CVE-2021-29521
Specifying a negative dense shape in tf.raw_ops.SparseCountSparseOutput
results in a segmentation fault being thrown out from the standard library as
std::vector invariants are broken.
import tensorflow as tf
indices = tf.constant([], shape=[0, 0], dtype=tf.int64)
values = tf.constant([], shape=[0, 0], dtype=tf.int64)
dense_shape = tf.constant([-100, -100, -100], shape=[3], dtype=tf.int64)
weights = tf.constant([], shape=[0, 0], dtype=tf.int64)
tf.raw_ops.SparseCountSparseOutput(indices=indices, values=values, dense_shape=dense_shape, weights=weights, minlength=79, maxlength=96, binary_output=False)This is because the
implementation
assumes the first element of the dense shape is always positive and uses it to
initialize a BatchedMap<T> (i.e.,
std::vector<absl::flat_hash_map<int64,T>>)
data structure.
bool is_1d = shape.NumElements() == 1;
int num_batches = is_1d ? 1 : shape.flat<int64>()(0);
...
auto per_batch_counts = BatchedMap<W>(num_batches);If the shape tensor has more than one element, num_batches is the first
value in shape.
Ensuring that the dense_shape argument is a valid tensor shape (that is, all
elements are non-negative) solves this issue.
We have patched the issue in GitHub commit c57c0b9f3a4f8684f3489dd9a9ec627ad8b599f5.
The fix will be included in TensorFlow 2.5.0. We will also cherrypick this commit on TensorFlow 2.4.2 and TensorFlow 2.3.3.
Please consult our security guide for more information regarding the security model and how to contact us with issues and questions.
This vulnerability has been reported by Yakun Zhang and Ying Wang of Baidu X-Team.