minix/servers/vm/proto.h
Ben Gras 90d777f053 VM: pagequeue data structure
. data structure that automatically keeps a set
	  of pages in reserve, to replace sparepages and
	  possibly re-used in the future for similar situations,
	  e.g. if in-filesystem-cache block eviction is
	  implemented and FS asks for a new block

Change-Id: I149d46c14b9c8e75df16cb94e08907f008c339a6
2013-03-13 12:09:32 +00:00

209 lines
7.1 KiB
C

/* Function prototypes. */
struct vmproc;
struct stat;
struct memory;
struct vir_region;
struct phys_region;
#include <minix/ipc.h>
#include <minix/endpoint.h>
#include <minix/safecopies.h>
#include <minix/vm.h>
#include <timers.h>
#include <stdio.h>
#include "pt.h"
#include "vm.h"
#include "yielded.h"
/* alloc.c */
void *reservedqueue_new(int, int, int, int);
int reservedqueue_alloc(void *, phys_bytes *, void **);
void reservedqueue_add(void *, void *, phys_bytes);
void alloc_cycle(void);
void mem_sanitycheck(char *file, int line);
phys_clicks alloc_mem(phys_clicks clicks, u32_t flags);
void memstats(int *nodes, int *pages, int *largest);
void printmemstats(void);
void usedpages_reset(void);
int usedpages_add_f(phys_bytes phys, phys_bytes len, char *file, int
line);
void free_mem(phys_clicks base, phys_clicks clicks);
void mem_add_total_pages(int pages);
#define usedpages_add(a, l) usedpages_add_f(a, l, __FILE__, __LINE__)
void mem_init(struct memory *chunks);
/* utility.c */
void get_mem_chunks(struct memory *mem_chunks);
int vm_isokendpt(endpoint_t ep, int *proc);
int get_stack_ptr(int proc_nr, vir_bytes *sp);
int do_info(message *);
int swap_proc_slot(struct vmproc *src_vmp, struct vmproc *dst_vmp);
int swap_proc_dyn_data(struct vmproc *src_vmp, struct vmproc *dst_vmp);
/* exit.c */
void clear_proc(struct vmproc *vmp);
int do_exit(message *msg);
int do_willexit(message *msg);
int do_procctl(message *msg);
void free_proc(struct vmproc *vmp);
/* fork.c */
int do_fork(message *msg);
/* break.c */
int do_brk(message *msg);
int real_brk(struct vmproc *vmp, vir_bytes v);
/* map_mem.c */
int map_memory(endpoint_t sour, endpoint_t dest, vir_bytes virt_s,
vir_bytes virt_d, vir_bytes length, int flag);
int unmap_memory(endpoint_t sour, endpoint_t dest, vir_bytes virt_s,
vir_bytes virt_d, vir_bytes length, int flag);
/* mmap.c */
int do_mmap(message *msg);
int do_munmap(message *msg);
int do_map_phys(message *msg);
int do_unmap_phys(message *msg);
int do_remap(message *m);
int do_get_phys(message *m);
int do_get_refcount(message *m);
/* pagefaults.c */
void do_pagefaults(message *m);
void do_memory(void);
char *pf_errstr(u32_t err);
int handle_memory(struct vmproc *vmp, vir_bytes mem, vir_bytes len, int
wrflag);
/* $(ARCH)/pagetable.c */
void pt_init();
void vm_freepages(vir_bytes vir, int pages);
void pt_init_mem(void);
void pt_check(struct vmproc *vmp);
int pt_new(pt_t *pt);
void pt_free(pt_t *pt);
int pt_map_in_range(struct vmproc *src_vmp, struct vmproc *dst_vmp,
vir_bytes start, vir_bytes end);
int pt_ptmap(struct vmproc *src_vmp, struct vmproc *dst_vmp);
int pt_ptalloc_in_range(pt_t *pt, vir_bytes start, vir_bytes end, u32_t
flags, int verify);
void pt_clearmapcache(void);
int pt_writemap(struct vmproc * vmp, pt_t *pt, vir_bytes v, phys_bytes
physaddr, size_t bytes, u32_t flags, u32_t writemapflags);
int pt_checkrange(pt_t *pt, vir_bytes v, size_t bytes, int write);
int pt_bind(pt_t *pt, struct vmproc *who);
void *vm_mappages(phys_bytes p, int pages);
void *vm_allocpage(phys_bytes *p, int cat);
void *vm_allocpages(phys_bytes *p, int cat, int pages);
void *vm_allocpagedir(phys_bytes *p);
int pt_mapkernel(pt_t *pt);
void vm_pagelock(void *vir, int lockflag);
int vm_addrok(void *vir, int write);
int get_vm_self_pages(void);
#if SANITYCHECKS
void pt_sanitycheck(pt_t *pt, char *file, int line);
#endif
/* slaballoc.c */
void *slaballoc(int bytes);
void slabfree(void *mem, int bytes);
void slabstats(void);
void slab_sanitycheck(char *file, int line);
#define SLABALLOC(var) (var = slaballoc(sizeof(*var)))
#define SLABFREE(ptr) do { slabfree(ptr, sizeof(*(ptr))); (ptr) = NULL; } while(0)
#if SANITYCHECKS
void slabunlock(void *mem, int bytes);
void slablock(void *mem, int bytes);
int slabsane_f(char *file, int line, void *mem, int bytes);
#endif
/* region.c */
void map_region_init(void);
struct vir_region * map_page_region(struct vmproc *vmp, vir_bytes min,
vir_bytes max, vir_bytes length, u32_t flags, int mapflags,
mem_type_t *memtype);
struct vir_region * map_proc_kernel(struct vmproc *dst);
int map_region_extend(struct vmproc *vmp, struct vir_region *vr,
vir_bytes delta);
int map_region_extend_upto_v(struct vmproc *vmp, vir_bytes vir);
int map_unmap_region(struct vmproc *vmp, struct vir_region *vr,
vir_bytes offset, vir_bytes len);
int map_free_proc(struct vmproc *vmp);
int map_proc_copy(struct vmproc *dst, struct vmproc *src);
int map_proc_copy_from(struct vmproc *dst, struct vmproc *src, struct
vir_region *start_src_vr);
struct vir_region *map_lookup(struct vmproc *vmp, vir_bytes addr,
struct phys_region **pr);
int map_pf(struct vmproc *vmp, struct vir_region *region, vir_bytes
offset, int write);
int map_pin_memory(struct vmproc *vmp);
int map_handle_memory(struct vmproc *vmp, struct vir_region *region,
vir_bytes offset, vir_bytes len, int write);
void map_printmap(struct vmproc *vmp);
int map_writept(struct vmproc *vmp);
void printregionstats(struct vmproc *vmp);
void map_setparent(struct vmproc *vmp);
int yielded_block_cmp(struct block_id *, struct block_id *);
struct phys_region *map_clone_ph_block(struct vmproc *vmp,
struct vir_region *region, struct phys_region *ph);
u32_t vrallocflags(u32_t flags);
int map_free(struct vir_region *region);
struct phys_region *physblock_get(struct vir_region *region, vir_bytes offset);
void physblock_set(struct vir_region *region, vir_bytes offset,
struct phys_region *newphysr);
struct vir_region * map_region_lookup_tag(struct vmproc *vmp, u32_t
tag);
void map_region_set_tag(struct vir_region *vr, u32_t tag);
u32_t map_region_get_tag(struct vir_region *vr);
int map_get_phys(struct vmproc *vmp, vir_bytes addr, phys_bytes *r);
int map_get_ref(struct vmproc *vmp, vir_bytes addr, u8_t *cnt);
int physregions(struct vir_region *vr);
void get_stats_info(struct vm_stats_info *vsi);
void get_usage_info(struct vmproc *vmp, struct vm_usage_info *vui);
void get_usage_info_kernel(struct vm_usage_info *vui);
int get_region_info(struct vmproc *vmp, struct vm_region_info *vri, int
count, vir_bytes *nextp);
int copy_abs2region(phys_bytes abs, struct vir_region *destregion,
phys_bytes offset, phys_bytes len);
#if SANITYCHECKS
void map_sanitycheck(char *file, int line);
void blockstats(void);
#endif
int do_forgetblocks(message *m);
int do_forgetblock(message *m);
int do_yieldblockgetblock(message *m);
vir_bytes free_yielded(vir_bytes bytes);
/* rs.c */
int do_rs_set_priv(message *m);
int do_rs_update(message *m);
int do_rs_memctl(message *m);
/* queryexit.c */
int do_query_exit(message *m);
int do_watch_exit(message *m);
int do_notify_sig(message *m);
void init_query_exit(void);
/* pb.c */
struct phys_block *pb_new(phys_bytes phys);
void pb_free(struct phys_block *);
struct phys_region *pb_reference(struct phys_block *newpb,
vir_bytes offset, struct vir_region *region);
void pb_unreferenced(struct vir_region *region, struct phys_region *pr, int rm);
void pb_link(struct phys_region *newphysr, struct phys_block *newpb,
vir_bytes offset, struct vir_region *parent);
/* mem_directphys.c */
void phys_setphys(struct vir_region *vr, phys_bytes startaddr);
/* mem_shared.c */
void shared_setsource(struct vir_region *vr, endpoint_t ep, struct vir_region *src);