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linux/drivers/gpu/nova-core/gsp.rs
Joel Fernandes 6ddfc892a5 gpu: nova-core: Implement the GSP sequencer 
Implement the GSP sequencer which culminates in INIT_DONE message being
received from the GSP indicating that the GSP has successfully booted.

This is just initial sequencer support, the actual commands will be
added in the next patches.

Signed-off-by: Joel Fernandes <joelagnelf@nvidia.com>
[acourbot@nvidia.com: move GspSequencerInfo definition before its impl
blocks and rename it to GspSequence, adapt imports in sequencer.rs to
new formatting rules, remove `timeout` argument to harmonize with other
commands.]
Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
Message-ID: <20251114195552.739371-8-joelagnelf@nvidia.com>
2025-11-15 21:05:50 +09:00

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// SPDX-License-Identifier: GPL-2.0
mod boot;
use kernel::{
device,
dma::{
CoherentAllocation,
DmaAddress, //
},
dma_write,
pci,
prelude::*,
transmute::AsBytes, //
};
pub(crate) mod cmdq;
pub(crate) mod commands;
mod fw;
mod sequencer;
pub(crate) use fw::{
GspFwWprMeta,
LibosParams, //
};
use crate::{
gsp::cmdq::Cmdq,
gsp::fw::{
GspArgumentsCached,
LibosMemoryRegionInitArgument, //
},
num,
};
pub(crate) const GSP_PAGE_SHIFT: usize = 12;
pub(crate) const GSP_PAGE_SIZE: usize = 1 << GSP_PAGE_SHIFT;
/// Number of GSP pages to use in a RM log buffer.
const RM_LOG_BUFFER_NUM_PAGES: usize = 0x10;
/// Array of page table entries, as understood by the GSP bootloader.
#[repr(C)]
struct PteArray<const NUM_ENTRIES: usize>([u64; NUM_ENTRIES]);
/// SAFETY: arrays of `u64` implement `AsBytes` and we are but a wrapper around one.
unsafe impl<const NUM_ENTRIES: usize> AsBytes for PteArray<NUM_ENTRIES> {}
impl<const NUM_PAGES: usize> PteArray<NUM_PAGES> {
/// Creates a new page table array mapping `NUM_PAGES` GSP pages starting at address `start`.
fn new(start: DmaAddress) -> Result<Self> {
let mut ptes = [0u64; NUM_PAGES];
for (i, pte) in ptes.iter_mut().enumerate() {
*pte = start
.checked_add(num::usize_as_u64(i) << GSP_PAGE_SHIFT)
.ok_or(EOVERFLOW)?;
}
Ok(Self(ptes))
}
}
/// The logging buffers are byte queues that contain encoded printf-like
/// messages from GSP-RM. They need to be decoded by a special application
/// that can parse the buffers.
///
/// The 'loginit' buffer contains logs from early GSP-RM init and
/// exception dumps. The 'logrm' buffer contains the subsequent logs. Both are
/// written to directly by GSP-RM and can be any multiple of GSP_PAGE_SIZE.
///
/// The physical address map for the log buffer is stored in the buffer
/// itself, starting with offset 1. Offset 0 contains the "put" pointer (pp).
/// Initially, pp is equal to 0. If the buffer has valid logging data in it,
/// then pp points to index into the buffer where the next logging entry will
/// be written. Therefore, the logging data is valid if:
/// 1 <= pp < sizeof(buffer)/sizeof(u64)
struct LogBuffer(CoherentAllocation<u8>);
impl LogBuffer {
/// Creates a new `LogBuffer` mapped on `dev`.
fn new(dev: &device::Device<device::Bound>) -> Result<Self> {
const NUM_PAGES: usize = RM_LOG_BUFFER_NUM_PAGES;
let mut obj = Self(CoherentAllocation::<u8>::alloc_coherent(
dev,
NUM_PAGES * GSP_PAGE_SIZE,
GFP_KERNEL | __GFP_ZERO,
)?);
let ptes = PteArray::<NUM_PAGES>::new(obj.0.dma_handle())?;
// SAFETY: `obj` has just been created and we are its sole user.
unsafe {
// Copy the self-mapping PTE at the expected location.
obj.0
.as_slice_mut(size_of::<u64>(), size_of_val(&ptes))?
.copy_from_slice(ptes.as_bytes())
};
Ok(obj)
}
}
/// GSP runtime data.
#[pin_data]
pub(crate) struct Gsp {
/// Libos arguments.
pub(crate) libos: CoherentAllocation<LibosMemoryRegionInitArgument>,
/// Init log buffer.
loginit: LogBuffer,
/// Interrupts log buffer.
logintr: LogBuffer,
/// RM log buffer.
logrm: LogBuffer,
/// Command queue.
pub(crate) cmdq: Cmdq,
/// RM arguments.
rmargs: CoherentAllocation<GspArgumentsCached>,
}
impl Gsp {
// Creates an in-place initializer for a `Gsp` manager for `pdev`.
pub(crate) fn new(pdev: &pci::Device<device::Bound>) -> Result<impl PinInit<Self, Error>> {
let dev = pdev.as_ref();
let libos = CoherentAllocation::<LibosMemoryRegionInitArgument>::alloc_coherent(
dev,
GSP_PAGE_SIZE / size_of::<LibosMemoryRegionInitArgument>(),
GFP_KERNEL | __GFP_ZERO,
)?;
// Initialise the logging structures. The OpenRM equivalents are in:
// _kgspInitLibosLoggingStructures (allocates memory for buffers)
// kgspSetupLibosInitArgs_IMPL (creates pLibosInitArgs[] array)
let loginit = LogBuffer::new(dev)?;
dma_write!(libos[0] = LibosMemoryRegionInitArgument::new("LOGINIT", &loginit.0))?;
let logintr = LogBuffer::new(dev)?;
dma_write!(libos[1] = LibosMemoryRegionInitArgument::new("LOGINTR", &logintr.0))?;
let logrm = LogBuffer::new(dev)?;
dma_write!(libos[2] = LibosMemoryRegionInitArgument::new("LOGRM", &logrm.0))?;
let cmdq = Cmdq::new(dev)?;
let rmargs = CoherentAllocation::<GspArgumentsCached>::alloc_coherent(
dev,
1,
GFP_KERNEL | __GFP_ZERO,
)?;
dma_write!(rmargs[0] = fw::GspArgumentsCached::new(&cmdq))?;
dma_write!(libos[3] = LibosMemoryRegionInitArgument::new("RMARGS", &rmargs))?;
Ok(try_pin_init!(Self {
libos,
loginit,
logintr,
logrm,
rmargs,
cmdq,
}))
}
}
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