ff11422804
Fedora 39 will ship its arm64 kernels in the new generic EFI zboot format, using gzip compression for the payload. For doing EFI boot in QEMU, this is completely transparent, as the firmware or bootloader will take care of this. However, for direct kernel boot without firmware, we will lose the ability to boot such distro kernels unless we deal with the new format directly. EFI zboot images contain metadata in the header regarding the placement of the compressed payload inside the image, and the type of compression used. This means we can wire up the existing gzip support without too much hassle, by parsing the header and grabbing the payload from inside the loaded zboot image. Cc: Peter Maydell <peter.maydell@linaro.org> Cc: Alex Bennée <alex.bennee@linaro.org> Cc: Richard Henderson <richard.henderson@linaro.org> Cc: Philippe Mathieu-Daudé <f4bug@amsat.org> Signed-off-by: Ard Biesheuvel <ardb@kernel.org> Message-id: 20230303160109.3626966-1-ardb@kernel.org Reviewed-by: Peter Maydell <peter.maydell@linaro.org> [PMM: tweaked comment formatting, fixed checkpatch nits] Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
378 lines
16 KiB
C
378 lines
16 KiB
C
#ifndef LOADER_H
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#define LOADER_H
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#include "hw/nvram/fw_cfg.h"
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/* loader.c */
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/**
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* get_image_size: retrieve size of an image file
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* @filename: Path to the image file
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*
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* Returns the size of the image file on success, -1 otherwise.
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* On error, errno is also set as appropriate.
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*/
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int64_t get_image_size(const char *filename);
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/**
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* load_image_size: load an image file into specified buffer
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* @filename: Path to the image file
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* @addr: Buffer to load image into
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* @size: Size of buffer in bytes
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*
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* Load an image file from disk into the specified buffer.
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* If the image is larger than the specified buffer, only
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* @size bytes are read (this is not considered an error).
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*
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* Prefer to use the GLib function g_file_get_contents() rather
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* than a "get_image_size()/g_malloc()/load_image_size()" sequence.
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*
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* Returns the number of bytes read, or -1 on error. On error,
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* errno is also set as appropriate.
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*/
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ssize_t load_image_size(const char *filename, void *addr, size_t size);
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/**load_image_targphys_as:
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* @filename: Path to the image file
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* @addr: Address to load the image to
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* @max_sz: The maximum size of the image to load
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* @as: The AddressSpace to load the ELF to. The value of address_space_memory
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* is used if nothing is supplied here.
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*
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* Load a fixed image into memory.
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*
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* Returns the size of the loaded image on success, -1 otherwise.
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*/
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ssize_t load_image_targphys_as(const char *filename,
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hwaddr addr, uint64_t max_sz, AddressSpace *as);
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/**load_targphys_hex_as:
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* @filename: Path to the .hex file
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* @entry: Store the entry point given by the .hex file
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* @as: The AddressSpace to load the .hex file to. The value of
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* address_space_memory is used if nothing is supplied here.
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*
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* Load a fixed .hex file into memory.
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*
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* Returns the size of the loaded .hex file on success, -1 otherwise.
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*/
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ssize_t load_targphys_hex_as(const char *filename, hwaddr *entry,
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AddressSpace *as);
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/** load_image_targphys:
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* Same as load_image_targphys_as(), but doesn't allow the caller to specify
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* an AddressSpace.
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*/
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ssize_t load_image_targphys(const char *filename, hwaddr,
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uint64_t max_sz);
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/**
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* load_image_mr: load an image into a memory region
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* @filename: Path to the image file
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* @mr: Memory Region to load into
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*
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* Load the specified file into the memory region.
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* The file loaded is registered as a ROM, so its contents will be
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* reinstated whenever the system is reset.
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* If the file is larger than the memory region's size the call will fail.
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* Returns -1 on failure, or the size of the file.
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*/
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ssize_t load_image_mr(const char *filename, MemoryRegion *mr);
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/* This is the limit on the maximum uncompressed image size that
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* load_image_gzipped_buffer() and load_image_gzipped() will read. It prevents
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* g_malloc() in those functions from allocating a huge amount of memory.
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*/
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#define LOAD_IMAGE_MAX_GUNZIP_BYTES (256 << 20)
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ssize_t load_image_gzipped_buffer(const char *filename, uint64_t max_sz,
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uint8_t **buffer);
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ssize_t load_image_gzipped(const char *filename, hwaddr addr, uint64_t max_sz);
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/**
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* unpack_efi_zboot_image:
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* @buffer: pointer to a variable holding the address of a buffer containing the
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* image
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* @size: pointer to a variable holding the size of the buffer
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*
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* Check whether the buffer contains a EFI zboot image, and if it does, extract
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* the compressed payload and decompress it into a new buffer. If successful,
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* the old buffer is freed, and the *buffer and size variables pointed to by the
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* function arguments are updated to refer to the newly populated buffer.
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*
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* Returns 0 if the image could not be identified as a EFI zboot image.
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* Returns -1 if the buffer contents were identified as a EFI zboot image, but
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* unpacking failed for any reason.
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* Returns the size of the decompressed payload if decompression was performed
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* successfully.
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*/
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ssize_t unpack_efi_zboot_image(uint8_t **buffer, int *size);
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#define ELF_LOAD_FAILED -1
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#define ELF_LOAD_NOT_ELF -2
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#define ELF_LOAD_WRONG_ARCH -3
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#define ELF_LOAD_WRONG_ENDIAN -4
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#define ELF_LOAD_TOO_BIG -5
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const char *load_elf_strerror(ssize_t error);
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/** load_elf_ram_sym:
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* @filename: Path of ELF file
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* @elf_note_fn: optional function to parse ELF Note type
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* passed via @translate_opaque
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* @translate_fn: optional function to translate load addresses
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* @translate_opaque: opaque data passed to @translate_fn
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* @pentry: Populated with program entry point. Ignored if NULL.
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* @lowaddr: Populated with lowest loaded address. Ignored if NULL.
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* @highaddr: Populated with highest loaded address. Ignored if NULL.
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* @pflags: Populated with ELF processor-specific flags. Ignore if NULL.
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* @bigendian: Expected ELF endianness. 0 for LE otherwise BE
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* @elf_machine: Expected ELF machine type
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* @clear_lsb: Set to mask off LSB of addresses (Some architectures use
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* this for non-address data)
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* @data_swab: Set to order of byte swapping for data. 0 for no swap, 1
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* for swapping bytes within halfwords, 2 for bytes within
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* words and 3 for within doublewords.
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* @as: The AddressSpace to load the ELF to. The value of address_space_memory
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* is used if nothing is supplied here.
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* @load_rom : Load ELF binary as ROM
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* @sym_cb: Callback function for symbol table entries
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*
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* Load an ELF file's contents to the emulated system's address space.
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* Clients may optionally specify a callback to perform address
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* translations. @pentry, @lowaddr and @highaddr are optional pointers
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* which will be populated with various load information. @bigendian and
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* @elf_machine give the expected endianness and machine for the ELF the
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* load will fail if the target ELF does not match. Some architectures
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* have some architecture-specific behaviours that come into effect when
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* their particular values for @elf_machine are set.
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* If @elf_machine is EM_NONE then the machine type will be read from the
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* ELF header and no checks will be carried out against the machine type.
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*/
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typedef void (*symbol_fn_t)(const char *st_name, int st_info,
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uint64_t st_value, uint64_t st_size);
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ssize_t load_elf_ram_sym(const char *filename,
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uint64_t (*elf_note_fn)(void *, void *, bool),
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uint64_t (*translate_fn)(void *, uint64_t),
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void *translate_opaque, uint64_t *pentry,
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uint64_t *lowaddr, uint64_t *highaddr,
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uint32_t *pflags, int big_endian, int elf_machine,
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int clear_lsb, int data_swab,
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AddressSpace *as, bool load_rom, symbol_fn_t sym_cb);
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/** load_elf_ram:
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* Same as load_elf_ram_sym(), but doesn't allow the caller to specify a
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* symbol callback function
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*/
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ssize_t load_elf_ram(const char *filename,
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uint64_t (*elf_note_fn)(void *, void *, bool),
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uint64_t (*translate_fn)(void *, uint64_t),
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void *translate_opaque, uint64_t *pentry,
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uint64_t *lowaddr, uint64_t *highaddr, uint32_t *pflags,
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int big_endian, int elf_machine, int clear_lsb,
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int data_swab, AddressSpace *as, bool load_rom);
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/** load_elf_as:
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* Same as load_elf_ram(), but always loads the elf as ROM
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*/
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ssize_t load_elf_as(const char *filename,
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uint64_t (*elf_note_fn)(void *, void *, bool),
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uint64_t (*translate_fn)(void *, uint64_t),
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void *translate_opaque, uint64_t *pentry, uint64_t *lowaddr,
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uint64_t *highaddr, uint32_t *pflags, int big_endian,
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int elf_machine, int clear_lsb, int data_swab,
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AddressSpace *as);
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/** load_elf:
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* Same as load_elf_as(), but doesn't allow the caller to specify an
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* AddressSpace.
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*/
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ssize_t load_elf(const char *filename,
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uint64_t (*elf_note_fn)(void *, void *, bool),
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uint64_t (*translate_fn)(void *, uint64_t),
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void *translate_opaque, uint64_t *pentry, uint64_t *lowaddr,
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uint64_t *highaddr, uint32_t *pflags, int big_endian,
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int elf_machine, int clear_lsb, int data_swab);
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/** load_elf_hdr:
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* @filename: Path of ELF file
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* @hdr: Buffer to populate with header data. Header data will not be
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* filled if set to NULL.
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* @is64: Set to true if the ELF is 64bit. Ignored if set to NULL
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* @errp: Populated with an error in failure cases
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*
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* Inspect an ELF file's header. Read its full header contents into a
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* buffer and/or determine if the ELF is 64bit.
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*/
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void load_elf_hdr(const char *filename, void *hdr, bool *is64, Error **errp);
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ssize_t load_aout(const char *filename, hwaddr addr, int max_sz,
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int bswap_needed, hwaddr target_page_size);
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#define LOAD_UIMAGE_LOADADDR_INVALID (-1)
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/** load_uimage_as:
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* @filename: Path of uimage file
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* @ep: Populated with program entry point. Ignored if NULL.
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* @loadaddr: load address if none specified in the image or when loading a
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* ramdisk. Populated with the load address. Ignored if NULL or
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* LOAD_UIMAGE_LOADADDR_INVALID (images which do not specify a load
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* address will not be loadable).
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* @is_linux: Is set to true if the image loaded is Linux. Ignored if NULL.
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* @translate_fn: optional function to translate load addresses
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* @translate_opaque: opaque data passed to @translate_fn
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* @as: The AddressSpace to load the ELF to. The value of address_space_memory
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* is used if nothing is supplied here.
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*
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* Loads a u-boot image into memory.
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*
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* Returns the size of the loaded image on success, -1 otherwise.
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*/
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ssize_t load_uimage_as(const char *filename, hwaddr *ep,
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hwaddr *loadaddr, int *is_linux,
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uint64_t (*translate_fn)(void *, uint64_t),
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void *translate_opaque, AddressSpace *as);
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/** load_uimage:
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* Same as load_uimage_as(), but doesn't allow the caller to specify an
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* AddressSpace.
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*/
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ssize_t load_uimage(const char *filename, hwaddr *ep,
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hwaddr *loadaddr, int *is_linux,
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uint64_t (*translate_fn)(void *, uint64_t),
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void *translate_opaque);
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/**
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* load_ramdisk_as:
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* @filename: Path to the ramdisk image
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* @addr: Memory address to load the ramdisk to
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* @max_sz: Maximum allowed ramdisk size (for non-u-boot ramdisks)
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* @as: The AddressSpace to load the ELF to. The value of address_space_memory
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* is used if nothing is supplied here.
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*
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* Load a ramdisk image with U-Boot header to the specified memory
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* address.
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*
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* Returns the size of the loaded image on success, -1 otherwise.
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*/
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ssize_t load_ramdisk_as(const char *filename, hwaddr addr, uint64_t max_sz,
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AddressSpace *as);
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/**
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* load_ramdisk:
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* Same as load_ramdisk_as(), but doesn't allow the caller to specify
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* an AddressSpace.
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*/
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ssize_t load_ramdisk(const char *filename, hwaddr addr, uint64_t max_sz);
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ssize_t gunzip(void *dst, size_t dstlen, uint8_t *src, size_t srclen);
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ssize_t read_targphys(const char *name,
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int fd, hwaddr dst_addr, size_t nbytes);
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void pstrcpy_targphys(const char *name,
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hwaddr dest, int buf_size,
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const char *source);
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ssize_t rom_add_file(const char *file, const char *fw_dir,
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hwaddr addr, int32_t bootindex,
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bool option_rom, MemoryRegion *mr, AddressSpace *as);
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MemoryRegion *rom_add_blob(const char *name, const void *blob, size_t len,
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size_t max_len, hwaddr addr,
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const char *fw_file_name,
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FWCfgCallback fw_callback,
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void *callback_opaque, AddressSpace *as,
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bool read_only);
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int rom_add_elf_program(const char *name, GMappedFile *mapped_file, void *data,
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size_t datasize, size_t romsize, hwaddr addr,
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AddressSpace *as);
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int rom_check_and_register_reset(void);
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void rom_set_fw(FWCfgState *f);
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void rom_set_order_override(int order);
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void rom_reset_order_override(void);
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/**
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* rom_transaction_begin:
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*
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* Call this before of a series of rom_add_*() calls. Call
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* rom_transaction_end() afterwards to commit or abort. These functions are
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* useful for undoing a series of rom_add_*() calls if image file loading fails
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* partway through.
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*/
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void rom_transaction_begin(void);
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/**
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* rom_transaction_end:
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* @commit: true to commit added roms, false to drop added roms
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*
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* Call this after a series of rom_add_*() calls. See rom_transaction_begin().
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*/
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void rom_transaction_end(bool commit);
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int rom_copy(uint8_t *dest, hwaddr addr, size_t size);
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void *rom_ptr(hwaddr addr, size_t size);
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/**
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* rom_ptr_for_as: Return a pointer to ROM blob data for the address
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* @as: AddressSpace to look for the ROM blob in
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* @addr: Address within @as
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* @size: size of data required in bytes
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*
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* Returns: pointer into the data which backs the matching ROM blob,
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* or NULL if no blob covers the address range.
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*
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* This function looks for a ROM blob which covers the specified range
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* of bytes of length @size starting at @addr within the address space
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* @as. This is useful for code which runs as part of board
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* initialization or CPU reset which wants to read data that is part
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* of a user-supplied guest image or other guest memory contents, but
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* which runs before the ROM loader's reset function has copied the
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* blobs into guest memory.
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*
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* rom_ptr_for_as() will look not just for blobs loaded directly to
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* the specified address, but also for blobs which were loaded to an
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* alias of the region at a different location in the AddressSpace.
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* In other words, if a machine model has RAM at address 0x0000_0000
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* which is aliased to also appear at 0x1000_0000, rom_ptr_for_as()
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* will return the correct data whether the guest image was linked and
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* loaded at 0x0000_0000 or 0x1000_0000. Contrast rom_ptr(), which
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* will only return data if the image load address is an exact match
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* with the queried address.
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*
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* New code should prefer to use rom_ptr_for_as() instead of
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* rom_ptr().
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*/
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void *rom_ptr_for_as(AddressSpace *as, hwaddr addr, size_t size);
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void hmp_info_roms(Monitor *mon, const QDict *qdict);
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#define rom_add_file_fixed(_f, _a, _i) \
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rom_add_file(_f, NULL, _a, _i, false, NULL, NULL)
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#define rom_add_blob_fixed(_f, _b, _l, _a) \
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rom_add_blob(_f, _b, _l, _l, _a, NULL, NULL, NULL, NULL, true)
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#define rom_add_file_mr(_f, _mr, _i) \
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rom_add_file(_f, NULL, 0, _i, false, _mr, NULL)
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#define rom_add_file_as(_f, _as, _i) \
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rom_add_file(_f, NULL, 0, _i, false, NULL, _as)
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#define rom_add_file_fixed_as(_f, _a, _i, _as) \
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rom_add_file(_f, NULL, _a, _i, false, NULL, _as)
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#define rom_add_blob_fixed_as(_f, _b, _l, _a, _as) \
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rom_add_blob(_f, _b, _l, _l, _a, NULL, NULL, NULL, _as, true)
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ssize_t rom_add_vga(const char *file);
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ssize_t rom_add_option(const char *file, int32_t bootindex);
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/* This is the usual maximum in uboot, so if a uImage overflows this, it would
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* overflow on real hardware too. */
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#define UBOOT_MAX_GUNZIP_BYTES (64 << 20)
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typedef struct RomGap {
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hwaddr base;
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size_t size;
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} RomGap;
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/**
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* rom_find_largest_gap_between: return largest gap between ROMs in given range
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*
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* Given a range of addresses, this function finds the largest
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* contiguous subrange which has no ROMs loaded to it. That is,
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* it finds the biggest gap which is free for use for other things.
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*/
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RomGap rom_find_largest_gap_between(hwaddr base, size_t size);
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#endif
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