This is my first LKML email, so let me know if I'm doing something wrong! :) I believe I've found a bug in LLVM's generation of BPF bytecode, and would like to get advice on whether this is truly a bug before considering writing a patch. When storing an unpacked struct such as { i64, i32 } to the stack (as part of writing a struct-typed map key), LLVM 11.0.1 generates BPF bytecode like the following: ... 2: (b7) r1 = 2 3: (63) *(u32 *)(r10 -24) = r1 4: (b7) r1 = 4 5: (7b) *(u64 *)(r10 -32) = r1 ... 8: (bf) r3 = r10 9: (07) r3 += -32 ... 13: (85) call bpf_map_update_elem#2 invalid indirect read from stack off -32+12 size 16 The verifier understandably complains about this when verifying a call that uses these stack slots, such as bpf_map_update_elem, because the associated map definition has a key size of 16 bytes, not 12 bytes as this bytecode would suggest. In my particular case that generated this code, my frontend doesn't have the notion of packed structs, so I can't workaround this by making the struct packed. My belief is that for unpacked structs, LLVM should emit these stores as 64-bit stores, which should be OK since the padding bytes are going to be zero (from my limited understanding of LLVM structs). Does this seem like a reasonable change to make? I'm also unable to test this on LLVM 12 (my language hasn't yet updated to support that version), so this could have possibly already been fixed; please let me know if so! Julian