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/*
* Mach Operating System
* Copyright (c) 1991,1990,1989,1988 Carnegie Mellon University
* All Rights Reserved.
*
* Permission to use, copy, modify and distribute this software and its
* documentation is hereby granted, provided that both the copyright
* notice and this permission notice appear in all copies of the
* software, derivative works or modified versions, and any portions
* thereof, and that both notices appear in supporting documentation.
*
* CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
* CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
* ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
*
* Carnegie Mellon requests users of this software to return to
*
* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
* School of Computer Science
* Carnegie Mellon University
* Pittsburgh PA 15213-3890
*
* any improvements or extensions that they make and grant Carnegie Mellon
* the rights to redistribute these changes.
*/
/*
* File: pmap.h
*
* Authors: Avadis Tevanian, Jr., Michael Wayne Young
* Date: 1985
*
* Machine-dependent structures for the physical map module.
*/
#ifndef _PMAP_MACHINE_
#define _PMAP_MACHINE_ 1
#ifndef __ASSEMBLER__
#include <kern/lock.h>
#include <mach/machine/vm_param.h>
#include <mach/vm_statistics.h>
#include <mach/kern_return.h>
#include <mach/vm_prot.h>
#include <i386/proc_reg.h>
/*
* Define the generic in terms of the specific
*/
#if defined(__i386__)
#define INTEL_PGBYTES I386_PGBYTES
#define INTEL_PGSHIFT I386_PGSHIFT
#define intel_btop(x) i386_btop(x)
#define intel_ptob(x) i386_ptob(x)
#define intel_round_page(x) i386_round_page(x)
#define intel_trunc_page(x) i386_trunc_page(x)
#define trunc_intel_to_vm(x) trunc_i386_to_vm(x)
#define round_intel_to_vm(x) round_i386_to_vm(x)
#define vm_to_intel(x) vm_to_i386(x)
#endif /* __i386__ */
/*
* i386/i486 Page Table Entry
*/
#if PAE
typedef unsigned long long pt_entry_t;
#else /* PAE */
typedef unsigned int pt_entry_t;
#endif /* PAE */
#define PT_ENTRY_NULL ((pt_entry_t *) 0)
#endif /* __ASSEMBLER__ */
#define INTEL_OFFMASK 0xfff /* offset within page */
#if PAE
#define PDPSHIFT 30 /* page directory pointer */
#define PDPNUM 4 /* number of page directory pointers */
#define PDPMASK 3 /* mask for page directory pointer index */
#define PDESHIFT 21 /* page descriptor shift */
#define PDEMASK 0x1ff /* mask for page descriptor index */
#define PTESHIFT 12 /* page table shift */
#define PTEMASK 0x1ff /* mask for page table index */
#else /* PAE */
#define PDPNUM 1 /* number of page directory pointers */
#define PDESHIFT 22 /* page descriptor shift */
#define PDEMASK 0x3ff /* mask for page descriptor index */
#define PTESHIFT 12 /* page table shift */
#define PTEMASK 0x3ff /* mask for page table index */
#endif /* PAE */
/*
* Convert linear offset to page descriptor index
*/
#if PAE
/* Making it include the page directory pointer table index too */
#define lin2pdenum(a) (((a) >> PDESHIFT) & 0x7ff)
#else
#define lin2pdenum(a) (((a) >> PDESHIFT) & PDEMASK)
#endif
/*
* Convert linear offset to page directory pointer index
*/
#if PAE
#define lin2pdpnum(a) (((a) >> PDPSHIFT) & PDPMASK)
#endif
/*
* Convert page descriptor index to linear address
*/
#define pdenum2lin(a) ((vm_offset_t)(a) << PDESHIFT)
/*
* Convert linear offset to page table index
*/
#define ptenum(a) (((a) >> PTESHIFT) & PTEMASK)
#define NPTES (intel_ptob(1)/sizeof(pt_entry_t))
#define NPDES (PDPNUM * (intel_ptob(1)/sizeof(pt_entry_t)))
/*
* Hardware pte bit definitions (to be used directly on the ptes
* without using the bit fields).
*/
#define INTEL_PTE_VALID 0x00000001
#define INTEL_PTE_WRITE 0x00000002
#define INTEL_PTE_USER 0x00000004
#define INTEL_PTE_WTHRU 0x00000008
#define INTEL_PTE_NCACHE 0x00000010
#define INTEL_PTE_REF 0x00000020
#define INTEL_PTE_MOD 0x00000040
#ifdef MACH_PV_PAGETABLES
/* Not supported */
#define INTEL_PTE_GLOBAL 0x00000000
#else /* MACH_PV_PAGETABLES */
#define INTEL_PTE_GLOBAL 0x00000100
#endif /* MACH_PV_PAGETABLES */
#define INTEL_PTE_WIRED 0x00000200
#ifdef PAE
#define INTEL_PTE_PFN 0x00007ffffffff000ULL
#else
#define INTEL_PTE_PFN 0xfffff000
#endif
#define pa_to_pte(a) ((a) & INTEL_PTE_PFN)
#ifdef MACH_PSEUDO_PHYS
#define pte_to_pa(p) ma_to_pa((p) & INTEL_PTE_PFN)
#else /* MACH_PSEUDO_PHYS */
#define pte_to_pa(p) ((p) & INTEL_PTE_PFN)
#endif /* MACH_PSEUDO_PHYS */
#define pte_increment_pa(p) ((p) += INTEL_OFFMASK+1)
/*
* Convert page table entry to kernel virtual address
*/
#define ptetokv(a) (phystokv(pte_to_pa(a)))
#ifndef __ASSEMBLER__
typedef volatile long cpu_set; /* set of CPUs - must be <= 32 */
/* changed by other processors */
struct pmap {
pt_entry_t *dirbase; /* page directory table */
#if PAE
pt_entry_t *pdpbase; /* page directory pointer table */
#endif /* PAE */
int ref_count; /* reference count */
decl_simple_lock_data(,lock)
/* lock on map */
struct pmap_statistics stats; /* map statistics */
cpu_set cpus_using; /* bitmap of cpus using pmap */
};
typedef struct pmap *pmap_t;
#define PMAP_NULL ((pmap_t) 0)
#ifdef MACH_PV_PAGETABLES
extern void pmap_set_page_readwrite(void *addr);
extern void pmap_set_page_readonly(void *addr);
extern void pmap_set_page_readonly_init(void *addr);
extern void pmap_map_mfn(void *addr, unsigned long mfn);
extern void pmap_clear_bootstrap_pagetable(pt_entry_t *addr);
#endif /* MACH_PV_PAGETABLES */
#if PAE
#define set_pmap(pmap) set_cr3(kvtophys((vm_offset_t)(pmap)->pdpbase))
#else /* PAE */
#define set_pmap(pmap) set_cr3(kvtophys((vm_offset_t)(pmap)->dirbase))
#endif /* PAE */
#if NCPUS > 1
/*
* List of cpus that are actively using mapped memory. Any
* pmap update operation must wait for all cpus in this list.
* Update operations must still be queued to cpus not in this
* list.
*/
cpu_set cpus_active;
/*
* List of cpus that are idle, but still operating, and will want
* to see any kernel pmap updates when they become active.
*/
cpu_set cpus_idle;
/*
* Quick test for pmap update requests.
*/
volatile
boolean_t cpu_update_needed[NCPUS];
/*
* External declarations for PMAP_ACTIVATE.
*/
void process_pmap_updates(pmap_t);
void pmap_update_interrupt(void);
extern pmap_t kernel_pmap;
#endif /* NCPUS > 1 */
/*
* Machine dependent routines that are used only for i386/i486.
*/
pt_entry_t *pmap_pte(pmap_t pmap, vm_offset_t addr);
/*
* Macros for speed.
*/
#if NCPUS > 1
/*
* For multiple CPUS, PMAP_ACTIVATE and PMAP_DEACTIVATE must manage
* fields to control TLB invalidation on other CPUS.
*/
#define PMAP_ACTIVATE_KERNEL(my_cpu) { \
\
/* \
* Let pmap updates proceed while we wait for this pmap. \
*/ \
i_bit_clear((my_cpu), &cpus_active); \
\
/* \
* Lock the pmap to put this cpu in its active set. \
* Wait for updates here. \
*/ \
simple_lock(&kernel_pmap->lock); \
\
/* \
* Process invalidate requests for the kernel pmap. \
*/ \
if (cpu_update_needed[(my_cpu)]) \
process_pmap_updates(kernel_pmap); \
\
/* \
* Mark that this cpu is using the pmap. \
*/ \
i_bit_set((my_cpu), &kernel_pmap->cpus_using); \
\
/* \
* Mark this cpu active - IPL will be lowered by \
* load_context(). \
*/ \
i_bit_set((my_cpu), &cpus_active); \
\
simple_unlock(&kernel_pmap->lock); \
}
#define PMAP_DEACTIVATE_KERNEL(my_cpu) { \
/* \
* Mark pmap no longer in use by this cpu even if \
* pmap is locked against updates. \
*/ \
i_bit_clear((my_cpu), &kernel_pmap->cpus_using); \
}
#define PMAP_ACTIVATE_USER(pmap, th, my_cpu) { \
pmap_t tpmap = (pmap); \
\
if (tpmap == kernel_pmap) { \
/* \
* If this is the kernel pmap, switch to its page tables. \
*/ \
set_pmap(tpmap); \
} \
else { \
/* \
* Let pmap updates proceed while we wait for this pmap. \
*/ \
i_bit_clear((my_cpu), &cpus_active); \
\
/* \
* Lock the pmap to put this cpu in its active set. \
* Wait for updates here. \
*/ \
simple_lock(&tpmap->lock); \
\
/* \
* No need to invalidate the TLB - the entire user pmap \
* will be invalidated by reloading dirbase. \
*/ \
set_pmap(tpmap); \
\
/* \
* Mark that this cpu is using the pmap. \
*/ \
i_bit_set((my_cpu), &tpmap->cpus_using); \
\
/* \
* Mark this cpu active - IPL will be lowered by \
* load_context(). \
*/ \
i_bit_set((my_cpu), &cpus_active); \
\
simple_unlock(&tpmap->lock); \
} \
}
#define PMAP_DEACTIVATE_USER(pmap, thread, my_cpu) { \
pmap_t tpmap = (pmap); \
\
/* \
* Do nothing if this is the kernel pmap. \
*/ \
if (tpmap != kernel_pmap) { \
/* \
* Mark pmap no longer in use by this cpu even if \
* pmap is locked against updates. \
*/ \
i_bit_clear((my_cpu), &(pmap)->cpus_using); \
} \
}
#define MARK_CPU_IDLE(my_cpu) { \
/* \
* Mark this cpu idle, and remove it from the active set, \
* since it is not actively using any pmap. Signal_cpus \
* will notice that it is idle, and avoid signaling it, \
* but will queue the update request for when the cpu \
* becomes active. \
*/ \
int s = splvm(); \
i_bit_set((my_cpu), &cpus_idle); \
i_bit_clear((my_cpu), &cpus_active); \
splx(s); \
}
#define MARK_CPU_ACTIVE(my_cpu) { \
\
int s = splvm(); \
/* \
* If a kernel_pmap update was requested while this cpu \
* was idle, process it as if we got the interrupt. \
* Before doing so, remove this cpu from the idle set. \
* Since we do not grab any pmap locks while we flush \
* our TLB, another cpu may start an update operation \
* before we finish. Removing this cpu from the idle \
* set assures that we will receive another update \
* interrupt if this happens. \
*/ \
i_bit_clear((my_cpu), &cpus_idle); \
\
if (cpu_update_needed[(my_cpu)]) \
pmap_update_interrupt(); \
\
/* \
* Mark that this cpu is now active. \
*/ \
i_bit_set((my_cpu), &cpus_active); \
splx(s); \
}
#else /* NCPUS > 1 */
/*
* With only one CPU, we just have to indicate whether the pmap is
* in use.
*/
#define PMAP_ACTIVATE_KERNEL(my_cpu) { \
(void) (my_cpu); \
kernel_pmap->cpus_using = TRUE; \
}
#define PMAP_DEACTIVATE_KERNEL(my_cpu) { \
(void) (my_cpu); \
kernel_pmap->cpus_using = FALSE; \
}
#define PMAP_ACTIVATE_USER(pmap, th, my_cpu) { \
pmap_t tpmap = (pmap); \
(void) (th); \
(void) (my_cpu); \
\
set_pmap(tpmap); \
if (tpmap != kernel_pmap) { \
tpmap->cpus_using = TRUE; \
} \
}
#define PMAP_DEACTIVATE_USER(pmap, thread, cpu) { \
(void) (thread); \
(void) (cpu); \
if ((pmap) != kernel_pmap) \
(pmap)->cpus_using = FALSE; \
}
#endif /* NCPUS > 1 */
#define PMAP_CONTEXT(pmap, thread)
#define pmap_kernel() (kernel_pmap)
#define pmap_resident_count(pmap) ((pmap)->stats.resident_count)
#define pmap_phys_address(frame) ((vm_offset_t) (intel_ptob(frame)))
#define pmap_phys_to_frame(phys) ((int) (intel_btop(phys)))
#define pmap_copy(dst_pmap,src_pmap,dst_addr,len,src_addr)
#define pmap_attribute(pmap,addr,size,attr,value) \
(KERN_INVALID_ADDRESS)
/*
* Bootstrap the system enough to run with virtual memory.
* Allocate the kernel page directory and page tables,
* and direct-map all physical memory.
* Called with mapping off.
*/
extern void pmap_bootstrap(void);
extern void pmap_unmap_page_zero (void);
/*
* pmap_zero_page zeros the specified (machine independent) page.
*/
extern void pmap_zero_page (vm_offset_t);
/*
* pmap_copy_page copies the specified (machine independent) pages.
*/
extern void pmap_copy_page (vm_offset_t, vm_offset_t);
/*
* kvtophys(addr)
*
* Convert a kernel virtual address to a physical address
*/
extern vm_offset_t kvtophys (vm_offset_t);
void pmap_remove_range(
pmap_t pmap,
vm_offset_t va,
pt_entry_t *spte,
pt_entry_t *epte);
#if NCPUS > 1
void signal_cpus(
cpu_set use_list,
pmap_t pmap,
vm_offset_t start,
vm_offset_t end);
#endif /* NCPUS > 1 */
#endif /* __ASSEMBLER__ */
#endif /* _PMAP_MACHINE_ */
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