| /linux-6.15/Documentation/core-api/ |
| H A D | genalloc.rst | 10 tested allocators. Back in 2005, Jes Sorensen lifted one of those
11 allocators from the sym53c8xx_2 driver and posted_ it as a generic module
12 for the creation of ad hoc memory allocators. This code was merged
123 writing of special-purpose memory allocators in the future.
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| H A D | memory-allocation.rst | 11 `alloc_pages`. It is also possible to use more specialized allocators,
32 The GFP flags control the allocators behavior. They tell what memory
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| H A D | dma-api-howto.rst | 120 (i.e. __get_free_page*()) or the generic memory allocators
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| /linux-6.15/Documentation/filesystems/ext4/ |
| H A D | overview.rst | 22 .. include:: allocators.rst
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| H A D | allocators.rst | 50 group, the allocators simply move on to the next block group. Allegedly
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| /linux-6.15/drivers/md/dm-vdo/ |
| H A D | slab-depot.c | 3867 &depot->allocators[depot->new_slab_count % depot->zone_count]; in allocate_slabs()
4059 struct block_allocator *allocator = &depot->allocators[zone]; in initialize_block_allocator()
4308 struct block_allocator *allocator = &depot->allocators[zone]; in vdo_free_slab_depot()
4502 total += READ_ONCE(depot->allocators[zone].allocated_blocks); in vdo_get_slab_depot_allocated_blocks()
4655 vdo_start_loading(&depot->allocators[zone_number].state, in load_allocator()
4687 struct block_allocator *allocator = &depot->allocators[zone_number]; in prepare_to_allocate()
4804 struct block_allocator *allocator = &depot->allocators[zone_number]; in register_new_slabs()
4910 vdo_start_draining(&depot->allocators[zone_number].state, in drain_allocator()
5002 vdo_start_resuming(&depot->allocators[zone_number].state, in resume_allocator()
5048 scrub_slabs(&depot->allocators[zone_number], NULL); in scrub_all_unrecovered_slabs()
[all …]
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| H A D | slab-depot.h | 512 struct block_allocator allocators[]; member
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| H A D | physical-zone.c | 343 zone->allocator = &vdo->depot->allocators[zone_number]; in initialize_zone()
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| /linux-6.15/drivers/media/test-drivers/vivid/ |
| H A D | vivid-core.c | 167 static unsigned int allocators[VIVID_MAX_DEVS] = { [0 ... (VIVID_MAX_DEVS - 1)] = 0 }; variable
168 module_param_array(allocators, uint, NULL, 0444);
169 MODULE_PARM_DESC(allocators, " memory allocator selection, default is 0.\n"
921 if (allocators[dev->inst] != 1) in vivid_create_queue()
926 q->mem_ops = allocators[dev->inst] == 1 ? &vb2_dma_contig_memops : in vivid_create_queue()
1977 if (allocators[inst] == 1) in vivid_create_instance()
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| /linux-6.15/Documentation/arch/sh/ |
| H A D | new-machine.rst | 154 - Consistent allocators (for boards that need special allocators,
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| /linux-6.15/Documentation/dev-tools/ |
| H A D | kasan.rst | 78 For slab, both software KASAN modes support SLUB and SLAB allocators, while
476 in memory allocators), these accesses are valid.
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| H A D | kfence.rst | 309 The following describes the functions which are used by allocators as well as
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| /linux-6.15/drivers/media/platform/amphion/ |
| H A D | vpu_v4l2.c | 473 struct device *allocators[]) in vpu_vb2_queue_setup() argument
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| /linux-6.15/Documentation/admin-guide/mm/ |
| H A D | pagemap.rst | 124 the SLUB etc. memory allocators and various device drivers.
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| /linux-6.15/Documentation/mm/ |
| H A D | hmm.rst | 18 related to using device specific memory allocators. In the second section, I
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| /linux-6.15/Documentation/driver-api/dmaengine/ |
| H A D | provider.rst | 111 structure. Any of the usual memory allocators will do, but you'll also
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| /linux-6.15/ |
| H A D | CREDITS | 1165 D: Slab allocators
2076 D: Slab allocators
2341 D: NUMA support, Slab allocators, Page migration
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| /linux-6.15/mm/ |
| H A D | Kconfig | 136 read the description of each of the allocators below before
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| /linux-6.15/Documentation/process/ |
| H A D | coding-style.rst | 935 The kernel provides the following general purpose memory allocators:
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| /linux-6.15/Documentation/admin-guide/media/ |
| H A D | vivid.rst | 288 - allocators:
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