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// SPDX-License-Identifier: GPL-2.0
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//! Rust Platform driver sample.
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//! ACPI match table test
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//!
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//! This demonstrates how to test an ACPI-based Rust platform driver using QEMU
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//! with a custom SSDT.
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//!
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//! Steps:
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//!
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//! 1. **Create an SSDT source file** (`ssdt.dsl`) with the following content:
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//!
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//!     ```asl
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//!     DefinitionBlock ("", "SSDT", 2, "TEST", "VIRTACPI", 0x00000001)
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//!     {
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//!         Scope (\_SB)
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//!         {
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//!             Device (T432)
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//!             {
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//!                 Name (_HID, "LNUXBEEF")  // ACPI hardware ID to match
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//!                 Name (_UID, 1)
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//!                 Name (_STA, 0x0F)        // Device present, enabled
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//!                 Name (_CRS, ResourceTemplate ()
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//!                 {
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//!                     Memory32Fixed (ReadWrite, 0xFED00000, 0x1000)
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//!                 })
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//!             }
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//!         }
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//!     }
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//!     ```
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//!
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//! 2. **Compile the table**:
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//!
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//!     ```sh
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//!     iasl -tc ssdt.dsl
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//!     ```
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//!
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//!     This generates `ssdt.aml`
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//!
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//! 3. **Run QEMU** with the compiled AML file:
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//!
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//!     ```sh
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//!     qemu-system-x86_64 -m 512M \
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//!         -enable-kvm \
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//!         -kernel path/to/bzImage \
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//!         -append "root=/dev/sda console=ttyS0" \
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//!         -hda rootfs.img \
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//!         -serial stdio \
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//!         -acpitable file=ssdt.aml
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//!     ```
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//!
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//!     Requirements:
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//!     - The `rust_driver_platform` must be present either:
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//!         - built directly into the kernel (`bzImage`), or
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//!         - available as a `.ko` file and loadable from `rootfs.img`
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//!
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//! 4. **Verify it worked** by checking `dmesg`:
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//!
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//!     ```
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//!     rust_driver_platform LNUXBEEF:00: Probed with info: '0'.
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//!     ```
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//!
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use kernel::{
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    acpi, c_str,
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    device::{
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        self,
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        property::{FwNodeReferenceArgs, NArgs},
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        Core,
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    },
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    of, platform,
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    prelude::*,
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    str::CString,
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    types::ARef,
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};
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struct SampleDriver {
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    pdev: ARef<platform::Device>,
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}
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struct Info(u32);
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kernel::of_device_table!(
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    OF_TABLE,
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    MODULE_OF_TABLE,
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    <SampleDriver as platform::Driver>::IdInfo,
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    [(of::DeviceId::new(c_str!("test,rust-device")), Info(42))]
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);
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kernel::acpi_device_table!(
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    ACPI_TABLE,
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    MODULE_ACPI_TABLE,
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    <SampleDriver as platform::Driver>::IdInfo,
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    [(acpi::DeviceId::new(c_str!("LNUXBEEF")), Info(0))]
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);
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impl platform::Driver for SampleDriver {
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    type IdInfo = Info;
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    const OF_ID_TABLE: Option<of::IdTable<Self::IdInfo>> = Some(&OF_TABLE);
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    const ACPI_ID_TABLE: Option<acpi::IdTable<Self::IdInfo>> = Some(&ACPI_TABLE);
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    fn probe(
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        pdev: &platform::Device<Core>,
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        info: Option<&Self::IdInfo>,
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    ) -> Result<Pin<KBox<Self>>> {
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        let dev = pdev.as_ref();
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        dev_dbg!(dev, "Probe Rust Platform driver sample.\n");
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        if let Some(info) = info {
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            dev_info!(dev, "Probed with info: '{}'.\n", info.0);
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        }
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        if dev.fwnode().is_some_and(|node| node.is_of_node()) {
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            Self::properties_parse(dev)?;
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        }
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        let drvdata = KBox::new(Self { pdev: pdev.into() }, GFP_KERNEL)?;
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        Ok(drvdata.into())
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    }
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}
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impl SampleDriver {
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    fn properties_parse(dev: &device::Device) -> Result {
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        let fwnode = dev.fwnode().ok_or(ENOENT)?;
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        if let Ok(idx) =
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            fwnode.property_match_string(c_str!("compatible"), c_str!("test,rust-device"))
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        {
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            dev_info!(dev, "matched compatible string idx = {}\n", idx);
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        }
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        let name = c_str!("compatible");
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        let prop = fwnode.property_read::<CString>(name).required_by(dev)?;
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        dev_info!(dev, "'{name}'='{prop:?}'\n");
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        let name = c_str!("test,bool-prop");
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        let prop = fwnode.property_read_bool(c_str!("test,bool-prop"));
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        dev_info!(dev, "'{name}'='{prop}'\n");
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        if fwnode.property_present(c_str!("test,u32-prop")) {
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            dev_info!(dev, "'test,u32-prop' is present\n");
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        }
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        let name = c_str!("test,u32-optional-prop");
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        let prop = fwnode.property_read::<u32>(name).or(0x12);
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        dev_info!(dev, "'{name}'='{prop:#x}' (default = 0x12)\n",);
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        // A missing required property will print an error. Discard the error to
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        // prevent properties_parse from failing in that case.
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        let name = c_str!("test,u32-required-prop");
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        let _ = fwnode.property_read::<u32>(name).required_by(dev);
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        let name = c_str!("test,u32-prop");
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        let prop: u32 = fwnode.property_read(name).required_by(dev)?;
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        dev_info!(dev, "'{name}'='{prop:#x}'\n");
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        let name = c_str!("test,i16-array");
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        let prop: [i16; 4] = fwnode.property_read(name).required_by(dev)?;
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        dev_info!(dev, "'{name}'='{prop:?}'\n");
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        let len = fwnode.property_count_elem::<u16>(name)?;
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        dev_info!(dev, "'{name}' length is {len}\n",);
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        let name = c_str!("test,i16-array");
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        let prop: KVec<i16> = fwnode.property_read_array_vec(name, 4)?.required_by(dev)?;
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        dev_info!(dev, "'{name}'='{prop:?}' (KVec)\n");
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        for child in fwnode.children() {
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            let name = c_str!("test,ref-arg");
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            let nargs = NArgs::N(2);
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            let prop: FwNodeReferenceArgs = child.property_get_reference_args(name, nargs, 0)?;
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            dev_info!(dev, "'{name}'='{prop:?}'\n");
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        }
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        Ok(())
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    }
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}
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impl Drop for SampleDriver {
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    fn drop(&mut self) {
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        dev_dbg!(self.pdev.as_ref(), "Remove Rust Platform driver sample.\n");
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    }
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}
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kernel::module_platform_driver! {
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    type: SampleDriver,
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    name: "rust_driver_platform",
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    authors: ["Danilo Krummrich"],
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    description: "Rust Platform driver",
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    license: "GPL v2",
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}
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