Hi all,
The goal of this series is to enable userspace driver designs that use
VFIO to export DMABUFs representing subsets of PCI device BARs, and
"vend" those buffers from a primary process to other subordinate
processes by fd. These processes then mmap() the buffers and their
access to the device is isolated to the exported ranges. This is an
improvement on sharing the VFIO device fd to subordinate processes,
which would allow unfettered access.
This is achieved by enabling mmap() of vfio-pci DMABUFs, passed by fd
to subordinate processes. Second, a new revocation mechanism is added
to allow the primary process to forcibly revoke access to
previously-shared BAR spans, even if the subordinate processes haven't
cleanly exited.
(The related topic of safe delegation of iommufd control to the
subordinate processes is not addressed here, and is follow-up work.)
The background/rationale is covered in more detail in the RFC cover
letters.
Feedback from the RFCs requested that, instead of creating
DMABUF-specific vm_ops and .fault paths, to go the whole way and
migrate the existing VFIO PCI BAR mmap() to be backed by a DMABUF too,
resulting in a common vm_ops and fault handler for mmap()s of both the
VFIO device and explicitly-exported DMABUFs. This will help future
iommufd emulation of VFIO Type1 peer-to-peer, making it easier to get
a DMABUF for a VFIO BAR as a DMA target.
mmap() conversion to use DMABUF underneath has been done for vfio-pci,
but not sub-drivers:
nvgrace-gpu's mmap() override path is unchanged; I kept this out of
scope for now not least because I don't have a thorough test setup
for this system. I would prefer to help the nvgrace-gpu maintainers
enable BAR mmap() DMABUFs themselves.
Notes on patches
================
PCI/P2PDMA: Split pool-related cleanup out of pci_p2pdma_release()
PCI/P2PDMA: Add CONFIG_PCI_P2PDMA_CORE
Later in the series, vfio-pci's mmap() is going to depend on
pcim_p2pdma_provider() which depended on CONFIG_PCI_P2PDMA, which
in turn depended on ZONE_DEVICE. That isn't available on 32-bit
and some archs, because they lack MEMORY_HOTPLUG and friends.
VFIO does _not_ require actual P2P to be present for basic mmap()
functionality, only for the optional CONFIG_DMA_SHARED_BUFFER
feature.
These split out p2pdma_core.c under CONFIG_PCI_P2PDMA_CORE (which
currently contains pcim_p2pdma_provider()), and an optional
CONFIG_PCI_P2PDMA which depends on ZONE_DEVICE etc. providing
P2P functionality in the existing p2pdma.c. The first splits
out pool cleanup from the release path, and the second does the
refactor/code move to the new file.
vfio/pci: Add a helper to look up PFNs for DMABUFs
vfio/pci: Add a helper to create a DMABUF for a BAR-map VMA
The first adds a DMABUF VMA fault handler helper to determine
arbitrary-sized PFNs from ranges in DMABUF. The second refactors
DMABUF export for use by the existing export feature, and adds a
helper that creates a DMABUF corresponding to a VFIO BAR mmap()
request.
vfio/pci: Convert BAR mmap() to use a DMABUF
The vfio-pci core mmap() creates a DMABUF with the helper above,
and the vm_ops fault handler uses the other helper to resolve the
fault. Because this depends on DMABUF structs/code,
CONFIG_VFIO_PCI_CORE needs to depend on CONFIG_DMA_SHARED_BUFFER.
The CONFIG_VFIO_PCI_DMABUF still conditionally enables the export
support code.
NOTE: The user mmap()s a device fd, but the resulting VMA's vm_file
becomes that of the DMABUF. The DMABUF takes ownership of the
device file and put()s it on release, which maintains the existing
behaviour of a VMA keeping the VFIO device open.
BAR zapping then happens via the existing vfio_pci_dma_buf_move()
path, which now needs to unmap PTEs in the DMABUF's address_space.
vfio/pci: Provide a user-facing name for BAR mappings
There was a request for decent debug naming in /proc/<pid>/maps
etc. comparable to the existing VFIO names: since the VMAs are
DMABUFs, they have a "dmabuf:" prefix and can't be 100% identical
to before. This is a user-visible change, but this patch at least
now gives us extra info on the BDF & BAR being mapped.
vfio/pci: Clean up BAR zap and revocation
In general (see NOTE!) the vfio_pci_zap_bars() is now obsolete,
since it unmaps PTEs in the VFIO device address_space which is now
unused. This consolidates all calls (e.g. around reset) with the
neighbouring vfio_pci_dma_buf_move()s into new functions, to
revoke/unrevoke (making the steps clearer).
NOTE: Because drivers can use their own vm_ops and override .mmap,
the core must conservatively assume an overridden .mmap might still
add PTEs to the VFIO device address_space and therefore still does
the zap. A new flag, zap_bars_on_revoke, enables the zap when
.mmap is overridden. A driver that does not need the zap can clear
this to opt-out, e.g. if the driver calls down to the common mmap
(and so uses DMABUFs). hisi-acc-vfio-pci does just this, and thus
sets the opt-out flag.
vfio/pci: Support mmap() of a VFIO DMABUF
Adds mmap() for a DMABUF fd exported from vfio-pci.
It was a goal to keep the VFIO device fd lifetime behaviour
unchanged with respect to the DMABUFs. An application can close
all device fds, and this will revoke/clean up all DMABUFs; then, no
mappings or other access can be performed. When enabling mmap() of
the DMABUFs, this means access through the VMA is also revoked.
This complicates the fault handler because whilst the DMABUF
exists, it has no guarantee that the corresponding VFIO device is
still alive. Adds synchronisation ensuring the vdev is available
before vdev->memory_lock is touched; this holds the device
registration so that even if the buffer has been cleaned up, vdev
hasn't been freed and so the lock can be safely taken.
vfio/pci: Permanently revoke a DMABUF on request
This is mostly a rename of `revoked` to an enum, `status`, and
adding a third state for a buffer: usable, revoked temporary,
revoked permanent. A new VFIO feature is added,
VFIO_DEVICE_FEATURE_DMA_BUF_REVOKE, which takes a DMABUF (exported
from the same device) and permanently revokes it. Thus a userspace
driver can guarantee any downstream consumers of a shared fd are
prevented from accessing a BAR range, and that range can be reused.
NOTE: This might block userspace, waiting on importers to detach.
The code doing revocation in vfio_pci_dma_buf_move() is moved, to a
common function for use by ..._move() and this new feature.
NOTE: See changelog, by request v4 added a condition to the
existing code to elide the unnecessary invalidation/sync on the
un-revoke path.)
NOTE: Previous versions contained an additional feature patch,
"vfio/pci: Add mmap() attributes to DMABUF feature". This has been
dropped in v5 because:
- The mechanism simply set vma->vm_page_prot. This would be
sufficient for arm64 and other architectures.
- However, (locally-run claude-opus-4-8) Sashiko flagged that, on
x86, additional memtype handling is required to set up the PAT.
Without this, the memtype is returned back to UC- by
pfnmap_setup_cachemode() upon PTE creation.
Most other sources of userspace WC mappings create PTEs eagerly with
e.g. io_remap_pfn_range() which memtype_reserve() WC for the range.
Getting them with lazy-fault used by vfio-pci is more complicated
(e.g. perhaps registering WC for BARs with PAT/MTRRs, and deciding how
to deal with aliasing...). Since this feature is not critical for
this series to be useful, I've decided for now to drop it in favour of
a simpler series now and revisiting this separ*ately.
Testing
=======
(The [RFC ONLY] userspace test program, for QEMU edu-plus, can be
found in the GitHub branch below. It at least illustrates how the
export, map, revoke, and close semantics interoperate.)
This code has been tested in mapping DMABUFs of single/multiple ranges
from multiple BARs, aliasing mmap()s, aliasing ranges across DMABUFs,
vm_pgoff > 0, revocation, shutdown/cleanup scenarios, and hugepage
mappings. No regressions observed on the VFIO selftests, or on our
internal vfio-pci applications. VFIO on i386 has been build-tested.
Dear Reviewers,
===============
I was grateful for the reviews and Reviewed-Bys on previous versions.
Thanks; I've added some Reviewed-Bys/Acks. I have NOT included your
tags where the patch has materially changed after your review (or
where requested changes ended up more than super-trivial). I hope
that's okay.
End
===
This is based on v7.2-rc3.
These commits are on GitHub for easier browsing, along with
"[RFC ONLY] selftests: vfio: Add standalone vfio_dmabuf_mmap_test":
https://github.com/metamev/linux/compare/v7.2-rc3...dev/mev/vfio-dmabuf-mma…
Thanks for reading,
Matt
================================================================================
Changelog:
v5:
- Rebased on 7.2-rc3
- Dropped the memattr/WC feature (see explanation above).
- "vfio/pci: Convert BAR mmap() to use a DMABUF": Fixed a
potentially-nasty bug (which (locally-run) Sashiko found!) whereby
the unmap_mapping_range() performed in cleanup was passed a range
up from offset zero for the DMABUF size. Initially this was how
all DMABUFs were created and an appropriate zap, but a new version
kept the VFIO region index encoded in the offset -- for BAR > 0 the
unmap span would then mismatch. Instead, pass size 0 to mean an
"all" range. Because the goal is to shoot down everything relating
to one DMABUF and the address_space can only contain things
relating to that DMABUF, this is equivalent and has the bonus of
never failing to match mappings...
Praan, Kevin, I kept your R-Bs on this fix.
- The revoke patch converts vfio_pci_dma_buf_cleanup()'s priv->vdev =
NULL to a WRITE_ONCE, corresponding to the revoke function's
READ_ONCE (performed to test that the VFIO and DMABUF are related).
- Clarified the VFIO_DEVICE_FEATURE_DMA_BUF_REVOKE UAPI comments,
documenting previously-missing error cases and their reasons.
v4: https://lore.kernel.org/all/20260701171245.90111-1-matt@ozlabs.org/
v3: https://lore.kernel.org/all/20260610154327.37758-1-matt@ozlabs.org/
v2: https://lore.kernel.org/all/20260527102319.100128-1-mattev@meta.com/
v1: https://lore.kernel.org/kvm/20260416131815.2729131-1-mattev@meta.com/
RFCv2: https://lore.kernel.org/kvm/20260312184613.3710705-1-mattev@meta.com/
RFCv1: https://lore.kernel.org/all/20260226202211.929005-1-mattev@meta.com/
Tech topic: https://lore.kernel.org/linux-iommu/20250918214425.2677057-1-amastro@fb.com/
Matt Evans (9):
PCI/P2PDMA: Split pool-related cleanup out of pci_p2pdma_release()
PCI/P2PDMA: Add CONFIG_PCI_P2PDMA_CORE
vfio/pci: Add a helper to look up PFNs for DMABUFs
vfio/pci: Add a helper to create a DMABUF for a BAR-map VMA
vfio/pci: Convert BAR mmap() to use a DMABUF
vfio/pci: Provide a user-facing name for BAR mappings
vfio/pci: Clean up BAR zap and revocation
vfio/pci: Support mmap() of a VFIO DMABUF
vfio/pci: Permanently revoke a DMABUF on request
MAINTAINERS | 2 +-
drivers/pci/Kconfig | 5 +
drivers/pci/Makefile | 1 +
drivers/pci/p2pdma.c | 113 +---
drivers/pci/p2pdma.h | 29 +
drivers/pci/p2pdma_core.c | 122 +++++
drivers/vfio/pci/Kconfig | 5 +-
drivers/vfio/pci/Makefile | 3 +-
.../vfio/pci/hisilicon/hisi_acc_vfio_pci.c | 8 +
drivers/vfio/pci/vfio_pci_config.c | 30 +-
drivers/vfio/pci/vfio_pci_core.c | 210 +++++--
drivers/vfio/pci/vfio_pci_dmabuf.c | 515 +++++++++++++++---
drivers/vfio/pci/vfio_pci_priv.h | 53 +-
include/linux/pci-p2pdma.h | 24 +-
include/linux/pci.h | 2 +-
include/linux/vfio_pci_core.h | 1 +
include/uapi/linux/vfio.h | 25 +
17 files changed, 875 insertions(+), 273 deletions(-)
create mode 100644 drivers/pci/p2pdma.h
create mode 100644 drivers/pci/p2pdma_core.c
--
2.50.1 (Apple Git-155)
Both Tvrtko [1] and I [2] have recently proposed some improvals for
drm_sched.
While taking Tvrtko's feedback into account for my patch, I realized
that both his and my patch can be fully replaced with a bigger and far
more beautiful series.
If I am not mistaken, it turns out that the entire entity->entity_idle
completion is also nothing but a workaround around the grave mistake of
not using the greatest helper with parallel programming that exists in
computer science: Locking.
This series adds locking to the last_scheduled field and all checks
related to detect the idleness of the entity. As before, the
job_scheduled event queue causes the periodic checks.
This way, we can get rid of memory barriers, RCU, a few lines of code,
make things more readable, understandable...
Tested with drm-sched-unit tests. I'm a bit busy right now, but wanted
to show you guys the idea. Before merging I'd test it more exhaustively
with Nouveau.
Greetings,
Philipp
[1] https://lore.kernel.org/dri-devel/20260611123423.39819-1-tvrtko.ursulin@iga…
[2] https://lore.kernel.org/dri-devel/20260626081942.2122144-2-phasta@kernel.or…
Philipp Stanner (5):
drm/sched: Protect entity->last_scheduled with spinlock
drm/sched: Lock spsc_queue in drm_sched_entity_pop_job()
drm/sched: Avoid lock cycle for sched_entity
drm/sched: Lock drm_sched_entity_is_idle()
drm/sched: Remove entity->entity_idle
drivers/gpu/drm/scheduler/sched_entity.c | 75 +++++++++++-------------
drivers/gpu/drm/scheduler/sched_main.c | 2 -
drivers/gpu/drm/scheduler/sched_rq.c | 5 +-
include/drm/gpu_scheduler.h | 16 ++---
4 files changed, 41 insertions(+), 57 deletions(-)
base-commit: be4f10d44757211fd656fa57f37034657f26c883
--
2.54.0
Several drivers call dma_buf_fd() — which internally calls fd_install()
— before copy_to_user() returns the fd number to userspace. If
copy_to_user() fails, the fd is already published in the caller's fd
table but the ioctl returns an error, so userspace never learns the fd
number. Worse, the window between fd_install() and copy_to_user()
allows other threads to observe and manipulate the fd (dup, close,
SCM_RIGHTS), making any "close it on the failure path" fix unsafe.
The fix is to split the allocation into three steps: reserve an fd with
get_unused_fd_flags() (not yet visible to other threads), do
copy_to_user(), and only then publish the fd with fd_install() via the
new dma_buf_fd_install() helper. On copy_to_user() failure,
put_unused_fd() + dma_buf_put() cleanly unwind with no user-visible
side effects.
Patch 1 introduces dma_buf_fd_install() in dma-buf.c (wrapping
fd_install() together with the DMA_BUF_TRACE call to preserve export
tracing) and applies the fix to dma-heap.
Patch 2 applies the same fix to fastrpc, which even had a comment
acknowledging the problem could not be fixed before.
v1: https://lore.kernel.org/dri-devel/20260703080922.1838362-1-shoubaineng@gmai…
v2: https://lore.kernel.org/dri-devel/20260710105430.3059661-1-shoubaineng@gmai…
Changes in v3:
- Split into two patches (dma-heap + fastrpc separately)
- Add dma_buf_fd_install() to preserve trace_dma_buf_fd tracepoint
(spotted by T.J. Mercier and sashiko-bot on v2)
- Add fastrpc fix using the new helper (suggested by T.J. Mercier)
Baineng Shou (2):
dma-buf: dma-heap: don't publish fd before copy_to_user() succeeds
misc: fastrpc: don't publish fd before copy_to_user() succeeds
drivers/dma-buf/dma-buf.c | 20 ++++++++++
drivers/dma-buf/dma-heap.c | 80 +++++++++++++++++++-------------------
drivers/misc/fastrpc.c | 16 +++-----
include/linux/dma-buf.h | 1 +
4 files changed, 67 insertions(+), 50 deletions(-)
--
2.34.1
Changes since v4:
- Fix an uninitialized memory bug for FenceCbRegistration with
ManuallyDrop.
- Return FenceCtx as impl PinInit
- Make FenceCtx return an impl PinInit<T, Error> (Danilo)
- Reformat some comments
- Adjust the docu for rcu_barrier(), so that it matches the C side's
docu and our docu for rcu::synchronize_rcu().
Changes since v3:
- Add a FIXME for an encountered Rust compiler bug. (Gary)
- Add new Rust files also to DRM drivers & common infrastructure
MAINTAINERS file. (Danilo)
- Reposition ECANCELED error code. (Miguel)
- Replace refcounted FenceCtx in DriverFenceData with a reference plus
life time. (Boris)
- Re-add rcu_barrier() patch, since we now can use it for dropping the
fence context. (Danilo)
- Add forgotten R-b from Alice, and Acks for MAINTAINERS from
Christian and Sumit.
Changes since v2:
- Don't drop DriverFenceData as a whole, but only the members we
really want to drop. Gives more robustness. (Gary).
- Break apart large pin_init_from_closure(). (Danilo, Onur)
- Remove rcu_barrier() and synchronize_rcu() from FenceCtx::drop().
FenceCtx might drop in atomic context, where you must not perform
those operations. With the current way C dma_fence is designed, the
driver must wait for a grace period manually until it unloads.
- Repair the DriverFenceBorrow implementation, properly injecting a
life time into it. (Danilo)
- Fix memory layout bug for rcu_head. (Onur)
- Drop RCU patches, since this series doesn't need them anymore.
Changes since v1:
- Remove unnecessary mutable references (Alice)
- Split up unsafe comments where possible (Danilo)
- Remove PhantomData + implement FenceCtx ops trait (Boris)
- Consistently call FenceCtx generic data `T`. FenceDataType is
derived from that. (Boris)
- Add abstractions for call_rcu() and synchronize_rcu() (Danilo)
- Add ECANCELED error code in Rust (Alice)
- Remove the rcu_barrier() from FenceCtx::drop() – because we now use
call_rcu(), there can be no UAF access to the FenceCtx anymore. In
any case, it is illegal to use either call_rcu() or
synchronize_rcu() in FenceCtx::drop(), because our new
drop_driver_fence_data() can run in atomic context and might put the
last fence_ctx reference.
So we now only have to guard against module unload, which it seems
either the driver or Rust driver-core / module unload infrastructure
must solve.
- Minor formatting etc. changes
- Add C helpers to MAINTAINERS. (Danilo)
- Ensure that `Fence::is_signaled()` is fully synchronized, i.e., all
callbacks really have run. See [1] and [2]. (Myself, Christian
König)
Changes since the RFCs:
- Include support for ForeignOwnable for ARef, so that a Fence can be
stuffed into an XArray et al. (Code by Danilo)
- Implement ForeignOwnable (with new borrow type) for DriverFence, so
that it can be stuffed into an XArray.
- Include the rcu::RcuBox data type to defer dropping data with RCU
(Cody by Alice)
- Port DmaFence to RcuBox to make UAF bugs through later, new dma_fence
callbacks (backend_ops) impossible.
- Force users to pass their fence data in an RcuBox (or have it not
need drop()) through a Sealed trait.
- Document the rules for the user's DriverFence::data's drop
implementation very clearly (deadlock danger).
- rustfmt, Clippy.
- Various style suggestions, safety comments, etc. (Önur)
- Add __rust_helper prefix to helper functions. (Önur)
Changes in RFC v3:
- Omit JobQueue patches for now
- Completely redesign the memory layout: Instead of a Fence
refcounting a DriverFence, both now live in the same allocation to
allow for future support the dma_fence backend_ops callbacks which
need to do container_of. (mostly Boris's feedback)
- Allow for pre-allocating fences to avoid deadlocks when submitting
jobs to a GPU. (Boris)
- Simultaneously, allow for pre-preparing fence callback objects, so
the driver can allocate them when it sees fit. (code largely stolen
and inspired by Daniel).
- Signal fences on drop, ensure synchronization.
- Force users to set an error code when signalling.
- Write more documentation
- A ton of minor other changes.
[1] https://lore.kernel.org/dri-devel/20260608142436.265820-2-phasta@kernel.org/
[2] https://lore.kernel.org/dri-devel/20260612104251.2264707-2-phasta@kernel.or…
Alright, so since the last RFCs did not reveal significant design
issues, I decided to transition this series to a v1 and hope that we can
get it upstream.
This now includes code for more common infrastructure that dma_fence
needs, contributed by Danilo and Alice.
---
Old cover letter for RFC:
So, this is the spiritual successor of the first / second RFC [1]. v2
also contained code for drm::JobQueue, but mostly to show how the fence
code would be used. JobQueue is under heavy rework right now, so I don't
want to bother your eyes with it. The docstring examples should show how
Rust fences are supposed to be used, though.
This v3 contains a huge amount of highly valuable feedback from a
variety of people, notably Boris, but also from Alice, Gary and Danilo.
There are some TODOs open (a better trait for fence backend_ops and RCU
support), but my hope is that this effort is now finally approaching its
end.
I would greatly appreciate feedback and especially more information
about what might be missing to make this usable, which is obviously
where Daniel's and Boris's feedback will be valuable once more.
Please regard this patch just as what it's titled: an RFC, to discuss a
bit more and to inform a broader community about what the current state
is and where this is heading at.
Many regards,
Philipp
[1] https://lore.kernel.org/rust-for-linux/20260203081403.68733-2-phasta@kernel…
Danilo Krummrich (1):
rust: types: implement ForeignOwnable for ARef<T>
Philipp Stanner (4):
rust: error: Add ECANCELED error code
rust: sync: Add abstraction for rcu_barrier()
rust: Add dma_fence abstractions
MAINTAINERS: Add entry for Rust dma-buf
MAINTAINERS | 5 +
rust/bindings/bindings_helper.h | 1 +
rust/helpers/dma_fence.c | 48 ++
rust/helpers/helpers.c | 1 +
rust/kernel/dma_buf/dma_fence.rs | 894 +++++++++++++++++++++++++++++++
rust/kernel/dma_buf/mod.rs | 14 +
rust/kernel/error.rs | 1 +
rust/kernel/lib.rs | 1 +
rust/kernel/sync/aref.rs | 40 ++
rust/kernel/sync/rcu.rs | 20 +
10 files changed, 1025 insertions(+)
create mode 100644 rust/helpers/dma_fence.c
create mode 100644 rust/kernel/dma_buf/dma_fence.rs
create mode 100644 rust/kernel/dma_buf/mod.rs
base-commit: a73a398a68ca9b9e5116a617562471f16b8310c4
--
2.54.0
This series adds support for the video protection region (VPR) used on
Tegra SoC devices. It's a special region of memory that is protected
from accesses by the CPU and used to store DRM protected content (both
decrypted stream data as well as decoded video frames).
Patches 1 through 3 add DT binding documentation for the VPR and add the
VPR to the list of memory-region items for display, host1x and NVDEC.
New set_memory_device() and set_memory_normal() helpers are defined in
patch 4 and will subsequently be used to set the memory type of the VPR
to make sure it won't be accessed by the CPU once it's made part of the
protected region.
Patch 5 adds bitmap_allocate(), which is like bitmap_allocate_region()
but works on sizes that are not a power of two.
Patch 6 introduces new APIs needed by the Tegra VPR implementation that
allow CMA areas to be dynamically created at runtime rather than using
the fixed, system-wide list. This is used in this driver specifically
because it can use an arbitrary number of these areas (though they are
currently limited to 4).
Patch 7 adds some infrastructure for DMA heap implementations to provide
information through debugfs.
The Tegra VPR implementation is added in patch 8. See its commit message
for more details about the specifics of this implementation.
Finally, patches 9-11 add the VPR placeholder node on Tegra234 and
Tegra264 and hook it up to the host1x node so that it can make use of
this region.
Changes in v3:
- Link to v2: https://patch.msgid.link/20260122161009.3865888-1-thierry.reding@kernel.org
- introduce set_memory_device() and set_memory_normal()
- rename VPR nodes to "protected"
- add Tegra264 placeholder nodes
Changes in v2:
- Link to v1: https://patch.msgid.link/20250902154630.4032984-1-thierry.reding@gmail.com
- Tegra VPR implementation is now more optimized to reduce the number of
(very slow) resize operations, and allows cross-chunk allocations
- dynamic CMA areas are now trackd separately from static ones, but the
global number of CMA pages accounts for all areas
Thierry
Signed-off-by: Thierry Reding <treding(a)nvidia.com>
---
Chun Ng (1):
arm64/mm: Add set_memory_device() and set_memory_normal()
Thierry Reding (10):
dt-bindings: reserved-memory: Document Tegra VPR
dt-bindings: display: tegra: Document memory regions
dt-bindings: gpu: host1x: Document memory-regions for NVDEC
bitmap: Add bitmap_allocate() function
mm/cma: Allow dynamically creating CMA areas
dma-buf: heaps: Add debugfs support
dma-buf: heaps: Add support for Tegra VPR
arm64: tegra: Add VPR placeholder node on Tegra234
arm64: tegra: Hook up VPR to host1x
arm64: tegra: Add VPR placeholder node on Tegra264
.../display/tegra/nvidia,tegra124-vic.yaml | 8 +
.../bindings/display/tegra/nvidia,tegra186-dc.yaml | 10 +
.../bindings/display/tegra/nvidia,tegra20-dc.yaml | 10 +-
.../display/tegra/nvidia,tegra20-host1x.yaml | 7 +
.../bindings/gpu/host1x/nvidia,tegra234-nvdec.yaml | 8 +
.../nvidia,tegra-video-protection-region.yaml | 76 ++
arch/arm/mm/dma-mapping.c | 2 +-
arch/arm64/boot/dts/nvidia/tegra234.dtsi | 45 +
arch/arm64/boot/dts/nvidia/tegra264.dtsi | 33 +
arch/arm64/include/asm/set_memory.h | 2 +
arch/arm64/mm/pageattr.c | 16 +
arch/s390/mm/init.c | 2 +-
drivers/dma-buf/dma-heap.c | 56 +
drivers/dma-buf/heaps/Kconfig | 7 +
drivers/dma-buf/heaps/Makefile | 1 +
drivers/dma-buf/heaps/tegra-vpr.c | 1242 ++++++++++++++++++++
include/linux/bitmap.h | 25 +-
include/linux/cma.h | 8 +-
include/linux/dma-heap.h | 2 +
include/linux/set_memory.h | 11 +
include/trace/events/tegra_vpr.h | 57 +
kernel/dma/contiguous.c | 2 +-
mm/cma.c | 187 ++-
mm/cma.h | 5 +-
24 files changed, 1775 insertions(+), 47 deletions(-)
---
base-commit: 703daa6d046136affd69f2a2e08f36ac4a7d5b2c
change-id: 20260507-tegra-vpr-cd4bc2509c4c
Best regards,
--
Thierry Reding <treding(a)nvidia.com>
From Dmitry.Guzman(a)mobileye.com Wed Jul 15 14:45:58 2026
Date: Wed, 15 Jul 2026 14:45:58 +0300
From: Dmitry Guzman <Dmitry.Guzman(a)mobileye.com>
To: Aniket Randive <aniket.randive(a)oss.qualcomm.com>
Cc: mukesh.savaliya(a)oss.qualcomm.com, viken.dadhaniya(a)oss.qualcomm.com,
andi.shyti(a)kernel.org, sumit.semwal(a)linaro.org, christian.koenig(a)amd.com,
linux-i2c(a)vger.kernel.org, linux-arm-msm(a)vger.kernel.org,
linux-kernel(a)vger.kernel.org, linux-media(a)vger.kernel.org,
dri-devel(a)lists.freedesktop.org, linaro-mm-sig(a)lists.linaro.org,
naresh.maramaina(a)oss.qualcomm.com
Subject: Re: [PATCH V5] i2c: qcom-geni: Add dynamic transfer timeout based
on transfer length and frequency
Message-Id: <20260715144558.abf5078829bfd2a0973019a9(a)mobileye.com>
In-Reply-To: <20260715101805.3615166-1-aniket.randive(a)oss.qualcomm.com>
References: <20260715101805.3615166-1-aniket.randive(a)oss.qualcomm.com>
Organization: MobilEye
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On Wed, 15 Jul 2026 15:48:05 +0530
Aniket Randive <aniket.randive(a)oss.qualcomm.com> wrote:
> This replaces the fixed 1-second timeout with a transfer-specific
> timeout while preserving sufficient margin for software overheads and
> bus-level delays.
>
The dynamic timeout may be useful for any I2C bus controller, not only
for qcom-geni. Structure i2c_adapter already has field "timeout". Isn't
it worth to move the timeout calculation to i2c-core, so that the core
updates the timeout field in i2c_adapter structure, and the controller
driver just uses this value, instead of duplicating the calculation in
every driver that will use this feature?
Also, such parameters as I2C_TIMEOUT_SAFETY_COEFFICIENT and
I2C_TIMEOUT_MIN_USEC may be configurable by user (for example, in
device tree) for more flexibility.
Best regards,
--
Dmitry Guzman <Dmitry.Guzman(a)mobileye.com>
Slope features a very distinct neon visual style. The bright colors contrast against the dark background perfectly. This makes the path clear even when you are moving at high speeds. The aesthetic is clean and modern. It avoids unnecessary clutter that might distract you during the game. This focus on visuals helps you stay locked into the core gameplay loop.
The environment feels empty yet threatening. The void below the track creates a sense of danger. You are always one wrong tilt away from falling. This creates a high-stakes atmosphere that keeps you engaged. The simplicity of the graphics is a strength. It allows the game to run smoothly on almost any device without any lag or performance issues at all.
https://slope-play.com
You might find the visuals hypnotic after a while. The glowing lines and moving platforms can create a flow state. This is when the game becomes truly special. You move by instinct rather than conscious thought. You react before you even see the obstacle clearly. This level of immersion is why so many players spend hours trying to beat their records.
Heardle has quickly become one of the most talked-about music puzzle games online. Designed for players of all skill levels, heardle invites you to guess songs from short audio clips while enjoying a relaxed yet competitive experience. https://heardleonline.io/
Gameplay Overview
The mechanics are straightforward but clever. You begin with a brief audio clip—usually just one second long. If you can’t identify the song, you can skip or guess incorrectly to unlock longer snippets. You have a maximum of six attempts to get it right.
A Unique Twist on Wordle
Unlike Wordle’s text-based gameplay, Heardle focuses entirely on sound. There are no color-coded hints or letter placements—only your listening skills. This makes it both simpler and more immersive.
Explore Variants and Modes
One of Heardle’s strengths is its variety. Players can explore:
Decade-based editions (80s, 90s, 2000s, etc.)
Genre-focused versions like rock, pop, or K-pop
Unlimited modes for extended gameplay
Why You Should Play Heardle
Heardle isn’t just a game—it’s an experience. It challenges your memory, sharpens your listening skills, and introduces you to new music. Whether you’re playing solo or sharing results with friends, it’s a great way to connect through music.
If you’re searching for a fun, engaging, and easy-to-learn music guessing game, Heardle is the perfect choice. Give it a try and see how many songs you can recognize.