mirror of https://gitee.com/openkylin/linux.git
d29d87f7e6
This change splits out previous btf__new functionality of constructing
struct btf and loading it into kernel into two:
- btf__new() just creates and initializes struct btf
- btf__load() attempts to load existing struct btf into kernel
btf__free will still close BTF fd, if it was ever loaded successfully
into kernel.
This change allows users of libbpf to manipulate BTF using its API,
without the need to unnecessarily load it into kernel.
One of the intended use cases is pahole, which will do DWARF to BTF
conversion and then use libbpf to do type deduplication, while then
handling ELF sections overwriting and other concerns on its own.
Fixes:
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.. | ||
.gitignore | ||
Build | ||
Makefile | ||
README.rst | ||
bpf.c | ||
bpf.h | ||
bpf_prog_linfo.c | ||
btf.c | ||
btf.h | ||
libbpf.c | ||
libbpf.h | ||
libbpf.map | ||
libbpf_errno.c | ||
libbpf_probes.c | ||
libbpf_util.h | ||
netlink.c | ||
nlattr.c | ||
nlattr.h | ||
str_error.c | ||
str_error.h | ||
test_libbpf.cpp |
README.rst
.. SPDX-License-Identifier: (LGPL-2.1 OR BSD-2-Clause) libbpf API naming convention ============================ libbpf API provides access to a few logically separated groups of functions and types. Every group has its own naming convention described here. It's recommended to follow these conventions whenever a new function or type is added to keep libbpf API clean and consistent. All types and functions provided by libbpf API should have one of the following prefixes: ``bpf_``, ``btf_``, ``libbpf_``. System call wrappers -------------------- System call wrappers are simple wrappers for commands supported by sys_bpf system call. These wrappers should go to ``bpf.h`` header file and map one-on-one to corresponding commands. For example ``bpf_map_lookup_elem`` wraps ``BPF_MAP_LOOKUP_ELEM`` command of sys_bpf, ``bpf_prog_attach`` wraps ``BPF_PROG_ATTACH``, etc. Objects ------- Another class of types and functions provided by libbpf API is "objects" and functions to work with them. Objects are high-level abstractions such as BPF program or BPF map. They're represented by corresponding structures such as ``struct bpf_object``, ``struct bpf_program``, ``struct bpf_map``, etc. Structures are forward declared and access to their fields should be provided via corresponding getters and setters rather than directly. These objects are associated with corresponding parts of ELF object that contains compiled BPF programs. For example ``struct bpf_object`` represents ELF object itself created from an ELF file or from a buffer, ``struct bpf_program`` represents a program in ELF object and ``struct bpf_map`` is a map. Functions that work with an object have names built from object name, double underscore and part that describes function purpose. For example ``bpf_object__open`` consists of the name of corresponding object, ``bpf_object``, double underscore and ``open`` that defines the purpose of the function to open ELF file and create ``bpf_object`` from it. Another example: ``bpf_program__load`` is named for corresponding object, ``bpf_program``, that is separated from other part of the name by double underscore. All objects and corresponding functions other than BTF related should go to ``libbpf.h``. BTF types and functions should go to ``btf.h``. Auxiliary functions ------------------- Auxiliary functions and types that don't fit well in any of categories described above should have ``libbpf_`` prefix, e.g. ``libbpf_get_error`` or ``libbpf_prog_type_by_name``. libbpf ABI ========== libbpf can be both linked statically or used as DSO. To avoid possible conflicts with other libraries an application is linked with, all non-static libbpf symbols should have one of the prefixes mentioned in API documentation above. See API naming convention to choose the right name for a new symbol. Symbol visibility ----------------- libbpf follow the model when all global symbols have visibility "hidden" by default and to make a symbol visible it has to be explicitly attributed with ``LIBBPF_API`` macro. For example: .. code-block:: c LIBBPF_API int bpf_prog_get_fd_by_id(__u32 id); This prevents from accidentally exporting a symbol, that is not supposed to be a part of ABI what, in turn, improves both libbpf developer- and user-experiences. ABI versionning --------------- To make future ABI extensions possible libbpf ABI is versioned. Versioning is implemented by ``libbpf.map`` version script that is passed to linker. Version name is ``LIBBPF_`` prefix + three-component numeric version, starting from ``0.0.1``. Every time ABI is being changed, e.g. because a new symbol is added or semantic of existing symbol is changed, ABI version should be bumped. For example, if current state of ``libbpf.map`` is: .. code-block:: LIBBPF_0.0.1 { global: bpf_func_a; bpf_func_b; local: \*; }; , and a new symbol ``bpf_func_c`` is being introduced, then ``libbpf.map`` should be changed like this: .. code-block:: LIBBPF_0.0.1 { global: bpf_func_a; bpf_func_b; local: \*; }; LIBBPF_0.0.2 { global: bpf_func_c; } LIBBPF_0.0.1; , where new version ``LIBBPF_0.0.2`` depends on the previous ``LIBBPF_0.0.1``. Format of version script and ways to handle ABI changes, including incompatible ones, described in details in [1]. Stand-alone build ================= Under https://github.com/libbpf/libbpf there is a (semi-)automated mirror of the mainline's version of libbpf for a stand-alone build. However, all changes to libbpf's code base must be upstreamed through the mainline kernel tree. License ======= libbpf is dual-licensed under LGPL 2.1 and BSD 2-Clause. Links ===== [1] https://www.akkadia.org/drepper/dsohowto.pdf (Chapter 3. Maintaining APIs and ABIs).