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|
/*
* kexec-ppc.c - kexec for the PowerPC
* Copyright (C) 2004, 2005 Albert Herranz
*
* This source code is licensed under the GNU General Public License,
* Version 2. See the file COPYING for more details.
*/
#include <stddef.h>
#include <stdio.h>
#include <errno.h>
#include <stdint.h>
#include <string.h>
#include <getopt.h>
#include <sys/types.h>
#include <dirent.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include "../../kexec.h"
#include "../../kexec-syscall.h"
#include "kexec-ppc.h"
#include "crashdump-powerpc.h"
#include <arch/options.h>
#include "config.h"
unsigned long dt_address_cells = 0, dt_size_cells = 0;
uint64_t rmo_top;
uint64_t memory_limit;
unsigned long long crash_base = 0, crash_size = 0;
unsigned long long initrd_base = 0, initrd_size = 0;
unsigned long long ramdisk_base = 0, ramdisk_size = 0;
unsigned int rtas_base, rtas_size;
int max_memory_ranges;
const char *ramdisk;
/*
* Reads the #address-cells and #size-cells on this platform.
* This is used to parse the memory/reg info from the device-tree
*/
int init_memory_region_info()
{
size_t res = 0;
int fd;
char *file;
file = "/proc/device-tree/#address-cells";
fd = open(file, O_RDONLY);
if (fd < 0) {
fprintf(stderr, "Unable to open %s\n", file);
return -1;
}
res = read(fd, &dt_address_cells, sizeof(dt_address_cells));
if (res != sizeof(dt_address_cells)) {
fprintf(stderr, "Error reading %s\n", file);
return -1;
}
close(fd);
file = "/proc/device-tree/#size-cells";
fd = open(file, O_RDONLY);
if (fd < 0) {
fprintf(stderr, "Unable to open %s\n", file);
return -1;
}
res = read(fd, &dt_size_cells, sizeof(dt_size_cells));
if (res != sizeof(dt_size_cells)) {
fprintf(stderr, "Error reading %s\n", file);
return -1;
}
close(fd);
/* Convert the sizes into bytes */
dt_size_cells *= sizeof(unsigned long);
dt_address_cells *= sizeof(unsigned long);
return 0;
}
#define MAXBYTES 128
/*
* Reads the memory region info from the device-tree node pointed
* by @fd and fills the *start, *end with the boundaries of the region
*/
int read_memory_region_limits(int fd, unsigned long long *start,
unsigned long long *end)
{
char buf[MAXBYTES];
unsigned long *p;
unsigned long nbytes = dt_address_cells + dt_size_cells;
if (lseek(fd, 0, SEEK_SET) == -1) {
fprintf(stderr, "Error in file seek\n");
return -1;
}
if (read(fd, buf, nbytes) != nbytes) {
fprintf(stderr, "Error reading the memory region info\n");
return -1;
}
p = (unsigned long*)buf;
if (dt_address_cells == sizeof(unsigned long)) {
*start = p[0];
p++;
} else if (dt_address_cells == sizeof(unsigned long long)) {
*start = ((unsigned long long *)p)[0];
p = (unsigned long long *)p + 1;
} else {
fprintf(stderr, "Unsupported value for #address-cells : %ld\n",
dt_address_cells);
return -1;
}
if (dt_size_cells == sizeof(unsigned long))
*end = *start + p[0];
else if (dt_size_cells == sizeof(unsigned long long))
*end = *start + ((unsigned long long *)p)[0];
else {
fprintf(stderr, "Unsupported value for #size-cells : %ld\n",
dt_size_cells);
return -1;
}
return 0;
}
void arch_reuse_initrd(void)
{
reuse_initrd = 1;
}
#ifdef WITH_GAMECUBE
#define MAX_MEMORY_RANGES 64
static struct memory_range memory_range[MAX_MEMORY_RANGES];
static int get_memory_ranges_gc(struct memory_range **range, int *ranges,
unsigned long UNUSED(kexec_flags))
{
int memory_ranges = 0;
/* RAM - lowmem used by DOLs - framebuffer */
memory_range[memory_ranges].start = 0x00003000;
memory_range[memory_ranges].end = 0x0174bfff;
memory_range[memory_ranges].type = RANGE_RAM;
memory_ranges++;
*range = memory_range;
*ranges = memory_ranges;
return 0;
}
#else
static int use_new_dtb;
static int nr_memory_ranges, nr_exclude_ranges;
static struct memory_range *exclude_range;
static struct memory_range *memory_range;
static struct memory_range *base_memory_range;
static uint64_t memory_max;
/*
* Count the memory nodes under /proc/device-tree and populate the
* max_memory_ranges variable. This variable replaces MAX_MEMORY_RANGES
* macro used earlier.
*/
static int count_memory_ranges(void)
{
char device_tree[256] = "/proc/device-tree/";
struct dirent *dentry;
DIR *dir;
if ((dir = opendir(device_tree)) == NULL) {
perror(device_tree);
return -1;
}
while ((dentry = readdir(dir)) != NULL) {
if (strncmp(dentry->d_name, "memory@", 7) &&
strcmp(dentry->d_name, "memory"))
continue;
max_memory_ranges++;
}
/* need to add extra region for retained initrd */
if (use_new_dtb) {
max_memory_ranges++;
}
closedir(dir);
return 0;
}
static void cleanup_memory_ranges(void)
{
free(memory_range);
free(base_memory_range);
free(exclude_range);
}
/*
* Allocate memory for various data structures used to hold
* values of different memory ranges
*/
static int alloc_memory_ranges(void)
{
int memory_range_len;
memory_range_len = sizeof(struct memory_range) * max_memory_ranges;
memory_range = malloc(memory_range_len);
if (!memory_range)
return -1;
base_memory_range = malloc(memory_range_len);
if (!base_memory_range)
goto err1;
exclude_range = malloc(memory_range_len);
if (!exclude_range)
goto err1;
memset(memory_range, 0, memory_range_len);
memset(base_memory_range, 0, memory_range_len);
memset(exclude_range, 0, memory_range_len);
return 0;
err1:
fprintf(stderr, "memory range structure allocation failure\n");
cleanup_memory_ranges();
return -1;
}
/* Sort the exclude ranges in memory */
static int sort_ranges(void)
{
int i, j;
uint64_t tstart, tend;
for (i = 0; i < nr_exclude_ranges - 1; i++) {
for (j = 0; j < nr_exclude_ranges - i - 1; j++) {
if (exclude_range[j].start > exclude_range[j+1].start) {
tstart = exclude_range[j].start;
tend = exclude_range[j].end;
exclude_range[j].start = exclude_range[j+1].start;
exclude_range[j].end = exclude_range[j+1].end;
exclude_range[j+1].start = tstart;
exclude_range[j+1].end = tend;
}
}
}
return 0;
}
/* Sort the base ranges in memory - this is useful for ensuring that our
* ranges are in ascending order, even if device-tree read of memory nodes
* is done differently. Also, could be used for other range coalescing later
*/
static int sort_base_ranges(void)
{
int i, j;
unsigned long long tstart, tend;
for (i = 0; i < nr_memory_ranges - 1; i++) {
for (j = 0; j < nr_memory_ranges - i - 1; j++) {
if (base_memory_range[j].start > base_memory_range[j+1].start) {
tstart = base_memory_range[j].start;
tend = base_memory_range[j].end;
base_memory_range[j].start = base_memory_range[j+1].start;
base_memory_range[j].end = base_memory_range[j+1].end;
base_memory_range[j+1].start = tstart;
base_memory_range[j+1].end = tend;
}
}
}
return 0;
}
static int realloc_memory_ranges(void)
{
size_t memory_range_len;
max_memory_ranges++;
memory_range_len = sizeof(struct memory_range) * max_memory_ranges;
memory_range = (struct memory_range *) realloc(memory_range,
memory_range_len);
if (!memory_range)
goto err;
base_memory_range = (struct memory_range *) realloc(base_memory_range,
memory_range_len);
if (!base_memory_range)
goto err;
exclude_range = (struct memory_range *) realloc(exclude_range,
memory_range_len);
if (!exclude_range)
goto err;
usablemem_rgns.ranges = (struct memory_range *)
realloc(usablemem_rgns.ranges,
memory_range_len);
if (!(usablemem_rgns.ranges))
goto err;
return 0;
err:
fprintf(stderr, "memory range structure re-allocation failure\n");
return -1;
}
/* Get base memory ranges */
static int get_base_ranges(void)
{
int local_memory_ranges = 0;
char device_tree[256] = "/proc/device-tree/";
char fname[256];
char buf[MAXBYTES];
DIR *dir, *dmem;
struct dirent *dentry, *mentry;
int n, fd;
if ((dir = opendir(device_tree)) == NULL) {
perror(device_tree);
return -1;
}
while ((dentry = readdir(dir)) != NULL) {
if (strncmp(dentry->d_name, "memory@", 7) &&
strcmp(dentry->d_name, "memory"))
continue;
strcpy(fname, device_tree);
strcat(fname, dentry->d_name);
if ((dmem = opendir(fname)) == NULL) {
perror(fname);
closedir(dir);
return -1;
}
while ((mentry = readdir(dmem)) != NULL) {
unsigned long long start, end;
if (strcmp(mentry->d_name, "reg"))
continue;
strcat(fname, "/reg");
if ((fd = open(fname, O_RDONLY)) < 0) {
perror(fname);
closedir(dmem);
closedir(dir);
return -1;
}
if (read_memory_region_limits(fd, &start, &end) != 0) {
close(fd);
closedir(dmem);
closedir(dir);
return -1;
}
if (local_memory_ranges >= max_memory_ranges) {
if (realloc_memory_ranges() < 0){
close(fd);
break;
}
}
base_memory_range[local_memory_ranges].start = start;
base_memory_range[local_memory_ranges].end = end;
base_memory_range[local_memory_ranges].type = RANGE_RAM;
local_memory_ranges++;
dbgprintf("%016llx-%016llx : %x\n",
base_memory_range[local_memory_ranges-1].start,
base_memory_range[local_memory_ranges-1].end,
base_memory_range[local_memory_ranges-1].type);
close(fd);
}
closedir(dmem);
}
closedir(dir);
nr_memory_ranges = local_memory_ranges;
sort_base_ranges();
memory_max = base_memory_range[nr_memory_ranges - 1].end;
dbgprintf("get base memory ranges:%d\n", nr_memory_ranges);
return 0;
}
static int read_kernel_memory_limit(char *fname, char *buf)
{
FILE *file;
int n;
if (!fname || !buf)
return -1;
file = fopen(fname, "r");
if (file == NULL) {
if (errno != ENOENT) {
perror(fname);
return -1;
}
errno = 0;
/*
* fall through. On older kernel this file
* is not present. Hence return success.
*/
} else {
/* Memory limit property is of u64 type. */
if ((n = fread(&memory_limit, 1, sizeof(uint64_t), file)) < 0) {
perror(fname);
goto err_out;
}
if (n != sizeof(uint64_t)) {
fprintf(stderr, "%s node has invalid size: %d\n",
fname, n);
goto err_out;
}
fclose(file);
}
return 0;
err_out:
fclose(file);
return -1;
}
/* Return 0 if fname/value valid, -1 otherwise */
int get_devtree_value(const char *fname, unsigned long long *value)
{
FILE *file;
char buf[MAXBYTES];
int n = -1;
if ((file = fopen(fname, "r"))) {
n = fread(buf, 1, MAXBYTES, file);
fclose(file);
}
if (n == sizeof(uint32_t))
*value = ((uint32_t *)buf)[0];
else if (n == sizeof(uint64_t))
*value = ((uint64_t *)buf)[0];
else {
fprintf(stderr, "%s node has invalid size: %d\n", fname, n);
return -1;
}
return 0;
}
/* Get devtree details and create exclude_range array
* Also create usablemem_ranges for KEXEC_ON_CRASH
*/
static int get_devtree_details(unsigned long kexec_flags)
{
uint64_t rmo_base;
unsigned long long tce_base;
unsigned int tce_size;
unsigned long long htab_base, htab_size;
unsigned long long kernel_end;
unsigned long long initrd_start, initrd_end;
char buf[MAXBYTES];
char device_tree[256] = "/proc/device-tree/";
char fname[256];
DIR *dir, *cdir;
FILE *file;
struct dirent *dentry;
int n, i = 0;
if ((dir = opendir(device_tree)) == NULL) {
perror(device_tree);
return -1;
}
while ((dentry = readdir(dir)) != NULL) {
if (strncmp(dentry->d_name, "chosen", 6) &&
strncmp(dentry->d_name, "memory@", 7) &&
strncmp(dentry->d_name, "memory", 6) &&
strncmp(dentry->d_name, "pci@", 4) &&
strncmp(dentry->d_name, "rtas", 4))
continue;
strcpy(fname, device_tree);
strcat(fname, dentry->d_name);
if ((cdir = opendir(fname)) == NULL) {
perror(fname);
goto error_opendir;
}
if (strncmp(dentry->d_name, "chosen", 6) == 0) {
/* only reserve kernel region if we are doing a crash kernel */
if (kexec_flags & KEXEC_ON_CRASH) {
strcat(fname, "/linux,kernel-end");
file = fopen(fname, "r");
if (!file) {
perror(fname);
goto error_opencdir;
}
if ((n = fread(buf, 1, MAXBYTES, file)) < 0) {
perror(fname);
goto error_openfile;
}
if (n == sizeof(uint32_t)) {
kernel_end = ((uint32_t *)buf)[0];
} else if (n == sizeof(uint64_t)) {
kernel_end = ((uint64_t *)buf)[0];
} else {
fprintf(stderr, "%s node has invalid size: %d\n", fname, n);
goto error_openfile;
}
fclose(file);
/* Add kernel memory to exclude_range */
exclude_range[i].start = 0x0UL;
exclude_range[i].end = kernel_end;
i++;
if (i >= max_memory_ranges)
realloc_memory_ranges();
memset(fname, 0, sizeof(fname));
sprintf(fname, "%s%s%s",
device_tree, dentry->d_name,
"/linux,crashkernel-base");
file = fopen(fname, "r");
if (!file) {
perror(fname);
goto error_opencdir;
}
if ((n = fread(buf, 1, MAXBYTES, file)) < 0) {
perror(fname);
goto error_openfile;
}
if (n == sizeof(uint32_t)) {
crash_base = ((uint32_t *)buf)[0];
} else if (n == sizeof(uint64_t)) {
crash_base = ((uint64_t *)buf)[0];
} else {
fprintf(stderr, "%s node has invalid size: %d\n", fname, n);
goto error_openfile;
}
fclose(file);
memset(fname, 0, sizeof(fname));
sprintf(fname, "%s%s%s",
device_tree, dentry->d_name,
"/linux,crashkernel-size");
file = fopen(fname, "r");
if (!file) {
perror(fname);
goto error_opencdir;
}
if ((n = fread(buf, 1, MAXBYTES, file)) < 0) {
perror(fname);
goto error_openfile;
}
if (n == sizeof(uint32_t)) {
crash_size = ((uint32_t *)buf)[0];
} else if (n == sizeof(uint64_t)) {
crash_size = ((uint64_t *)buf)[0];
} else {
fprintf(stderr, "%s node has invalid size: %d\n", fname, n);
goto error_openfile;
}
fclose(file);
if (crash_base > mem_min)
mem_min = crash_base;
if (crash_base + crash_size < mem_max)
mem_max = crash_base + crash_size;
#ifndef CONFIG_BOOKE
add_usable_mem_rgns(0, crash_base + crash_size);
/* Reserve the region (KDUMP_BACKUP_LIMIT,crash_base) */
reserve(KDUMP_BACKUP_LIMIT,
crash_base-KDUMP_BACKUP_LIMIT);
#else
add_usable_mem_rgns(crash_base, crash_size);
#endif
}
/*
* Read the first kernel's memory limit.
* If the first kernel is booted with mem= option then
* it would export "linux,memory-limit" file
* reflecting value for the same.
*/
memset(fname, 0, sizeof(fname));
snprintf(fname, sizeof(fname), "%s%s%s", device_tree,
dentry->d_name, "/linux,memory-limit");
if (read_kernel_memory_limit(fname, buf) < 0)
goto error_opencdir;
/* reserve the initrd_start and end locations. */
memset(fname, 0, sizeof(fname));
sprintf(fname, "%s%s%s",
device_tree, dentry->d_name,
"/linux,initrd-start");
file = fopen(fname, "r");
if (!file) {
errno = 0;
initrd_start = 0;
} else {
if ((n = fread(buf, 1, MAXBYTES, file)) < 0) {
perror(fname);
goto error_openfile;
}
if (n == sizeof(uint32_t)) {
initrd_start = ((uint32_t *)buf)[0];
} else if (n == sizeof(uint64_t)) {
initrd_start = ((uint64_t *)buf)[0];
} else {
fprintf(stderr, "%s node has invalid size: %d\n", fname, n);
goto error_openfile;
}
fclose(file);
}
memset(fname, 0, sizeof(fname));
sprintf(fname, "%s%s%s",
device_tree, dentry->d_name,
"/linux,initrd-end");
file = fopen(fname, "r");
if (!file) {
errno = 0;
initrd_end = 0;
} else {
if ((n = fread(buf, 1, MAXBYTES, file)) < 0) {
perror(fname);
goto error_openfile;
}
if (n == sizeof(uint32_t)) {
initrd_end = ((uint32_t *)buf)[0];
} else if (n == sizeof(uint64_t)) {
initrd_end = ((uint64_t *)buf)[0];
} else {
fprintf(stderr, "%s node has invalid size: %d\n", fname, n);
goto error_openfile;
}
fclose(file);
}
if ((initrd_end - initrd_start) != 0 ) {
initrd_base = initrd_start;
initrd_size = initrd_end - initrd_start;
}
if (reuse_initrd) {
/* Add initrd address to exclude_range */
exclude_range[i].start = initrd_start;
exclude_range[i].end = initrd_end;
i++;
if (i >= max_memory_ranges)
realloc_memory_ranges();
}
/* HTAB */
memset(fname, 0, sizeof(fname));
sprintf(fname, "%s%s%s",
device_tree, dentry->d_name,
"/linux,htab-base");
file = fopen(fname, "r");
if (!file) {
closedir(cdir);
if (errno == ENOENT) {
/* Non LPAR */
errno = 0;
continue;
}
perror(fname);
goto error_opendir;
}
if (fread(&htab_base, sizeof(unsigned long), 1, file)
!= 1) {
perror(fname);
goto error_openfile;
}
memset(fname, 0, sizeof(fname));
sprintf(fname, "%s%s%s",
device_tree, dentry->d_name,
"/linux,htab-size");
file = fopen(fname, "r");
if (!file) {
perror(fname);
goto error_opencdir;
}
if (fread(&htab_size, sizeof(unsigned long), 1, file)
!= 1) {
perror(fname);
goto error_openfile;
}
/* Add htab address to exclude_range - NON-LPAR only */
exclude_range[i].start = htab_base;
exclude_range[i].end = htab_base + htab_size;
i++;
if (i >= max_memory_ranges)
realloc_memory_ranges();
} /* chosen */
if (strncmp(dentry->d_name, "rtas", 4) == 0) {
strcat(fname, "/linux,rtas-base");
if ((file = fopen(fname, "r")) == NULL) {
perror(fname);
goto error_opencdir;
}
if (fread(&rtas_base, sizeof(unsigned int), 1, file)
!= 1) {
perror(fname);
goto error_openfile;
}
memset(fname, 0, sizeof(fname));
sprintf(fname, "%s%s%s",
device_tree, dentry->d_name,
"/linux,rtas-size");
if ((file = fopen(fname, "r")) == NULL) {
perror(fname);
goto error_opencdir;
}
if (fread(&rtas_size, sizeof(unsigned int), 1, file)
!= 1) {
perror(fname);
goto error_openfile;
}
closedir(cdir);
/* Add rtas to exclude_range */
exclude_range[i].start = rtas_base;
exclude_range[i].end = rtas_base + rtas_size;
i++;
if (kexec_flags & KEXEC_ON_CRASH)
add_usable_mem_rgns(rtas_base, rtas_size);
} /* rtas */
if (!strncmp(dentry->d_name, "memory@", 7) ||
!strcmp(dentry->d_name, "memory")) {
int fd;
strcat(fname, "/reg");
if ((fd = open(fname, O_RDONLY)) < 0) {
perror(fname);
goto error_opencdir;
}
if (read_memory_region_limits(fd, &rmo_base, &rmo_top) != 0)
goto error_openfile;
if (rmo_top > 0x30000000UL)
rmo_top = 0x30000000UL;
close(fd);
closedir(cdir);
} /* memory */
if (strncmp(dentry->d_name, "pci@", 4) == 0) {
strcat(fname, "/linux,tce-base");
file = fopen(fname, "r");
if (!file) {
closedir(cdir);
if (errno == ENOENT) {
/* Non LPAR */
errno = 0;
continue;
}
perror(fname);
goto error_opendir;
}
if (fread(&tce_base, sizeof(unsigned long), 1, file)
!= 1) {
perror(fname);
goto error_openfile;
}
memset(fname, 0, sizeof(fname));
sprintf(fname, "%s%s%s",
device_tree, dentry->d_name,
"/linux,tce-size");
file = fopen(fname, "r");
if (!file) {
perror(fname);
goto error_opencdir;
}
if (fread(&tce_size, sizeof(unsigned int), 1, file)
!= 1) {
perror(fname);
goto error_openfile;
}
/* Add tce to exclude_range - NON-LPAR only */
exclude_range[i].start = tce_base;
exclude_range[i].end = tce_base + tce_size;
i++;
if (kexec_flags & KEXEC_ON_CRASH)
add_usable_mem_rgns(tce_base, tce_size);
closedir(cdir);
} /* pci */
}
closedir(dir);
nr_exclude_ranges = i;
sort_ranges();
int k;
for (k = 0; k < i; k++)
dbgprintf("exclude_range sorted exclude_range[%d] "
"start:%llx, end:%llx\n", k, exclude_range[k].start,
exclude_range[k].end);
return 0;
error_openfile:
fclose(file);
error_opencdir:
closedir(cdir);
error_opendir:
closedir(dir);
return -1;
}
/* Setup a sorted list of memory ranges. */
static int setup_memory_ranges(unsigned long kexec_flags)
{
int i, j = 0;
/* Get the base list of memory ranges from /proc/device-tree/memory
* nodes. Build list of ranges to be excluded from valid memory
*/
if (get_base_ranges())
goto out;
if (get_devtree_details(kexec_flags))
goto out;
for (i = 0; i < nr_exclude_ranges; i++) {
/* If first exclude range does not start with 0, include the
* first hole of valid memory from 0 - exclude_range[0].start
*/
if (i == 0) {
if (exclude_range[i].start != 0) {
memory_range[j].start = 0;
memory_range[j].end = exclude_range[i].start - 1;
memory_range[j].type = RANGE_RAM;
j++;
}
} /* i == 0 */
/* If the last exclude range does not end at memory_max, include
* the last hole of valid memory from exclude_range[last].end -
* memory_max
*/
if (i == nr_exclude_ranges - 1) {
if (exclude_range[i].end < memory_max) {
memory_range[j].start = exclude_range[i].end + 1;
memory_range[j].end = memory_max;
memory_range[j].type = RANGE_RAM;
j++;
/* Limit the end to rmo_top */
if (memory_range[j-1].start >= rmo_top) {
j--;
break;
}
if ((memory_range[j-1].start < rmo_top) &&
(memory_range[j-1].end >= rmo_top)) {
memory_range[j-1].end = rmo_top;
break;
}
continue;
}
} /* i == nr_exclude_ranges - 1 */
/* contiguous exclude ranges - skip */
if (exclude_range[i+1].start == exclude_range[i].end + 1)
continue;
memory_range[j].start = exclude_range[i].end + 1;
memory_range[j].end = exclude_range[i+1].start - 1;
memory_range[j].type = RANGE_RAM;
j++;
/* Limit range to rmo_top */
if (memory_range[j-1].start >= rmo_top) {
j--;
break;
}
if ((memory_range[j-1].start < rmo_top) &&
(memory_range[j-1].end >= rmo_top)) {
memory_range[j-1].end = rmo_top;
break;
}
}
/* fixup in case we have no exclude regions */
if (!j) {
memory_range[0].start = base_memory_range[0].start;
memory_range[0].end = rmo_top;
memory_range[0].type = RANGE_RAM;
nr_memory_ranges = 1;
} else
nr_memory_ranges = j;
int k;
for (k = 0; k < j; k++)
dbgprintf("setup_memory_ranges memory_range[%d] "
"start:%llx, end:%llx\n", k, memory_range[k].start,
memory_range[k].end);
return 0;
out:
cleanup_memory_ranges();
return -1;
}
/* Return a list of valid memory ranges */
int get_memory_ranges_dt(struct memory_range **range, int *ranges,
unsigned long kexec_flags)
{
if (count_memory_ranges())
return -1;
if (alloc_memory_ranges())
return -1;
if (setup_memory_ranges(kexec_flags))
return -1;
*range = memory_range;
*ranges = nr_memory_ranges;
return 0;
}
#endif
/* Return a sorted list of memory ranges. */
int get_memory_ranges(struct memory_range **range, int *ranges,
unsigned long kexec_flags)
{
int res = 0;
res = init_memory_region_info();
if (res != 0)
return res;
#ifdef WITH_GAMECUBE
return get_memory_ranges_gc(range, ranges, kexec_flags);
#else
return get_memory_ranges_dt(range, ranges, kexec_flags);
#endif
}
struct file_type file_type[] = {
{"elf-ppc", elf_ppc_probe, elf_ppc_load, elf_ppc_usage},
{"dol-ppc", dol_ppc_probe, dol_ppc_load, dol_ppc_usage},
{"uImage-ppc", uImage_ppc_probe, uImage_ppc_load, uImage_ppc_usage },
};
int file_types = sizeof(file_type) / sizeof(file_type[0]);
void arch_usage(void)
{
}
int arch_process_options(int argc, char **argv)
{
return 0;
}
const struct arch_map_entry arches[] = {
/* For compatibility with older patches
* use KEXEC_ARCH_DEFAULT instead of KEXEC_ARCH_PPC here.
*/
{ "ppc", KEXEC_ARCH_DEFAULT },
{ NULL, 0 },
};
int arch_compat_trampoline(struct kexec_info *UNUSED(info))
{
return 0;
}
void arch_update_purgatory(struct kexec_info *UNUSED(info))
{
}
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