xref: /darwin-on-arm/xnu/osfmk/mach/i386/vm_param.h

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/*
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/*
 * Copyright (c) 1994 The University of Utah and
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/*
 *	File:	vm_param.h
 *	Author:	Avadis Tevanian, Jr.
 *	Date:	1985
 *
 *	I386 machine dependent virtual memory parameters.
 *	Most of the declarations are preceeded by I386_ (or i386_)
 *	which is OK because only I386 specific code will be using
 *	them.
 */

#ifndef	_MACH_I386_VM_PARAM_H_
#define _MACH_I386_VM_PARAM_H_

#define BYTE_SIZE		8		/* byte size in bits */

#define I386_PGBYTES		4096		/* bytes per 80386 page */
#define I386_PGSHIFT		12		/* bitshift for pages */

#define	PAGE_SIZE		I386_PGBYTES
#define	PAGE_SHIFT		I386_PGSHIFT
#define	PAGE_MASK		(PAGE_SIZE - 1)

#define I386_LPGBYTES		2*1024*1024	/* bytes per large page */
#define I386_LPGSHIFT		21		/* bitshift for large pages */
#define I386_LPGMASK		(I386_LPGBYTES-1)

/*
 *	Convert bytes to pages and convert pages to bytes.
 *	No rounding is used.
 */

#define i386_btop(x)		((ppnum_t)((x) >> I386_PGSHIFT))
#define machine_btop(x)		i386_btop(x)
#define i386_ptob(x)		(((pmap_paddr_t)(x)) << I386_PGSHIFT)
#define machine_ptob(x)		i386_ptob(x)

/*
 *	Round off or truncate to the nearest page.  These will work
 *	for either addresses or counts.  (i.e. 1 byte rounds to 1 page
 *	bytes.
 */

#define i386_round_page(x)	((((pmap_paddr_t)(x)) + I386_PGBYTES - 1) & \
					~(I386_PGBYTES-1))
#define i386_trunc_page(x)	(((pmap_paddr_t)(x)) & ~(I386_PGBYTES-1))



#define VM_MIN_ADDRESS64	((user_addr_t) 0x0000000000000000ULL)
/*
 * default top of user stack... it grows down from here
 */
#define VM_USRSTACK64		((user_addr_t) 0x00007FFF5FC00000ULL)
#define VM_DYLD64		((user_addr_t) 0x00007FFF5FC00000ULL)
#define VM_LIB64_SHR_DATA	((user_addr_t) 0x00007FFF60000000ULL)
#define VM_LIB64_SHR_TEXT	((user_addr_t) 0x00007FFF80000000ULL)
/*
 * the end of the usable user address space , for now about 47 bits.
 * the 64 bit commpage is past the end of this
 */
#define VM_MAX_PAGE_ADDRESS	((user_addr_t) 0x00007FFFFFE00000ULL)
/*
 * canonical end of user address space for limits checking
 */
#define VM_MAX_USER_PAGE_ADDRESS ((user_addr_t)0x00007FFFFFFFF000ULL)


/* system-wide values */
#define MACH_VM_MIN_ADDRESS		((mach_vm_offset_t) 0)
#define MACH_VM_MAX_ADDRESS		((mach_vm_offset_t) VM_MAX_PAGE_ADDRESS)

/* process-relative values (all 32-bit legacy only for now) */
#define VM_MIN_ADDRESS		((vm_offset_t) 0)
#define VM_USRSTACK32		((vm_offset_t) 0xC0000000)	/* ASLR slides stack down by up to 1 MB */
#define VM_MAX_ADDRESS		((vm_offset_t) 0xFFE00000)


#ifdef	KERNEL_PRIVATE

/* Kernel-wide values */

#define KB		(1024ULL)
#define MB		(1024*KB)
#define GB		(1024*MB)

/*
 * Maximum physical memory supported.
 */
#define	K32_MAXMEM	(32*GB)
#define	K64_MAXMEM	(96*GB)
#if defined(__i386__)
#define KERNEL_MAXMEM	K32_MAXMEM
#else
#define KERNEL_MAXMEM	K64_MAXMEM
#endif

/*
 * XXX
 * The kernel max VM address is limited to 0xFF3FFFFF for now because
 * some data structures are explicitly allocated at 0xFF400000 without
 * VM's knowledge (see osfmk/i386/locore.s for the allocation of PTmap and co.).
 * We can't let VM allocate memory from there.
 */

#if defined(__i386__)

#define KERNEL_IMAGE_TO_PHYS(x) (x)
#define VM_MIN_KERNEL_ADDRESS		((vm_offset_t) 0x00001000U)
#define VM_MIN_KERNEL_AND_KEXT_ADDRESS	VM_MIN_KERNEL_ADDRESS
#define VM_MAX_KERNEL_ADDRESS		((vm_offset_t) 0xFE7FFFFFU)

#elif defined(__x86_64__)

#define KERNEL_IMAGE_TO_PHYS(x) (x)
#define VM_MIN_KERNEL_ADDRESS		((vm_offset_t) 0xFFFFFF8000000000UL)
#define VM_MIN_KERNEL_PAGE		((ppnum_t)0)
#define VM_MIN_KERNEL_AND_KEXT_ADDRESS	(VM_MIN_KERNEL_ADDRESS - 0x80000000ULL)
#define VM_MAX_KERNEL_ADDRESS		((vm_offset_t) 0xFFFFFFFFFFFFEFFFUL)
#define VM_MAX_KERNEL_ADDRESS_EFI32	((vm_offset_t) 0xFFFFFF80FFFFEFFFUL)
#define KEXT_ALLOC_MAX_OFFSET (2 * 1024 * 1024 * 1024UL)
#define KEXT_ALLOC_BASE(x)  ((x) - KEXT_ALLOC_MAX_OFFSET)
#define KEXT_ALLOC_SIZE(x)  (KEXT_ALLOC_MAX_OFFSET - (x))

#define VM_KERNEL_IS_KEXT(_o)						       \
                (((vm_offset_t)(_o) >= VM_MIN_KERNEL_AND_KEXT_ADDRESS) &&      \
                 ((vm_offset_t)(_o) <  VM_MIN_KERNEL_ADDRESS))

#else
#error unsupported architecture
#endif

#define KERNEL_STACK_SIZE	(I386_PGBYTES*4)

#define VM_MAP_MIN_ADDRESS	MACH_VM_MIN_ADDRESS
#define VM_MAP_MAX_ADDRESS	MACH_VM_MAX_ADDRESS

/* FIXME  - always leave like this? */
#define	INTSTACK_SIZE	(I386_PGBYTES*4)

#ifdef	MACH_KERNEL_PRIVATE

/* For implementing legacy 32-bit interfaces */
#define VM32_SUPPORT			1
#define VM32_MIN_ADDRESS		((vm32_offset_t) 0)
#define VM32_MAX_ADDRESS		((vm32_offset_t) (VM_MAX_PAGE_ADDRESS & 0xFFFFFFFF))

/*
 * kalloc() parameters:
 *
 * Historically kalloc's underlying zones were power-of-2 sizes, with a
 * KALLOC_MINSIZE of 16 bytes.  The allocator ensured that
 * (sizeof == alignof) >= 16 for all kalloc allocations.
 *
 * Today kalloc may use zones with intermediate sizes, constrained by
 * KALLOC_MINSIZE and a minimum alignment, expressed by KALLOC_LOG2_MINALIGN.
 *
 * The common alignment for LP64 is for longs and pointers i.e. 8 bytes.
 */

#if defined(__i386__)

#define	KALLOC_MINSIZE		16	/* minimum allocation size */
#define	KALLOC_LOG2_MINALIGN	4	/* log2 minimum alignment */

#define LINEAR_KERNEL_ADDRESS	((vm_offset_t) 0x00000000)

#define VM_MIN_KERNEL_LOADED_ADDRESS	((vm_offset_t) 0x00000000U)
#define VM_MAX_KERNEL_LOADED_ADDRESS	((vm_offset_t) 0x1FFFFFFFU)

#define NCOPY_WINDOWS 4

#elif defined(__x86_64__)

#define	KALLOC_MINSIZE		16	/* minimum allocation size */
#define	KALLOC_LOG2_MINALIGN	4	/* log2 minimum alignment */

#define LINEAR_KERNEL_ADDRESS	((vm_offset_t) 0x00000000)

#define VM_MIN_KERNEL_LOADED_ADDRESS	((vm_offset_t) 0xFFFFFF8000000000UL)
#define VM_MAX_KERNEL_LOADED_ADDRESS	((vm_offset_t) 0xFFFFFF801FFFFFFFUL)

#define NCOPY_WINDOWS 0


#else
#error unsupported architecture
#endif

/*
 *	Conversion between 80386 pages and VM pages
 */

#define trunc_i386_to_vm(p)	(atop(trunc_page(i386_ptob(p))))
#define round_i386_to_vm(p)	(atop(round_page(i386_ptob(p))))
#define vm_to_i386(p)		(i386_btop(ptoa(p)))


#define PMAP_SET_CACHE_ATTR(mem, object, cache_attr, batch_pmap_op)	\
	MACRO_BEGIN							\
		pmap_set_cache_attributes((mem)->phys_page, (cache_attr));	\
		(object)->set_cache_attr = TRUE;				\
		(void) batch_pmap_op;					\
	MACRO_END

#define PMAP_BATCH_SET_CACHE_ATTR(object, user_page_list, cache_attr, num_pages, batch_pmap_op)\
	MACRO_BEGIN							\
	(void) user_page_list;						\
	(void) num_pages;						\
	(void) batch_pmap_op;						\
	MACRO_END

#define IS_USERADDR64_CANONICAL(addr)			\
	((addr) < (VM_MAX_USER_PAGE_ADDRESS + PAGE_SIZE))

#endif	/* MACH_KERNEL_PRIVATE */

#endif	/* KERNEL_PRIVATE */

#endif	/* _MACH_I386_VM_PARAM_H_ */