#include <stdio.h> #include <stdlib.h> #include "leak.h" #include "../memcheck.h" /* We build this tree: A / \ B C / \ / \ D E F G Then we leak D and C-F-G. */ typedef struct _Node { struct _Node *l; struct _Node *r; // Padding ensures the structu is the same size on 32-bit and 64-bit // machines. char padding[16 - 2*sizeof(struct _Node*)]; } Node; Node* mk(void) { Node *x = malloc(sizeof(Node)); x->l = NULL; x->r = NULL; return x; } // This is a definite root. Node* t; void f(void) { // Building like this rather than "t = mk(mk(mk(NULL, NULL), ...)" seems to // help avoid leaving pointers on the stack to supposedly-leaked blocks. t = mk(); // A t->l = mk(); // B t->r = mk(); // C (48(16d,32i)/1 definitely leaked from here) t->l->l = mk(); // D (16/1 definitely leaked from here) t->l->r = mk(); // E t->r->l = mk(); // F t->r->r = mk(); // G // Sever B->D, leaking D t->l->l = NULL; // Sever A->C, leaking C-F-G t->r = NULL; } int main(void) { DECLARE_LEAK_COUNTERS; GET_INITIAL_LEAK_COUNTS; // See leak-cases.c for why we do the work in f(). f(); CLEAR_CALLER_SAVED_REGS; GET_FINAL_LEAK_COUNTS; PRINT_LEAK_COUNTS(stderr); return 0; }