/** * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. * SPDX-License-Identifier: Apache-2.0. */ #include #ifndef BYO_CRYPTO extern struct aws_hash *aws_sha256_default_new(struct aws_allocator *allocator); extern struct aws_hash *aws_sha1_default_new(struct aws_allocator *allocator); extern struct aws_hash *aws_md5_default_new(struct aws_allocator *allocator); static aws_hash_new_fn *s_sha256_new_fn = aws_sha256_default_new; static aws_hash_new_fn *s_sha1_new_fn = aws_sha1_default_new; static aws_hash_new_fn *s_md5_new_fn = aws_md5_default_new; #else static struct aws_hash *aws_hash_new_abort(struct aws_allocator *allocator) { (void)allocator; abort(); } static aws_hash_new_fn *s_sha256_new_fn = aws_hash_new_abort; static aws_hash_new_fn *s_sha1_new_fn = aws_hash_new_abort; static aws_hash_new_fn *s_md5_new_fn = aws_hash_new_abort; #endif struct aws_hash *aws_sha1_new(struct aws_allocator *allocator) { return s_sha1_new_fn(allocator); } struct aws_hash *aws_sha256_new(struct aws_allocator *allocator) { return s_sha256_new_fn(allocator); } struct aws_hash *aws_md5_new(struct aws_allocator *allocator) { return s_md5_new_fn(allocator); } void aws_set_md5_new_fn(aws_hash_new_fn *fn) { s_md5_new_fn = fn; } void aws_set_sha256_new_fn(aws_hash_new_fn *fn) { s_sha256_new_fn = fn; } void aws_set_sha1_new_fn(aws_hash_new_fn *fn) { s_sha1_new_fn = fn; } void aws_hash_destroy(struct aws_hash *hash) { hash->vtable->destroy(hash); } int aws_hash_update(struct aws_hash *hash, const struct aws_byte_cursor *to_hash) { return hash->vtable->update(hash, to_hash); } int aws_hash_finalize(struct aws_hash *hash, struct aws_byte_buf *output, size_t truncate_to) { if (truncate_to && truncate_to < hash->digest_size) { size_t available_buffer = output->capacity - output->len; if (available_buffer < truncate_to) { return aws_raise_error(AWS_ERROR_SHORT_BUFFER); } uint8_t tmp_output[128] = {0}; AWS_ASSERT(sizeof(tmp_output) >= hash->digest_size); struct aws_byte_buf tmp_out_buf = aws_byte_buf_from_array(tmp_output, sizeof(tmp_output)); tmp_out_buf.len = 0; if (hash->vtable->finalize(hash, &tmp_out_buf)) { return AWS_OP_ERR; } memcpy(output->buffer + output->len, tmp_output, truncate_to); output->len += truncate_to; return AWS_OP_SUCCESS; } return hash->vtable->finalize(hash, output); } static inline int compute_hash( struct aws_hash *hash, const struct aws_byte_cursor *input, struct aws_byte_buf *output, size_t truncate_to) { if (!hash) { return aws_raise_error(AWS_ERROR_INVALID_ARGUMENT); } if (aws_hash_update(hash, input)) { aws_hash_destroy(hash); return AWS_OP_ERR; } if (aws_hash_finalize(hash, output, truncate_to)) { aws_hash_destroy(hash); return AWS_OP_ERR; } aws_hash_destroy(hash); return AWS_OP_SUCCESS; } int aws_md5_compute( struct aws_allocator *allocator, const struct aws_byte_cursor *input, struct aws_byte_buf *output, size_t truncate_to) { return compute_hash(aws_md5_new(allocator), input, output, truncate_to); } int aws_sha256_compute( struct aws_allocator *allocator, const struct aws_byte_cursor *input, struct aws_byte_buf *output, size_t truncate_to) { return compute_hash(aws_sha256_new(allocator), input, output, truncate_to); } int aws_sha1_compute( struct aws_allocator *allocator, const struct aws_byte_cursor *input, struct aws_byte_buf *output, size_t truncate_to) { return compute_hash(aws_sha1_new(allocator), input, output, truncate_to); }