model-checker : fix number and address of blocks in heap comparison algorithm

[simgrid.git] / src / xbt / mmalloc / mm_diff.c

/* mm_diff - Memory snapshooting and comparison                             */

/* Copyright (c) 2008-2012. The SimGrid Team. All rights reserved.          */

/* This program is free software; you can redistribute it and/or modify it
 * under the terms of the license (GNU LGPL) which comes with this package. */

#include "xbt/ex_interface.h" /* internals of backtrace setup */
#include "xbt/str.h"

XBT_LOG_NEW_DEFAULT_SUBCATEGORY(mm_diff, xbt,
                                "Logging specific to mm_diff in mmalloc");

extern char *xbt_binary_name;

void mmalloc_backtrace_display(xbt_mheap_t mdp, void *ptr){
  size_t block = BLOCK(ptr);
  int type;
  xbt_ex_t e;

  if ((char *) ptr < (char *) mdp->heapbase || block > mdp->heapsize) {
    fprintf(stderr,"Ouch, this pointer is not mine. I cannot display its backtrace. I refuse it to death!!\n");
    abort();
  }

  type = mdp->heapinfo[block].type;

  if (type != 0) {
    //fprintf(stderr,"Only full blocks are backtraced for now. Ignoring your request.\n");
    return;
  }
  if (mdp->heapinfo[block].busy_block.bt_size == 0) {
    fprintf(stderr,"No backtrace available for that block, sorry.\n");
    return;
  }

  memcpy(&e.bt,&(mdp->heapinfo[block].busy_block.bt),sizeof(void*)*XBT_BACKTRACE_SIZE);
  e.used = mdp->heapinfo[block].busy_block.bt_size;

  xbt_ex_setup_backtrace(&e);
  if (e.used == 0) {
    fprintf(stderr, "(backtrace not set)\n");
  } else if (e.bt_strings == NULL) {
    fprintf(stderr, "(backtrace not ready to be computed. %s)\n",xbt_binary_name?"Dunno why":"xbt_binary_name not setup yet");
  } else {
    int i;

    fprintf(stderr, "Backtrace of where the block %p was malloced (%d frames):\n",ptr,e.used);
    for (i = 0; i < e.used; i++)       /* no need to display "xbt_backtrace_display" */{
      fprintf(stderr,"%d",i);fflush(NULL);
      fprintf(stderr, "---> %s\n", e.bt_strings[i] + 4);
    }
  }
}


void mmalloc_backtrace_block_display(xbt_mheap_t mdp, size_t block){

  int type;
  xbt_ex_t e;

  type = mdp->heapinfo[block].type;

  if (type != 0) {
    fprintf(stderr,"Only full blocks are backtraced for now. Ignoring your request.\n");
    return;
  }
  if (mdp->heapinfo[block].busy_block.bt_size == 0) {
    fprintf(stderr,"No backtrace available for that block, sorry.\n");
    return;
  }

  memcpy(&e.bt,&(mdp->heapinfo[block].busy_block.bt),sizeof(void*)*XBT_BACKTRACE_SIZE);
  e.used = mdp->heapinfo[block].busy_block.bt_size;

  xbt_ex_setup_backtrace(&e);
  if (e.used == 0) {
    fprintf(stderr, "(backtrace not set)\n");
  } else if (e.bt_strings == NULL) {
    fprintf(stderr, "(backtrace not ready to be computed. %s)\n",xbt_binary_name?"Dunno why":"xbt_binary_name not setup yet");
  } else {
    int i;

    fprintf(stderr, "Backtrace of where the block %zu was malloced (%d frames):\n", block ,e.used);
    for (i = 0; i < e.used; i++)       /* no need to display "xbt_backtrace_display" */{
      fprintf(stderr,"%d",i);fflush(NULL);
      fprintf(stderr, "---> %s\n", e.bt_strings[i] + 4);
    }
  }
}

void mmalloc_backtrace_fragment_display(xbt_mheap_t mdp, size_t block, size_t frag){
  
  xbt_ex_t e;

  memcpy(&e.bt,&(mdp->heapinfo[block].busy_frag.bt[frag]),sizeof(void*)*XBT_BACKTRACE_SIZE);
  e.used = XBT_BACKTRACE_SIZE;

  xbt_ex_setup_backtrace(&e);
  if (e.used == 0) {
    fprintf(stderr, "(backtrace not set)\n");
  } else if (e.bt_strings == NULL) {
    fprintf(stderr, "(backtrace not ready to be computed. %s)\n",xbt_binary_name?"Dunno why":"xbt_binary_name not setup yet");
  } else {
    int i;

    fprintf(stderr, "Backtrace of where the fragment %zu in block %zu was malloced (%d frames):\n", frag, block ,e.used);
    for (i = 0; i < e.used; i++)       /* no need to display "xbt_backtrace_display" */{
      fprintf(stderr,"%d",i);fflush(NULL);
      fprintf(stderr, "---> %s\n", e.bt_strings[i] + 4);
    }
  }
}

int mmalloc_compare_heap(xbt_mheap_t mdp1, xbt_mheap_t mdp2, void* s_heap, void* r_heap){

  if(mdp1 == NULL && mdp2 == NULL){
    fprintf(stderr, "Malloc descriptors null\n");
    return 0;
  }

  int errors = mmalloc_compare_mdesc(mdp1, mdp2, s_heap, r_heap);

  return (errors > 0);

}

int mmalloc_compare_mdesc(struct mdesc *mdp1, struct mdesc *mdp2, void* s_heap, void* r_heap){

  int errors = 0;

  /*if(mdp1->headersize != mdp2->headersize){
    fprintf(stderr, "Different size of the file header for the mapped files\n");
    return 1;
  }

  if(mdp1->refcount != mdp2->refcount){
    fprintf(stderr, "Different number of processes that attached the heap\n");
    return 1;
  }

  if(strcmp(mdp1->magic, mdp2->magic) != 0){
    fprintf(stderr,"Different magic number\n");
    return 1;
  }

  if(mdp1->flags != mdp2->flags){
    fprintf(stderr,"Different flags\n");  
    return 1;
  }

  if(mdp1->heapsize != mdp2->heapsize){
    fprintf(stderr,"Different number of info entries\n");
    return 1;
  }  

  if(mdp1->heapbase != mdp2->heapbase){
    fprintf(stderr,"Different first block of the heap\n");
    return 1;
  }

  if(mdp1->heapindex != mdp2->heapindex){
    fprintf(stderr,"Different index for the heap table : %zu - %zu\n", mdp1->heapindex, mdp2->heapindex);
    return 1;
  }

  if(mdp1->base != mdp2->base){
    fprintf(stderr,"Different base address of the memory region\n");
    return 1;
  }

  if(mdp1->breakval != mdp2->breakval){
    fprintf(stderr,"Different current location in the memory region\n");
    return 1;
  }

  if(mdp1->top != mdp2->top){
    fprintf(stderr,"Different end of the current location in the memory region\n");
    return 1;
  }

  if(mdp1->heaplimit != mdp2->heaplimit){
    fprintf(stderr,"Different limit of valid info table indices\n");
    return 1;
  }

  if(mdp1->fd != mdp2->fd){
    fprintf(stderr,"Different file descriptor for the file to which this malloc heap is mapped\n");
    return 1;
  }

  if(mdp1->version != mdp2->version){
    fprintf(stderr,"Different version of the mmalloc package\n");
    return 1;
    }*/

  //void* heapbase1 = (char *)mdp1 + ((char *)mdp1->heapbase - (char *)s_heap);
  //void* heapbase2 = (char *)mdp2 + ((char *)mdp2->heapbase - (char *)s_heap);
    
  void *heapbase1 = (char *)mdp1 + BLOCKSIZE;
  void *heapbase2 = (char *)mdp2 + BLOCKSIZE;

  size_t i, j;
  void *addr_block1, *addr_block2, *addr_frag1, *addr_frag2;
  size_t frag_size, frag_size_pointed;

  i = 1;

  int k;
  int distance = 0;

  void *end_heap = get_end_addr_heap(s_heap);

  int pointer_align;
  void *address_pointed1, *address_pointed2;

  int block_pointed1, block_pointed2;
  void *addr_block_pointed1, *addr_block_pointed2;
  int frag_pointed1, frag_pointed2;


  /* Check busy blocks*/

  while(i < mdp1->heaplimit){

    if(mdp1->heapinfo[i].type != mdp2->heapinfo[i].type){
      fprintf(stderr,"Different type of block : %d - %d\n", mdp1->heapinfo[i].type, mdp2->heapinfo[i].type);
      errors++;
    }

    //fprintf(stderr, "i = %zu, type = %d", i, mdp1->heapinfo[i].type);

    //addr_block1 = (void*) (((ADDR2UINT(i)) - 1) * BLOCKSIZE + (char*)heapbase1);
    //addr_block2 = (void*) (((ADDR2UINT(1)) - 1) * BLOCKSIZE + (char*)heapbase2);

    addr_block1 = heapbase1 + ((i-1)*BLOCKSIZE);
    addr_block2 = heapbase2 + ((i-1)*BLOCKSIZE);

    if(mdp1->heapinfo[i].type == 0){ /* busy large block */

      if(mdp1->heapinfo[i].busy_block.size != mdp2->heapinfo[i].busy_block.size){
        fprintf(stderr,"Different size of a large cluster : %zu - %zu\n", mdp1->heapinfo[i].busy_block.size, mdp2->heapinfo[i].busy_block.size); 
        fflush(NULL);
        errors++;
      } 

      if(mdp1->heapinfo[i].busy_block.busy_size != mdp2->heapinfo[i].busy_block.busy_size){
        fprintf(stderr,"Different busy_size of a large cluster : %zu - %zu\n", mdp1->heapinfo[i].busy_block.busy_size, mdp2->heapinfo[i].busy_block.busy_size); 
        fflush(NULL);
        errors++;
      } 

  
      /* Hamming distance on different blocks */
      distance = 0;

      //for(k=0;k<mdp1->heapinfo[i].busy_block.size * BLOCKSIZE;k++){
      for(k=0;k<mdp1->heapinfo[i].busy_block.busy_size;k++){
        if(memcmp(((char *)addr_block1) + k, ((char *)addr_block2) + k, 1) != 0){
          //fprintf(stderr, "Different byte (offset=%d) (%p - %p) in block %zu\n", k, (char *)addr_block1 + k, (char *)addr_block2 + k, i); fflush(NULL);
          pointer_align = (k / sizeof(void*)) * sizeof(void*); 
          address_pointed1 = *((void **)((char *)addr_block1 + pointer_align));
          address_pointed2 = *((void **)((char *)addr_block2 + pointer_align));                            
          if(((address_pointed1 > s_heap) && (address_pointed1 < end_heap)) && ((address_pointed2 > s_heap) && (address_pointed2 < end_heap))){
            block_pointed1 = ((char*)address_pointed1 - (char*)((struct mdesc*)s_heap)->heapbase) / BLOCKSIZE + 1;
            block_pointed2 = ((char*)address_pointed2 - (char*)((struct mdesc*)s_heap)->heapbase) / BLOCKSIZE + 1;
            //fprintf(stderr, "Blocks pointed : %d - %d\n", block_pointed1, block_pointed2);
            if(mdp1->heapinfo[block_pointed1].type == mdp2->heapinfo[block_pointed2].type){
              if(mdp1->heapinfo[block_pointed1].type == 0){ // Large block
                while(mdp1->heapinfo[block_pointed1].busy_block.size == 0)
                  block_pointed1--;
                while(mdp2->heapinfo[block_pointed2].busy_block.size == 0)
                  block_pointed2--;
                if(mdp1->heapinfo[block_pointed1].busy_block.busy_size == mdp2->heapinfo[block_pointed2].busy_block.busy_size){
                  //addr_block_pointed1 = (void*) (((ADDR2UINT((size_t)block_pointed1)) - 1) * BLOCKSIZE + (char*)heapbase1);
                  //addr_block_pointed2 = (void*) (((ADDR2UINT((size_t)block_pointed2)) - 1) * BLOCKSIZE + (char*)heapbase2);
                  addr_block_pointed1 = heapbase1 + ((block_pointed1 - 1)*BLOCKSIZE);
                  addr_block_pointed2 = heapbase2 + ((block_pointed2 - 1)*BLOCKSIZE);
                  
                  fprintf(stderr, "Memcmp between blocks %d and %d (size = %zu)\n", block_pointed1, block_pointed2,  mdp1->heapinfo[block_pointed1].busy_block.busy_size); 
                  if(memcmp(addr_block_pointed1, addr_block_pointed2, mdp1->heapinfo[block_pointed1].busy_block.busy_size) != 0){
                    distance++;
                  }else{
                    fprintf(stderr, "False difference detected\n");
                  }
                }else{
                  distance++;
                }
              }else{ // Fragmented block
                frag_size_pointed = pow(2, mdp1->heapinfo[block_pointed1].type);
                address_pointed1 = (char*)mdp1 + ((char*)address_pointed1 - (char*)s_heap);
                address_pointed2 = (char*)mdp2 + ((char*)address_pointed2 - (char*)s_heap);
                //addr_block_pointed1 = (void*) (((ADDR2UINT((size_t)block_pointed1)) - 1) * BLOCKSIZE + (char*)heapbase1);
                //addr_block_pointed2 = (void*) (((ADDR2UINT((size_t)block_pointed2)) - 1) * BLOCKSIZE + (char*)heapbase2);
                addr_block_pointed1 = heapbase1 + ((block_pointed1 - 1)*BLOCKSIZE);
                addr_block_pointed2 = heapbase2 + ((block_pointed2 - 1)*BLOCKSIZE);
                frag_pointed1 = 0;
                while(address_pointed1 > (void*)((char*)addr_block_pointed1 + ((frag_pointed1 +1 ) * frag_size))){
                  frag_pointed1++;
                }
                frag_pointed2 = 0;
                while(address_pointed2 > (void*)((char*)addr_block_pointed2 + ((frag_pointed2 +1) * frag_size))){
                  frag_pointed2++;
                }
                if(mdp1->heapinfo[block_pointed1].busy_frag.frag_size[frag_pointed1] == mdp2->heapinfo[block_pointed2].busy_frag.frag_size[frag_pointed2]){
                  fprintf(stderr, "Memcmp between fragments %d (block %d) and %d (block %d) (size = %d)\n", frag_pointed1, block_pointed1, frag_pointed2, block_pointed2,  mdp1->heapinfo[block_pointed1].busy_frag.frag_size[frag_pointed1]); 
                  if(memcmp((char*)addr_block_pointed1 + (frag_pointed1 * frag_size), (char*)addr_block_pointed2 + (frag_pointed2 * frag_size), mdp1->heapinfo[block_pointed1].busy_frag.frag_size[frag_pointed1]) != 0){
                    distance++;
                  }else{
                    fprintf(stderr, "False difference detected\n");
                  }
                }else{
                  distance ++;
                }
                  
                  
              }
            }else{
              distance++;
            }
          }else{
            distance++;
          }
            
        }
      }


      if(distance>0){
        fprintf(stderr,"\nDifferent data in large block %zu (size = %zu (in blocks), busy_size = %zu (in bytes))\n", i, mdp1->heapinfo[i].busy_block.size, mdp1->heapinfo[i].busy_block.busy_size);
        fflush(NULL);
        fprintf(stderr, "Hamming distance between blocks : %d\n", distance);
        mmalloc_backtrace_block_display(mdp1, i);
        mmalloc_backtrace_block_display(mdp2, i);
        errors++; 
      }
    
      
      i++;
      
    }else{
      
      if(mdp1->heapinfo[i].type > 0){ /* busy fragmented block */

        if(mdp1->heapinfo[i].type != mdp2->heapinfo[i].type){
          fprintf(stderr,"Different size of fragments in fragmented block %zu : %d - %d\n", i, mdp1->heapinfo[i].type, mdp2->heapinfo[i].type); fflush(NULL);
          errors++;
        }

        if(mdp1->heapinfo[i].busy_frag.nfree != mdp2->heapinfo[i].busy_frag.nfree){
          fprintf(stderr,"Different free fragments in fragmented block %zu : %zu - %zu\n", i, mdp1->heapinfo[i].busy_frag.nfree, mdp2->heapinfo[i].busy_frag.nfree); fflush(NULL);
          errors++;
        } 
        
        if(mdp1->heapinfo[i].busy_frag.first != mdp2->heapinfo[i].busy_frag.first){
          fprintf(stderr,"Different busy_size of a large cluster : %zu - %zu\n", mdp1->heapinfo[i].busy_block.busy_size, mdp2->heapinfo[i].busy_block.busy_size); fflush(NULL);
          errors++;
        } 

        //fprintf(stderr,"\n");

        frag_size = pow(2, mdp1->heapinfo[i].type);

        for(j=0; j< (BLOCKSIZE/frag_size); j++){

          if(mdp1->heapinfo[i].busy_frag.frag_size[j] != mdp2->heapinfo[i].busy_frag.frag_size[j]){
            fprintf(stderr,"Different busy_size for fragment %zu in block %zu : %hu - %hu\n", j, i, mdp1->heapinfo[i].busy_frag.frag_size[j], mdp2->heapinfo[i].busy_frag.frag_size[j]); fflush(NULL);
            errors++;
          }

          if(mdp1->heapinfo[i].busy_frag.frag_size[j] > 0){
            
            addr_frag1 = (char *)addr_block1 + (j * frag_size);
            addr_frag2 = (char *)addr_block2 + (j * frag_size);


            /* Hamming distance on different blocks */
            distance = 0;
            //for(k=0;k<frag_size;k++){
            for(k=0;k<mdp1->heapinfo[i].busy_frag.frag_size[j];k++){
              if(memcmp(((char *)addr_frag1) + k, ((char *)addr_frag2) + k, 1) != 0){
                //fprintf(stderr, "Different byte (offset=%d) (%p - %p) in fragment %zu in block %zu\n", k, (char *)addr_frag1 + k, (char *)addr_frag2 + k, j, i); fflush(NULL);
                pointer_align = (k / sizeof(void*)) * sizeof(void*);
                address_pointed1 = *((void **)((char *)addr_frag1 + pointer_align));
                address_pointed2 = *((void **)((char *)addr_frag2 + pointer_align));                               
                if(((address_pointed1 > s_heap) && (address_pointed1 < end_heap)) && ((address_pointed2 > s_heap) && (address_pointed2 < end_heap))){
                  block_pointed1 = ((char*)address_pointed1 - (char*)((struct mdesc*)s_heap)->heapbase) / BLOCKSIZE + 1;
                  block_pointed2 = ((char*)address_pointed2 - (char*)((struct mdesc*)s_heap)->heapbase) / BLOCKSIZE + 1;
                  //fprintf(stderr, "Blocks pointed : %d - %d\n", block_pointed1, block_pointed2);
                  if(mdp1->heapinfo[block_pointed1].type == mdp2->heapinfo[block_pointed2].type){
                    if(mdp1->heapinfo[block_pointed1].type == 0){ // Large block
                      while(mdp1->heapinfo[block_pointed1].busy_block.size == 0)
                        block_pointed1--;
                      while(mdp2->heapinfo[block_pointed2].busy_block.size == 0)
                        block_pointed2--;
                      if(mdp1->heapinfo[block_pointed1].busy_block.busy_size == mdp2->heapinfo[block_pointed2].busy_block.busy_size){
                        //addr_block_pointed1 = (void*) (((ADDR2UINT((size_t)block_pointed1)) - 1) * BLOCKSIZE + (char*)heapbase1);
                        //addr_block_pointed2 = (void*) (((ADDR2UINT((size_t)block_pointed2)) - 1) * BLOCKSIZE + (char*)heapbase2);
                        addr_block_pointed1 = heapbase1 + ((block_pointed1 - 1)*BLOCKSIZE);
                        addr_block_pointed2 = heapbase2 + ((block_pointed2 - 1)*BLOCKSIZE);
                        fprintf(stderr, "Memcmp between blocks %d and %d (size = %zu)\n", block_pointed1, block_pointed2,  mdp1->heapinfo[block_pointed1].busy_block.busy_size); 
                        if(memcmp(addr_block_pointed1, addr_block_pointed2, mdp1->heapinfo[block_pointed1].busy_block.busy_size) != 0){
                          distance++;
                        }else{
                          fprintf(stderr, "False difference detected\n");
                        }
                      }else{
                        distance++;
                      }
                    }else{ // Fragmented block
                      frag_size_pointed = pow(2, mdp1->heapinfo[block_pointed1].type);
                      address_pointed1 = (char*)mdp1 + ((char*)address_pointed1 - (char*)s_heap);
                      address_pointed2 = (char*)mdp2 + ((char*)address_pointed2 - (char*)s_heap);
                      //addr_block_pointed1 = (void*) (((ADDR2UINT((size_t)block_pointed1)) - 1) * BLOCKSIZE + (char*)heapbase1);
                      //addr_block_pointed2 = (void*) (((ADDR2UINT((size_t)block_pointed2)) - 1) * BLOCKSIZE + (char*)heapbase2);
                      addr_block_pointed1 = heapbase1 + ((block_pointed1 - 1)*BLOCKSIZE);
                      addr_block_pointed2 = heapbase2 + ((block_pointed2 - 1)*BLOCKSIZE);
                      frag_pointed1 = 0;
                      while(address_pointed1 > (void*)((char*)addr_block_pointed1 + ((frag_pointed1 + 1) * frag_size))){
                        frag_pointed1++;
                      }
                      frag_pointed2 = 0;
                      while(address_pointed2 > (void*)((char*)addr_block_pointed2 + ((frag_pointed2 + 1) * frag_size))){
                        frag_pointed2++;
                      }
                      if(mdp1->heapinfo[block_pointed1].busy_frag.frag_size[frag_pointed1] == mdp2->heapinfo[block_pointed2].busy_frag.frag_size[frag_pointed2]){
                        fprintf(stderr, "Memcmp between fragments %d (block %d) and %d (block %d) (size = %d)\n", frag_pointed1, block_pointed1, frag_pointed2, block_pointed2,  mdp1->heapinfo[block_pointed1].busy_frag.frag_size[frag_pointed1]); 
                        if(memcmp((char*)addr_block_pointed1 + (frag_pointed1 * frag_size), (char*)addr_block_pointed2 + (frag_pointed2 * frag_size), mdp1->heapinfo[block_pointed1].busy_frag.frag_size[frag_pointed1]) != 0){
                          distance++;
                        }else{
                          fprintf(stderr, "False difference detected\n");
                        }
                      }else{
                        distance ++;
                      }
                    }
                  }else{
                    distance++;
                  }
                }else{
                  distance++;
                }
              }

            }
            
            if(distance > 0){
              fprintf(stderr,"\nDifferent data in fragment %zu (size = %zu, size used = %hu) in block %zu \n", j, frag_size, mdp1->heapinfo[i].busy_frag.frag_size[j], i);
              fprintf(stderr, "Hamming distance between fragments : %d\n", distance);
              mmalloc_backtrace_fragment_display(mdp1, i, j);
              mmalloc_backtrace_fragment_display(mdp2, i, j);
              errors++;
              
            }

          }
        }

        i++;

      }else{ /* free block */

        i++;

        //fprintf(stderr,"\n");

      }
      
    }

  }

  //free(pointed_address1);
  //free(pointed_address2);

  return (errors);
}


void *get_end_addr_heap(void *s_heap){

  FILE *fp;                     /* File pointer to process's proc maps file */
  char *line = NULL;            /* Temporal storage for each line that is readed */
  ssize_t read;                 /* Number of bytes readed */
  size_t n = 0;                 /* Amount of bytes to read by getline */

  fp = fopen("/proc/self/maps", "r");
  
  if(fp == NULL)
    perror("fopen failed");


  xbt_dynar_t lfields = NULL;
  xbt_dynar_t start_end  = NULL;
  void *start_addr;
  void *end_addr;

  while ((read = getline(&line, &n, fp)) != -1) {

    xbt_str_trim(line, NULL);
    xbt_str_strip_spaces(line);
    lfields = xbt_str_split(line,NULL);

    start_end = xbt_str_split(xbt_dynar_get_as(lfields, 0, char*), "-");
    start_addr = (void *) strtoul(xbt_dynar_get_as(start_end, 0, char*), NULL, 16);
    end_addr = (void *) strtoul(xbt_dynar_get_as(start_end, 1, char*), NULL, 16);

    if(start_addr == s_heap){
      free(line);
      fclose(fp);
      xbt_dynar_reset(lfields);
      xbt_free(lfields);
      xbt_dynar_reset(start_end);
      xbt_free(start_end);
      return end_addr;
    }

  }

  xbt_dynar_reset(lfields);
  xbt_free(lfields);
  xbt_dynar_reset(start_end);
  xbt_free(start_end);
  free(line);
  fclose(fp);
  return NULL;


}


void mmalloc_display_info_heap(xbt_mheap_t h){

}