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// SPDX-License-Identifier: GPL-2.0
use kernel::{
device,
devres::Devres,
fmt,
io::Io,
num::Bounded,
pci,
prelude::*,
sync::Arc, //
};
use crate::{
bounded_enum,
driver::Bar0,
falcon::{
gsp::Gsp as GspFalcon,
sec2::Sec2 as Sec2Falcon,
Falcon, //
},
fb::SysmemFlush,
gfw,
gsp::Gsp,
regs,
};
macro_rules! define_chipset {
({ $($variant:ident = $value:expr),* $(,)* }) =>
{
/// Enum representation of the GPU chipset.
#[derive(fmt::Debug, Copy, Clone, PartialOrd, Ord, PartialEq, Eq)]
pub(crate) enum Chipset {
$($variant = $value),*,
}
impl Chipset {
pub(crate) const ALL: &'static [Chipset] = &[
$( Chipset::$variant, )*
];
::kernel::macros::paste!(
/// Returns the name of this chipset, in lowercase.
///
/// # Examples
///
/// ```
/// let chipset = Chipset::GA102;
/// assert_eq!(chipset.name(), "ga102");
/// ```
pub(crate) const fn name(&self) -> &'static str {
match *self {
$(
Chipset::$variant => stringify!([<$variant:lower>]),
)*
}
}
);
}
// TODO[FPRI]: replace with something like derive(FromPrimitive)
impl TryFrom<u32> for Chipset {
type Error = kernel::error::Error;
fn try_from(value: u32) -> Result<Self, Self::Error> {
match value {
$( $value => Ok(Chipset::$variant), )*
_ => Err(ENODEV),
}
}
}
}
}
define_chipset!({
// Turing
TU102 = 0x162,
TU104 = 0x164,
TU106 = 0x166,
TU117 = 0x167,
TU116 = 0x168,
// Ampere
GA100 = 0x170,
GA102 = 0x172,
GA103 = 0x173,
GA104 = 0x174,
GA106 = 0x176,
GA107 = 0x177,
// Ada
AD102 = 0x192,
AD103 = 0x193,
AD104 = 0x194,
AD106 = 0x196,
AD107 = 0x197,
});
impl Chipset {
pub(crate) const fn arch(self) -> Architecture {
match self {
Self::TU102 | Self::TU104 | Self::TU106 | Self::TU117 | Self::TU116 => {
Architecture::Turing
}
Self::GA100 | Self::GA102 | Self::GA103 | Self::GA104 | Self::GA106 | Self::GA107 => {
Architecture::Ampere
}
Self::AD102 | Self::AD103 | Self::AD104 | Self::AD106 | Self::AD107 => {
Architecture::Ada
}
}
}
/// Returns `true` if this chipset requires the PIO-loaded bootloader in order to boot FWSEC.
///
/// This includes all chipsets < GA102.
pub(crate) const fn needs_fwsec_bootloader(self) -> bool {
matches!(self.arch(), Architecture::Turing) || matches!(self, Self::GA100)
}
}
// TODO
//
// The resulting strings are used to generate firmware paths, hence the
// generated strings have to be stable.
//
// Hence, replace with something like strum_macros derive(Display).
//
// For now, redirect to fmt::Debug for convenience.
impl fmt::Display for Chipset {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "{self:?}")
}
}
bounded_enum! {
/// Enum representation of the GPU generation.
#[derive(fmt::Debug, Copy, Clone)]
pub(crate) enum Architecture with TryFrom<Bounded<u32, 6>> {
Turing = 0x16,
Ampere = 0x17,
Ada = 0x19,
}
}
pub(crate) struct Revision {
major: Bounded<u8, 4>,
minor: Bounded<u8, 4>,
}
impl From<regs::NV_PMC_BOOT_42> for Revision {
fn from(boot0: regs::NV_PMC_BOOT_42) -> Self {
Self {
major: boot0.major_revision().cast(),
minor: boot0.minor_revision().cast(),
}
}
}
impl fmt::Display for Revision {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "{:x}.{:x}", self.major, self.minor)
}
}
/// Structure holding a basic description of the GPU: `Chipset` and `Revision`.
pub(crate) struct Spec {
chipset: Chipset,
revision: Revision,
}
impl Spec {
fn new(dev: &device::Device, bar: &Bar0) -> Result<Spec> {
// Some brief notes about boot0 and boot42, in chronological order:
//
// NV04 through NV50:
//
// Not supported by Nova. boot0 is necessary and sufficient to identify these GPUs.
// boot42 may not even exist on some of these GPUs.
//
// Fermi through Volta:
//
// Not supported by Nova. boot0 is still sufficient to identify these GPUs, but boot42
// is also guaranteed to be both present and accurate.
//
// Turing and later:
//
// Supported by Nova. Identified by first checking boot0 to ensure that the GPU is not
// from an earlier (pre-Fermi) era, and then using boot42 to precisely identify the GPU.
// Somewhere in the Rubin timeframe, boot0 will no longer have space to add new GPU IDs.
let boot0 = bar.read(regs::NV_PMC_BOOT_0);
if boot0.is_older_than_fermi() {
return Err(ENODEV);
}
let boot42 = bar.read(regs::NV_PMC_BOOT_42);
Spec::try_from(boot42).inspect_err(|_| {
dev_err!(dev, "Unsupported chipset: {}\n", boot42);
})
}
}
impl TryFrom<regs::NV_PMC_BOOT_42> for Spec {
type Error = Error;
fn try_from(boot42: regs::NV_PMC_BOOT_42) -> Result<Self> {
Ok(Self {
chipset: boot42.chipset()?,
revision: boot42.into(),
})
}
}
impl fmt::Display for Spec {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.write_fmt(fmt!(
"Chipset: {}, Architecture: {:?}, Revision: {}",
self.chipset,
self.chipset.arch(),
self.revision
))
}
}
/// Structure holding the resources required to operate the GPU.
#[pin_data]
pub(crate) struct Gpu {
spec: Spec,
/// MMIO mapping of PCI BAR 0
bar: Arc<Devres<Bar0>>,
/// System memory page required for flushing all pending GPU-side memory writes done through
/// PCIE into system memory, via sysmembar (A GPU-initiated HW memory-barrier operation).
sysmem_flush: SysmemFlush,
/// GSP falcon instance, used for GSP boot up and cleanup.
gsp_falcon: Falcon<GspFalcon>,
/// SEC2 falcon instance, used for GSP boot up and cleanup.
sec2_falcon: Falcon<Sec2Falcon>,
/// GSP runtime data. Temporarily an empty placeholder.
#[pin]
gsp: Gsp,
}
impl Gpu {
pub(crate) fn new<'a>(
pdev: &'a pci::Device<device::Bound>,
devres_bar: Arc<Devres<Bar0>>,
bar: &'a Bar0,
) -> impl PinInit<Self, Error> + 'a {
try_pin_init!(Self {
spec: Spec::new(pdev.as_ref(), bar).inspect(|spec| {
dev_info!(pdev,"NVIDIA ({})\n", spec);
})?,
// We must wait for GFW_BOOT completion before doing any significant setup on the GPU.
_: {
gfw::wait_gfw_boot_completion(bar)
.inspect_err(|_| dev_err!(pdev, "GFW boot did not complete\n"))?;
},
sysmem_flush: SysmemFlush::register(pdev.as_ref(), bar, spec.chipset)?,
gsp_falcon: Falcon::new(
pdev.as_ref(),
spec.chipset,
)
.inspect(|falcon| falcon.clear_swgen0_intr(bar))?,
sec2_falcon: Falcon::new(pdev.as_ref(), spec.chipset)?,
gsp <- Gsp::new(pdev),
_: { gsp.boot(pdev, bar, spec.chipset, gsp_falcon, sec2_falcon)? },
bar: devres_bar,
})
}
/// Called when the corresponding [`Device`](device::Device) is unbound.
///
/// Note: This method must only be called from `Driver::unbind`.
pub(crate) fn unbind(&self, dev: &device::Device<device::Core>) {
kernel::warn_on!(self
.bar
.access(dev)
.inspect(|bar| self.sysmem_flush.unregister(bar))
.is_err());
}
}