cppcheck/test/testleakautovar.cpp

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/*
* Cppcheck - A tool for static C/C++ code analysis
* Copyright (C) 2007-2018 Cppcheck team.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
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#include "checkleakautovar.h"
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#include "library.h"
#include "settings.h"
#include "testsuite.h"
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#include "tokenize.h"
class TestLeakAutoVar : public TestFixture {
public:
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TestLeakAutoVar() : TestFixture("TestLeakAutoVar") {
}
private:
Settings settings;
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void run() OVERRIDE {
int id = 0;
while (!settings.library.ismemory(++id));
settings.library.setalloc("malloc", id, -1);
settings.library.setdealloc("free", id, 1);
while (!settings.library.isresource(++id));
settings.library.setalloc("fopen", id, -1);
settings.library.setdealloc("fclose", id, 1);
// Assign
TEST_CASE(assign1);
TEST_CASE(assign2);
TEST_CASE(assign3);
TEST_CASE(assign4);
TEST_CASE(assign5);
TEST_CASE(assign6);
TEST_CASE(assign7);
TEST_CASE(assign8);
TEST_CASE(assign9);
TEST_CASE(assign10);
TEST_CASE(assign11); // #3942: x = a(b(p));
TEST_CASE(assign12); // #4236: FP. bar(&x);
TEST_CASE(assign13); // #4237: FP. char*&ref=p; p=malloc(10); free(ref);
TEST_CASE(assign14);
TEST_CASE(deallocuse1);
TEST_CASE(deallocuse2);
TEST_CASE(deallocuse3);
TEST_CASE(deallocuse4);
TEST_CASE(deallocuse5); // #4018: FP. free(p), p = 0;
TEST_CASE(deallocuse6); // #4034: FP. x = p = f();
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TEST_CASE(deallocuse7); // #6467, #6469, #6473
TEST_CASE(doublefree1);
TEST_CASE(doublefree2);
TEST_CASE(doublefree3); // #4914
TEST_CASE(doublefree4); // #5451 - FP when exit is called
TEST_CASE(doublefree5); // #5522
TEST_CASE(doublefree6); // #7685
TEST_CASE(doublefree7);
TEST_CASE(doublefree8);
TEST_CASE(doublefree9);
// exit
TEST_CASE(exit1);
TEST_CASE(exit2);
TEST_CASE(exit3);
// handling function calls
TEST_CASE(functioncall1);
// goto
TEST_CASE(goto1);
TEST_CASE(goto2);
// if/else
TEST_CASE(ifelse1);
TEST_CASE(ifelse2);
TEST_CASE(ifelse3);
TEST_CASE(ifelse4);
TEST_CASE(ifelse5);
TEST_CASE(ifelse6); // #3370
TEST_CASE(ifelse7); // #5576 - if (fd < 0)
TEST_CASE(ifelse8); // #5747 - if (fd == -1)
TEST_CASE(ifelse9); // #5273 - if (X(p==NULL, 0))
TEST_CASE(ifelse10); // #8794 - if (!(x!=NULL))
TEST_CASE(ifelse11); // #8365 - if (NULL == (p = malloc(4)))
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TEST_CASE(ifelse12); // #8340 - if ((*p = malloc(4)) == NULL)
TEST_CASE(ifelse13); // #8392
// switch
TEST_CASE(switch1);
// loops
TEST_CASE(loop1);
// mismatching allocation/deallocation
TEST_CASE(mismatchAllocDealloc);
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TEST_CASE(smartPointerDeleter);
TEST_CASE(smartPointerRelease);
// Execution reaches a 'return'
TEST_CASE(return1);
TEST_CASE(return2);
TEST_CASE(return3);
TEST_CASE(return4);
TEST_CASE(return5);
// General tests: variable type, allocation type, etc
TEST_CASE(test1);
TEST_CASE(test2);
TEST_CASE(test3); // #3954 - reference pointer
TEST_CASE(test4); // #5923 - static pointer
TEST_CASE(test5); // unknown type
// Execution reaches a 'throw'
TEST_CASE(throw1);
TEST_CASE(throw2);
// Possible leak => Further configuration is needed for complete analysis
TEST_CASE(configuration1);
TEST_CASE(configuration2);
TEST_CASE(configuration3);
TEST_CASE(configuration4);
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TEST_CASE(ptrptr);
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TEST_CASE(nestedAllocation);
TEST_CASE(testKeywords); // #6767
TEST_CASE(inlineFunction); // #3989
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TEST_CASE(smartPtrInContainer); // #8262
}
void check(const char code[], bool cpp = false) {
// Clear the error buffer..
errout.str("");
// Tokenize..
Tokenizer tokenizer(&settings, this);
std::istringstream istr(code);
tokenizer.tokenize(istr, cpp?"test.cpp":"test.c");
tokenizer.simplifyTokenList2();
// Check for leaks..
CheckLeakAutoVar c;
settings.checkLibrary = true;
settings.addEnabled("information");
c.runSimplifiedChecks(&tokenizer, &settings, this);
}
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void assign1() {
check("void f() {\n"
" char *p = malloc(10);\n"
" p = NULL;\n"
" free(p);\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Memory leak: p\n", errout.str());
}
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void assign2() {
check("void f() {\n"
" char *p = malloc(10);\n"
" char *q = p;\n"
" free(q);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign3() {
check("void f() {\n"
" char *p = malloc(10);\n"
" char *q = p + 1;\n"
" free(q - 1);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign4() {
check("void f() {\n"
" char *a = malloc(10);\n"
" a += 10;\n"
" free(a - 10);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign5() {
check("void foo()\n"
"{\n"
" char *p = new char[100];\n"
" list += p;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign6() { // #2806 - FP when there is redundant assignment
check("void foo() {\n"
" char *p = malloc(10);\n"
" p = strcpy(p,q);\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign7() {
check("void foo(struct str *d) {\n"
" struct str *p = malloc(10);\n"
" d->p = p;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign8() { // linux list
check("void foo(struct str *d) {\n"
" struct str *p = malloc(10);\n"
" d->p = &p->x;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign9() {
check("void foo() {\n"
" char *p = x();\n"
" free(p);\n"
" p = NULL;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign10() {
check("void foo() {\n"
" char *p;\n"
" if (x) { p = malloc(10); }\n"
" if (!x) { p = NULL; }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign11() { // #3942 - FP for x = a(b(p));
check("void f() {\n"
" char *p = malloc(10);\n"
" x = a(b(p));\n"
"}");
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ASSERT_EQUALS("[test.c:4]: (information) --check-library: Function b() should have <use>/<leak-ignore> configuration\n", errout.str());
}
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void assign12() { // #4236: FP. bar(&x)
check("void f() {\n"
" char *p = malloc(10);\n"
" free(p);\n"
" bar(&p);\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
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void assign13() { // #4237: FP. char *&ref=p; p=malloc(10); free(ref);
check("void f() {\n"
" char *p;\n"
" char * &ref = p;\n"
" p = malloc(10);\n"
" free(ref);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
void assign14() {
check("void f(int x) {\n"
" char *p;\n"
" if (x && (p = malloc(10))) { }"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Memory leak: p\n", errout.str());
check("void f(int x) {\n"
" char *p;\n"
" if (x && (p = new char[10])) { }"
"}", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Memory leak: p\n", errout.str());
}
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void deallocuse1() {
check("void f(char *p) {\n"
" free(p);\n"
" *p = 0;\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Dereferencing 'p' after it is deallocated / released\n", errout.str());
check("void f(char *p) {\n"
" free(p);\n"
" char c = *p;\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Dereferencing 'p' after it is deallocated / released\n", errout.str());
}
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void deallocuse2() {
check("void f(char *p) {\n"
" free(p);\n"
" strcpy(a, p);\n"
"}");
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TODO_ASSERT_EQUALS("error (free,use)", "[test.c:3]: (information) --check-library: Function strcpy() should have <noreturn> configuration\n", errout.str());
check("void f(char *p) {\n" // #3041 - assigning pointer when it's used
" free(p);\n"
" strcpy(a, p=b());\n"
"}");
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TODO_ASSERT_EQUALS("", "[test.c:3]: (information) --check-library: Function strcpy() should have <noreturn> configuration\n", errout.str());
}
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void deallocuse3() {
check("void f(struct str *p) {\n"
" free(p);\n"
" p = p->next;\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Dereferencing 'p' after it is deallocated / released\n", errout.str());
}
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void deallocuse4() {
check("void f(char *p) {\n"
" free(p);\n"
" return p;\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Returning/dereferencing 'p' after it is deallocated / released\n", errout.str());
check("void f(char *p) {\n"
" if (!p) free(p);\n"
" return p;\n"
"}");
ASSERT_EQUALS("", errout.str());
check("void f(char *p) {\n"
" if (!p) delete p;\n"
" return p;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("void f(char *p) {\n"
" if (!p) delete [] p;\n"
" return p;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
}
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void deallocuse5() { // #4018
check("void f(char *p) {\n"
" free(p), p = 0;\n"
" *p = 0;\n" // <- Make sure pointer info is reset. It is NOT a freed pointer dereference
"}");
ASSERT_EQUALS("", errout.str());
}
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void deallocuse6() { // #4034
check("void f(char *p) {\n"
" free(p);\n"
" x = p = foo();\n" // <- p is not dereferenced
"}");
ASSERT_EQUALS("", errout.str());
}
void deallocuse7() { // #6467, #6469, #6473, #6648
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check("struct Foo { int* ptr; };\n"
"void f(Foo* foo) {\n"
" delete foo->ptr;\n"
" foo->ptr = new Foo; \n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("struct Foo { int* ptr; };\n"
"void f(Foo* foo) {\n"
" delete foo->ptr;\n"
" x = *foo->ptr; \n"
"}", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Dereferencing 'ptr' after it is deallocated / released\n", errout.str());
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check("void parse() {\n"
" struct Buf {\n"
" Buf(uint32_t len) : m_buf(new uint8_t[len]) {}\n"
" ~Buf() { delete[]m_buf; }\n"
" uint8_t *m_buf;\n"
" };\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("struct Foo {\n"
" Foo();\n"
" Foo* ptr;\n"
" void func();\n"
"};\n"
"void bar(Foo* foo) {\n"
" delete foo->ptr;\n"
" foo->ptr = new Foo;\n"
" foo->ptr->func();\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("void foo(void (*conv)(char**)) {\n"
" char * ptr=(char*)malloc(42);\n"
" free(ptr);\n"
" (*conv)(&ptr);\n"
"}");
ASSERT_EQUALS("", errout.str());
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}
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void doublefree1() { // #3895
check("void f(char *p) {\n"
" if (x)\n"
" free(p);\n"
" else\n"
" p = 0;\n"
" free(p);\n"
"}");
ASSERT_EQUALS("[test.c:6]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"void foo(char *p) {\n"
" free(p);\n"
" free(p);\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"void foo(char *p, char *r) {\n"
" free(p);\n"
" free(r);\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void foo() {\n"
" free(p);\n"
" free(r);\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void foo(char *p) {\n"
" if (x < 3) free(p);\n"
" else { if (x > 9) free(p); }\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void foo(char *p) {\n"
" free(p);\n"
" getNext(&p);\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void foo(char *p) {\n"
" free(p);\n"
" bar();\n"
" free(p);\n"
"}");
ASSERT_EQUALS("[test.c:4]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"void foo(char *p) {\n"
" free(p);\n"
" printf(\"Freed memory at location %x\", p);\n"
" free(p);\n"
"}");
ASSERT_EQUALS("[test.c:4]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"void foo(FILE *p) {\n"
" fclose(p);\n"
" fclose(p);\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Resource handle 'p' freed twice.\n", errout.str());
check(
"void foo(FILE *p, FILE *r) {\n"
" fclose(p);\n"
" fclose(r);\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void foo(FILE *p) {\n"
" if (x < 3) fclose(p);\n"
" else { if (x > 9) fclose(p); }\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void foo(FILE *p) {\n"
" fclose(p);\n"
" gethandle(&p);\n"
" fclose(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void foo(FILE *p) {\n"
" fclose(p);\n"
" gethandle();\n"
" fclose(p);\n"
"}");
ASSERT_EQUALS("[test.c:4]: (error) Resource handle 'p' freed twice.\n", errout.str());
check(
"void foo(Data* p) {\n"
" free(p->a);\n"
" free(p->b);\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void f() {\n"
" char *p; p = malloc(100);\n"
" if (x) {\n"
" free(p);\n"
" exit();\n"
" }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void f() {\n"
" char *p; p = malloc(100);\n"
" if (x) {\n"
" free(p);\n"
" x = 0;\n"
" }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("[test.c:7]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"void f() {\n"
" char *p; p = do_something();\n"
" free(p);\n"
" p = do_something();\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
check(
"void foo(char *p) {\n"
" delete p;\n"
" delete p;\n"
"}", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"void foo(char *p, char *r) {\n"
" delete p;\n"
" delete r;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void foo(P p) {\n"
" delete p.x;\n"
" delete p;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
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check(
"void foo(char **p) {\n"
" delete p[0];\n"
" delete p[1];\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void foo(char *p) {\n"
" delete p;\n"
" getNext(&p);\n"
" delete p;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void foo(char *p) {\n"
" delete p;\n"
" bar();\n"
" delete p;\n"
"}", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"void foo(char *p) {\n"
" delete[] p;\n"
" delete[] p;\n"
"}", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"void foo(char *p, char *r) {\n"
" delete[] p;\n"
" delete[] r;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void foo(char *p) {\n"
" delete[] p;\n"
" getNext(&p);\n"
" delete[] p;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void foo(char *p) {\n"
" delete[] p;\n"
" bar();\n"
" delete[] p;\n"
"}", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"LineMarker::~LineMarker() {\n"
" delete pxpm;\n"
"}\n"
"LineMarker &LineMarker::operator=(const LineMarker &) {\n"
" delete pxpm;\n"
" pxpm = NULL;\n"
" return *this;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void foo()\n"
"{\n"
" int* ptr; ptr = NULL;\n"
" try\n"
" {\n"
" ptr = new int(4);\n"
" }\n"
" catch(...)\n"
" {\n"
" delete ptr;\n"
" throw;\n"
" }\n"
" delete ptr;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"int foo()\n"
"{\n"
" int* a; a = new int;\n"
" bool doDelete; doDelete = true;\n"
" if (a != 0)\n"
" {\n"
" doDelete = false;\n"
" delete a;\n"
" }\n"
" if(doDelete)\n"
" delete a;\n"
" return 0;\n"
"}", true);
TODO_ASSERT_EQUALS("", "[test.cpp:11]: (error) Memory pointed to by 'a' is freed twice.\n", errout.str());
check(
"void foo(int y)\n"
"{\n"
" char * x; x = NULL;\n"
" while(true) {\n"
" x = new char[100];\n"
" if (y++ > 100)\n"
" break;\n"
" delete[] x;\n"
" }\n"
" delete[] x;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void foo(int y)\n"
"{\n"
" char * x; x = NULL;\n"
" for (int i = 0; i < 10000; i++) {\n"
" x = new char[100];\n"
" delete[] x;\n"
" }\n"
" delete[] x;\n"
"}", true);
TODO_ASSERT_EQUALS("[test.cpp:8]: (error) Memory pointed to by 'x' is freed twice.\n", "", errout.str());
check(
"void foo(int y)\n"
"{\n"
" char * x; x = NULL;\n"
" while (isRunning()) {\n"
" x = new char[100];\n"
" delete[] x;\n"
" }\n"
" delete[] x;\n"
"}", true);
TODO_ASSERT_EQUALS("[test.cpp:8]: (error) Memory pointed to by 'x' is freed twice.\n", "", errout.str());
check(
"void foo(int y)\n"
"{\n"
" char * x; x = NULL;\n"
" while (isRunning()) {\n"
" x = malloc(100);\n"
" free(x);\n"
" }\n"
" free(x);\n"
"}");
TODO_ASSERT_EQUALS("[test.c:8]: (error) Memory pointed to by 'x' is freed twice.\n", "", errout.str());
check(
"void foo(int y)\n"
"{\n"
" char * x; x = NULL;\n"
" for (;;) {\n"
" x = new char[100];\n"
" if (y++ > 100)\n"
" break;\n"
" delete[] x;\n"
" }\n"
" delete[] x;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void foo(int y)\n"
"{\n"
" char * x; x = NULL;\n"
" do {\n"
" x = new char[100];\n"
" if (y++ > 100)\n"
" break;\n"
" delete[] x;\n"
" } while (true);\n"
" delete[] x;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void f()\n"
"{\n"
" char *p; p = 0;\n"
" if (x < 100) {\n"
" p = malloc(10);\n"
" free(p);\n"
" }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("[test.c:8]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
check(
"void MyFunction()\n"
"{\n"
" char* data; data = new char[100];\n"
" try\n"
" {\n"
" }\n"
" catch(err)\n"
" {\n"
" delete[] data;\n"
" MyThrow(err);\n"
" }\n"
" delete[] data;\n"
"}\n"
"void MyThrow(err)\n"
"{\n"
" throw(err);\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check(
"void MyFunction()\n"
"{\n"
" char* data; data = new char[100];\n"
" try\n"
" {\n"
" }\n"
" catch(err)\n"
" {\n"
" delete[] data;\n"
" MyExit(err);\n"
" }\n"
" delete[] data;\n"
"}\n"
"void MyExit(err)\n"
"{\n"
" exit(err);\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check( // #6252
"struct Wrapper {\n"
" Thing* m_thing;\n"
" Wrapper() : m_thing(0) {\n"
" }\n"
" ~Wrapper() {\n"
" delete m_thing;\n"
" }\n"
" void changeThing() {\n"
" delete m_thing;\n"
" m_thing = new Thing;\n"
" }\n"
"};", true);
ASSERT_EQUALS("", errout.str());
// #7401
check("void pCodeLabelDestruct(pCode *pc) {\n"
" free(PCL(pc)->label);\n"
" free(pc);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void doublefree2() { // #3891
check("void *f(int a) {\n"
" char *p = malloc(10);\n"
" if (a == 2) { free(p); return ((void*)1); }\n"
" free(p);\n"
" return 0;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2013-07-28 11:53:49 +02:00
2014-11-20 14:20:09 +01:00
void doublefree3() { // #4914
check("void foo() {\n"
" bool done = false;\n"
" do {\n"
" char *bar = malloc(10)\n"
" if(condition()) {\n"
" free(bar);\n"
" continue;\n"
" }\n"
" done = true;\n"
" free(bar)\n"
" } while(!done);\n"
" return;"
"}"
2013-07-28 11:53:49 +02:00
);
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void doublefree4() { // #5451 - exit
check("void f(char *p) {\n"
" if (x) {\n"
" free(p);\n"
" exit(1);\n"
" }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
void doublefree5() { // #5522
check("void f(char *p) {\n"
" free(p);\n"
" x = (q == p);\n"
" free(p);\n"
"}");
ASSERT_EQUALS("[test.c:4]: (error) Memory pointed to by 'p' is freed twice.\n", errout.str());
}
void doublefree6() { // #7685
check("void do_wordexp(FILE *f) {\n"
" free(getword(f));\n"
" fclose(f);\n"
"}", /*cpp=*/false);
ASSERT_EQUALS("", errout.str());
}
void doublefree7() {
check("void f(char *p, int x) {\n"
" free(p);\n"
" if (x && (p = malloc(10)))\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
check("void f(char *p, int x) {\n"
" delete[] p;\n"
" if (x && (p = new char[10]))\n"
" delete[] p;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
void doublefree8() {
check("void f() {\n"
" int * i = new int;\n"
" std::unique_ptr<int> x(i);\n"
" delete i;\n"
"}\n", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Memory pointed to by 'i' is freed twice.\n", errout.str());
check("void f() {\n"
" int * i = new int;\n"
" delete i;\n"
" std::unique_ptr<int> x(i);\n"
"}\n", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Memory pointed to by 'i' is freed twice.\n", errout.str());
check("void f() {\n"
" int * i = new int;\n"
" std::unique_ptr<int> x{i};\n"
" delete i;\n"
"}\n", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Memory pointed to by 'i' is freed twice.\n", errout.str());
check("void f() {\n"
" int * i = new int;\n"
" std::shared_ptr<int> x(i);\n"
" delete i;\n"
"}\n", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Memory pointed to by 'i' is freed twice.\n", errout.str());
check("void f() {\n"
" int * i = new int;\n"
" std::shared_ptr<int> x{i};\n"
" delete i;\n"
"}\n", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Memory pointed to by 'i' is freed twice.\n", errout.str());
// Check for use-after-free FP
check("void f() {\n"
" int * i = new int;\n"
" std::shared_ptr<int> x{i};\n"
" *i = 123;\n"
"}\n", true);
ASSERT_EQUALS("", errout.str());
check("void f() {\n"
" int * i = new int[1];\n"
" std::unique_ptr<int[]> x(i);\n"
" delete i;\n"
"}\n", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Memory pointed to by 'i' is freed twice.\n", errout.str());
}
void doublefree9() {
2018-04-21 13:28:31 +02:00
check("struct foo {\n"
" int* get(int) { return new int(); }\n"
"};\n"
"void f(foo* b) {\n"
" std::unique_ptr<int> x(b->get(0));\n"
" std::unique_ptr<int> y(b->get(1));\n"
"}\n", true);
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void exit1() {
check("void f() {\n"
" char *p = malloc(10);\n"
" exit(0);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void exit2() {
check("void f() {\n"
" char *p = malloc(10);\n"
" fatal_error();\n"
"}");
2013-07-16 18:50:25 +02:00
ASSERT_EQUALS("[test.c:3]: (information) --check-library: Function fatal_error() should have <noreturn> configuration\n"
2015-02-03 18:35:52 +01:00
"[test.c:4]: (information) --check-library: Function fatal_error() should have <use>/<leak-ignore> configuration\n",
2013-07-16 18:50:25 +02:00
errout.str());
}
void exit3() {
check("void f() {\n"
" char *p = malloc(100);\n"
" if (x) {\n"
" free(p);\n"
" ::exit(0);\n"
" }"
" free(p);\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("void f() {\n"
" char *p = malloc(100);\n"
" if (x) {\n"
" free(p);\n"
" std::exit(0);\n"
" }"
" free(p);\n"
"}", true);
ASSERT_EQUALS("", errout.str());
}
void functioncall1() {
check("void f(struct S *p) {\n"
" p->x = malloc(10);\n"
" free(p->x);\n"
" p->x = 0;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void goto1() {
check("static void f() {\n"
" int err = -ENOMEM;\n"
" char *reg = malloc(100);\n"
" if (err) {\n"
" free(reg);\n"
" }\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void goto2() { // #4231
check("static char * f() {\n"
"x:\n"
" char *p = malloc(100);\n"
" if (err) {\n"
" free(p);\n"
" goto x;\n"
" }\n"
" return p;\n" // no error since there is a goto
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void ifelse1() {
check("int f() {\n"
" char *p = NULL;\n"
" if (x) { p = malloc(10); }\n"
" else { return 0; }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void ifelse2() {
check("int f() {\n"
" char *p = NULL;\n"
" if (x) { p = malloc(10); }\n"
" else { return 0; }\n"
"}");
ASSERT_EQUALS("[test.c:5]: (error) Memory leak: p\n", errout.str());
}
2014-11-20 14:20:09 +01:00
void ifelse3() {
check("void f() {\n"
" char *p = malloc(10);\n"
" if (!p) { return; }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
2015-07-25 11:37:03 +02:00
check("char * f(size_t size) {"
" void *p = malloc(1);"
" if (!p && size != 0)"
" return NULL;"
" return p;"
"}");
ASSERT_EQUALS("", errout.str());
check("void f() {\n"
" char *p = malloc(10);\n"
" if (p) { } else { return; }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
// #3866 - UNLIKELY
check("void f() {\n"
" char *p = malloc(10);\n"
" if (UNLIKELY(!p)) { return; }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void ifelse4() {
check("void f(int x) {\n"
" char *p;\n"
" if (x) { p = malloc(10); }\n"
" if (x) { free(p); }\n"
"}");
ASSERT_EQUALS("", errout.str());
check("void f(int x) {\n"
" char *p;\n"
" if (x) { p = malloc(10); }\n"
" if (!x) { return; }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void ifelse5() {
check("void f() {\n"
" char *p = malloc(10);\n"
" if (!p && x) { p = malloc(10); }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void ifelse6() { // #3370
check("void f(int x) {\n"
" int *a = malloc(20);\n"
" if (x)\n"
" free(a);\n"
" else\n"
" a = 0;\n"
"}");
ASSERT_EQUALS("[test.c:6]: (error) Memory leak: a\n", errout.str());
}
2014-11-20 14:20:09 +01:00
void ifelse7() { // #5576
check("void f() {\n"
" int x = malloc(20);\n"
" if (x < 0)\n" // assume negative value indicates its unallocated
" return;\n"
" free(x);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void ifelse8() { // #5747
check("void f() {\n"
" int fd = socket(AF_INET, SOCK_PACKET, 0 );\n"
" if (fd == -1)\n"
" return;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
void ifelse9() { // #5273
check("void f() {\n"
" char *p = malloc(100);\n"
" if (dostuff(p==NULL,0))\n"
" return;\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
void ifelse10() { // #8794
check("void f() {\n"
" void *x = malloc(1U);\n"
" if (!(x != NULL))\n"
" return;\n"
" free(x);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
void ifelse11() { // #8365
check("void f() {\n"
" void *p;\n"
" if (NULL == (p = malloc(4)))\n"
" return;\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2019-01-09 19:50:41 +01:00
void ifelse12() { // #8340
check("void f(char **p) {\n"
" if ((*p = malloc(4)) == NULL)\n"
" return;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
void ifelse13() { // #8392
check("int f(int fd, const char *mode) {\n"
" char *path;\n"
" if (fd == -1 || (path = (char *)malloc(10)) == NULL)\n"
" return 1;\n"
" free(path);\n"
" return 0;\n"
"}");
ASSERT_EQUALS("", errout.str());
check("int f(int fd, const char *mode) {\n"
" char *path;\n"
" if ((path = (char *)malloc(10)) == NULL || fd == -1)\n"
" return 1;\n" // <- memory leak
" free(path);\n"
" return 0;\n"
"}");
TODO_ASSERT_EQUALS("[test.cpp:4] memory leak", "", errout.str());
}
2014-11-20 14:20:09 +01:00
void switch1() {
check("void f() {\n"
" char *p = 0;\n"
" switch (x) {\n"
" case 123: p = malloc(100); break;\n"
" default: return;\n"
" }\n"
" free(p);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void loop1() {
// test the handling of { }
check("void f() {\n"
" char *p;\n"
" for (i=0;i<5;i++) { }\n"
" if (x) { free(p) }\n"
" else { a = p; }\n"
"}");
ASSERT_EQUALS("", errout.str());
}
void mismatchAllocDealloc() {
check("void f() {\n"
" FILE*f=fopen(fname,a);\n"
" free(f);\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Mismatching allocation and deallocation: f\n", errout.str());
check("void f() {\n"
" char *cPtr = new char[100];\n"
" delete[] cPtr;\n"
" cPtr = new char[100]('x');\n"
" delete[] cPtr;\n"
" cPtr = new char[100];\n"
" delete cPtr;\n"
"}", true);
ASSERT_EQUALS("[test.cpp:7]: (error) Mismatching allocation and deallocation: cPtr\n", errout.str());
check("void f() {\n"
" char *cPtr = new char[100];\n"
" free(cPtr);\n"
"}", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Mismatching allocation and deallocation: cPtr\n", errout.str());
check("void f() {\n"
" char *cPtr = new (buf) char[100];\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("void f() {\n"
" int * i = new int[1];\n"
" std::unique_ptr<int> x(i);\n"
"}\n", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Mismatching allocation and deallocation: i\n", errout.str());
check("void f() {\n"
" int * i = new int;\n"
" std::unique_ptr<int[]> x(i);\n"
"}\n", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Mismatching allocation and deallocation: i\n", errout.str());
}
void smartPointerDeleter() {
check("void f() {\n"
" FILE*f=fopen(fname,a);\n"
" std::unique_ptr<FILE> fp{f};\n"
"}", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Mismatching allocation and deallocation: f\n", errout.str());
check("void f() {\n"
" FILE*f=fopen(fname,a);\n"
" std::unique_ptr<FILE, decltype(&fclose)> fp{f, &fclose};\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("void f() {\n"
" FILE*f=fopen(fname,a);\n"
" std::shared_ptr<FILE> fp{f, &fclose};\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("struct deleter { void operator()(FILE* f) { fclose(f); }};\n"
"void f() {\n"
" FILE*f=fopen(fname,a);\n"
" std::unique_ptr<FILE, deleter> fp{f};\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("int * create();\n"
"void destroy(int * x);\n"
"void f() {\n"
" int x * = create()\n"
" std::unique_ptr<int, decltype(&destroy)> xp{x, &destroy()};\n"
"}\n", true);
ASSERT_EQUALS("", errout.str());
check("int * create();\n"
"void destroy(int * x);\n"
"void f() {\n"
" int x * = create()\n"
" std::unique_ptr<int, decltype(&destroy)> xp(x, &destroy());\n"
"}\n", true);
ASSERT_EQUALS("", errout.str());
check("void f() {\n"
" FILE*f=fopen(fname,a);\n"
" std::shared_ptr<FILE> fp{f, [](FILE* x) { fclose(x); }};\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("void f() {\n"
" FILE*f=fopen(fname,a);\n"
" std::shared_ptr<FILE> fp{f, +[](FILE* x) { fclose(x); }};\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("void f() {\n"
" FILE*f=fopen(fname,a);\n"
" std::shared_ptr<FILE> fp{f, [](FILE* x) { free(f); }};\n"
"}", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Mismatching allocation and deallocation: f\n", errout.str());
check("void f() {\n"
" FILE*f=fopen(fname,a);\n"
" std::shared_ptr<FILE> fp{f, [](FILE* x) {}};\n"
"}", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Mismatching allocation and deallocation: f\n", errout.str());
check("class C;\n"
"void f() {\n"
" C* c = new C{};\n"
" std::shared_ptr<C> a{c, [](C*) {}};\n"
"}", true);
ASSERT_EQUALS("", errout.str());
check("class C;\n"
"void f() {\n"
" C* c = new C{};\n"
" std::shared_ptr<C> a{c, [](C* x) { delete x; }};\n"
"}", true);
ASSERT_EQUALS("", errout.str());
}
void smartPointerRelease() {
check("void f() {\n"
" int * i = new int;\n"
" std::unique_ptr<int> x(i);\n"
" x.release();\n"
" delete i;\n"
"}\n", true);
ASSERT_EQUALS("", errout.str());
check("void f() {\n"
" int * i = new int;\n"
" std::unique_ptr<int> x(i);\n"
" x.release();\n"
"}\n", true);
ASSERT_EQUALS("[test.cpp:5]: (error) Memory leak: i\n", errout.str());
}
2014-11-20 14:20:09 +01:00
void return1() {
check("int f() {\n"
" char *p = malloc(100);\n"
" return 123;\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Memory leak: p\n", errout.str());
}
2014-11-20 14:20:09 +01:00
void return2() {
check("char *f() {\n"
" char *p = malloc(100);\n"
" return p;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void return3() {
check("struct dev * f() {\n"
" struct ABC *abc = malloc(100);\n"
" return &abc->dev;\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void return4() { // ticket #3862
2012-06-04 21:32:11 +02:00
// avoid false positives
check("void f(char *p, int x) {\n"
2012-12-26 12:50:59 +01:00
" if (x==12) {\n"
" free(p);\n"
" throw 1;\n"
" }\n"
" free(p);\n"
"}", true);
ASSERT_EQUALS("", errout.str());
2012-06-04 21:32:11 +02:00
check("void f(char *p, int x) {\n"
2012-12-26 12:50:59 +01:00
" if (x==12) {\n"
2012-06-04 21:32:11 +02:00
" delete p;\n"
" throw 1;\n"
" }\n"
" delete p;\n"
"}", true);
2012-06-04 21:32:11 +02:00
ASSERT_EQUALS("", errout.str());
check("void f(char *p, int x) {\n"
2012-12-26 12:50:59 +01:00
" if (x==12) {\n"
2012-06-04 21:32:11 +02:00
" delete [] p;\n"
" throw 1;\n"
" }\n"
" delete [] p;\n"
"}", true);
2012-06-04 21:32:11 +02:00
ASSERT_EQUALS("", errout.str());
}
void return5() { // ticket #6397 - conditional allocation/deallocation and conditional return
// avoid false positives
check("void f(int *p, int x) {\n"
" if (x != 0) {\n"
" free(p);\n"
" }\n"
" if (x != 0) {\n"
" return;\n"
" }\n"
" *p = 0;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void test1() { // 3809
check("void f(double*&p) {\n"
" p = malloc(0x100);\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void test2() { // 3899
check("struct Fred {\n"
" char *p;\n"
" void f1() { free(p); }\n"
"};");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void test3() { // 3954 - reference pointer
check("void f() {\n"
" char *&p = x();\n"
" p = malloc(10);\n"
"};");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void test4() { // 5923 - static pointer
check("void f() {\n"
" static char *p;\n"
" if (!p) p = malloc(10);\n"
" if (x) { free(p); p = 0; }\n"
"};");
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void test5() { // unknown type
check("void f() { Fred *p = malloc(10); }", true);
ASSERT_EQUALS("[test.cpp:1]: (error) Memory leak: p\n", errout.str());
check("void f() { Fred *p = malloc(10); }", false);
ASSERT_EQUALS("[test.c:1]: (error) Memory leak: p\n", errout.str());
check("void f() { Fred *p = new Fred; }", true);
ASSERT_EQUALS("", errout.str());
check("void f() { Fred fred = malloc(10); }", true);
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void throw1() { // 3987 - Execution reach a 'throw'
check("void f() {\n"
" char *p = malloc(10);\n"
" throw 123;\n"
"}", true);
ASSERT_EQUALS("[test.cpp:3]: (error) Memory leak: p\n", errout.str());
check("void f() {\n"
" char *p;\n"
" try {\n"
" p = malloc(10);\n"
" throw 123;\n"
" } catch (...) { }\n"
" free(p);\n"
"}", true);
ASSERT_EQUALS("", errout.str());
}
void throw2() { // do not miss ::NS::Except()
check("namespace NS {\n"
" class Except {\n"
" };\n"
"}\n"
"void foo(int i)\n"
"{\n"
" int *pi = new int;\n"
" if (i == 42) {\n"
" delete pi;\n"
" throw ::NS::Except();\n"
" }\n"
" delete pi;\n"
"}", true);
ASSERT_EQUALS("", errout.str());
}
2014-11-20 14:20:09 +01:00
void configuration1() {
// Possible leak => configuration is required for complete analysis
// The user should be able to "white list" and "black list" functions.
// possible leak. If the function 'x' deallocates the pointer or
// takes the address, there is no leak.
check("void f() {\n"
" char *p = malloc(10);\n"
" x(p);\n"
"}");
2013-07-16 18:50:25 +02:00
ASSERT_EQUALS("[test.c:3]: (information) --check-library: Function x() should have <noreturn> configuration\n"
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"[test.c:4]: (information) --check-library: Function x() should have <use>/<leak-ignore> configuration\n",
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errout.str());
}
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void configuration2() {
// possible leak. If the function 'x' deallocates the pointer or
// takes the address, there is no leak.
check("void f() {\n"
" char *p = malloc(10);\n"
" x(&p);\n"
"}");
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ASSERT_EQUALS("[test.c:3]: (information) --check-library: Function x() should have <noreturn> configuration\n"
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"[test.c:4]: (information) --check-library: Function x() should have <use>/<leak-ignore> configuration\n",
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errout.str());
}
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void configuration3() {
check("void f() {\n"
" char *p = malloc(10);\n"
" if (set_data(p)) { }\n"
"}");
2015-02-03 18:35:52 +01:00
ASSERT_EQUALS("[test.c:4]: (information) --check-library: Function set_data() should have <use>/<leak-ignore> configuration\n", errout.str());
check("void f() {\n"
" char *p = malloc(10);\n"
" if (set_data(p)) { return; }\n"
"}");
2015-02-03 18:35:52 +01:00
ASSERT_EQUALS("[test.c:3]: (information) --check-library: Function set_data() should have <use>/<leak-ignore> configuration\n"
"[test.c:4]: (information) --check-library: Function set_data() should have <use>/<leak-ignore> configuration\n"
, errout.str());
}
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void configuration4() {
check("void f() {\n"
" char *p = malloc(10);\n"
" int ret = set_data(p);\n"
" return ret;\n"
"}");
2015-02-03 18:35:52 +01:00
ASSERT_EQUALS("[test.c:4]: (information) --check-library: Function set_data() should have <use>/<leak-ignore> configuration\n", errout.str());
}
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2014-11-20 14:20:09 +01:00
void ptrptr() {
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check("void f() {\n"
" char **p = malloc(10);\n"
"}");
ASSERT_EQUALS("[test.c:3]: (error) Memory leak: p\n", errout.str());
}
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2014-11-20 14:20:09 +01:00
void nestedAllocation() {
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check("void QueueDSMCCPacket(unsigned char *data, int length) {\n"
" unsigned char *dataCopy = malloc(length * sizeof(unsigned char));\n"
" m_dsmccQueue.enqueue(new DSMCCPacket(dataCopy));\n"
"}", true);
ASSERT_EQUALS("[test.cpp:4]: (information) --check-library: Function DSMCCPacket() should have <use>/<leak-ignore> configuration\n", errout.str());
2014-09-30 13:02:02 +02:00
check("void QueueDSMCCPacket(unsigned char *data, int length) {\n"
" unsigned char *dataCopy = malloc(length * sizeof(unsigned char));\n"
" m_dsmccQueue.enqueue(new DSMCCPacket(somethingunrelated));\n"
"}", true);
ASSERT_EQUALS("[test.cpp:4]: (error) Memory leak: dataCopy\n", errout.str());
2016-05-21 14:03:28 +02:00
check("void f() {\n"
" char *buf = new char[1000];\n"
" clist.push_back(new (std::nothrow) C(buf));\n"
"}", true);
ASSERT_EQUALS("[test.cpp:4]: (information) --check-library: Function C() should have <use>/<leak-ignore> configuration\n", errout.str());
}
void testKeywords() {
check("int main(int argc, char **argv) {\n"
" double *new = malloc(1*sizeof(double));\n"
" free(new);\n"
" return 0;\n"
"}", false);
ASSERT_EQUALS("", errout.str());
2014-09-30 13:02:02 +02:00
}
void inlineFunction() {
check("int test() {\n"
" char *c;\n"
" int ret() {\n"
" free(c);\n"
" return 0;\n"
" }\n"
" c = malloc(128);\n"
" return ret();\n"
"}");
ASSERT_EQUALS("", errout.str());
}
2018-05-14 22:48:37 +02:00
// #8262
void smartPtrInContainer() {
check("std::list< std::shared_ptr<int> > mList;\n"
"void test(){\n"
" int *pt = new int(1);\n"
" mList.push_back(std::shared_ptr<int>(pt));\n"
"}\n",
true
);
ASSERT_EQUALS("", errout.str());
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}
};
REGISTER_TEST(TestLeakAutoVar)
class TestLeakAutoVarWindows : public TestFixture {
public:
TestLeakAutoVarWindows() : TestFixture("TestLeakAutoVarWindows") {
}
private:
Settings settings;
void check(const char code[]) {
// Clear the error buffer..
errout.str("");
// Tokenize..
Tokenizer tokenizer(&settings, this);
std::istringstream istr(code);
tokenizer.tokenize(istr, "test.c");
tokenizer.simplifyTokenList2();
// Check for leaks..
CheckLeakAutoVar checkLeak;
checkLeak.runSimplifiedChecks(&tokenizer, &settings, this);
}
2019-01-12 15:45:25 +01:00
void run() OVERRIDE {
LOAD_LIB_2(settings.library, "windows.cfg");
TEST_CASE(heapDoubleFree);
}
void heapDoubleFree() {
check("void f() {"
" HANDLE MyHeap = HeapCreate(0, 0, 0);"
" int *a = HeapAlloc(MyHeap, 0, sizeof(int));"
" int *b = HeapAlloc(MyHeap, 0, sizeof(int));"
" HeapFree(MyHeap, 0, a);"
" HeapFree(MyHeap, 0, b);"
" HeapDestroy(MyHeap);"
"}");
ASSERT_EQUALS("", errout.str());
check("void f() {"
" int *a = HeapAlloc(GetProcessHeap(), 0, sizeof(int));"
" int *b = HeapAlloc(GetProcessHeap(), 0, sizeof(int));"
" HeapFree(GetProcessHeap(), 0, a);"
" HeapFree(GetProcessHeap(), 0, b);"
"}");
ASSERT_EQUALS("", errout.str());
check("void f() {"
" HANDLE MyHeap = HeapCreate(0, 0, 0);"
" int *a = HeapAlloc(MyHeap, 0, sizeof(int));"
" int *b = HeapAlloc(MyHeap, 0, sizeof(int));"
" HeapFree(MyHeap, 0, a);"
" HeapDestroy(MyHeap);"
"}");
ASSERT_EQUALS("[test.c:1]: (error) Memory leak: b\n", errout.str());
check("void f() {"
" HANDLE MyHeap = HeapCreate(0, 0, 0);"
" int *a = HeapAlloc(MyHeap, 0, sizeof(int));"
" int *b = HeapAlloc(MyHeap, 0, sizeof(int));"
" HeapFree(MyHeap, 0, a);"
" HeapFree(MyHeap, 0, b);"
"}");
TODO_ASSERT_EQUALS("[test.c:1] (error) Resource leak: MyHeap",
"", errout.str());
check("void f() {"
" HANDLE MyHeap = HeapCreate(0, 0, 0);"
" int *a = HeapAlloc(MyHeap, 0, sizeof(int));"
" int *b = HeapAlloc(MyHeap, 0, sizeof(int));"
" HeapFree(MyHeap, 0, a);"
"}");
TODO_ASSERT_EQUALS("[test.c:1] (error) Memory leak: MyHeap\n"
"[test.c:1] (error) Memory leak: b",
"[test.c:1]: (error) Memory leak: b\n", errout.str());
}
};
REGISTER_TEST(TestLeakAutoVarWindows)