2012-02-09 07:16:52 +08:00
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// RUN: %clang_cc1 -analyze -analyzer-checker=core,experimental.deadcode.UnreachableCode,experimental.core.CastSize,experimental.unix.MallocWithAnnotations -analyzer-store=region -verify %s
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typedef __typeof(sizeof(int)) size_t;
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void *malloc(size_t);
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void free(void *);
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void *realloc(void *ptr, size_t size);
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void *calloc(size_t nmemb, size_t size);
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void __attribute((ownership_returns(malloc))) *my_malloc(size_t);
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void __attribute((ownership_takes(malloc, 1))) my_free(void *);
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2012-03-02 06:06:06 +08:00
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void my_freeBoth(void *, void *)
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__attribute((ownership_holds(malloc, 1, 2)));
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2012-02-09 07:16:52 +08:00
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void __attribute((ownership_returns(malloc, 1))) *my_malloc2(size_t);
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void __attribute((ownership_holds(malloc, 1))) my_hold(void *);
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// Duplicate attributes are silly, but not an error.
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// Duplicate attribute has no extra effect.
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// If two are of different kinds, that is an error and reported as such.
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void __attribute((ownership_holds(malloc, 1)))
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__attribute((ownership_holds(malloc, 1)))
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__attribute((ownership_holds(malloc, 3))) my_hold2(void *, void *, void *);
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void *my_malloc3(size_t);
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void *myglobalpointer;
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struct stuff {
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void *somefield;
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};
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struct stuff myglobalstuff;
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void f1() {
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int *p = malloc(12);
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2012-03-22 03:45:08 +08:00
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return; // expected-warning{{Memory is never released; potential leak}}
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2012-02-09 07:16:52 +08:00
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}
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void f2() {
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int *p = malloc(12);
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free(p);
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2012-02-17 06:26:12 +08:00
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free(p); // expected-warning{{Attempt to free released memory}}
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2012-02-09 07:16:52 +08:00
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}
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void f2_realloc_0() {
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int *p = malloc(12);
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realloc(p,0);
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2012-02-17 06:26:12 +08:00
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realloc(p,0); // expected-warning{{Attempt to free released memory}}
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2012-02-09 07:16:52 +08:00
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}
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void f2_realloc_1() {
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int *p = malloc(12);
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int *q = realloc(p,0); // no-warning
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}
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// ownership attributes tests
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void naf1() {
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int *p = my_malloc3(12);
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return; // no-warning
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}
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void n2af1() {
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int *p = my_malloc2(12);
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2012-03-22 03:45:08 +08:00
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return; // expected-warning{{Memory is never released; potential leak}}
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2012-02-09 07:16:52 +08:00
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}
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void af1() {
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int *p = my_malloc(12);
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2012-03-22 03:45:08 +08:00
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return; // expected-warning{{Memory is never released; potential leak}}
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2012-02-09 07:16:52 +08:00
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}
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void af1_b() {
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2012-03-22 03:45:08 +08:00
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int *p = my_malloc(12); // expected-warning{{Memory is never released; potential leak}}
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2012-02-09 07:16:52 +08:00
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}
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void af1_c() {
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myglobalpointer = my_malloc(12); // no-warning
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}
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2012-02-16 11:40:57 +08:00
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// TODO: We will be able to handle this after we add support for tracking allocations stored in struct fields.
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2012-02-09 07:16:52 +08:00
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void af1_d() {
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struct stuff mystuff;
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2012-02-16 11:40:57 +08:00
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mystuff.somefield = my_malloc(12); // false negative
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2012-02-09 07:16:52 +08:00
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}
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// Test that we can pass out allocated memory via pointer-to-pointer.
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void af1_e(void **pp) {
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*pp = my_malloc(42); // no-warning
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}
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void af1_f(struct stuff *somestuff) {
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somestuff->somefield = my_malloc(12); // no-warning
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}
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// Allocating memory for a field via multiple indirections to our arguments is OK.
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void af1_g(struct stuff **pps) {
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*pps = my_malloc(sizeof(struct stuff)); // no-warning
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(*pps)->somefield = my_malloc(42); // no-warning
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}
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void af2() {
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int *p = my_malloc(12);
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my_free(p);
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2012-02-17 06:26:12 +08:00
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free(p); // expected-warning{{Attempt to free released memory}}
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2012-02-09 07:16:52 +08:00
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}
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void af2b() {
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int *p = my_malloc(12);
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free(p);
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2012-02-17 06:26:12 +08:00
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my_free(p); // expected-warning{{Attempt to free released memory}}
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2012-02-09 07:16:52 +08:00
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}
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void af2c() {
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int *p = my_malloc(12);
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free(p);
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2012-02-17 06:26:12 +08:00
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my_hold(p); // expected-warning{{Attempt to free released memory}}
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2012-02-09 07:16:52 +08:00
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}
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void af2d() {
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int *p = my_malloc(12);
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free(p);
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2012-02-17 06:26:12 +08:00
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my_hold2(0, 0, p); // expected-warning{{Attempt to free released memory}}
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2012-02-09 07:16:52 +08:00
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}
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// No leak if malloc returns null.
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void af2e() {
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int *p = my_malloc(12);
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if (!p)
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return; // no-warning
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free(p); // no-warning
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}
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2012-06-21 04:57:46 +08:00
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// This case inflicts a possible double-free.
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2012-02-09 07:16:52 +08:00
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void af3() {
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int *p = my_malloc(12);
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my_hold(p);
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2012-06-22 10:04:31 +08:00
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free(p); // expected-warning{{Attempt to free non-owned memory}}
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2012-02-09 07:16:52 +08:00
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}
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int * af4() {
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int *p = my_malloc(12);
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my_free(p);
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2012-02-17 06:26:12 +08:00
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return p; // expected-warning{{Use of memory after it is freed}}
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2012-02-09 07:16:52 +08:00
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}
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// This case is (possibly) ok, be conservative
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int * af5() {
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int *p = my_malloc(12);
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my_hold(p);
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return p; // no-warning
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}
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// This case tests that storing malloc'ed memory to a static variable which is
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// then returned is not leaked. In the absence of known contracts for functions
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// or inter-procedural analysis, this is a conservative answer.
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int *f3() {
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static int *p = 0;
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p = malloc(12);
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return p; // no-warning
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}
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// This case tests that storing malloc'ed memory to a static global variable
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// which is then returned is not leaked. In the absence of known contracts for
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// functions or inter-procedural analysis, this is a conservative answer.
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static int *p_f4 = 0;
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int *f4() {
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p_f4 = malloc(12);
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return p_f4; // no-warning
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}
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int *f5() {
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int *q = malloc(12);
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q = realloc(q, 20);
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return q; // no-warning
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}
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void f6() {
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int *p = malloc(12);
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if (!p)
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return; // no-warning
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else
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free(p);
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}
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void f6_realloc() {
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int *p = malloc(12);
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if (!p)
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return; // no-warning
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else
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realloc(p,0);
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}
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char *doit2();
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void pr6069() {
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char *buf = doit2();
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free(buf);
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}
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void pr6293() {
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free(0);
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}
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void f7() {
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char *x = (char*) malloc(4);
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free(x);
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2012-02-17 06:26:12 +08:00
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x[0] = 'a'; // expected-warning{{Use of memory after it is freed}}
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2012-02-09 07:16:52 +08:00
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}
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void f7_realloc() {
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char *x = (char*) malloc(4);
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realloc(x,0);
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2012-02-17 06:26:12 +08:00
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x[0] = 'a'; // expected-warning{{Use of memory after it is freed}}
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2012-02-09 07:16:52 +08:00
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}
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void PR6123() {
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int *x = malloc(11); // expected-warning{{Cast a region whose size is not a multiple of the destination type size.}}
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}
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void PR7217() {
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int *buf = malloc(2); // expected-warning{{Cast a region whose size is not a multiple of the destination type size.}}
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buf[1] = 'c'; // not crash
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}
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void mallocCastToVoid() {
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void *p = malloc(2);
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const void *cp = p; // not crash
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free(p);
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}
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void mallocCastToFP() {
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void *p = malloc(2);
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void (*fp)() = p; // not crash
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free(p);
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}
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// This tests that malloc() buffers are undefined by default
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char mallocGarbage () {
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char *buf = malloc(2);
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char result = buf[1]; // expected-warning{{undefined}}
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free(buf);
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return result;
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}
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// This tests that calloc() buffers need to be freed
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void callocNoFree () {
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char *buf = calloc(2,2);
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return; // expected-warning{{never released}}
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}
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// These test that calloc() buffers are zeroed by default
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char callocZeroesGood () {
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char *buf = calloc(2,2);
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char result = buf[3]; // no-warning
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if (buf[1] == 0) {
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free(buf);
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}
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return result; // no-warning
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}
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char callocZeroesBad () {
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char *buf = calloc(2,2);
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char result = buf[3]; // no-warning
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if (buf[1] != 0) {
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free(buf); // expected-warning{{never executed}}
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}
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return result; // expected-warning{{never released}}
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}
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2012-03-02 06:06:06 +08:00
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void testMultipleFreeAnnotations() {
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int *p = malloc(12);
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int *q = malloc(12);
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my_freeBoth(p, q);
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}
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