openssl/test/heartbeat_test.c

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/*-
* Unit test for TLS heartbeats.
*
* Acts as a regression test against the Heartbleed bug (CVE-2014-0160).
*
* Author: Mike Bland (mbland@acm.org, http://mike-bland.com/)
* Date: 2014-04-12
* License: Creative Commons Attribution 4.0 International (CC By 4.0)
* http://creativecommons.org/licenses/by/4.0/deed.en_US
*
* OUTPUT
* ------
* The program returns zero on success. It will print a message with a count
* of the number of failed tests and return nonzero if any tests fail.
*
* It will print the contents of the request and response buffers for each
* failing test. In a "fixed" version, all the tests should pass and there
* should be no output.
*
* In a "bleeding" version, you'll see:
*
* test_dtls1_heartbleed failed:
* expected payload len: 0
* received: 1024
* sent 26 characters
* "HEARTBLEED "
* received 1024 characters
* "HEARTBLEED \xde\xad\xbe\xef..."
* ** test_dtls1_heartbleed failed **
*
* The contents of the returned buffer in the failing test will depend on the
* contents of memory on your machine.
*
* MORE INFORMATION
* ----------------
* http://mike-bland.com/2014/04/12/heartbleed.html
* http://mike-bland.com/tags/heartbleed.html
*/
#define OPENSSL_UNIT_TEST
#include "../ssl/ssl_locl.h"
#include "testutil.h"
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#if !defined(OPENSSL_NO_HEARTBEATS) && !defined(OPENSSL_NO_UNIT_TEST)
/* As per https://tools.ietf.org/html/rfc6520#section-4 */
# define MIN_PADDING_SIZE 16
/* Maximum number of payload characters to print as test output */
# define MAX_PRINTABLE_CHARACTERS 1024
typedef struct heartbeat_test_fixture {
SSL_CTX *ctx;
SSL *s;
const char *test_case_name;
int (*process_heartbeat) (SSL *s, unsigned char *p, unsigned int length);
unsigned char *payload;
int sent_payload_len;
int expected_return_value;
int return_payload_offset;
int expected_payload_len;
const char *expected_return_payload;
} HEARTBEAT_TEST_FIXTURE;
static HEARTBEAT_TEST_FIXTURE set_up(const char *const test_case_name,
const SSL_METHOD *meth)
{
HEARTBEAT_TEST_FIXTURE fixture;
int setup_ok = 1;
memset(&fixture, 0, sizeof(fixture));
fixture.test_case_name = test_case_name;
fixture.ctx = SSL_CTX_new(meth);
if (!fixture.ctx) {
fprintf(stderr, "Failed to allocate SSL_CTX for test: %s\n",
test_case_name);
setup_ok = 0;
goto fail;
}
fixture.s = SSL_new(fixture.ctx);
if (!fixture.s) {
fprintf(stderr, "Failed to allocate SSL for test: %s\n",
test_case_name);
setup_ok = 0;
goto fail;
}
if (!ssl_init_wbio_buffer(fixture.s, 1)) {
fprintf(stderr, "Failed to set up wbio buffer for test: %s\n",
test_case_name);
setup_ok = 0;
goto fail;
}
if (!ssl3_setup_buffers(fixture.s)) {
fprintf(stderr, "Failed to setup buffers for test: %s\n",
test_case_name);
setup_ok = 0;
goto fail;
}
/*
* Clear the memory for the return buffer, since this isn't automatically
* zeroed in opt mode and will cause spurious test failures that will
* change with each execution.
*/
memset(fixture.s->rlayer.wbuf.buf, 0, fixture.s->rlayer.wbuf.len);
fail:
if (!setup_ok) {
ERR_print_errors_fp(stderr);
exit(EXIT_FAILURE);
}
return fixture;
}
static HEARTBEAT_TEST_FIXTURE set_up_dtls(const char *const test_case_name)
{
HEARTBEAT_TEST_FIXTURE fixture = set_up(test_case_name,
DTLSv1_server_method());
fixture.process_heartbeat = dtls1_process_heartbeat;
/*
* As per dtls1_get_record(), skipping the following from the beginning
* of the returned heartbeat message: type-1 byte; version-2 bytes;
* sequence number-8 bytes; length-2 bytes And then skipping the 1-byte
* type encoded by process_heartbeat for a total of 14 bytes, at which
* point we can grab the length and the payload we seek.
*/
fixture.return_payload_offset = 14;
return fixture;
}
/* Needed by ssl3_write_bytes() */
static int dummy_handshake(SSL *s)
{
return 1;
}
static void tear_down(HEARTBEAT_TEST_FIXTURE fixture)
{
ERR_print_errors_fp(stderr);
SSL_free(fixture.s);
SSL_CTX_free(fixture.ctx);
}
static void print_payload(const char *const prefix,
const unsigned char *payload, const int n)
{
const int end = n < MAX_PRINTABLE_CHARACTERS ? n
: MAX_PRINTABLE_CHARACTERS;
int i = 0;
printf("%s %d character%s", prefix, n, n == 1 ? "" : "s");
if (end != n)
printf(" (first %d shown)", end);
printf("\n \"");
for (; i != end; ++i) {
const unsigned char c = payload[i];
if (isprint(c))
fputc(c, stdout);
else
printf("\\x%02x", c);
}
printf("\"\n");
}
static int execute_heartbeat(HEARTBEAT_TEST_FIXTURE fixture)
{
int result = 0;
SSL *s = fixture.s;
unsigned char *payload = fixture.payload;
unsigned char sent_buf[MAX_PRINTABLE_CHARACTERS + 1];
int return_value;
unsigned const char *p;
int actual_payload_len;
s->rlayer.rrec.data = payload;
s->rlayer.rrec.length = strlen((const char *)payload);
*payload++ = TLS1_HB_REQUEST;
s2n(fixture.sent_payload_len, payload);
/*
* Make a local copy of the request, since it gets overwritten at some
* point
*/
memcpy(sent_buf, payload, sizeof(sent_buf));
return_value = fixture.process_heartbeat(s, s->rlayer.rrec.data,
s->rlayer.rrec.length);
if (return_value != fixture.expected_return_value) {
printf("%s failed: expected return value %d, received %d\n",
fixture.test_case_name, fixture.expected_return_value,
return_value);
result = 1;
}
/*
* If there is any byte alignment, it will be stored in wbuf.offset.
*/
p = &(s->rlayer.
wbuf.buf[fixture.return_payload_offset + s->rlayer.wbuf.offset]);
actual_payload_len = 0;
n2s(p, actual_payload_len);
if (actual_payload_len != fixture.expected_payload_len) {
printf("%s failed:\n expected payload len: %d\n received: %d\n",
fixture.test_case_name, fixture.expected_payload_len,
actual_payload_len);
print_payload("sent", sent_buf, strlen((const char *)sent_buf));
print_payload("received", p, actual_payload_len);
result = 1;
} else {
char *actual_payload =
OPENSSL_strndup((const char *)p, actual_payload_len);
if (strcmp(actual_payload, fixture.expected_return_payload) != 0) {
printf
("%s failed:\n expected payload: \"%s\"\n received: \"%s\"\n",
fixture.test_case_name, fixture.expected_return_payload,
actual_payload);
result = 1;
}
OPENSSL_free(actual_payload);
}
if (result != 0) {
printf("** %s failed **\n--------\n", fixture.test_case_name);
}
return result;
}
static int honest_payload_size(unsigned char payload_buf[])
{
/* Omit three-byte pad at the beginning for type and payload length */
return strlen((const char *)&payload_buf[3]) - MIN_PADDING_SIZE;
}
# define SETUP_HEARTBEAT_TEST_FIXTURE(type)\
SETUP_TEST_FIXTURE(HEARTBEAT_TEST_FIXTURE, set_up_##type)
# define EXECUTE_HEARTBEAT_TEST()\
EXECUTE_TEST(execute_heartbeat, tear_down)
static int test_dtls1_not_bleeding()
{
SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
/* Three-byte pad at the beginning for type and payload length */
unsigned char payload_buf[MAX_PRINTABLE_CHARACTERS + 4] =
" Not bleeding, sixteen spaces of padding" " ";
const int payload_buf_len = honest_payload_size(payload_buf);
fixture.payload = &payload_buf[0];
fixture.sent_payload_len = payload_buf_len;
fixture.expected_return_value = 0;
fixture.expected_payload_len = payload_buf_len;
fixture.expected_return_payload =
"Not bleeding, sixteen spaces of padding";
EXECUTE_HEARTBEAT_TEST();
}
static int test_dtls1_not_bleeding_empty_payload()
{
int payload_buf_len;
SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
/*
* Three-byte pad at the beginning for type and payload length, plus a
* NUL at the end
*/
unsigned char payload_buf[4 + MAX_PRINTABLE_CHARACTERS];
memset(payload_buf, ' ', MIN_PADDING_SIZE + 3);
payload_buf[MIN_PADDING_SIZE + 3] = '\0';
payload_buf_len = honest_payload_size(payload_buf);
fixture.payload = &payload_buf[0];
fixture.sent_payload_len = payload_buf_len;
fixture.expected_return_value = 0;
fixture.expected_payload_len = payload_buf_len;
fixture.expected_return_payload = "";
EXECUTE_HEARTBEAT_TEST();
}
static int test_dtls1_heartbleed()
{
SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
/* Three-byte pad at the beginning for type and payload length */
unsigned char payload_buf[4 + MAX_PRINTABLE_CHARACTERS] =
" HEARTBLEED ";
fixture.payload = &payload_buf[0];
fixture.sent_payload_len = MAX_PRINTABLE_CHARACTERS;
fixture.expected_return_value = 0;
fixture.expected_payload_len = 0;
fixture.expected_return_payload = "";
EXECUTE_HEARTBEAT_TEST();
}
static int test_dtls1_heartbleed_empty_payload()
{
SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
/*
* Excluding the NUL at the end, one byte short of type + payload length
* + minimum padding
*/
unsigned char payload_buf[MAX_PRINTABLE_CHARACTERS + 4];
memset(payload_buf, ' ', MIN_PADDING_SIZE + 2);
payload_buf[MIN_PADDING_SIZE + 2] = '\0';
fixture.payload = &payload_buf[0];
fixture.sent_payload_len = MAX_PRINTABLE_CHARACTERS;
fixture.expected_return_value = 0;
fixture.expected_payload_len = 0;
fixture.expected_return_payload = "";
EXECUTE_HEARTBEAT_TEST();
}
static int test_dtls1_heartbleed_excessive_plaintext_length()
{
SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
/*
* Excluding the NUL at the end, one byte in excess of maximum allowed
* heartbeat message length
*/
unsigned char payload_buf[SSL3_RT_MAX_PLAIN_LENGTH + 2];
memset(payload_buf, ' ', sizeof(payload_buf));
payload_buf[sizeof(payload_buf) - 1] = '\0';
fixture.payload = &payload_buf[0];
fixture.sent_payload_len = honest_payload_size(payload_buf);
fixture.expected_return_value = 0;
fixture.expected_payload_len = 0;
fixture.expected_return_payload = "";
EXECUTE_HEARTBEAT_TEST();
}
# undef EXECUTE_HEARTBEAT_TEST
# undef SETUP_HEARTBEAT_TEST_FIXTURE
int main(int argc, char *argv[])
{
int result = 0;
2014-05-19 16:38:56 +00:00
ADD_TEST(test_dtls1_not_bleeding);
ADD_TEST(test_dtls1_not_bleeding_empty_payload);
ADD_TEST(test_dtls1_heartbleed);
ADD_TEST(test_dtls1_heartbleed_empty_payload);
ADD_TEST(test_dtls1_heartbleed_excessive_plaintext_length);
result = run_tests(argv[0]);
ERR_print_errors_fp(stderr);
return result;
}
#else /* OPENSSL_NO_HEARTBEATS */
int main(int argc, char *argv[])
{
return EXIT_SUCCESS;
}
#endif /* OPENSSL_NO_HEARTBEATS */