168 lines
4.7 KiB
C
168 lines
4.7 KiB
C
#ifndef SOCKS_VM_H_
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#define SOCKS_VM_H_
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#include <stddef.h>
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#include <socks/types.h>
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#include <socks/status.h>
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#include <socks/queue.h>
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/* maximum number of NUMA nodes */
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#define VM_MAX_NODES 64
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/* maximum number of memory zones per node */
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#define VM_MAX_ZONES (VM_ZONE_MAX + 1)
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/* maximum number of supported page orders */
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#define VM_MAX_PAGE_ORDERS (VM_PAGE_MAX_ORDER + 1)
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#define VM_CHECK_ALIGN(p, mask) ((((p) & (mask)) == (p)) ? 1 : 0)
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#define VM_PAGE_SIZE 0x1000
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#define VM_PAGE_SHIFT 12
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#define VM_PAGE_IS_FREE(pg) (((pg)->p_flags & (VM_PAGE_RESERVED | VM_PAGE_ALLOC)) == 0)
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#define vm_page_foreach(pg, i) \
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for (vm_page_t *i = (pg); i; i = vm_page_get_next_tail(i))
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typedef phys_addr_t vm_alignment_t;
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typedef unsigned int vm_node_id_t;
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typedef struct vm_object {
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unsigned int reserved;
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} vm_object_t;
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typedef enum vm_flags {
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VM_GET_DMA = 0x01u,
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} vm_flags_t;
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typedef enum vm_zone_id {
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/* NOTE that these are used as indices into the node_zones array in vm/zone.c
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they need to be continuous, and must start at 0! */
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VM_ZONE_DMA = 0u,
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VM_ZONE_NORMAL = 1u,
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VM_ZONE_HIGHMEM = 2u,
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VM_ZONE_MIN = VM_ZONE_DMA,
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VM_ZONE_MAX = VM_ZONE_HIGHMEM,
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} vm_zone_id_t;
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typedef enum vm_page_order {
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VM_PAGE_4K = 0u,
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VM_PAGE_8K,
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VM_PAGE_16K,
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VM_PAGE_32K,
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VM_PAGE_64K,
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VM_PAGE_128K,
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VM_PAGE_256K,
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VM_PAGE_512K,
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VM_PAGE_1M,
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VM_PAGE_2M,
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VM_PAGE_4M,
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VM_PAGE_8M,
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VM_PAGE_16M,
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VM_PAGE_32M,
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VM_PAGE_64M,
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VM_PAGE_128M,
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#if 0
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/* vm_page_t only has 4 bits to store the page order with.
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the maximum order that can be stored in 4 bits is 15 (VM_PAGE_128M)
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to use any of the page orders listed here, this field
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will have to be expanded. */
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VM_PAGE_256M,
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VM_PAGE_512M,
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VM_PAGE_1G,
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#endif
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VM_PAGE_MIN_ORDER = VM_PAGE_4K,
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VM_PAGE_MAX_ORDER = VM_PAGE_8M,
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} vm_page_order_t;
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typedef enum vm_memory_region_status {
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VM_REGION_FREE = 0x01u,
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VM_REGION_RESERVED = 0x02u,
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} vm_memory_region_status_t;
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typedef struct vm_zone_descriptor {
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vm_zone_id_t zd_id;
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vm_node_id_t zd_node;
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const char zd_name[32];
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phys_addr_t zd_base;
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phys_addr_t zd_limit;
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} vm_zone_descriptor_t;
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typedef struct vm_zone {
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vm_zone_descriptor_t z_info;
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queue_t z_free_pages[VM_MAX_PAGE_ORDERS];
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unsigned long z_size;
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} vm_zone_t;
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typedef struct vm_pg_data {
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vm_zone_t pg_zones[VM_MAX_ZONES];
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} vm_pg_data_t;
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typedef struct vm_region {
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vm_memory_region_status_t r_status;
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phys_addr_t r_base;
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phys_addr_t r_limit;
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} vm_region_t;
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typedef enum vm_page_flags {
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/* page is reserved (probably by a call to memblock_reserve()) and cannot be
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returned by any allocation function */
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VM_PAGE_RESERVED = 0x01u,
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/* page has been allocated by a zone's buddy allocator, and is in-use */
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VM_PAGE_ALLOC = 0x02u,
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/* page is the first page of a huge-page */
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VM_PAGE_HEAD = 0x04u,
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/* page is part of a huge-page */
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VM_PAGE_HUGE = 0x08u,
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} vm_page_flags_t;
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typedef struct vm_page {
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/* order of the page block that this page belongs too */
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uint16_t p_order : 4;
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/* the id of the NUMA node that this page belongs to */
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uint16_t p_node : 6;
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/* the id of the memory zone that this page belongs to */
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uint16_t p_zone : 3;
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/* some unused bits */
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uint16_t p_reserved : 3;
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/* vm_page_flags_t bitfields. */
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uint32_t p_flags;
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/* multi-purpose list.
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the owner of the page can decide what to do with this.
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some examples:
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- the buddy allocator uses this to maintain its per-zone free-page lists.
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*/
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queue_entry_t p_free_list;
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} __attribute__((aligned(2 * sizeof(unsigned long)))) vm_page_t;
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extern kern_status_t vm_bootstrap(const vm_zone_descriptor_t *zones, size_t nr_zones);
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extern vm_pg_data_t *vm_pg_data_get(vm_node_id_t node);
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extern void vm_page_init_array();
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extern vm_page_t *vm_page_get(phys_addr_t addr);
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extern phys_addr_t vm_page_get_paddr(vm_page_t *pg);
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extern vm_zone_t *vm_page_get_zone(vm_page_t *pg);
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extern void *vm_page_get_vaddr(vm_page_t *pg);
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extern size_t vm_page_get_pfn(vm_page_t *pg);
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extern size_t vm_page_order_to_bytes(vm_page_order_t order);
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extern size_t vm_page_order_to_pages(vm_page_order_t order);
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extern vm_alignment_t vm_page_order_to_alignment(vm_page_order_t order);
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extern vm_page_t *vm_page_alloc(vm_page_order_t order, vm_flags_t flags);
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extern void vm_page_free(vm_page_t *pg);
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extern int vm_page_split(vm_page_t *pg, vm_page_t **a, vm_page_t **b);
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extern vm_page_t *vm_page_merge(vm_page_t *a, vm_page_t *b);
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extern vm_page_t *vm_page_get_buddy(vm_page_t *pg);
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extern vm_page_t *vm_page_get_next_tail(vm_page_t *pg);
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extern size_t vm_bytes_to_pages(size_t bytes);
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extern void vm_zone_init(vm_zone_t *z, const vm_zone_descriptor_t *zone_info);
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extern vm_page_t *vm_zone_alloc_page(vm_zone_t *z, vm_page_order_t order, vm_flags_t flags);
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extern void vm_zone_free_page(vm_zone_t *z, vm_page_t *pg);
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#endif
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