mirror of
https://github.com/QuasarApp/LIEF.git
synced 2025-04-29 13:54:33 +00:00
b94900ca7f
Major changes (features):
* Enable adding multiple sections/segments - Executable (PIE or not), Library
* Enable adding multiple dynamic entries (DT_NEEDED, DT_INIT etc)
* Enable adding multiple relocations
* Enable adding multiple dynamic symbols
* Enable segment replacement
Major changes (API):
* Getters Binary::get_*name*() has been renamed to "name()"
* Binary::add(const DynamicEntry& entry) - To add an entry in the dynamic table
* Section& Binary::add(const Section& section, bool loaded = true) - To add a section(s)
* Segment& Binary::add(const Segment& segment, uint64_t base = 0) - To add segments
* Segment& replace(const Segment& new_segment, const Segment& original_segment, uint64_t base = 0)
* Binary's last_offset_section(), last_offset_segment(), next_virtual_address()
to have information about offset
* Binary's add_library(), get_library(), has_library() to handle
DT_NEEDED entries
Other changes:
* Binary::insert_content() - Use add(const Section&) or add(const Segment&) instead
* ELF's DataHandler has been cleaned
* Through LIEF::Section one can look for integers, strings, data
within the section (see LIEF::Section::search,
LIEF::Section::search_all)
* Through LIEF::Binary one can get *xref* of a number (or address)
see LIEF::Binary::xref function
* To access to the Abstract binary in Python, one can now use
the 'abstract' attribute. (e.g. binary.abstract.header.is_32)
Resolve: #83
Resolve: #66
Resolve: #48
52 lines
2.5 KiB
C++
52 lines
2.5 KiB
C++
#include "pyELF.hpp"
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#include "LIEF/ELF/Structures.hpp"
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void init_ELF32_sizes(py::module& m) {
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enum SIZES : size_t {};
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py::enum_<SIZES>(m, "SIZES")
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.value("ADDR", static_cast<SIZES>(sizeof(Elf32_Addr)))
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.value("OFF", static_cast<SIZES>(sizeof(Elf32_Off)))
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.value("HALF", static_cast<SIZES>(sizeof(Elf32_Half)))
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.value("WORD", static_cast<SIZES>(sizeof(Elf32_Word)))
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.value("SWORD", static_cast<SIZES>(sizeof(Elf32_Sword)))
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.value("INT", static_cast<SIZES>(sizeof(uint32_t)))
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.value("EHDR", static_cast<SIZES>(sizeof(Elf32_Ehdr)))
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.value("SHDR", static_cast<SIZES>(sizeof(Elf32_Shdr)))
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.value("PHDR", static_cast<SIZES>(sizeof(Elf32_Phdr)))
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.value("SYM", static_cast<SIZES>(sizeof(Elf32_Sym)))
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.value("REL", static_cast<SIZES>(sizeof(Elf32_Rel)))
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.value("RELA", static_cast<SIZES>(sizeof(Elf32_Rela)))
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.value("DYN", static_cast<SIZES>(sizeof(Elf32_Dyn)))
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.value("VERNEED", static_cast<SIZES>(sizeof(Elf32_Verneed)))
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.value("VERNAUX", static_cast<SIZES>(sizeof(Elf32_Vernaux)))
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.value("AUXV", static_cast<SIZES>(sizeof(Elf32_Auxv)))
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.value("VERDEF", static_cast<SIZES>(sizeof(Elf32_Verdef)))
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.value("VERDAUX", static_cast<SIZES>(sizeof(Elf32_Verdaux)))
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.export_values();
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}
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void init_ELF64_sizes(py::module& m) {
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enum SIZES : size_t {};
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py::enum_<SIZES>(m, "SIZES")
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.value("ADDR", static_cast<SIZES>(sizeof(Elf64_Addr)))
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.value("OFF", static_cast<SIZES>(sizeof(Elf64_Off)))
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.value("HALF", static_cast<SIZES>(sizeof(Elf64_Half)))
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.value("WORD", static_cast<SIZES>(sizeof(Elf64_Word)))
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.value("SWORD", static_cast<SIZES>(sizeof(Elf64_Sword)))
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.value("INT", static_cast<SIZES>(sizeof(uint64_t)))
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.value("EHDR", static_cast<SIZES>(sizeof(Elf64_Ehdr)))
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.value("SHDR", static_cast<SIZES>(sizeof(Elf64_Shdr)))
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.value("PHDR", static_cast<SIZES>(sizeof(Elf64_Phdr)))
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.value("SYM", static_cast<SIZES>(sizeof(Elf64_Sym)))
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.value("REL", static_cast<SIZES>(sizeof(Elf64_Rel)))
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.value("RELA", static_cast<SIZES>(sizeof(Elf64_Rela)))
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.value("DYN", static_cast<SIZES>(sizeof(Elf64_Dyn)))
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.value("VERNEED", static_cast<SIZES>(sizeof(Elf64_Verneed)))
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.value("VERNAUX", static_cast<SIZES>(sizeof(Elf64_Vernaux)))
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.value("AUXV", static_cast<SIZES>(sizeof(Elf64_Auxv)))
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.value("VERDEF", static_cast<SIZES>(sizeof(Elf64_Verdef)))
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.value("VERDAUX", static_cast<SIZES>(sizeof(Elf64_Verdaux)))
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.export_values();
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}
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