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grub/grub-core/kern/efi/mm.c
Alexander Graf 92bfc33db9 efi: Free malloc regions on exit 
When we exit grub, we don't free all the memory that we allocated earlier
for our heap region. This can cause problems with setups where you try
to descend the boot order using "exit" entries, such as PXE -> HD boot
scenarios.

Signed-off-by: Alexander Graf <agraf@suse.de>
Reviewed-by: Daniel Kiper <daniel.kiper@oracle.com>
2017-09-07 23:35:01 +02:00

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/* mm.c - generic EFI memory management */
/*
* GRUB -- GRand Unified Bootloader
* Copyright (C) 2006,2007,2008,2009 Free Software Foundation, Inc.
*
* GRUB 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 3 of the License, or
* (at your option) any later version.
*
* GRUB is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GRUB. If not, see <http://www.gnu.org/licenses/>.
*/
#include <grub/misc.h>
#include <grub/mm.h>
#include <grub/efi/api.h>
#include <grub/efi/efi.h>
#include <grub/cpu/efi/memory.h>
#if defined (__i386__) || defined (__x86_64__)
#include <grub/pci.h>
#endif
#define NEXT_MEMORY_DESCRIPTOR(desc, size) \
((grub_efi_memory_descriptor_t *) ((char *) (desc) + (size)))
#define BYTES_TO_PAGES(bytes) (((bytes) + 0xfff) >> 12)
#define BYTES_TO_PAGES_DOWN(bytes) ((bytes) >> 12)
#define PAGES_TO_BYTES(pages) ((pages) << 12)
/* The size of a memory map obtained from the firmware. This must be
a multiplier of 4KB. */
#define MEMORY_MAP_SIZE 0x3000
/* The minimum and maximum heap size for GRUB itself. */
#define MIN_HEAP_SIZE 0x100000
#define MAX_HEAP_SIZE (1600 * 0x100000)
static void *finish_mmap_buf = 0;
static grub_efi_uintn_t finish_mmap_size = 0;
static grub_efi_uintn_t finish_key = 0;
static grub_efi_uintn_t finish_desc_size;
static grub_efi_uint32_t finish_desc_version;
int grub_efi_is_finished = 0;
/*
* We need to roll back EFI allocations on exit. Remember allocations that
* we'll free on exit.
*/
struct efi_allocation;
struct efi_allocation {
grub_efi_physical_address_t address;
grub_efi_uint64_t pages;
struct efi_allocation *next;
};
static struct efi_allocation *efi_allocated_memory;
static void
grub_efi_store_alloc (grub_efi_physical_address_t address,
grub_efi_uintn_t pages)
{
grub_efi_boot_services_t *b;
struct efi_allocation *alloc;
grub_efi_status_t status;
b = grub_efi_system_table->boot_services;
status = efi_call_3 (b->allocate_pool, GRUB_EFI_LOADER_DATA,
sizeof(*alloc), (void**)&alloc);
if (status == GRUB_EFI_SUCCESS)
{
alloc->next = efi_allocated_memory;
alloc->address = address;
alloc->pages = pages;
efi_allocated_memory = alloc;
}
else
grub_printf ("Could not malloc memory to remember EFI allocation. "
"Exiting GRUB won't free all memory.\n");
}
static void
grub_efi_drop_alloc (grub_efi_physical_address_t address,
grub_efi_uintn_t pages)
{
struct efi_allocation *ea, *eap;
grub_efi_boot_services_t *b;
b = grub_efi_system_table->boot_services;
for (eap = NULL, ea = efi_allocated_memory; ea; eap = ea, ea = ea->next)
{
if (ea->address != address || ea->pages != pages)
continue;
/* Remove the current entry from the list. */
if (eap)
eap->next = ea->next;
else
efi_allocated_memory = ea->next;
/* Then free the memory backing it. */
efi_call_1 (b->free_pool, ea);
/* And leave, we're done. */
break;
}
}
/* Allocate pages. Return the pointer to the first of allocated pages. */
void *
grub_efi_allocate_pages_real (grub_efi_physical_address_t address,
grub_efi_uintn_t pages,
grub_efi_allocate_type_t alloctype,
grub_efi_memory_type_t memtype)
{
grub_efi_status_t status;
grub_efi_boot_services_t *b;
/* Limit the memory access to less than 4GB for 32-bit platforms. */
if (address > GRUB_EFI_MAX_USABLE_ADDRESS)
return 0;
b = grub_efi_system_table->boot_services;
status = efi_call_4 (b->allocate_pages, alloctype, memtype, pages, &address);
if (status != GRUB_EFI_SUCCESS)
return 0;
if (address == 0)
{
/* Uggh, the address 0 was allocated... This is too annoying,
so reallocate another one. */
address = GRUB_EFI_MAX_USABLE_ADDRESS;
status = efi_call_4 (b->allocate_pages, alloctype, memtype, pages, &address);
grub_efi_free_pages (0, pages);
if (status != GRUB_EFI_SUCCESS)
return 0;
}
grub_efi_store_alloc (address, pages);
return (void *) ((grub_addr_t) address);
}
void *
grub_efi_allocate_any_pages (grub_efi_uintn_t pages)
{
return grub_efi_allocate_pages_real (GRUB_EFI_MAX_USABLE_ADDRESS,
pages, GRUB_EFI_ALLOCATE_MAX_ADDRESS,
GRUB_EFI_LOADER_DATA);
}
void *
grub_efi_allocate_fixed (grub_efi_physical_address_t address,
grub_efi_uintn_t pages)
{
return grub_efi_allocate_pages_real (address, pages,
GRUB_EFI_ALLOCATE_ADDRESS,
GRUB_EFI_LOADER_DATA);
}
/* Free pages starting from ADDRESS. */
void
grub_efi_free_pages (grub_efi_physical_address_t address,
grub_efi_uintn_t pages)
{
grub_efi_boot_services_t *b;
b = grub_efi_system_table->boot_services;
efi_call_2 (b->free_pages, address, pages);
grub_efi_drop_alloc (address, pages);
}
#if defined (__i386__) || defined (__x86_64__)
/* Helper for stop_broadcom. */
static int
find_card (grub_pci_device_t dev, grub_pci_id_t pciid,
void *data __attribute__ ((unused)))
{
grub_pci_address_t addr;
grub_uint8_t cap;
grub_uint16_t pm_state;
if ((pciid & 0xffff) != GRUB_PCI_VENDOR_BROADCOM)
return 0;
addr = grub_pci_make_address (dev, GRUB_PCI_REG_CLASS);
if (grub_pci_read (addr) >> 24 != GRUB_PCI_CLASS_NETWORK)
return 0;
cap = grub_pci_find_capability (dev, GRUB_PCI_CAP_POWER_MANAGEMENT);
if (!cap)
return 0;
addr = grub_pci_make_address (dev, cap + 4);
pm_state = grub_pci_read_word (addr);
pm_state = pm_state | 0x03;
grub_pci_write_word (addr, pm_state);
grub_pci_read_word (addr);
return 0;
}
static void
stop_broadcom (void)
{
grub_pci_iterate (find_card, NULL);
}
#endif
grub_err_t
grub_efi_finish_boot_services (grub_efi_uintn_t *outbuf_size, void *outbuf,
grub_efi_uintn_t *map_key,
grub_efi_uintn_t *efi_desc_size,
grub_efi_uint32_t *efi_desc_version)
{
grub_efi_boot_services_t *b;
grub_efi_status_t status;
#if defined (__i386__) || defined (__x86_64__)
const grub_uint16_t apple[] = { 'A', 'p', 'p', 'l', 'e' };
int is_apple;
is_apple = (grub_memcmp (grub_efi_system_table->firmware_vendor,
apple, sizeof (apple)) == 0);
#endif
while (1)
{
if (grub_efi_get_memory_map (&finish_mmap_size, finish_mmap_buf, &finish_key,
&finish_desc_size, &finish_desc_version) < 0)
return grub_error (GRUB_ERR_IO, "couldn't retrieve memory map");
if (outbuf && *outbuf_size < finish_mmap_size)
return grub_error (GRUB_ERR_IO, "memory map buffer is too small");
finish_mmap_buf = grub_malloc (finish_mmap_size);
if (!finish_mmap_buf)
return grub_errno;
if (grub_efi_get_memory_map (&finish_mmap_size, finish_mmap_buf, &finish_key,
&finish_desc_size, &finish_desc_version) <= 0)
{
grub_free (finish_mmap_buf);
return grub_error (GRUB_ERR_IO, "couldn't retrieve memory map");
}
b = grub_efi_system_table->boot_services;
status = efi_call_2 (b->exit_boot_services, grub_efi_image_handle,
finish_key);
if (status == GRUB_EFI_SUCCESS)
break;
if (status != GRUB_EFI_INVALID_PARAMETER)
{
grub_free (finish_mmap_buf);
return grub_error (GRUB_ERR_IO, "couldn't terminate EFI services");
}
grub_free (finish_mmap_buf);
grub_printf ("Trying to terminate EFI services again\n");
}
grub_efi_is_finished = 1;
if (outbuf_size)
*outbuf_size = finish_mmap_size;
if (outbuf)
grub_memcpy (outbuf, finish_mmap_buf, finish_mmap_size);
if (map_key)
*map_key = finish_key;
if (efi_desc_size)
*efi_desc_size = finish_desc_size;
if (efi_desc_version)
*efi_desc_version = finish_desc_version;
#if defined (__i386__) || defined (__x86_64__)
if (is_apple)
stop_broadcom ();
#endif
return GRUB_ERR_NONE;
}
/* Get the memory map as defined in the EFI spec. Return 1 if successful,
return 0 if partial, or return -1 if an error occurs. */
int
grub_efi_get_memory_map (grub_efi_uintn_t *memory_map_size,
grub_efi_memory_descriptor_t *memory_map,
grub_efi_uintn_t *map_key,
grub_efi_uintn_t *descriptor_size,
grub_efi_uint32_t *descriptor_version)
{
grub_efi_status_t status;
grub_efi_boot_services_t *b;
grub_efi_uintn_t key;
grub_efi_uint32_t version;
grub_efi_uintn_t size;
if (grub_efi_is_finished)
{
int ret = 1;
if (*memory_map_size < finish_mmap_size)
{
grub_memcpy (memory_map, finish_mmap_buf, *memory_map_size);
ret = 0;
}
else
{
grub_memcpy (memory_map, finish_mmap_buf, finish_mmap_size);
ret = 1;
}
*memory_map_size = finish_mmap_size;
if (map_key)
*map_key = finish_key;
if (descriptor_size)
*descriptor_size = finish_desc_size;
if (descriptor_version)
*descriptor_version = finish_desc_version;
return ret;
}
/* Allow some parameters to be missing. */
if (! map_key)
map_key = &key;
if (! descriptor_version)
descriptor_version = &version;
if (! descriptor_size)
descriptor_size = &size;
b = grub_efi_system_table->boot_services;
status = efi_call_5 (b->get_memory_map, memory_map_size, memory_map, map_key,
descriptor_size, descriptor_version);
if (*descriptor_size == 0)
*descriptor_size = sizeof (grub_efi_memory_descriptor_t);
if (status == GRUB_EFI_SUCCESS)
return 1;
else if (status == GRUB_EFI_BUFFER_TOO_SMALL)
return 0;
else
return -1;
}
/* Sort the memory map in place. */
static void
sort_memory_map (grub_efi_memory_descriptor_t *memory_map,
grub_efi_uintn_t desc_size,
grub_efi_memory_descriptor_t *memory_map_end)
{
grub_efi_memory_descriptor_t *d1;
grub_efi_memory_descriptor_t *d2;
for (d1 = memory_map;
d1 < memory_map_end;
d1 = NEXT_MEMORY_DESCRIPTOR (d1, desc_size))
{
grub_efi_memory_descriptor_t *max_desc = d1;
for (d2 = NEXT_MEMORY_DESCRIPTOR (d1, desc_size);
d2 < memory_map_end;
d2 = NEXT_MEMORY_DESCRIPTOR (d2, desc_size))
{
if (max_desc->num_pages < d2->num_pages)
max_desc = d2;
}
if (max_desc != d1)
{
grub_efi_memory_descriptor_t tmp;
tmp = *d1;
*d1 = *max_desc;
*max_desc = tmp;
}
}
}
/* Filter the descriptors. GRUB needs only available memory. */
static grub_efi_memory_descriptor_t *
filter_memory_map (grub_efi_memory_descriptor_t *memory_map,
grub_efi_memory_descriptor_t *filtered_memory_map,
grub_efi_uintn_t desc_size,
grub_efi_memory_descriptor_t *memory_map_end)
{
grub_efi_memory_descriptor_t *desc;
grub_efi_memory_descriptor_t *filtered_desc;
for (desc = memory_map, filtered_desc = filtered_memory_map;
desc < memory_map_end;
desc = NEXT_MEMORY_DESCRIPTOR (desc, desc_size))
{
if (desc->type == GRUB_EFI_CONVENTIONAL_MEMORY
#if 1
&& desc->physical_start <= GRUB_EFI_MAX_USABLE_ADDRESS
#endif
&& desc->physical_start + PAGES_TO_BYTES (desc->num_pages) > 0x100000
&& desc->num_pages != 0)
{
grub_memcpy (filtered_desc, desc, desc_size);
/* Avoid less than 1MB, because some loaders seem to be confused. */
if (desc->physical_start < 0x100000)
{
desc->num_pages -= BYTES_TO_PAGES (0x100000
- desc->physical_start);
desc->physical_start = 0x100000;
}
#if 1
if (BYTES_TO_PAGES (filtered_desc->physical_start)
+ filtered_desc->num_pages
> BYTES_TO_PAGES_DOWN (GRUB_EFI_MAX_USABLE_ADDRESS))
filtered_desc->num_pages
= (BYTES_TO_PAGES_DOWN (GRUB_EFI_MAX_USABLE_ADDRESS)
- BYTES_TO_PAGES (filtered_desc->physical_start));
#endif
if (filtered_desc->num_pages == 0)
continue;
filtered_desc = NEXT_MEMORY_DESCRIPTOR (filtered_desc, desc_size);
}
}
return filtered_desc;
}
/* Return the total number of pages. */
static grub_efi_uint64_t
get_total_pages (grub_efi_memory_descriptor_t *memory_map,
grub_efi_uintn_t desc_size,
grub_efi_memory_descriptor_t *memory_map_end)
{
grub_efi_memory_descriptor_t *desc;
grub_efi_uint64_t total = 0;
for (desc = memory_map;
desc < memory_map_end;
desc = NEXT_MEMORY_DESCRIPTOR (desc, desc_size))
total += desc->num_pages;
return total;
}
/* Add memory regions. */
static void
add_memory_regions (grub_efi_memory_descriptor_t *memory_map,
grub_efi_uintn_t desc_size,
grub_efi_memory_descriptor_t *memory_map_end,
grub_efi_uint64_t required_pages)
{
grub_efi_memory_descriptor_t *desc;
for (desc = memory_map;
desc < memory_map_end;
desc = NEXT_MEMORY_DESCRIPTOR (desc, desc_size))
{
grub_efi_uint64_t pages;
grub_efi_physical_address_t start;
void *addr;
start = desc->physical_start;
pages = desc->num_pages;
if (pages > required_pages)
{
start += PAGES_TO_BYTES (pages - required_pages);
pages = required_pages;
}
addr = grub_efi_allocate_pages_real (start, pages,
GRUB_EFI_ALLOCATE_ADDRESS,
GRUB_EFI_LOADER_CODE);
if (! addr)
grub_fatal ("cannot allocate conventional memory %p with %u pages",
(void *) ((grub_addr_t) start),
(unsigned) pages);
grub_mm_init_region (addr, PAGES_TO_BYTES (pages));
required_pages -= pages;
if (required_pages == 0)
break;
}
if (required_pages > 0)
grub_fatal ("too little memory");
}
void
grub_efi_memory_fini (void)
{
/*
* Free all stale allocations. grub_efi_free_pages() will remove
* the found entry from the list and it will always find the first
* list entry (efi_allocated_memory is the list start). Hence we
* remove all entries from the list until none is left altogether.
*/
while (efi_allocated_memory)
grub_efi_free_pages (efi_allocated_memory->address,
efi_allocated_memory->pages);
}
#if 0
/* Print the memory map. */
static void
print_memory_map (grub_efi_memory_descriptor_t *memory_map,
grub_efi_uintn_t desc_size,
grub_efi_memory_descriptor_t *memory_map_end)
{
grub_efi_memory_descriptor_t *desc;
int i;
for (desc = memory_map, i = 0;
desc < memory_map_end;
desc = NEXT_MEMORY_DESCRIPTOR (desc, desc_size), i++)
{
grub_printf ("MD: t=%x, p=%llx, v=%llx, n=%llx, a=%llx\n",
desc->type, desc->physical_start, desc->virtual_start,
desc->num_pages, desc->attribute);
}
}
#endif
void
grub_efi_mm_init (void)
{
grub_efi_memory_descriptor_t *memory_map;
grub_efi_memory_descriptor_t *memory_map_end;
grub_efi_memory_descriptor_t *filtered_memory_map;
grub_efi_memory_descriptor_t *filtered_memory_map_end;
grub_efi_uintn_t map_size;
grub_efi_uintn_t desc_size;
grub_efi_uint64_t total_pages;
grub_efi_uint64_t required_pages;
int mm_status;
/* Prepare a memory region to store two memory maps. */
memory_map = grub_efi_allocate_any_pages (2 * BYTES_TO_PAGES (MEMORY_MAP_SIZE));
if (! memory_map)
grub_fatal ("cannot allocate memory");
/* Obtain descriptors for available memory. */
map_size = MEMORY_MAP_SIZE;
mm_status = grub_efi_get_memory_map (&map_size, memory_map, 0, &desc_size, 0);
if (mm_status == 0)
{
grub_efi_free_pages
((grub_efi_physical_address_t) ((grub_addr_t) memory_map),
2 * BYTES_TO_PAGES (MEMORY_MAP_SIZE));
/* Freeing/allocating operations may increase memory map size. */
map_size += desc_size * 32;
memory_map = grub_efi_allocate_any_pages (2 * BYTES_TO_PAGES (map_size));
if (! memory_map)
grub_fatal ("cannot allocate memory");
mm_status = grub_efi_get_memory_map (&map_size, memory_map, 0,
&desc_size, 0);
}
if (mm_status < 0)
grub_fatal ("cannot get memory map");
memory_map_end = NEXT_MEMORY_DESCRIPTOR (memory_map, map_size);
filtered_memory_map = memory_map_end;
filtered_memory_map_end = filter_memory_map (memory_map, filtered_memory_map,
desc_size, memory_map_end);
/* By default, request a quarter of the available memory. */
total_pages = get_total_pages (filtered_memory_map, desc_size,
filtered_memory_map_end);
required_pages = (total_pages >> 2);
if (required_pages < BYTES_TO_PAGES (MIN_HEAP_SIZE))
required_pages = BYTES_TO_PAGES (MIN_HEAP_SIZE);
else if (required_pages > BYTES_TO_PAGES (MAX_HEAP_SIZE))
required_pages = BYTES_TO_PAGES (MAX_HEAP_SIZE);
/* Sort the filtered descriptors, so that GRUB can allocate pages
from smaller regions. */
sort_memory_map (filtered_memory_map, desc_size, filtered_memory_map_end);
/* Allocate memory regions for GRUB's memory management. */
add_memory_regions (filtered_memory_map, desc_size,
filtered_memory_map_end, required_pages);
#if 0
/* For debug. */
map_size = MEMORY_MAP_SIZE;
if (grub_efi_get_memory_map (&map_size, memory_map, 0, &desc_size, 0) < 0)
grub_fatal ("cannot get memory map");
grub_printf ("printing memory map\n");
print_memory_map (memory_map, desc_size,
NEXT_MEMORY_DESCRIPTOR (memory_map, map_size));
grub_fatal ("Debug. ");
#endif
/* Release the memory maps. */
grub_efi_free_pages ((grub_addr_t) memory_map,
2 * BYTES_TO_PAGES (MEMORY_MAP_SIZE));
}
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