/* * Copyright (C) 2002 by Red Hat, Incorporated. All rights reserved. * * Permission to use, copy, modify, and distribute this software * is freely granted, provided that this notice is preserved. */ #include #include #include #ifndef MAX_1 #ifdef __SPU__ #define MAX_1 11000 #else #define MAX_1 33000 #endif #endif #define MAX_2 (2 * MAX_1 + MAX_1 / 10) void eprintf (int line, char *result, char *expected, int size) { if (size != 0) printf ("Failure at line %d, result is <%.*s>, should be <%s> of size %d\n", line, size, result, expected, size); else printf ("Failure at line %d, result is <%s>, should be <%s>\n", line, result, expected); } void mycopy (char *target, char *source, int size) { int i; for (i = 0; i < size; ++i) { target[i] = source[i]; } } void myset (char *target, char ch, int size) { int i; for (i = 0; i < size; ++i) { target[i] = ch; } } int main() { char target[MAX_1] = "A"; char first_char; char second_char; char array[] = "abcdefghijklmnopqrstuvwxz"; char array2[] = "0123456789!@#$%^&*("; char buffer2[MAX_1]; char buffer3[MAX_1]; char buffer4[MAX_1]; char buffer5[MAX_2]; char buffer6[MAX_2]; char buffer7[MAX_2]; char expected[MAX_1]; char *tmp1, *tmp2, *tmp3, *tmp4, *tmp5, *tmp6, *tmp7; int i, j, k, x, z, align_test_iterations; int test_failed = 0; tmp1 = target; tmp2 = buffer2; tmp3 = buffer3; tmp4 = buffer4; tmp5 = buffer5; tmp6 = buffer6; tmp7 = buffer7; tmp2[0] = 'Z'; tmp2[1] = '\0'; if (memset (target, 'X', 0) != target || memcpy (target, "Y", 0) != target || memmove (target, "K", 0) != target || strncpy (tmp2, "4", 0) != tmp2 || strncat (tmp2, "123", 0) != tmp2 || strcat (target, "") != target) { eprintf (__LINE__, target, "A", 0); test_failed = 1; } if (strcmp (target, "A") || strlen(target) != 1 || memchr (target, 'A', 0) != NULL || memcmp (target, "J", 0) || strncmp (target, "A", 1) || strncmp (target, "J", 0) || tmp2[0] != 'Z' || tmp2[1] != '\0') { eprintf (__LINE__, target, "A", 0); test_failed = 1; } tmp2[2] = 'A'; if (strcpy (target, "") != target || strncpy (tmp2, "", 4) != tmp2 || strcat (target, "") != target) { eprintf (__LINE__, target, "", 0); test_failed = 1; } if (target[0] != '\0' || strncmp (target, "", 1) || memcmp (tmp2, "\0\0\0\0", 4)) { eprintf (__LINE__, target, "", 0); test_failed = 1; } tmp2[2] = 'A'; if (strncat (tmp2, "1", 3) != tmp2 || memcmp (tmp2, "1\0A", 3)) { eprintf (__LINE__, tmp2, "1\0A", 3); test_failed = 1; } if (strcpy (tmp3, target) != tmp3 || strcat (tmp3, "X") != tmp3 || strncpy (tmp2, "X", 2) != tmp2 || memset (target, tmp2[0], 1) != target) { eprintf (__LINE__, target, "X", 0); test_failed = 1; } if (strcmp (target, "X") || strlen (target) != 1 || memchr (target, 'X', 2) != target || strchr (target, 'X') != target || memchr (target, 'Y', 2) != NULL || strchr (target, 'Y') != NULL || strcmp (tmp3, target) || strncmp (tmp3, target, 2) || memcmp (target, "K", 0) || strncmp (target, tmp3, 3)) { eprintf (__LINE__, target, "X", 0); test_failed = 1; } if (strcpy (tmp3, "Y") != tmp3 || strcat (tmp3, "Y") != tmp3 || memset (target, 'Y', 2) != target) { eprintf (__LINE__, target, "Y", 0); test_failed = 1; } target[2] = '\0'; if (memcmp (target, "YY", 2) || strcmp (target, "YY") || strlen (target) != 2 || memchr (target, 'Y', 2) != target || strcmp (tmp3, target) || strncmp (target, tmp3, 3) || strncmp (target, tmp3, 4) || strncmp (target, tmp3, 2) || strchr (target, 'Y') != target) { eprintf (__LINE__, target, "YY", 2); test_failed = 1; } strcpy (target, "WW"); if (memcmp (target, "WW", 2) || strcmp (target, "WW") || strlen (target) != 2 || memchr (target, 'W', 2) != target || strchr (target, 'W') != target) { eprintf (__LINE__, target, "WW", 2); test_failed = 1; } if (strncpy (target, "XX", 16) != target || memcmp (target, "XX\0\0\0\0\0\0\0\0\0\0\0\0\0\0", 16)) { eprintf (__LINE__, target, "XX\0\0\0\0\0\0\0\0\0\0\0\0\0\0", 16); test_failed = 1; } if (strcpy (tmp3, "ZZ") != tmp3 || strcat (tmp3, "Z") != tmp3 || memcpy (tmp4, "Z", 2) != tmp4 || strcat (tmp4, "ZZ") != tmp4 || memset (target, 'Z', 3) != target) { eprintf (__LINE__, target, "ZZZ", 3); test_failed = 1; } target[3] = '\0'; tmp5[0] = '\0'; strncat (tmp5, "123", 2); if (memcmp (target, "ZZZ", 3) || strcmp (target, "ZZZ") || strcmp (tmp3, target) || strcmp (tmp4, target) || strncmp (target, "ZZZ", 4) || strncmp (target, "ZZY", 3) <= 0 || strncmp ("ZZY", target, 4) >= 0 || memcmp (tmp5, "12", 3) || strlen (target) != 3) { eprintf (__LINE__, target, "ZZZ", 3); test_failed = 1; } target[2] = 'K'; if (memcmp (target, "ZZZ", 2) || strcmp (target, "ZZZ") >= 0 || memcmp (target, "ZZZ", 3) >= 0 || strlen (target) != 3 || memchr (target, 'K', 3) != target + 2 || strncmp (target, "ZZZ", 2) || strncmp (target, "ZZZ", 4) >= 0 || strchr (target, 'K') != target + 2) { eprintf (__LINE__, target, "ZZK", 3); test_failed = 1; } strcpy (target, "AAA"); if (memcmp (target, "AAA", 3) || strcmp (target, "AAA") || strncmp (target, "AAA", 3) || strlen (target) != 3) { eprintf (__LINE__, target, "AAA", 3); test_failed = 1; } j = 5; while (j < MAX_1) { for (i = j-1; i <= j+1; ++i) { /* don't bother checking unaligned data in the larger sizes since it will waste time without performing additional testing */ if (i <= 16 * sizeof(long)) { align_test_iterations = 2*sizeof(long); if (i <= 2 * sizeof(long) + 1) z = 2; else z = 2 * sizeof(long); } else { align_test_iterations = 1; } for (x = 0; x < align_test_iterations; ++x) { tmp1 = target + x; tmp2 = buffer2 + x; tmp3 = buffer3 + x; tmp4 = buffer4 + x; tmp5 = buffer5 + x; tmp6 = buffer6 + x; first_char = array[i % (sizeof(array) - 1)]; second_char = array2[i % (sizeof(array2) - 1)]; memset (tmp1, first_char, i); mycopy (tmp2, tmp1, i); myset (tmp2 + z, second_char, i - z - 1); if (memcpy (tmp1 + z, tmp2 + z, i - z - 1) != tmp1 + z) { printf ("error at line %d\n", __LINE__); test_failed = 1; } tmp1[i] = '\0'; tmp2[i] = '\0'; if (strcpy (expected, tmp2) != expected) { printf ("error at line %d\n", __LINE__); test_failed = 1; } tmp2[i-z] = first_char + 1; if (memmove (tmp2 + z + 1, tmp2 + z, i - z - 1) != tmp2 + z + 1 || memset (tmp3, first_char, i) != tmp3) { printf ("error at line %d\n", __LINE__); test_failed = 1; } myset (tmp4, first_char, i); tmp5[0] = '\0'; if (strncpy (tmp5, tmp1, i+1) != tmp5 || strcat (tmp5, tmp1) != tmp5) { printf ("error at line %d\n", __LINE__); test_failed = 1; } mycopy (tmp6, tmp1, i); mycopy (tmp6 + i, tmp1, i + 1); tmp7[2*i+z] = second_char; strcpy (tmp7, tmp1); strchr (tmp1, second_char); if (memcmp (tmp1, expected, i) || strcmp (tmp1, expected) || strncmp (tmp1, expected, i) || strncmp (tmp1, expected, i+1) || strcmp (tmp1, tmp2) >= 0 || memcmp (tmp1, tmp2, i) >= 0 || strncmp (tmp1, tmp2, i+1) >= 0 || strlen (tmp1) != i || memchr (tmp1, first_char, i) != tmp1 || strchr (tmp1, first_char) != tmp1 || memchr (tmp1, second_char, i) != tmp1 + z || strchr (tmp1, second_char) != tmp1 + z || strcmp (tmp5, tmp6) || strncat (tmp7, tmp1, i+2) != tmp7 || strcmp (tmp7, tmp6) || tmp7[2*i+z] != second_char) { eprintf (__LINE__, tmp1, expected, 0); printf ("x is %d\n",x); printf ("i is %d\n", i); printf ("tmp1 is <%p>\n", tmp1); printf ("tmp5 is <%p> <%s>\n", tmp5, tmp5); printf ("tmp6 is <%p> <%s>\n", tmp6, tmp6); test_failed = 1; } for (k = 1; k <= align_test_iterations && k <= i; ++k) { if (memcmp (tmp3, tmp4, i - k + 1) != 0 || strncmp (tmp3, tmp4, i - k + 1) != 0) { printf ("Failure at line %d, comparing %.*s with %.*s\n", __LINE__, i, tmp3, i, tmp4); test_failed = 1; } tmp4[i-k] = first_char + 1; if (memcmp (tmp3, tmp4, i) >= 0 || strncmp (tmp3, tmp4, i) >= 0 || memcmp (tmp4, tmp3, i) <= 0 || strncmp (tmp4, tmp3, i) <= 0) { printf ("Failure at line %d, comparing %.*s with %.*s\n", __LINE__, i, tmp3, i, tmp4); test_failed = 1; } tmp4[i-k] = first_char; } } } j = ((2 * j) >> 2) << 2; } if (test_failed) abort(); else exit(0); }