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authorAlexei Starovoitov <ast@kernel.org>2023-09-16 18:34:23 +0200
committerAlexei Starovoitov <ast@kernel.org>2023-09-16 18:36:44 +0200
commitec6f1b4db95b7eedb3fe85f4f14e08fa0e9281c3 (patch)
tree2094312e53ff2b27e6aa2cb71fd29cc5b41175c4 /net/core
parentMerge branch 'arm32-bpf-add-support-for-cpuv4-insns' (diff)
parentselftests/bpf: Add tests for BPF exceptions (diff)
downloadlinux-ec6f1b4db95b7eedb3fe85f4f14e08fa0e9281c3.tar.xz
linux-ec6f1b4db95b7eedb3fe85f4f14e08fa0e9281c3.zip
Merge branch 'exceptions-1-2'
Kumar Kartikeya Dwivedi says: ==================== Exceptions - 1/2 This series implements the _first_ part of the runtime and verifier support needed to enable BPF exceptions. Exceptions thrown from programs are processed as an immediate exit from the program, which unwinds all the active stack frames until the main stack frame, and returns to the BPF program's caller. The ability to perform this unwinding safely allows the program to test conditions that are always true at runtime but which the verifier has no visibility into. Thus, it also reduces verification effort by safely terminating redundant paths that can be taken within a program. The patches to perform runtime resource cleanup during the frame-by-frame unwinding will be posted as a follow-up to this set. It must be noted that exceptions are not an error handling mechanism for unlikely runtime conditions, but a way to safely terminate the execution of a program in presence of conditions that should never occur at runtime. They are meant to serve higher-level primitives such as program assertions. The following kfuncs and macros are introduced: Assertion macros are also introduced, please see patch 13 for their documentation. /* Description * Throw a BPF exception from the program, immediately terminating its * execution and unwinding the stack. The supplied 'cookie' parameter * will be the return value of the program when an exception is thrown, * and the default exception callback is used. Otherwise, if an exception * callback is set using the '__exception_cb(callback)' declaration tag * on the main program, the 'cookie' parameter will be the callback's only * input argument. * * Thus, in case of default exception callback, 'cookie' is subjected to * constraints on the program's return value (as with R0 on exit). * Otherwise, the return value of the marked exception callback will be * subjected to the same checks. * * Note that throwing an exception with lingering resources (locks, * references, etc.) will lead to a verification error. * * Note that callbacks *cannot* call this helper. * Returns * Never. * Throws * An exception with the specified 'cookie' value. */ extern void bpf_throw(u64 cookie) __ksym; /* This macro must be used to mark the exception callback corresponding to the * main program. For example: * * int exception_cb(u64 cookie) { * return cookie; * } * * SEC("tc") * __exception_cb(exception_cb) * int main_prog(struct __sk_buff *ctx) { * ... * return TC_ACT_OK; * } * * Here, exception callback for the main program will be 'exception_cb'. Note * that this attribute can only be used once, and multiple exception callbacks * specified for the main program will lead to verification error. */ \#define __exception_cb(name) __attribute__((btf_decl_tag("exception_callback:" #name))) As such, a program can only install an exception handler once for the lifetime of a BPF program, and this handler cannot be changed at runtime. The purpose of the handler is to simply interpret the cookie value supplied by the bpf_throw call, and execute user-defined logic corresponding to it. The primary purpose of allowing a handler is to control the return value of the program. The default handler returns the cookie value passed to bpf_throw when an exception is thrown. Fixing the handler for the lifetime of the program eliminates tricky and expensive handling in case of runtime changes of the handler callback when programs begin to nest, where it becomes more complex to save and restore the active handler at runtime. This version of offline unwinding based BPF exceptions is truly zero overhead, with the exception of generation of a default callback which contains a few instructions to return a default return value (0) when no exception callback is supplied by the user. Callbacks are disallowed from throwing BPF exceptions for now, since such exceptions need to cross the callback helper boundary (and therefore must care about unwinding kernel state), however it is possible to lift this restriction in the future follow-up. Exceptions terminate propogating at program boundaries, hence both BPF_PROG_TYPE_EXT and tail call targets return to their caller context the return value of the exception callback, in the event that they throw an exception. Thus, exceptions do not cross extension or tail call boundary. However, this is mostly an implementation choice, and can be changed to suit more user-friendly semantics. Changelog: ---------- v2 -> v3 v2: https://lore.kernel.org/bpf/20230809114116.3216687-1-memxor@gmail.com * Add Dave's Acked-by. * Address all comments from Alexei. * Use bpf_is_subprog to check for main prog in bpf_stack_walker. * Drop accidental leftover hunk in libbpf patch. * Split libbpf patch's refactoring to aid review * Disable fentry/fexit in addition to freplace for exception cb. * Add selftests for fentry/fexit/freplace on exception cb and main prog. * Use btf_find_by_name_kind in bpf_find_exception_callback_insn_off (Martin) * Split KASAN patch into two to aid backporting (Andrey) * Move exception callback append step to bpf_object__reloacte (Andrii) * Ensure that the exception callback name is unique (Andrii) * Keep ASM implementation of assertion macros instead of C, as it does not achieve intended results for bpf_assert_range and other cases. v1 -> v2 v1: https://lore.kernel.org/bpf/20230713023232.1411523-1-memxor@gmail.com * Address all comments from Alexei. * Fix a few bugs and corner cases in the implementations found during testing. Also add new selftests for these cases. * Reinstate patch to consider ksym.end part of the program (but reworked to cover other corner cases). * Implement new style of tagging exception callbacks, add libbpf support for the new declaration tag. * Limit support to 64-bit integer types for assertion macros. The compiler ends up performing shifts or bitwise and operations when finally making use of the value, which defeats the purpose of the macro. On noalu32 mode, the shifts may also happen before use, hurting reliability. * Comprehensively test assertion macros and their side effects on the verifier state, register bounds, etc. * Fix a KASAN false positive warning. RFC v1 -> v1 RFC v1: https://lore.kernel.org/bpf/20230405004239.1375399-1-memxor@gmail.com * Completely rework the unwinding infrastructure to use offline unwinding support. * Remove the runtime exception state and program rewriting code. * Make bpf_set_exception_callback idempotent to avoid vexing synchronization and state clobbering issues in presence of program nesting. * Disable bpf_throw within callback functions, for now. * Allow bpf_throw in tail call programs and extension programs, removing limitations of rewrite based unwinding. * Expand selftests. ==================== Link: https://lore.kernel.org/r/20230912233214.1518551-1-memxor@gmail.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
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