Magisk/native/jni/boot/bootimg.hpp

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#pragma once
#include <stdint.h>
#include <utility>
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#include <bitset>
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#include "format.hpp"
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/******************
* Special Headers
*****************/
struct mtk_hdr {
uint32_t magic; /* MTK magic */
uint32_t size; /* Size of the content */
char name[32]; /* The type of the header */
char padding[472]; /* Padding to 512 bytes */
} __attribute__((packed));
struct dhtb_hdr {
char magic[8]; /* DHTB magic */
uint8_t checksum[40]; /* Payload SHA256, whole image + SEANDROIDENFORCE + 0xFFFFFFFF */
uint32_t size; /* Payload size, whole image + SEANDROIDENFORCE + 0xFFFFFFFF */
char padding[460]; /* Padding to 512 bytes */
} __attribute__((packed));
struct blob_hdr {
char secure_magic[20]; /* "-SIGNED-BY-SIGNBLOB-" */
uint32_t datalen; /* 0x00000000 */
uint32_t signature; /* 0x00000000 */
char magic[16]; /* "MSM-RADIO-UPDATE" */
uint32_t hdr_version; /* 0x00010000 */
uint32_t hdr_size; /* Size of header */
uint32_t part_offset; /* Same as size */
uint32_t num_parts; /* Number of partitions */
uint32_t unknown[7]; /* All 0x00000000 */
char name[4]; /* Name of partition */
uint32_t offset; /* offset in blob where this partition starts */
uint32_t size; /* Size of data */
uint32_t version; /* 0x00000001 */
} __attribute__((packed));
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struct zimage_hdr {
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uint32_t code[9];
uint32_t magic; /* zImage magic */
uint32_t start; /* absolute load/run zImage address */
uint32_t end; /* zImage end address */
uint32_t endian; /* endianess flag */
// There could be more fields, but we don't care
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} __attribute__((packed));
/**************
* AVB Headers
**************/
#define AVB_FOOTER_MAGIC_LEN 4
#define AVB_MAGIC_LEN 4
#define AVB_RELEASE_STRING_SIZE 48
// https://android.googlesource.com/platform/external/avb/+/refs/heads/android11-release/libavb/avb_footer.h
struct AvbFooter {
uint8_t magic[AVB_FOOTER_MAGIC_LEN];
uint32_t version_major;
uint32_t version_minor;
uint64_t original_image_size;
uint64_t vbmeta_offset;
uint64_t vbmeta_size;
uint8_t reserved[28];
} __attribute__((packed));
// https://android.googlesource.com/platform/external/avb/+/refs/heads/android11-release/libavb/avb_vbmeta_image.h
struct AvbVBMetaImageHeader {
uint8_t magic[AVB_MAGIC_LEN];
uint32_t required_libavb_version_major;
uint32_t required_libavb_version_minor;
uint64_t authentication_data_block_size;
uint64_t auxiliary_data_block_size;
uint32_t algorithm_type;
uint64_t hash_offset;
uint64_t hash_size;
uint64_t signature_offset;
uint64_t signature_size;
uint64_t public_key_offset;
uint64_t public_key_size;
uint64_t public_key_metadata_offset;
uint64_t public_key_metadata_size;
uint64_t descriptors_offset;
uint64_t descriptors_size;
uint64_t rollback_index;
uint32_t flags;
uint32_t rollback_index_location;
uint8_t release_string[AVB_RELEASE_STRING_SIZE];
uint8_t reserved[80];
} __attribute__((packed));
/*********************
* Boot Image Headers
*********************/
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// https://android.googlesource.com/platform/system/tools/mkbootimg/+/refs/heads/android12-release/include/bootimg/bootimg.h
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#define BOOT_MAGIC_SIZE 8
#define BOOT_NAME_SIZE 16
#define BOOT_ID_SIZE 32
#define BOOT_ARGS_SIZE 512
#define BOOT_EXTRA_ARGS_SIZE 1024
#define VENDOR_BOOT_ARGS_SIZE 2048
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#define VENDOR_RAMDISK_NAME_SIZE 32
#define VENDOR_RAMDISK_TABLE_ENTRY_BOARD_ID_SIZE 16
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/* When the boot image header has a version of 0 - 2, the structure of the boot
* image is as follows:
*
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* +-----------------+
* | boot header | 1 page
* +-----------------+
* | kernel | n pages
* +-----------------+
* | ramdisk | m pages
* +-----------------+
* | second stage | o pages
* +-----------------+
* | extra blob | x pages (non standard)
* +-----------------+
* | recovery dtbo | p pages
* +-----------------+
* | dtb | q pages
* +-----------------+
*
* n = (kernel_size + page_size - 1) / page_size
* m = (ramdisk_size + page_size - 1) / page_size
* o = (second_size + page_size - 1) / page_size
* p = (recovery_dtbo_size + page_size - 1) / page_size
* q = (dtb_size + page_size - 1) / page_size
* x = (extra_size + page_size - 1) / page_size
*/
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struct boot_img_hdr_v0_common {
char magic[BOOT_MAGIC_SIZE];
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uint32_t kernel_size; /* size in bytes */
uint32_t kernel_addr; /* physical load addr */
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uint32_t ramdisk_size; /* size in bytes */
uint32_t ramdisk_addr; /* physical load addr */
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uint32_t second_size; /* size in bytes */
uint32_t second_addr; /* physical load addr */
} __attribute__((packed));
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struct boot_img_hdr_v0 : public boot_img_hdr_v0_common {
uint32_t tags_addr; /* physical addr for kernel tags */
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// In AOSP headers, this field is used for page size.
// For Samsung PXA headers, the use of this field is unknown;
// however, its value is something unrealistic to be treated as page size.
// We use this fact to determine whether this is an AOSP or PXA header.
union {
uint32_t unknown;
uint32_t page_size; /* flash page size we assume */
};
// In header v1, this field is used for header version
// However, on some devices like Samsung, this field is used to store DTB
// We treat this field differently based on its value
union {
uint32_t header_version; /* the version of the header */
uint32_t extra_size; /* extra blob size in bytes */
};
// Operating system version and security patch level.
// For version "A.B.C" and patch level "Y-M-D":
// (7 bits for each of A, B, C; 7 bits for (Y-2000), 4 bits for M)
// os_version = A[31:25] B[24:18] C[17:11] (Y-2000)[10:4] M[3:0]
uint32_t os_version;
char name[BOOT_NAME_SIZE]; /* asciiz product name */
char cmdline[BOOT_ARGS_SIZE];
char id[BOOT_ID_SIZE]; /* timestamp / checksum / sha1 / etc */
// Supplemental command line data; kept here to maintain
// binary compatibility with older versions of mkbootimg.
char extra_cmdline[BOOT_EXTRA_ARGS_SIZE];
} __attribute__((packed));
struct boot_img_hdr_v1 : public boot_img_hdr_v0 {
uint32_t recovery_dtbo_size; /* size in bytes for recovery DTBO/ACPIO image */
uint64_t recovery_dtbo_offset; /* offset to recovery dtbo/acpio in boot image */
uint32_t header_size;
} __attribute__((packed));
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struct boot_img_hdr_v2 : public boot_img_hdr_v1 {
uint32_t dtb_size; /* size in bytes for DTB image */
uint64_t dtb_addr; /* physical load address for DTB image */
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} __attribute__((packed));
// Special Samsung header
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struct boot_img_hdr_pxa : public boot_img_hdr_v0_common {
uint32_t extra_size; /* extra blob size in bytes */
uint32_t unknown;
uint32_t tags_addr; /* physical addr for kernel tags */
uint32_t page_size; /* flash page size we assume */
char name[24]; /* asciiz product name */
char cmdline[BOOT_ARGS_SIZE];
char id[BOOT_ID_SIZE]; /* timestamp / checksum / sha1 / etc */
char extra_cmdline[BOOT_EXTRA_ARGS_SIZE];
} __attribute__((packed));
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/* When the boot image header has a version of 3 - 4, the structure of the boot
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* image is as follows:
*
* +---------------------+
* | boot header | 4096 bytes
* +---------------------+
* | kernel | m pages
* +---------------------+
* | ramdisk | n pages
* +---------------------+
* | boot signature | g pages
* +---------------------+
*
* m = (kernel_size + 4096 - 1) / 4096
* n = (ramdisk_size + 4096 - 1) / 4096
* g = (signature_size + 4096 - 1) / 4096
*
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* Page size is fixed at 4096 bytes.
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*
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* The structure of the vendor boot image is as follows:
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*
* +------------------------+
* | vendor boot header | o pages
* +------------------------+
* | vendor ramdisk section | p pages
* +------------------------+
* | dtb | q pages
* +------------------------+
* | vendor ramdisk table | r pages
* +------------------------+
* | bootconfig | s pages
* +------------------------+
*
* o = (2128 + page_size - 1) / page_size
* p = (vendor_ramdisk_size + page_size - 1) / page_size
* q = (dtb_size + page_size - 1) / page_size
* r = (vendor_ramdisk_table_size + page_size - 1) / page_size
* s = (vendor_bootconfig_size + page_size - 1) / page_size
*
* Note that in version 4 of the vendor boot image, multiple vendor ramdisks can
* be included in the vendor boot image. The bootloader can select a subset of
* ramdisks to load at runtime. To help the bootloader select the ramdisks, each
* ramdisk is tagged with a type tag and a set of hardware identifiers
* describing the board, soc or platform that this ramdisk is intended for.
*
* The vendor ramdisk section is consist of multiple ramdisk images concatenated
* one after another, and vendor_ramdisk_size is the size of the section, which
* is the total size of all the ramdisks included in the vendor boot image.
*
* The vendor ramdisk table holds the size, offset, type, name and hardware
* identifiers of each ramdisk. The type field denotes the type of its content.
* The vendor ramdisk names are unique. The hardware identifiers are specified
* in the board_id field in each table entry. The board_id field is consist of a
* vector of unsigned integer words, and the encoding scheme is defined by the
* hardware vendor.
*
* For the different type of ramdisks, there are:
* - VENDOR_RAMDISK_TYPE_NONE indicates the value is unspecified.
* - VENDOR_RAMDISK_TYPE_PLATFORM ramdisks contain platform specific bits, so
* the bootloader should always load these into memory.
* - VENDOR_RAMDISK_TYPE_RECOVERY ramdisks contain recovery resources, so
* the bootloader should load these when booting into recovery.
* - VENDOR_RAMDISK_TYPE_DLKM ramdisks contain dynamic loadable kernel
* modules.
*
* Version 4 of the vendor boot image also adds a bootconfig section to the end
* of the image. This section contains Boot Configuration parameters known at
* build time. The bootloader is responsible for placing this section directly
* after the generic ramdisk, followed by the bootconfig trailer, before
* entering the kernel.
*/
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struct boot_img_hdr_v3 {
uint8_t magic[BOOT_MAGIC_SIZE];
uint32_t kernel_size; /* size in bytes */
uint32_t ramdisk_size; /* size in bytes */
uint32_t os_version;
uint32_t header_size;
uint32_t reserved[4];
uint32_t header_version;
char cmdline[BOOT_ARGS_SIZE + BOOT_EXTRA_ARGS_SIZE];
} __attribute__((packed));
struct boot_img_hdr_vnd_v3 {
// Must be VENDOR_BOOT_MAGIC.
uint8_t magic[BOOT_MAGIC_SIZE];
// Version of the vendor boot image header.
uint32_t header_version;
uint32_t page_size; /* flash page size we assume */
uint32_t kernel_addr; /* physical load addr */
uint32_t ramdisk_addr; /* physical load addr */
uint32_t ramdisk_size; /* size in bytes */
char cmdline[VENDOR_BOOT_ARGS_SIZE];
uint32_t tags_addr; /* physical addr for kernel tags (if required) */
char name[BOOT_NAME_SIZE]; /* asciiz product name */
uint32_t header_size;
uint32_t dtb_size; /* size in bytes for DTB image */
uint64_t dtb_addr; /* physical load address for DTB image */
} __attribute__((packed));
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struct boot_img_hdr_v4 : public boot_img_hdr_v3 {
uint32_t signature_size; /* size in bytes */
} __attribute__((packed));
struct boot_img_hdr_vnd_v4 : public boot_img_hdr_vnd_v3 {
uint32_t vendor_ramdisk_table_size; /* size in bytes for the vendor ramdisk table */
uint32_t vendor_ramdisk_table_entry_num; /* number of entries in the vendor ramdisk table */
uint32_t vendor_ramdisk_table_entry_size; /* size in bytes for a vendor ramdisk table entry */
uint32_t bootconfig_size; /* size in bytes for the bootconfig section */
} __attribute__((packed));
struct vendor_ramdisk_table_entry_v4 {
uint32_t ramdisk_size; /* size in bytes for the ramdisk image */
uint32_t ramdisk_offset; /* offset to the ramdisk image in vendor ramdisk section */
uint32_t ramdisk_type; /* type of the ramdisk */
uint8_t ramdisk_name[VENDOR_RAMDISK_NAME_SIZE]; /* asciiz ramdisk name */
// Hardware identifiers describing the board, soc or platform which this
// ramdisk is intended to be loaded on.
uint32_t board_id[VENDOR_RAMDISK_TABLE_ENTRY_BOARD_ID_SIZE];
} __attribute__((packed));
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/*******************************
* Polymorphic Universal Header
*******************************/
#define decl_var(name, len) \
virtual uint##len##_t &name() { j##len = 0; return j##len; }
#define decl_val(name, type) \
virtual type name() { return 0; }
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struct dyn_img_hdr {
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const bool is_vendor;
// Standard entries
decl_var(kernel_size, 32)
decl_var(ramdisk_size, 32)
decl_var(second_size, 32)
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decl_val(page_size, uint32_t)
decl_val(header_version, uint32_t)
decl_var(extra_size, 32)
decl_var(os_version, 32)
decl_val(name, char *)
decl_val(cmdline, char *)
decl_val(id, char *)
decl_val(extra_cmdline, char *)
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uint32_t kernel_dt_size = 0;
// v1/v2 specific
decl_var(recovery_dtbo_size, 32)
decl_var(recovery_dtbo_offset, 64)
decl_var(header_size, 32)
decl_var(dtb_size, 32)
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// v4 specific
decl_val(signature_size, uint32_t)
decl_val(vendor_ramdisk_table_size, uint32_t)
decl_val(bootconfig_size, uint32_t)
virtual ~dyn_img_hdr() {
free(raw);
}
virtual size_t hdr_size() = 0;
virtual size_t hdr_space() { return page_size(); }
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virtual dyn_img_hdr *clone() = 0;
const void *raw_hdr() const { return raw; }
void print();
void dump_hdr_file();
void load_hdr_file();
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protected:
union {
boot_img_hdr_v2 *v2_hdr; /* AOSP v2 header */
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boot_img_hdr_v4 *v4_hdr; /* AOSP v4 header */
boot_img_hdr_vnd_v4 *v4_vnd; /* AOSP vendor v4 header */
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boot_img_hdr_pxa *hdr_pxa; /* Samsung PXA header */
void *raw; /* Raw pointer */
};
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dyn_img_hdr(bool b) : is_vendor(b) {}
private:
// Junk for references
static uint32_t j32;
static uint64_t j64;
};
#undef decl_var
#undef decl_val
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#define __impl_cls(name, hdr) \
protected: name() = default; \
public: \
name(void *ptr) { \
raw = xmalloc(sizeof(hdr)); \
memcpy(raw, ptr, sizeof(hdr)); \
} \
size_t hdr_size() override { \
return sizeof(hdr); \
} \
dyn_img_hdr *clone() override { \
auto p = new name(raw); \
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p->kernel_dt_size = kernel_dt_size; \
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return p; \
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};
#define __impl_val(name, hdr_name) \
decltype(std::declval<dyn_img_hdr>().name()) name() override { return hdr_name->name; }
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struct dyn_img_hdr_boot : public dyn_img_hdr {
protected:
dyn_img_hdr_boot() : dyn_img_hdr(false) {}
};
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#define impl_cls(ver) __impl_cls(dyn_img_##ver, boot_img_hdr_##ver)
#define impl_val(name) __impl_val(name, v2_hdr)
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struct dyn_img_common : public dyn_img_hdr_boot {
impl_val(kernel_size)
impl_val(ramdisk_size)
impl_val(second_size)
};
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struct dyn_img_v0 : public dyn_img_common {
impl_cls(v0)
impl_val(page_size)
impl_val(extra_size)
impl_val(os_version)
impl_val(name)
impl_val(cmdline)
impl_val(id)
impl_val(extra_cmdline)
};
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struct dyn_img_v1 : public dyn_img_v0 {
impl_cls(v1)
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impl_val(header_version)
impl_val(recovery_dtbo_size)
impl_val(recovery_dtbo_offset)
impl_val(header_size)
uint32_t &extra_size() override { return dyn_img_hdr::extra_size(); }
};
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struct dyn_img_v2 : public dyn_img_v1 {
impl_cls(v2)
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impl_val(dtb_size)
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};
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#undef impl_val
#define impl_val(name) __impl_val(name, hdr_pxa)
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struct dyn_img_pxa : public dyn_img_common {
impl_cls(pxa)
impl_val(extra_size)
impl_val(page_size)
impl_val(name)
impl_val(cmdline)
impl_val(id)
impl_val(extra_cmdline)
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};
#undef impl_val
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#define impl_val(name) __impl_val(name, v4_hdr)
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struct dyn_img_v3 : public dyn_img_hdr_boot {
impl_cls(v3)
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impl_val(kernel_size)
impl_val(ramdisk_size)
impl_val(os_version)
impl_val(header_size)
impl_val(header_version)
impl_val(cmdline)
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// Make API compatible
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uint32_t page_size() override { return 4096; }
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char *extra_cmdline() override { return &v4_hdr->cmdline[BOOT_ARGS_SIZE]; }
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};
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struct dyn_img_v4 : public dyn_img_v3 {
impl_cls(v4)
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impl_val(signature_size)
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};
struct dyn_img_hdr_vendor : public dyn_img_hdr {
protected:
dyn_img_hdr_vendor() : dyn_img_hdr(true) {}
};
#undef impl_val
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#define impl_val(name) __impl_val(name, v4_vnd)
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struct dyn_img_vnd_v3 : public dyn_img_hdr_vendor {
impl_cls(vnd_v3)
impl_val(header_version)
impl_val(page_size)
impl_val(ramdisk_size)
impl_val(cmdline)
impl_val(name)
impl_val(header_size)
impl_val(dtb_size)
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size_t hdr_space() override { return align_to(hdr_size(), page_size()); }
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// Make API compatible
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char *extra_cmdline() override { return &v4_vnd->cmdline[BOOT_ARGS_SIZE]; }
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};
struct dyn_img_vnd_v4 : public dyn_img_vnd_v3 {
impl_cls(vnd_v4)
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impl_val(vendor_ramdisk_table_size)
impl_val(bootconfig_size)
};
#undef __impl_cls
#undef __impl_val
#undef impl_cls
#undef impl_val
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/******************
* Full Boot Image
******************/
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enum {
MTK_KERNEL,
MTK_RAMDISK,
CHROMEOS_FLAG,
DHTB_FLAG,
SEANDROID_FLAG,
LG_BUMP_FLAG,
SHA256_FLAG,
BLOB_FLAG,
NOOKHD_FLAG,
ACCLAIM_FLAG,
AVB_FLAG,
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ZIMAGE_KERNEL,
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BOOT_FLAGS_MAX
};
struct boot_img {
// Memory map of the whole image
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mmap_data map;
// Android image header
dyn_img_hdr *hdr;
// Flags to indicate the state of current boot image
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std::bitset<BOOT_FLAGS_MAX> flags;
// The format of kernel, ramdisk and extra
format_t k_fmt = UNKNOWN;
format_t r_fmt = UNKNOWN;
format_t e_fmt = UNKNOWN;
/***************************************************
* Following pointers points within the mmap region
***************************************************/
// MTK headers
mtk_hdr *k_hdr;
mtk_hdr *r_hdr;
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// The pointers/values after parse_image
// +---------------+
// | z_hdr | z_info.hdr_sz
// +---------------+
// | kernel | hdr->kernel_size()
// +---------------+
// | z_info.tail | z_info.tail_sz
// +---------------+
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zimage_hdr *z_hdr;
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struct {
uint32_t hdr_sz;
uint32_t tail_sz = 0;
uint8_t *tail = nullptr;
} z_info;
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// Pointer to dtb that is embedded in kernel
uint8_t *kernel_dtb;
// Pointer to end of image
uint8_t *tail;
size_t tail_size = 0;
// AVB structs
AvbFooter *avb_footer;
AvbVBMetaImageHeader *vbmeta;
// Pointers to blocks defined in header
uint8_t *hdr_addr;
uint8_t *kernel;
uint8_t *ramdisk;
uint8_t *second;
uint8_t *extra;
uint8_t *recovery_dtbo;
uint8_t *dtb;
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// Pointer to blocks defined in header, but we do not care
uint8_t *ignore;
size_t ignore_size = 0;
boot_img(const char *);
~boot_img();
void parse_image(uint8_t *addr, format_t type);
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dyn_img_hdr *create_hdr(uint8_t *addr, format_t type);
};