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SubjectRe: [PATCH 00/15] HMM (Heterogeneous Memory Management) v24
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On 06/28/2017 11:00 AM, Jérôme Glisse wrote:
>
> Patchset is on top of git://git.cmpxchg.org/linux-mmotm.git so i
> test same kernel as kbuild system, git branch:
>
> https://cgit.freedesktop.org/~glisse/linux/log/?h=hmm-v24
>
> Change since v23 is code comment fixes, simplify kernel configuration and
> improve allocation of new page on migration do device memory (last patch
> in this patchset).

Hi Jerome,

Tiny note: one more change is that hmm_devmem_fault_range() has been
removed (and thanks for taking care of that, btw).

Anyway, this looks good. A basic smoke test shows the following:

1. We definitely *require* your other patch,
"[PATCH] x86/mm/hotplug: fix BUG_ON() after hotremove by not freeing pud v3",
otherwise I will reliably hit that bug every time I run my simple page fault
test. So, let me know if I should ping that thread. It looks like your patch
was not rejected, but I can't tell if (!rejected == accepted), there. :)

We'll continue testing, but I expect at this point that anything we find
can be patched up after HMM finally gets merged.

thanks,
John Hubbard
NVIDIA

>
> Everything else is the same. Below is the long description of what HMM
> is about and why. At the end of this email i describe briefly each patch
> and suggest reviewers for each of them.
>
>
> Heterogeneous Memory Management (HMM) (description and justification)
>
> Today device driver expose dedicated memory allocation API through their
> device file, often relying on a combination of IOCTL and mmap calls. The
> device can only access and use memory allocated through this API. This
> effectively split the program address space into object allocated for the
> device and useable by the device and other regular memory (malloc, mmap
> of a file, share memory, â) only accessible by CPU (or in a very limited
> way by a device by pinning memory).
>
> Allowing different isolated component of a program to use a device thus
> require duplication of the input data structure using device memory
> allocator. This is reasonable for simple data structure (array, grid,
> image, â) but this get extremely complex with advance data structure
> (list, tree, graph, â) that rely on a web of memory pointers. This is
> becoming a serious limitation on the kind of work load that can be
> offloaded to device like GPU.
>
> New industry standard like C++, OpenCL or CUDA are pushing to remove this
> barrier. This require a shared address space between GPU device and CPU so
> that GPU can access any memory of a process (while still obeying memory
> protection like read only). This kind of feature is also appearing in
> various other operating systems.
>
> HMM is a set of helpers to facilitate several aspects of address space
> sharing and device memory management. Unlike existing sharing mechanism
> that rely on pining pages use by a device, HMM relies on mmu_notifier to
> propagate CPU page table update to device page table.
>
> Duplicating CPU page table is only one aspect necessary for efficiently
> using device like GPU. GPU local memory have bandwidth in the TeraBytes/
> second range but they are connected to main memory through a system bus
> like PCIE that is limited to 32GigaBytes/second (PCIE 4.0 16x). Thus it
> is necessary to allow migration of process memory from main system memory
> to device memory. Issue is that on platform that only have PCIE the device
> memory is not accessible by the CPU with the same properties as main
> memory (cache coherency, atomic operations, ...).
>
> To allow migration from main memory to device memory HMM provides a set
> of helper to hotplug device memory as a new type of ZONE_DEVICE memory
> which is un-addressable by CPU but still has struct page representing it.
> This allow most of the core kernel logic that deals with a process memory
> to stay oblivious of the peculiarity of device memory.
>
> When page backing an address of a process is migrated to device memory
> the CPU page table entry is set to a new specific swap entry. CPU access
> to such address triggers a migration back to system memory, just like if
> the page was swap on disk. HMM also blocks any one from pinning a
> ZONE_DEVICE page so that it can always be migrated back to system memory
> if CPU access it. Conversely HMM does not migrate to device memory any
> page that is pin in system memory.
>
> To allow efficient migration between device memory and main memory a new
> migrate_vma() helpers is added with this patchset. It allows to leverage
> device DMA engine to perform the copy operation.
>
> This feature will be use by upstream driver like nouveau mlx5 and probably
> other in the future (amdgpu is next suspect in line). We are actively
> working on nouveau and mlx5 support. To test this patchset we also worked
> with NVidia close source driver team, they have more resources than us to
> test this kind of infrastructure and also a bigger and better userspace
> eco-system with various real industry workload they can be use to test and
> profile HMM.
>
> The expected workload is a program builds a data set on the CPU (from disk,
> from network, from sensors, â). Program uses GPU API (OpenCL, CUDA, ...)
> to give hint on memory placement for the input data and also for the output
> buffer. Program call GPU API to schedule a GPU job, this happens using
> device driver specific ioctl. All this is hidden from programmer point of
> view in case of C++ compiler that transparently offload some part of a
> program to GPU. Program can keep doing other stuff on the CPU while the
> GPU is crunching numbers.
>
> It is expected that CPU will not access the same data set as the GPU while
> GPU is working on it, but this is not mandatory. In fact we expect some
> small memory object to be actively access by both GPU and CPU concurrently
> as synchronization channel and/or for monitoring purposes. Such object will
> stay in system memory and should not be bottlenecked by system bus
> bandwidth (rare write and read access from both CPU and GPU).
>
> As we are relying on device driver API, HMM does not introduce any new
> syscall nor does it modify any existing ones. It does not change any POSIX
> semantics or behaviors. For instance the child after a fork of a process
> that is using HMM will not be impacted in anyway, nor is there any data
> hazard between child COW or parent COW of memory that was migrated to
> device prior to fork.
>
> HMM assume a numbers of hardware features. Device must allow device page
> table to be updated at any time (ie device job must be preemptable). Device
> page table must provides memory protection such as read only. Device must
> track write access (dirty bit). Device must have a minimum granularity that
> match PAGE_SIZE (ie 4k).
>
>
> Reviewer (just hint):
> Patch 1 HMM documentation
> Patch 2 introduce core infrastructure and definition of HMM, pretty
> small patch and easy to review
> Patch 3 introduce the mirror functionality of HMM, it relies on
> mmu_notifier and thus someone familiar with that part would be
> in better position to review
> Patch 4 is an helper to snapshot CPU page table while synchronizing with
> concurrent page table update. Understanding mmu_notifier makes
> review easier.
> Patch 5 is mostly a wrapper around handle_mm_fault()
> Patch 6 add new add_pages() helper to avoid modifying each arch memory
> hot plug function
> Patch 7 add a new memory type for ZONE_DEVICE and also add all the logic
> in various core mm to support this new type. Dan Williams and
> any core mm contributor are best people to review each half of
> this patchset
> Patch 8 special case HMM ZONE_DEVICE pages inside put_page() Kirill and
> Dan Williams are best person to review this
> Patch 9 add helper to hotplug un-addressable device memory as new type
> of ZONE_DEVICE memory (new type introducted in patch 3 of this
> serie). This is boiler plate code around memory hotplug and it
> also pick a free range of physical address for the device memory.
> Note that the physical address do not point to anything (at least
> as far as the kernel knows).
> Patch 10 introduce a new hmm_device class as an helper for device driver
> that want to expose multiple device memory under a common fake
> device driver. This is usefull for multi-gpu configuration.
> Anyone familiar with device driver infrastructure can review
> this. Boiler plate code really.
> Patch 11 add a new migrate mode. Any one familiar with page migration is
> welcome to review.
> Patch 12 introduce a new migration helper (migrate_vma()) that allow to
> migrate a range of virtual address of a process using device DMA
> engine to perform the copy. It is not limited to do copy from and
> to device but can also do copy between any kind of source and
> destination memory. Again anyone familiar with migration code
> should be able to verify the logic.
> Patch 13 optimize the new migrate_vma() by unmapping pages while we are
> collecting them. This can be review by any mm folks.
> Patch 14 add unaddressable memory migration to helper introduced in patch
> 7, this can be review by anyone familiar with migration code
> Patch 15 add a feature that allow device to allocate non-present page on
> the GPU when migrating a range of address to device memory. This
> is an helper for device driver to avoid having to first allocate
> system memory before migration to device memory
>
>
> Previous patchset posting :
> v1 http://lwn.net/Articles/597289/
> v2 https://lkml.org/lkml/2014/6/12/559
> v3 https://lkml.org/lkml/2014/6/13/633
> v4 https://lkml.org/lkml/2014/8/29/423
> v5 https://lkml.org/lkml/2014/11/3/759
> v6 http://lwn.net/Articles/619737/
> v7 http://lwn.net/Articles/627316/
> v8 https://lwn.net/Articles/645515/
> v9 https://lwn.net/Articles/651553/
> v10 https://lwn.net/Articles/654430/
> v11 http://www.gossamer-threads.com/lists/linux/kernel/2286424
> v12 http://www.kernelhub.org/?msg=972982&p=2
> v13 https://lwn.net/Articles/706856/
> v14 https://lkml.org/lkml/2016/12/8/344
> v15 http://www.mail-archive.com/linux-kernel@xxxxxxxxxxxxxxx/msg1304107.html
> v16 http://www.spinics.net/lists/linux-mm/msg119814.html
> v17 https://lkml.org/lkml/2017/1/27/847
> v18 https://lkml.org/lkml/2017/3/16/596
> v19 https://lkml.org/lkml/2017/4/5/831
> v20 https://lwn.net/Articles/720715/
> v21 https://lkml.org/lkml/2017/4/24/747
> v22 http://lkml.iu.edu/hypermail/linux/kernel/1705.2/05176.html
>
>
> Jérôme Glisse (14):
> hmm: heterogeneous memory management documentation v2
> mm/hmm: heterogeneous memory management (HMM for short) v4
> mm/hmm/mirror: mirror process address space on device with HMM helpers
> v3
> mm/hmm/mirror: helper to snapshot CPU page table v3
> mm/hmm/mirror: device page fault handler
> mm/ZONE_DEVICE: new type of ZONE_DEVICE for unaddressable memory v4
> mm/ZONE_DEVICE: special case put_page() for device private pages v2
> mm/hmm/devmem: device memory hotplug using ZONE_DEVICE v6
> mm/hmm/devmem: dummy HMM device for ZONE_DEVICE memory v3
> mm/migrate: new migrate mode MIGRATE_SYNC_NO_COPY
> mm/migrate: new memory migration helper for use with device memory v4
> mm/migrate: migrate_vma() unmap page from vma while collecting pages
> mm/migrate: support un-addressable ZONE_DEVICE page in migration v2
> mm/migrate: allow migrate_vma() to alloc new page on empty entry v3
>
> Michal Hocko (1):
> mm/memory_hotplug: introduce add_pages
>
> Documentation/vm/hmm.txt | 344 ++++++++++++
> MAINTAINERS | 7 +
> arch/x86/Kconfig | 4 +
> arch/x86/mm/init_64.c | 22 +-
> fs/aio.c | 8 +
> fs/f2fs/data.c | 5 +-
> fs/hugetlbfs/inode.c | 5 +-
> fs/proc/task_mmu.c | 7 +
> fs/ubifs/file.c | 5 +-
> include/linux/hmm.h | 458 +++++++++++++++
> include/linux/ioport.h | 1 +
> include/linux/memory_hotplug.h | 11 +
> include/linux/memremap.h | 86 +++
> include/linux/migrate.h | 124 +++++
> include/linux/migrate_mode.h | 5 +
> include/linux/mm.h | 25 +
> include/linux/mm_types.h | 6 +
> include/linux/swap.h | 24 +-
> include/linux/swapops.h | 68 +++
> kernel/fork.c | 2 +
> kernel/memremap.c | 53 +-
> mm/Kconfig | 34 ++
> mm/Makefile | 2 +-
> mm/balloon_compaction.c | 8 +
> mm/hmm.c | 1193 ++++++++++++++++++++++++++++++++++++++++
> mm/memory.c | 61 ++
> mm/memory_hotplug.c | 10 +-
> mm/migrate.c | 806 ++++++++++++++++++++++++++-
> mm/mprotect.c | 14 +
> mm/page_vma_mapped.c | 10 +
> mm/rmap.c | 25 +
> mm/zsmalloc.c | 8 +
> 32 files changed, 3411 insertions(+), 30 deletions(-)
> create mode 100644 Documentation/vm/hmm.txt
> create mode 100644 include/linux/hmm.h
> create mode 100644 mm/hmm.c
>

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