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/*
 * Procedures for maintaining information about logical memory blocks.
 *
 * Peter Bergner, IBM Corp.	June 2001.
 * Copyright (C) 2001 Peter Bergner.
 *
 *      This program is free software; you can redistribute it and/or
 *      modify it under the terms of the GNU General Public License
 *      as published by the Free Software Foundation; either version
 *      2 of the License, or (at your option) any later version.
 */

#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/bitops.h>
#include <linux/poison.h>
#include <linux/memblock.h>

struct memblock memblock;

static int memblock_debug;
static struct memblock_region memblock_memory_init_regions[INIT_MEMBLOCK_REGIONS + 1];
static struct memblock_region memblock_reserved_init_regions[INIT_MEMBLOCK_REGIONS + 1];

#define MEMBLOCK_ERROR	(~(phys_addr_t)0)

static int __init early_memblock(char *p)
{
	if (p && strstr(p, "debug"))
		memblock_debug = 1;
	return 0;
}
early_param("memblock", early_memblock);

static void memblock_dump(struct memblock_type *region, char *name)
{
	unsigned long long base, size;
	int i;

	pr_info(" %s.cnt  = 0x%lx\n", name, region->cnt);

	for (i = 0; i < region->cnt; i++) {
		base = region->regions[i].base;
		size = region->regions[i].size;

		pr_info(" %s[0x%x]\t0x%016llx - 0x%016llx, 0x%llx bytes\n",
		    name, i, base, base + size - 1, size);
	}
}

void memblock_dump_all(void)
{
	if (!memblock_debug)
		return;

	pr_info("MEMBLOCK configuration:\n");
	pr_info(" memory size = 0x%llx\n", (unsigned long long)memblock.memory_size);

	memblock_dump(&memblock.memory, "memory");
	memblock_dump(&memblock.reserved, "reserved");
}

static unsigned long memblock_addrs_overlap(phys_addr_t base1, phys_addr_t size1,
				       phys_addr_t base2, phys_addr_t size2)
{
	return ((base1 < (base2 + size2)) && (base2 < (base1 + size1)));
}

static long memblock_addrs_adjacent(phys_addr_t base1, phys_addr_t size1,
			       phys_addr_t base2, phys_addr_t size2)
{
	if (base2 == base1 + size1)
		return 1;
	else if (base1 == base2 + size2)
		return -1;

	return 0;
}

static long memblock_regions_adjacent(struct memblock_type *type,
				 unsigned long r1, unsigned long r2)
{
	phys_addr_t base1 = type->regions[r1].base;
	phys_addr_t size1 = type->regions[r1].size;
	phys_addr_t base2 = type->regions[r2].base;
	phys_addr_t size2 = type->regions[r2].size;

	return memblock_addrs_adjacent(base1, size1, base2, size2);
}

static void memblock_remove_region(struct memblock_type *type, unsigned long r)
{
	unsigned long i;

	for (i = r; i < type->cnt - 1; i++) {
		type->regions[i].base = type->regions[i + 1].base;
		type->regions[i].size = type->regions[i + 1].size;
	}
	type->cnt--;
}

/* Assumption: base addr of region 1 < base addr of region 2 */
static void memblock_coalesce_regions(struct memblock_type *type,
		unsigned long r1, unsigned long r2)
{
	type->regions[r1].size += type->regions[r2].size;
	memblock_remove_region(type, r2);
}

void __init memblock_analyze(void)
{
	int i;

	/* Check marker in the unused last array entry */
	WARN_ON(memblock_memory_init_regions[INIT_MEMBLOCK_REGIONS].base
		!= (phys_addr_t)RED_INACTIVE);
	WARN_ON(memblock_reserved_init_regions[INIT_MEMBLOCK_REGIONS].base
		!= (phys_addr_t)RED_INACTIVE);

	memblock.memory_size = 0;

	for (i = 0; i < memblock.memory.cnt; i++)
		memblock.memory_size += memblock.memory.regions[i].size;
}

static long memblock_add_region(struct memblock_type *type, phys_addr_t base, phys_addr_t size)
{
	unsigned long coalesced = 0;
	long adjacent, i;

	if ((type->cnt == 1) && (type->regions[0].size == 0)) {
		type->regions[0].base = base;
		type->regions[0].size = size;
		return 0;
	}

	/* First try and coalesce this MEMBLOCK with another. */
	for (i = 0; i < type->cnt; i++) {
		phys_addr_t rgnbase = type->regions[i].base;
		phys_addr_t rgnsize = type->regions[i].size;

		if ((rgnbase == base) && (rgnsize == size))
			/* Already have this region, so we're done */
			return 0;

		adjacent = memblock_addrs_adjacent(base, size, rgnbase, rgnsize);
		if (adjacent > 0) {
			type->regions[i].base -= size;
			type->regions[i].size += size;
			coalesced++;
			break;
		} else if (adjacent < 0) {
			type->regions[i].size += size;
			coalesced++;
			break;
		}
	}

	if ((i < type->cnt - 1) && memblock_regions_adjacent(type, i, i+1)) {
		memblock_coalesce_regions(type, i, i+1);
		coalesced++;
	}

	if (coalesced)
		return coalesced;
	if (type->cnt >= type->max)
		return -1;

	/* Couldn't coalesce the MEMBLOCK, so add it to the sorted table. */
	for (i = type->cnt - 1; i >= 0; i--) {
		if (base < type->regions[i].base) {
			type->regions[i+1].base = type->regions[i].base;
			type->regions[i+1].size = type->regions[i].size;
		} else {
			type->regions[i+1].base = base;
			type->regions[i+1].size = size;
			break;
		}
	}

	if (base < type->regions[0].base) {
		type->regions[0].base = base;
		type->regions[0].size = size;
	}
	type->cnt++;

	return 0;
}

long memblock_add(phys_addr_t base, phys_addr_t size)
{
	return memblock_add_region(&memblock.memory, base, size);

}

static long __memblock_remove(struct memblock_type *type, phys_addr_t base, phys_addr_t size)
{
	phys_addr_t rgnbegin, rgnend;
	phys_addr_t end = base + size;
	int i;

	rgnbegin = rgnend = 0; /* supress gcc warnings */

	/* Find the region where (base, size) belongs to */
	for (i=0; i < type->cnt; i++) {
		rgnbegin = type->regions[i].base;
		rgnend = rgnbegin + type->regions[i].size;

		if ((rgnbegin <= base) && (end <= rgnend))
			break;
	}

	/* Didn't find the region */
	if (i == type->cnt)
		return -1;

	/* Check to see if we are removing entire region */
	if ((rgnbegin == base) && (rgnend == end)) {
		memblock_remove_region(type, i);
		return 0;
	}

	/* Check to see if region is matching at the front */
	if (rgnbegin == base) {
		type->regions[i].base = end;
		type->regions[i].size -= size;
		return 0;
	}

	/* Check to see if the region is matching at the end */
	if (rgnend == end) {
		type->regions[i].size -= size;
		return 0;
	}

	/*
	 * We need to split the entry -  adjust the current one to the
	 * beginging of the hole and add the region after hole.
	 */
	type->regions[i].size = base - type->regions[i].base;
	return memblock_add_region(type, end, rgnend - end);
}

long memblock_remove(phys_addr_t base, phys_addr_t size)
{
	return __memblock_remove(&memblock.memory, base, size);
}

long __init memblock_free(phys_addr_t base, phys_addr_t size)
{
	return __memblock_remove(&memblock.reserved, base, size);
}

long __init memblock_reserve(phys_addr_t base, phys_addr_t size)
{
	struct memblock_type *_rgn = &memblock.reserved;

	BUG_ON(0 == size);

	return memblock_add_region(_rgn, base, size);
}

long memblock_overlaps_region(struct memblock_type *type, phys_addr_t base, phys_addr_t size)
{
	unsigned long i;

	for (i = 0; i < type->cnt; i++) {
		phys_addr_t rgnbase = type->regions[i].base;
		phys_addr_t rgnsize = type->regions[i].size;
		if (memblock_addrs_overlap(base, size, rgnbase, rgnsize))
			break;
	}

	return (i < type->cnt) ? i : -1;
}

static phys_addr_t memblock_align_down(phys_addr_t addr, phys_addr_t size)
{
	return addr & ~(size - 1);
}

static phys_addr_t memblock_align_up(phys_addr_t addr, phys_addr_t size)
{
	return (addr + (size - 1)) & ~(size - 1);
}

static phys_addr_t __init memblock_find_region(phys_addr_t start, phys_addr_t end,
					  phys_addr_t size, phys_addr_t align)
{
	phys_addr_t base, res_base;
	long j;

	base = memblock_align_down((end - size), align);
	while (start <= base) {
		j = memblock_overlaps_region(&memblock.reserved, base, size);
		if (j < 0)
			return base;
		res_base = memblock.reserved.regions[j].base;
		if (res_base < size)
			break;
		base = memblock_align_down(res_base - size, align);
	}

	return MEMBLOCK_ERROR;
}

phys_addr_t __weak __init memblock_nid_range(phys_addr_t start, phys_addr_t end, int *nid)
{
	*nid = 0;

	return end;
}

static phys_addr_t __init memblock_alloc_nid_region(struct memblock_region *mp,
					       phys_addr_t size,
					       phys_addr_t align, int nid)
{
	phys_addr_t start, end;

	start = mp->base;
	end = start + mp->size;

	start = memblock_align_up(start, align);
	while (start < end) {
		phys_addr_t this_end;
		int this_nid;

		this_end = memblock_nid_range(start, end, &this_nid);
		if (this_nid == nid) {
			phys_addr_t ret = memblock_find_region(start, this_end, size, align);
			if (ret != MEMBLOCK_ERROR &&
			    memblock_add_region(&memblock.reserved, ret, size) >= 0)
				return ret;
		}
		start = this_end;
	}

	return MEMBLOCK_ERROR;
}

phys_addr_t __init memblock_alloc_nid(phys_addr_t size, phys_addr_t align, int nid)
{
	struct memblock_type *mem = &memblock.memory;
	int i;

	BUG_ON(0 == size);

	/* We do a bottom-up search for a region with the right
	 * nid since that's easier considering how memblock_nid_range()
	 * works
	 */
	size = memblock_align_up(size, align);

	for (i = 0; i < mem->cnt; i++) {
		phys_addr_t ret = memblock_alloc_nid_region(&mem->regions[i],
					       size, align, nid);
		if (ret != MEMBLOCK_ERROR)
			return ret;
	}

	return memblock_alloc(size, align);
}

phys_addr_t __init memblock_alloc(phys_addr_t size, phys_addr_t align)
{
	return memblock_alloc_base(size, align, MEMBLOCK_ALLOC_ACCESSIBLE);
}

phys_addr_t __init memblock_alloc_base(phys_addr_t size, phys_addr_t align, phys_addr_t max_addr)
{
	phys_addr_t alloc;

	alloc = __memblock_alloc_base(size, align, max_addr);

	if (alloc == 0)
		panic("ERROR: Failed to allocate 0x%llx bytes below 0x%llx.\n",
		      (unsigned long long) size, (unsigned long long) max_addr);

	return alloc;
}

phys_addr_t __init __memblock_alloc_base(phys_addr_t size, phys_addr_t align, phys_addr_t max_addr)
{
	long i;
	phys_addr_t base = 0;
	phys_addr_t res_base;

	BUG_ON(0 == size);

	size = memblock_align_up(size, align);

	/* Pump up max_addr */
	if (max_addr == MEMBLOCK_ALLOC_ACCESSIBLE)
		max_addr = memblock.current_limit;

	/* We do a top-down search, this tends to limit memory
	 * fragmentation by keeping early boot allocs near the
	 * top of memory
	 */
	for (i = memblock.memory.cnt - 1; i >= 0; i--) {
		phys_addr_t memblockbase = memblock.memory.regions[i].base;
		phys_addr_t memblocksize = memblock.memory.regions[i].size;

		if (memblocksize < size)
			continue;
		base = min(memblockbase + memblocksize, max_addr);
		res_base = memblock_find_region(memblockbase, base, size, align);
		if (res_base != MEMBLOCK_ERROR &&
		    memblock_add_region(&memblock.reserved, res_base, size) >= 0)
			return res_base;
	}
	return 0;
}

/* You must call memblock_analyze() before this. */
phys_addr_t __init memblock_phys_mem_size(void)
{
	return memblock.memory_size;
}

phys_addr_t memblock_end_of_DRAM(void)
{
	int idx = memblock.memory.cnt - 1;

	return (memblock.memory.regions[idx].base + memblock.memory.regions[idx].size);
}

/* You must call memblock_analyze() after this. */
void __init memblock_enforce_memory_limit(phys_addr_t memory_limit)
{
	unsigned long i;
	phys_addr_t limit;
	struct memblock_region *p;

	if (!memory_limit)
		return;

	/* Truncate the memblock regions to satisfy the memory limit. */
	limit = memory_limit;
	for (i = 0; i < memblock.memory.cnt; i++) {
		if (limit > memblock.memory.regions[i].size) {
			limit -= memblock.memory.regions[i].size;
			continue;
		}

		memblock.memory.regions[i].size = limit;
		memblock.memory.cnt = i + 1;
		break;
	}

	memory_limit = memblock_end_of_DRAM();

	/* And truncate any reserves above the limit also. */
	for (i = 0; i < memblock.reserved.cnt; i++) {
		p = &memblock.reserved.regions[i];

		if (p->base > memory_limit)
			p->size = 0;
		else if ((p->base + p->size) > memory_limit)
			p->size = memory_limit - p->base;

		if (p->size == 0) {
			memblock_remove_region(&memblock.reserved, i);
			i--;
		}
	}
}

static int memblock_search(struct memblock_type *type, phys_addr_t addr)
{
	unsigned int left = 0, right = type->cnt;

	do {
		unsigned int mid = (right + left) / 2;

		if (addr < type->regions[mid].base)
			right = mid;
		else if (addr >= (type->regions[mid].base +
				  type->regions[mid].size))
			left = mid + 1;
		else
			return mid;
	} while (left < right);
	return -1;
}

int __init memblock_is_reserved(phys_addr_t addr)
{
	return memblock_search(&memblock.reserved, addr) != -1;
}

int memblock_is_memory(phys_addr_t addr)
{
	return memblock_search(&memblock.memory, addr) != -1;
}

int memblock_is_region_memory(phys_addr_t base, phys_addr_t size)
{
	int idx = memblock_search(&memblock.reserved, base);

	if (idx == -1)
		return 0;
	return memblock.reserved.regions[idx].base <= base &&
		(memblock.reserved.regions[idx].base +
		 memblock.reserved.regions[idx].size) >= (base + size);
}

int memblock_is_region_reserved(phys_addr_t base, phys_addr_t size)
{
	return memblock_overlaps_region(&memblock.reserved, base, size) >= 0;
}


void __init memblock_set_current_limit(phys_addr_t limit)
{
	memblock.current_limit = limit;
}

void __init memblock_init(void)
{
	/* Hookup the initial arrays */
	memblock.memory.regions	= memblock_memory_init_regions;
	memblock.memory.max		= INIT_MEMBLOCK_REGIONS;
	memblock.reserved.regions	= memblock_reserved_init_regions;
	memblock.reserved.max	= INIT_MEMBLOCK_REGIONS;

	/* Write a marker in the unused last array entry */
	memblock.memory.regions[INIT_MEMBLOCK_REGIONS].base = (phys_addr_t)RED_INACTIVE;
	memblock.reserved.regions[INIT_MEMBLOCK_REGIONS].base = (phys_addr_t)RED_INACTIVE;

	/* Create a dummy zero size MEMBLOCK which will get coalesced away later.
	 * This simplifies the memblock_add() code below...
	 */
	memblock.memory.regions[0].base = 0;
	memblock.memory.regions[0].size = 0;
	memblock.memory.cnt = 1;

	/* Ditto. */
	memblock.reserved.regions[0].base = 0;
	memblock.reserved.regions[0].size = 0;
	memblock.reserved.cnt = 1;

	memblock.current_limit = MEMBLOCK_ALLOC_ANYWHERE;
}