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/* -*- linux-c -*- ------------------------------------------------------- *
 *
 *   Copyright (C) 1991, 1992 Linus Torvalds
 *   Copyright 2007 rPath, Inc. - All Rights Reserved
 *   Copyright 2009 Intel Corporation; author H. Peter Anvin
 *
 *   This file is part of the Linux kernel, and is made available under
 *   the terms of the GNU General Public License version 2.
 *
 * ----------------------------------------------------------------------- */

/*
 * Memory detection code
 */

#include "boot.h"

#define SMAP	0x534d4150	/* ASCII "SMAP" */

static int detect_memory_e820(void)
{
	int count = 0;
	struct biosregs ireg, oreg;
	struct e820entry *desc = boot_params.e820_map;
	static struct e820entry buf; /* static so it is zeroed */

	initregs(&ireg);
	ireg.ax  = 0xe820;
	ireg.cx  = sizeof buf;
	ireg.edx = SMAP;
	ireg.di  = (size_t)&buf;

	/*
	 * Note: at least one BIOS is known which assumes that the
	 * buffer pointed to by one e820 call is the same one as
	 * the previous call, and only changes modified fields.  Therefore,
	 * we use a temporary buffer and copy the results entry by entry.
	 *
	 * This routine deliberately does not try to account for
	 * ACPI 3+ extended attributes.  This is because there are
	 * BIOSes in the field which report zero for the valid bit for
	 * all ranges, and we don't currently make any use of the
	 * other attribute bits.  Revisit this if we see the extended
	 * attribute bits deployed in a meaningful way in the future.
	 */

	do {
		intcall(0x15, &ireg, &oreg);
		ireg.ebx = oreg.ebx; /* for next iteration... */

		/* BIOSes which terminate the chain with CF = 1 as opposed
		   to %ebx = 0 don't always report the SMAP signature on
		   the final, failing, probe. */
		if (oreg.eflags & X86_EFLAGS_CF)
			break;

		/* Some BIOSes stop returning SMAP in the middle of
		   the search loop.  We don't know exactly how the BIOS
		   screwed up the map at that point, we might have a
		   partial map, the full map, or complete garbage, so
		   just return failure. */
		if (oreg.eax != SMAP) {
			count = 0;
			break;
		}

		*desc++ = buf;
		count++;
	} while (ireg.ebx && count < ARRAY_SIZE(boot_params.e820_map));

	return boot_params.e820_entries = count;
}

static int detect_memory_e801(void)
{
	struct biosregs ireg, oreg;

	initregs(&ireg);
	ireg.ax = 0xe801;
	intcall(0x15, &ireg, &oreg);

	if (oreg.eflags & X86_EFLAGS_CF)
		return -1;

	/* Do we really need to do this? */
	if (oreg.cx || oreg.dx) {
		oreg.ax = oreg.cx;
		oreg.bx = oreg.dx;
	}

	if (oreg.ax > 15*1024) {
		return -1;	/* Bogus! */
	} else if (oreg.ax == 15*1024) {
		boot_params.alt_mem_k = (oreg.dx << 6) + oreg.ax;
	} else {
		/*
		 * This ignores memory above 16MB if we have a memory
		 * hole there.  If someone actually finds a machine
		 * with a memory hole at 16MB and no support for
		 * 0E820h they should probably generate a fake e820
		 * map.
		 */
		boot_params.alt_mem_k = oreg.ax;
	}

	return 0;
}

static int detect_memory_88(void)
{
	struct biosregs ireg, oreg;

	initregs(&ireg);
	ireg.ah = 0x88;
	intcall(0x15, &ireg, &oreg);

	boot_params.screen_info.ext_mem_k = oreg.ax;

	return -(oreg.eflags & X86_EFLAGS_CF); /* 0 or -1 */
}

int detect_memory(void)
{
	int err = -1;

	if (detect_memory_e820() > 0)
		err = 0;

	if (!detect_memory_e801())
		err = 0;

	if (!detect_memory_88())
		err = 0;

	return err;
}