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// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright (c) 2011 Sebastian Andrzej Siewior <bigeasy@linutronix.de>
*/
#include <common.h>
#include <env.h>
#include <image.h>
#include <image-android-dt.h>
#include <android_image.h>
#include <malloc.h>
#include <errno.h>
#include <asm/unaligned.h>
#include <mapmem.h>
#include <linux/libfdt.h>
#define ANDROID_IMAGE_DEFAULT_KERNEL_ADDR 0x10008000
static char andr_tmp_str[ANDR_BOOT_ARGS_SIZE + 1];
static void android_boot_image_v0_v1_v2_parse_hdr(const struct andr_boot_img_hdr_v0 *hdr,
struct andr_image_data *data)
{
ulong end;
data->image_name = hdr->name;
data->kcmdline = hdr->cmdline;
data->kernel_addr = hdr->kernel_addr;
data->ramdisk_addr = hdr->ramdisk_addr;
data->header_version = hdr->header_version;
data->dtb_load_addr = hdr->dtb_addr;
end = (ulong)hdr;
/*
* The header takes a full page, the remaining components are aligned
* on page boundary
*/
end += hdr->page_size;
data->kernel_ptr = end;
data->kernel_size = hdr->kernel_size;
end += ALIGN(hdr->kernel_size, hdr->page_size);
data->ramdisk_ptr = end;
data->ramdisk_size = hdr->ramdisk_size;
end += ALIGN(hdr->ramdisk_size, hdr->page_size);
data->second_ptr = end;
data->second_size = hdr->second_size;
end += ALIGN(hdr->second_size, hdr->page_size);
if (hdr->header_version >= 1) {
data->recovery_dtbo_ptr = end;
data->recovery_dtbo_size = hdr->recovery_dtbo_size;
end += ALIGN(hdr->recovery_dtbo_size, hdr->page_size);
}
if (hdr->header_version >= 2) {
data->dtb_ptr = end;
data->dtb_size = hdr->dtb_size;
end += ALIGN(hdr->dtb_size, hdr->page_size);
}
data->boot_img_total_size = end - (ulong)hdr;
}
bool android_image_get_data(const void *boot_hdr, const void *vendor_boot_hdr,
struct andr_image_data *data)
{
if (!boot_hdr || !data) {
printf("boot_hdr or data params can't be NULL\n");
return false;
}
if (!is_android_boot_image_header(boot_hdr)) {
printf("Incorrect boot image header\n");
return false;
}
if (((struct andr_boot_img_hdr_v0 *)boot_hdr)->header_version > 2)
printf("Only boot image header version 2 and below are supported\n");
else
android_boot_image_v0_v1_v2_parse_hdr(boot_hdr, data);
return true;
}
static ulong android_image_get_kernel_addr(struct andr_image_data *img_data)
{
/*
* All the Android tools that generate a boot.img use this
* address as the default.
*
* Even though it doesn't really make a lot of sense, and it
* might be valid on some platforms, we treat that adress as
* the default value for this field, and try to execute the
* kernel in place in such a case.
*
* Otherwise, we will return the actual value set by the user.
*/
if (img_data->kernel_addr == ANDROID_IMAGE_DEFAULT_KERNEL_ADDR)
return img_data->kernel_ptr;
/*
* abootimg creates images where all load addresses are 0
* and we need to fix them.
*/
if (img_data->kernel_addr == 0 && img_data->ramdisk_addr == 0)
return env_get_ulong("kernel_addr_r", 16, 0);
return img_data->kernel_addr;
}
/**
* android_image_get_kernel() - processes kernel part of Android boot images
* @hdr: Pointer to boot image header, which is at the start
* of the image.
* @vendor_boot_img: Pointer to vendor boot image header, which is at the
* start of the image.
* @verify: Checksum verification flag. Currently unimplemented.
* @os_data: Pointer to a ulong variable, will hold os data start
* address.
* @os_len: Pointer to a ulong variable, will hold os data length.
*
* This function returns the os image's start address and length. Also,
* it appends the kernel command line to the bootargs env variable.
*
* Return: Zero, os start address and length on success,
* otherwise on failure.
*/
int android_image_get_kernel(const struct andr_boot_img_hdr_v0 *hdr,
const void *vendor_boot_img, int verify,
ulong *os_data, ulong *os_len)
{
struct andr_image_data img_data = {0};
u32 kernel_addr;
const struct legacy_img_hdr *ihdr;
if (!android_image_get_data(hdr, vendor_boot_img, &img_data))
return -EINVAL;
kernel_addr = android_image_get_kernel_addr(&img_data);
ihdr = (const struct legacy_img_hdr *)img_data.kernel_ptr;
/*
* Not all Android tools use the id field for signing the image with
* sha1 (or anything) so we don't check it. It is not obvious that the
* string is null terminated so we take care of this.
*/
strlcpy(andr_tmp_str, img_data.image_name, ANDR_BOOT_NAME_SIZE);
andr_tmp_str[ANDR_BOOT_NAME_SIZE] = '\0';
if (strlen(andr_tmp_str))
printf("Android's image name: %s\n", andr_tmp_str);
printf("Kernel load addr 0x%08x size %u KiB\n",
kernel_addr, DIV_ROUND_UP(img_data.kernel_size, 1024));
int len = 0;
if (*img_data.kcmdline) {
printf("Kernel command line: %s\n", img_data.kcmdline);
len += strlen(img_data.kcmdline);
}
char *bootargs = env_get("bootargs");
if (bootargs)
len += strlen(bootargs);
char *newbootargs = malloc(len + 2);
if (!newbootargs) {
puts("Error: malloc in android_image_get_kernel failed!\n");
return -ENOMEM;
}
*newbootargs = '\0';
if (bootargs) {
strcpy(newbootargs, bootargs);
strcat(newbootargs, " ");
}
if (*img_data.kcmdline)
strcat(newbootargs, img_data.kcmdline);
env_set("bootargs", newbootargs);
if (os_data) {
if (image_get_magic(ihdr) == IH_MAGIC) {
*os_data = image_get_data(ihdr);
} else {
*os_data = img_data.kernel_ptr;
}
}
if (os_len) {
if (image_get_magic(ihdr) == IH_MAGIC)
*os_len = image_get_data_size(ihdr);
else
*os_len = img_data.kernel_size;
}
return 0;
}
bool is_android_boot_image_header(const struct andr_boot_img_hdr_v0 *hdr)
{
return !memcmp(ANDR_BOOT_MAGIC, hdr, ANDR_BOOT_MAGIC_SIZE);
}
ulong android_image_get_end(const struct andr_boot_img_hdr_v0 *hdr,
const void *vendor_boot_img)
{
struct andr_image_data img_data;
if (!android_image_get_data(hdr, vendor_boot_img, &img_data))
return -EINVAL;
if (img_data.header_version > 2)
return 0;
return img_data.boot_img_total_size;
}
ulong android_image_get_kload(const struct andr_boot_img_hdr_v0 *hdr,
const void *vendor_boot_img)
{
struct andr_image_data img_data;
if (!android_image_get_data(hdr, vendor_boot_img, &img_data))
return -EINVAL;
return android_image_get_kernel_addr(&img_data);
}
ulong android_image_get_kcomp(const struct andr_boot_img_hdr_v0 *hdr,
const void *vendor_boot_img)
{
struct andr_image_data img_data;
const void *p;
if (!android_image_get_data(hdr, vendor_boot_img, &img_data))
return -EINVAL;
p = (const void *)img_data.kernel_ptr;
if (image_get_magic((struct legacy_img_hdr *)p) == IH_MAGIC)
return image_get_comp((struct legacy_img_hdr *)p);
else if (get_unaligned_le32(p) == LZ4F_MAGIC)
return IH_COMP_LZ4;
else
return image_decomp_type(p, sizeof(u32));
}
int android_image_get_ramdisk(const struct andr_boot_img_hdr_v0 *hdr,
const void *vendor_boot_img, ulong *rd_data, ulong *rd_len)
{
struct andr_image_data img_data = {0};
if (!android_image_get_data(hdr, vendor_boot_img, &img_data))
return -EINVAL;
if (!img_data.ramdisk_size) {
*rd_data = *rd_len = 0;
return -1;
}
printf("RAM disk load addr 0x%08lx size %u KiB\n",
img_data.ramdisk_ptr, DIV_ROUND_UP(img_data.ramdisk_size, 1024));
*rd_data = img_data.ramdisk_ptr;
*rd_len = img_data.ramdisk_size;
return 0;
}
int android_image_get_second(const struct andr_boot_img_hdr_v0 *hdr,
ulong *second_data, ulong *second_len)
{
struct andr_image_data img_data;
if (!android_image_get_data(hdr, NULL, &img_data))
return -EINVAL;
if (!img_data.second_size) {
*second_data = *second_len = 0;
return -1;
}
*second_data = img_data.second_ptr;
printf("second address is 0x%lx\n",*second_data);
*second_len = img_data.second_size;
return 0;
}
/**
* android_image_get_dtbo() - Get address and size of recovery DTBO image.
* @hdr_addr: Boot image header address
* @addr: If not NULL, will contain address of recovery DTBO image
* @size: If not NULL, will contain size of recovery DTBO image
*
* Get the address and size of DTBO image in "Recovery DTBO" area of Android
* Boot Image in RAM. The format of this image is Android DTBO (see
* corresponding "DTB/DTBO Partitions" AOSP documentation for details). Once
* the address is obtained from this function, one can use 'adtimg' U-Boot
* command or android_dt_*() functions to extract desired DTBO blob.
*
* This DTBO (included in boot image) is only needed for non-A/B devices, and it
* only can be found in recovery image. On A/B devices we can always rely on
* "dtbo" partition. See "Including DTBO in Recovery for Non-A/B Devices" in
* AOSP documentation for details.
*
* Return: true on success or false on error.
*/
bool android_image_get_dtbo(ulong hdr_addr, ulong *addr, u32 *size)
{
const struct andr_boot_img_hdr_v0 *hdr;
ulong dtbo_img_addr;
bool ret = true;
hdr = map_sysmem(hdr_addr, sizeof(*hdr));
if (!is_android_boot_image_header(hdr)) {
printf("Error: Boot Image header is incorrect\n");
ret = false;
goto exit;
}
if (hdr->header_version != 1 && hdr->header_version != 2) {
printf("Error: header version must be >= 1 and <= 2 to get dtbo\n");
ret = false;
goto exit;
}
if (hdr->recovery_dtbo_size == 0) {
printf("Error: recovery_dtbo_size is 0\n");
ret = false;
goto exit;
}
/* Calculate the address of DTB area in boot image */
dtbo_img_addr = hdr_addr;
dtbo_img_addr += hdr->page_size;
dtbo_img_addr += ALIGN(hdr->kernel_size, hdr->page_size);
dtbo_img_addr += ALIGN(hdr->ramdisk_size, hdr->page_size);
dtbo_img_addr += ALIGN(hdr->second_size, hdr->page_size);
if (addr)
*addr = dtbo_img_addr;
if (size)
*size = hdr->recovery_dtbo_size;
exit:
unmap_sysmem(hdr);
return ret;
}
/**
* android_image_get_dtb_img_addr() - Get the address of DTB area in boot image.
* @hdr_addr: Boot image header address
* @vhdr_addr: Vendor Boot image header address
* @addr: Will contain the address of DTB area in boot image
*
* Return: true on success or false on fail.
*/
static bool android_image_get_dtb_img_addr(ulong hdr_addr, ulong vhdr_addr, ulong *addr)
{
const struct andr_boot_img_hdr_v0 *hdr;
ulong dtb_img_addr;
bool ret = true;
hdr = map_sysmem(hdr_addr, sizeof(*hdr));
if (!is_android_boot_image_header(hdr)) {
printf("Error: Boot Image header is incorrect\n");
ret = false;
goto exit;
}
if (hdr->header_version < 2) {
printf("Error: header_version must be >= 2 to get dtb\n");
ret = false;
goto exit;
}
if (hdr->dtb_size == 0) {
printf("Error: dtb_size is 0\n");
ret = false;
goto exit;
}
/* Calculate the address of DTB area in boot image */
dtb_img_addr = hdr_addr;
dtb_img_addr += hdr->page_size;
dtb_img_addr += ALIGN(hdr->kernel_size, hdr->page_size);
dtb_img_addr += ALIGN(hdr->ramdisk_size, hdr->page_size);
dtb_img_addr += ALIGN(hdr->second_size, hdr->page_size);
dtb_img_addr += ALIGN(hdr->recovery_dtbo_size, hdr->page_size);
*addr = dtb_img_addr;
exit:
unmap_sysmem(hdr);
return ret;
}
/**
* android_image_get_dtb_by_index() - Get address and size of blob in DTB area.
* @hdr_addr: Boot image header address
* @vendor_boot_img: Pointer to vendor boot image header, which is at the start of the image.
* @index: Index of desired DTB in DTB area (starting from 0)
* @addr: If not NULL, will contain address to specified DTB
* @size: If not NULL, will contain size of specified DTB
*
* Get the address and size of DTB blob by its index in DTB area of Android
* Boot Image in RAM.
*
* Return: true on success or false on error.
*/
bool android_image_get_dtb_by_index(ulong hdr_addr, ulong vendor_boot_img,
u32 index, ulong *addr, u32 *size)
{
struct andr_image_data img_data;
const struct andr_boot_img_hdr_v0 *hdr;
const struct andr_vnd_boot_img_hdr *vhdr;
hdr = map_sysmem(hdr_addr, sizeof(*hdr));
if (vendor_boot_img != -1)
vhdr = map_sysmem(vendor_boot_img, sizeof(*vhdr));
if (!android_image_get_data(hdr, vhdr, &img_data)) {
if (vendor_boot_img != -1)
unmap_sysmem(vhdr);
unmap_sysmem(hdr);
return false;
}
if (vendor_boot_img != -1)
unmap_sysmem(vhdr);
unmap_sysmem(hdr);
ulong dtb_img_addr; /* address of DTB part in boot image */
u32 dtb_img_size; /* size of DTB payload in boot image */
ulong dtb_addr; /* address of DTB blob with specified index */
u32 i; /* index iterator */
android_image_get_dtb_img_addr(hdr_addr, vendor_boot_img, &dtb_img_addr);
/* Check if DTB area of boot image is in DTBO format */
if (android_dt_check_header(dtb_img_addr)) {
return android_dt_get_fdt_by_index(dtb_img_addr, index, addr,
size);
}
/* Find out the address of DTB with specified index in concat blobs */
dtb_img_size = img_data.dtb_size;
i = 0;
dtb_addr = dtb_img_addr;
while (dtb_addr < dtb_img_addr + dtb_img_size) {
const struct fdt_header *fdt;
u32 dtb_size;
fdt = map_sysmem(dtb_addr, sizeof(*fdt));
if (fdt_check_header(fdt) != 0) {
unmap_sysmem(fdt);
printf("Error: Invalid FDT header for index %u\n", i);
return false;
}
dtb_size = fdt_totalsize(fdt);
unmap_sysmem(fdt);
if (i == index) {
if (size)
*size = dtb_size;
if (addr)
*addr = dtb_addr;
return true;
}
dtb_addr += dtb_size;
++i;
}
printf("Error: Index is out of bounds (%u/%u)\n", index, i);
return false;
}
#if !defined(CONFIG_SPL_BUILD)
/**
* android_print_contents - prints out the contents of the Android format image
* @hdr: pointer to the Android format image header
*
* android_print_contents() formats a multi line Android image contents
* description.
* The routine prints out Android image properties
*
* returns:
* no returned results
*/
void android_print_contents(const struct andr_boot_img_hdr_v0 *hdr)
{
if (hdr->header_version >= 3) {
printf("Content print is not supported for boot image header version > 2");
return;
}
const char * const p = IMAGE_INDENT_STRING;
/* os_version = ver << 11 | lvl */
u32 os_ver = hdr->os_version >> 11;
u32 os_lvl = hdr->os_version & ((1U << 11) - 1);
printf("%skernel size: %x\n", p, hdr->kernel_size);
printf("%skernel address: %x\n", p, hdr->kernel_addr);
printf("%sramdisk size: %x\n", p, hdr->ramdisk_size);
printf("%sramdisk address: %x\n", p, hdr->ramdisk_addr);
printf("%ssecond size: %x\n", p, hdr->second_size);
printf("%ssecond address: %x\n", p, hdr->second_addr);
printf("%stags address: %x\n", p, hdr->tags_addr);
printf("%spage size: %x\n", p, hdr->page_size);
/* ver = A << 14 | B << 7 | C (7 bits for each of A, B, C)
* lvl = ((Y - 2000) & 127) << 4 | M (7 bits for Y, 4 bits for M) */
printf("%sos_version: %x (ver: %u.%u.%u, level: %u.%u)\n",
p, hdr->os_version,
(os_ver >> 7) & 0x7F, (os_ver >> 14) & 0x7F, os_ver & 0x7F,
(os_lvl >> 4) + 2000, os_lvl & 0x0F);
printf("%sname: %s\n", p, hdr->name);
printf("%scmdline: %s\n", p, hdr->cmdline);
printf("%sheader_version: %d\n", p, hdr->header_version);
if (hdr->header_version >= 1) {
printf("%srecovery dtbo size: %x\n", p,
hdr->recovery_dtbo_size);
printf("%srecovery dtbo offset: %llx\n", p,
hdr->recovery_dtbo_offset);
printf("%sheader size: %x\n", p,
hdr->header_size);
}
if (hdr->header_version == 2) {
printf("%sdtb size: %x\n", p, hdr->dtb_size);
printf("%sdtb addr: %llx\n", p, hdr->dtb_addr);
}
}
/**
* android_image_print_dtb_info - Print info for one DTB blob in DTB area.
* @fdt: DTB header
* @index: Number of DTB blob in DTB area.
*
* Return: true on success or false on error.
*/
static bool android_image_print_dtb_info(const struct fdt_header *fdt,
u32 index)
{
int root_node_off;
u32 fdt_size;
const char *model;
const char *compatible;
root_node_off = fdt_path_offset(fdt, "/");
if (root_node_off < 0) {
printf("Error: Root node not found\n");
return false;
}
fdt_size = fdt_totalsize(fdt);
compatible = fdt_getprop(fdt, root_node_off, "compatible",
NULL);
model = fdt_getprop(fdt, root_node_off, "model", NULL);
printf(" - DTB #%u:\n", index);
printf(" (DTB)size = %d\n", fdt_size);
printf(" (DTB)model = %s\n", model ? model : "(unknown)");
printf(" (DTB)compatible = %s\n",
compatible ? compatible : "(unknown)");
return true;
}
/**
* android_image_print_dtb_contents() - Print info for DTB blobs in DTB area.
* @hdr_addr: Boot image header address
*
* DTB payload in Android Boot Image v2+ can be in one of following formats:
* 1. Concatenated DTB blobs
* 2. Android DTBO format (see CONFIG_CMD_ADTIMG for details)
*
* This function does next:
* 1. Prints out the format used in DTB area
* 2. Iterates over all DTB blobs in DTB area and prints out the info for
* each blob.
*
* Return: true on success or false on error.
*/
bool android_image_print_dtb_contents(ulong hdr_addr)
{
const struct andr_boot_img_hdr_v0 *hdr;
bool res;
ulong dtb_img_addr; /* address of DTB part in boot image */
u32 dtb_img_size; /* size of DTB payload in boot image */
ulong dtb_addr; /* address of DTB blob with specified index */
u32 i; /* index iterator */
res = android_image_get_dtb_img_addr(hdr_addr, 0, &dtb_img_addr);
if (!res)
return false;
/* Check if DTB area of boot image is in DTBO format */
if (android_dt_check_header(dtb_img_addr)) {
printf("## DTB area contents (DTBO format):\n");
android_dt_print_contents(dtb_img_addr);
return true;
}
printf("## DTB area contents (concat format):\n");
/* Iterate over concatenated DTB blobs */
hdr = map_sysmem(hdr_addr, sizeof(*hdr));
dtb_img_size = hdr->dtb_size;
unmap_sysmem(hdr);
i = 0;
dtb_addr = dtb_img_addr;
while (dtb_addr < dtb_img_addr + dtb_img_size) {
const struct fdt_header *fdt;
u32 dtb_size;
fdt = map_sysmem(dtb_addr, sizeof(*fdt));
if (fdt_check_header(fdt) != 0) {
unmap_sysmem(fdt);
printf("Error: Invalid FDT header for index %u\n", i);
return false;
}
res = android_image_print_dtb_info(fdt, i);
if (!res) {
unmap_sysmem(fdt);
return false;
}
dtb_size = fdt_totalsize(fdt);
unmap_sysmem(fdt);
dtb_addr += dtb_size;
++i;
}
return true;
}
#endif
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