Skip to content

L
linux
Commit b85cac57 authored by Linus Torvalds's avatar Linus Torvalds
Browse files
Options

Merge tag 'x86-kaslr-2020-10-12' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip 

Pull x86 kaslr updates from Ingo Molnar:
 "This cleans up and simplifies the x86 KASLR code, and also fixes some
  corner case bugs"

* tag 'x86-kaslr-2020-10-12' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: (22 commits)
  x86/kaslr: Replace strlen() with strnlen()
  x86/kaslr: Add a check that the random address is in range
  x86/kaslr: Make local variables 64-bit
  x86/kaslr: Replace 'unsigned long long' with 'u64'
  x86/kaslr: Make minimum/image_size 'unsigned long'
  x86/kaslr: Small cleanup of find_random_phys_addr()
  x86/kaslr: Drop unnecessary alignment in find_random_virt_addr()
  x86/kaslr: Drop redundant check in store_slot_info()
  x86/kaslr: Make the type of number of slots/slot areas consistent
  x86/kaslr: Drop test for command-line parameters before parsing
  x86/kaslr: Simplify process_gb_huge_pages()
  x86/kaslr: Short-circuit gb_huge_pages on x86-32
  x86/kaslr: Fix off-by-one error in process_gb_huge_pages()
  x86/kaslr: Drop some redundant checks from __process_mem_region()
  x86/kaslr: Drop redundant variable in __process_mem_region()
  x86/kaslr: Eliminate 'start_orig' local variable from __process_mem_region()
  x86/kaslr: Drop redundant cur_entry from __process_mem_region()
  x86/kaslr: Fix off-by-one error in __process_mem_region()
  x86/kaslr: Initialize mem_limit to the real maximum address
  x86/kaslr: Fix process_efi_entries comment
  ...
parents 1c689070 76167e5c
Show whitespace changes
Inline Side-by-side
Showing with 107 additions and 135 deletions
arch/x86/boot/compressed/kaslr.c
View file @ b85cac57
...@@ -36,6 +36,10 @@ ...@@ -36,6 +36,10 @@
#define STATIC #define STATIC
#include <linux/decompress/mm.h> #include <linux/decompress/mm.h>
#define _SETUP
#include <asm/setup.h> /* For COMMAND_LINE_SIZE */
#undef _SETUP
#ifdef CONFIG_X86_5LEVEL #ifdef CONFIG_X86_5LEVEL
unsigned int __pgtable_l5_enabled; unsigned int __pgtable_l5_enabled;
unsigned int pgdir_shift __ro_after_init = 39; unsigned int pgdir_shift __ro_after_init = 39;
...@@ -87,8 +91,11 @@ static unsigned long get_boot_seed(void) ...@@ -87,8 +91,11 @@ static unsigned long get_boot_seed(void)
static bool memmap_too_large; static bool memmap_too_large;
/* Store memory limit specified by "mem=nn[KMG]" or "memmap=nn[KMG]" */ /*
static unsigned long long mem_limit = ULLONG_MAX; * Store memory limit: MAXMEM on 64-bit and KERNEL_IMAGE_SIZE on 32-bit.
* It may be reduced by "mem=nn[KMG]" or "memmap=nn[KMG]" command line options.
*/
static u64 mem_limit;
/* Number of immovable memory regions */ /* Number of immovable memory regions */
static int num_immovable_mem; static int num_immovable_mem;
...@@ -131,8 +138,7 @@ enum parse_mode { ...@@ -131,8 +138,7 @@ enum parse_mode {
}; };
static int static int
parse_memmap(char *p, unsigned long long *start, unsigned long long *size, parse_memmap(char *p, u64 *start, u64 *size, enum parse_mode mode)
enum parse_mode mode)
{ {
char *oldp; char *oldp;
...@@ -162,7 +168,7 @@ parse_memmap(char *p, unsigned long long *start, unsigned long long *size, ...@@ -162,7 +168,7 @@ parse_memmap(char *p, unsigned long long *start, unsigned long long *size,
*/ */
*size = 0; *size = 0;
} else { } else {
unsigned long long flags; u64 flags;
/* /*
* efi_fake_mem=nn@ss:attr the attr specifies * efi_fake_mem=nn@ss:attr the attr specifies
...@@ -201,7 +207,7 @@ static void mem_avoid_memmap(enum parse_mode mode, char *str) ...@@ -201,7 +207,7 @@ static void mem_avoid_memmap(enum parse_mode mode, char *str)
while (str && (i < MAX_MEMMAP_REGIONS)) { while (str && (i < MAX_MEMMAP_REGIONS)) {
int rc; int rc;
unsigned long long start, size; u64 start, size;
char *k = strchr(str, ','); char *k = strchr(str, ',');
if (k) if (k)
...@@ -214,7 +220,7 @@ static void mem_avoid_memmap(enum parse_mode mode, char *str) ...@@ -214,7 +220,7 @@ static void mem_avoid_memmap(enum parse_mode mode, char *str)
if (start == 0) { if (start == 0) {
/* Store the specified memory limit if size > 0 */ /* Store the specified memory limit if size > 0 */
if (size > 0) if (size > 0 && size < mem_limit)
mem_limit = size; mem_limit = size;
continue; continue;
...@@ -261,15 +267,15 @@ static void parse_gb_huge_pages(char *param, char *val) ...@@ -261,15 +267,15 @@ static void parse_gb_huge_pages(char *param, char *val)
static void handle_mem_options(void) static void handle_mem_options(void)
{ {
char *args = (char *)get_cmd_line_ptr(); char *args = (char *)get_cmd_line_ptr();
size_t len = strlen((char *)args); size_t len;
char *tmp_cmdline; char *tmp_cmdline;
char *param, *val; char *param, *val;
u64 mem_size; u64 mem_size;
if (!strstr(args, "memmap=") && !strstr(args, "mem=") && if (!args)
!strstr(args, "hugepages"))
return; return;
len = strnlen(args, COMMAND_LINE_SIZE-1);
tmp_cmdline = malloc(len + 1); tmp_cmdline = malloc(len + 1);
if (!tmp_cmdline) if (!tmp_cmdline)
error("Failed to allocate space for tmp_cmdline"); error("Failed to allocate space for tmp_cmdline");
...@@ -284,14 +290,12 @@ static void handle_mem_options(void) ...@@ -284,14 +290,12 @@ static void handle_mem_options(void)
while (*args) { while (*args) {
args = next_arg(args, &param, &val); args = next_arg(args, &param, &val);
/* Stop at -- */ /* Stop at -- */
if (!val && strcmp(param, "--") == 0) { if (!val && strcmp(param, "--") == 0)
warn("Only '--' specified in cmdline"); break;
goto out;
}
if (!strcmp(param, "memmap")) { if (!strcmp(param, "memmap")) {
mem_avoid_memmap(PARSE_MEMMAP, val); mem_avoid_memmap(PARSE_MEMMAP, val);
} else if (strstr(param, "hugepages")) { } else if (IS_ENABLED(CONFIG_X86_64) && strstr(param, "hugepages")) {
parse_gb_huge_pages(param, val); parse_gb_huge_pages(param, val);
} else if (!strcmp(param, "mem")) { } else if (!strcmp(param, "mem")) {
char *p = val; char *p = val;
...@@ -300,21 +304,23 @@ static void handle_mem_options(void) ...@@ -300,21 +304,23 @@ static void handle_mem_options(void)
continue; continue;
mem_size = memparse(p, &p); mem_size = memparse(p, &p);
if (mem_size == 0) if (mem_size == 0)
goto out; break;
if (mem_size < mem_limit)
mem_limit = mem_size; mem_limit = mem_size;
} else if (!strcmp(param, "efi_fake_mem")) { } else if (!strcmp(param, "efi_fake_mem")) {
mem_avoid_memmap(PARSE_EFI, val); mem_avoid_memmap(PARSE_EFI, val);
} }
} }
out:
free(tmp_cmdline); free(tmp_cmdline);
return; return;
} }
/* /*
* In theory, KASLR can put the kernel anywhere in the range of [16M, 64T). * In theory, KASLR can put the kernel anywhere in the range of [16M, MAXMEM)
* on 64-bit, and [16M, KERNEL_IMAGE_SIZE) on 32-bit.
*
* The mem_avoid array is used to store the ranges that need to be avoided * The mem_avoid array is used to store the ranges that need to be avoided
* when KASLR searches for an appropriate random address. We must avoid any * when KASLR searches for an appropriate random address. We must avoid any
* regions that are unsafe to overlap with during decompression, and other * regions that are unsafe to overlap with during decompression, and other
...@@ -392,8 +398,7 @@ static void mem_avoid_init(unsigned long input, unsigned long input_size, ...@@ -392,8 +398,7 @@ static void mem_avoid_init(unsigned long input, unsigned long input_size,
{ {
unsigned long init_size = boot_params->hdr.init_size; unsigned long init_size = boot_params->hdr.init_size;
u64 initrd_start, initrd_size; u64 initrd_start, initrd_size;
u64 cmd_line, cmd_line_size; unsigned long cmd_line, cmd_line_size;
char *ptr;
/* /*
* Avoid the region that is unsafe to overlap during * Avoid the region that is unsafe to overlap during
...@@ -414,16 +419,15 @@ static void mem_avoid_init(unsigned long input, unsigned long input_size, ...@@ -414,16 +419,15 @@ static void mem_avoid_init(unsigned long input, unsigned long input_size,
/* No need to set mapping for initrd, it will be handled in VO. */ /* No need to set mapping for initrd, it will be handled in VO. */
/* Avoid kernel command line. */ /* Avoid kernel command line. */
cmd_line = (u64)boot_params->ext_cmd_line_ptr << 32; cmd_line = get_cmd_line_ptr();
cmd_line |= boot_params->hdr.cmd_line_ptr;
/* Calculate size of cmd_line. */ /* Calculate size of cmd_line. */
ptr = (char *)(unsigned long)cmd_line; if (cmd_line) {
for (cmd_line_size = 0; ptr[cmd_line_size++];) cmd_line_size = strnlen((char *)cmd_line, COMMAND_LINE_SIZE-1) + 1;
;
mem_avoid[MEM_AVOID_CMDLINE].start = cmd_line; mem_avoid[MEM_AVOID_CMDLINE].start = cmd_line;
mem_avoid[MEM_AVOID_CMDLINE].size = cmd_line_size; mem_avoid[MEM_AVOID_CMDLINE].size = cmd_line_size;
add_identity_map(mem_avoid[MEM_AVOID_CMDLINE].start, add_identity_map(mem_avoid[MEM_AVOID_CMDLINE].start,
mem_avoid[MEM_AVOID_CMDLINE].size); mem_avoid[MEM_AVOID_CMDLINE].size);
}
/* Avoid boot parameters. */ /* Avoid boot parameters. */
mem_avoid[MEM_AVOID_BOOTPARAMS].start = (unsigned long)boot_params; mem_avoid[MEM_AVOID_BOOTPARAMS].start = (unsigned long)boot_params;
...@@ -454,7 +458,7 @@ static bool mem_avoid_overlap(struct mem_vector *img, ...@@ -454,7 +458,7 @@ static bool mem_avoid_overlap(struct mem_vector *img,
{ {
int i; int i;
struct setup_data *ptr; struct setup_data *ptr;
unsigned long earliest = img->start + img->size; u64 earliest = img->start + img->size;
bool is_overlapping = false; bool is_overlapping = false;
for (i = 0; i < MEM_AVOID_MAX; i++) { for (i = 0; i < MEM_AVOID_MAX; i++) {
...@@ -499,18 +503,16 @@ static bool mem_avoid_overlap(struct mem_vector *img, ...@@ -499,18 +503,16 @@ static bool mem_avoid_overlap(struct mem_vector *img,
} }
struct slot_area { struct slot_area {
unsigned long addr; u64 addr;
int num; unsigned long num;
}; };
#define MAX_SLOT_AREA 100 #define MAX_SLOT_AREA 100
static struct slot_area slot_areas[MAX_SLOT_AREA]; static struct slot_area slot_areas[MAX_SLOT_AREA];
static unsigned int slot_area_index;
static unsigned long slot_max; static unsigned long slot_max;
static unsigned long slot_area_index;
static void store_slot_info(struct mem_vector *region, unsigned long image_size) static void store_slot_info(struct mem_vector *region, unsigned long image_size)
{ {
struct slot_area slot_area; struct slot_area slot_area;
...@@ -519,13 +521,10 @@ static void store_slot_info(struct mem_vector *region, unsigned long image_size) ...@@ -519,13 +521,10 @@ static void store_slot_info(struct mem_vector *region, unsigned long image_size)
return; return;
slot_area.addr = region->start; slot_area.addr = region->start;
slot_area.num = (region->size - image_size) / slot_area.num = 1 + (region->size - image_size) / CONFIG_PHYSICAL_ALIGN;
CONFIG_PHYSICAL_ALIGN + 1;
if (slot_area.num > 0) {
slot_areas[slot_area_index++] = slot_area; slot_areas[slot_area_index++] = slot_area;
slot_max += slot_area.num; slot_max += slot_area.num;
}
} }
/* /*
...@@ -535,57 +534,53 @@ static void store_slot_info(struct mem_vector *region, unsigned long image_size) ...@@ -535,57 +534,53 @@ static void store_slot_info(struct mem_vector *region, unsigned long image_size)
static void static void
process_gb_huge_pages(struct mem_vector *region, unsigned long image_size) process_gb_huge_pages(struct mem_vector *region, unsigned long image_size)
{ {
unsigned long addr, size = 0; u64 pud_start, pud_end;
unsigned long gb_huge_pages;
struct mem_vector tmp; struct mem_vector tmp;
int i = 0;
if (!max_gb_huge_pages) { if (!IS_ENABLED(CONFIG_X86_64) || !max_gb_huge_pages) {
store_slot_info(region, image_size); store_slot_info(region, image_size);
return; return;
} }
addr = ALIGN(region->start, PUD_SIZE); /* Are there any 1GB pages in the region? */
/* Did we raise the address above the passed in memory entry? */ pud_start = ALIGN(region->start, PUD_SIZE);
if (addr < region->start + region->size) pud_end = ALIGN_DOWN(region->start + region->size, PUD_SIZE);
size = region->size - (addr - region->start);
/* Check how many 1GB huge pages can be filtered out: */
while (size > PUD_SIZE && max_gb_huge_pages) {
size -= PUD_SIZE;
max_gb_huge_pages--;
i++;
}
/* No good 1GB huge pages found: */ /* No good 1GB huge pages found: */
if (!i) { if (pud_start >= pud_end) {
store_slot_info(region, image_size); store_slot_info(region, image_size);
return; return;
} }
/* /* Check if the head part of the region is usable. */
* Skip those 'i'*1GB good huge pages, and continue checking and if (pud_start >= region->start + image_size) {
* processing the remaining head or tail part of the passed region
* if available.
*/
if (addr >= region->start + image_size) {
tmp.start = region->start; tmp.start = region->start;
tmp.size = addr - region->start; tmp.size = pud_start - region->start;
store_slot_info(&tmp, image_size); store_slot_info(&tmp, image_size);
} }
size = region->size - (addr - region->start) - i * PUD_SIZE; /* Skip the good 1GB pages. */
if (size >= image_size) { gb_huge_pages = (pud_end - pud_start) >> PUD_SHIFT;
tmp.start = addr + i * PUD_SIZE; if (gb_huge_pages > max_gb_huge_pages) {
tmp.size = size; pud_end = pud_start + (max_gb_huge_pages << PUD_SHIFT);
max_gb_huge_pages = 0;
} else {
max_gb_huge_pages -= gb_huge_pages;
}
/* Check if the tail part of the region is usable. */
if (region->start + region->size >= pud_end + image_size) {
tmp.start = pud_end;
tmp.size = region->start + region->size - pud_end;
store_slot_info(&tmp, image_size); store_slot_info(&tmp, image_size);
} }
} }
static unsigned long slots_fetch_random(void) static u64 slots_fetch_random(void)
{ {
unsigned long slot; unsigned long slot;
int i; unsigned int i;
/* Handle case of no slots stored. */ /* Handle case of no slots stored. */
if (slot_max == 0) if (slot_max == 0)
...@@ -598,7 +593,7 @@ static unsigned long slots_fetch_random(void) ...@@ -598,7 +593,7 @@ static unsigned long slots_fetch_random(void)
slot -= slot_areas[i].num; slot -= slot_areas[i].num;
continue; continue;
} }
return slot_areas[i].addr + slot * CONFIG_PHYSICAL_ALIGN; return slot_areas[i].addr + ((u64)slot * CONFIG_PHYSICAL_ALIGN);
} }
if (i == slot_area_index) if (i == slot_area_index)
...@@ -611,49 +606,23 @@ static void __process_mem_region(struct mem_vector *entry, ...@@ -611,49 +606,23 @@ static void __process_mem_region(struct mem_vector *entry,
unsigned long image_size) unsigned long image_size)
{ {
struct mem_vector region, overlap; struct mem_vector region, overlap;
unsigned long start_orig, end; u64 region_end;
struct mem_vector cur_entry;
/* On 32-bit, ignore entries entirely above our maximum. */
if (IS_ENABLED(CONFIG_X86_32) && entry->start >= KERNEL_IMAGE_SIZE)
return;
/* Ignore entries entirely below our minimum. */
if (entry->start + entry->size < minimum)
return;
/* Ignore entries above memory limit */
end = min(entry->size + entry->start, mem_limit);
if (entry->start >= end)
return;
cur_entry.start = entry->start;
cur_entry.size = end - entry->start;
region.start = cur_entry.start; /* Enforce minimum and memory limit. */
region.size = cur_entry.size; region.start = max_t(u64, entry->start, minimum);
region_end = min(entry->start + entry->size, mem_limit);
/* Give up if slot area array is full. */ /* Give up if slot area array is full. */
while (slot_area_index < MAX_SLOT_AREA) { while (slot_area_index < MAX_SLOT_AREA) {
start_orig = region.start;
/* Potentially raise address to minimum location. */
if (region.start < minimum)
region.start = minimum;
/* Potentially raise address to meet alignment needs. */ /* Potentially raise address to meet alignment needs. */
region.start = ALIGN(region.start, CONFIG_PHYSICAL_ALIGN); region.start = ALIGN(region.start, CONFIG_PHYSICAL_ALIGN);
/* Did we raise the address above the passed in memory entry? */ /* Did we raise the address above the passed in memory entry? */
if (region.start > cur_entry.start + cur_entry.size) if (region.start > region_end)
return; return;
/* Reduce size by any delta from the original address. */ /* Reduce size by any delta from the original address. */
region.size -= region.start - start_orig; region.size = region_end - region.start;
/* On 32-bit, reduce region size to fit within max size. */
if (IS_ENABLED(CONFIG_X86_32) &&
region.start + region.size > KERNEL_IMAGE_SIZE)
region.size = KERNEL_IMAGE_SIZE - region.start;
/* Return if region can't contain decompressed kernel */ /* Return if region can't contain decompressed kernel */
if (region.size < image_size) if (region.size < image_size)
...@@ -666,27 +635,19 @@ static void __process_mem_region(struct mem_vector *entry, ...@@ -666,27 +635,19 @@ static void __process_mem_region(struct mem_vector *entry,
} }
/* Store beginning of region if holds at least image_size. */ /* Store beginning of region if holds at least image_size. */
if (overlap.start > region.start + image_size) { if (overlap.start >= region.start + image_size) {
struct mem_vector beginning; region.size = overlap.start - region.start;
process_gb_huge_pages(&region, image_size);
beginning.start = region.start;
beginning.size = overlap.start - region.start;
process_gb_huge_pages(&beginning, image_size);
} }
/* Return if overlap extends to or past end of region. */
if (overlap.start + overlap.size >= region.start + region.size)
return;
/* Clip off the overlapping region and start over. */ /* Clip off the overlapping region and start over. */
region.size -= overlap.start - region.start + overlap.size;
region.start = overlap.start + overlap.size; region.start = overlap.start + overlap.size;
} }
} }
static bool process_mem_region(struct mem_vector *region, static bool process_mem_region(struct mem_vector *region,
unsigned long long minimum, unsigned long minimum,
unsigned long long image_size) unsigned long image_size)
{ {
int i; int i;
/* /*
...@@ -709,7 +670,7 @@ static bool process_mem_region(struct mem_vector *region, ...@@ -709,7 +670,7 @@ static bool process_mem_region(struct mem_vector *region,
* immovable memory and @region. * immovable memory and @region.
*/ */
for (i = 0; i < num_immovable_mem; i++) { for (i = 0; i < num_immovable_mem; i++) {
unsigned long long start, end, entry_end, region_end; u64 start, end, entry_end, region_end;
struct mem_vector entry; struct mem_vector entry;
if (!mem_overlaps(region, &immovable_mem[i])) if (!mem_overlaps(region, &immovable_mem[i]))
...@@ -736,8 +697,8 @@ static bool process_mem_region(struct mem_vector *region, ...@@ -736,8 +697,8 @@ static bool process_mem_region(struct mem_vector *region,
#ifdef CONFIG_EFI #ifdef CONFIG_EFI
/* /*
* Returns true if mirror region found (and must have been processed * Returns true if we processed the EFI memmap, which we prefer over the E820
* for slots adding) * table if it is available.
*/ */
static bool static bool
process_efi_entries(unsigned long minimum, unsigned long image_size) process_efi_entries(unsigned long minimum, unsigned long image_size)
...@@ -839,20 +800,30 @@ static void process_e820_entries(unsigned long minimum, ...@@ -839,20 +800,30 @@ static void process_e820_entries(unsigned long minimum,
static unsigned long find_random_phys_addr(unsigned long minimum, static unsigned long find_random_phys_addr(unsigned long minimum,
unsigned long image_size) unsigned long image_size)
{ {
u64 phys_addr;
/* Bail out early if it's impossible to succeed. */
if (minimum + image_size > mem_limit)
return 0;
/* Check if we had too many memmaps. */ /* Check if we had too many memmaps. */
if (memmap_too_large) { if (memmap_too_large) {
debug_putstr("Aborted memory entries scan (more than 4 memmap= args)!\n"); debug_putstr("Aborted memory entries scan (more than 4 memmap= args)!\n");
return 0; return 0;
} }
/* Make sure minimum is aligned. */ if (!process_efi_entries(minimum, image_size))
minimum = ALIGN(minimum, CONFIG_PHYSICAL_ALIGN); process_e820_entries(minimum, image_size);
if (process_efi_entries(minimum, image_size)) phys_addr = slots_fetch_random();
return slots_fetch_random();
process_e820_entries(minimum, image_size); /* Perform a final check to make sure the address is in range. */
return slots_fetch_random(); if (phys_addr < minimum || phys_addr + image_size > mem_limit) {
warn("Invalid physical address chosen!\n");
return 0;
}
return (unsigned long)phys_addr;
} }
static unsigned long find_random_virt_addr(unsigned long minimum, static unsigned long find_random_virt_addr(unsigned long minimum,
...@@ -860,18 +831,12 @@ static unsigned long find_random_virt_addr(unsigned long minimum, ...@@ -860,18 +831,12 @@ static unsigned long find_random_virt_addr(unsigned long minimum,
{ {
unsigned long slots, random_addr; unsigned long slots, random_addr;
/* Make sure minimum is aligned. */
minimum = ALIGN(minimum, CONFIG_PHYSICAL_ALIGN);
/* Align image_size for easy slot calculations. */
image_size = ALIGN(image_size, CONFIG_PHYSICAL_ALIGN);
/* /*
* There are how many CONFIG_PHYSICAL_ALIGN-sized slots * There are how many CONFIG_PHYSICAL_ALIGN-sized slots
* that can hold image_size within the range of minimum to * that can hold image_size within the range of minimum to
* KERNEL_IMAGE_SIZE? * KERNEL_IMAGE_SIZE?
*/ */
slots = (KERNEL_IMAGE_SIZE - minimum - image_size) / slots = 1 + (KERNEL_IMAGE_SIZE - minimum - image_size) / CONFIG_PHYSICAL_ALIGN;
CONFIG_PHYSICAL_ALIGN + 1;
random_addr = kaslr_get_random_long("Virtual") % slots; random_addr = kaslr_get_random_long("Virtual") % slots;
...@@ -908,6 +873,11 @@ void choose_random_location(unsigned long input, ...@@ -908,6 +873,11 @@ void choose_random_location(unsigned long input,
/* Prepare to add new identity pagetables on demand. */ /* Prepare to add new identity pagetables on demand. */
initialize_identity_maps(); initialize_identity_maps();
if (IS_ENABLED(CONFIG_X86_32))
mem_limit = KERNEL_IMAGE_SIZE;
else
mem_limit = MAXMEM;
/* Record the various known unsafe memory ranges. */ /* Record the various known unsafe memory ranges. */
mem_avoid_init(input, input_size, *output); mem_avoid_init(input, input_size, *output);
...@@ -917,6 +887,8 @@ void choose_random_location(unsigned long input, ...@@ -917,6 +887,8 @@ void choose_random_location(unsigned long input,
* location: * location:
*/ */
min_addr = min(*output, 512UL << 20); min_addr = min(*output, 512UL << 20);
/* Make sure minimum is aligned. */
min_addr = ALIGN(min_addr, CONFIG_PHYSICAL_ALIGN);
/* Walk available memory entries to find a random address. */ /* Walk available memory entries to find a random address. */
random_addr = find_random_phys_addr(min_addr, output_size); random_addr = find_random_phys_addr(min_addr, output_size);
......
arch/x86/boot/compressed/misc.h
View file @ b85cac57
...@@ -70,8 +70,8 @@ int cmdline_find_option(const char *option, char *buffer, int bufsize); ...@@ -70,8 +70,8 @@ int cmdline_find_option(const char *option, char *buffer, int bufsize);
int cmdline_find_option_bool(const char *option); int cmdline_find_option_bool(const char *option);
struct mem_vector { struct mem_vector {
unsigned long long start; u64 start;
unsigned long long size; u64 size;
}; };
#if CONFIG_RANDOMIZE_BASE #if CONFIG_RANDOMIZE_BASE
......
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment
GitLab Nexedi Edition | About GitLab | About Nexedi | 沪ICP备2021021310号-2 | 沪ICP备2021021310号-7