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[nrf fromtree] boot: bootutil: loader: Fix issue with using pointers
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Fixes an issue whereby static buffers were changed into pointers,
whereby they are then assumed to be the size of a pointer rather
than the size of the actual buffers

Signed-off-by: Jamie McCrae <jamie.mccrae@nordicsemi.no>
(cherry picked from commit 3a195f2)
Signed-off-by: Dominik Ermel <dominik.ermel@nordicsemi.no>
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nordicjm authored and bjarki-andreasen committed Oct 4, 2024
1 parent d44d7bc commit 22adc04
Showing 1 changed file with 14 additions and 41 deletions.
55 changes: 14 additions & 41 deletions boot/bootutil/src/loader.c
Original file line number Diff line number Diff line change
Expand Up @@ -87,17 +87,22 @@ static bool owner_nsib[BOOT_IMAGE_NUMBER] = {false};
static struct image_max_size image_max_sizes[BOOT_IMAGE_NUMBER] = {0};
#endif

#if (!defined(MCUBOOT_DIRECT_XIP) && !defined(MCUBOOT_RAM_LOAD)) || \
defined(MCUBOOT_SERIAL_IMG_GRP_SLOT_INFO)
#if !defined(__BOOTSIM__)
/* Used for holding static buffers in multiple functions to work around issues
* in older versions of gcc (e.g. 4.8.4)
*/
struct sector_buffer_t {
boot_sector_t *primary;
boot_sector_t *secondary;
boot_sector_t primary[BOOT_IMAGE_NUMBER][BOOT_MAX_IMG_SECTORS];
boot_sector_t secondary[BOOT_IMAGE_NUMBER][BOOT_MAX_IMG_SECTORS];
#if MCUBOOT_SWAP_USING_SCRATCH
boot_sector_t *scratch;
boot_sector_t scratch[BOOT_MAX_IMG_SECTORS];
#endif
};

static struct sector_buffer_t sector_buffers;
#endif
#endif

#if (BOOT_IMAGE_NUMBER > 1)
Expand Down Expand Up @@ -332,28 +337,6 @@ boot_version_cmp(const struct image_version *ver1,

#if (!defined(MCUBOOT_DIRECT_XIP) && !defined(MCUBOOT_RAM_LOAD)) || \
defined(MCUBOOT_SERIAL_IMG_GRP_SLOT_INFO)
#if !defined(__BOOTSIM__)
static void boot_get_sector_buffers(struct sector_buffer_t *buffers)
{
/* The array of slot sectors are defined here (as opposed to file scope) so
* that they don't get allocated for non-boot-loader apps. This is
* necessary because the gcc option "-fdata-sections" doesn't seem to have
* any effect in older gcc versions (e.g., 4.8.4).
*/
static boot_sector_t primary_slot_sectors[BOOT_IMAGE_NUMBER][BOOT_MAX_IMG_SECTORS];
static boot_sector_t secondary_slot_sectors[BOOT_IMAGE_NUMBER][BOOT_MAX_IMG_SECTORS];
#if MCUBOOT_SWAP_USING_SCRATCH
static boot_sector_t scratch_sectors[BOOT_MAX_IMG_SECTORS];
#endif

buffers->primary = (boot_sector_t *)&primary_slot_sectors;
buffers->secondary = (boot_sector_t *)&secondary_slot_sectors;
#if MCUBOOT_SWAP_USING_SCRATCH
buffers->scratch = (boot_sector_t *)&scratch_sectors;
#endif
}
#endif

static int
boot_initialize_area(struct boot_loader_state *state, int flash_area)
{
Expand Down Expand Up @@ -2550,9 +2533,6 @@ context_boot_go(struct boot_loader_state *state, struct boot_rsp *rsp)
{
size_t slot;
struct boot_status bs;
#if !defined(__BOOTSIM__)
struct sector_buffer_t sector_buffers;
#endif
int rc = -1;
FIH_DECLARE(fih_rc, FIH_FAILURE);
int fa_id;
Expand All @@ -2579,10 +2559,6 @@ context_boot_go(struct boot_loader_state *state, struct boot_rsp *rsp)
(void)has_upgrade;
#endif

#if !defined(__BOOTSIM__)
boot_get_sector_buffers(&sector_buffers);
#endif

/* Iterate over all the images. By the end of the loop the swap type has
* to be determined for each image and all aborted swaps have to be
* completed.
Expand All @@ -2605,9 +2581,9 @@ context_boot_go(struct boot_loader_state *state, struct boot_rsp *rsp)

#if !defined(__BOOTSIM__)
BOOT_IMG(state, BOOT_PRIMARY_SLOT).sectors =
&sector_buffers.primary[image_index];
sector_buffers.primary[image_index];
BOOT_IMG(state, BOOT_SECONDARY_SLOT).sectors =
&sector_buffers.secondary[image_index];
sector_buffers.secondary[image_index];
#if MCUBOOT_SWAP_USING_SCRATCH
state->scratch.sectors = sector_buffers.scratch;
#endif
Expand Down Expand Up @@ -3827,30 +3803,27 @@ void boot_state_clear(struct boot_loader_state *state)
#if defined(MCUBOOT_SERIAL_IMG_GRP_SLOT_INFO)
/**
* Reads image data to find out the maximum application sizes. Only needs to
* be called in serial recovery mode, as the state informatio is unpopulated
* be called in serial recovery mode, as the state information is unpopulated
* at that time
*/
static void boot_fetch_slot_state_sizes(void)
{
struct sector_buffer_t sector_buffers;
size_t slot;
int rc = -1;
int fa_id;
int image_index;

boot_get_sector_buffers(&sector_buffers);

IMAGES_ITER(BOOT_CURR_IMG(&boot_data)) {
int max_size = 0;

image_index = BOOT_CURR_IMG(&boot_data);

BOOT_IMG(&boot_data, BOOT_PRIMARY_SLOT).sectors =
&sector_buffers.primary[image_index];
sector_buffers.primary[image_index];
BOOT_IMG(&boot_data, BOOT_SECONDARY_SLOT).sectors =
&sector_buffers.secondary[image_index];
sector_buffers.secondary[image_index];
#if MCUBOOT_SWAP_USING_SCRATCH
boot_data.scratch.sectors = sector_buffers.scratch;;
boot_data.scratch.sectors = sector_buffers.scratch;
#endif

/* Open primary and secondary image areas for the duration
Expand Down

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