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464175692f
The write BIO for handshake messages is bufferred so that we only write out to the network when we have a complete flight. There was some complexity in the buffering logic so that we switched buffering on and off at various points through out the handshake. The only real reason to do this was historically it complicated the state machine when you wanted to flush because you had to traverse through the "flush" state (in order to cope with NBIO). Where we knew up front that there was only going to be one message in the flight we switched off buffering to avoid that. In the new state machine there is no longer a need for a flush state so it is simpler just to have buffering on for the whole handshake. This also gives us the added benefit that we can simply call flush after every flight even if it only has one message in it. This means that BIO authors can implement their own buffering strategies and not have to be aware of the state of the SSL object (previously they would have to switch off their own buffering during the handshake because they could not rely on a flush being received when they really needed to write data out). This last point addresses GitHub Issue #322. Reviewed-by: Andy Polyakov <appro@openssl.org>
379 lines
12 KiB
C
379 lines
12 KiB
C
/*
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* Copyright 2014-2016 The OpenSSL Project Authors. All Rights Reserved.
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*
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* Licensed under the OpenSSL license (the "License"). You may not use
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* this file except in compliance with the License. You can obtain a copy
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* in the file LICENSE in the source distribution or at
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* https://www.openssl.org/source/license.html
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*/
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/*-
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* Unit test for TLS heartbeats.
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*
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* Acts as a regression test against the Heartbleed bug (CVE-2014-0160).
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*
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* Author: Mike Bland (mbland@acm.org, http://mike-bland.com/)
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* Date: 2014-04-12
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* License: Creative Commons Attribution 4.0 International (CC By 4.0)
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* http://creativecommons.org/licenses/by/4.0/deed.en_US
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*
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* OUTPUT
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* ------
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* The program returns zero on success. It will print a message with a count
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* of the number of failed tests and return nonzero if any tests fail.
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*
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* It will print the contents of the request and response buffers for each
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* failing test. In a "fixed" version, all the tests should pass and there
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* should be no output.
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*
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* In a "bleeding" version, you'll see:
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*
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* test_dtls1_heartbleed failed:
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* expected payload len: 0
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* received: 1024
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* sent 26 characters
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* "HEARTBLEED "
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* received 1024 characters
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* "HEARTBLEED \xde\xad\xbe\xef..."
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* ** test_dtls1_heartbleed failed **
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*
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* The contents of the returned buffer in the failing test will depend on the
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* contents of memory on your machine.
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*
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* MORE INFORMATION
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* ----------------
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* http://mike-bland.com/2014/04/12/heartbleed.html
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* http://mike-bland.com/tags/heartbleed.html
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*/
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#define OPENSSL_UNIT_TEST
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#include "../ssl/ssl_locl.h"
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#include "testutil.h"
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#include <ctype.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#if !defined(OPENSSL_NO_HEARTBEATS) && !defined(OPENSSL_NO_UNIT_TEST)
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/* As per https://tools.ietf.org/html/rfc6520#section-4 */
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# define MIN_PADDING_SIZE 16
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/* Maximum number of payload characters to print as test output */
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# define MAX_PRINTABLE_CHARACTERS 1024
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typedef struct heartbeat_test_fixture {
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SSL_CTX *ctx;
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SSL *s;
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const char *test_case_name;
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int (*process_heartbeat) (SSL *s, unsigned char *p, unsigned int length);
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unsigned char *payload;
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int sent_payload_len;
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int expected_return_value;
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int return_payload_offset;
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int expected_payload_len;
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const char *expected_return_payload;
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} HEARTBEAT_TEST_FIXTURE;
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static HEARTBEAT_TEST_FIXTURE set_up(const char *const test_case_name,
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const SSL_METHOD *meth)
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{
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HEARTBEAT_TEST_FIXTURE fixture;
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int setup_ok = 1;
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memset(&fixture, 0, sizeof(fixture));
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fixture.test_case_name = test_case_name;
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fixture.ctx = SSL_CTX_new(meth);
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if (!fixture.ctx) {
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fprintf(stderr, "Failed to allocate SSL_CTX for test: %s\n",
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test_case_name);
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setup_ok = 0;
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goto fail;
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}
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fixture.s = SSL_new(fixture.ctx);
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if (!fixture.s) {
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fprintf(stderr, "Failed to allocate SSL for test: %s\n",
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test_case_name);
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setup_ok = 0;
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goto fail;
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}
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if (!ssl_init_wbio_buffer(fixture.s)) {
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fprintf(stderr, "Failed to set up wbio buffer for test: %s\n",
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test_case_name);
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setup_ok = 0;
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goto fail;
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}
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if (!ssl3_setup_buffers(fixture.s)) {
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fprintf(stderr, "Failed to setup buffers for test: %s\n",
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test_case_name);
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setup_ok = 0;
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goto fail;
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}
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/*
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* Clear the memory for the return buffer, since this isn't automatically
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* zeroed in opt mode and will cause spurious test failures that will
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* change with each execution.
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*/
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memset(fixture.s->rlayer.wbuf.buf, 0, fixture.s->rlayer.wbuf.len);
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fail:
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if (!setup_ok) {
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ERR_print_errors_fp(stderr);
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exit(EXIT_FAILURE);
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}
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return fixture;
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}
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static HEARTBEAT_TEST_FIXTURE set_up_dtls(const char *const test_case_name)
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{
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HEARTBEAT_TEST_FIXTURE fixture = set_up(test_case_name,
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DTLS_server_method());
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fixture.process_heartbeat = dtls1_process_heartbeat;
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/*
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* As per dtls1_get_record(), skipping the following from the beginning
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* of the returned heartbeat message: type-1 byte; version-2 bytes;
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* sequence number-8 bytes; length-2 bytes And then skipping the 1-byte
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* type encoded by process_heartbeat for a total of 14 bytes, at which
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* point we can grab the length and the payload we seek.
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*/
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fixture.return_payload_offset = 14;
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return fixture;
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}
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/* Needed by ssl3_write_bytes() */
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static int dummy_handshake(SSL *s)
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{
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return 1;
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}
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static void tear_down(HEARTBEAT_TEST_FIXTURE fixture)
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{
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ERR_print_errors_fp(stderr);
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SSL_free(fixture.s);
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SSL_CTX_free(fixture.ctx);
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}
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static void print_payload(const char *const prefix,
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const unsigned char *payload, const int n)
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{
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const int end = n < MAX_PRINTABLE_CHARACTERS ? n
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: MAX_PRINTABLE_CHARACTERS;
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int i = 0;
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printf("%s %d character%s", prefix, n, n == 1 ? "" : "s");
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if (end != n)
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printf(" (first %d shown)", end);
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printf("\n \"");
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for (; i != end; ++i) {
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const unsigned char c = payload[i];
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if (isprint(c))
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fputc(c, stdout);
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else
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printf("\\x%02x", c);
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}
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printf("\"\n");
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}
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static int execute_heartbeat(HEARTBEAT_TEST_FIXTURE fixture)
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{
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int result = 0;
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SSL *s = fixture.s;
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unsigned char *payload = fixture.payload;
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unsigned char sent_buf[MAX_PRINTABLE_CHARACTERS + 1];
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int return_value;
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unsigned const char *p;
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int actual_payload_len;
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s->rlayer.rrec.data = payload;
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s->rlayer.rrec.length = strlen((const char *)payload);
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*payload++ = TLS1_HB_REQUEST;
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s2n(fixture.sent_payload_len, payload);
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/*
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* Make a local copy of the request, since it gets overwritten at some
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* point
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*/
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memcpy(sent_buf, payload, sizeof(sent_buf));
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return_value = fixture.process_heartbeat(s, s->rlayer.rrec.data,
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s->rlayer.rrec.length);
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if (return_value != fixture.expected_return_value) {
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printf("%s failed: expected return value %d, received %d\n",
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fixture.test_case_name, fixture.expected_return_value,
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return_value);
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result = 1;
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}
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/*
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* If there is any byte alignment, it will be stored in wbuf.offset.
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*/
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p = &(s->rlayer.
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wbuf.buf[fixture.return_payload_offset + s->rlayer.wbuf.offset]);
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actual_payload_len = 0;
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n2s(p, actual_payload_len);
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if (actual_payload_len != fixture.expected_payload_len) {
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printf("%s failed:\n expected payload len: %d\n received: %d\n",
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fixture.test_case_name, fixture.expected_payload_len,
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actual_payload_len);
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print_payload("sent", sent_buf, strlen((const char *)sent_buf));
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print_payload("received", p, actual_payload_len);
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result = 1;
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} else {
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char *actual_payload =
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OPENSSL_strndup((const char *)p, actual_payload_len);
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if (strcmp(actual_payload, fixture.expected_return_payload) != 0) {
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printf
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("%s failed:\n expected payload: \"%s\"\n received: \"%s\"\n",
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fixture.test_case_name, fixture.expected_return_payload,
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actual_payload);
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result = 1;
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}
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OPENSSL_free(actual_payload);
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}
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if (result != 0) {
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printf("** %s failed **\n--------\n", fixture.test_case_name);
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}
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return result;
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}
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static int honest_payload_size(unsigned char payload_buf[])
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{
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/* Omit three-byte pad at the beginning for type and payload length */
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return strlen((const char *)&payload_buf[3]) - MIN_PADDING_SIZE;
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}
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# define SETUP_HEARTBEAT_TEST_FIXTURE(type)\
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SETUP_TEST_FIXTURE(HEARTBEAT_TEST_FIXTURE, set_up_##type)
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# define EXECUTE_HEARTBEAT_TEST()\
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EXECUTE_TEST(execute_heartbeat, tear_down)
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static int test_dtls1_not_bleeding()
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{
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SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
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/* Three-byte pad at the beginning for type and payload length */
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unsigned char payload_buf[MAX_PRINTABLE_CHARACTERS + 4] =
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" Not bleeding, sixteen spaces of padding" " ";
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const int payload_buf_len = honest_payload_size(payload_buf);
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fixture.payload = &payload_buf[0];
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fixture.sent_payload_len = payload_buf_len;
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fixture.expected_return_value = 0;
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fixture.expected_payload_len = payload_buf_len;
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fixture.expected_return_payload =
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"Not bleeding, sixteen spaces of padding";
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EXECUTE_HEARTBEAT_TEST();
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}
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static int test_dtls1_not_bleeding_empty_payload()
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{
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int payload_buf_len;
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SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
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/*
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* Three-byte pad at the beginning for type and payload length, plus a
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* NUL at the end
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*/
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unsigned char payload_buf[4 + MAX_PRINTABLE_CHARACTERS];
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memset(payload_buf, ' ', MIN_PADDING_SIZE + 3);
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payload_buf[MIN_PADDING_SIZE + 3] = '\0';
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payload_buf_len = honest_payload_size(payload_buf);
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fixture.payload = &payload_buf[0];
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fixture.sent_payload_len = payload_buf_len;
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fixture.expected_return_value = 0;
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fixture.expected_payload_len = payload_buf_len;
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fixture.expected_return_payload = "";
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EXECUTE_HEARTBEAT_TEST();
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}
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static int test_dtls1_heartbleed()
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{
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SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
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/* Three-byte pad at the beginning for type and payload length */
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unsigned char payload_buf[4 + MAX_PRINTABLE_CHARACTERS] =
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" HEARTBLEED ";
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fixture.payload = &payload_buf[0];
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fixture.sent_payload_len = MAX_PRINTABLE_CHARACTERS;
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fixture.expected_return_value = 0;
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fixture.expected_payload_len = 0;
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fixture.expected_return_payload = "";
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EXECUTE_HEARTBEAT_TEST();
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}
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static int test_dtls1_heartbleed_empty_payload()
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{
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SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
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/*
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* Excluding the NUL at the end, one byte short of type + payload length
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* + minimum padding
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*/
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unsigned char payload_buf[MAX_PRINTABLE_CHARACTERS + 4];
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memset(payload_buf, ' ', MIN_PADDING_SIZE + 2);
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payload_buf[MIN_PADDING_SIZE + 2] = '\0';
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fixture.payload = &payload_buf[0];
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fixture.sent_payload_len = MAX_PRINTABLE_CHARACTERS;
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fixture.expected_return_value = 0;
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fixture.expected_payload_len = 0;
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fixture.expected_return_payload = "";
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EXECUTE_HEARTBEAT_TEST();
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}
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static int test_dtls1_heartbleed_excessive_plaintext_length()
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{
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SETUP_HEARTBEAT_TEST_FIXTURE(dtls);
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/*
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* Excluding the NUL at the end, one byte in excess of maximum allowed
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* heartbeat message length
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*/
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unsigned char payload_buf[SSL3_RT_MAX_PLAIN_LENGTH + 2];
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memset(payload_buf, ' ', sizeof(payload_buf));
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payload_buf[sizeof(payload_buf) - 1] = '\0';
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fixture.payload = &payload_buf[0];
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fixture.sent_payload_len = honest_payload_size(payload_buf);
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fixture.expected_return_value = 0;
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fixture.expected_payload_len = 0;
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fixture.expected_return_payload = "";
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EXECUTE_HEARTBEAT_TEST();
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}
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# undef EXECUTE_HEARTBEAT_TEST
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# undef SETUP_HEARTBEAT_TEST_FIXTURE
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int main(int argc, char *argv[])
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{
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int result = 0;
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ADD_TEST(test_dtls1_not_bleeding);
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ADD_TEST(test_dtls1_not_bleeding_empty_payload);
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ADD_TEST(test_dtls1_heartbleed);
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ADD_TEST(test_dtls1_heartbleed_empty_payload);
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ADD_TEST(test_dtls1_heartbleed_excessive_plaintext_length);
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result = run_tests(argv[0]);
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ERR_print_errors_fp(stderr);
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return result;
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}
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#else /* OPENSSL_NO_HEARTBEATS */
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int main(int argc, char *argv[])
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{
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return EXIT_SUCCESS;
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}
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#endif /* OPENSSL_NO_HEARTBEATS */
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