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14642fb3b6
The 32-bit and 64-bit variants have different register sizes, so they're different architectures in drgn. For now, put them in the same file so that they can share the relocation implementation. We'll need to figure out how to handle registers later. P.S. RISC-V has the weirdest relocations so far. /proc/kcore also appears to be broken. Signed-off-by: Omar Sandoval <osandov@osandov.com>
219 lines
7.5 KiB
C
219 lines
7.5 KiB
C
// Copyright (c) Meta Platforms, Inc. and affiliates.
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// SPDX-License-Identifier: GPL-3.0-or-later
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#ifndef DRGN_PLATFORM_H
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#define DRGN_PLATFORM_H
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#include <inttypes.h>
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#include <gelf.h>
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#include "cfi.h"
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#include "drgn.h"
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#include "util.h"
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struct drgn_orc_entry;
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struct drgn_register_state;
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struct drgn_register {
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const char * const *names;
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size_t num_names;
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drgn_register_number regno;
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uint64_t dwarf_number;
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};
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struct drgn_register_layout {
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uint32_t offset;
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uint32_t size;
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};
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/* ELF section to apply relocations to. */
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struct drgn_relocating_section {
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char *buf;
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size_t buf_size;
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uint64_t addr;
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bool bswap;
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};
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extern struct drgn_error drgn_invalid_relocation_offset;
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/*
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* Apply an ELF relocation as:
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*
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* - `*dst = addend + *r_addend` if `r_addend` is not `NULL` (for `ElfN_Rela`)
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* - `*dst += addend` if `r_addend` is `NULL` (for `ElfN_Rel`)
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*
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* Where `dst = (uintN_t *)(relocating->buf + r_offset)`.
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*
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* This checks bounds and handles unaligned destinations and byte swapping. It
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* does not check for overflow.
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*/
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struct drgn_error *
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drgn_reloc_add64(const struct drgn_relocating_section *relocating,
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uint64_t r_offset, const int64_t *r_addend, uint64_t addend);
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struct drgn_error *
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drgn_reloc_add32(const struct drgn_relocating_section *relocating,
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uint64_t r_offset, const int64_t *r_addend, uint32_t addend);
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struct drgn_error *
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drgn_reloc_add16(const struct drgn_relocating_section *relocating,
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uint64_t r_offset, const int64_t *r_addend, uint16_t addend);
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struct drgn_error *
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drgn_reloc_add8(const struct drgn_relocating_section *relocating,
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uint64_t r_offset, const int64_t *r_addend, uint8_t addend);
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#define DRGN_UNKNOWN_RELOCATION_TYPE(r_type) \
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drgn_error_format(DRGN_ERROR_OTHER, \
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"unknown relocation type %" PRIu32 " in %s; " \
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"please report this to %s", \
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(r_type), __func__, PACKAGE_BUGREPORT)
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/*
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* Apply an ELF relocation. If @p r_addend is `NULL`, then this is an `ElfN_Rel`
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* relocation. Otherwise, this is an `ElfN_Rela` relocation.
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*/
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typedef struct drgn_error *
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apply_elf_reloc_fn(const struct drgn_relocating_section *relocating,
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uint64_t r_offset, uint32_t r_type, const int64_t *r_addend,
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uint64_t sym_value);
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/* Page table iterator. */
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struct pgtable_iterator {
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struct drgn_program *prog;
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/* Address of the top-level page table to iterate. */
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uint64_t pgtable;
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/* Current virtual address to translate. */
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uint64_t virt_addr;
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/* Architecture-specific data. */
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char arch[];
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};
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/*
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* Translate the current virtual address from a page table iterator.
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*
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* Abstractly, a virtual address lies in a range of addresses in the address
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* space. A range may be a mapped page, a page table gap, or a range of invalid
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* addresses (e.g., non-canonical addresses on x86-64). This finds the range
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* containing the current virtual address, returns the first virtual address of
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* that range and the physical address it maps to (if any), and updates the
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* current virtual address to the end of the range.
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*
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* This does not merge contiguous ranges. For example, if two adjacent mapped
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* pages have adjacent physical addresses, this returns each page separately.
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* This makes it possible to distinguish between contiguous pages and "huge
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* pages" on architectures that support different page sizes. Similarly, if two
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* adjacent entries at level 2 of the page table are empty, this returns each
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* gap separately.
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*
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* @param[in] it Iterator.
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* @param[out] virt_addr_ret Returned first virtual address in the range
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* containing the current virtual address.
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* @param[out] phys_addr_ret Returned physical address that @p virt_addr_ret
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* maps to, or @c UINT64_MAX if it is not mapped.
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*/
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typedef struct drgn_error *
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(pgtable_iterator_next_fn)(struct pgtable_iterator *it, uint64_t *virt_addr_ret,
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uint64_t *phys_addr_ret);
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struct drgn_architecture_info {
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const char *name;
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enum drgn_architecture arch;
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enum drgn_platform_flags default_flags;
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const struct drgn_register *registers;
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size_t num_registers;
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const struct drgn_register *(*register_by_name)(const char *name);
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const struct drgn_register_layout *register_layout;
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drgn_register_number (*dwarf_regno_to_internal)(uint64_t);
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/* CFI row containing default rules for DWARF CFI. */
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const struct drgn_cfi_row *default_dwarf_cfi_row;
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struct drgn_error *(*orc_to_cfi)(const struct drgn_orc_entry *,
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struct drgn_cfi_row **, bool *,
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drgn_register_number *);
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/*
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* Try to unwind a stack frame if CFI wasn't found. Returns &drgn_stop
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* if we couldn't.
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*/
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struct drgn_error *(*fallback_unwind)(struct drgn_program *,
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struct drgn_register_state *,
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struct drgn_register_state **);
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/* Given pt_regs as a value buffer object. */
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struct drgn_error *(*pt_regs_get_initial_registers)(const struct drgn_object *,
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struct drgn_register_state **);
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struct drgn_error *(*prstatus_get_initial_registers)(struct drgn_program *,
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const void *,
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size_t,
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struct drgn_register_state **);
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struct drgn_error *(*linux_kernel_get_initial_registers)(const struct drgn_object *,
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struct drgn_register_state **);
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apply_elf_reloc_fn *apply_elf_reloc;
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struct drgn_error *(*linux_kernel_get_page_offset)(struct drgn_object *);
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struct drgn_error *(*linux_kernel_get_vmemmap)(struct drgn_object *);
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struct drgn_error *(*linux_kernel_live_direct_mapping_fallback)(struct drgn_program *,
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uint64_t *,
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uint64_t *);
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/* Size to allocate for pgtable_iterator::arch. */
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size_t pgtable_iterator_arch_size;
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/* Initialize pgtable_iterator::arch. */
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void (*pgtable_iterator_arch_init)(void *buf);
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/* Iterate a (user or kernel) page table in the Linux kernel. */
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pgtable_iterator_next_fn *linux_kernel_pgtable_iterator_next;
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};
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const struct drgn_register *drgn_register_by_name_unknown(const char *name);
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extern const struct drgn_architecture_info arch_info_unknown;
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extern const struct drgn_architecture_info arch_info_x86_64;
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extern const struct drgn_architecture_info arch_info_i386;
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extern const struct drgn_architecture_info arch_info_aarch64;
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extern const struct drgn_architecture_info arch_info_arm;
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extern const struct drgn_architecture_info arch_info_ppc64;
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extern const struct drgn_architecture_info arch_info_riscv64;
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extern const struct drgn_architecture_info arch_info_riscv32;
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struct drgn_platform {
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const struct drgn_architecture_info *arch;
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enum drgn_platform_flags flags;
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};
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static inline bool
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drgn_platform_is_little_endian(const struct drgn_platform *platform)
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{
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return platform->flags & DRGN_PLATFORM_IS_LITTLE_ENDIAN;
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}
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static inline bool drgn_platform_bswap(const struct drgn_platform *platform)
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{
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return drgn_platform_is_little_endian(platform) != HOST_LITTLE_ENDIAN;
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}
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static inline bool drgn_platform_is_64_bit(const struct drgn_platform *platform)
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{
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return platform->flags & DRGN_PLATFORM_IS_64_BIT;
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}
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static inline uint8_t
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drgn_platform_address_size(const struct drgn_platform *platform)
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{
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return drgn_platform_is_64_bit(platform) ? 8 : 4;
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}
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static inline uint64_t
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drgn_platform_address_mask(const struct drgn_platform *platform)
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{
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return drgn_platform_is_64_bit(platform) ? UINT64_MAX : UINT32_MAX;
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}
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/**
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* Initialize a @ref drgn_platform from an architecture, word size, and
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* endianness.
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*
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* The default flags for the architecture are used other than the word size and
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* endianness.
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*/
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void drgn_platform_from_arch(const struct drgn_architecture_info *arch,
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bool is_64_bit, bool is_little_endian,
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struct drgn_platform *ret);
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/** Initialize a @ref drgn_platform from an ELF header. */
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void drgn_platform_from_elf(GElf_Ehdr *ehdr, struct drgn_platform *ret);
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#endif /* DRGN_PLATFORM_H */
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