linux.git - Linux kernel source tree

Age	Commit message (Collapse)	Author
2026-04-27	bpf: range_within() must check cnum ranges instead of min/max pairs	Eduard Zingerman
	states.c:range_within() must be updated to properly check if cnum-based range in an old state is a superset of a range in the cur state. Currently it makes the decision using min/max accessors: reg_umin(old) <= reg_umin(cur) <= reg_umax(old) This is wrong for cnums that cross both UT_MAX/0 and ST_MAX/ST_MIN boundaries. Consider cnum32{base=0x7FFFFFF0, size=0x80000020}, which represents values [0x7FFFFFF0, ..., U32_MAX, 0, ..., 0x10]. Its projections are u32_min/max=0/U32_MAX, s32_min/max=S32_MIN/MAX. A register with range [0x100, 0x200] (which lies entirely in the gap of the wrapping range) would pass the min/max check despite having no overlap with the actual cnum arc. This commit replaces min/max comparison with cnum{32,64}_is_subset() operation. The operation implementation is verified using cbmc model checker in [1]. [1] https://github.com/eddyz87/cnum-verif/ Fixes: bbc631085503 ("bpf: replace min/max fields with struct cnum{32,64}") Signed-off-by: Eduard Zingerman <eddyz87@gmail.com> Link: https://lore.kernel.org/r/20260425-cnum-range-within-v1-1-2fdca70cb09d@gmail.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2026-04-24	bpf: representation and basic operations on circular numbers	Eduard Zingerman
	This commit adds basic definitions for cnum32/cnum64. This is a unified numeric range representation for signed and unsigned domains. Inspired by an old post from Shung-Hsi Yu [1] and paper [2]. Operations correctness is verified using cbmc model checker, tests source code can be found in a separate repo [3]. The cnum64_cnum32_intersect() function is notable, because it handled several cases verifier.c:deduce_bounds_64_from_32() does not. Given: - a is a 64-bit range - b is a 32-bit range - t is a refined 64-bit range, such that ∀ v ∈ a, (u32)v ∈ b: v ∈ t. cnum64_cnum32_intersect() makes the following deductions: (A): 'b' is a sub-range of the first or the last 32-bit sub-range of 'a': 64-bit number axis ---> N2^32 (N+1)2^32 (N+2)2^32 (N+3)2^32 \|\|------\|---\|=====\|-------\|\|----------\|=====\|-------\|\|----------\|=====\|----\|--\|\| \| \|< b >\| \|< b >\| \|< b >\| \| \| \| \| \| \|<--+--------------------------- a ---------------------------+--->\| \| \| \|<-------------------------- t -------------------------->\| (B) 'b' does not intersect with the first of the last 32-bit sub-range of 'a': N2^32 (N+1)2^32 (N+2)2^32 (N+3)2^32 \|\|--\|=====\|----\|----------\|\|--\|=====\|---------------\|\|--\|=====\|------------\|--\|\| \|< b >\| \| \|< b >\| \|< b >\| \| \| \| \| \| \|<-------------+--------- a -------------------\|----------->\| \| \| \|<-------- t ------------------>\| (C) 'b' crosses 0/U32_MAX boundary: N2^32 (N+1)2^32 (N+2)2^32 (N+3)2^32 \|\|===\|---------\|------\|===\|\|===\|----------------\|===\|\|===\|---------\|------\|===\|\| \|b >\| \| \|< b\|\|b >\| \|< b\|\|b >\| \| \|< b\| \| \| \| \| \|<-----+----------------- a --------------+-------->\| \| \| \|<---------------- t ------------->\| Current implementation of deduce_bounds_64_from_32() only handles case (A). [1] https://lore.kernel.org/all/ZTZxoDJJbX9mrQ9w@u94a/ [2] https://jorgenavas.github.io/papers/ACM-TOPLAS-wrapped.pdf [3] https://github.com/eddyz87/cnum-verif/tree/master Signed-off-by: Eduard Zingerman <eddyz87@gmail.com> Link: https://lore.kernel.org/r/20260424-cnums-everywhere-rfc-v1-v3-1-ca434b39a486@gmail.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>