/* * Copyright 2018 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the OpenSSL license (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #include #include #include #include "testutil.h" #define MAXCOUNT 5 static int my_param_count; static BIO *my_param_b[MAXCOUNT]; static int my_param_oper[MAXCOUNT]; static const char *my_param_argp[MAXCOUNT]; static int my_param_argi[MAXCOUNT]; static long my_param_argl[MAXCOUNT]; static long my_param_ret[MAXCOUNT]; static long my_bio_callback(BIO *b, int oper, const char *argp, int argi, long argl, long ret) { if (my_param_count >= MAXCOUNT) return -1; my_param_b[my_param_count] = b; my_param_oper[my_param_count] = oper; my_param_argp[my_param_count] = argp; my_param_argi[my_param_count] = argi; my_param_argl[my_param_count] = argl; my_param_ret[my_param_count] = ret; my_param_count++; return ret; } static int test_bio_callback(void) { int ok = 0; BIO *bio; int i; char test1[] = "test"; const int test1len = sizeof(test1) - 1; char test2[] = "hello"; const int test2len = sizeof(test2) - 1; char buf[16]; my_param_count = 0; bio = BIO_new(BIO_s_mem()); if (bio == NULL) goto err; BIO_set_callback(bio, my_bio_callback); i = BIO_write(bio, test1, test1len); if (!TEST_int_eq(i, test1len) || !TEST_int_eq(my_param_count, 2) || !TEST_ptr_eq(my_param_b[0], bio) || !TEST_int_eq(my_param_oper[0], BIO_CB_WRITE) || !TEST_ptr_eq(my_param_argp[0], test1) || !TEST_int_eq(my_param_argi[0], test1len) || !TEST_long_eq(my_param_argl[0], 0L) || !TEST_long_eq(my_param_ret[0], 1L) || !TEST_ptr_eq(my_param_b[1], bio) || !TEST_int_eq(my_param_oper[1], BIO_CB_WRITE | BIO_CB_RETURN) || !TEST_ptr_eq(my_param_argp[1], test1) || !TEST_int_eq(my_param_argi[1], test1len) || !TEST_long_eq(my_param_argl[1], 0L) || !TEST_long_eq(my_param_ret[1], (long)test1len)) goto err; my_param_count = 0; i = BIO_read(bio, buf, sizeof(buf)); if (!TEST_mem_eq(buf, i, test1, test1len) || !TEST_int_eq(my_param_count, 2) || !TEST_ptr_eq(my_param_b[0], bio) || !TEST_int_eq(my_param_oper[0], BIO_CB_READ) || !TEST_ptr_eq(my_param_argp[0], buf) || !TEST_int_eq(my_param_argi[0], sizeof(buf)) || !TEST_long_eq(my_param_argl[0], 0L) || !TEST_long_eq(my_param_ret[0], 1L) || !TEST_ptr_eq(my_param_b[1], bio) || !TEST_int_eq(my_param_oper[1], BIO_CB_READ | BIO_CB_RETURN) || !TEST_ptr_eq(my_param_argp[1], buf) || !TEST_int_eq(my_param_argi[1], sizeof(buf)) || !TEST_long_eq(my_param_argl[1], 0L) || !TEST_long_eq(my_param_ret[1], (long)test1len)) goto err; /* By default a mem bio returns -1 if it has run out of data */ my_param_count = 0; i = BIO_read(bio, buf, sizeof(buf)); if (!TEST_int_eq(i, -1) || !TEST_int_eq(my_param_count, 2) || !TEST_ptr_eq(my_param_b[0], bio) || !TEST_int_eq(my_param_oper[0], BIO_CB_READ) || !TEST_ptr_eq(my_param_argp[0], buf) || !TEST_int_eq(my_param_argi[0], sizeof(buf)) || !TEST_long_eq(my_param_argl[0], 0L) || !TEST_long_eq(my_param_ret[0], 1L) || !TEST_ptr_eq(my_param_b[1], bio) || !TEST_int_eq(my_param_oper[1], BIO_CB_READ | BIO_CB_RETURN) || !TEST_ptr_eq(my_param_argp[1], buf) || !TEST_int_eq(my_param_argi[1], sizeof(buf)) || !TEST_long_eq(my_param_argl[1], 0L) || !TEST_long_eq(my_param_ret[1], -1L)) goto err; /* Force the mem bio to return 0 if it has run out of data */ BIO_set_mem_eof_return(bio, 0); my_param_count = 0; i = BIO_read(bio, buf, sizeof(buf)); if (!TEST_int_eq(i, 0) || !TEST_int_eq(my_param_count, 2) || !TEST_ptr_eq(my_param_b[0], bio) || !TEST_int_eq(my_param_oper[0], BIO_CB_READ) || !TEST_ptr_eq(my_param_argp[0], buf) || !TEST_int_eq(my_param_argi[0], sizeof(buf)) || !TEST_long_eq(my_param_argl[0], 0L) || !TEST_long_eq(my_param_ret[0], 1L) || !TEST_ptr_eq(my_param_b[1], bio) || !TEST_int_eq(my_param_oper[1], BIO_CB_READ | BIO_CB_RETURN) || !TEST_ptr_eq(my_param_argp[1], buf) || !TEST_int_eq(my_param_argi[1], sizeof(buf)) || !TEST_long_eq(my_param_argl[1], 0L) || !TEST_long_eq(my_param_ret[1], 0L)) goto err; my_param_count = 0; i = BIO_puts(bio, test2); if (!TEST_int_eq(i, 5) || !TEST_int_eq(my_param_count, 2) || !TEST_ptr_eq(my_param_b[0], bio) || !TEST_int_eq(my_param_oper[0], BIO_CB_PUTS) || !TEST_ptr_eq(my_param_argp[0], test2) || !TEST_int_eq(my_param_argi[0], 0) || !TEST_long_eq(my_param_argl[0], 0L) || !TEST_long_eq(my_param_ret[0], 1L) || !TEST_ptr_eq(my_param_b[1], bio) || !TEST_int_eq(my_param_oper[1], BIO_CB_PUTS | BIO_CB_RETURN) || !TEST_ptr_eq(my_param_argp[1], test2) || !TEST_int_eq(my_param_argi[1], 0) || !TEST_long_eq(my_param_argl[1], 0L) || !TEST_long_eq(my_param_ret[1], (long)test2len)) goto err; my_param_count = 0; i = BIO_free(bio); if (!TEST_int_eq(i, 1) || !TEST_int_eq(my_param_count, 1) || !TEST_ptr_eq(my_param_b[0], bio) || !TEST_int_eq(my_param_oper[0], BIO_CB_FREE) || !TEST_ptr_eq(my_param_argp[0], NULL) || !TEST_int_eq(my_param_argi[0], 0) || !TEST_long_eq(my_param_argl[0], 0L) || !TEST_long_eq(my_param_ret[0], 1L)) goto finish; ok = 1; goto finish; err: BIO_free(bio); finish: /* This helps finding memory leaks with ASAN */ memset(my_param_b, 0, sizeof(my_param_b)); memset(my_param_argp, 0, sizeof(my_param_argp)); return ok; } int setup_tests(void) { ADD_TEST(test_bio_callback); return 1; }