[PATCH v8 16/25] gpu: nova-core: mm: Add page table walker for MMU v2/v3
From: Joel Fernandes
Date: Tue Feb 24 2026 - 17:56:49 EST
Add the page table walker implementation that traverses the page table
hierarchy for both MMU v2 (5-level) and MMU v3 (6-level) to resolve
virtual addresses to physical addresses or find PTE locations.
Currently only v2 has been tested (nova-core currently boots pre-hopper)
with some initial prepatory work done for v3.
Cc: Nikola Djukic <ndjukic@xxxxxxxxxx>
Signed-off-by: Joel Fernandes <joelagnelf@xxxxxxxxxx>
---
drivers/gpu/nova-core/mm/pagetable.rs | 1 +
drivers/gpu/nova-core/mm/pagetable/walk.rs | 218 +++++++++++++++++++++
2 files changed, 219 insertions(+)
create mode 100644 drivers/gpu/nova-core/mm/pagetable/walk.rs
diff --git a/drivers/gpu/nova-core/mm/pagetable.rs b/drivers/gpu/nova-core/mm/pagetable.rs
index 33acb7053fbe..7ebea4cb8437 100644
--- a/drivers/gpu/nova-core/mm/pagetable.rs
+++ b/drivers/gpu/nova-core/mm/pagetable.rs
@@ -9,6 +9,7 @@
#![expect(dead_code)]
pub(crate) mod ver2;
pub(crate) mod ver3;
+pub(crate) mod walk;
use kernel::prelude::*;
diff --git a/drivers/gpu/nova-core/mm/pagetable/walk.rs b/drivers/gpu/nova-core/mm/pagetable/walk.rs
new file mode 100644
index 000000000000..023226af8816
--- /dev/null
+++ b/drivers/gpu/nova-core/mm/pagetable/walk.rs
@@ -0,0 +1,218 @@
+// SPDX-License-Identifier: GPL-2.0
+
+//! Page table walker implementation for NVIDIA GPUs.
+//!
+//! This module provides page table walking functionality for MMU v2 and v3.
+//! The walker traverses the page table hierarchy to resolve virtual addresses
+//! to physical addresses or to find PTE locations.
+//!
+//! # Page Table Hierarchy
+//!
+//! ## MMU v2 (Turing/Ampere/Ada) - 5 levels
+//!
+//! ```text
+//! +-------+ +-------+ +-------+ +---------+ +-------+
+//! | PDB |---->| L1 |---->| L2 |---->| L3 Dual |---->| L4 |
+//! | (L0) | | | | | | PDE | | (PTE) |
+//! +-------+ +-------+ +-------+ +---------+ +-------+
+//! 64-bit 64-bit 64-bit 128-bit 64-bit
+//! PDE PDE PDE (big+small) PTE
+//! ```
+//!
+//! ## MMU v3 (Hopper+) - 6 levels
+//!
+//! ```text
+//! +-------+ +-------+ +-------+ +-------+ +---------+ +-------+
+//! | PDB |---->| L1 |---->| L2 |---->| L3 |---->| L4 Dual |---->| L5 |
+//! | (L0) | | | | | | | | PDE | | (PTE) |
+//! +-------+ +-------+ +-------+ +-------+ +---------+ +-------+
+//! 64-bit 64-bit 64-bit 64-bit 128-bit 64-bit
+//! PDE PDE PDE PDE (big+small) PTE
+//! ```
+//!
+//! # Result of a page table walk
+//!
+//! The walker returns a [`WalkResult`] indicating the outcome.
+
+use kernel::prelude::*;
+
+use super::{
+ DualPde,
+ MmuVersion,
+ PageTableLevel,
+ Pde,
+ Pte, //
+};
+use crate::{
+ mm::{
+ pramin,
+ GpuMm,
+ Pfn,
+ Vfn,
+ VirtualAddress,
+ VramAddress, //
+ },
+ num::{
+ IntoSafeCast, //
+ },
+};
+
+/// Result of walking to a PTE.
+#[derive(Debug, Clone, Copy)]
+pub(crate) enum WalkResult {
+ /// Intermediate page tables are missing (only returned in lookup mode).
+ PageTableMissing,
+ /// PTE exists but is invalid (page not mapped).
+ Unmapped { pte_addr: VramAddress },
+ /// PTE exists and is valid (page is mapped).
+ Mapped { pte_addr: VramAddress, pfn: Pfn },
+}
+
+/// Result of walking PDE levels only.
+///
+/// Returned by [`PtWalk::walk_pde_levels()`] to indicate whether all PDE levels
+/// resolved or a PDE is missing.
+#[derive(Debug, Clone, Copy)]
+pub(crate) enum WalkPdeResult {
+ /// All PDE levels resolved -- returns PTE page table address.
+ Complete {
+ /// VRAM address of the PTE-level page table.
+ pte_table: VramAddress,
+ },
+ /// A PDE is missing and no prepared page was provided by the closure.
+ Missing {
+ /// PDE slot address in the parent page table (where to install).
+ install_addr: VramAddress,
+ /// The page table level that is missing.
+ level: PageTableLevel,
+ },
+}
+
+/// Page table walker for NVIDIA GPUs.
+///
+/// Walks the page table hierarchy (5 levels for v2, 6 for v3) to find PTE
+/// locations or resolve virtual addresses.
+pub(crate) struct PtWalk {
+ pdb_addr: VramAddress,
+ mmu_version: MmuVersion,
+}
+
+impl PtWalk {
+ /// Calculate the VRAM address of an entry within a page table.
+ fn entry_addr(
+ table: VramAddress,
+ mmu_version: MmuVersion,
+ level: PageTableLevel,
+ index: u64,
+ ) -> VramAddress {
+ let entry_size: u64 = mmu_version.entry_size(level).into_safe_cast();
+ VramAddress::new(table.raw_u64() + index * entry_size)
+ }
+
+ /// Create a new page table walker.
+ pub(crate) fn new(pdb_addr: VramAddress, mmu_version: MmuVersion) -> Self {
+ Self {
+ pdb_addr,
+ mmu_version,
+ }
+ }
+
+ /// Walk PDE levels with closure-based resolution for missing PDEs.
+ ///
+ /// Traverses all PDE levels for the MMU version. At each level, reads the PDE.
+ /// If valid, extracts the child table address and continues. If missing, calls
+ /// `resolve_prepared(install_addr)` to resolve the missing PDE.
+ pub(crate) fn walk_pde_levels(
+ &self,
+ window: &mut pramin::PraminWindow<'_>,
+ vfn: Vfn,
+ resolve_prepared: impl Fn(VramAddress) -> Option<VramAddress>,
+ ) -> Result<WalkPdeResult> {
+ let va = VirtualAddress::from(vfn);
+ let mut cur_table = self.pdb_addr;
+
+ for &level in self.mmu_version.pde_levels() {
+ let idx = va.level_index(level.as_index());
+ let install_addr = Self::entry_addr(cur_table, self.mmu_version, level, idx);
+
+ if level == self.mmu_version.dual_pde_level() {
+ // 128-bit dual PDE with big+small page table pointers.
+ let dpde = DualPde::read(window, install_addr, self.mmu_version)?;
+ if dpde.has_small() {
+ cur_table = dpde.small_vram_address();
+ continue;
+ }
+ } else {
+ // Regular 64-bit PDE.
+ let pde = Pde::read(window, install_addr, self.mmu_version)?;
+ if pde.is_valid() {
+ cur_table = pde.table_vram_address();
+ continue;
+ }
+ }
+
+ // PDE missing in HW. Ask caller for resolution.
+ if let Some(prepared_addr) = resolve_prepared(install_addr) {
+ cur_table = prepared_addr;
+ continue;
+ }
+
+ return Ok(WalkPdeResult::Missing {
+ install_addr,
+ level,
+ });
+ }
+
+ Ok(WalkPdeResult::Complete {
+ pte_table: cur_table,
+ })
+ }
+
+ /// Walk to PTE for lookup only (no allocation).
+ ///
+ /// Returns [`WalkResult::PageTableMissing`] if intermediate tables don't exist.
+ pub(crate) fn walk_to_pte_lookup(&self, mm: &GpuMm, vfn: Vfn) -> Result<WalkResult> {
+ let mut window = mm.pramin().window()?;
+ self.walk_to_pte_lookup_with_window(&mut window, vfn)
+ }
+
+ /// Walk to PTE using a caller-provided PRAMIN window (lookup only).
+ ///
+ /// Uses [`PtWalk::walk_pde_levels()`] for the PDE traversal, then reads the PTE at
+ /// the leaf level. Useful when called for multiple VFNs with single PRAMIN window
+ /// acquisition. Used by [`Vmm::execute_map()`] and [`Vmm::unmap_pages()`].
+ pub(crate) fn walk_to_pte_lookup_with_window(
+ &self,
+ window: &mut pramin::PraminWindow<'_>,
+ vfn: Vfn,
+ ) -> Result<WalkResult> {
+ match self.walk_pde_levels(window, vfn, |_| None)? {
+ WalkPdeResult::Complete { pte_table } => {
+ Self::read_pte_at_level(window, vfn, pte_table, self.mmu_version)
+ }
+ WalkPdeResult::Missing { .. } => Ok(WalkResult::PageTableMissing),
+ }
+ }
+
+ /// Read the PTE at the PTE level given the PTE table address.
+ fn read_pte_at_level(
+ window: &mut pramin::PraminWindow<'_>,
+ vfn: Vfn,
+ pte_table: VramAddress,
+ mmu_version: MmuVersion,
+ ) -> Result<WalkResult> {
+ let va = VirtualAddress::from(vfn);
+ let pte_level = mmu_version.pte_level();
+ let pte_idx = va.level_index(pte_level.as_index());
+ let pte_addr = Self::entry_addr(pte_table, mmu_version, pte_level, pte_idx);
+ let pte = Pte::read(window, pte_addr, mmu_version)?;
+
+ if pte.is_valid() {
+ return Ok(WalkResult::Mapped {
+ pte_addr,
+ pfn: pte.frame_number(),
+ });
+ }
+ Ok(WalkResult::Unmapped { pte_addr })
+ }
+}
--
2.34.1