/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2023 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 . */ #include "check.h" #include "checkbufferoverrun.h" #include "ctu.h" #include "errortypes.h" #include "standards.h" #include "library.h" #include "platform.h" #include "settings.h" #include "fixture.h" #include "tokenize.h" #include #include #include // IWYU pragma: keep #include #include #include #include class TestBufferOverrun : public TestFixture { public: TestBufferOverrun() : TestFixture("TestBufferOverrun") {} private: Settings settings0; #define check(...) check_(__FILE__, __LINE__, __VA_ARGS__) void check_(const char* file, int line, const char code[], const char filename[] = "test.cpp") { // Clear the error buffer.. errout.str(""); settings0.certainty.enable(Certainty::inconclusive); // Tokenize.. Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); ASSERT_LOC(tokenizer.tokenize(istr, filename), file, line); // Check for buffer overruns.. runChecks(&tokenizer, &settings0, this); } void check_(const char* file, int line, const char code[], const Settings &settings, const char filename[] = "test.cpp") { Tokenizer tokenizer(&settings, this); std::istringstream istr(code); ASSERT_LOC(tokenizer.tokenize(istr, filename), file, line); // Clear the error buffer.. errout.str(""); // Check for buffer overruns.. runChecks(&tokenizer, &settings, this); } void checkP(const char code[], const char* filename = "test.cpp") { // Clear the error buffer.. errout.str(""); Settings* settings = &settings0; settings->severity.enable(Severity::style); settings->severity.enable(Severity::warning); settings->severity.enable(Severity::portability); settings->severity.enable(Severity::performance); settings->standards.c = Standards::CLatest; settings->standards.cpp = Standards::CPPLatest; settings->certainty.enable(Certainty::inconclusive); // Raw tokens.. std::vector files(1, filename); std::istringstream istr(code); const simplecpp::TokenList tokens1(istr, files, files[0]); // Preprocess.. simplecpp::TokenList tokens2(files); std::map filedata; simplecpp::preprocess(tokens2, tokens1, files, filedata, simplecpp::DUI()); // Tokenizer.. Tokenizer tokenizer(settings, this); tokenizer.createTokens(std::move(tokens2)); tokenizer.simplifyTokens1(""); // Check for buffer overruns.. runChecks(&tokenizer, settings, this); } void run() override { LOAD_LIB_2(settings0.library, "std.cfg"); settings0.severity.enable(Severity::warning); settings0.severity.enable(Severity::style); settings0.severity.enable(Severity::portability); TEST_CASE(noerr1); TEST_CASE(noerr2); TEST_CASE(noerr3); TEST_CASE(noerr4); TEST_CASE(sizeof3); TEST_CASE(array_index_1); TEST_CASE(array_index_2); TEST_CASE(array_index_3); TEST_CASE(array_index_4); TEST_CASE(array_index_6); TEST_CASE(array_index_7); TEST_CASE(array_index_11); TEST_CASE(array_index_12); TEST_CASE(array_index_13); TEST_CASE(array_index_14); TEST_CASE(array_index_15); TEST_CASE(array_index_16); TEST_CASE(array_index_17); TEST_CASE(array_index_18); TEST_CASE(array_index_19); TEST_CASE(array_index_20); TEST_CASE(array_index_21); TEST_CASE(array_index_22); TEST_CASE(array_index_23); TEST_CASE(array_index_24); // ticket #1492 and #1539 TEST_CASE(array_index_25); // ticket #1536 TEST_CASE(array_index_26); TEST_CASE(array_index_27); TEST_CASE(array_index_28); // ticket #1418 TEST_CASE(array_index_29); // ticket #1734 TEST_CASE(array_index_30); // ticket #2086 - out of bounds when type is unknown TEST_CASE(array_index_31); // ticket #2120 - out of bounds in subfunction when type is unknown TEST_CASE(array_index_32); TEST_CASE(array_index_33); // ticket #3044 TEST_CASE(array_index_34); // ticket #3063 TEST_CASE(array_index_35); // ticket #2889 TEST_CASE(array_index_36); // ticket #2960 TEST_CASE(array_index_37); TEST_CASE(array_index_38); // ticket #3273 TEST_CASE(array_index_39); TEST_CASE(array_index_40); // loop variable calculation, taking address TEST_CASE(array_index_41); // structs with the same name TEST_CASE(array_index_42); TEST_CASE(array_index_43); // struct with array TEST_CASE(array_index_44); // #3979 TEST_CASE(array_index_45); // #4207 - calling function with variable number of parameters (...) TEST_CASE(array_index_46); // #4840 - two-statement for loop TEST_CASE(array_index_47); // #5849 TEST_CASE(array_index_48); // #9478 TEST_CASE(array_index_49); // #8653 TEST_CASE(array_index_50); TEST_CASE(array_index_51); // #3763 TEST_CASE(array_index_52); // #7682 TEST_CASE(array_index_53); // #4750 TEST_CASE(array_index_54); // #10268 TEST_CASE(array_index_55); // #10254 TEST_CASE(array_index_56); // #10284 TEST_CASE(array_index_57); // #10023 TEST_CASE(array_index_58); // #7524 TEST_CASE(array_index_59); // #10413 TEST_CASE(array_index_60); // #10617, #9824 TEST_CASE(array_index_61); // #10621 TEST_CASE(array_index_62); // #7684 TEST_CASE(array_index_63); // #10979 TEST_CASE(array_index_64); // #10878 TEST_CASE(array_index_65); // #11066 TEST_CASE(array_index_66); // #10740 TEST_CASE(array_index_67); // #1596 TEST_CASE(array_index_68); // #6655 TEST_CASE(array_index_69); // #6370 TEST_CASE(array_index_70); // #11355 TEST_CASE(array_index_71); // #11461 TEST_CASE(array_index_multidim); TEST_CASE(array_index_switch_in_for); TEST_CASE(array_index_for_in_for); // FP: #2634 TEST_CASE(array_index_bounds); TEST_CASE(array_index_calculation); TEST_CASE(array_index_negative1); TEST_CASE(array_index_negative2); // ticket #3063 TEST_CASE(array_index_negative3); TEST_CASE(array_index_negative4); TEST_CASE(array_index_negative5); // #10526 TEST_CASE(array_index_negative6); // #11349 TEST_CASE(array_index_negative7); // #5685 TEST_CASE(array_index_negative8); // #11651 TEST_CASE(array_index_negative9); TEST_CASE(array_index_for_decr); TEST_CASE(array_index_varnames); // FP: struct member #1576, FN: #1586 TEST_CASE(array_index_for_continue); // for,continue TEST_CASE(array_index_for); // FN: for,if TEST_CASE(array_index_for_neq); // #2211: Using != in condition TEST_CASE(array_index_for_question); // #2561: for, ?: TEST_CASE(array_index_for_andand_oror); // FN: using && or || in the for loop condition TEST_CASE(array_index_for_varid0); // #4228: No varid for counter variable TEST_CASE(array_index_vla_for); // #3221: access VLA inside for TEST_CASE(array_index_extern); // FP when using 'extern'. #1684 TEST_CASE(array_index_cast); // FP after cast. #2841 TEST_CASE(array_index_string_literal); TEST_CASE(array_index_same_struct_and_var_name); // #4751 - not handled well when struct name and var name is same TEST_CASE(array_index_valueflow); TEST_CASE(array_index_valueflow_pointer); TEST_CASE(array_index_function_parameter); TEST_CASE(array_index_enum_array); // #8439 TEST_CASE(array_index_container); // #9386 TEST_CASE(array_index_two_for_loops); TEST_CASE(array_index_new); // #7690 TEST_CASE(buffer_overrun_2_struct); TEST_CASE(buffer_overrun_3); TEST_CASE(buffer_overrun_4); TEST_CASE(buffer_overrun_5); TEST_CASE(buffer_overrun_6); TEST_CASE(buffer_overrun_7); TEST_CASE(buffer_overrun_8); TEST_CASE(buffer_overrun_9); TEST_CASE(buffer_overrun_10); TEST_CASE(buffer_overrun_11); TEST_CASE(buffer_overrun_15); // ticket #1787 TEST_CASE(buffer_overrun_16); TEST_CASE(buffer_overrun_18); // ticket #2576 - for, calculation with loop variable TEST_CASE(buffer_overrun_19); // #2597 - class member with unknown type TEST_CASE(buffer_overrun_21); TEST_CASE(buffer_overrun_24); // index variable is changed in for-loop TEST_CASE(buffer_overrun_26); // #4432 (segmentation fault) TEST_CASE(buffer_overrun_27); // #4444 (segmentation fault) TEST_CASE(buffer_overrun_29); // #7083: false positive: typedef and initialization with strings TEST_CASE(buffer_overrun_30); // #6367 TEST_CASE(buffer_overrun_31); TEST_CASE(buffer_overrun_32); //#10244 TEST_CASE(buffer_overrun_33); //#2019 TEST_CASE(buffer_overrun_34); //#11035 TEST_CASE(buffer_overrun_35); //#2304 TEST_CASE(buffer_overrun_errorpath); TEST_CASE(buffer_overrun_bailoutIfSwitch); // ticket #2378 : bailoutIfSwitch TEST_CASE(buffer_overrun_function_array_argument); TEST_CASE(possible_buffer_overrun_1); // #3035 TEST_CASE(buffer_overrun_readSizeFromCfg); TEST_CASE(valueflow_string); // using ValueFlow string values in checking // It is undefined behaviour to point out of bounds of an array // the address beyond the last element is in bounds // char a[10]; // char *p1 = a + 10; // OK // char *p2 = a + 11 // UB TEST_CASE(pointer_out_of_bounds_1); TEST_CASE(pointer_out_of_bounds_2); TEST_CASE(pointer_out_of_bounds_3); TEST_CASE(pointer_out_of_bounds_4); TEST_CASE(pointer_out_of_bounds_sub); TEST_CASE(strcat1); TEST_CASE(varid1); TEST_CASE(varid2); // ticket #4764 TEST_CASE(assign1); TEST_CASE(alloc_new); // Buffer allocated with new TEST_CASE(alloc_malloc); // Buffer allocated with malloc TEST_CASE(alloc_string); // statically allocated buffer TEST_CASE(alloc_alloca); // Buffer allocated with alloca // TODO TEST_CASE(countSprintfLength); TEST_CASE(minsize_argvalue); TEST_CASE(minsize_sizeof); TEST_CASE(minsize_strlen); TEST_CASE(minsize_mul); TEST_CASE(unknownType); TEST_CASE(terminateStrncpy1); TEST_CASE(terminateStrncpy2); TEST_CASE(terminateStrncpy3); TEST_CASE(terminateStrncpy4); TEST_CASE(terminateStrncpy5); // #9944 TEST_CASE(recursive_long_time); TEST_CASE(crash1); // Ticket #1587 - crash TEST_CASE(crash2); // Ticket #3034 - crash TEST_CASE(crash3); // Ticket #5426 - crash TEST_CASE(crash4); // Ticket #8679 - crash TEST_CASE(crash5); // Ticket #8644 - crash TEST_CASE(crash6); // Ticket #9024 - crash TEST_CASE(crash7); // Ticket #9073 - crash TEST_CASE(insecureCmdLineArgs); TEST_CASE(checkBufferAllocatedWithStrlen); TEST_CASE(scope); // handling different scopes TEST_CASE(getErrorMessages); // Access array and then check if the used index is within bounds TEST_CASE(arrayIndexThenCheck); TEST_CASE(arrayIndexEarlyReturn); // #6884 TEST_CASE(bufferNotZeroTerminated); TEST_CASE(negativeMemoryAllocationSizeError); // #389 TEST_CASE(negativeArraySize); TEST_CASE(pointerAddition1); TEST_CASE(ctu_malloc); TEST_CASE(ctu_array); TEST_CASE(ctu_variable); TEST_CASE(ctu_arithmetic); TEST_CASE(objectIndex); TEST_CASE(checkPipeParameterSize); // ticket #3521 } void noerr1() { check("extern int ab;\n" "void f()\n" "{\n" " if (ab)\n" " {\n" " char str[50];\n" " }\n" " if (ab)\n" " {\n" " char str[50];\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void noerr2() { check("static char buf[2];\n" "void f1(char *str)\n" "{\n" " strcpy(buf,str);\n" "}\n" "void f2(char *str)\n" "{\n" " strcat(buf,str);\n" "}\n" "void f3(char *str)\n" "{\n" " sprintf(buf,\"%s\",str);\n" "}\n" "void f4(const char str[])\n" "{\n" " strcpy(buf, str);\n" "}"); ASSERT_EQUALS("", errout.str()); } void noerr3() { check("struct { char data[10]; } abc;\n" "static char f()\n" "{\n" " char data[1];\n" " return abc.data[1];\n" "}"); ASSERT_EQUALS("", errout.str()); } void noerr4() { // The memory isn't read or written and therefore there is no error. check("static void f() {\n" " char data[100];\n" " const char *p = data + 100;\n" "}"); ASSERT_EQUALS("", errout.str()); } void sizeof3() { check("struct group { int gr_gid; };\n" "void f()\n" "{\n" " char group[32];\n" " snprintf(group, 32, \"%u\", 0);\n" " struct group *gr;\n" " snprintf(group, 32, \"%u\", gr->gr_gid);\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_1() { check("void f()\n" "{\n" " char str[0x10] = {0};\n" " str[15] = 0;\n" " str[16] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'str[16]' accessed at index 16, which is out of bounds.\n", errout.str()); check("char f()\n" "{\n" " char str[16] = {0};\n" " return str[16];\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'str[16]' accessed at index 16, which is out of bounds.\n", errout.str()); // test stack array check("int f()\n" "{\n" " int x[ 3 ] = { 0, 1, 2 };\n" " int y;\n" " y = x[ 4 ];\n" " return y;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'x[3]' accessed at index 4, which is out of bounds.\n", errout.str()); check("int f()\n" "{\n" " int x[ 3 ] = { 0, 1, 2 };\n" " int y;\n" " y = x[ 2 ];\n" " return y;\n" "}"); ASSERT_EQUALS("", errout.str()); check("int x[5] = {0};\n" "int a = x[10];"); ASSERT_EQUALS("[test.cpp:2]: (error) Array 'x[5]' accessed at index 10, which is out of bounds.\n", errout.str()); check("int x[5] = {0};\n" "int a = (x)[10];"); ASSERT_EQUALS("[test.cpp:2]: (error) Array 'x[5]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_2() { check("void a(int i)\n" // valueflow "{\n" " char *str = new char[0x10];\n" " str[i] = 0;\n" "}\n" "void b() { a(16); }"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'str[16]' accessed at index 16, which is out of bounds.\n", errout.str()); } void array_index_4() { check("char c = \"abc\"[4];"); ASSERT_EQUALS("[test.cpp:1]: (error) Array '\"abc\"[4]' accessed at index 4, which is out of bounds.\n", errout.str()); check("p = &\"abc\"[4];"); ASSERT_EQUALS("", errout.str()); check("char c = \"\\0abc\"[2];"); ASSERT_EQUALS("", errout.str()); check("char c = L\"abc\"[4];"); ASSERT_EQUALS("[test.cpp:1]: (error) Array 'L\"abc\"[4]' accessed at index 4, which is out of bounds.\n", errout.str()); } void array_index_3() { check("void f()\n" "{\n" " int val[50];\n" " int i, sum=0;\n" " for (i = 0; i < 100; i++)\n" " sum += val[i];\n" "}"); ASSERT_EQUALS("[test.cpp:6]: (error) Array 'val[50]' accessed at index 99, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " int val[50];\n" " int i, sum=0;\n" " for (i = 1; i < 100; i++)\n" " sum += val[i];\n" "}"); ASSERT_EQUALS("[test.cpp:6]: (error) Array 'val[50]' accessed at index 99, which is out of bounds.\n", errout.str()); check("void f(int a)\n" "{\n" " int val[50];\n" " int i, sum=0;\n" " for (i = a; i < 100; i++)\n" " sum += val[i];\n" "}"); ASSERT_EQUALS("[test.cpp:6]: (error) Array 'val[50]' accessed at index 99, which is out of bounds.\n", errout.str()); check("typedef struct g g2[3];\n" "void foo(char *a)\n" "{\n" " for (int i = 0; i < 4; i++)\n" " {\n" " a[i]=0;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo(int argc)\n" "{\n" " char a[2];\n" " for (int i = 4; i < argc; i++){}\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo(int a[10]) {\n" " for (int i=0;i<50;++i) {\n" " a[i] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[10]' accessed at index 49, which is out of bounds.\n", errout.str()); } void array_index_6() { check("struct ABC\n" "{\n" " char str[10];\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC abc;\n" " abc.str[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:9]: (error) Array 'abc.str[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("struct ABC\n" "{\n" " char str[10];\n" "};\n" "\n" "static char f()\n" "{\n" " struct ABC abc;\n" " return abc.str[10];\n" "}"); ASSERT_EQUALS("[test.cpp:9]: (error) Array 'abc.str[10]' accessed at index 10, which is out of bounds.\n", errout.str()); // This is not out of bounds because it is a variable length array check("struct ABC\n" "{\n" " char str[1];\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC* x = malloc(sizeof(struct ABC) + 10);\n" " x->str[1] = 0;" "}"); ASSERT_EQUALS("", errout.str()); // This is not out of bounds because it is not a variable length array check("struct ABC\n" "{\n" " char str[1];\n" " int x;\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC* x = malloc(sizeof(struct ABC) + 10);\n" " x->str[1] = 0;" "}"); TODO_ASSERT_EQUALS("error", "", errout.str()); // This is not out of bounds because it is a variable length array // and the index is within the memory allocated. /** @todo this works by accident because we ignore any access to this array */ check("struct ABC\n" "{\n" " char str[1];\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC* x = malloc(sizeof(struct ABC) + 10);\n" " x->str[10] = 0;" "}"); ASSERT_EQUALS("", errout.str()); // This is out of bounds because it is outside the memory allocated. /** @todo this doesn't work because of a bug in sizeof(struct) */ check("struct ABC\n" "{\n" " char str[1];\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC* x = malloc(sizeof(struct ABC) + 10);\n" " x->str[11] = 0;" "}"); TODO_ASSERT_EQUALS("[test.cpp:9]: (error) Array 'str[1]' accessed at index 11, which is out of bounds.\n", "", errout.str()); // This is out of bounds if 'sizeof(ABC)' is 1 (No padding) check("struct ABC\n" "{\n" " char str[1];\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC* x = malloc(sizeof(ABC) + 10);\n" " x->str[11] = 0;" "}"); TODO_ASSERT_EQUALS("error", "", errout.str()); // This is out of bounds because it is outside the memory allocated /** @todo this doesn't work because of a bug in sizeof(struct) */ check("struct ABC\n" "{\n" " char str[1];\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC* x = malloc(sizeof(struct ABC));\n" " x->str[1] = 0;" "}"); TODO_ASSERT_EQUALS("[test.cpp:9]: (error) Array 'str[1]' accessed at index 1, which is out of bounds.\n", "", errout.str()); // This is out of bounds because it is outside the memory allocated // But only if 'sizeof(ABC)' is 1 (No padding) check("struct ABC\n" "{\n" " char str[1];\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC* x = malloc(sizeof(ABC));\n" " x->str[1] = 0;" "}"); TODO_ASSERT_EQUALS("error", "", errout.str()); // This is out of bounds because it is not a variable array check("struct ABC\n" "{\n" " char str[1];\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC x;\n" " x.str[1] = 0;" "}"); ASSERT_EQUALS("[test.cpp:9]: (error) Array 'x.str[1]' accessed at index 1, which is out of bounds.\n", errout.str()); check("struct foo\n" "{\n" " char str[10];\n" "};\n" "\n" "void x()\n" "{\n" " foo f;\n" " for ( unsigned int i = 0; i < 64; ++i )\n" " f.str[i] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:10]: (error) Array 'f.str[10]' accessed at index 63, which is out of bounds.\n", errout.str()); check("struct AB { char a[NUM]; char b[NUM]; }\n" "void f(struct AB *ab) {\n" " ab->a[0] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("union { char a[1]; int b; } ab;\n" "void f() {\n" " ab.a[2] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'ab.a[1]' accessed at index 2, which is out of bounds.\n", errout.str()); } void array_index_7() { check("struct ABC\n" "{\n" " char str[10];\n" "};\n" "\n" "static void f(struct ABC *abc)\n" "{\n" " abc->str[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:8]: (error) Array 'abc->str[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_11() { check("class ABC\n" "{\n" "public:\n" " ABC();\n" " char *str[10];\n" " struct ABC *next();\n" "};\n" "\n" "static void f(ABC *abc1)\n" "{\n" " for ( ABC *abc = abc1; abc; abc = abc->next() )\n" " {\n" " abc->str[10] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:13]: (error) Array 'abc->str[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_12() { check("class Fred\n" "{\n" "private:\n" " char str[10];\n" "public:\n" " Fred();\n" "};\n" "Fred::Fred()\n" "{\n" " str[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:10]: (error) Array 'str[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("class Fred\n" "{\n" "private:\n" " char str[10];\n" "public:\n" " char c();\n" "};\n" "char Fred::c()\n" "{\n" " return str[10];\n" "}"); ASSERT_EQUALS("[test.cpp:10]: (error) Array 'str[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_13() { check("void f()\n" "{\n" " char buf[10];\n" " for (int i = 0; i < 100; i++)\n" " {\n" " if (i < 10)\n" " int x = buf[i];\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_14() { check("void f()\n" "{\n" " int a[10];\n" " for (int i = 0; i < 10; i++)\n" " a[i+10] = i;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[10]' accessed at index 19, which is out of bounds.\n", errout.str()); } void array_index_15() { check("void f()\n" "{\n" " int a[10];\n" " for (int i = 0; i < 10; i++)\n" " a[10+i] = i;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[10]' accessed at index 19, which is out of bounds.\n", errout.str()); } void array_index_16() { check("void f()\n" "{\n" " int a[10];\n" " for (int i = 0; i < 10; i++)\n" " a[i+1] = i;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_17() { check("void f()\n" "{\n" " int a[10];\n" " for (int i = 0; i < 10; i++)\n" " a[i*2] = i;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[10]' accessed at index 18, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " int a[12];\n" " for (int i = 0; i < 12; i+=6)\n" " a[i+5] = i;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " int a[12];\n" " for (int i = 0; i < 12; i+=6)\n" " a[i+6] = i;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[12]' accessed at index 12, which is out of bounds.\n", errout.str()); check("void f() {\n" // #4398 " int a[2];\n" " for (int i = 0; i < 4; i+=2)\n" " a[i] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[2]' accessed at index 2, which is out of bounds.\n", errout.str()); check("void f() {\n" // #4398 " int a[2];\n" " for (int i = 0; i < 4; i+=2)\n" " do_stuff(a+i);\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_18() { check("void f()\n" "{\n" " int a[5];\n" " for (int i = 0; i < 6; i++)\n" " {\n" " a[i] = i;\n" " i+=1;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " int a[5];\n" " for (int i = 0; i < 6; i++)\n" " {\n" " a[i] = i;\n" " i++;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " int a[5];\n" " for (int i = 0; i < 6; i++)\n" " {\n" " a[i] = i;\n" " ++i;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " int a[5];\n" " for (int i = 0; i < 6; i++)\n" " {\n" " a[i] = i;\n" " i=4;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:6]: (error) Array 'a[5]' accessed at index 5, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " int a[6];\n" " for (int i = 0; i < 7; i++)\n" " {\n" " a[i] = i;\n" " i+=1;\n" " }\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:6]: (error) Buffer overrun\n", "", errout.str()); } void array_index_19() { // "One Past the End" is legal, as long as pointer is not dereferenced. check("void f()\n" "{\n" " char a[2];\n" " char *end = &(a[2]);\n" "}"); ASSERT_EQUALS("", errout.str()); // Getting more than one past the end is not legal check("void f()\n" "{\n" " char a[2];\n" " char *end = &(a[3]);\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[2]' accessed at index 3, which is out of bounds.\n", errout.str()); } void array_index_20() { check("void f()\n" "{\n" " char a[8];\n" " int b[10];\n" " for ( int i = 0; i < 9; i++ )\n" " b[i] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_21() { check("class A {\n" " int indices[2];\n" " void foo(int indices[3]);\n" "};\n" "\n" "void A::foo(int indices[3]) {\n" " for(int j=0; j<3; ++j) {\n" " int b = indices[j];\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_22() { check("int main() {\n" " size_t indices[2];\n" " int b = indices[2];\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'indices[2]' accessed at index 2, which is out of bounds.\n", errout.str()); } void array_index_23() { check("void foo()\n" "{\n" " char c[10];\n" " c[1<<23]='a';\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'c[10]' accessed at index 8388608, which is out of bounds.\n", errout.str()); } void array_index_24() { // ticket #1492 and #1539 const std::string charMaxPlusOne(settings0.platform.defaultSign == 'u' ? "256" : "128"); check(("void f(char n) {\n" " int a[n];\n" // n <= CHAR_MAX " a[-1] = 0;\n" // negative index " a[" + charMaxPlusOne + "] = 0;\n" // 128/256 > CHAR_MAX "}\n").c_str()); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[" + charMaxPlusOne + "]' accessed at index -1, which is out of bounds.\n" "[test.cpp:4]: (error) Array 'a[" + charMaxPlusOne + "]' accessed at index " + charMaxPlusOne + ", which is out of bounds.\n", errout.str()); check("void f(signed char n) {\n" " int a[n];\n" // n <= SCHAR_MAX " a[-1] = 0;\n" // negative index " a[128] = 0;\n" // 128 > SCHAR_MAX "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[128]' accessed at index -1, which is out of bounds.\n" "[test.cpp:4]: (error) Array 'a[128]' accessed at index 128, which is out of bounds.\n", errout.str()); check("void f(unsigned char n) {\n" " int a[n];\n" // n <= UCHAR_MAX " a[-1] = 0;\n" // negative index " a[256] = 0;\n" // 256 > UCHAR_MAX "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[256]' accessed at index -1, which is out of bounds.\n" "[test.cpp:4]: (error) Array 'a[256]' accessed at index 256, which is out of bounds.\n", errout.str()); check("void f(short n) {\n" " int a[n];\n" // n <= SHRT_MAX " a[-1] = 0;\n" // negative index " a[32768] = 0;\n" // 32768 > SHRT_MAX "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[32768]' accessed at index -1, which is out of bounds.\n" "[test.cpp:4]: (error) Array 'a[32768]' accessed at index 32768, which is out of bounds.\n", errout.str()); check("void f(unsigned short n) {\n" " int a[n];\n" // n <= USHRT_MAX " a[-1] = 0;\n" // negative index " a[65536] = 0;\n" // 65536 > USHRT_MAX "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[65536]' accessed at index -1, which is out of bounds.\n" "[test.cpp:4]: (error) Array 'a[65536]' accessed at index 65536, which is out of bounds.\n", errout.str()); check("void f(signed short n) {\n" " int a[n];\n" // n <= SHRT_MAX " a[-1] = 0;\n" // negative index " a[32768] = 0;\n" // 32768 > SHRT_MAX "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[32768]' accessed at index -1, which is out of bounds.\n" "[test.cpp:4]: (error) Array 'a[32768]' accessed at index 32768, which is out of bounds.\n", errout.str()); check("void f(int n) {\n" " int a[n];\n" // n <= INT_MAX " a[-1] = 0;\n" // negative index "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[2147483648]' accessed at index -1, which is out of bounds.\n", errout.str()); check("void f(unsigned int n) {\n" " int a[n];\n" // n <= UINT_MAX " a[-1] = 0;\n" // negative index "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[4294967296]' accessed at index -1, which is out of bounds.\n", errout.str()); check("void f(signed int n) {\n" " int a[n];\n" // n <= INT_MAX " a[-1] = 0;\n" // negative index "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[2147483648]' accessed at index -1, which is out of bounds.\n", errout.str()); } void array_index_25() { // #1536 check("void foo()\n" "{\n" " long l[SOME_SIZE];\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_26() { check("void f()\n" "{\n" " int a[3];\n" " for (int i = 3; 0 <= i; i--)\n" " a[i] = i;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[3]' accessed at index 3, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " int a[4];\n" " for (int i = 3; 0 <= i; i--)\n" " a[i] = i;\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_27() { check("void f()\n" "{\n" " int a[10];\n" " for (int i = 0; i < 10; i++)\n" " a[i-1] = a[i];\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[10]' accessed at index -1, which is out of bounds.\n", errout.str()); } void array_index_28() { // ticket #1418 check("void f()\n" "{\n" " int i[2];\n" " int *ip = i + 1;\n" " ip[-10] = 1;\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:5]: (error) Array ip[-10] out of bounds.\n", "", errout.str()); } void array_index_29() { // ticket #1724 check("void f()\n" "{\n" " int iBuf[10];" " int *i = iBuf + 9;" " int *ii = i + -5;" " ii[10] = 0;" "}"); TODO_ASSERT_EQUALS("[test.cpp:6]: (error) Array ii[10] out of bounds.\n", "", errout.str()); } void array_index_30() { // ticket #2086 - unknown type // extracttests.start: typedef unsigned char UINT8; check("void f() {\n" " UINT8 x[2];\n" " x[5] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'x[2]' accessed at index 5, which is out of bounds.\n", errout.str()); } void array_index_31() { // ticket #2120 - sub function, unknown type check("struct s1 {\n" " unknown_type_t delay[3];\n" "};\n" "\n" "void x(unknown_type_t *delay, const int *net) {\n" " delay[0] = 0;\n" "}\n" "\n" "void y() {\n" " struct s1 obj;\n" " x(obj.delay, 123);\n" "}"); ASSERT_EQUALS("", errout.str()); check("struct s1 {\n" " unknown_type_t delay[3];\n" "};\n" "\n" "void x(unknown_type_t *delay, const int *net) {\n" " delay[4] = 0;\n" "}\n" "\n" "void y() {\n" " struct s1 obj;\n" " x(obj.delay, 123);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:11] -> [test.cpp:6]: (error) Array 'obj.delay[3]' accessed at index 4, which is out of bounds.\n", "", errout.str()); check("struct s1 {\n" " float a[0];\n" "};\n" "\n" "void f() {\n" " struct s1 *obj;\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_32() { check("class X\n" "{\n" " public:\n" " X()\n" " {\n" " m_x[0] = 0;\n" " m_x[1] = 0;\n" " }\n" " int m_x[1];\n" "};"); ASSERT_EQUALS("[test.cpp:7]: (error) Array 'm_x[1]' accessed at index 1, which is out of bounds.\n", errout.str()); } void array_index_33() { check("void foo(char bar[][4]) {\n" " baz(bar[5]);\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_34() { // ticket #3063 check("void foo() {\n" " int y[2][2][2];\n" " y[0][2][0] = 0;\n" " y[0][0][2] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'y[2][2][2]' accessed at index y[0][2][0], which is out of bounds.\n" "[test.cpp:4]: (error) Array 'y[2][2][2]' accessed at index y[0][0][2], which is out of bounds.\n", errout.str()); check("struct TEST\n" "{\n" " char a[10];\n" " char b[10][5];\n" "};\n" "void foo()\n" "{\n" " TEST test;\n" " test.a[10] = 3;\n" " test.b[10][2] = 4;\n" " test.b[0][19] = 4;\n" " TEST *ptest;\n" " ptest = &test;\n" " ptest->a[10] = 3;\n" " ptest->b[10][2] = 4;\n" " ptest->b[0][19] = 4;\n" "}"); ASSERT_EQUALS("[test.cpp:9]: (error) Array 'test.a[10]' accessed at index 10, which is out of bounds.\n" "[test.cpp:10]: (error) Array 'test.b[10][5]' accessed at index test.b[10][2], which is out of bounds.\n" "[test.cpp:11]: (error) Array 'test.b[10][5]' accessed at index test.b[0][19], which is out of bounds.\n" "[test.cpp:14]: (error) Array 'ptest->a[10]' accessed at index 10, which is out of bounds.\n" "[test.cpp:15]: (error) Array 'ptest->b[10][5]' accessed at index ptest->b[10][2], which is out of bounds.\n" "[test.cpp:16]: (error) Array 'ptest->b[10][5]' accessed at index ptest->b[0][19], which is out of bounds.\n", errout.str()); check("struct TEST\n" "{\n" " char a[10][5];\n" "};\n" "void foo()\n" "{\n" " TEST test;\n" " test.a[9][5] = 4;\n" " test.a[0][50] = 4;\n" " TEST *ptest;\n" " ptest = &test;\n" " ptest->a[9][5] = 4;\n" " ptest->a[0][50] = 4;\n" "}"); ASSERT_EQUALS("[test.cpp:8]: (error) Array 'test.a[10][5]' accessed at index test.a[9][5], which is out of bounds.\n" "[test.cpp:9]: (error) Array 'test.a[10][5]' accessed at index test.a[0][50], which is out of bounds.\n" "[test.cpp:12]: (error) Array 'ptest->a[10][5]' accessed at index ptest->a[9][5], which is out of bounds.\n" "[test.cpp:13]: (error) Array 'ptest->a[10][5]' accessed at index ptest->a[0][50], which is out of bounds.\n", errout.str()); } void array_index_35() { // ticket #2889 check("void f() {\n" " struct Struct { unsigned m_Var[1]; } s;\n" " s.m_Var[1] = 1;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 's.m_Var[1]' accessed at index 1, which is out of bounds.\n", errout.str()); check("struct Struct { unsigned m_Var[1]; };\n" "void f() {\n" " struct Struct s;\n" " s.m_Var[1] = 1;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 's.m_Var[1]' accessed at index 1, which is out of bounds.\n", errout.str()); check("struct Struct { unsigned m_Var[1]; };\n" "void f() {\n" " struct Struct * s = calloc(40);\n" " s->m_Var[1] = 1;\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_36() { // ticket #2960 check("class Fred {\n" " Fred(const Fred &);\n" "private:\n" " bool m_b[2];\n" "};\n" "Fred::Fred(const Fred & rhs) {\n" " m_b[2] = rhs.m_b[2];\n" "}"); ASSERT_EQUALS("[test.cpp:7]: (error) Array 'm_b[2]' accessed at index 2, which is out of bounds.\n" "[test.cpp:7]: (error) Array 'rhs.m_b[2]' accessed at index 2, which is out of bounds.\n", errout.str()); } void array_index_37() { check("class Fred {\n" " char x[X];\n" " Fred() {\n" " for (unsigned int i = 0; i < 15; i++)\n" " i;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_38() { //ticket #3273 check("void aFunction() {\n" " double aDoubleArray[ 10 ];\n" " unsigned int i; i = 0;\n" " for( i = 0; i < 6; i++ )\n" " {\n" " unsigned int j; j = 0;\n" " for( j = 0; j < 5; j++ )\n" " {\n" " unsigned int x; x = 0;\n" " for( x = 0; x < 4; x++ )\n" " {\n" " }\n" " }\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_39() { // ticket 3387 check("void aFunction()\n" "{\n" " char a[10];\n" " a[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_40() { check("void f() {\n" " char a[10];\n" " for (int i = 0; i < 10; ++i)\n" " f2(&a[i + 1]);\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_41() { // Don't generate false positives when structs have the same name check("void a() {\n" " struct Fred { char data[6]; } fred;\n" " fred.data[4] = 0;\n" // <- no error "}\n" "\n" "void b() {\n" " struct Fred { char data[3]; } fred;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void a() {\n" " struct Fred { char data[6]; } fred;\n" " fred.data[4] = 0;\n" // <- no error "}\n" "\n" "void b() {\n" " struct Fred { char data[3]; } fred;\n" " fred.data[4] = 0;\n" // <- error "}"); ASSERT_EQUALS("[test.cpp:8]: (error) Array 'fred.data[3]' accessed at index 4, which is out of bounds.\n", errout.str()); } void array_index_42() { // ticket #3569 check("void f()\n" "{\n" " char *p; p = (char *)malloc(10);\n" " p[10] = 7;\n" " free(p);\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'p[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " float *p; p = (float *)malloc(10 * sizeof(float));\n" " p[10] = 7;\n" " free(p);\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'p[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " char *p; p = (char *)malloc(10);\n" " p[0] = 0;\n" " p[9] = 9;\n" " free(p);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " char *p; p = new char[10];\n" " p[0] = 0;\n" " p[9] = 9;\n" " delete [] p;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " char *p(new char[10]);\n" " p[0] = 0;\n" " p[9] = 9;\n" " delete [] p;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " char *p = NULL;" " try{\n" " p = new char[10];\n" " }\n" " catch(...){\n" " return;\n" " }" " p[0] = 0;\n" " p[9] = 9;\n" " delete [] p;\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_43() { // #3838 check("int f( )\n" "{\n" " struct {\n" " int arr[ 3 ];\n" " } var[ 1 ];\n" " int y;\n" " var[ 0 ].arr[ 0 ] = 0;\n" " var[ 0 ].arr[ 1 ] = 1;\n" " var[ 0 ].arr[ 2 ] = 2;\n" " y = var[ 0 ].arr[ 3 ];\n" // <-- array access out of bounds " return y;\n" "}"); ASSERT_EQUALS("[test.cpp:10]: (error) Array 'var[0].arr[3]' accessed at index 3, which is out of bounds.\n", errout.str()); check("int f( )\n" "{\n" " struct {\n" " int arr[ 3 ];\n" " } var[ 1 ];\n" " int y=1;\n" " var[ 0 ].arr[ 0 ] = 0;\n" " var[ 0 ].arr[ 1 ] = 1;\n" " var[ 0 ].arr[ 2 ] = 2;\n" " y = var[ 0 ].arr[ 2 ];\n" " return y;\n" "}"); ASSERT_EQUALS("", errout.str()); check("int f( ){\n" "struct Struct{\n" " int arr[ 3 ];\n" "};\n" "int y;\n" "Struct var;\n" "var.arr[ 0 ] = 0;\n" "var.arr[ 1 ] = 1;\n" "var.arr[ 2 ] = 2;\n" "var.arr[ 3 ] = 3;\n" // <-- array access out of bounds "y=var.arr[ 3 ];\n" // <-- array access out of bounds "return y;\n" "}"); ASSERT_EQUALS("[test.cpp:10]: (error) Array 'var.arr[3]' accessed at index 3, which is out of bounds.\n" "[test.cpp:11]: (error) Array 'var.arr[3]' accessed at index 3, which is out of bounds.\n", errout.str()); check("void f( ) {\n" "struct S{\n" " int var[ 3 ];\n" "} ;\n" "S var[2];\n" "var[0].var[ 0 ] = 0;\n" "var[0].var[ 1 ] = 1;\n" "var[0].var[ 2 ] = 2;\n" "var[0].var[ 4 ] = 4;\n" // <-- array access out of bounds "}"); ASSERT_EQUALS("[test.cpp:9]: (error) Array 'var[0].var[3]' accessed at index 4, which is out of bounds.\n", errout.str()); check("void f( ) {\n" "struct S{\n" " int var[ 3 ];\n" "} ;\n" "S var[2];\n" "var[0].var[ 0 ] = 0;\n" "var[0].var[ 1 ] = 1;\n" "var[0].var[ 2 ] = 2;\n" "}"); ASSERT_EQUALS("", errout.str()); // avoid FPs (modified examples taken from #3838) check("struct AB { int a[10]; int b[10]; };\n" "int main() {\n" " struct AB ab;\n" " int * p = &ab.a[10];\n" " return 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("struct AB { int a[10]; int b[10]; };\n" "int main() {\n" " struct AB ab[1];\n" " int * p = &ab[0].a[10];\n" " return 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("struct AB { int a[10]; int b[10]; };\n" "int main() {\n" " struct AB ab[1];\n" " int * p = &ab[10].a[0];\n" " return 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'ab[1]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_44() { // #3979 (false positive) check("void f()\n" "{\n" " char buf[2];\n" " int i;\n" " for (i = 2; --i >= 0; )\n" " {\n" " buf[i] = 1;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " double buf[2];\n" " for (int i = 2; i--; )\n" " {\n" " buf[i] = 2.;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_45() { // #4207 - handling of function with variable number of parameters / unnamed arguments // Variable number of arguments check("void f(const char *format, ...) {\n" " va_args args;\n" " va_start(args, format);\n" "}\n" "void test() {\n" " CHAR buffer[1024];\n" " f(\"%s\", buffer);\n" "}"); ASSERT_EQUALS("", errout.str()); // Unnamed argument check("void f(char *) {\n" " dostuff();\n" "}\n" "void test() {\n" " char buffer[1024];\n" " f(buffer);\n" "}"); ASSERT_EQUALS("", errout.str()); } // Two statement for-loop void array_index_46() { // #4840 check("void bufferAccessOutOfBounds2() {\n" " char *buffer[]={\"a\",\"b\",\"c\"};\n" " for(int i=3; i--;) {\n" " printf(\"files(%i): %s\", 3-i, buffer[3-i]);\n" " }\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Array 'buffer[3]' accessed at index 3, which is out of bounds.\n", "", errout.str()); check("void f() {\n" " int buffer[9];\n" " long int i;\n" " for(i=10; i--;) {\n" " buffer[i] = i;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'buffer[9]' accessed at index 9, which is out of bounds.\n", errout.str()); // Correct access limits -> i from 9 to 0 check("void f() {\n" " int buffer[10];\n" " for(unsigned long int i=10; i--;) {\n" " buffer[i] = i;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_47() { // #5849 check("int s[4];\n" "void f() {\n" " for (int i = 2; i < 0; i++)\n" " s[i] = 5;\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_48() { // #9478 check("void test(void)\n" "{\n" " int array[4] = { 1,2,3,4 };\n" " for (int i = 1; i <= 4; i++) {\n" " printf(\" %i\", i);\n" " array[i] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:6]: (error) Array 'array[4]' accessed at index 4, which is out of bounds.\n", errout.str()); check("void test(void)\n" "{\n" " int array[4] = { 1,2,3,4 };\n" " for (int i = 1; i <= 4; i++) {\n" " scanf(\"%i\", &i);\n" " array[i] = 0;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_49() { // #8653 check("void f() {\n" " int i, k;\n" " int arr[34] = {};\n" " i = 1;\n" " for (k = 0; k < 34 && i < 34; k++) {\n" " i++;\n" " }\n" " arr[k];\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_50() { check("void f(const char * str) {\n" " int len = strlen(str);\n" " (void)str[len - 1];\n" "}\n" "void g() {\n" " f(\"12345678\");\n" " f(\"12345\");\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_51() { check("void f(void){\n" " int k=0, dd, d[1U] = {1};\n" " for (dd=d[k]; k<10; dd=d[++k]){;}\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'd[1]' accessed at index 1, which is out of bounds.\n", errout.str()); } void array_index_52() { check("char f(void)\n" "{\n" " char buf[10];\n" " for(int i = 0, j= 11; i < j; ++i)\n" " buf[i] = 0;\n" " return buf[0];\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'buf[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_53() { check("double M[3][1];\n" " \n" "void matrix()\n" "{\n" " for (int i=0; i < 3; i++)\n" " for (int j = 0; j < 3; j++)\n" " M[i][j]=0.0;\n" "}"); ASSERT_EQUALS("[test.cpp:7]: (error) Array 'M[3][1]' accessed at index M[*][2], which is out of bounds.\n", errout.str()); } void array_index_54() { check("void f() {\n" " g(0);\n" "}\n" "void g(unsigned int x) {\n" " int b[4];\n" " for (unsigned int i = 0; i < 4; i += 2) {\n" " b[i] = 0;\n" " b[i+1] = 0;\n" " }\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_55() { check("void make(const char* s, size_t len) {\n" " for (size_t i = 0; i < len; ++i)\n" " s[i];\n" "}\n" "void make(const char* s) {\n" " make(s, strlen(s));\n" "}\n" "void f() {\n" " make(\"my-utf8-payload\");\n" "}\n" "void f2() {\n" " make(\"false\");\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_56() { check("struct s {\n" " int array[1];\n" " int index;\n" "};\n" "void f(struct s foo) {\n" " foo.array[foo.index++] = 1;\n" " if (foo.index == 1) {}\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_57() { check("void f(std::vector& v) {\n" " int a[3] = { 1, 2, 3 };\n" " int i = 0;\n" " for (auto& x : v) {\n" " int c = a[i++];\n" " if (i == 3)\n" " i = 0;\n" " x = c;\n" " }\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("void f(std::vector& v) {\n" " int a[3] = { 1, 2, 3 };\n" " int i = 0;\n" " for (auto& x : v) {\n" " int c = a[i++];\n" " if (i == 4)\n" " i = 0;\n" " x = c;\n" " }\n" "}\n"); ASSERT_EQUALS( "[test.cpp:6] -> [test.cpp:5]: (warning) Either the condition 'i==4' is redundant or the array 'a[3]' is accessed at index 3, which is out of bounds.\n", errout.str()); } void array_index_58() { check("int f(int x, int y) {\n" " int a[3]= {0,1,2};\n" " if(x<2)\n" " y = a[x] + 1;\n" " else\n" " y = a[x];\n" " return y;\n" "}\n"); ASSERT_EQUALS( "[test.cpp:3] -> [test.cpp:6]: (warning) Either the condition 'x<2' is redundant or the array 'a[3]' is accessed at index 3, which is out of bounds.\n", errout.str()); } void array_index_59() // #10413 { check("long f(long b) {\n" " const long a[] = { 0, 1, };\n" " const long c = std::size(a);\n" " if (b < 0 || b >= c)\n" " return 0;\n" " return a[b];\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("void f(int a, int b) {\n" " const int S[2] = {};\n" " if (a < 0) {}\n" " else {\n" " if (b < 0) {}\n" " else if (S[b] > S[a]) {}\n" " }\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("int a[2] = {};\n" "void f(int i) {\n" " g(i < 0 ? 0 : a[i]);\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_60() { checkP("#define CKR(B) if (!(B)) { return -1; }\n" "int f(int i) {\n" " const int A[3] = {};\n" " CKR(i < 3);\n" " if (i > 0)\n" " i = A[i];\n" " return i;\n" "}\n"); ASSERT_EQUALS("", errout.str()); checkP("#define ASSERT(expression, action) if (expression) {action;}\n" "int array[5];\n" "void func (int index) {\n" " ASSERT(index > 5, return);\n" " array[index]++;\n" "}\n"); ASSERT_EQUALS( "[test.cpp:4] -> [test.cpp:5]: (warning) Either the condition 'index>5' is redundant or the array 'array[5]' is accessed at index 5, which is out of bounds.\n", errout.str()); } void array_index_61() { check("int f(int i) {\n" " const int M[] = { 0, 1, 2, 3 };\n" " if (i > 4)\n" " return -1;\n" " if (i < 0 || i == std::size(M))\n" " return 0; \n" " return M[i];\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("struct S { enum E { e0 }; };\n" "const S::E M[4] = { S::E:e0, S::E:e0, S::E:e0, S::E:e0 };\n" "int f(int i) {\n" " if (i > std::size(M) + 1)\n" " return -1;\n" " if (i < 0 || i >= std::size(M))\n" " return 0;\n" " return M[i]; \n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_62() { check("struct X {\n" " static int GetSize() {return 11;}\n" "};\n" "char f() {\n" " char buf[10]= {0};\n" " for(int i = 0; i < X::GetSize(); ++i) \n" " buf[i] = 0;\n" " return buf[0];\n" "}\n"); ASSERT_EQUALS("[test.cpp:7]: (error) Array 'buf[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_63() { check("int b[4];\n" // #10979 "void f(int i) {\n" " if (i >= 0 && i < sizeof(b) / sizeof(*(b)))\n" " b[i] = 0;\n" " if (i >= 0 && i < sizeof(b) / sizeof((b)[0]))\n" " b[i] = 0;\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_64() // #10878 { check("struct Array {\n" " int x[10];\n" " int& accessArrayRef(int a) { return x[a]; }\n" "};\n" "void f() {\n" " Array array = {};\n" " array.accessArrayRef(10);\n" "}\n"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'x[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("int i = 10;\n" "struct Array {\n" " int x[10];\n" " int& accessArrayRef(int a) { return x[a]; }\n" "};\n" "void f() {\n" " Array array = {};\n" " array.accessArrayRef(i);\n" "}\n"); TODO_ASSERT_EQUALS("[test.cpp:3]: (error) Array 'x[10]' accessed at index 10, which is out of bounds.\n", "", errout.str()); } void array_index_65() // #11066 { check("char P[] = { 2, 1 };\n" "char f[2];\n" "void e(char* c) {\n" " register j;\n" " for (j = 0; j < 2; j++)\n" " c[j] = f[P[j] - 1];\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_66() { check("void foo(int j) {\n" " int offsets[256];\n" " while (x) {\n" " if (j >= 256) break;\n" " offsets[++j] = -1;\n" " }\n" "}\n"); ASSERT_EQUALS( "[test.cpp:4] -> [test.cpp:5]: (warning) Either the condition 'j>=256' is redundant or the array 'offsets[256]' is accessed at index 256, which is out of bounds.\n", errout.str()); } void array_index_67() { check("void func(int i) {\n" // #1596 " int types[3];\n" " int type_cnt = 0;\n" " if (i == 0) {\n" " types[type_cnt] = 0;\n" " type_cnt++;\n" " types[type_cnt] = 0;\n" " type_cnt++;\n" " types[type_cnt] = 0;\n" " type_cnt++;\n" " } else {\n" " types[type_cnt] = 1;\n" " type_cnt++;\n" " }\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_68() { // #6655 check("int ia[10];\n" "void f(int len) {\n" " for (int i = 0; i < len; i++)\n" " ia[i] = 0;\n" "}\n" "int g() {\n" " f(20);\n" " return 0;\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'ia[10]' accessed at index 19, which is out of bounds.\n", errout.str()); } // #6370 void array_index_69() { check("void f() {\n" " const int e[] = {0,10,20,30};\n" " int a[4];\n" " for(int i = 0; i < 4; ++i)\n" " a[e[i]] = 0;\n" "}\n"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[4]' accessed at index 30, which is out of bounds.\n", errout.str()); } // #11355 void array_index_70() { check("void f() {\n" " static const char a[] = ((\"test\"));\n" " printf(\"%c\", a[5]);\n" "}\n"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[5]' accessed at index 5, which is out of bounds.\n", errout.str()); } // #11461 void array_index_71() { check("unsigned int f(unsigned int Idx) {\n" " if (Idx < 64)\n" " return 0;\n" " Idx -= 64;\n" " int arr[64] = { 0 };\n" " return arr[Idx];\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_multidim() { check("void f()\n" "{\n" " char a[2][2];\n" " a[1][1] = 'a';\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " char a[2][2][2];\n" " a[1][1][1] = 'a';\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " char a[2][2];\n" " a[2][1] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[2][2]' accessed at index a[2][1], which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " char a[2][2];\n" " a[1][2] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[2][2]' accessed at index a[1][2], which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " char a[2][2][2];\n" " a[2][1][1] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[2][2][2]' accessed at index a[2][1][1], which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " char a[2][2][2];\n" " a[1][2][1] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[2][2][2]' accessed at index a[1][2][1], which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " char a[2][2][2][2];\n" " a[1][2][1][1] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[2][2][2][2]' accessed at index a[1][2][1][1], which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " char a[2][2][2];\n" " a[1][1][2] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[2][2][2]' accessed at index a[1][1][2], which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " char a[10][10][10];\n" " a[2*3][4*3][2] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[10][10][10]' accessed at index a[6][12][2], which is out of bounds.\n", errout.str()); check("void f() {\n" " char a[10][10][10];\n" " a[6][40][10] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[10][10][10]' accessed at index a[6][40][10], which is out of bounds.\n", errout.str()); check("void f() {\n" " char a[1][1][1];\n" " a[2][2][2] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[1][1][1]' accessed at index a[2][2][2], which is out of bounds.\n", errout.str()); check("void f() {\n" " char a[6][6][6];\n" " a[6][6][2] = 'a';\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[6][6][6]' accessed at index a[6][6][2], which is out of bounds.\n", errout.str()); check("void f() {\n" " int a[2][2];\n" " p = &a[2][0];\n" "}"); ASSERT_EQUALS("", errout.str()); // unknown dim.. check("void f()\n" "{\n" " int a[2][countof(x)] = {{1,2},{3,4}};\n" " a[0][0] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void draw_quad(float z) {\n" " int i;\n" " float (*vertices)[2][4];\n" " vertices[0][0][0] = z;\n" " vertices[0][0][1] = z;\n" " vertices[1][0][0] = z;\n" " vertices[1][0][1] = z;\n" " vertices[2][0][0] = z;\n" " vertices[2][0][1] = z;\n" " vertices[3][0][0] = z;\n" " vertices[3][0][1] = z;\n" " for (i = 0; i < 4; i++) {\n" " vertices[i][0][2] = z;\n" " vertices[i][0][3] = 1.0;\n" " vertices[i][1][0] = 2.0;\n" " vertices[i][1][1] = 3.0;\n" " vertices[i][1][2] = 4.0;\n" " vertices[i][1][3] = 5.0;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); { check("int foo() {\n" " const size_t A = 4;\n" " const size_t B = 2;\n" " extern int stuff[A][B];\n" " return stuff[0][1];\n" "}"); ASSERT_EQUALS("", errout.str()); // TODO: better handling of VLAs in symboldatabase. should be // possible to use ValueFlow values. check("int foo() {\n" " const size_t A = 4;\n" " const size_t B = 2;\n" " extern int stuff[A][B];\n" " return stuff[0][1];\n" "}"); TODO_ASSERT_EQUALS("error", "", errout.str()); } } void array_index_switch_in_for() { check("void f()\n" "{\n" " int ar[10];\n" " for (int i = 0; i < 10; ++i)\n" " {\n" " switch(i)\n" " {\n" " case 9:\n" " ar[i] = 0;\n" " break;\n" " default:\n" " ar[i] = ar[i+1];\n" " break;\n" " };\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " int ar[10];\n" " for (int i = 0; i < 10; ++i)\n" " {\n" " switch(i)\n" " {\n" " case 8:\n" " ar[i] = 0;\n" " break;\n" " default:\n" " ar[i] = ar[i+1];\n" " break;\n" " };\n" " }\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:12]: (error) Array index out of bounds.\n", "", errout.str()); } void array_index_for_in_for() { check("void f() {\n" " int a[5];\n" " for (int i = 0; i < 10; ++i) {\n" " for (int j = i; j < 5; ++j) {\n" " a[i] = 0;\n" " }\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_bounds() { // #10275 check("int a[10];\n" "void f(int i) {\n" " if (i >= 0 && i < 10) {}\n" " a[i] = 1;\n" "}"); ASSERT_EQUALS("[test.cpp:3] -> [test.cpp:4]: (warning) Either the condition 'i<10' is redundant or the array 'a[10]' is accessed at index 10, which is out of bounds.\n" "[test.cpp:3] -> [test.cpp:4]: (warning) Either the condition 'i>=0' is redundant or the array 'a[10]' is accessed at index -1, which is out of bounds.\n", errout.str()); } void array_index_calculation() { // #1193 - false negative: array out of bounds in loop when there is calculation check("void f()\n" "{\n" " char data[8];\n" " for (int i = 19; i < 36; ++i) {\n" " data[i/2] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'data[8]' accessed at index 17, which is out of bounds.\n", errout.str()); // #2199 - false negative: array out of bounds in loop when there is calculation check("void f()\n" "{\n" " char arr[5];\n" " for (int i = 0; i < 5; ++i) {\n" " arr[i + 7] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'arr[5]' accessed at index 11, which is out of bounds.\n", errout.str()); } void array_index_negative1() { // #948 - array index out of bound not detected 'a[-1] = 0' check("void f()\n" "{\n" " char data[8];\n" " data[-1] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'data[8]' accessed at index -1, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " char data[8][4];\n" " data[5][-1] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'data[8][4]' accessed at index data[*][-1], which is out of bounds.\n", errout.str()); // #1614 - negative index is ok for pointers check("void foo(char *p)\n" "{\n" " p[-1] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo()\n" "{\n" " char s[] = \"abc\";\n" " char *p = s + strlen(s);\n" " if (p[-1]);\n" "}"); ASSERT_EQUALS("", errout.str()); // ticket #1850 check("int f(const std::map > &m)\n" "{\n" " return m[0][-1];\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_negative2() { // ticket #3063 check("struct TEST { char a[10]; };\n" "void foo() {\n" " TEST test;\n" " test.a[-1] = 3;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'test.a[10]' accessed at index -1, which is out of bounds.\n", errout.str()); } void array_index_negative3() { check("int f(int i) {\n" " int p[2] = {0, 0};\n" " if(i >= 2)\n" " return 0;\n" " else if(i == 0)\n" " return 0;\n" " return p[i - 1];\n" "}\n" "void g(int i) {\n" " if( i == 0 )\n" " return f(i);\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_negative4() { check("void f(void) {\n" " int buf[64]={};\n" " int i;\n" " for(i=0; i <16; ++i){}\n" " for(; i < 24; ++i){ buf[i] = buf[i-16];}\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_negative5() // #10526 { check("int i;\n" "std::vector v;\n" "bool f() {\n" " if (i != 0) {\n" " if (v.begin() != v.end()) {\n" " if (i < 0)\n" " return false;\n" " const int a[4] = { 0, 1, 2, 3 };\n" " return a[i - 1] > 0;\n" " }\n" " }\n" " return false;\n" "}\n"); ASSERT_EQUALS("", errout.str()); } // #11349 void array_index_negative6() { check("void f(int i) {\n" " int j = i;\n" " const int a[5] = {};\n" " const int k = j < 0 ? 0 : j;\n" " (void)a[k];\n" " if (i == -3) {}\n" "}\n"); ASSERT_EQUALS("", errout.str()); } // #5685 void array_index_negative7() { check("void f() {\n" " int i = -9;\n" " int a[5];\n" " for (; i < 5; i++)\n" " a[i] = 1;\n" "}\n"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[5]' accessed at index -9, which is out of bounds.\n", errout.str()); } // #11651 void array_index_negative8() { check("unsigned g(char*);\n" "void f() {\n" " char buf[10];\n" " unsigned u = g(buf);\n" " for (int i = u, j = sizeof(i); --i >= 0;)\n" " char c = buf[i];\n" "}\n"); ASSERT_EQUALS("", errout.str()); } // #8075 void array_index_negative9() { check("int g(int i) {\n" " if (i < 10)\n" " return -1;\n" " return 0;\n" "}\n" "void f() {\n" " int a[] = { 1, 2, 3 };\n" " printf(\"%d\\n\", a[g(4)]);\n" "}\n"); ASSERT_EQUALS("[test.cpp:8]: (error) Array 'a[3]' accessed at index -1, which is out of bounds.\n", errout.str()); } void array_index_for_decr() { check("void f()\n" "{\n" " char data[8];\n" " for (int i = 10; i > 0; --i) {\n" " data[i] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'data[8]' accessed at index 10, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " char val[5];\n" " for (unsigned int i = 3; i < 5; --i) {\n" " val[i+1] = val[i];\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " char val[5];\n" " for (int i = 3; i < 5; --i) {\n" " val[i+1] = val[i];\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'val[5]' accessed at index -9994, which is out of bounds.\n" "[test.cpp:5]: (error) Array 'val[5]' accessed at index -9995, which is out of bounds.\n", errout.str()); } void array_index_varnames() { check("struct A {\n" " char data[4];\n" " struct B { char data[3]; };\n" " B b;\n" "};\n" "\n" "void f()\n" "{\n" " A a;\n" " a.data[3] = 0;\n" " a.b.data[2] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); // #1586 check("struct A {\n" " char data[4];\n" " struct B { char data[3]; };\n" " B b;\n" "};\n" "\n" "void f()\n" "{\n" " A a;\n" " a.data[4] = 0;\n" " a.b.data[3] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:10]: (error) Array 'a.data[4]' accessed at index 4, which is out of bounds.\n" "[test.cpp:11]: (error) Array 'a.b.data[3]' accessed at index 3, which is out of bounds.\n", errout.str()); } void array_index_for_andand_oror() { // #3907 - using && or || // extracttests.start: volatile int y; check("void f() {\n" " char data[2];\n" " int x;\n" " for (x = 0; x < 10 && y; x++) {\n" " data[x] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'data[2]' accessed at index 9, which is out of bounds.\n", errout.str()); check("void f() {\n" " char data[2];\n" " int x;\n" " for (x = 0; x < 10 || y; x++) {\n" " data[x] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'data[2]' accessed at index 9, which is out of bounds.\n", errout.str()); check("void f() {\n" " char data[2];\n" " int x;\n" " for (x = 0; x <= 10 && y; x++) {\n" " data[x] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'data[2]' accessed at index 10, which is out of bounds.\n", errout.str()); check("void f() {\n" " char data[2];\n" " int x;\n" " for (x = 0; y && x <= 10; x++) {\n" " data[x] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'data[2]' accessed at index 10, which is out of bounds.\n", errout.str()); check("int f() {\n" // #9126 " int i, c;\n" " char* words[100] = {0};\n" " g(words);\n" " for (i = c = 0; (i < N) && (c < 1); i++) {\n" " if (words[i][0] == '|')\n" " c++;\n" " }\n" " return c;\n" "}", "test.c"); ASSERT_EQUALS("", errout.str()); } void array_index_for_continue() { // #3913 check("void f() {\n" " int a[2];\n" " for (int i = 0; i < 2; ++i) {\n" " if (i == 0) {\n" " continue;\n" " }\n" " a[i - 1] = 0;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); // extracttests.start: int maybe(); check("void f() {\n" " int a[2];\n" " for (int i = 0; i < 2; ++i) {\n" " if (maybe()) {\n" " continue;\n" " }\n" " a[i - 1] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:7]: (error) Array 'a[2]' accessed at index -1, which is out of bounds.\n", errout.str()); } void array_index_for() { // Ticket #2370 - No false negative when there is no "break" check("void f() {\n" " int a[10];\n" " for (int i = 0; i < 20; ++i) {\n" " if (i==1) {\n" " }\n" " a[i] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:6]: (error) Array 'a[10]' accessed at index 19, which is out of bounds.\n", errout.str()); // Ticket #2385 - No false positive check("void f() {\n" " int a[10];\n" " for (int i = 0; i < 20; ++i) {\n" " if (i<10) {\n" " } else {\n" " a[i-10] = 0;\n" " }\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); // Ticket #3893 - start value out of bounds // extracttests.start: int maybe(); int dostuff(); check("void f() {\n" " int a[10];\n" " for (int i = 10; maybe(); dostuff()) {\n" " a[i] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[10]' accessed at index 10, which is out of bounds.\n", errout.str()); // #7686 check("char f() {\n" " char buf[10];\n" " const bool a = true, b = true;\n" " for (int i = 0; i < (a && b ? 11 : 10); ++i)\n" " buf[i] = 0;\n" " return buf[0];\n" "}\n"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'buf[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } void array_index_for_neq() { // Ticket #2211 - for loop using != in the condition check("void f() {\n" " int a[5];\n" " for (int i = 0; i != 10; ++i) {\n" " a[i] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[5]' accessed at index 9, which is out of bounds.\n", errout.str()); } void array_index_for_question() { // Ticket #2561 - using ?: inside for loop check("void f() {\n" " int a[10];\n" " for (int i = 0; i != 10; ++i) {\n" " i == 0 ? 0 : a[i-1];\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " int a[10];\n" " for (int i = 0; i != 10; ++i) {\n" " some_condition ? 0 : a[i-1];\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'a[10]' accessed at index -1, which is out of bounds.\n", errout.str()); check("void f() {\n" " int a[10];\n" " for (int i = 0; i != 10; ++i) {\n" " i==0 ? 0 : a[i-1];\n" " a[i-1] = 0;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'a[10]' accessed at index -1, which is out of bounds.\n", errout.str()); } void array_index_for_varid0() { // #4228: No varid for counter variable check("void f() {\n" " char a[10];\n" " for (i=0; i<10; i++);\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_vla_for() { // #3221 - access VLA inside for check("void f(int len) {\n" " char a[len];\n" " for (int i=0; i<7; ++i) {\n" " a[0] = 0;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_extern() { // Ticket #1684. FP when using 'extern'. check("extern char arr[15];\n" "char arr[15] = \"abc\";"); ASSERT_EQUALS("", errout.str()); } void array_index_cast() { // Ticket #2841. FP when using cast. // Different types => no error check("void f1(char *buf) {\n" " buf[4] = 0;\n" "}\n" "void f2() {\n" " int x[2];\n" " f1(x);\n" "}"); ASSERT_EQUALS("", errout.str()); // Same type => error check("void f1(const char buf[]) {\n" " char c = buf[4];\n" "}\n" "void f2() {\n" " char x[2];\n" " f1(x);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:6] -> [test.cpp:2]: (error) Array 'x[2]' accessed at index 4, which is out of bounds.\n", "", errout.str()); } void array_index_string_literal() { check("void f() {\n" " const char *str = \"abc\";\n" " bar(str[10]);\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'str[4]' accessed at index 10, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " const char *str = \"abc\";\n" " bar(str[4]);\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'str[4]' accessed at index 4, which is out of bounds.\n", errout.str()); check("void f()\n" "{\n" " const char *str = \"abc\";\n" " bar(str[3]);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " const char *str = \"a\tc\";\n" " bar(str[4]);\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'str[4]' accessed at index 4, which is out of bounds.\n", errout.str()); check("void f() {\n" // #6973 " const char *name = \"\";\n" " if ( name[0] == 'U' ? name[1] : 0) {}\n" "}"); ASSERT_EQUALS("", errout.str()); check("int main(int argc, char **argv) {\n" " char str[6] = \"\\0\";\n" " unsigned short port = 65535;\n" " snprintf(str, sizeof(str), \"%hu\", port);\n" "}", settings0, "test.c"); ASSERT_EQUALS("", errout.str()); check("int f(int x) {\n" // #11020 " const char* p = (x == 0 ? \"12345\" : \"ABC\");\n" " int s = 0;\n" " for (int i = 0; p[i]; i++)\n" " s += p[i];\n" " return s;\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void array_index_same_struct_and_var_name() { // don't throw internal error check("struct tt {\n" " char name[21];\n" "} ;\n" "void doswitch(struct tt *x)\n" "{\n" " struct tt *tt=x;\n" " tt->name;\n" "}"); ASSERT_EQUALS("", errout.str()); // detect error check("struct tt {\n" " char name[21];\n" "} ;\n" "void doswitch(struct tt *x)\n" "{\n" " struct tt *tt=x;\n" " tt->name[22] = 123;\n" "}"); ASSERT_EQUALS("[test.cpp:7]: (error) Array 'tt->name[21]' accessed at index 22, which is out of bounds.\n", errout.str()); } void array_index_valueflow() { check("void f(int i) {\n" " char str[3];\n" " str[i] = 0;\n" " if (i==10) {}\n" "}"); ASSERT_EQUALS("[test.cpp:4] -> [test.cpp:3]: (warning) Either the condition 'i==10' is redundant or the array 'str[3]' is accessed at index 10, which is out of bounds.\n", errout.str()); check("void f(int i) {\n" " char str[3];\n" " str[i] = 0;\n" " switch (i) {\n" " case 10: break;\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:5] -> [test.cpp:3]: (warning) Either the switch case 'case 10' is redundant or the array 'str[3]' is accessed at index 10, which is out of bounds.\n", errout.str()); check("void f() {\n" " char str[3];\n" " str[((unsigned char)3) - 1] = 0;\n" "}", "test.cpp"); ASSERT_EQUALS("", errout.str()); check("void f() {\n" // #5416 FP " char *str[3];\n" " do_something(&str[0][5]);\n" "}", "test.cpp"); ASSERT_EQUALS("", errout.str()); check("class X { static const int x[100]; };\n" // #6070 "const int X::x[100] = {0};"); ASSERT_EQUALS("", errout.str()); check("namespace { class X { static const int x[100]; };\n" // #6232 "const int X::x[100] = {0}; }"); ASSERT_EQUALS("", errout.str()); check("class ActorSprite { static ImageSet * targetCursorImages[2][10]; };\n" "ImageSet *ActorSprite::targetCursorImages[2][10];"); ASSERT_EQUALS("", errout.str()); check("int f(const std::size_t s) {\n" // #10130 " const char a[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 };\n" " return (s > sizeof(a)) ? 11 : (int)a[s];\n" "}\n" "int g() {\n" " return f(16);\n" "}\n"); ASSERT_EQUALS("[test.cpp:3] -> [test.cpp:3]: (warning) Either the condition 's>sizeof(a)' is redundant or the array 'a[16]' is accessed at index 16, which is out of bounds.\n", errout.str()); } void array_index_valueflow_pointer() { check("void f() {\n" " int a[10];\n" " int *p = a;\n" " p[20] = 0;\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3] -> [test.cpp:4]: (error) Array 'a[10]' accessed at index 20, which is out of bounds.\n", "", errout.str()); { // address of check("void f() {\n" " int a[10];\n" " int *p = a;\n" " p[10] = 0;\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3] -> [test.cpp:4]: (error) Array 'a[10]' accessed at index 10, which is out of bounds.\n", "", errout.str()); check("void f() {\n" " int a[10];\n" " int *p = a;\n" " dostuff(&p[10]);\n" "}"); ASSERT_EQUALS("", errout.str()); } check("void f() {\n" " int a[X];\n" // unknown size " int *p = a;\n" " p[20] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " int a[2];\n" " char *p = (char *)a;\n" // cast " p[4] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_function_parameter() { check("void f(char a[10]) {\n" " a[20] = 0;\n" // <- cppcheck warn here even though it's not a definite access out of bounds "}"); ASSERT_EQUALS("[test.cpp:2]: (error) Array 'a[10]' accessed at index 20, which is out of bounds.\n", errout.str()); check("void f(char a[10]) {\n" // #6353 - reassign 'a' " a += 4;\n" " a[-1] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f(char a[10]) {\n" " a[0] = 0;\n" " a[-1] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'a[10]' accessed at index -1, which is out of bounds.\n", errout.str()); } void array_index_enum_array() { // #8439 check("enum E : unsigned int { e1, e2 };\n" "void f() {\n" " E arrE[] = { e1, e2 };\n" " arrE[sizeof(arrE)] = e1;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'arrE[2]' accessed at index 8, which is out of bounds.\n", errout.str()); } void array_index_container() { // #9386 check("constexpr int blockLen = 10;\n" "void foo(std::array& a) {\n" " a[2] = 2;\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_two_for_loops() { check("bool b();\n" "void f()\n" "{\n" " int val[50];\n" " int i, sum=0;\n" " for (i = 1; b() && i < 50; i++)\n" " sum += val[i];\n" " if (i < 50)\n" " sum -= val[i];\n" "}"); ASSERT_EQUALS("", errout.str()); check("bool b();\n" "void f()\n" "{\n" " int val[50];\n" " int i, sum=0;\n" " for (i = 1; b() && i < 50; i++)\n" " sum += val[i];\n" " for (; i < 50;) {\n" " sum -= val[i];\n" " break;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("bool b();\n" "void f()\n" "{\n" " int val[50];\n" " int i, sum=0;\n" " for (i = 1; b() && i < 50; i++)\n" " sum += val[i];\n" " for (; i < 50; i++)\n" " sum -= val[i];\n" "}"); ASSERT_EQUALS("", errout.str()); } void array_index_new() { // #7690 check("void f() {\n" " int* z = new int;\n" " for (int n = 0; n < 8; ++n)\n" " z[n] = 0;\n" " delete[] z;\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'z[1]' accessed at index 7, which is out of bounds.\n", errout.str()); check("void f() {\n" " int* z = new int(1);\n" " for (int n = 0; n < 8; ++n)\n" " z[n] = 0;\n" " delete[] z;\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'z[1]' accessed at index 7, which is out of bounds.\n", errout.str()); check("void f() {\n" " int* z = new int{};\n" " for (int n = 0; n < 8; ++n)\n" " z[n] = 0;\n" " delete[] z;\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'z[1]' accessed at index 7, which is out of bounds.\n", errout.str()); check("void f() {\n" " int* z = new int[5];\n" " for (int n = 0; n < 8; ++n)\n" " z[n] = 0;\n" " delete[] z;\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'z[5]' accessed at index 7, which is out of bounds.\n", errout.str()); check("void g() {\n" " int* z = new int[5]();\n" " for (int n = 0; n < 8; ++n)\n" " z[n] = 1;\n" " delete[] z;\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'z[5]' accessed at index 7, which is out of bounds.\n", errout.str()); check("void h() {\n" " int** z = new int* [5];\n" " for (int n = 0; n < 8; ++n)\n" " z[n] = nullptr;\n" " delete[] z;\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'z[5]' accessed at index 7, which is out of bounds.\n", errout.str()); check("void h() {\n" " int** z = new int* [5]();\n" " for (int n = 0; n < 8; ++n)\n" " z[n] = nullptr;\n" " delete[] z;\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'z[5]' accessed at index 7, which is out of bounds.\n", errout.str()); check("void h() {\n" " int** z = new int* [5]{};\n" " for (int n = 0; n < 8; ++n)\n" " z[n] = nullptr;\n" " delete[] z;\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'z[5]' accessed at index 7, which is out of bounds.\n", errout.str()); } void buffer_overrun_2_struct() { check("struct ABC\n" "{\n" " char str[5];\n" "};\n" "\n" "static void f(struct ABC *abc)\n" "{\n" " strcpy( abc->str, \"abcdef\" );\n" "}"); ASSERT_EQUALS("[test.cpp:8]: (error) Buffer is accessed out of bounds: abc->str\n", errout.str()); check("struct ABC\n" "{\n" " char str[5];\n" "};\n" "\n" "static void f()\n" "{\n" " struct ABC abc;\n" " strcpy( abc.str, \"abcdef\" );\n" "}"); ASSERT_EQUALS("[test.cpp:9]: (error) Buffer is accessed out of bounds: abc.str\n", errout.str()); check("struct ABC\n" "{\n" " char str[5];\n" "};\n" "\n" "static void f(struct ABC &abc)\n" "{\n" " strcpy( abc.str, \"abcdef\" );\n" "}"); ASSERT_EQUALS("[test.cpp:8]: (error) Buffer is accessed out of bounds: abc.str\n", errout.str()); check("static void f()\n" "{\n" " struct ABC\n" " {\n" " char str[5];\n" " } abc;\n" " strcpy( abc.str, \"abcdef\" );\n" "}"); ASSERT_EQUALS("[test.cpp:7]: (error) Buffer is accessed out of bounds: abc.str\n", errout.str()); check("static void f()\n" "{\n" " struct ABC\n" " {\n" " char str[5];\n" " };\n" " struct ABC *abc = malloc(sizeof(struct ABC));\n" " strcpy( abc->str, \"abcdef\" );\n" " free(abc);\n" "}"); ASSERT_EQUALS("[test.cpp:8]: (error) Buffer is accessed out of bounds: abc->str\n", errout.str()); } void buffer_overrun_3() { check("int a[10];\n" "\n" "void foo()\n" "{\n" " int i;\n" " for (i = 0; i <= 10; ++i)\n" " a[i] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:7]: (error) Array 'a[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("struct S { int b; } static e[1];\n" // #11052 "int f() { return e[1].b; }\n"); ASSERT_EQUALS("[test.cpp:2]: (error) Array 'e[1]' accessed at index 1, which is out of bounds.\n", errout.str()); } void buffer_overrun_4() { check("void foo()\n" "{\n" " const char *p[2];\n" " for (int i = 0; i < 8; ++i)\n" " p[i] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'p[2]' accessed at index 7, which is out of bounds.\n", errout.str()); // No false positive check("void foo(int x, int y)\n" "{\n" " const char *p[2];\n" " const char *s = y + p[1];\n" " p[1] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); // There is no error here check("void f1(char *s,int size)\n" "{\n" " if( size > 10 ) strcpy(s,\"abc\");\n" "}\n" "void f2()\n" "{\n" " char s[3];\n" " f1(s,20);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:8] -> [test.cpp:3]: (error) Buffer is accessed out of bounds.\n", "", errout.str()); check("void f1(char *s,int size)\n" "{\n" " if( size > 10 ) strcpy(s,\"abc\");\n" "}\n" "void f2()\n" "{\n" " char s[3];\n" " f1(s,3);\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_5() { check("void f()\n" "{\n" " char n[5];\n" " sprintf(n, \"d\");\n" " printf(\"hello!\");\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_6() { check("void f()\n" "{\n" " char n[5];\n" " strcat(n, \"abc\");\n" " strcat(n, \"def\");\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:5]: (error) Buffer is accessed out of bounds: n\n", "", errout.str()); } void buffer_overrun_7() { // ticket #731 check("void f()\n" "{\n" " char a[2];\n" " strcpy(a, \"a\\0\");\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_8() { // ticket #714 check("void f()\n" "{\n" " char a[5];\n" " for (int i = 0; i < 20; i = i + 100)\n" " {\n" " a[i] = 0;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " char a[5];\n" " for (int i = 0; i < 20; i = 100 + i)\n" " {\n" " a[i] = 0;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_9() { // ticket #738 check("void f()\n" "{\n" " char a[5];\n" " for (int i = 0; i < 20; )\n" " {\n" " a[i] = 0;\n" " i += 100;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_10() { // ticket #740 check("void f()\n" "{\n" " char a[4];\n" " for (int i = 0; i < 4; i++)\n" " {\n" " char b = a[i];\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_11() { check("void f()\n" "{\n" " char a[4];\n" " for (float i=0; i<10.0;i=i+0.1)\n" " {\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f()\n" "{\n" " char a[4];\n" " for (float i=0; i<10.0;i=0.1+i)\n" " {\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_15() { // ticket #1787 check("class A : public B {\n" " char val[2];\n" " void f(int i, int ii);\n" "};\n" "void A::f(int i, int ii)\n" "{\n" " strcpy(val, \"ab\") ;\n" "}"); ASSERT_EQUALS("[test.cpp:7]: (error) Buffer is accessed out of bounds: val\n", errout.str()); } void buffer_overrun_16() { // unknown types check("void f() {\n" " struct Foo foo[5];\n" " memset(foo, 0, sizeof(foo));\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f() {\n" // ticket #2093 " gchar x[3];\n" " strcpy(x, \"12\");\n" "}"); ASSERT_EQUALS("", errout.str()); check("extern char a[10];\n" "void f() {\n" " char b[25] = {0};\n" " std::memcpy(b, a, 10);\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_18() { // ticket #2576 check("class A {\n" " void foo();\n" " bool b[7];\n" "};\n" "\n" "void A::foo() {\n" " for (int i=0; i<6; i++) {\n" " b[i] = b[i+1];\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("class A {\n" " void foo();\n" " bool b[7];\n" "};\n" "\n" "void A::foo() {\n" " for (int i=0; i<7; i++) {\n" " b[i] = b[i+1];\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:8]: (error) Array 'b[7]' accessed at index 7, which is out of bounds.\n", errout.str()); } void buffer_overrun_19() { // #2597 - class member with unknown type check("class A {\n" "public:\n" " u8 buf[10];\n" " A();" "};\n" "\n" "A::A() {\n" " memset(buf, 0, 10);\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_21() { check("void foo()\n" "{ { {\n" " char dst[4];\n" " const char *src = \"AAAAAAAAAAAAAAAAAAAAA\";\n" " for (size_t i = 0; i <= 4; i++)\n" " dst[i] = src[i];\n" "} } }"); ASSERT_EQUALS("[test.cpp:6]: (error) Array 'dst[4]' accessed at index 4, which is out of bounds.\n", errout.str()); } void buffer_overrun_24() { // index variable is changed in for-loop // ticket #4106 check("void main() {\n" " int array[] = {1,2};\n" " int x = 0;\n" " for( int i = 0; i<6; ) {\n" " x += array[i];\n" " i++; }\n" "}"); TODO_ASSERT_EQUALS("error", "", errout.str()); // ticket #4096 check("void main() {\n" " int array[] = {1,2};\n" " int x = 0;\n" " for( int i = 0; i<6; ) {\n" " x += array[i++];\n" " }\n" "}"); TODO_ASSERT_EQUALS("error", "", errout.str()); } void buffer_overrun_26() { // ticket #4432 (segmentation fault) check("extern int split();\n" "void regress() {\n" " char inbuf[1000];\n" " char *f[10];\n" " split(inbuf, f, 10, \"\t\t\");\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_27() { // ticket #4444 (segmentation fault) check("void abc(struct foobar[5]);\n" "void main() {\n" "struct foobar x[5];\n" "abc(x);\n" "}"); ASSERT_EQUALS("", errout.str()); } // #7083: false positive: typedef and initialization with strings void buffer_overrun_29() { check("typedef char testChar[10];\n" "int main(){\n" " testChar tc1 = \"\";\n" " tc1[5]='a';\n" "}"); ASSERT_EQUALS("", errout.str()); } // #6367 void buffer_overrun_30() { check("struct S { int m[9]; };\n" "int f(S * s) {\n" " return s->m[sizeof(s->m)];\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 's->m[9]' accessed at index 36, which is out of bounds.\n", errout.str()); } void buffer_overrun_31() { check("void f(WhereInfo *pWInfo, int *aiCur) {\n" " memcpy(aiCur, pWInfo->aiCurOnePass, sizeof(int)*2);\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_32() { // destination size is too small check("void f(void) {\n" " const char src[3] = \"abc\";\n" " char dest[1] = \"a\";\n" " (void)strxfrm(dest,src,1);\n" " (void)strxfrm(dest,src,2);\n"// << "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Buffer is accessed out of bounds: dest\n", errout.str()); // destination size is too small check("void f(void) {\n" " const char src[3] = \"abc\";\n" " char dest[2] = \"ab\";\n" " (void)strxfrm(dest,src,1);\n" " (void)strxfrm(dest,src,2);\n" " (void)strxfrm(dest,src,3);\n" // << "}"); ASSERT_EQUALS("[test.cpp:6]: (error) Buffer is accessed out of bounds: dest\n", errout.str()); // source size is too small check("void f(void) {\n" " const char src[2] = \"ab\";\n" " char dest[3] = \"abc\";\n" " (void)strxfrm(dest,src,1);\n" " (void)strxfrm(dest,src,2);\n" " (void)strxfrm(dest,src,3);\n" // << "}"); ASSERT_EQUALS("[test.cpp:6]: (error) Buffer is accessed out of bounds: src\n", errout.str()); // source size is too small check("void f(void) {\n" " const char src[1] = \"a\";\n" " char dest[3] = \"abc\";\n" " (void)strxfrm(dest,src,1);\n" " (void)strxfrm(dest,src,2);\n" // << "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Buffer is accessed out of bounds: src\n", errout.str()); } void buffer_overrun_33() { // #2019 check("int f() {\n" " int z[16];\n" " for (int i=0; i<20; i++)\n" " for (int j=0; j<20; j++)\n" " z[i] = 0;\n" " return z[0];\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'z[16]' accessed at index 19, which is out of bounds.\n", errout.str()); } void buffer_overrun_34() { // #11035 check("struct S {\n" " std::vector v;\n" " int a[15] = {};\n" " int g() const { return v.size(); }\n" " int f(int i) const {\n" " if (i < 0 || i >= g())\n" " return 0;\n" " return a[i];\n" " }\n" "};\n"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_35() { // #2304 check("void f() {\n" " char* q = \"0123456789\";\n" " char* p = (char*)malloc(sizeof(q) + 1);\n" " strcpy(p, q);\n" " free(p);\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Buffer is accessed out of bounds: p\n", errout.str()); check("void f() {\n" " char* q = \"0123456789\";\n" " char* p = (char*)malloc(1);\n" " strcpy(p, q);\n" " free(p);\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (error) Buffer is accessed out of bounds: p\n", errout.str()); check("typedef struct { char buf[1]; } S;\n" "S* f() {\n" " S* s = NULL;\n" " s = (S*)malloc(sizeof(S) + 10);\n" " sprintf((char*)s->buf, \"abc\");\n" " return s;\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_errorpath() { setMultiline(); settings0.templateLocation = "{file}:{line}:note:{info}"; check("void f() {\n" " char *p = malloc(10);\n" " memset(p, 0, 20);\n" "}"); ASSERT_EQUALS("test.cpp:3:error:Buffer is accessed out of bounds: p\n" "test.cpp:2:note:Assign p, buffer with size 10\n" "test.cpp:3:note:Buffer overrun\n", errout.str()); } void buffer_overrun_bailoutIfSwitch() { // No false positive check("void f1(char *s) {\n" " if (x) s[100] = 0;\n" "}\n" "\n" "void f2() {\n" " char a[10];\n" " f1(a);" "}"); ASSERT_EQUALS("", errout.str()); // No false positive check("void f1(char *s) {\n" " if (x) return;\n" " s[100] = 0;\n" "}\n" "\n" "void f2() {\n" " char a[10];\n" " f1(a);" "}"); ASSERT_EQUALS("", errout.str()); // No false negative check("void f1(char *s) {\n" " if (x) { }\n" " s[100] = 0;\n" "}\n" "\n" "void f2() {\n" " char a[10];\n" " f1(a);" "}"); TODO_ASSERT_EQUALS("[test.cpp:8] -> [test.cpp:3]: (error) Array 'a[10]' accessed at index 100, which is out of bounds.\n", "", errout.str()); } void buffer_overrun_function_array_argument() { setMultiline(); check("void f(char a[10]);\n" "void g() {\n" " char a[2];\n" " f(a);\n" "}"); ASSERT_EQUALS("test.cpp:4:warning:Buffer 'a' is too small, the function 'f' expects a bigger buffer in 1st argument\n" "test.cpp:4:note:Function 'f' is called\n" "test.cpp:1:note:Declaration of 1st function argument.\n" "test.cpp:3:note:Passing buffer 'a' to function that is declared here\n" "test.cpp:4:note:Buffer 'a' is too small, the function 'f' expects a bigger buffer in 1st argument\n", errout.str()); check("void f(float a[10][3]);\n" "void g() {\n" " float a[2][3];\n" " f(a);\n" "}"); ASSERT_EQUALS("test.cpp:4:warning:Buffer 'a' is too small, the function 'f' expects a bigger buffer in 1st argument\n" "test.cpp:4:note:Function 'f' is called\n" "test.cpp:1:note:Declaration of 1st function argument.\n" "test.cpp:3:note:Passing buffer 'a' to function that is declared here\n" "test.cpp:4:note:Buffer 'a' is too small, the function 'f' expects a bigger buffer in 1st argument\n", errout.str()); check("void f(int a[20]);\n" "void g() {\n" " int a[2];\n" " f(a);\n" "}"); ASSERT_EQUALS("test.cpp:4:warning:Buffer 'a' is too small, the function 'f' expects a bigger buffer in 1st argument\n" "test.cpp:4:note:Function 'f' is called\n" "test.cpp:1:note:Declaration of 1st function argument.\n" "test.cpp:3:note:Passing buffer 'a' to function that is declared here\n" "test.cpp:4:note:Buffer 'a' is too small, the function 'f' expects a bigger buffer in 1st argument\n", errout.str()); check("void f(int a[]) {\n" " switch (2) {\n" " case 1:\n" " a[1] = 1;\n" " }\n" "}\n" "int a[1];\n" "f(a);\n" ""); ASSERT_EQUALS("", errout.str()); check("void CreateLeafTex(unsigned char buf[256][2048][4]);\n" "void foo() {\n" " unsigned char(* tree)[2048][4] = new unsigned char[256][2048][4];\n" " CreateLeafTex(tree);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f(int a[10]) {\n" // #10069 " int i = 0;\n" " for (i = 0; i < 10; i++)\n" " a[i] = i * 2;\n" "}\n" "void g() {\n" " int b[5];\n" " f(b);\n" " return 0;\n" "}\n"); ASSERT_EQUALS("test.cpp:8:warning:Buffer 'b' is too small, the function 'f' expects a bigger buffer in 1st argument\n" "test.cpp:8:note:Function 'f' is called\n" "test.cpp:1:note:Declaration of 1st function argument.\n" "test.cpp:7:note:Passing buffer 'b' to function that is declared here\n" "test.cpp:8:note:Buffer 'b' is too small, the function 'f' expects a bigger buffer in 1st argument\n", errout.str()); } void possible_buffer_overrun_1() { // #3035 check("void foo() {\n" " char * data = (char *)alloca(50);\n" " char src[100];\n" " memset(src, 'C', 99);\n" " src[99] = '\\0';\n" " strcat(data, src);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:6]: (warning) Possible buffer overflow if strlen(src) is larger than sizeof(data)-strlen(data).\n", "", errout.str()); check("void foo() {\n" " char * data = (char *)alloca(100);\n" " char src[100];\n" " memset(src, 'C', 99);\n" " src[99] = '\\0';\n" " strcat(data, src);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo(char src[100]) {\n" " char * data = (char *)alloca(50);\n" " strcat(data, src);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (warning) Possible buffer overflow if strlen(src) is larger than sizeof(data)-strlen(data).\n", "", errout.str()); check("void foo(char src[100]) {\n" " char * data = (char *)alloca(100);\n" " strcat(data, src);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo() {\n" " char * data = (char *)alloca(50);\n" " char src[100];\n" " memset(src, 'C', 99);\n" " src[99] = '\\0';\n" " strcpy(data, src);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:6]: (warning) Possible buffer overflow if strlen(src) is larger than or equal to sizeof(data).\n", "", errout.str()); check("void foo() {\n" " char * data = (char *)alloca(100);\n" " char src[100];\n" " memset(src, 'C', 99);\n" " src[99] = '\\0';\n" " strcpy(data, src);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo(char src[100]) {\n" " char * data = (char *)alloca(50);\n" " strcpy(data, src);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (warning) Possible buffer overflow if strlen(src) is larger than or equal to sizeof(data).\n", "", errout.str()); check("void foo(char src[100]) {\n" " char * data = (char *)alloca(100);\n" " strcpy(data, src);\n" "}"); ASSERT_EQUALS("", errout.str()); } void buffer_overrun_readSizeFromCfg() { Settings settings; const char xmldata[] = "\n" "\n" " \n" " \n" " false\n" " \n" " \n" " \n" " \n" " \n" ""; ASSERT(settings.library.loadxmldata(xmldata, sizeof(xmldata))); // Attempt to get size from Cfg files, no false positives if size is not specified check("void f() {\n" " u8 str[256];\n" " mystrcpy(str, \"abcd\");\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " u8 str[2];\n" " mystrcpy(str, \"abcd\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: str\n", errout.str()); // The same for structs, where the message comes from a different check check("void f() {\n" " struct { u8 str[256]; } ms;\n" " mystrcpy(ms.str, \"abcd\");\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " struct { u8 str[2]; } ms;\n" " mystrcpy(ms.str, \"abcd\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: ms.str\n", errout.str()); } void valueflow_string() { // using ValueFlow string values in checking check("char f() {\n" " const char *x = s;\n" " if (cond) x = \"abcde\";\n" " return x[20];\n" // <- array index out of bounds when x is "abcde" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'x[6]' accessed at index 20, which is out of bounds.\n", errout.str()); } void pointer_out_of_bounds_1() { // extracttests.start: void dostuff(char *); check("void f() {\n" " char a[10];\n" " char *p = a + 100;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (portability) Undefined behaviour, pointer arithmetic 'a+100' is out of bounds.\n", errout.str()); check("char *f() {\n" " char a[10];\n" " return a + 100;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (portability) Undefined behaviour, pointer arithmetic 'a+100' is out of bounds.\n", errout.str()); check("void f(int i) {\n" " char x[10];\n" " if (i == 123) {}\n" " dostuff(x+i);\n" "}"); ASSERT_EQUALS("[test.cpp:3] -> [test.cpp:4]: (portability) Undefined behaviour, when 'i' is 123 the pointer arithmetic 'x+i' is out of bounds.\n", errout.str()); check("void f(int i) {\n" " char x[10];\n" " if (i == -1) {}\n" " dostuff(x+i);\n" "}"); ASSERT_EQUALS("[test.cpp:3] -> [test.cpp:4]: (portability) Undefined behaviour, when 'i' is -1 the pointer arithmetic 'x+i' is out of bounds.\n", errout.str()); check("void f() {\n" // #6350 - fp when there is cast of buffer " wchar_t buf[64];\n" " p = (unsigned char *) buf + sizeof (buf);\n" "}", "6350.c"); ASSERT_EQUALS("", errout.str()); check("int f() {\n" " const char d[] = \"0123456789\";\n" " char *cp = d + 3;\n" " return cp - d;\n" "}"); ASSERT_EQUALS("", errout.str()); } void pointer_out_of_bounds_2() { check("void f() {\n" " char *p = malloc(10);\n" " p += 100;\n" " free(p);" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (portability) Undefined behaviour, pointer arithmetic 'p+100' is out of bounds.\n", "", errout.str()); check("void f() {\n" " char *p = malloc(10);\n" " p += 10;\n" " *p = 0;\n" " free(p);" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) p is out of bounds.\n", "", errout.str()); check("void f() {\n" " char *p = malloc(10);\n" " p += 10;\n" " p -= 10;\n" " *p = 0;\n" " free(p);" "}"); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " char *p = malloc(10);\n" " p += 10;\n" " p = p - 1;\n" " *p = 0;\n" " free(p);" "}"); ASSERT_EQUALS("", errout.str()); } void pointer_out_of_bounds_3() { check("struct S { int a[10]; };\n" "void f(struct S *s) {\n" " int *p = s->a + 100;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (portability) Undefined behaviour, pointer arithmetic 's->a+100' is out of bounds.\n", errout.str()); check("template class Vector\n" "{\n" "public:\n" " void test() const;\n" " T* data();\n" "};\n" "template \n" "void Vector::test() const\n" "{\n" " const T* PDat = data();\n" " const T* P2 = PDat + 1;\n" " const T* P1 = P2 - 1;\n" "}\n" "Vector> Foo;\n"); ASSERT_EQUALS("", errout.str()); } void pointer_out_of_bounds_4() { check("const char* f() {\n" " g(\"Hello\" + 6);\n" "}"); ASSERT_EQUALS("", errout.str()); check("const char* f() {\n" " g(\"Hello\" + 7);\n" "}"); ASSERT_EQUALS("[test.cpp:2]: (portability) Undefined behaviour, pointer arithmetic '\"Hello\"+7' is out of bounds.\n", errout.str()); check("const char16_t* f() {\n" " g(u\"Hello\" + 6);\n" "}"); ASSERT_EQUALS("", errout.str()); check("const char16_t* f() {\n" " g(u\"Hello\" + 7);\n" "}"); ASSERT_EQUALS("[test.cpp:2]: (portability) Undefined behaviour, pointer arithmetic 'u\"Hello\"+7' is out of bounds.\n", errout.str()); check("void f() {\n" // #4647 " int val = 5;\n" " std::string hi = \"hi\" + val;\n" " std::cout << hi << std::endl;\n" "}\n"); ASSERT_EQUALS("[test.cpp:2] -> [test.cpp:3]: (portability) Undefined behaviour, pointer arithmetic '\"hi\"+val' is out of bounds.\n", errout.str()); check("void f(const char* s, int len) {\n" // #11026 " const char* end = s + len;\n" " printf(\"%s, %d\\n\", s, *end);\n" "}\n" "void g() {\n" " f(\"a\", 1);\n" " f(\"bbb\", 3);\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("void f(int i, const char* a) {\n" // #11140 " (void)a[i];\n" "}\n" "void g() {\n" " for (int i = 0; \"01234\"[i]; ++i)\n" " f(i, \"56789\");\n" "}\n" "void h() {\n" " for (int i = 0; \"012\"[i]; ++i)\n" " f(i, \"345\");\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void pointer_out_of_bounds_sub() { // extracttests.start: void dostuff(char *); check("char *f() {\n" " char x[10];\n" " return x-1;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (portability) Undefined behaviour, pointer arithmetic 'x-1' is out of bounds.\n", errout.str()); check("void f(int i) {\n" " char x[10];\n" " if (i == 123) {}\n" " dostuff(x-i);\n" "}"); ASSERT_EQUALS("[test.cpp:3] -> [test.cpp:4]: (portability) Undefined behaviour, when 'i' is 123 the pointer arithmetic 'x-i' is out of bounds.\n", errout.str()); check("void f(int i) {\n" " char x[10];\n" " if (i == -20) {}\n" " dostuff(x-i);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (portability) Undefined behaviour, when 'i' is -20 the pointer arithmetic 'x-i' is out of bounds.\n", "", errout.str()); check("void f(const char *x[10]) {\n" " return x-4;\n" "}"); ASSERT_EQUALS("", errout.str()); } void strcat1() { check("struct Foo { char a[4]; };\n" "void f() {\n" " struct Foo x = {0};\n" " strcat(x.a, \"aa\");\n" " strcat(x.a, \"aa\");\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:5]: (error) Buffer is accessed out of bounds.\n", "", errout.str()); } void varid1() { check("void foo()\n" "{\n" " char str[10];\n" " if (str[0])\n" " {\n" " char str[50];\n" " str[30] = 0;\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); } void varid2() { // #4764 check("struct foo {\n" " void bar() { return; }\n" " type<> member[1];\n" "};"); ASSERT_EQUALS("", errout.str()); } void assign1() { check("char str[3] = {'a', 'b', 'c'};\n" "\n" "void foo()\n" "{\n" " str[3] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'str[3]' accessed at index 3, which is out of bounds.\n", errout.str()); } void alloc_new() { check("void foo()\n" "{\n" " char *s; s = new char[10];\n" " s[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 's[10]' accessed at index 10, which is out of bounds.\n", errout.str()); // ticket #1670 - false negative when using return check("char f()\n" "{\n" " int *s; s = new int[10];\n" " return s[10];\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 's[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("struct Fred { char c[10]; };\n" "char f()\n" "{\n" " Fred *f; f = new Fred;\n" " return f->c[10];\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'f->c[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("static const size_t MAX_SIZE = UNAVAILABLE_TO_CPPCHECK;\n" "struct Thing { char data[MAX_SIZE]; };\n" "char f4(const Thing& t) { return !t.data[0]; }"); ASSERT_EQUALS("", errout.str()); check("void foo() {\n" " char * buf; buf = new char[8];\n" " buf[7] = 0;\n" " delete [] buf;\n" " buf = new char[9];\n" " buf[8] = 0;\n" " delete [] buf;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo() {\n" " char * buf; buf = new char[8];\n" " buf[7] = 0;\n" " delete [] buf;\n" " buf = new char[9];\n" " buf[9] = 0;\n" " delete [] buf;\n" "}"); ASSERT_EQUALS("[test.cpp:6]: (error) Array 'buf[9]' accessed at index 9, which is out of bounds.\n", errout.str()); check("void foo()\n" "{\n" " enum E { Size = 10 };\n" " char *s; s = new char[Size];\n" " s[Size] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 's[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("void foo()\n" "{\n" " enum E { ZERO };\n" " E *e; e = new E[10];\n" " e[10] = ZERO;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'e[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } // data is allocated with malloc void alloc_malloc() { check("void foo()\n" "{\n" " char *s; s = (char *)malloc(10);\n" " s[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 's[10]' accessed at index 10, which is out of bounds.\n", errout.str()); // ticket #842 check("void f() {\n" " int *tab4 = (int *)malloc(20 * sizeof(int));\n" " tab4[20] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (error) Array 'tab4[20]' accessed at index 20, which is out of bounds.\n", errout.str()); // ticket #1478 check("void foo() {\n" " char *p = (char *)malloc(10);\n" " free(p);\n" " p = (char *)malloc(10);\n" " p[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:5]: (error) Array 'p[10]' accessed at index 10, which is out of bounds.\n", errout.str()); // ticket #1134 check("void f() {\n" " int *x, i;\n" " x = (int *)malloc(10 * sizeof(int));\n" " x[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'x[10]' accessed at index 10, which is out of bounds.\n", errout.str()); check("void f() {\n" " int *tab4; tab4 = malloc(20 * sizeof(int));\n" " tab4[19] = 0;\n" " free(tab4);\n" " tab4 = malloc(21 * sizeof(int));\n" " tab4[20] = 0;\n" " free(tab4);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " int *tab4 = malloc(20 * sizeof(int));\n" " tab4[19] = 0;\n" " tab4 = realloc(tab4,21 * sizeof(int));\n" " tab4[20] = 0;\n" " free(tab4);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " enum E { Size = 20 };\n" " E *tab4 = (E *)malloc(Size * 4);\n" " tab4[Size] = Size;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'tab4[20]' accessed at index 20, which is out of bounds.\n", errout.str()); check("void f() {\n" " enum E { Size = 20 };\n" " E *tab4 = (E *)malloc(4 * Size);\n" " tab4[Size] = Size;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'tab4[20]' accessed at index 20, which is out of bounds.\n", errout.str()); check("void f() {\n" " enum E { ZERO };\n" " E *tab4 = (E *)malloc(20 * sizeof(E));\n" " tab4[20] = ZERO;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 'tab4[20]' accessed at index 20, which is out of bounds.\n", errout.str()); check("void f() {\n" // #8721 " unsigned char **cache = malloc(32);\n" " cache[i] = malloc(65536);\n" " cache[i][0xFFFF] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " int **a = malloc(2 * sizeof(int*));\n" " for (int i = 0; i < 3; i++)\n" " a[i] = NULL;\n" "}"); ASSERT_EQUALS("[test.cpp:3] -> [test.cpp:4]: (error) Array 'a[2]' accessed at index 2, which is out of bounds.\n", errout.str()); check("void f() {\n" " int **a = new int*[2];\n" " for (int i = 0; i < 3; i++)\n" " a[i] = NULL;\n" "}"); ASSERT_EQUALS("[test.cpp:3] -> [test.cpp:4]: (error) Array 'a[2]' accessed at index 2, which is out of bounds.\n", errout.str()); } // statically allocated buffer void alloc_string() { check("void foo()\n" "{\n" " const char *s = \"123\";\n" " s[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 's[4]' accessed at index 10, which is out of bounds.\n", errout.str()); check("void foo()\n" "{\n" " char *s; s = \"\";\n" " s[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Array 's[1]' accessed at index 10, which is out of bounds.\n", errout.str()); check("void foo() {\n" " const char *s = \"\";\n" " s = y();\n" " s[10] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo()\n" // #7718 "{\n" " std::string s = \"123\";\n" " s.resize(100);\n" " s[10] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); } // data is allocated with alloca void alloc_alloca() { check("void foo()\n" "{\n" " char *s = (char *)alloca(10);\n" " s[10] = 0;\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Array 's[10]' accessed at index 10, which is out of bounds.\n", "", errout.str()); } /* void countSprintfLength() const { std::list unknownParameter(1, nullptr); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("Hello", unknownParameter)); ASSERT_EQUALS(2, CheckBufferOverrun::countSprintfLength("s", unknownParameter)); ASSERT_EQUALS(2, CheckBufferOverrun::countSprintfLength("i", unknownParameter)); ASSERT_EQUALS(2, CheckBufferOverrun::countSprintfLength("%d", unknownParameter)); ASSERT_EQUALS(2, CheckBufferOverrun::countSprintfLength("%1d", unknownParameter)); ASSERT_EQUALS(3, CheckBufferOverrun::countSprintfLength("%2.2d", unknownParameter)); ASSERT_EQUALS(1, CheckBufferOverrun::countSprintfLength("%s", unknownParameter)); ASSERT_EQUALS(2, CheckBufferOverrun::countSprintfLength("f%s", unknownParameter)); ASSERT_EQUALS(1, CheckBufferOverrun::countSprintfLength("%-s", unknownParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%-5s", unknownParameter)); ASSERT_EQUALS(2, CheckBufferOverrun::countSprintfLength("\\\"", unknownParameter)); ASSERT_EQUALS(7, CheckBufferOverrun::countSprintfLength("Hello \\0Text", unknownParameter)); ASSERT_EQUALS(1, CheckBufferOverrun::countSprintfLength("\\0", unknownParameter)); ASSERT_EQUALS(2, CheckBufferOverrun::countSprintfLength("%%", unknownParameter)); ASSERT_EQUALS(3, CheckBufferOverrun::countSprintfLength("%d%d", unknownParameter)); ASSERT_EQUALS(3, CheckBufferOverrun::countSprintfLength("\\\\a%s\\0a", unknownParameter)); ASSERT_EQUALS(10, CheckBufferOverrun::countSprintfLength("\\\\\\\\Hello%d \\0Text\\\\\\\\", unknownParameter)); ASSERT_EQUALS(4, CheckBufferOverrun::countSprintfLength("%%%%%d", unknownParameter)); Token strTok; std::list stringAsParameter(1, &strTok); strTok.str("\"\""); ASSERT_EQUALS(4, CheckBufferOverrun::countSprintfLength("str%s", stringAsParameter)); strTok.str("\"12345\""); ASSERT_EQUALS(9, CheckBufferOverrun::countSprintfLength("str%s", stringAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%-4s", stringAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%-5s", stringAsParameter)); ASSERT_EQUALS(7, CheckBufferOverrun::countSprintfLength("%-6s", stringAsParameter)); ASSERT_EQUALS(5, CheckBufferOverrun::countSprintfLength("%.4s", stringAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%.5s", stringAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%.6s", stringAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%5.6s", stringAsParameter)); ASSERT_EQUALS(7, CheckBufferOverrun::countSprintfLength("%6.6s", stringAsParameter)); Token numTok; numTok.str("12345"); std::list intAsParameter(1, &numTok); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%02ld", intAsParameter)); ASSERT_EQUALS(9, CheckBufferOverrun::countSprintfLength("%08ld", intAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%.2d", intAsParameter)); ASSERT_EQUALS(9, CheckBufferOverrun::countSprintfLength("%08.2d", intAsParameter)); TODO_ASSERT_EQUALS(5, 2, CheckBufferOverrun::countSprintfLength("%x", intAsParameter)); ASSERT_EQUALS(5, CheckBufferOverrun::countSprintfLength("%4x", intAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%5x", intAsParameter)); ASSERT_EQUALS(5, CheckBufferOverrun::countSprintfLength("%.4x", intAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%.5x", intAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%1.5x", intAsParameter)); ASSERT_EQUALS(6, CheckBufferOverrun::countSprintfLength("%5.1x", intAsParameter)); Token floatTok; floatTok.str("1.12345f"); std::list floatAsParameter(1, &floatTok); TODO_ASSERT_EQUALS(5, 3, CheckBufferOverrun::countSprintfLength("%.2f", floatAsParameter)); ASSERT_EQUALS(9, CheckBufferOverrun::countSprintfLength("%8.2f", floatAsParameter)); TODO_ASSERT_EQUALS(5, 3, CheckBufferOverrun::countSprintfLength("%2.2f", floatAsParameter)); Token floatTok2; floatTok2.str("100.12345f"); std::list floatAsParameter2(1, &floatTok2); TODO_ASSERT_EQUALS(7, 3, CheckBufferOverrun::countSprintfLength("%2.2f", floatAsParameter2)); TODO_ASSERT_EQUALS(7, 3, CheckBufferOverrun::countSprintfLength("%.2f", floatAsParameter)); TODO_ASSERT_EQUALS(7, 5, CheckBufferOverrun::countSprintfLength("%4.2f", floatAsParameter)); std::list multipleParams = { &strTok, nullptr, &numTok }; ASSERT_EQUALS(15, CheckBufferOverrun::countSprintfLength("str%s%d%d", multipleParams)); ASSERT_EQUALS(26, CheckBufferOverrun::countSprintfLength("str%-6s%08ld%08ld", multipleParams)); } */ // extracttests.disable void minsize_argvalue() { Settings settings; const char xmldata[] = "\n" "\n" " \n" " false\n" " \n" " \n" " \n" " \n" " \n" " \n" ""; ASSERT(settings.library.loadxmldata(xmldata, sizeof(xmldata))); settings.severity.enable(Severity::warning); settings.platform.sizeof_wchar_t = 4; check("void f() {\n" " char c[10];\n" " mymemset(c, 0, 10);\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " char c[10];\n" " mymemset(c, 0, 11);\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: c\n", errout.str()); check("struct S {\n" " char a[5];\n" "};\n" "void f() {\n" " S s;\n" " mymemset(s.a, 0, 10);\n" "}", settings); ASSERT_EQUALS("[test.cpp:6]: (error) Buffer is accessed out of bounds: s.a\n", errout.str()); check("void foo() {\n" " char s[10];\n" " mymemset(s, 0, '*');\n" "}", settings); TODO_ASSERT_EQUALS("[test.cpp:3]: (warning) The size argument is given as a char constant.\n" "[test.cpp:3]: (error) Buffer is accessed out of bounds: s\n", "[test.cpp:3]: (error) Buffer is accessed out of bounds: s\n", errout.str()); // ticket #836 check("void f(void) {\n" " char a[10];\n" " mymemset(a+5, 0, 10);\n" "}", settings); TODO_ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: a\n", "", errout.str()); // Ticket #909 check("void f(void) {\n" " char str[] = \"abcd\";\n" " mymemset(str, 0, 6);\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: str\n", errout.str()); check("void f(void) {\n" " char str[] = \"abcd\";\n" " mymemset(str, 0, 5);\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f(void) {\n" " wchar_t str[] = L\"abcd\";\n" " mymemset(str, 0, 21);\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: str\n", errout.str()); check("void f(void) {\n" " wchar_t str[] = L\"abcd\";\n" " mymemset(str, 0, 20);\n" "}", settings); ASSERT_EQUALS("", errout.str()); // ticket #1659 - overflowing variable when using memcpy check("void f(void) {\n" " char c;\n" " mymemset(&c, 0, 4);\n" "}", settings); TODO_ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: c\n", "", errout.str()); // ticket #2121 - buffer access out of bounds when using uint32_t check("void f(void) {\n" " unknown_type_t buf[4];\n" " mymemset(buf, 0, 100);\n" "}", settings); ASSERT_EQUALS("", errout.str()); // #3124 - multidimensional array check("int main() {\n" " char b[5][6];\n" " mymemset(b, 0, 5 * 6);\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("int main() {\n" " char b[5][6];\n" " mymemset(b, 0, 6 * 6);\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: b\n", errout.str()); check("int main() {\n" " char b[5][6];\n" " mymemset(b, 0, 31);\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: b\n", errout.str()); // #4968 - not standard function check("void f() {\n" " char str[3];\n" " foo.mymemset(str, 0, 100);\n" " foo::mymemset(str, 0, 100);\n" " std::mymemset(str, 0, 100);\n" "}", settings); TODO_ASSERT_EQUALS("[test.cpp:5]: (error) Buffer is accessed out of bounds: str\n", "", errout.str()); // #5257 - check strings check("void f() {\n" " mymemset(\"abc\", 0, 20);\n" "}", settings); TODO_ASSERT_EQUALS("[test.cpp:2]: (error) Buffer is accessed out of bounds.\n", "", errout.str()); check("void f() {\n" " mymemset(temp, \"abc\", 4);\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f() {\n" // #6816 - fp when array has known string value " char c[10] = \"c\";\n" " mymemset(c, 0, 10);\n" "}", settings); ASSERT_EQUALS("", errout.str()); } void minsize_sizeof() { Settings settings; const char xmldata[] = "\n" "\n" " \n" " false\n" " \n" " \n" " \n" " \n" " \n" " \n" " \n" ""; ASSERT(settings.library.loadxmldata(xmldata, sizeof(xmldata))); check("void f() {\n" " char c[7];\n" " mystrncpy(c, \"hello\", 7);\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " char c[6];\n" " mystrncpy(c,\"hello\",6);\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " char c[5];\n" " mystrncpy(c,\"hello\",6);\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: c\n", errout.str()); check("void f() {\n" " char c[6];\n" " mystrncpy(c,\"hello!\",7);\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: c\n", errout.str()); check("void f(unsigned int addr) {\n" " memset((void *)addr, 0, 1000);\n" "}", settings0); ASSERT_EQUALS("", errout.str()); check("struct AB { char a[10]; };\n" "void foo(AB *ab) {\n" " mystrncpy(x, ab->a, 100);\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void a(char *p) { mystrncpy(p,\"hello world!\",10); }\n" // #3168 "void b() {\n" " char buf[5];\n" " a(buf);" "}", settings); TODO_ASSERT_EQUALS("[test.cpp:4] -> [test.cpp:1]: (error) Buffer is accessed out of bounds: buf\n", "", errout.str()); } void minsize_strlen() { Settings settings; const char xmldata[] = "\n" "\n" " \n" " false\n" " \n" " \n" " \n" " \n" " \n" " \n" " \n" " \n" ""; ASSERT(settings.library.loadxmldata(xmldata, sizeof(xmldata))); // formatstr.. check("void f() {\n" " char str[3];\n" " mysprintf(str, \"test\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: str\n", errout.str()); check("void f() {\n" " char str[5];\n" " mysprintf(str, \"%s\", \"abcde\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: str\n", errout.str()); check("int getnumber();\n" "void f()\n" "{\n" " char str[5];\n" " mysprintf(str, \"%d: %s\", getnumber(), \"abcde\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:5]: (error) Buffer is accessed out of bounds: str\n", errout.str()); check("void f() {\n" " char str[5];\n" " mysprintf(str, \"test%s\", \"\");\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " char *str = new char[5];\n" " mysprintf(str, \"abcde\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: str\n", errout.str()); check("void f(int condition) {\n" " char str[5];\n" " mysprintf(str, \"test%s\", condition ? \"12\" : \"34\");\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f(int condition) {\n" " char str[5];\n" " mysprintf(str, \"test%s\", condition ? \"12\" : \"345\");\n" "}", settings); TODO_ASSERT_EQUALS("error", "", errout.str()); check("struct Foo { char a[1]; };\n" "void f() {\n" " struct Foo x;\n" " mysprintf(x.a, \"aa\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:4]: (error) Buffer is accessed out of bounds: x.a\n", errout.str()); // ticket #900 check("void f() {\n" " char *a = new char(30);\n" " mysprintf(a, \"a\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: a\n", errout.str()); check("void f(char value) {\n" " char *a = new char(value);\n" " mysprintf(a, \"a\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: a\n", errout.str()); // This is out of bounds if 'sizeof(ABC)' is 1 (No padding) check("struct Foo { char a[1]; };\n" "void f() {\n" " struct Foo *x = malloc(sizeof(Foo));\n" " mysprintf(x->a, \"aa\");\n" "}", settings); TODO_ASSERT_EQUALS("[test.cpp:4]: (error, inconclusive) Buffer is accessed out of bounds: x.a\n", "", errout.str()); check("struct Foo { char a[1]; };\n" "void f() {\n" " struct Foo *x = malloc(sizeof(Foo) + 10);\n" " mysprintf(x->a, \"aa\");\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("struct Foo { char a[1]; };\n" "void f() {\n" " struct Foo x;\n" " mysprintf(x.a, \"aa\");\n" "}", settings); ASSERT_EQUALS("[test.cpp:4]: (error) Buffer is accessed out of bounds: x.a\n", errout.str()); check("struct Foo {\n" // #6668 - unknown size " char a[LEN];\n" " void f();\n" "};" "void Foo::f() {\n" " mysprintf(a, \"abcd\");\n" "}", settings); ASSERT_EQUALS("", errout.str()); } void minsize_mul() { Settings settings; const char xmldata[] = "\n" "\n" " \n" " \n" " \n" " \n" " \n" " \n" " \n" " \n" ""; ASSERT(settings.library.loadxmldata(xmldata, sizeof(xmldata))); check("void f() {\n" " char c[5];\n" " myfread(c, 1, 5, stdin);\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " char c[5];\n" " myfread(c, 1, 6, stdin);\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: c\n", errout.str()); } // extracttests.enable void unknownType() { check("void f()\n" "{\n" " UnknownType *a = malloc(4);\n" "}"); ASSERT_EQUALS("", errout.str()); } // extracttests.disable void terminateStrncpy1() { check("void foo ( char *bar ) {\n" " char baz[100];\n" " strncpy(baz, bar, 100);\n" " strncpy(baz, bar, 100);\n" " baz[99] = 0;\n" " strncpy(baz, bar, 100);\n" " baz[99] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo ( char *bar ) {\n" " char baz[100];\n" " strncpy(baz, bar, 100);\n" " baz[99] = '\\0';\n" "}"); ASSERT_EQUALS("", errout.str()); check("void foo ( char *bar ) {\n" " char baz[100];\n" " strncpy(baz, bar, 100);\n" " baz[x+1] = '\\0';\n" "}"); ASSERT_EQUALS("", errout.str()); // Test with invalid code that there is no segfault check("char baz[100];\n" "strncpy(baz, \"var\", 100)"); ASSERT_EQUALS("", errout.str()); // Test that there are no duplicate error messages check("void foo ( char *bar ) {\n" " char baz[100];\n" " strncpy(baz, bar, 100);\n" " foo(baz);\n" " foo(baz);\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (warning, inconclusive) The buffer 'baz' may not be null-terminated after the call to strncpy().\n", errout.str()); } void terminateStrncpy2() { check("char *foo ( char *bar ) {\n" " char baz[100];\n" " strncpy(baz, bar, 100);\n" " bar[99] = 0;\n" " return strdup(baz);\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (warning, inconclusive) The buffer 'baz' may not be null-terminated after the call to strncpy().\n", errout.str()); } void terminateStrncpy3() { // Ticket #2170 - false positive // The function bar is risky. But it might work that way intentionally. check("char str[100];\n" "\n" "void foo(char *a) {\n" " strncpy(str, a, 100);\n" "}\n" "\n" "void bar(char *p) {\n" " strncpy(p, str, 100);\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (warning, inconclusive) The buffer 'str' may not be null-terminated after the call to strncpy().\n", errout.str()); } void terminateStrncpy4() { check("void bar() {\n" " char buf[4];\n" " strncpy(buf, \"ab\", 4);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void bar() {\n" " char buf[4];\n" " strncpy(buf, \"abcde\", 4);\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (warning, inconclusive) The buffer 'buf' may not be null-terminated after the call to strncpy().\n", errout.str()); } void terminateStrncpy5() { // #9944 check("void f(const std::string& buf) {\n" " char v[255];\n" " if (buf.size() >= sizeof(v))\n" " return;\n" " strncpy(v, buf.c_str(), sizeof(v));\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("void f(const std::string& buf) {\n" " char v[255];\n" " if (buf.size() >= sizeof(v))\n" " strncpy(v, buf.c_str(), sizeof(v));\n" "}\n"); ASSERT_EQUALS("[test.cpp:4]: (warning, inconclusive) The buffer 'v' may not be null-terminated after the call to strncpy().\n", errout.str()); } // extracttests.enable void recursive_long_time() { // Just test that recursive check doesn't take long time check("char *f2 ( char *b )\n" "{\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" " f2( b );\n" "}\n" "void f()\n" "{\n" " char a[10];\n" " f2(a);\n" "}"); ASSERT_EQUALS("", errout.str()); } // Ticket #1587 - crash void crash1() { check("struct struct A\n" "{\n" " int alloclen;\n" "};\n" "\n" "void foo()\n" "{\n" " struct A *str;\n" " str = malloc(4);\n" "}"); ASSERT_EQUALS("", errout.str()); } void crash2() { check("void a(char *p) {\n" " f( { if(finally_arg); } );\n" "}\n" "\n" "void b() {\n" " char arr[64];\n" " a(arr);\n" "}"); } void crash3() { check("struct b { unknown v[0]; };\n" "void d() { struct b *f; f = malloc(108); }"); } void crash4() { // #8679 check("__thread void *thread_local_var; " "int main() { " " thread_local_var = malloc(1337); " " return 0; " "}"); check("thread_local void *thread_local_var; " "int main() { " " thread_local_var = malloc(1337); " " return 0; " "}"); } void crash5() { // 8644 - token has varId() but variable() is null check("int a() {\n" " void b(char **dst) {\n" " *dst = malloc(50);\n" " }\n" "}"); } void crash6() { check("void start(char* name) {\n" "char snapname[64] = { 0 };\n" "strncpy(snapname, \"snapshot\", arrayLength(snapname));\n" "}"); } void crash7() { // 9073 - [ has no astParent check("char x[10];\n" "void f() { x[10]; }"); } void insecureCmdLineArgs() { check("int main(int argc, char *argv[])\n" "{\n" " if(argc>1)\n" " {\n" " char buf[2];\n" " char *p = strdup(argv[1]);\n" " strcpy(buf,p);\n" " free(p);\n" " }\n" " return 0;\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:7]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, char *argv[])\n" "{\n" " if(argc>1)\n" " {\n" " char buf[2] = {'\\0','\\0'};\n" " char *p = strdup(argv[1]);\n" " strcat(buf,p);\n" " free(p);\n" " }\n" " return 0;\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:7]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(const int argc, char* argv[])\n" "{\n" " char prog[10];\n" " strcpy(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, const char* argv[])\n" "{\n" " char prog[10];\n" " strcpy(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(const int argc, const char* argv[])\n" "{\n" " char prog[10];\n" " strcpy(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, char* argv[])\n" "{\n" " char prog[10] = {'\\0'};\n" " strcat(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, char **argv, char **envp)\n" "{\n" " char prog[10];\n" " strcpy(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, const char *const *const argv, char **envp)\n" "{\n" " char prog[10];\n" " strcpy(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(const int argc, const char *const *const argv, const char *const *const envp)\n" "{\n" " char prog[10];\n" " strcpy(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, char **argv, char **envp)\n" "{\n" " char prog[10] = {'\\0'};\n" " strcat(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(const int argc, const char **argv, char **envp)\n" "{\n" " char prog[10] = {'\\0'};\n" " strcat(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, const char **argv, char **envp)\n" "{\n" " char prog[10] = {'\\0'};\n" " strcat(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(const int argc, char **argv, char **envp)\n" "{\n" " char prog[10] = {'\\0'};\n" " strcat(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, char **options)\n" "{\n" " char prog[10];\n" " strcpy(prog, options[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, char **options)\n" "{\n" " char prog[10] = {'\\0'};\n" " strcat(prog, options[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, char **options)\n" "{\n" " char prog[10];\n" " strcpy(prog, *options);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, char **options)\n" "{\n" " char prog[10];\n" " strcpy(prog+3, *options);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); check("int main(int argc, char **argv, char **envp)\n" "{\n" " char prog[10];\n" " if (strlen(argv[0]) < 10)\n" " strcpy(prog, argv[0]);\n" "}"); ASSERT_EQUALS("", errout.str()); check("int main(int argc, char **argv, char **envp)\n" "{\n" " char prog[10] = {'\\0'};\n" " if (10 > strlen(argv[0]))\n" " strcat(prog, argv[0]);\n" "}"); ASSERT_EQUALS("", errout.str()); check("int main(int argc, char **argv, char **envp)\n" "{\n" " char prog[10];\n" " argv[0][0] = '\\0';\n" " strcpy(prog, argv[0]);\n" "}"); ASSERT_EQUALS("", errout.str()); // #5835 check("int main(int argc, char* argv[]) {\n" " char prog[10];\n" " strcpy(prog, argv[0]);\n" " strcpy(prog, argv[0]);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (error) Buffer overrun possible for long command line arguments.\n" "[test.cpp:4]: (error) Buffer overrun possible for long command line arguments.\n", "", errout.str()); // #7964 check("int main(int argc, char *argv[]) {\n" " char *strcpy();\n" "}"); ASSERT_EQUALS("", errout.str()); check("int main(int argc, char *argv[]) {\n" " char *strcat();\n" "}"); ASSERT_EQUALS("", errout.str()); } void checkBufferAllocatedWithStrlen() { check("void f(char *a) {\n" " char *b = new char[strlen(a)];\n" " strcpy(b, a);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds.\n", "", errout.str()); check("void f(char *a) {\n" " char *b = new char[strlen(a) + 1];\n" " strcpy(b, a);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f(char *a) {\n" " char *b = new char[strlen(a)];\n" " a[0] = '\\0';\n" " strcpy(b, a);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f(char *a) {\n" " char *b = (char *)malloc(strlen(a));\n" " b = realloc(b, 10000);\n" " strcpy(b, a);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f(char *a) {\n" " char *b = (char *)malloc(strlen(a));\n" " strcpy(b, a);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds.\n", "", errout.str()); check("void f(char *a) {\n" " char *b = (char *)malloc(strlen(a));\n" " {\n" " strcpy(b, a);\n" " }\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Buffer is accessed out of bounds.\n", "", errout.str()); check("void f(char *a) {\n" " char *b = (char *)malloc(strlen(a) + 1);\n" " strcpy(b, a);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f(char *a, char *c) {\n" " char *b = (char *)realloc(c, strlen(a));\n" " strcpy(b, a);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds.\n", "", errout.str()); check("void f(char *a, char *c) {\n" " char *b = (char *)realloc(c, strlen(a) + 1);\n" " strcpy(b, a);\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f(char *a) {\n" " char *b = (char *)malloc(strlen(a));\n" " strcpy(b, a);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds.\n", "", errout.str()); } void scope() { check("class A {\n" "private:\n" " struct X { char buf[10]; };\n" "};\n" "\n" "void f()\n" "{\n" " X x;\n" " x.buf[10] = 0;\n" "}"); ASSERT_EQUALS("", errout.str()); check("class A {\n" "public:\n" " struct X { char buf[10]; };\n" "};\n" "\n" "void f()\n" "{\n" " A::X x;\n" " x.buf[10] = 0;\n" "}"); ASSERT_EQUALS("[test.cpp:9]: (error) Array 'x.buf[10]' accessed at index 10, which is out of bounds.\n", errout.str()); } void getErrorMessages() { // Ticket #2292: segmentation fault when using --errorlist getCheck().getErrorMessages(this, nullptr); } void arrayIndexThenCheck() { // extracttests.start: volatile int y; check("void f(const char s[]) {\n" " if (s[i] == 'x' && i < y) {\n" " }" "}"); ASSERT_EQUALS("", errout.str()); // No message because i is unknown and thus gets no varid. Avoid an internalError here. check("void f(const char s[], int i) {\n" " if (s[i] == 'x' && i < y) {\n" " }" "}"); ASSERT_EQUALS("[test.cpp:2]: (style) Array index 'i' is used before limits check.\n", errout.str()); check("void f(const char s[]) {\n" " for (int i = 0; s[i] == 'x' && i < y; ++i) {\n" " }" "}"); ASSERT_EQUALS("[test.cpp:2]: (style) Array index 'i' is used before limits check.\n", errout.str()); check("void f(const int a[], unsigned i) {\n" " if((a[i] < 2) && (i <= 42)) {\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:2]: (style) Array index 'i' is used before limits check.\n", errout.str()); check("void f(const int a[], unsigned i) {\n" " if((a[i] < 2) && (42 >= i)) {\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:2]: (style) Array index 'i' is used before limits check.\n", errout.str()); // extracttests.start: int elen; check("void f(char* e, int y) {\n" " if (e[y] == '/' && elen > y + 1 && e[y + 1] == '?') {\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); // extracttests.start: int foo(int); int func(int); check("void f(const int a[], unsigned i) {\n" " if(a[i] < func(i) && i <= 42) {\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:2]: (style) Array index 'i' is used before limits check.\n", errout.str()); check("void f(const int a[], unsigned i) {\n" " if (i <= 42 && a[i] < func(i)) {\n" " }\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f(const int a[], unsigned i) {\n" " if (foo(a[i] + 3) < func(i) && i <= 42) {\n" " }\n" "}"); ASSERT_EQUALS("[test.cpp:2]: (style) Array index 'i' is used before limits check.\n", errout.str()); check("void f(int i) {\n" // sizeof " sizeof(a)/sizeof(a[i]) && i < 10;\n" "}"); ASSERT_EQUALS("", errout.str()); // extracttests.start: extern int buf[]; check("void f(int i) {\n" // ?: " if ((i < 10 ? buf[i] : 1) && (i < 5 ? buf[i] : 5)){}\n" "}"); ASSERT_EQUALS("", errout.str()); } void arrayIndexEarlyReturn() { // #6884 check("extern const char *Names[2];\n" "const char* getName(int value) {\n" " if ((value < 0) || (value > 1))\n" " return \"???\";\n" " const char* name = Names[value]; \n" " switch (value) {\n" " case 2:\n" " break; \n" " }\n" " return name;\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void bufferNotZeroTerminated() { check("void f() {\n" " char c[6];\n" " strncpy(c,\"hello!\",6);\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (warning, inconclusive) The buffer 'c' may not be null-terminated after the call to strncpy().\n", errout.str()); check("void f() {\n" " char c[6];\n" " memcpy(c,\"hello!\",6);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (warning, inconclusive) The buffer 'c' may not be null-terminated after the call to memcpy().\n", "", errout.str()); check("void f() {\n" " char c[6];\n" " memmove(c,\"hello!\",6);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:3]: (warning, inconclusive) The buffer 'c' may not be null-terminated after the call to memmove().\n", "", errout.str()); } void negativeMemoryAllocationSizeError() { // #389 check("void f()\n" "{\n" " int *a;\n" " a = new int[-1];\n" " delete [] a;\n" "}"); ASSERT_EQUALS("[test.cpp:4]: (error) Memory allocation size is negative.\n", errout.str()); check("void f()\n" "{\n" " int *a;\n" " a = (int *)malloc( -10 );\n" " free(a);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Memory allocation size is negative.\n", "", errout.str()); check("void f()\n" "{\n" " int *a;\n" " a = (int *)malloc( -10);\n" " free(a);\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Memory allocation size is negative.\n", "", errout.str()); check("void f()\n" "{\n" " int *a;\n" " a = (int *)alloca( -10 );\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:4]: (error) Memory allocation size is negative.\n", "", errout.str()); check("int* f(int n) {\n" // #11145 " int d = -1;\n" " for (int i = 0; i < n; ++i)\n" " d = std::max(i, d);\n" " int* p = new int[d];\n" " return p;\n" "}\n"); ASSERT_EQUALS("[test.cpp:2] -> [test.cpp:3] -> [test.cpp:5]: (warning, inconclusive) Memory allocation size is negative.\n", errout.str()); } void negativeArraySize() { check("void f(int sz) {\n" // #1760 - VLA " int a[sz];\n" "}\n" "void x() { f(-100); }"); ASSERT_EQUALS("[test.cpp:2]: (error) Declaration of array 'a' with negative size is undefined behaviour\n", errout.str()); // don't warn for constant sizes -> this is a compiler error so this is used for static assertions for instance check("int x, y;\n" "int a[-1];\n" "int b[x?1:-1];\n" "int c[x?y:-1];"); ASSERT_EQUALS("", errout.str()); } void pointerAddition1() { check("void f() {\n" " char arr[10];\n" " char *p = arr + 20;\n" "}"); ASSERT_EQUALS("[test.cpp:3]: (portability) Undefined behaviour, pointer arithmetic 'arr+20' is out of bounds.\n", errout.str()); check("char(*g())[1];\n" // #7950 "void f() {\n" " int a[2];\n" " int* b = a + sizeof(*g());\n" "}\n"); ASSERT_EQUALS("", errout.str()); } #define ctu(code) ctu_(code, __FILE__, __LINE__) void ctu_(const char code[], const char* file, int line) { // Clear the error buffer.. errout.str(""); // Tokenize.. Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); ASSERT_LOC(tokenizer.tokenize(istr, "test.cpp"), file, line); CTU::FileInfo *ctu = CTU::getFileInfo(&tokenizer); // Check code.. std::list fileInfo; CheckBufferOverrun checkBO(&tokenizer, &settings0, this); fileInfo.push_back(checkBO.getFileInfo(&tokenizer, &settings0)); checkBO.analyseWholeProgram(ctu, fileInfo, settings0, *this); while (!fileInfo.empty()) { delete fileInfo.back(); fileInfo.pop_back(); } delete ctu; } void ctu_malloc() { ctu("void dostuff(char *p) {\n" " p[-3] = 0;\n" "}\n" "\n" "int main() {\n" " char *s = malloc(4);\n" " dostuff(s);\n" "}"); ASSERT_EQUALS("[test.cpp:6] -> [test.cpp:7] -> [test.cpp:2]: (error) Array index out of bounds; buffer 'p' is accessed at offset -3.\n", errout.str()); ctu("void dostuff(char *p) {\n" " p[4] = 0;\n" "}\n" "\n" "int main() {\n" " char *s = malloc(4);\n" " dostuff(s);\n" "}"); ASSERT_EQUALS("[test.cpp:6] -> [test.cpp:7] -> [test.cpp:2]: (error) Array index out of bounds; 'p' buffer size is 4 and it is accessed at offset 4.\n", errout.str()); ctu("void f(int* p) {\n" // #10415 " int b[1];\n" " b[0] = p[5];\n" " std::cout << b[0];\n" "}\n" "void g() {\n" " int* a = new int[1];\n" " a[0] = 5;\n" " f(a);\n" "}\n"); ASSERT_EQUALS("[test.cpp:7] -> [test.cpp:9] -> [test.cpp:3]: (error) Array index out of bounds; 'p' buffer size is 4 and it is accessed at offset 20.\n", errout.str()); } void ctu_array() { ctu("void dostuff(char *p) {\n" " p[10] = 0;\n" "}\n" "int main() {\n" " char str[4];\n" " dostuff(str);\n" "}"); ASSERT_EQUALS("[test.cpp:6] -> [test.cpp:2]: (error) Array index out of bounds; 'p' buffer size is 4 and it is accessed at offset 10.\n", errout.str()); ctu("static void memclr( char *data )\n" "{\n" " data[10] = 0;\n" "}\n" "\n" "static void f()\n" "{\n" " char str[5];\n" " memclr( str );\n" "}"); ASSERT_EQUALS("[test.cpp:9] -> [test.cpp:3]: (error) Array index out of bounds; 'data' buffer size is 5 and it is accessed at offset 10.\n", errout.str()); ctu("static void memclr( int i, char *data )\n" "{\n" " data[10] = 0;\n" "}\n" "\n" "static void f()\n" "{\n" " char str[5];\n" " memclr( 0, str );\n" "}"); ASSERT_EQUALS("[test.cpp:9] -> [test.cpp:3]: (error) Array index out of bounds; 'data' buffer size is 5 and it is accessed at offset 10.\n", errout.str()); ctu("static void memclr( int i, char *data )\n" "{\n" " data[i] = 0;\n" "}\n" "\n" "static void f()\n" "{\n" " char str[5];\n" " memclr( 10, str );\n" "}"); TODO_ASSERT_EQUALS("[test.cpp:9] -> [test.cpp:3]: (possible error) Array index out of bounds.\n", "", errout.str()); // This is not an error ctu("static void memclr( char *data, int size )\n" "{\n" " if( size > 10 )" " data[10] = 0;\n" "}\n" "\n" "static void f()\n" "{\n" " char str[5];\n" " memclr( str, 5 );\n" "}"); ASSERT_EQUALS("", errout.str()); // #2097 ctu("void foo(int *p)\n" "{\n" " --p;\n" " p[2] = 0;\n" "}\n" "\n" "void bar()\n" "{\n" " int p[3];\n" " foo(p+1);\n" "}"); ASSERT_EQUALS("", errout.str()); // #9112 ctu("static void get_mac_address(const u8 *strbuf)\n" "{\n" " (strbuf[2]);\n" "}\n" "\n" "static void program_mac_address(u32 mem_base)\n" "{\n" " u8 macstrbuf[17] = { 0 };\n" " get_mac_address(macstrbuf);\n" "}"); ASSERT_EQUALS("", errout.str()); // #9788 ctu("void f1(char *s) { s[2] = 'B'; }\n" "void f2(char s[]) { s[2] = 'B'; }\n" "void g() {\n" " char str[2];\n" " f1(str);\n" " f2(str);\n" "}\n"); ASSERT_EQUALS("[test.cpp:5] -> [test.cpp:1]: (error) Array index out of bounds; 's' buffer size is 2 and it is accessed at offset 2.\n" "[test.cpp:6] -> [test.cpp:2]: (error) Array index out of bounds; 's' buffer size is 2 and it is accessed at offset 2.\n", errout.str()); // #5140 ctu("void g(const char* argv[]) { std::cout << \"argv: \" << argv[4] << std::endl; }\n" "void f() {\n" " const char* argv[] = { \"test\" };\n" " g(argv);\n" "}\n"); ASSERT_EQUALS("[test.cpp:4] -> [test.cpp:1]: (error) Array index out of bounds; 'argv' buffer size is 1 and it is accessed at offset 4.\n", errout.str()); ctu("void g(const char* argv[]) { std::cout << \"argv: \" << argv[5] << std::endl; }\n" "void f() {\n" " const char* argv[1] = { \"test\" };\n" " g(argv);\n" "}\n"); ASSERT_EQUALS("[test.cpp:4] -> [test.cpp:1]: (error) Array index out of bounds; 'argv' buffer size is 1 and it is accessed at offset 5.\n", errout.str()); ctu("void g(int *b) { b[0] = 0; }\n" "void f() {\n" " GLint a[1];\n" " g(a);\n" "}\n"); ASSERT_EQUALS("", errout.str()); ctu("const int a[1] = { 1 };\n" // #11042 "void g(const int* d) {\n" " (void)d[2];\n" "}\n" "void f() {\n" " g(a);\n" "}\n"); ASSERT_EQUALS("[test.cpp:6] -> [test.cpp:3]: (error) Array index out of bounds; 'd' buffer size is 4 and it is accessed at offset 8.\n", errout.str()); } void ctu_variable() { ctu("void dostuff(int *p) {\n" " p[10] = 0;\n" "}\n" "int main() {\n" " int x = 4;\n" " dostuff(&x);\n" "}"); ASSERT_EQUALS("[test.cpp:6] -> [test.cpp:2]: (error) Array index out of bounds; 'p' buffer size is 4 and it is accessed at offset 40.\n", errout.str()); } void ctu_arithmetic() { ctu("void dostuff(int *p) { x = p + 10; }\n" "int main() {\n" " int x[3];\n" " dostuff(x);\n" "}"); ASSERT_EQUALS("[test.cpp:4] -> [test.cpp:1]: (error) Pointer arithmetic overflow; 'p' buffer size is 12\n", errout.str()); ctu("void f(const char *p) {\n" // #11361 " const char* c = p + 1;\n" "}\n" "void g() {\n" " const char s[N] = \"ab\";\n" " f(s);\n" "}\n"); ASSERT_EQUALS("", errout.str()); } void objectIndex() { check("int f() {\n" " int i;\n" " return (&i)[1];\n" "}"); ASSERT_EQUALS( "[test.cpp:3] -> [test.cpp:3]: (error) The address of local variable 'i' is accessed at non-zero index.\n", errout.str()); check("int f(int j) {\n" " int i;\n" " return (&i)[j];\n" "}"); ASSERT_EQUALS( "[test.cpp:3] -> [test.cpp:3]: (warning) The address of local variable 'i' might be accessed at non-zero index.\n", errout.str()); check("int f() {\n" " int i;\n" " return (&i)[0];\n" "}"); ASSERT_EQUALS("", errout.str()); check("int f(int * i) {\n" " return i[1];\n" "}"); ASSERT_EQUALS("", errout.str()); check("int f(std::vector i) {\n" " return i[1];\n" "}"); ASSERT_EQUALS("", errout.str()); check("int f(std::vector i) {\n" " return i.data()[1];\n" "}"); ASSERT_EQUALS("", errout.str()); check("int* f(std::vector& i) {\n" " return &(i[1]);\n" "}"); ASSERT_EQUALS("", errout.str()); check("struct A { int i; int j; };\n" "int f() {\n" " A x;\n" " return (&x.i)[0];\n" "}"); ASSERT_EQUALS("", errout.str()); check("struct A { int i; int j; };\n" "int f() {\n" " A x;\n" " int * i = &x.i;\n" " return i[0];\n" "}"); ASSERT_EQUALS("", errout.str()); check("void f() {\n" " int x = 0;\n" " std::map m;\n" " m[0] = &x;\n" " m[1] = &x;\n" "}"); ASSERT_EQUALS("", errout.str()); check("int f() {\n" " int x = 0;\n" " std::map m;\n" " m[0] = &x;\n" " return m[0][1];\n" "}"); ASSERT_EQUALS( "[test.cpp:4] -> [test.cpp:5]: (error) The address of local variable 'x' is accessed at non-zero index.\n", errout.str()); check("int f(int * y) {\n" " int x = 0;\n" " std::map m;\n" " m[0] = &x;\n" " m[1] = y;\n" " return m[1][1];\n" "}"); ASSERT_EQUALS("", errout.str()); check("void print(char** test);\n" "int main(){\n" " char* test = \"abcdef\";\n" " print(&test);\n" " return 0;\n" "}\n" "void print(char** test){\n" " for(int i=0;i [test.cpp:4] -> [test.cpp:9]: (warning) The address of local variable 'test' might be accessed at non-zero index.\n", "", errout.str()); check("void Bar(uint8_t data);\n" "void Foo(const uint8_t * const data, const uint8_t length) {\n" " for(uint8_t index = 0U; index < length ; ++index)\n" " Bar(data[index]);\n" "}\n" "void test() {\n" " const uint8_t data = 0U;\n" " Foo(&data,1U);\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("int foo(int n, int* p) {\n" " int res = 0;\n" " for(int i = 0; i < n; i++ )\n" " res += p[i];\n" " return res;\n" "}\n" "int bar() {\n" " int single_value = 0;\n" " return foo(1, &single_value);\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("void f(const char* app, size_t applen) {\n" // #10137 " char* tmp_de = NULL;\n" " char** str = &tmp_de;\n" " char* tmp = (char*)realloc(*str, applen + 1);\n" " if (tmp) {\n" " *str = tmp;\n" " memcpy(*str, app, applen);\n" " (*str)[applen] = '\\0';\n" " }\n" " free(*str);\n" "}\n", "test.c"); ASSERT_EQUALS("", errout.str()); check("template \n" "using vector = Eigen::Matrix;\n" "template \n" "void scharr(image2d>& out) {\n" " vector* out_row = &out(r, 0);\n" " out_row[c] = vector(1,2);\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("void f(const uint8_t* d, const uint8_t L) {\n" // #10092 " for (uint8_t i = 0U; i < L; ++i)\n" " g(d[i]);\n" "}\n" "void h() {\n" " const uint8_t u = 4;\n" " f(&u, N);\n" "}"); ASSERT_EQUALS("", errout.str()); check("uint32_t f(uint32_t u) {\n" // #10154 " return ((uint8_t*)&u)[3];\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("uint32_t f(uint32_t u) {\n" " return ((uint8_t*)&u)[4];\n" "}\n"); ASSERT_EQUALS("[test.cpp:2] -> [test.cpp:2]: (error) The address of local variable 'u' is accessed at non-zero index.\n", errout.str()); check("uint32_t f(uint32_t u) {\n" " return reinterpret_cast(&u)[3];\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("uint32_t f(uint32_t u) {\n" " return reinterpret_cast(&u)[4];\n" "}\n"); ASSERT_EQUALS("[test.cpp:2] -> [test.cpp:2]: (error) The address of local variable 'u' is accessed at non-zero index.\n", errout.str()); check("uint32_t f(uint32_t u) {\n" " uint8_t* p = (uint8_t*)&u;\n" " return p[3];\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("uint32_t f(uint32_t u) {\n" " uint8_t* p = (uint8_t*)&u;\n" " return p[4];\n" "}\n"); ASSERT_EQUALS("[test.cpp:2] -> [test.cpp:3]: (error) The address of local variable 'u' is accessed at non-zero index.\n", errout.str()); check("uint32_t f(uint32_t* pu) {\n" " uint8_t* p = (uint8_t*)pu;\n" " return p[4];\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("struct S { uint8_t padding[500]; };\n" // #10133 "S s = { 0 };\n" "uint8_t f() {\n" " uint8_t* p = (uint8_t*)&s;\n" " return p[10];\n" "}\n"); ASSERT_EQUALS("", errout.str()); check("struct X {\n" // #2654 " int a;\n" " char b;\n" "};\n" "void f() {\n" " X s;\n" " int* y = &s.a;\n" " (void)y[0];\n" " (void)y[1];\n" " (void)y[2];\n" "}\n"); ASSERT_EQUALS("[test.cpp:7] -> [test.cpp:9]: (error) The address of local variable 'a' is accessed at non-zero index.\n" "[test.cpp:7] -> [test.cpp:10]: (error) The address of local variable 'a' is accessed at non-zero index.\n", errout.str()); } void checkPipeParameterSize() { // #3521 Settings settings; LOAD_LIB_2(settings.library, "posix.cfg"); settings.libraries.emplace_back("posix"); check("void f(){\n" "int pipefd[1];\n" // <-- array of two integers is needed "if (pipe(pipefd) == -1) {\n" " return;\n" " }\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: pipefd\n", errout.str()); check("void f(){\n" "int pipefd[2];\n" "if (pipe(pipefd) == -1) {\n" " return;\n" " }\n" "}", settings); ASSERT_EQUALS("", errout.str()); check("void f(){\n" "char pipefd[2];\n" "if (pipe((int*)pipefd) == -1) {\n" " return;\n" " }\n" "}", settings); ASSERT_EQUALS("[test.cpp:3]: (error) Buffer is accessed out of bounds: (int*)pipefd\n", errout.str()); check("void f(){\n" "char pipefd[20];\n" // Strange, but large enough "if (pipe((int*)pipefd) == -1) {\n" " return;\n" " }\n" "}", settings); ASSERT_EQUALS("", errout.str()); } }; REGISTER_TEST(TestBufferOverrun)