/* * Copyright (c) 2007,2009,2012 by Internet Systems Consortium, Inc. ("ISC") * * We test the functions provided in alloc.c here. These are very * basic functions, and it is very important that they work correctly. * * You can see two different styles of testing: * * - In the first, we have a single test for each function that tests * all of the possible ways it can operate. (This is the case for * the buffer tests.) * * - In the second, we have a separate test for each of the ways a * function can operate. (This is the case for the data_string * tests.) * * The advantage of a single test per function is that you have fewer * tests, and less duplicated and extra code. The advantage of having * a separate test is that each test is simpler. Plus if you need to * allow certain tests to fail for some reason (known bugs that are * hard to fix for example), then */ /** @TODO: dmalloc() test */ #include "config.h" #include #include "dhcpd.h" ATF_TC(buffer_allocate); ATF_TC_HEAD(buffer_allocate, tc) { atf_tc_set_md_var(tc, "descr", "buffer_allocate basic test"); } ATF_TC_BODY(buffer_allocate, tc) { struct buffer *buf = 0; /* * Check a 0-length buffer. */ buf = NULL; if (!buffer_allocate(&buf, 0, MDL)) { atf_tc_fail("failed on 0-len buffer"); } if (!buffer_dereference(&buf, MDL)) { atf_tc_fail("buffer_dereference() failed"); } if (buf != NULL) { atf_tc_fail("buffer_dereference() did not NULL-out buffer"); } /* * Check an actual buffer. */ buf = NULL; if (!buffer_allocate(&buf, 100, MDL)) { atf_tc_fail("failed on allocate 100 bytes\n"); } if (!buffer_dereference(&buf, MDL)) { atf_tc_fail("buffer_dereference() failed"); } if (buf != NULL) { atf_tc_fail("buffer_dereference() did not NULL-out buffer"); } /* * Okay, we're happy. */ atf_tc_pass(); } ATF_TC(buffer_reference); ATF_TC_HEAD(buffer_reference, tc) { atf_tc_set_md_var(tc, "descr", "buffer_reference basic test"); } ATF_TC_BODY(buffer_reference, tc) { struct buffer *a, *b; /* * Create a buffer. */ a = NULL; if (!buffer_allocate(&a, 100, MDL)) { atf_tc_fail("failed on allocate 100 bytes"); } /** * Confirm buffer_reference() doesn't work if we pass in NULL. * * @TODO: we should confirm we get an error message here. */ if (buffer_reference(NULL, a, MDL)) { atf_tc_fail("succeeded on an error input"); } /** * @TODO: we should confirm we get an error message if we pass * a non-NULL target. */ /* * Confirm we work under normal circumstances. */ b = NULL; if (!buffer_reference(&b, a, MDL)) { atf_tc_fail("buffer_reference() failed"); } if (b != a) { atf_tc_fail("incorrect pointer returned"); } if (b->refcnt != 2) { atf_tc_fail("incorrect refcnt"); } /* * Clean up. */ if (!buffer_dereference(&b, MDL)) { atf_tc_fail("buffer_dereference() failed"); } if (!buffer_dereference(&a, MDL)) { atf_tc_fail("buffer_dereference() failed"); } } ATF_TC(buffer_dereference); ATF_TC_HEAD(buffer_dereference, tc) { atf_tc_set_md_var(tc, "descr", "buffer_dereference basic test"); } ATF_TC_BODY(buffer_dereference, tc) { struct buffer *a, *b; /** * Confirm buffer_dereference() doesn't work if we pass in NULL. * * TODO: we should confirm we get an error message here. */ if (buffer_dereference(NULL, MDL)) { atf_tc_fail("succeeded on an error input"); } /** * Confirm buffer_dereference() doesn't work if we pass in * a pointer to NULL. * * @TODO: we should confirm we get an error message here. */ a = NULL; if (buffer_dereference(&a, MDL)) { atf_tc_fail("succeeded on an error input"); } /* * Confirm we work under normal circumstances. */ a = NULL; if (!buffer_allocate(&a, 100, MDL)) { atf_tc_fail("failed on allocate"); } if (!buffer_dereference(&a, MDL)) { atf_tc_fail("buffer_dereference() failed"); } if (a != NULL) { atf_tc_fail("non-null buffer after buffer_dereference()"); } /** * Confirm we get an error from negative refcnt. * * @TODO: we should confirm we get an error message here. */ a = NULL; if (!buffer_allocate(&a, 100, MDL)) { atf_tc_fail("failed on allocate"); } b = NULL; if (!buffer_reference(&b, a, MDL)) { atf_tc_fail("buffer_reference() failed"); } a->refcnt = 0; /* purposely set to invalid value */ if (buffer_dereference(&a, MDL)) { atf_tc_fail("buffer_dereference() succeeded on error input"); } a->refcnt = 2; if (!buffer_dereference(&b, MDL)) { atf_tc_fail("buffer_dereference() failed"); } if (!buffer_dereference(&a, MDL)) { atf_tc_fail("buffer_dereference() failed"); } } ATF_TC(data_string_forget); ATF_TC_HEAD(data_string_forget, tc) { atf_tc_set_md_var(tc, "descr", "data_string_forget basic test"); } ATF_TC_BODY(data_string_forget, tc) { struct buffer *buf; struct data_string a; const char *str = "Lorem ipsum dolor sit amet turpis duis."; /* * Create the string we want to forget. */ memset(&a, 0, sizeof(a)); a.len = strlen(str); buf = NULL; if (!buffer_allocate(&buf, a.len, MDL)) { atf_tc_fail("out of memory"); } if (!buffer_reference(&a.buffer, buf, MDL)) { atf_tc_fail("buffer_reference() failed"); } a.data = a.buffer->data; memcpy(a.buffer->data, str, a.len); /* * Forget and confirm we've forgotten. */ data_string_forget(&a, MDL); if (a.len != 0) { atf_tc_fail("incorrect length"); } if (a.data != NULL) { atf_tc_fail("incorrect data"); } if (a.terminated) { atf_tc_fail("incorrect terminated"); } if (a.buffer != NULL) { atf_tc_fail("incorrect buffer"); } if (buf->refcnt != 1) { atf_tc_fail("too many references to buf"); } /* * Clean up buffer. */ if (!buffer_dereference(&buf, MDL)) { atf_tc_fail("buffer_reference() failed"); } } ATF_TC(data_string_forget_nobuf); ATF_TC_HEAD(data_string_forget_nobuf, tc) { atf_tc_set_md_var(tc, "descr", "data_string_forget test, " "data_string without buffer"); } ATF_TC_BODY(data_string_forget_nobuf, tc) { struct data_string a; const char *str = "Lorem ipsum dolor sit amet massa nunc."; /* * Create the string we want to forget. */ memset(&a, 0, sizeof(a)); a.len = strlen(str); a.data = (const unsigned char *)str; a.terminated = 1; /* * Forget and confirm we've forgotten. */ data_string_forget(&a, MDL); if (a.len != 0) { atf_tc_fail("incorrect length"); } if (a.data != NULL) { atf_tc_fail("incorrect data"); } if (a.terminated) { atf_tc_fail("incorrect terminated"); } if (a.buffer != NULL) { atf_tc_fail("incorrect buffer"); } } ATF_TC(data_string_copy); ATF_TC_HEAD(data_string_copy, tc) { atf_tc_set_md_var(tc, "descr", "data_string_copy basic test"); } ATF_TC_BODY(data_string_copy, tc) { struct data_string a, b; const char *str = "Lorem ipsum dolor sit amet orci aliquam."; /* * Create the string we want to copy. */ memset(&a, 0, sizeof(a)); a.len = strlen(str); if (!buffer_allocate(&a.buffer, a.len, MDL)) { atf_tc_fail("out of memory"); } a.data = a.buffer->data; memcpy(a.buffer->data, str, a.len); /* * Copy the string, and confirm it works. */ memset(&b, 0, sizeof(b)); data_string_copy(&b, &a, MDL); if (b.len != a.len) { atf_tc_fail("incorrect length"); } if (b.data != a.data) { atf_tc_fail("incorrect data"); } if (b.terminated != a.terminated) { atf_tc_fail("incorrect terminated"); } if (b.buffer != a.buffer) { atf_tc_fail("incorrect buffer"); } /* * Clean up. */ data_string_forget(&b, MDL); data_string_forget(&a, MDL); } ATF_TC(data_string_copy_nobuf); ATF_TC_HEAD(data_string_copy_nobuf, tc) { atf_tc_set_md_var(tc, "descr", "data_string_copy test, " "data_string without buffer"); } ATF_TC_BODY(data_string_copy_nobuf, tc) { struct data_string a, b; const char *str = "Lorem ipsum dolor sit amet cras amet."; /* * Create the string we want to copy. */ memset(&a, 0, sizeof(a)); a.len = strlen(str); a.data = (const unsigned char *)str; a.terminated = 1; /* * Copy the string, and confirm it works. */ memset(&b, 0, sizeof(b)); data_string_copy(&b, &a, MDL); if (b.len != a.len) { atf_tc_fail("incorrect length"); } if (b.data != a.data) { atf_tc_fail("incorrect data"); } if (b.terminated != a.terminated) { atf_tc_fail("incorrect terminated"); } if (b.buffer != a.buffer) { atf_tc_fail("incorrect buffer"); } /* * Clean up. */ data_string_forget(&b, MDL); data_string_forget(&a, MDL); } ATF_TP_ADD_TCS(tp) { ATF_TP_ADD_TC(tp, buffer_allocate); ATF_TP_ADD_TC(tp, buffer_reference); ATF_TP_ADD_TC(tp, buffer_dereference); ATF_TP_ADD_TC(tp, data_string_forget); ATF_TP_ADD_TC(tp, data_string_forget_nobuf); ATF_TP_ADD_TC(tp, data_string_copy); ATF_TP_ADD_TC(tp, data_string_copy_nobuf); return (atf_no_error()); }