Commit 8a021e7f authored by Andrei Matei's avatar Andrei Matei Committed by Andrii Nakryiko

bpf: Simplify checking size of helper accesses

This patch simplifies the verification of size arguments associated to
pointer arguments to helpers and kfuncs. Many helpers take a pointer
argument followed by the size of the memory access performed to be
performed through that pointer. Before this patch, the handling of the
size argument in check_mem_size_reg() was confusing and wasteful: if the
size register's lower bound was 0, then the verification was done twice:
once considering the size of the access to be the lower-bound of the
respective argument, and once considering the upper bound (even if the
two are the same). The upper bound checking is a super-set of the
lower-bound checking(*), except: the only point of the lower-bound check
is to handle the case where zero-sized-accesses are explicitly not
allowed and the lower-bound is zero. This static condition is now
checked explicitly, replacing a much more complex, expensive and
confusing verification call to check_helper_mem_access().

Error messages change in this patch. Before, messages about illegal
zero-size accesses depended on the type of the pointer and on other
conditions, and sometimes the message was plain wrong: in some tests
that changed you'll see that the old message was something like "R1 min
value is outside of the allowed memory range", where R1 is the pointer
register; the error was wrongly claiming that the pointer was bad
instead of the size being bad. Other times the information that the size
came for a register with a possible range of values was wrong, and the
error presented the size as a fixed zero. Now the errors refer to the
right register. However, the old error messages did contain useful
information about the pointer register which is now lost; recovering
this information was deemed not important enough.

(*) Besides standing to reason that the checks for a bigger size access
are a super-set of the checks for a smaller size access, I have also
mechanically verified this by reading the code for all types of
pointers. I could convince myself that it's true for all but
PTR_TO_BTF_ID (check_ptr_to_btf_access). There, simply looking
line-by-line does not immediately prove what we want. If anyone has any
qualms, let me know.
Signed-off-by: default avatarAndrei Matei <andreimatei1@gmail.com>
Signed-off-by: default avatarAndrii Nakryiko <andrii@kernel.org>
Acked-by: default avatarAndrii Nakryiko <andrii@kernel.org>
Link: https://lore.kernel.org/bpf/20231221232225.568730-2-andreimatei1@gmail.com
parent 2ab1efad
...@@ -7279,12 +7279,10 @@ static int check_mem_size_reg(struct bpf_verifier_env *env, ...@@ -7279,12 +7279,10 @@ static int check_mem_size_reg(struct bpf_verifier_env *env,
return -EACCES; return -EACCES;
} }
if (reg->umin_value == 0) { if (reg->umin_value == 0 && !zero_size_allowed) {
err = check_helper_mem_access(env, regno - 1, 0, verbose(env, "R%d invalid zero-sized read: u64=[%lld,%lld]\n",
zero_size_allowed, regno, reg->umin_value, reg->umax_value);
meta); return -EACCES;
if (err)
return err;
} }
if (reg->umax_value >= BPF_MAX_VAR_SIZ) { if (reg->umax_value >= BPF_MAX_VAR_SIZ) {
......
...@@ -91,7 +91,7 @@ l0_%=: exit; \ ...@@ -91,7 +91,7 @@ l0_%=: exit; \
SEC("tracepoint") SEC("tracepoint")
__description("helper access to map: empty range") __description("helper access to map: empty range")
__failure __msg("invalid access to map value, value_size=48 off=0 size=0") __failure __msg("R2 invalid zero-sized read")
__naked void access_to_map_empty_range(void) __naked void access_to_map_empty_range(void)
{ {
asm volatile (" \ asm volatile (" \
...@@ -221,7 +221,7 @@ l0_%=: exit; \ ...@@ -221,7 +221,7 @@ l0_%=: exit; \
SEC("tracepoint") SEC("tracepoint")
__description("helper access to adjusted map (via const imm): empty range") __description("helper access to adjusted map (via const imm): empty range")
__failure __msg("invalid access to map value, value_size=48 off=4 size=0") __failure __msg("R2 invalid zero-sized read")
__naked void via_const_imm_empty_range(void) __naked void via_const_imm_empty_range(void)
{ {
asm volatile (" \ asm volatile (" \
...@@ -386,7 +386,7 @@ l0_%=: exit; \ ...@@ -386,7 +386,7 @@ l0_%=: exit; \
SEC("tracepoint") SEC("tracepoint")
__description("helper access to adjusted map (via const reg): empty range") __description("helper access to adjusted map (via const reg): empty range")
__failure __msg("R1 min value is outside of the allowed memory range") __failure __msg("R2 invalid zero-sized read")
__naked void via_const_reg_empty_range(void) __naked void via_const_reg_empty_range(void)
{ {
asm volatile (" \ asm volatile (" \
...@@ -556,7 +556,7 @@ l0_%=: exit; \ ...@@ -556,7 +556,7 @@ l0_%=: exit; \
SEC("tracepoint") SEC("tracepoint")
__description("helper access to adjusted map (via variable): empty range") __description("helper access to adjusted map (via variable): empty range")
__failure __msg("R1 min value is outside of the allowed memory range") __failure __msg("R2 invalid zero-sized read")
__naked void map_via_variable_empty_range(void) __naked void map_via_variable_empty_range(void)
{ {
asm volatile (" \ asm volatile (" \
......
...@@ -64,7 +64,7 @@ __naked void load_bytes_negative_len_2(void) ...@@ -64,7 +64,7 @@ __naked void load_bytes_negative_len_2(void)
SEC("tc") SEC("tc")
__description("raw_stack: skb_load_bytes, zero len") __description("raw_stack: skb_load_bytes, zero len")
__failure __msg("invalid zero-sized read") __failure __msg("R4 invalid zero-sized read: u64=[0,0]")
__naked void skb_load_bytes_zero_len(void) __naked void skb_load_bytes_zero_len(void)
{ {
asm volatile (" \ asm volatile (" \
......
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