/* * Copyright (c) 2017-present, Facebook, Inc. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ int zero_or_ten(int ten) { if (ten) { return 10; } else { return 0; } } int zero_to_infty() { int r = 0; for (int i = 0; i < zero_or_ten(0); i++) { r++; } return r; } void l1_concrete_overrun_Bad() { int a[10]; a[10] = 0; } void l1_concrete_underrun_Bad() { int a[10]; a[-1] = 0; } void l1_symbolic_overrun_Bad(int i) { int a[10]; if (i >= 10) { a[i] = 0; } } void l1_symbolic_underrun_Bad(int i) { int a[10]; if (i < 0) { a[i] = 0; } } void l2_concrete_overrun_Bad() { int a[10]; a[zero_or_ten(1)] = 0; } void l2_concrete_underrun_Bad() { int a[9]; a[zero_or_ten(0) - 1] = 0; } void l2_concrete_no_overrun_Good_FP() { int a[10]; a[zero_or_ten(0)] = 0; } void l2_concrete_no_underrun_Good_FP() { int a[9]; a[zero_or_ten(1) - 1] = 0; } void l2_symbolic_overrun_Bad(int n) { int a[n]; a[n] = 0; } void l2_symbolic_no_overrun_Good(int n) { int a[n]; if (n > 0) { a[n - 1] = 0; } } void l3_concrete_overrun_Bad() { int a[zero_or_ten(0) + 5]; a[zero_or_ten(1)] = 0; } void l3_concrete_underrun_Bad() { int a[10]; a[zero_or_ten(0) - 1] = 0; } void l3_concrete_no_overrun_Good_FP() { int a[zero_or_ten(1) + 5]; a[zero_or_ten(1)] = 0; } void l3_concrete_no_underrun_Good_FP() { int a[10]; a[zero_or_ten(1) - 1] = 0; } int less_than(int i, int n) { return i < n; } void l4_widened_overrun_Bad() { int a[10]; for (int i = 0; less_than(i, 11); i++) { a[i] = 0; } } void l4_widened_no_overrun_Good_FP() { int a[10]; for (int i = 0; less_than(i, 10); i++) { a[i] = 0; } } int unknown_function(); void l5_external_Warn_Bad() { int a[10]; a[unknown_function()] = 0; } void s2_symbolic_widened_Bad(int n) { int a[n]; for (int i = n; less_than(i, 2 * n); i++) { a[i] = 0; } } void s2_symbolic_widened_Good_FP(int n) { int a[n]; for (int i = n; less_than(i, n); i++) { a[i] = 0; } } // Do not report as it was already reported in the callee with the same issue // type void call_s2_symbolic_widened_Silenced(int m) { s2_symbolic_widened_Bad(m); } void l1_call_to_s2_symbolic_widened_Bad() { s2_symbolic_widened_Bad(1); } void may_underrun_symbolic_Nowarn_Good(int n) { int a[n]; a[n - 1] = 0; } void may_over_or_underrun_symbolic_Nowarn_Good(int n) { int a[10]; a[n] = 0; } void may_over_or_underrun_symbolic2_Nowarn_Good(int n) { int a[n]; a[1] = 0; } void alloc_is_negative_Bad() { malloc(-2); } void alloc_may_be_negative_Bad() { malloc(zero_or_ten(0) - 5); } void alloc_may_be_negative_Good_FP() { malloc(zero_or_ten(1) - 5); } void alloc_is_zero_Bad() { malloc(0 * sizeof(int)); } void alloc_is_big_Bad() { malloc(2 * 1000 * 1000 * 1000); } void alloc_may_be_big_Bad() { malloc(zero_or_ten(1) * 100 * 1000 * 1000 + 1); } // Non-symbolic, should not be propagated void call_to_alloc_may_be_big_Good() { alloc_may_be_big_Bad(); } void alloc_may_be_big_Good_FP() { malloc(zero_or_ten(1) * 100 * 1000 * 1000 + 1); } /* When the upper bound is infinity and the lower bound unknown, we don't report but still propagate the error. */ void alloc_may_be_big2_Silenced(int n) { malloc(n + zero_to_infty()); } // Now that we have a lower bound, we can report it void call_to_alloc_may_be_big2_is_big_Bad() { alloc_may_be_big2_Silenced(100 * 1000 * 1000); } void l1_unknown_function_Bad() { int a[5]; int idx = unknown_function() * 10; if (10 <= idx) { if (idx <= 10) { a[idx] = 0; } } } /* We do not report the underrun here, in case the loop never runs (length <= 0). But we should report it anyway. */ void loop_underrun_Bad_FN(int length) { int i; char a[length]; for (i = length - 1; i >= 0; i--) { a[i - 1] = 'U'; } } void l2_loop_overflow_Bad(int length) { int i; char a[length]; for (i = length - 1; i >= 0; i--) { a[i + 1] = 'O'; } } void l2_loop_overflow2_Bad(int length) { int i; char a[length]; for (i = length - 1; i >= 0; i--) { a[length - i] = 'O'; } } /* Inferbo raises U5 alarm because - the pair of offset:[10,10] and size:[5,+oo] is belong to L3 - the offset value is from an unknown function - there is at least one infinity bound (in size). However, it should ideally raise L3, because the infinity is not from the unknown function. */ void False_Issue_Type_l3_unknown_function_Bad() { int* a = (int*)malloc((zero_to_infty() + 5) * sizeof(int)); int idx = unknown_function() * 10; if (10 <= idx) { if (idx <= 10) { a[idx] = 0; } } } int mone_to_one() { int x = unknown_function(); if (x >= -1 && x <= 1) { return x; } else { return 0; } } void two_safety_conditions(int n) { char a[10]; int y = mone_to_one(); if (unknown_function()) { a[n] = 0; // should be L1 when n=10 } else { a[n + y] = 0; // should be L2 when n=10 } } void call_two_safety_conditions_l1_and_l2_Bad() { two_safety_conditions(10); } /* issue1 and issue2 are deduplicated since the offset of issue2 ([10,+oo]) subsumes that of issue1 ([10,10]). */ void deduplicate_issues_Bad() { int a[10]; int x = 10; a[x] = 0; // issue1: [10,10] < [10,10] x = unknown_function(); if (x >= 10) { a[x] = 0; // issue2: [10,+oo] < [10,10] } }