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19ffaa50dc
acrn-hypervisor/hypervisor/arch/x86/e820.c
Victor Sun 19ffaa50dc HV: init and sanitize acrn multiboot info 
Initialize and sanitize a acrn specific multiboot info struct with current
supported multiboot1 in very early boot stage, which would bring below
benifits:

- don't need to do hpa2hva convention every time when refering boot_regs;

- panic early if failed to sanitize multiboot info, so that don't need to
  check multiboot info pointer/flags and panic in later boot process;

- keep most code unchanged when introduce multiboot2 support in future;

Tracked-On: #4419

Signed-off-by: Victor Sun <victor.sun@intel.com>
Acked-by: Eddie Dong <eddie.dong@intel.com>
2020-02-26 09:24:16 +08:00

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/*
* Copyright (C) 2018 Intel Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <types.h>
#include <acrn_hv_defs.h>
#include <page.h>
#include <e820.h>
#include <mmu.h>
#include <boot.h>
#include <logmsg.h>
/*
* e820.c contains the related e820 operations; like HV to get memory info for its MMU setup;
* and hide HV memory from SOS_VM...
*/
static uint32_t hv_e820_entries_nr;
/* Describe the memory layout the hypervisor uses */
static struct e820_entry hv_e820[E820_MAX_ENTRIES];
/* Describe the top/bottom/size of the physical memory the hypervisor manages */
static struct mem_range hv_mem_range;
#define DBG_LEVEL_E820 6U
static void obtain_mem_range_info(void)
{
uint32_t i;
struct e820_entry *entry;
hv_mem_range.mem_bottom = UINT64_MAX;
hv_mem_range.mem_top = 0x0UL;
hv_mem_range.total_mem_size = 0UL;
for (i = 0U; i < hv_e820_entries_nr; i++) {
entry = &hv_e820[i];
if (hv_mem_range.mem_bottom > entry->baseaddr) {
hv_mem_range.mem_bottom = entry->baseaddr;
}
if ((entry->baseaddr + entry->length) > hv_mem_range.mem_top) {
hv_mem_range.mem_top = entry->baseaddr + entry->length;
}
if (entry->type == E820_TYPE_RAM) {
hv_mem_range.total_mem_size += entry->length;
}
}
}
/* get some RAM below 1MB in e820 entries, hide it from sos_vm, return its start address */
uint64_t e820_alloc_low_memory(uint32_t size_arg)
{
uint32_t i;
uint32_t size = size_arg;
uint64_t ret = ACRN_INVALID_HPA;
struct e820_entry *entry, *new_entry;
/* We want memory in page boundary and integral multiple of pages */
size = (((size + PAGE_SIZE) - 1U) >> PAGE_SHIFT) << PAGE_SHIFT;
for (i = 0U; i < hv_e820_entries_nr; i++) {
entry = &hv_e820[i];
uint64_t start, end, length;
start = round_page_up(entry->baseaddr);
end = round_page_down(entry->baseaddr + entry->length);
length = end - start;
length = (end > start) ? (end - start) : 0;
/* Search for available low memory */
if ((entry->type != E820_TYPE_RAM) || (length < size) || ((start + size) > MEM_1M)) {
continue;
}
/* found exact size of e820 entry */
if (length == size) {
entry->type = E820_TYPE_RESERVED;
hv_mem_range.total_mem_size -= size;
ret = start;
break;
}
/*
* found entry with available memory larger than requested
* allocate memory from the end of this entry at page boundary
*/
new_entry = &hv_e820[hv_e820_entries_nr];
new_entry->type = E820_TYPE_RESERVED;
new_entry->baseaddr = end - size;
new_entry->length = (entry->baseaddr + entry->length) - new_entry->baseaddr;
/* Shrink the existing entry and total available memory */
entry->length -= new_entry->length;
hv_mem_range.total_mem_size -= new_entry->length;
hv_e820_entries_nr++;
ret = new_entry->baseaddr;
break;
}
if (ret == ACRN_INVALID_HPA) {
pr_fatal("Can't allocate memory under 1M from E820\n");
}
return ret;
}
/* HV read multiboot header to get e820 entries info and calc total RAM info */
void init_e820(void)
{
uint32_t i;
uint64_t top_addr_space = CONFIG_PLATFORM_RAM_SIZE + PLATFORM_LO_MMIO_SIZE;
struct acrn_multiboot_info *mbi = get_multiboot_info();
struct multiboot_mmap *mmap = mbi->mi_mmap_entry;
hv_e820_entries_nr = mbi->mi_mmap_entries;
dev_dbg(DBG_LEVEL_E820, "mmap addr 0x%x entries %d\n",
mbi->mi_mmap_entry, hv_e820_entries_nr);
for (i = 0U; i < hv_e820_entries_nr; i++) {
if (mmap[i].baseaddr >= top_addr_space) {
mmap[i].length = 0UL;
} else {
if ((mmap[i].baseaddr + mmap[i].length) > top_addr_space) {
mmap[i].length = top_addr_space - mmap[i].baseaddr;
}
}
hv_e820[i].baseaddr = mmap[i].baseaddr;
hv_e820[i].length = mmap[i].length;
hv_e820[i].type = mmap[i].type;
dev_dbg(DBG_LEVEL_E820, "mmap table: %d type: 0x%x\n", i, mmap[i].type);
dev_dbg(DBG_LEVEL_E820, "Base: 0x%016lx length: 0x%016lx",
mmap[i].baseaddr, mmap[i].length);
}
obtain_mem_range_info();
}
uint32_t get_e820_entries_count(void)
{
return hv_e820_entries_nr;
}
const struct e820_entry *get_e820_entry(void)
{
return hv_e820;
}
const struct mem_range *get_mem_range_info(void)
{
return &hv_mem_range;
}
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