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address and use this mechanism when: 1. kmem_alloc_{attr,contig}() can't find suitable free pages in the physical memory allocator's free page lists. This replaces the long-standing approach of scanning the inactive and inactive queues, converting clean pages into PG_CACHED pages and laundering dirty pages. In contrast, the new mechanism does not use PG_CACHED pages nor does it trigger a large number of I/O operations. 2. on 32-bit MIPS processors, uma_small_alloc() and the pmap can't find free pages in the physical memory allocator's free page lists that are covered by the direct map. Tested by: adrian 3. ttm_bo_global_init() and ttm_vm_page_alloc_dma32() can't find suitable free pages in the physical memory allocator's free page lists. In the coming months, I expect that this new mechanism will be applied in other places. For example, balloon drivers should use relocation to minimize fragmentation of the guest physical address space. Make vm_phys_alloc_contig() a little smarter (and more efficient in some cases). Specifically, use vm_phys_segs[] earlier to avoid scanning free page lists that can't possibly contain suitable pages. Reviewed by: kib, markj Glanced at: jhb Discussed with: jeff Sponsored by: EMC / Isilon Storage Division Differential Revision: https://reviews.freebsd.org/D4444 |
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ttm_agp_backend.c | ||
ttm_bo_api.h | ||
ttm_bo_driver.h | ||
ttm_bo_manager.c | ||
ttm_bo_util.c | ||
ttm_bo_vm.c | ||
ttm_bo.c | ||
ttm_execbuf_util.c | ||
ttm_execbuf_util.h | ||
ttm_lock.c | ||
ttm_lock.h | ||
ttm_memory.c | ||
ttm_memory.h | ||
ttm_module.h | ||
ttm_object.c | ||
ttm_object.h | ||
ttm_page_alloc_dma.c | ||
ttm_page_alloc.c | ||
ttm_page_alloc.h | ||
ttm_placement.h | ||
ttm_tt.c |