__libdw_form_val_compute_len handles DW_FORM_indirect by reading the
real form as an uleb128 and then computing the length of a value of
that form. The guard that rejects a nested DW_FORM_indirect or a
DW_FORM_implicit_const inspected *valp instead of the decoded form
value u128.
After get_uleb128 the cursor valp may point right at the end of the CU
data (get_uleb128 advances up to the section end), so dereferencing
*valp reads one byte past the buffer. A DW_FORM_indirect attribute
whose inner form uleb128 ends exactly at cu->endp triggers a one-byte
out-of-bounds read. This path is reached from dwarf_child() and
dwarf_getattrs() while skipping attribute values, which rely on
__libdw_form_val_len doing a safe bounds check.
Besides the overread, comparing *valp (the first byte of the value
data) rather than u128 (the form) is wrong: it can spuriously reject a
valid attribute whose value happens to start with 0x16 or 0x21.
Compare u128, which is already the decoded form and needs no further
dereference.
* libdw/libdw_form.c (__libdw_form_val_compute_len): Check the
decoded form u128 instead of dereferencing *valp for the nested
DW_FORM_indirect / DW_FORM_implicit_const guard.
Signed-off-by: Sayed Kaif <[email protected]>
---
diff --git a/libdw/libdw_form.c b/libdw/libdw_form.c
index 4004544..24622d7 100644
--- a/libdw/libdw_form.c
+++ b/libdw/libdw_form.c
@@ -126,7 +126,7 @@ __libdw_form_val_compute_len (struct Dwarf_CU *cu, unsigned
int form,
if (valp >= endp)
goto invalid;
get_uleb128 (u128, valp, endp);
- if (*valp == DW_FORM_indirect || *valp == DW_FORM_implicit_const)
+ if (u128 == DW_FORM_indirect || u128 == DW_FORM_implicit_const)
return (size_t) -1;
result = __libdw_form_val_len (cu, u128, valp);
if (result != (size_t) -1)