This library provides a toolkit of C++ template APIs for implementing ELF dynamic linking and loading functionality. It uses C++ namespace
The library API supports either 32-bit or 64-bit ELF with either little-endian or big-endian byte order, via template parameters. Thus it is suitable for cross-tools without assumptions about host machine or operating system details, as well as for ELF target build environments of various sorts.
The library provides the ELF format layouts and constants in a modern C++ API using canonical style. It does not intend to be an exhaustive API for all of the ELF format. It provides the full range of data structures and constants used in dynamic linking and loading, and some others that are of use in related tools. It does not provide full details needed for compilers, linkers, debuggers, etc. In some instances it defines all constants of a particular type, while in others it defines only the subset actually used or supported by the toolkit. It provides details from the formal ELF specification and for de facto standard GNU and LLVM extensions on the same footing. The constants and data structures largely mimic the spellings used in the ELF specification, which come from the traditional
<elf.h> C API. However, these definitions use C++ scoping and canonical identifier styles that do not overlap with it.
The generic ELF format constants are defined in
<lib/elfldltl/constants.h>. These are mostly
enum class types that apply to all format variants and machines. Types selecting format variant and machine also include convenient
kNative aliases for the native platform being compiled for.
ELF data layouts are defined in
<lib/elfldltl/layout.h>. These are provided as C++ struct types within the
elfldltl::Elf template class, which is parameterized by class (32-bit vs 64-bit) and data format (byte order) with default template arguments matching the native platform being compiled for.
ELF format data types are defined using a simple set of generic wrapper template types for defining fields, defined in
<lib/elfldltl/field.h>. This API can also be used directly for other data structures in ELF sections or in memory for which doing access across bit widths and/or byte orders may be useful.
The wrapper types used for fields have the same exact ABI layout as a specified underlying integer type. Their API behavior as C++ objects is roughly like a normal field of a given integer or
enum type, in that they are implicitly convertible to and from that type and can be compared to it for equality. In contexts where the C++ type is flexible, these implicit conversions may not be sufficient and these objects do not fully emulate an integer or
enum type. So they also provide direct accessor methods via
field() (i.e. calling the field as a function of no arguments).
<lib/elfldltl/note.h> provides a parser for the ELF note format found in
PT_NOTE segments or
SHT_NOTE sections. It provides a convenient container-view / iterator API across a note segment in memory. The “elements” of the virtual container provide easy access to the note name (vendor) and description (payload) bytes using
span style types, and a field accessor for the 32-bit type field. The note format is the same across 32-bit and 64-bit ELF files, so the note parser's template classes are actually parameterized only by the byte order. But the canonical access to the API is via the
elfldltl::Elf template class for the specific format variant, which has the
<lib/elfldltl/self.h> provides accessors for a program or shared library to refer to its own ELF data structures at runtime using link-time references. Both 32-bit and 64-bit formats are supported independent of the native pointer size, as is dynamic selection between the two in case the 32-bit format is used to size-optimize 64-bit binaries. These APIs are useful for implementing static PIE self-relocation and similar cases.
<lib/elfldltl/relocation.h> provides decoders for the relocation metadata formats. This provides straightforward iterable C++ container views for the various kinds of relocation records.
<lib/elfldltl/machine.h> provides a uniform API for the machine-specific format constants needed for dynamic relocation and TLS layout via a template class parameterized by machine. Each specialization provides a consistent API for the constants whose values (and presence) vary by machine. Only the constants related to machines and relocation types supported by the toolkit are provided.
<lib/elfldltl/symbol.h> provides access to the dynamic symbol table of an ELF file. It provides C++ container views for the symbol table and the hash tables. It handles symbol name string hashing and hash table lookup.
<lib/elfldltl/dynamic.h> provides a framework for examining the
PT_DYNAMIC metadata in a single pass using a mix-and-match variety of observer objects looking for different kinds of entries. The toolkit provides observer object types for some common tasks. Custom observer objects can be implemented easily.