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eed807f626
Instead of forcing all arguments to be referenced pointers with non-zero reg->ref_obj_id, tweak the definition of KF_TRUSTED_ARGS to mean that only PTR_TO_BTF_ID (and socket types translated to PTR_TO_BTF_ID) have that constraint, and require their offset to be set to 0. The rest of pointer types are also accomodated in this definition of trusted pointers, but with more relaxed rules regarding offsets. The inherent meaning of setting this flag is that all kfunc pointer arguments have a guranteed lifetime, and kernel object pointers (PTR_TO_BTF_ID, PTR_TO_CTX) are passed in their unmodified form (with offset 0). In general, this is not true for PTR_TO_BTF_ID as it can be obtained using pointer walks. Signed-off-by: Kumar Kartikeya Dwivedi <memxor@gmail.com> Signed-off-by: Lorenzo Bianconi <lorenzo@kernel.org> Link: https://lore.kernel.org/r/cdede0043c47ed7a357f0a915d16f9ce06a1d589.1663778601.git.lorenzo@kernel.org Signed-off-by: Alexei Starovoitov <ast@kernel.org>
194 lines
7.4 KiB
ReStructuredText
194 lines
7.4 KiB
ReStructuredText
=============================
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BPF Kernel Functions (kfuncs)
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=============================
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1. Introduction
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===============
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BPF Kernel Functions or more commonly known as kfuncs are functions in the Linux
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kernel which are exposed for use by BPF programs. Unlike normal BPF helpers,
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kfuncs do not have a stable interface and can change from one kernel release to
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another. Hence, BPF programs need to be updated in response to changes in the
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kernel.
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2. Defining a kfunc
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===================
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There are two ways to expose a kernel function to BPF programs, either make an
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existing function in the kernel visible, or add a new wrapper for BPF. In both
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cases, care must be taken that BPF program can only call such function in a
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valid context. To enforce this, visibility of a kfunc can be per program type.
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If you are not creating a BPF wrapper for existing kernel function, skip ahead
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to :ref:`BPF_kfunc_nodef`.
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2.1 Creating a wrapper kfunc
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----------------------------
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When defining a wrapper kfunc, the wrapper function should have extern linkage.
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This prevents the compiler from optimizing away dead code, as this wrapper kfunc
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is not invoked anywhere in the kernel itself. It is not necessary to provide a
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prototype in a header for the wrapper kfunc.
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An example is given below::
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/* Disables missing prototype warnings */
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__diag_push();
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__diag_ignore_all("-Wmissing-prototypes",
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"Global kfuncs as their definitions will be in BTF");
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struct task_struct *bpf_find_get_task_by_vpid(pid_t nr)
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{
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return find_get_task_by_vpid(nr);
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}
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__diag_pop();
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A wrapper kfunc is often needed when we need to annotate parameters of the
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kfunc. Otherwise one may directly make the kfunc visible to the BPF program by
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registering it with the BPF subsystem. See :ref:`BPF_kfunc_nodef`.
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2.2 Annotating kfunc parameters
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-------------------------------
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Similar to BPF helpers, there is sometime need for additional context required
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by the verifier to make the usage of kernel functions safer and more useful.
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Hence, we can annotate a parameter by suffixing the name of the argument of the
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kfunc with a __tag, where tag may be one of the supported annotations.
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2.2.1 __sz Annotation
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---------------------
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This annotation is used to indicate a memory and size pair in the argument list.
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An example is given below::
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void bpf_memzero(void *mem, int mem__sz)
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{
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...
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}
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Here, the verifier will treat first argument as a PTR_TO_MEM, and second
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argument as its size. By default, without __sz annotation, the size of the type
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of the pointer is used. Without __sz annotation, a kfunc cannot accept a void
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pointer.
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.. _BPF_kfunc_nodef:
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2.3 Using an existing kernel function
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-------------------------------------
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When an existing function in the kernel is fit for consumption by BPF programs,
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it can be directly registered with the BPF subsystem. However, care must still
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be taken to review the context in which it will be invoked by the BPF program
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and whether it is safe to do so.
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2.4 Annotating kfuncs
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---------------------
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In addition to kfuncs' arguments, verifier may need more information about the
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type of kfunc(s) being registered with the BPF subsystem. To do so, we define
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flags on a set of kfuncs as follows::
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BTF_SET8_START(bpf_task_set)
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BTF_ID_FLAGS(func, bpf_get_task_pid, KF_ACQUIRE | KF_RET_NULL)
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BTF_ID_FLAGS(func, bpf_put_pid, KF_RELEASE)
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BTF_SET8_END(bpf_task_set)
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This set encodes the BTF ID of each kfunc listed above, and encodes the flags
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along with it. Ofcourse, it is also allowed to specify no flags.
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2.4.1 KF_ACQUIRE flag
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---------------------
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The KF_ACQUIRE flag is used to indicate that the kfunc returns a pointer to a
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refcounted object. The verifier will then ensure that the pointer to the object
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is eventually released using a release kfunc, or transferred to a map using a
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referenced kptr (by invoking bpf_kptr_xchg). If not, the verifier fails the
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loading of the BPF program until no lingering references remain in all possible
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explored states of the program.
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2.4.2 KF_RET_NULL flag
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----------------------
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The KF_RET_NULL flag is used to indicate that the pointer returned by the kfunc
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may be NULL. Hence, it forces the user to do a NULL check on the pointer
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returned from the kfunc before making use of it (dereferencing or passing to
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another helper). This flag is often used in pairing with KF_ACQUIRE flag, but
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both are orthogonal to each other.
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2.4.3 KF_RELEASE flag
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---------------------
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The KF_RELEASE flag is used to indicate that the kfunc releases the pointer
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passed in to it. There can be only one referenced pointer that can be passed in.
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All copies of the pointer being released are invalidated as a result of invoking
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kfunc with this flag.
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2.4.4 KF_KPTR_GET flag
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----------------------
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The KF_KPTR_GET flag is used to indicate that the kfunc takes the first argument
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as a pointer to kptr, safely increments the refcount of the object it points to,
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and returns a reference to the user. The rest of the arguments may be normal
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arguments of a kfunc. The KF_KPTR_GET flag should be used in conjunction with
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KF_ACQUIRE and KF_RET_NULL flags.
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2.4.5 KF_TRUSTED_ARGS flag
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--------------------------
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The KF_TRUSTED_ARGS flag is used for kfuncs taking pointer arguments. It
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indicates that the all pointer arguments will always have a guaranteed lifetime,
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and pointers to kernel objects are always passed to helpers in their unmodified
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form (as obtained from acquire kfuncs).
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It can be used to enforce that a pointer to a refcounted object acquired from a
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kfunc or BPF helper is passed as an argument to this kfunc without any
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modifications (e.g. pointer arithmetic) such that it is trusted and points to
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the original object.
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Meanwhile, it is also allowed pass pointers to normal memory to such kfuncs,
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but those can have a non-zero offset.
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This flag is often used for kfuncs that operate (change some property, perform
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some operation) on an object that was obtained using an acquire kfunc. Such
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kfuncs need an unchanged pointer to ensure the integrity of the operation being
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performed on the expected object.
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2.4.6 KF_SLEEPABLE flag
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-----------------------
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The KF_SLEEPABLE flag is used for kfuncs that may sleep. Such kfuncs can only
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be called by sleepable BPF programs (BPF_F_SLEEPABLE).
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2.4.7 KF_DESTRUCTIVE flag
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--------------------------
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The KF_DESTRUCTIVE flag is used to indicate functions calling which is
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destructive to the system. For example such a call can result in system
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rebooting or panicking. Due to this additional restrictions apply to these
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calls. At the moment they only require CAP_SYS_BOOT capability, but more can be
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added later.
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2.5 Registering the kfuncs
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--------------------------
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Once the kfunc is prepared for use, the final step to making it visible is
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registering it with the BPF subsystem. Registration is done per BPF program
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type. An example is shown below::
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BTF_SET8_START(bpf_task_set)
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BTF_ID_FLAGS(func, bpf_get_task_pid, KF_ACQUIRE | KF_RET_NULL)
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BTF_ID_FLAGS(func, bpf_put_pid, KF_RELEASE)
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BTF_SET8_END(bpf_task_set)
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static const struct btf_kfunc_id_set bpf_task_kfunc_set = {
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.owner = THIS_MODULE,
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.set = &bpf_task_set,
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};
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static int init_subsystem(void)
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{
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return register_btf_kfunc_id_set(BPF_PROG_TYPE_TRACING, &bpf_task_kfunc_set);
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}
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late_initcall(init_subsystem);
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