// Check the basic reporting/warning and the application of constraints. // RUN: %clang_analyze_cc1 %s \ // RUN: -analyzer-checker=core \ // RUN: -analyzer-checker=apiModeling.StdCLibraryFunctions \ // RUN: -analyzer-checker=alpha.unix.StdCLibraryFunctionArgs \ // RUN: -analyzer-checker=debug.StdCLibraryFunctionsTester \ // RUN: -analyzer-checker=debug.ExprInspection \ // RUN: -triple x86_64-unknown-linux-gnu \ // RUN: -verify=report // Check the bugpath related to the reports. // RUN: %clang_analyze_cc1 %s \ // RUN: -analyzer-checker=core \ // RUN: -analyzer-checker=apiModeling.StdCLibraryFunctions \ // RUN: -analyzer-checker=alpha.unix.StdCLibraryFunctionArgs \ // RUN: -analyzer-checker=debug.StdCLibraryFunctionsTester \ // RUN: -analyzer-checker=debug.ExprInspection \ // RUN: -triple x86_64-unknown-linux-gnu \ // RUN: -analyzer-output=text \ // RUN: -verify=bugpath void clang_analyzer_eval(int); int glob; #define EOF -1 int isalnum(int); void test_alnum_concrete(int v) { int ret = isalnum(256); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} (void)ret; } void test_alnum_symbolic(int x) { int ret = isalnum(x); (void)ret; clang_analyzer_eval(EOF <= x && x <= 255); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} \ // bugpath-note{{Left side of '&&' is true}} \ // bugpath-note{{'x' is <= 255}} } void test_alnum_symbolic2(int x) { if (x > 255) { // \ // bugpath-note{{Assuming 'x' is > 255}} \ // bugpath-note{{Taking true branch}} int ret = isalnum(x); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} (void)ret; } } int toupper(int); void test_toupper_concrete(int v) { int ret = toupper(256); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} (void)ret; } void test_toupper_symbolic(int x) { int ret = toupper(x); (void)ret; clang_analyzer_eval(EOF <= x && x <= 255); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} \ // bugpath-note{{Left side of '&&' is true}} \ // bugpath-note{{'x' is <= 255}} } void test_toupper_symbolic2(int x) { if (x > 255) { // \ // bugpath-note{{Assuming 'x' is > 255}} \ // bugpath-note{{Taking true branch}} int ret = toupper(x); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} (void)ret; } } int tolower(int); void test_tolower_concrete(int v) { int ret = tolower(256); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} (void)ret; } void test_tolower_symbolic(int x) { int ret = tolower(x); (void)ret; clang_analyzer_eval(EOF <= x && x <= 255); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} \ // bugpath-note{{Left side of '&&' is true}} \ // bugpath-note{{'x' is <= 255}} } void test_tolower_symbolic2(int x) { if (x > 255) { // \ // bugpath-note{{Assuming 'x' is > 255}} \ // bugpath-note{{Taking true branch}} int ret = tolower(x); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} (void)ret; } } int toascii(int); void test_toascii_concrete(int v) { int ret = toascii(256); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} (void)ret; } void test_toascii_symbolic(int x) { int ret = toascii(x); (void)ret; clang_analyzer_eval(EOF <= x && x <= 255); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} \ // bugpath-note{{Left side of '&&' is true}} \ // bugpath-note{{'x' is <= 255}} } void test_toascii_symbolic2(int x) { if (x > 255) { // \ // bugpath-note{{Assuming 'x' is > 255}} \ // bugpath-note{{Taking true branch}} int ret = toascii(x); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} (void)ret; } } typedef struct FILE FILE; typedef typeof(sizeof(int)) size_t; size_t fread(void *restrict, size_t, size_t, FILE *restrict); void test_notnull_concrete(FILE *fp) { fread(0, sizeof(int), 10, fp); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} } void test_notnull_symbolic(FILE *fp, int *buf) { fread(buf, sizeof(int), 10, fp); clang_analyzer_eval(buf != 0); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} \ // bugpath-note{{'buf' is not equal to null}} } void test_notnull_symbolic2(FILE *fp, int *buf) { if (!buf) // bugpath-note{{Assuming 'buf' is null}} \ // bugpath-note{{Taking true branch}} fread(buf, sizeof(int), 10, fp); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} } typedef __WCHAR_TYPE__ wchar_t; // This is one test case for the ARR38-C SEI-CERT rule. void ARR38_C_F(FILE *file) { enum { BUFFER_SIZE = 1024 }; wchar_t wbuf[BUFFER_SIZE]; // bugpath-note{{'wbuf' initialized here}} const size_t size = sizeof(*wbuf); const size_t nitems = sizeof(wbuf); // The 3rd parameter should be the number of elements to read, not // the size in bytes. fread(wbuf, size, nitems, file); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} } int __two_constrained_args(int, int); void test_constraints_on_multiple_args(int x, int y) { // State split should not happen here. I.e. x == 1 should not be evaluated // FALSE. __two_constrained_args(x, y); clang_analyzer_eval(x == 1); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} clang_analyzer_eval(y == 1); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} } int __arg_constrained_twice(int); void test_multiple_constraints_on_same_arg(int x) { __arg_constrained_twice(x); // Check that both constraints are applied and only one branch is there. clang_analyzer_eval(x < 1 || x > 2); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} \ // bugpath-note{{Assuming 'x' is < 1}} \ // bugpath-note{{Left side of '||' is true}} } int __variadic(void *stream, const char *format, ...); void test_arg_constraint_on_variadic_fun() { __variadic(0, "%d%d", 1, 2); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} } int __buf_size_arg_constraint(const void *, size_t); void test_buf_size_concrete() { char buf[3]; // bugpath-note{{'buf' initialized here}} __buf_size_arg_constraint(buf, 4); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} } void test_buf_size_symbolic(int s) { char buf[3]; __buf_size_arg_constraint(buf, s); clang_analyzer_eval(s <= 3); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} \ // bugpath-note{{'s' is <= 3}} } void test_buf_size_symbolic_and_offset(int s) { char buf[3]; __buf_size_arg_constraint(buf + 1, s); clang_analyzer_eval(s <= 2); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} \ // bugpath-note{{'s' is <= 2}} } int __buf_size_arg_constraint_mul(const void *, size_t, size_t); void test_buf_size_concrete_with_multiplication() { short buf[3]; // bugpath-note{{'buf' initialized here}} __buf_size_arg_constraint_mul(buf, 4, sizeof(short)); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} } void test_buf_size_symbolic_with_multiplication(size_t s) { short buf[3]; __buf_size_arg_constraint_mul(buf, s, sizeof(short)); clang_analyzer_eval(s * sizeof(short) <= 6); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} } void test_buf_size_symbolic_and_offset_with_multiplication(size_t s) { short buf[3]; __buf_size_arg_constraint_mul(buf + 1, s, sizeof(short)); clang_analyzer_eval(s * sizeof(short) <= 4); // \ // report-warning{{TRUE}} \ // bugpath-warning{{TRUE}} \ // bugpath-note{{TRUE}} } // The minimum buffer size for this function is set to 10. int __buf_size_arg_constraint_concrete(const void *); void test_min_buf_size() { char buf[9];// bugpath-note{{'buf' initialized here}} __buf_size_arg_constraint_concrete(buf); // \ // report-warning{{Function argument constraint is not satisfied}} \ // bugpath-warning{{Function argument constraint is not satisfied}} \ // bugpath-note{{Function argument constraint is not satisfied}} }