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authorJoel Brobecker <brobecker@gnat.com>2010-11-23 01:07:22 +0000
committerJoel Brobecker <brobecker@gnat.com>2010-11-23 01:07:22 +0000
commit27f2a97baff4c840ed98027b7eab67d905fe93c8 (patch)
tree937b7d68c6d702776eae25e4514a0133920ef607 /gdb/ada-lang.c
parent1324a0d9b562a38f4ce23c8835e1dacbbe3b51b9 (diff)
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GDB SEGV while trying to print uninitialize variant record
We have a variant record whose value is defined as follow: type Discriminant_Record (Num1, Num2, Num3, Num4 : Natural) is record Field1 : My_Record_Array (1 .. Num2); Field2 : My_Record_Array (Num1 .. 10); Field3 : My_Record_Array (Num1 .. Num2); Field4 : My_Record_Array (Num3 .. Num2); Field5 : My_Record_Array (Num4 .. Num2); end record; Dire : Discriminant_Record (1, 7, 3, 0); However, we're trying to print "Dire" before it is elaborated. This is common if one breaks on a function and then starts doing "info locals" for instance. What happens is that GDB reads bogus values for fields Num1 to Num4, and deduces a bogus (ginormouos) size for component "Field1". The length is so large that it then later causes an overflow in the overall record length computation. Things go downhill from there, because length(field1) > length(record). So, when after we've fetched the value of the record based on the computed size, we crash trying to access unallocated memory when accessing field1... The first fix we can do is to check the size of the field against the maximum object size. If it exceeds that size, then we know the record will also exceed that size... gdb/ChangeLog: * ada-lang.c (ada_template_to_fixed_record_type_1): For dynamic fields, check the field size against the maximum object size.
Diffstat (limited to 'gdb/ada-lang.c')
-rw-r--r--gdb/ada-lang.c14
1 files changed, 14 insertions, 0 deletions
diff --git a/gdb/ada-lang.c b/gdb/ada-lang.c
index 15c96b7..341db4a 100644
--- a/gdb/ada-lang.c
+++ b/gdb/ada-lang.c
@@ -7122,9 +7122,23 @@ ada_template_to_fixed_record_type_1 (struct type *type,
field_type = ada_get_base_type (field_type);
field_type = ada_to_fixed_type (field_type, field_valaddr,
field_address, dval, 0);
+ /* If the field size is already larger than the maximum
+ object size, then the record itself will necessarily
+ be larger than the maximum object size. We need to make
+ this check now, because the size might be so ridiculously
+ large (due to an uninitialized variable in the inferior)
+ that it would cause an overflow when adding it to the
+ record size. */
+ check_size (field_type);
TYPE_FIELD_TYPE (rtype, f) = field_type;
TYPE_FIELD_NAME (rtype, f) = TYPE_FIELD_NAME (type, f);
+ /* The multiplication can potentially overflow. But because
+ the field length has been size-checked just above, and
+ assuming that the maximum size is a reasonable value,
+ an overflow should not happen in practice. So rather than
+ adding overflow recovery code to this already complex code,
+ we just assume that it's not going to happen. */
bit_incr = fld_bit_len =
TYPE_LENGTH (TYPE_FIELD_TYPE (rtype, f)) * TARGET_CHAR_BIT;
}