// Given code 'struct aa { char s1[4]; char * s2;} a; memcpy(a.s1, ...);', // this test checks that the CStringChecker only invalidates the destination buffer array a.s1 (instead of a.s1 and a.s2). // At the moment the whole of the destination array content is invalidated. // If a.s1 region has a symbolic offset, the whole region of 'a' is invalidated. // Specific triple set to test structures of size 0. // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -analyze -analyzer-checker=core,unix.Malloc,debug.ExprInspection -analyzer-store=region -verify %s typedef __typeof(sizeof(int)) size_t; char *strdup(const char *s); void free(void *); void *memcpy(void *dst, const void *src, size_t n); // expected-note{{passing argument to parameter 'dst' here}} void *malloc(size_t n); void clang_analyzer_eval(int); struct aa { char s1[4]; char *s2; }; // Test different types of structure initialisation. int f0() { struct aa a0 = {{1, 2, 3, 4}, 0}; a0.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a0.s1, input, 4); clang_analyzer_eval(a0.s1[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a0.s1[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a0.s1[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a0.s1[3] == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a0.s2 == 0); // expected-warning{{UNKNOWN}} free(a0.s2); // no warning return 0; } int f1() { struct aa a1; a1.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a1.s1, input, 4); clang_analyzer_eval(a1.s1[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a1.s1[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a1.s1[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a1.s1[3] == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a1.s2 == 0); // expected-warning{{UNKNOWN}} free(a1.s2); // no warning return 0; } int f2() { struct aa a2 = {{1, 2}}; a2.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a2.s1, input, 4); clang_analyzer_eval(a2.s1[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a2.s1[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a2.s1[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a2.s1[3] == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a2.s2 == 0); // expected-warning{{UNKNOWN}} free(a2.s2); // no warning return 0; } int f3() { struct aa a3 = {{1, 2, 3, 4}, 0}; a3.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; int * dest = (int*)a3.s1; memcpy(dest, input, 4); clang_analyzer_eval(a3.s1[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(dest[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a3.s1[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(dest[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a3.s1[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(dest[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a3.s1[3] == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(dest[3] == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a3.s2 == 0); // expected-warning{{UNKNOWN}} free(a3.s2); // no warning return 0; } struct bb { struct aa a; char * s2; }; int f4() { struct bb b0 = {{1, 2, 3, 4}, 0}; b0.s2 = strdup("hello"); b0.a.s2 = strdup("hola"); char input[] = {'a', 'b', 'c', 'd'}; char * dest = (char*)(b0.a.s1); memcpy(dest, input, 4); clang_analyzer_eval(b0.a.s1[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(dest[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(b0.a.s1[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(dest[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(b0.a.s1[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(dest[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(b0.a.s1[3] == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(dest[3] == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(b0.s2 == 0); // expected-warning{{UNKNOWN}} free(b0.a.s2); // no warning free(b0.s2); // no warning return 0; } // Test that memory leaks are caught. int f5() { struct aa a0 = {{1, 2, 3, 4}, 0}; a0.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a0.s1, input, 4); return 0; // expected-warning{{Potential leak of memory pointed to by 'a0.s2'}} } int f6() { struct aa a1; a1.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a1.s1, input, 4); return 0; // expected-warning{{Potential leak of memory pointed to by 'a1.s2'}} } int f7() { struct aa a2 = {{1, 2}}; a2.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a2.s1, input, 4); return 0; // expected-warning{{Potential leak of memory pointed to by 'a2.s2'}} } int f8() { struct aa a3 = {{1, 2, 3, 4}, 0}; a3.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; int * dest = (int*)a3.s1; memcpy(dest, input, 4); return 0; // expected-warning{{Potential leak of memory pointed to by 'a3.s2'}} } int f9() { struct bb b0 = {{1, 2, 3, 4}, 0}; b0.s2 = strdup("hello"); b0.a.s2 = strdup("hola"); char input[] = {'a', 'b', 'c', 'd'}; char * dest = (char*)(b0.a.s1); memcpy(dest, input, 4); free(b0.a.s2); // expected-warning{{Potential leak of memory pointed to by 'b0.s2'}} return 0; } int f10() { struct bb b0 = {{1, 2, 3, 4}, 0}; b0.s2 = strdup("hello"); b0.a.s2 = strdup("hola"); char input[] = {'a', 'b', 'c', 'd'}; char * dest = (char*)(b0.a.s1); memcpy(dest, input, 4); free(b0.s2); // expected-warning{{Potential leak of memory pointed to by 'b0.a.s2'}} return 0; } // Test invalidating fields being addresses of array. struct cc { char * s1; char * s2; }; int f11() { char x[4] = {1, 2}; x[0] = 1; x[1] = 2; struct cc c0; c0.s2 = strdup("hello"); c0.s1 = &x[0]; char input[] = {'a', 'b', 'c', 'd'}; memcpy(c0.s1, input, 4); clang_analyzer_eval(x[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(x[1] == 2); // expected-warning{{UNKNOWN}} clang_analyzer_eval(c0.s1[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(c0.s1[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(c0.s1[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(c0.s1[3] == 'd'); // expected-warning{{UNKNOWN}} free(c0.s2); // no-warning return 0; } // Test inverting field position between s1 and s2. struct dd { char *s2; char s1[4]; }; int f12() { struct dd d0 = {0, {1, 2, 3, 4}}; d0.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(d0.s1, input, 4); clang_analyzer_eval(d0.s1[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d0.s1[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d0.s1[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d0.s1[3] == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d0.s2 == 0); // expected-warning{{UNKNOWN}} free(d0.s2); // no warning return 0; } // Test arrays of structs. struct ee { int a; char b; }; struct EE { struct ee s1[2]; char * s2; }; int f13() { struct EE E0 = {{{1, 2}, {3, 4}}, 0}; E0.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(E0.s1, input, 4); clang_analyzer_eval(E0.s1[0].a == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(E0.s1[0].b == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(E0.s1[1].a == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(E0.s1[1].b == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(E0.s2 == 0); // expected-warning{{UNKNOWN}} free(E0.s2); // no warning return 0; } // Test global parameters. struct aa a15 = {{1, 2, 3, 4}, 0}; int f15() { a15.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a15.s1, input, 4); clang_analyzer_eval(a15.s1[0] == 'a'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a15.s1[1] == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a15.s1[2] == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a15.s1[3] == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a15.s2 == 0); // expected-warning{{UNKNOWN}} free(a15.s2); // no warning return 0; } // Test array of 0 sized elements. struct empty {}; struct gg { struct empty s1[4]; char * s2; }; int f16() { struct gg g0 = {{}, 0}; g0.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(g0.s1, input, 4); clang_analyzer_eval(*(int*)(&g0.s1[0]) == 'a'); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'g0.s2'}} clang_analyzer_eval(*(int*)(&g0.s1[1]) == 'b'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(*(int*)(&g0.s1[2]) == 'c'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(*(int*)(&g0.s1[3]) == 'd'); // expected-warning{{UNKNOWN}} clang_analyzer_eval(g0.s2 == 0); // expected-warning{{UNKNOWN}} free(g0.s2); // no warning return 0; } // Test array of 0 elements. struct hh { char s1[0]; char * s2; }; int f17() { struct hh h0; h0.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(h0.s1, input, 4); clang_analyzer_eval(h0.s1[0] == 'a'); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'h0.s2'}} clang_analyzer_eval(h0.s2 == 0); // expected-warning{{UNKNOWN}} free(h0.s2); // no warning return 0; } // Test writing past the array. struct ii { char s1[4]; int i; int j; char * s2; }; int f18() { struct ii i18 = {{1, 2, 3, 4}, 5, 6}; i18.i = 10; i18.j = 11; i18.s2 = strdup("hello"); char input[100] = {3}; memcpy(i18.s1, input, 100); clang_analyzer_eval(i18.s1[0] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'i18.s2'}} clang_analyzer_eval(i18.s1[1] == 2); // expected-warning{{UNKNOWN}} clang_analyzer_eval(i18.s1[2] == 3); // expected-warning{{UNKNOWN}} clang_analyzer_eval(i18.s1[3] == 4); // expected-warning{{UNKNOWN}} clang_analyzer_eval(i18.i == 10); // expected-warning{{UNKNOWN}} clang_analyzer_eval(i18.j == 11); // expected-warning{{UNKNOWN}} return 0; } int f181() { struct ii i181 = {{1, 2, 3, 4}, 5, 6}; i181.i = 10; i181.j = 11; i181.s2 = strdup("hello"); char input[100] = {3}; memcpy(i181.s1, input, 5); // invalidate the whole region of i181 clang_analyzer_eval(i181.s1[0] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'i181.s2'}} clang_analyzer_eval(i181.s1[1] == 2); // expected-warning{{UNKNOWN}} clang_analyzer_eval(i181.s1[2] == 3); // expected-warning{{UNKNOWN}} clang_analyzer_eval(i181.s1[3] == 4); // expected-warning{{UNKNOWN}} clang_analyzer_eval(i181.i == 10); // expected-warning{{UNKNOWN}} clang_analyzer_eval(i181.j == 11); // expected-warning{{UNKNOWN}} return 0; } // Test array with a symbolic offset. struct jj { char s1[2]; char * s2; }; struct JJ { struct jj s1[3]; char * s2; }; int f19(int i) { struct JJ J0 = {{{1, 2, 0}, {3, 4, 0}, {5, 6, 0}}, 0}; J0.s2 = strdup("hello"); J0.s1[0].s2 = strdup("hello"); J0.s1[1].s2 = strdup("hi"); J0.s1[2].s2 = strdup("world"); char input[2] = {'a', 'b'}; memcpy(J0.s1[i].s1, input, 2); clang_analyzer_eval(J0.s1[0].s1[0] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by field 's2'}}\ expected-warning{{Potential leak of memory pointed to by 'J0.s2'}} clang_analyzer_eval(J0.s1[0].s1[1] == 2); // expected-warning{{UNKNOWN}} clang_analyzer_eval(J0.s1[1].s1[0] == 3); // expected-warning{{UNKNOWN}} clang_analyzer_eval(J0.s1[1].s1[1] == 4); // expected-warning{{UNKNOWN}} clang_analyzer_eval(J0.s1[2].s1[0] == 5); // expected-warning{{UNKNOWN}} clang_analyzer_eval(J0.s1[2].s1[1] == 6); // expected-warning{{UNKNOWN}} clang_analyzer_eval(J0.s1[i].s1[0] == 5); // expected-warning{{UNKNOWN}} clang_analyzer_eval(J0.s1[i].s1[1] == 6); // expected-warning{{UNKNOWN}} // FIXME: memory leak warning for J0.s2 should be emitted here instead of after memcpy call. return 0; // no warning } // Test array with its super region having symbolic offseted regions. int f20(int i) { struct aa * a20 = malloc(sizeof(struct aa) * 2); a20[0].s1[0] = 1; a20[0].s1[1] = 2; a20[0].s1[2] = 3; a20[0].s1[3] = 4; a20[0].s2 = strdup("hello"); a20[1].s1[0] = 5; a20[1].s1[1] = 6; a20[1].s1[2] = 7; a20[1].s1[3] = 8; a20[1].s2 = strdup("world"); a20[i].s2 = strdup("hola"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a20[0].s1, input, 4); clang_analyzer_eval(a20[0].s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[0].s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[0].s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[0].s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[0].s2 == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[1].s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[1].s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[1].s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[1].s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[1].s2 == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[i].s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[i].s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[i].s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[i].s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a20[i].s2 == 0); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'a20'}} return 0; } // Test array's region and super region both having symbolic offsets. int f21(int i) { struct aa * a21 = malloc(sizeof(struct aa) * 2); a21[0].s1[0] = 1; a21[0].s1[1] = 2; a21[0].s1[2] = 3; a21[0].s1[3] = 4; a21[0].s2 = 0; a21[1].s1[0] = 5; a21[1].s1[1] = 6; a21[1].s1[2] = 7; a21[1].s1[3] = 8; a21[1].s2 = 0; a21[i].s2 = strdup("hello"); a21[i].s1[0] = 1; a21[i].s1[1] = 2; a21[i].s1[2] = 3; a21[i].s1[3] = 4; char input[] = {'a', 'b', 'c', 'd'}; memcpy(a21[i].s1, input, 4); clang_analyzer_eval(a21[0].s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[0].s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[0].s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[0].s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[0].s2 == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[1].s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[1].s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[1].s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[1].s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[1].s2 == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[i].s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[i].s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[i].s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[i].s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a21[i].s2 == 0); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'a21'}} return 0; } // Test regions aliasing other regions. struct ll { char s1[4]; char * s2; }; struct mm { char s3[4]; char * s4; }; int f24() { struct ll l24 = {{1, 2, 3, 4}, 0}; struct mm * m24 = (struct mm *)&l24; m24->s4 = strdup("hello"); char input[] = {1, 2, 3, 4}; memcpy(m24->s3, input, 4); clang_analyzer_eval(m24->s3[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m24->s3[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m24->s3[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m24->s3[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l24.s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l24.s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l24.s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l24.s1[3] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by field 's4'}} return 0; } // Test region with potential aliasing and symbolic offsets. // Store assumes no aliasing. int f25(int i, int j, struct ll * l, struct mm * m) { m->s4 = strdup("hola"); // m->s4 not tracked m->s3[0] = 1; m->s3[1] = 2; m->s3[2] = 3; m->s3[3] = 4; m->s3[j] = 5; // invalidates m->s3 l->s2 = strdup("hello"); // l->s2 not tracked l->s1[0] = 6; l->s1[1] = 7; l->s1[2] = 8; l->s1[3] = 9; l->s1[i] = 10; // invalidates l->s1 char input[] = {1, 2, 3, 4}; memcpy(m->s3, input, 4); // does not invalidate l->s1[i] clang_analyzer_eval(m->s3[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m->s3[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m->s3[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m->s3[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m->s3[i] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m->s3[j] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l->s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l->s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l->s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l->s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l->s1[i] == 1); // expected-warning{{FALSE}} clang_analyzer_eval(l->s1[j] == 1); // expected-warning{{UNKNOWN}} return 0; } // Test size with symbolic size argument. int f26(int i) { struct aa a26 = {{1, 2, 3, 4}, 0}; a26.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a26.s1, input, i); // i assumed in bound clang_analyzer_eval(a26.s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a26.s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a26.s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a26.s1[3] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'a26.s2'}} return 0; } // Test sizeof as a size argument. int f261() { struct aa a261 = {{1, 2, 3, 4}, 0}; a261.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a261.s1, input, sizeof(a261.s1)); clang_analyzer_eval(a261.s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a261.s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a261.s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a261.s1[3] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'a261.s2'}} return 0; } // Test negative size argument. int f262() { struct aa a262 = {{1, 2, 3, 4}, 0}; a262.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(a262.s1, input, -1); clang_analyzer_eval(a262.s1[0] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'a262.s2'}} clang_analyzer_eval(a262.s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a262.s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(a262.s1[3] == 1); // expected-warning{{UNKNOWN}} return 0; } // Test size argument being an unknown value. struct xx { char s1[4]; char * s2; }; int f263(int n, char * len) { struct xx x263 = {0}; x263.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(x263.s1, input, *(len + n)); clang_analyzer_eval(x263.s1[0] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(x263.s1[1] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(x263.s1[2] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(x263.s1[3] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(x263.s2 == 0); // expected-warning{{UNKNOWN}} return 0; // expected-warning{{Potential leak of memory pointed to by 'x263.s2'}} } // Test casting regions with symbolic offseted sub regions. int f27(int i) { struct mm m27 = {{1, 2, 3, 4}, 0}; m27.s4 = strdup("hello"); m27.s3[i] = 5; char input[] = {'a', 'b', 'c', 'd'}; memcpy(((struct ll*)(&m27))->s1, input, 4); clang_analyzer_eval(m27.s3[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m27.s3[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m27.s3[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m27.s3[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m27.s3[i] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'm27.s4'}} return 0; } int f28(int i, int j, int k, int l) { struct mm m28[2]; m28[i].s4 = strdup("hello"); m28[j].s3[k] = 1; struct ll * l28 = (struct ll*)(&m28[1]); l28->s1[l] = 2; char input[] = {'a', 'b', 'c', 'd'}; memcpy(l28->s1, input, 4); clang_analyzer_eval(m28[0].s3[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[0].s3[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[0].s3[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[0].s3[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[1].s3[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[1].s3[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[1].s3[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[1].s3[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[i].s3[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[i].s3[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[i].s3[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[i].s3[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m28[j].s3[k] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(l28->s1[l] == 2); // expected-warning{{UNKNOWN}} return 0; } int f29(int i, int j, int k, int l, int m) { struct mm m29[2]; m29[i].s4 = strdup("hello"); m29[j].s3[k] = 1; struct ll * l29 = (struct ll*)(&m29[l]); l29->s1[m] = 2; char input[] = {'a', 'b', 'c', 'd'}; memcpy(l29->s1, input, 4); clang_analyzer_eval(m29[0].s3[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[0].s3[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[0].s3[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[0].s3[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[1].s3[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[1].s3[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[1].s3[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[1].s3[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[i].s3[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[i].s3[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[i].s3[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[i].s3[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(m29[j].s3[k] == 1); // expected-warning{{TRUE}}\ expected-warning{{Potential leak of memory pointed to by field 's4'}} clang_analyzer_eval(l29->s1[m] == 2); // expected-warning{{UNKNOWN}} return 0; } // Test unions' fields. union uu { char x; char s1[4]; }; int f30() { union uu u30 = { .s1 = {1, 2, 3, 4}}; char input[] = {1, 2, 3, 4}; memcpy(u30.s1, input, 4); clang_analyzer_eval(u30.s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(u30.s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(u30.s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(u30.s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(u30.x == 1); // expected-warning{{UNKNOWN}} return 0; } struct kk { union uu u; char * s2; }; int f31() { struct kk k31; k31.s2 = strdup("hello"); k31.u.x = 1; char input[] = {'a', 'b', 'c', 'd'}; memcpy(k31.u.s1, input, 4); clang_analyzer_eval(k31.u.s1[0] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'k31.s2'}} clang_analyzer_eval(k31.u.s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(k31.u.s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(k31.u.s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(k31.u.x == 1); // expected-warning{{UNKNOWN}} // FIXME: memory leak warning for k31.s2 should be emitted here. return 0; } union vv { int x; char * s2; }; int f32() { union vv v32; v32.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(v32.s2, input, 4); clang_analyzer_eval(v32.s2[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(v32.s2[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(v32.s2[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(v32.s2[3] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{Potential leak of memory pointed to by 'v32.s2'}} return 0; } struct nn { int s1; int i; int j; int k; char * s2; }; // Test bad types to dest buffer. int f33() { struct nn n33 = {1, 2, 3, 4, 0}; n33.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(n33.s1, input, 4); // expected-warning{{incompatible integer to pointer conversion passing 'int' to parameter of type 'void *'}} clang_analyzer_eval(n33.i == 2); // expected-warning{{TRUE}} clang_analyzer_eval(n33.j == 3); // expected-warning{{TRUE}} clang_analyzer_eval(n33.k == 4); // expected-warning{{TRUE}} clang_analyzer_eval(((char*)(n33.s1))[0] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{cast to 'char *' from smaller integer type 'int'}} clang_analyzer_eval(((char*)(n33.s1))[1] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{cast to 'char *' from smaller integer type 'int'}} clang_analyzer_eval(((char*)(n33.s1))[2] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{cast to 'char *' from smaller integer type 'int'}} clang_analyzer_eval(((char*)(n33.s1))[3] == 1); // expected-warning{{UNKNOWN}}\ expected-warning{{cast to 'char *' from smaller integer type 'int'}} clang_analyzer_eval(n33.s2 == 0); //expected-warning{{UNKNOWN}} return 0; // expected-warning{{Potential leak of memory pointed to by 'n33.s2'}} } // Test destination buffer being an unknown value. struct ww { int s1[4]; char s2; }; int f34(struct ww * w34, int n) { w34->s2 = 3; char input[] = {'a', 'b', 'c', 'd'}; memcpy(w34->s1 + n, input , 4); clang_analyzer_eval(w34->s1[0] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(w34->s1[1] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(w34->s1[2] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(w34->s1[3] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(w34->s1[n] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(w34->s2 == 3); // expected-warning{{TRUE}} return 0; } // Test dest buffer as an element region with a symbolic index and size parameter as a symbolic value. struct yy { char s1[4]; char * s2; }; int f35(int i, int n) { struct yy y35 = {{1, 2, 3, 4}, 0}; y35.s2 = strdup("hello"); char input[] = {'a', 'b', 'c', 'd'}; memcpy(&(y35.s1[i]), input, n); clang_analyzer_eval(y35.s1[0] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(y35.s1[1] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(y35.s1[2] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(y35.s1[3] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(y35.s1[i] == 0); // expected-warning{{UNKNOWN}} clang_analyzer_eval(y35.s2 == 0); // expected-warning{{UNKNOWN}} return 0; // expected-warning{{Potential leak of memory pointed to by 'y35.s2'}} } // Test regions with negative offsets. struct zz { char s1[4]; int s2; }; int f36(struct zz * z36) { char input[] = {'a', 'b', 'c', 'd'}; z36->s1[0] = 0; z36->s1[1] = 1; z36->s1[2] = 2; z36->s1[3] = 3; z36->s2 = 10; z36 = z36 - 1; // Decrement by 8 bytes (struct zz is 8 bytes). z36->s1[0] = 4; z36->s1[1] = 5; z36->s1[2] = 6; z36->s1[3] = 7; z36->s2 = 11; memcpy(z36->s1, input, 4); clang_analyzer_eval(z36->s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z36->s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z36->s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z36->s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z36->s2 == 11); // expected-warning{{TRUE}} z36 = z36 + 1; // Increment back. clang_analyzer_eval(z36->s1[0] == 0); // expected-warning{{TRUE}} clang_analyzer_eval(z36->s1[1] == 1); // expected-warning{{TRUE}} clang_analyzer_eval(z36->s1[2] == 2); // expected-warning{{TRUE}} clang_analyzer_eval(z36->s1[3] == 3); // expected-warning{{TRUE}} clang_analyzer_eval(z36->s2 == 10); // expected-warning{{TRUE}} return 0; } int f37(struct zz * z37) { char input[] = {'a', 'b', 'c', 'd'}; z37->s1[0] = 0; z37->s1[1] = 1; z37->s1[2] = 2; z37->s1[3] = 3; z37->s2 = 10; z37 = (struct zz *)((char*)(z37) - 4); // Decrement by 4 bytes (struct zz is 8 bytes). z37->s1[0] = 4; z37->s1[1] = 5; z37->s1[2] = 6; z37->s1[3] = 7; z37->s2 = 11; memcpy(z37->s1, input, 4); clang_analyzer_eval(z37->s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z37->s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z37->s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z37->s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z37->s2 == 11); // expected-warning{{TRUE}} z37 = (struct zz *)((char*)(z37) + 4); // Increment back. clang_analyzer_eval(z37->s1[0] == 11); // expected-warning{{TRUE}} clang_analyzer_eval(z37->s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z37->s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z37->s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z37->s2 == 10); // expected-warning{{TRUE}} return 0; } int f38(struct zz * z38) { char input[] = {'a', 'b', 'c', 'd'}; z38->s1[0] = 0; z38->s1[1] = 1; z38->s1[2] = 2; z38->s1[3] = 3; z38->s2 = 10; z38 = (struct zz *)((char*)(z38) - 2); // Decrement by 2 bytes (struct zz is 8 bytes). z38->s1[0] = 4; z38->s1[1] = 5; z38->s1[2] = 6; z38->s1[3] = 7; z38->s2 = 11; memcpy(z38->s1, input, 4); clang_analyzer_eval(z38->s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z38->s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z38->s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z38->s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z38->s2 == 11); // expected-warning{{TRUE}} z38 = (struct zz *)((char*)(z38) + 2); // Increment back. clang_analyzer_eval(z38->s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z38->s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z38->s1[2] == 11); // expected-warning{{TRUE}} clang_analyzer_eval(z38->s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(z38->s2 == 10); // expected-warning{{UNKNOWN}} return 0; } // Test negative offsets with a different structure layout. struct z0 { int s2; char s1[4]; }; int f39(struct z0 * d39) { char input[] = {'a', 'b', 'c', 'd'}; d39->s1[0] = 0; d39->s1[1] = 1; d39->s1[2] = 2; d39->s1[3] = 3; d39->s2 = 10; d39 = (struct z0 *)((char*)(d39) - 2); // Decrement by 2 bytes (struct z0 is 8 bytes). d39->s1[0] = 4; d39->s1[1] = 5; d39->s1[2] = 6; d39->s1[3] = 7; d39->s2 = 11; memcpy(d39->s1, input, 4); clang_analyzer_eval(d39->s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d39->s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d39->s1[2] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d39->s1[3] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d39->s2 == 11); // expected-warning{{TRUE}} d39 = (struct z0 *)((char*)(d39) + 2); // Increment back. clang_analyzer_eval(d39->s1[0] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d39->s1[1] == 1); // expected-warning{{UNKNOWN}} clang_analyzer_eval(d39->s1[2] == 2); // expected-warning{{TRUE}} clang_analyzer_eval(d39->s1[3] == 3); // expected-warning{{TRUE}} // FIXME: d39->s2 should evaluate to at least UNKNOWN or FALSE, // 'collectSubRegionBindings(...)' in RegionStore.cpp will need to // handle a regions' upper boundary overflowing. clang_analyzer_eval(d39->s2 == 10); // expected-warning{{TRUE}} return 0; }