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bpf: Allow narrow loads with offset > 0
Currently BPF verifier allows narrow loads for a context field only with offset zero. E.g. if there is a __u32 field then only the following loads are permitted: * off=0, size=1 (narrow); * off=0, size=2 (narrow); * off=0, size=4 (full). On the other hand LLVM can generate a load with offset different than zero that make sense from program logic point of view, but verifier doesn't accept it. E.g. tools/testing/selftests/bpf/sendmsg4_prog.c has code: #define DST_IP4 0xC0A801FEU /* 192.168.1.254 */ ... if ((ctx->user_ip4 >> 24) == (bpf_htonl(DST_IP4) >> 24) && where ctx is struct bpf_sock_addr. Some versions of LLVM can produce the following byte code for it: 8: 71 12 07 00 00 00 00 00 r2 = *(u8 *)(r1 + 7) 9: 67 02 00 00 18 00 00 00 r2 <<= 24 10: 18 03 00 00 00 00 00 fe 00 00 00 00 00 00 00 00 r3 = 4261412864 ll 12: 5d 32 07 00 00 00 00 00 if r2 != r3 goto +7 <LBB0_6> where `*(u8 *)(r1 + 7)` means narrow load for ctx->user_ip4 with size=1 and offset=3 (7 - sizeof(ctx->user_family) = 3). This load is currently rejected by verifier. Verifier code that rejects such loads is in bpf_ctx_narrow_access_ok() what means any is_valid_access implementation, that uses the function, works this way, e.g. bpf_skb_is_valid_access() for __sk_buff or sock_addr_is_valid_access() for bpf_sock_addr. The patch makes such loads supported. Offset can be in [0; size_default) but has to be multiple of load size. E.g. for __u32 field the following loads are supported now: * off=0, size=1 (narrow); * off=1, size=1 (narrow); * off=2, size=1 (narrow); * off=3, size=1 (narrow); * off=0, size=2 (narrow); * off=2, size=2 (narrow); * off=0, size=4 (full). Reported-by: Yonghong Song <yhs@fb.com> Signed-off-by: Andrey Ignatov <rdna@fb.com> Signed-off-by: Alexei Starovoitov <ast@kernel.org>
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@ -668,24 +668,10 @@ static inline u32 bpf_ctx_off_adjust_machine(u32 size)
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return size;
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}
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static inline bool bpf_ctx_narrow_align_ok(u32 off, u32 size_access,
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u32 size_default)
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{
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size_default = bpf_ctx_off_adjust_machine(size_default);
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size_access = bpf_ctx_off_adjust_machine(size_access);
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#ifdef __LITTLE_ENDIAN
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return (off & (size_default - 1)) == 0;
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#else
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return (off & (size_default - 1)) + size_access == size_default;
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#endif
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}
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static inline bool
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bpf_ctx_narrow_access_ok(u32 off, u32 size, u32 size_default)
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{
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return bpf_ctx_narrow_align_ok(off, size, size_default) &&
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size <= size_default && (size & (size - 1)) == 0;
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return size <= size_default && (size & (size - 1)) == 0;
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}
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#define bpf_classic_proglen(fprog) (fprog->len * sizeof(fprog->filter[0]))
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@ -5718,10 +5718,10 @@ static int convert_ctx_accesses(struct bpf_verifier_env *env)
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int i, cnt, size, ctx_field_size, delta = 0;
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const int insn_cnt = env->prog->len;
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struct bpf_insn insn_buf[16], *insn;
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u32 target_size, size_default, off;
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struct bpf_prog *new_prog;
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enum bpf_access_type type;
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bool is_narrower_load;
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u32 target_size;
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if (ops->gen_prologue || env->seen_direct_write) {
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if (!ops->gen_prologue) {
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@ -5814,9 +5814,9 @@ static int convert_ctx_accesses(struct bpf_verifier_env *env)
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* we will apply proper mask to the result.
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*/
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is_narrower_load = size < ctx_field_size;
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size_default = bpf_ctx_off_adjust_machine(ctx_field_size);
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off = insn->off;
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if (is_narrower_load) {
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u32 size_default = bpf_ctx_off_adjust_machine(ctx_field_size);
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u32 off = insn->off;
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u8 size_code;
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if (type == BPF_WRITE) {
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@ -5844,12 +5844,23 @@ static int convert_ctx_accesses(struct bpf_verifier_env *env)
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}
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if (is_narrower_load && size < target_size) {
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if (ctx_field_size <= 4)
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u8 shift = (off & (size_default - 1)) * 8;
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if (ctx_field_size <= 4) {
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if (shift)
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insn_buf[cnt++] = BPF_ALU32_IMM(BPF_RSH,
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insn->dst_reg,
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shift);
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insn_buf[cnt++] = BPF_ALU32_IMM(BPF_AND, insn->dst_reg,
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(1 << size * 8) - 1);
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else
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} else {
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if (shift)
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insn_buf[cnt++] = BPF_ALU64_IMM(BPF_RSH,
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insn->dst_reg,
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shift);
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insn_buf[cnt++] = BPF_ALU64_IMM(BPF_AND, insn->dst_reg,
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(1 << size * 8) - 1);
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}
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}
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new_prog = bpf_patch_insn_data(env, i + delta, insn_buf, cnt);
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