stm32mp25-ospi";
        reg = <1 0 0x400>;
        memory-region = <&mm_ospi1>;
        interrupts = <GIC_SPI 164 IRQ_TYPE_LEVEL_HIGH>;
        dmas = <&hpdma 3 0x62 0x00003121 0x0>,
               <&hpdma 3 0x42 0x00003112 0x0>;
        dma-names = "tx", "rx";
        clocks = <&scmi_clk CK_KER_OSPI2>;
        resets = <&scmi_reset RST_SCMI_OSPI2>, <&scmi_reset RST_SCMI_OSPI1DLL>;
        access-controllers = <&rifsc 75>;
        power-domains = <&CLUSTER_PD>;
        #address-cells = <1>;
        #size-cells = <0>;
        st,syscfg-dlyb = <&syscfg 0x1000>;
      };
    };
dt-bindings: memory-controllers: Add STM32 Octo Memory Manager controller Add bindings for STM32 Octo Memory Manager (OMM) controller. OMM manages: - the muxing between 2 OSPI busses and 2 output ports. There are 4 possible muxing configurations: - direct mode (no multiplexing): OSPI1 output is on port 1 and OSPI2 output is on port 2 - OSPI1 and OSPI2 are multiplexed over the same output port 1 - swapped mode (no multiplexing), OSPI1 output is on port 2, OSPI2 output is on port 1 - OSPI1 and OSPI2 are multiplexed over the same output port 2 - the split of the memory area shared between the 2 OSPI instances. - chip select selection override. - the time between 2 transactions in multiplexed mode. Signed-off-by: Patrice Chotard <patrice.chotard@foss.st.com> Reviewed-by: Rob Herring (Arm) <robh@kernel.org> Link: https://lore.kernel.org/r/20250428-upstream_ospi_v6-v11-1-1548736fd9d2@foss.st.com Signed-off-by: Krzysztof Kozlowski <krzysztof.kozlowski@linaro.org> 2025-04-28 10:58:30 +02:00			`# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)`
			`%YAML 1.2`
			`---`
			`$id: http://devicetree.org/schemas/memory-controllers/st,stm32mp25-omm.yaml#`
			`$schema: http://devicetree.org/meta-schemas/core.yaml#`

			`title: STM32 Octo Memory Manager (OMM)`

			`maintainers:`
			`- Patrice Chotard <patrice.chotard@foss.st.com>`

			`description: \|`
			`The STM32 Octo Memory Manager is a low-level interface that enables an`
			`efficient OCTOSPI pin assignment with a full I/O matrix (before alternate`
			`function map) and multiplex of single/dual/quad/octal SPI interfaces over`
			`the same bus. It Supports up to:`
			`- Two single/dual/quad/octal SPI interfaces`
			`- Two ports for pin assignment`

			`properties:`
			`compatible:`
			`const: st,stm32mp25-omm`

			`"#address-cells":`
			`const: 2`

			`"#size-cells":`
			`const: 1`

			`ranges:`
			`description: \|`
			`Reflects the memory layout per OSPI instance.`
			`Format:`
			`<chip-select> 0 <registers base address> <size>`
			`minItems: 2`
			`maxItems: 2`

			`reg:`
			`items:`
			`- description: OMM registers`
			`- description: OMM memory map area`

			`reg-names:`
			`items:`
			`- const: regs`
			`- const: memory_map`

			`memory-region:`
			`description:`
			`Memory region shared between the 2 OCTOSPI instance.`
			`One or two phandle to a node describing a memory mapped region`
			`depending of child number.`
			`minItems: 1`
			`maxItems: 2`

			`memory-region-names:`
			`description:`
			`Identify to which OSPI instance the memory region belongs to.`
			`items:`
			`enum: [ospi1, ospi2]`
			`minItems: 1`
			`maxItems: 2`

			`clocks:`
			`maxItems: 3`

			`clock-names:`
			`items:`
			`- const: omm`
			`- const: ospi1`
			`- const: ospi2`

			`resets:`
			`maxItems: 3`

			`reset-names:`
			`items:`
			`- const: omm`
			`- const: ospi1`
			`- const: ospi2`

			`access-controllers:`
			`maxItems: 1`

			`power-domains:`
			`maxItems: 1`

			`st,syscfg-amcr:`
			`$ref: /schemas/types.yaml#/definitions/phandle-array`
			`description: \|`
			`The Address Mapping Control Register (AMCR) is used to split the 256MB`
			`memory map area shared between the 2 OSPI instance. The Octo Memory`
			`Manager sets the AMCR depending of the memory-region configuration.`
			`The memory split bitmask description is:`
			`- 000: OCTOSPI1 (256 Mbytes), OCTOSPI2 unmapped`
			`- 001: OCTOSPI1 (192 Mbytes), OCTOSPI2 (64 Mbytes)`
			`- 010: OCTOSPI1 (128 Mbytes), OCTOSPI2 (128 Mbytes)`
			`- 011: OCTOSPI1 (64 Mbytes), OCTOSPI2 (192 Mbytes)`
			`- 1xx: OCTOSPI1 unmapped, OCTOSPI2 (256 Mbytes)`
			`items:`
			`- items:`
			`- description: phandle to syscfg`
			`- description: register offset within syscfg`
			`- description: register bitmask for memory split`

			`st,omm-req2ack-ns:`
			`description:`
			`In multiplexed mode (MUXEN = 1), this field defines the time in`
			`nanoseconds between two transactions.`
			`default: 0`

			`st,omm-cssel-ovr:`
			`$ref: /schemas/types.yaml#/definitions/uint32`
			`description: \|`
			`Configure the chip select selector override for the 2 OCTOSPIs.`
			`- 0: OCTOSPI1 chip select send to NCS1 OCTOSPI2 chip select send to NCS1`
			`- 1: OCTOSPI1 chip select send to NCS2 OCTOSPI2 chip select send to NCS1`
			`- 2: OCTOSPI1 chip select send to NCS1 OCTOSPI2 chip select send to NCS2`
			`- 3: OCTOSPI1 chip select send to NCS2 OCTOSPI2 chip select send to NCS2`
			`minimum: 0`
			`maximum: 3`
			`default: 0`

			`st,omm-mux:`
			`$ref: /schemas/types.yaml#/definitions/uint32`
			`description: \|`
			`Configure the muxing between the 2 OCTOSPIs busses and the 2 output ports.`
			`- 0: direct mode`
			`- 1: mux OCTOSPI1 and OCTOSPI2 to port 1`
			`- 2: swapped mode`
			`- 3: mux OCTOSPI1 and OCTOSPI2 to port 2`
			`minimum: 0`
			`maximum: 3`
			`default: 0`

			`patternProperties:`
			`^spi@[0-9]:`
			`type: object`
			`$ref: /schemas/spi/st,stm32mp25-ospi.yaml#`
			`description: Required spi child node`

			`required:`
			`- compatible`
			`- reg`
			`- "#address-cells"`
			`- "#size-cells"`
			`- clocks`
			`- clock-names`
			`- resets`
			`- reset-names`
			`- st,syscfg-amcr`
			`- ranges`

			`additionalProperties: false`

			`examples:`
			`- \|`
			`#include <dt-bindings/clock/st,stm32mp25-rcc.h>`
			`#include <dt-bindings/interrupt-controller/arm-gic.h>`
			`#include <dt-bindings/reset/st,stm32mp25-rcc.h>`
			`ommanager@40500000 {`
			`compatible = "st,stm32mp25-omm";`
			`reg = <0x40500000 0x400>, <0x60000000 0x10000000>;`
			`reg-names = "regs", "memory_map";`
			`ranges = <0 0 0x40430000 0x400>,`
			`<1 0 0x40440000 0x400>;`
			`memory-region = <&mm_ospi1>, <&mm_ospi2>;`
			`memory-region-names = "ospi1", "ospi2";`
			`pinctrl-0 = <&ospi_port1_clk_pins_a`
			`&ospi_port1_io03_pins_a`
			`&ospi_port1_cs0_pins_a>;`
			`pinctrl-1 = <&ospi_port1_clk_sleep_pins_a`
			`&ospi_port1_io03_sleep_pins_a`
			`&ospi_port1_cs0_sleep_pins_a>;`
			`pinctrl-names = "default", "sleep";`
			`clocks = <&rcc CK_BUS_OSPIIOM>,`
			`<&scmi_clk CK_SCMI_OSPI1>,`
			`<&scmi_clk CK_SCMI_OSPI2>;`
			`clock-names = "omm", "ospi1", "ospi2";`
			`resets = <&rcc OSPIIOM_R>,`
			`<&scmi_reset RST_SCMI_OSPI1>,`
			`<&scmi_reset RST_SCMI_OSPI2>;`
			`reset-names = "omm", "ospi1", "ospi2";`
			`access-controllers = <&rifsc 111>;`
			`power-domains = <&CLUSTER_PD>;`
			`#address-cells = <2>;`
			`#size-cells = <1>;`
			`st,syscfg-amcr = <&syscfg 0x2c00 0x7>;`
			`st,omm-req2ack-ns = <0>;`
			`st,omm-mux = <0>;`
			`st,omm-cssel-ovr = <0>;`

			`spi@0 {`
			`compatible = "st,stm32mp25-ospi";`
			`reg = <0 0 0x400>;`
			`memory-region = <&mm_ospi1>;`
			`interrupts = <GIC_SPI 163 IRQ_TYPE_LEVEL_HIGH>;`
			`dmas = <&hpdma 2 0x62 0x00003121 0x0>,`
			`<&hpdma 2 0x42 0x00003112 0x0>;`
			`dma-names = "tx", "rx";`
			`clocks = <&scmi_clk CK_SCMI_OSPI1>;`
			`resets = <&scmi_reset RST_SCMI_OSPI1>, <&scmi_reset RST_SCMI_OSPI1DLL>;`
			`access-controllers = <&rifsc 74>;`
			`power-domains = <&CLUSTER_PD>;`
			`#address-cells = <1>;`
			`#size-cells = <0>;`
			`st,syscfg-dlyb = <&syscfg 0x1000>;`
			`};`

			`spi@1 {`
			`compatible = "st,stm32mp25-ospi";`
			`reg = <1 0 0x400>;`
			`memory-region = <&mm_ospi1>;`
			`interrupts = <GIC_SPI 164 IRQ_TYPE_LEVEL_HIGH>;`
			`dmas = <&hpdma 3 0x62 0x00003121 0x0>,`
			`<&hpdma 3 0x42 0x00003112 0x0>;`
			`dma-names = "tx", "rx";`
			`clocks = <&scmi_clk CK_KER_OSPI2>;`
			`resets = <&scmi_reset RST_SCMI_OSPI2>, <&scmi_reset RST_SCMI_OSPI1DLL>;`
			`access-controllers = <&rifsc 75>;`
			`power-domains = <&CLUSTER_PD>;`
			`#address-cells = <1>;`
			`#size-cells = <0>;`
			`st,syscfg-dlyb = <&syscfg 0x1000>;`
			`};`
			`};`