.. SPDX-License-Identifier: GPL-2.0 ============================ BPF_PROG_TYPE_CGROUP_SOCKOPT ============================ ``BPF_PROG_TYPE_CGROUP_SOCKOPT`` program type can be attached to two cgroup hooks: * ``BPF_CGROUP_GETSOCKOPT`` - called every time process executes ``getsockopt`` system call. * ``BPF_CGROUP_SETSOCKOPT`` - called every time process executes ``setsockopt`` system call. The context (``struct bpf_sockopt``) has associated socket (``sk``) and all input arguments: ``level``, ``optname``, ``optval`` and ``optlen``. BPF_CGROUP_SETSOCKOPT ===================== ``BPF_CGROUP_SETSOCKOPT`` is triggered *before* the kernel handling of sockopt and it has writable context: it can modify the supplied arguments before passing them down to the kernel. This hook has access to the cgroup and socket local storage. If BPF program sets ``optlen`` to -1, the control will be returned back to the userspace after all other BPF programs in the cgroup chain finish (i.e. kernel ``setsockopt`` handling will *not* be executed). Note, that ``optlen`` can not be increased beyond the user-supplied value. It can only be decreased or set to -1. Any other value will trigger ``EFAULT``. Return Type ----------- * ``0`` - reject the syscall, ``EPERM`` will be returned to the userspace. * ``1`` - success, continue with next BPF program in the cgroup chain. BPF_CGROUP_GETSOCKOPT ===================== ``BPF_CGROUP_GETSOCKOPT`` is triggered *after* the kernel handing of sockopt. The BPF hook can observe ``optval``, ``optlen`` and ``retval`` if it's interested in whatever kernel has returned. BPF hook can override the values above, adjust ``optlen`` and reset ``retval`` to 0. If ``optlen`` has been increased above initial ``getsockopt`` value (i.e. userspace buffer is too small), ``EFAULT`` is returned. This hook has access to the cgroup and socket local storage. Note, that the only acceptable value to set to ``retval`` is 0 and the original value that the kernel returned. Any other value will trigger ``EFAULT``. Return Type ----------- * ``0`` - reject the syscall, ``EPERM`` will be returned to the userspace. * ``1`` - success: copy ``optval`` and ``optlen`` to userspace, return ``retval`` from the syscall (note that this can be overwritten by the BPF program from the parent cgroup). Cgroup Inheritance ================== Suppose, there is the following cgroup hierarchy where each cgroup has ``BPF_CGROUP_GETSOCKOPT`` attached at each level with ``BPF_F_ALLOW_MULTI`` flag:: A (root, parent) \ B (child) When the application calls ``getsockopt`` syscall from the cgroup B, the programs are executed from the bottom up: B, A. First program (B) sees the result of kernel's ``getsockopt``. It can optionally adjust ``optval``, ``optlen`` and reset ``retval`` to 0. After that control will be passed to the second (A) program which will see the same context as B including any potential modifications. Same for ``BPF_CGROUP_SETSOCKOPT``: if the program is attached to A and B, the trigger order is B, then A. If B does any changes to the input arguments (``level``, ``optname``, ``optval``, ``optlen``), then the next program in the chain (A) will see those changes, *not* the original input ``setsockopt`` arguments. The potentially modified values will be then passed down to the kernel. Example ======= See ``tools/testing/selftests/bpf/progs/sockopt_sk.c`` for an example of BPF program that handles socket options. |