-/* Copyright (c) 2008-2016. The SimGrid Team.
- * All rights reserved. */
+/* Copyright (c) 2008-2016. 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. */
-/** \file mc_compare.cpp Memory snapshooting and comparison */
+/** \file compare.cpp Memory snapshooting and comparison */
#include <cinttypes>
#include <array>
#include <memory>
+#include <set>
#include <utility>
#include <unordered_set>
namespace simgrid {
namespace mc {
+struct HeapLocation;
+typedef std::array<HeapLocation, 2> HeapLocationPair;
+typedef std::set<HeapLocationPair> HeapLocationPairs;
+struct HeapArea;
struct ProcessComparisonState;
struct StateComparator;
static int compare_heap_area(
+ StateComparator& state,
int process_index, const void *area1, const void* area2,
Snapshot* snapshot1, Snapshot* snapshot2,
- xbt_dynar_t previous, Type* type, int pointer_level);
-
-static void reset_heap_information(void);
+ HeapLocationPairs* previous, Type* type, int pointer_level);
}
}
namespace simgrid {
namespace mc {
+struct HeapLocation {
+ int block = 0;
+ int fragment = 0;
+
+ HeapLocation() {}
+ HeapLocation(int block, int fragment = 0) : block(block), fragment(fragment) {}
+
+ bool operator==(HeapLocation const& that) const
+ {
+ return block == that.block && fragment == that.fragment;
+ }
+ bool operator<(HeapLocation const& that) const
+ {
+ return std::make_pair(block, fragment)
+ < std::make_pair(that.block, that.fragment);
+ }
+};
+
+static inline
+HeapLocationPair makeHeapLocationPair(int block1, int fragment1, int block2, int fragment2)
+{
+ return simgrid::mc::HeapLocationPair{{
+ simgrid::mc::HeapLocation(block1, fragment1),
+ simgrid::mc::HeapLocation(block2, fragment2)
+ }};
+}
+
+struct HeapArea : public HeapLocation {
+ bool valid = false;
+ int block = 0;
+ int fragment = 0;
+ HeapArea() {}
+ HeapArea(int block)
+ : valid(true), block(block) {}
+ HeapArea(int block, int fragment = 0)
+ : valid(true), block(block), fragment(fragment) {}
+};
+
struct ProcessComparisonState {
std::vector<simgrid::mc::IgnoredHeapRegion>* to_ignore = nullptr;
- std::vector<s_heap_area_t> equals_to;
+ std::vector<HeapArea> equals_to;
std::vector<simgrid::mc::Type*> types;
std::size_t heapsize = 0;
std::vector<simgrid::mc::IgnoredHeapRegion>* i);
};
+namespace {
+
+/** A hash which works with more stuff
+ *
+ * It can hash pairs: the standard hash currently doesn't include this.
+ */
+template<class X> struct hash : public std::hash<X> {};
+
+template<class X, class Y>
+struct hash<std::pair<X,Y>> {
+ std::size_t operator()(std::pair<X,Y>const& x) const
+ {
+ struct hash<X> h1;
+ struct hash<X> h2;
+ return h1(x.first) ^ h2(x.second);
+ }
+};
+
+}
+
+
struct StateComparator {
s_xbt_mheap_t std_heap_copy;
std::size_t heaplimit;
std::array<ProcessComparisonState, 2> processStates;
+ std::unordered_set<std::pair<void*, void*>, hash<std::pair<void*, void*>>> compared_pointers;
+
+ void clear()
+ {
+ compared_pointers.clear();
+ }
+
int initHeapInformation(
xbt_mheap_t heap1, xbt_mheap_t heap2,
std::vector<simgrid::mc::IgnoredHeapRegion>* i1,
std::vector<simgrid::mc::IgnoredHeapRegion>* i2);
- s_heap_area_t& equals_to1_(std::size_t i, std::size_t j)
+ HeapArea& equals_to1_(std::size_t i, std::size_t j)
{
return processStates[0].equals_to[ MAX_FRAGMENT_PER_BLOCK * i + j];
}
- s_heap_area_t& equals_to2_(std::size_t i, std::size_t j)
+ HeapArea& equals_to2_(std::size_t i, std::size_t j)
{
return processStates[1].equals_to[ MAX_FRAGMENT_PER_BLOCK * i + j];
}
return processStates[1].types[ MAX_FRAGMENT_PER_BLOCK * i + j];
}
- s_heap_area_t const& equals_to1_(std::size_t i, std::size_t j) const
+ HeapArea const& equals_to1_(std::size_t i, std::size_t j) const
{
return processStates[0].equals_to[ MAX_FRAGMENT_PER_BLOCK * i + j];
}
- s_heap_area_t const& equals_to2_(std::size_t i, std::size_t j) const
+ HeapArea const& equals_to2_(std::size_t i, std::size_t j) const
{
return processStates[1].equals_to[ MAX_FRAGMENT_PER_BLOCK * i + j];
}
/** Check whether two blocks are known to be matching
*
- * @param state State used
* @param b1 Block of state 1
* @param b2 Block of state 2
* @return if the blocks are known to be matching
/** Check whether two fragments are known to be matching
*
- * @param state State used
* @param b1 Block of state 1
* @param f1 Fragment of state 1
* @param b2 Block of state 2
&& this->equals_to2_(b2, f2).fragment == f1;
}
- void match_equals(xbt_dynar_t list);
+ void match_equals(HeapLocationPairs* list);
};
}
}
-// TODO, make this a field of ModelChecker or something similar
-static std::unique_ptr<simgrid::mc::StateComparator> mc_diff_info;
-
/************************************************************************************/
-static s_heap_area_t make_heap_area(int block, int fragment)
-{
- s_heap_area_t area;
- area.valid = 1;
- area.block = block;
- area.fragment = fragment;
- return area;
-}
-
-static int is_new_heap_area_pair(xbt_dynar_t list, int block1, int fragment1,
- int block2, int fragment2)
-{
-
- unsigned int cursor = 0;
- heap_area_pair_t current_pair;
-
- xbt_dynar_foreach(list, cursor, current_pair)
- if (current_pair->block1 == block1 && current_pair->block2 == block2
- && current_pair->fragment1 == fragment1
- && current_pair->fragment2 == fragment2)
- return 0;
-
- return 1;
-}
-
-static int add_heap_area_pair(xbt_dynar_t list, int block1, int fragment1,
- int block2, int fragment2)
-{
-
- if (!is_new_heap_area_pair(list, block1, fragment1, block2, fragment2))
- return 0;
-
- heap_area_pair_t pair = nullptr;
- pair = xbt_new0(s_heap_area_pair_t, 1);
- pair->block1 = block1;
- pair->fragment1 = fragment1;
- pair->block2 = block2;
- pair->fragment2 = fragment2;
- xbt_dynar_push(list, &pair);
- return 1;
-}
-
static ssize_t heap_comparison_ignore_size(
std::vector<simgrid::mc::IgnoredHeapRegion>* ignore_list,
const void *address)
namespace simgrid {
namespace mc {
-void StateComparator::match_equals(xbt_dynar_t list)
+void StateComparator::match_equals(HeapLocationPairs* list)
{
- unsigned int cursor = 0;
- heap_area_pair_t current_pair;
-
- xbt_dynar_foreach(list, cursor, current_pair) {
- if (current_pair->fragment1 != -1) {
- this->equals_to1_(current_pair->block1, current_pair->fragment1) =
- make_heap_area(current_pair->block2, current_pair->fragment2);
- this->equals_to2_(current_pair->block2, current_pair->fragment2) =
- make_heap_area(current_pair->block1, current_pair->fragment1);
+ for (auto const& pair : *list) {
+ if (pair[0].fragment != -1) {
+ this->equals_to1_(pair[0].block, pair[0].fragment) =
+ simgrid::mc::HeapArea(pair[1].block, pair[1].fragment);
+ this->equals_to2_(pair[1].block, pair[1].fragment) =
+ simgrid::mc::HeapArea(pair[0].block, pair[0].fragment);
} else {
- this->equals_to1_(current_pair->block1, 0) =
- make_heap_area(current_pair->block2, current_pair->fragment2);
- this->equals_to2_(current_pair->block2, 0) =
- make_heap_area(current_pair->block1, current_pair->fragment1);
+ this->equals_to1_(pair[0].block, 0) =
+ simgrid::mc::HeapArea(pair[1].block, pair[1].fragment);
+ this->equals_to2_(pair[1].block, 0) =
+ simgrid::mc::HeapArea(pair[0].block, pair[0].fragment);
}
}
}
auto heaplimit = ((struct mdesc *) heap)->heaplimit;
this->heapsize = ((struct mdesc *) heap)->heapsize;
this->to_ignore = i;
- this->equals_to.assign(heaplimit * MAX_FRAGMENT_PER_BLOCK, s_heap_area {0, 0, 0});
+ this->equals_to.assign(heaplimit * MAX_FRAGMENT_PER_BLOCK, HeapArea());
this->types.assign(heaplimit * MAX_FRAGMENT_PER_BLOCK, nullptr);
}
return 0;
}
-static
-int init_heap_information(xbt_mheap_t heap1, xbt_mheap_t heap2,
- std::vector<simgrid::mc::IgnoredHeapRegion>* i1,
- std::vector<simgrid::mc::IgnoredHeapRegion>* i2)
-{
- if (mc_diff_info == nullptr)
- mc_diff_info = std::unique_ptr<StateComparator>(new StateComparator());
- return mc_diff_info->initHeapInformation(heap1, heap2, i1, i2);
-}
-
-static inline
-void reset_heap_information()
-{
-
-}
-
// TODO, have a robust way to find it in O(1)
static inline
mc_mem_region_t MC_get_heap_region(simgrid::mc::Snapshot* snapshot)
}
static
-int mmalloc_compare_heap(simgrid::mc::Snapshot* snapshot1, simgrid::mc::Snapshot* snapshot2)
+int mmalloc_compare_heap(
+ simgrid::mc::StateComparator& state, simgrid::mc::Snapshot* snapshot1, simgrid::mc::Snapshot* snapshot2)
{
simgrid::mc::Process* process = &mc_model_checker->process();
- simgrid::mc::StateComparator *state = mc_diff_info.get();
/* Start comparison */
size_t i1, i2, j1, j2, k;
const malloc_info* heapinfos2 = snapshot2->read<malloc_info*>(
(std::uint64_t)heapinfo_address, simgrid::mc::ProcessIndexMissing);
- while (i1 < state->heaplimit) {
+ while (i1 < state.heaplimit) {
const malloc_info* heapinfo1 = (const malloc_info*) MC_region_read(heap_region1, &heapinfo_temp1, &heapinfos1[i1], sizeof(malloc_info));
const malloc_info* heapinfo2 = (const malloc_info*) MC_region_read(heap_region2, &heapinfo_temp2, &heapinfos2[i1], sizeof(malloc_info));
addr_block1 =
((void *) (((ADDR2UINT(i1)) - 1) * BLOCKSIZE +
- (char *) state->std_heap_copy.heapbase));
+ (char *) state.std_heap_copy.heapbase));
if (heapinfo1->type == MMALLOC_TYPE_UNFRAGMENTED) { /* Large block */
if (is_stack(addr_block1)) {
for (k = 0; k < heapinfo1->busy_block.size; k++)
- state->equals_to1_(i1 + k, 0) = make_heap_area(i1, -1);
+ state.equals_to1_(i1 + k, 0) = HeapArea(i1, -1);
for (k = 0; k < heapinfo2->busy_block.size; k++)
- state->equals_to2_(i1 + k, 0) = make_heap_area(i1, -1);
+ state.equals_to2_(i1 + k, 0) = HeapArea(i1, -1);
i1 += heapinfo1->busy_block.size;
continue;
}
- if (state->equals_to1_(i1, 0).valid) {
+ if (state.equals_to1_(i1, 0).valid) {
i1++;
continue;
}
/* Try first to associate to same block in the other heap */
if (heapinfo2->type == heapinfo1->type
- && state->equals_to2_(i1, 0).valid == 0) {
+ && state.equals_to2_(i1, 0).valid == 0) {
addr_block2 = (ADDR2UINT(i1) - 1) * BLOCKSIZE +
- (char *) state->std_heap_copy.heapbase;
- res_compare =
- compare_heap_area(simgrid::mc::ProcessIndexMissing, addr_block1, addr_block2, snapshot1, snapshot2,
- nullptr, nullptr, 0);
+ (char *) state.std_heap_copy.heapbase;
+ res_compare = compare_heap_area(state, simgrid::mc::ProcessIndexMissing,
+ addr_block1, addr_block2, snapshot1, snapshot2,
+ nullptr, nullptr, 0);
if (res_compare != 1) {
for (k = 1; k < heapinfo2->busy_block.size; k++)
- state->equals_to2_(i1 + k, 0) = make_heap_area(i1, -1);
+ state.equals_to2_(i1 + k, 0) = HeapArea(i1, -1);
for (k = 1; k < heapinfo1->busy_block.size; k++)
- state->equals_to1_(i1 + k, 0) = make_heap_area(i1, -1);
+ state.equals_to1_(i1 + k, 0) = HeapArea(i1, -1);
equal = 1;
i1 += heapinfo1->busy_block.size;
}
}
- while (i2 < state->heaplimit && !equal) {
+ while (i2 < state.heaplimit && !equal) {
addr_block2 = (ADDR2UINT(i2) - 1) * BLOCKSIZE +
- (char *) state->std_heap_copy.heapbase;
+ (char *) state.std_heap_copy.heapbase;
if (i2 == i1) {
i2++;
continue;
}
- if (state->equals_to2_(i2, 0).valid) {
+ if (state.equals_to2_(i2, 0).valid) {
i2++;
continue;
}
- res_compare =
- compare_heap_area(simgrid::mc::ProcessIndexMissing, addr_block1, addr_block2, snapshot1, snapshot2,
- nullptr, nullptr, 0);
+ res_compare = compare_heap_area(state, simgrid::mc::ProcessIndexMissing,
+ addr_block1, addr_block2, snapshot1, snapshot2,
+ nullptr, nullptr, 0);
if (res_compare != 1) {
for (k = 1; k < heapinfo2b->busy_block.size; k++)
- state->equals_to2_(i2 + k, 0) = make_heap_area(i1, -1);
+ state.equals_to2_(i2 + k, 0) = HeapArea(i1, -1);
for (k = 1; k < heapinfo1->busy_block.size; k++)
- state->equals_to1_(i1 + k, 0) = make_heap_area(i2, -1);
+ state.equals_to1_(i1 + k, 0) = HeapArea(i2, -1);
equal = 1;
i1 += heapinfo1->busy_block.size;
}
if (!equal) {
XBT_DEBUG("Block %zu not found (size_used = %zu, addr = %p)", i1,
heapinfo1->busy_block.busy_size, addr_block1);
- i1 = state->heaplimit + 1;
+ i1 = state.heaplimit + 1;
nb_diff1++;
//i1++;
}
if (heapinfo1->busy_frag.frag_size[j1] == -1) /* Free fragment */
continue;
- if (state->equals_to1_(i1, j1).valid)
+ if (state.equals_to1_(i1, j1).valid)
continue;
addr_frag1 =
/* Try first to associate to same fragment in the other heap */
if (heapinfo2->type == heapinfo1->type
- && state->equals_to2_(i1, j1).valid == 0) {
+ && !state.equals_to2_(i1, j1).valid) {
addr_block2 = (ADDR2UINT(i1) - 1) * BLOCKSIZE +
- (char *) state->std_heap_copy.heapbase;
+ (char *) state.std_heap_copy.heapbase;
addr_frag2 =
(void *) ((char *) addr_block2 +
(j1 << heapinfo2->type));
- res_compare =
- compare_heap_area(simgrid::mc::ProcessIndexMissing, addr_frag1, addr_frag2, snapshot1, snapshot2,
- nullptr, nullptr, 0);
+ res_compare = compare_heap_area(state, simgrid::mc::ProcessIndexMissing,
+ addr_frag1, addr_frag2, snapshot1, snapshot2,
+ nullptr, nullptr, 0);
if (res_compare != 1)
equal = 1;
}
- while (i2 < state->heaplimit && !equal) {
+ while (i2 < state.heaplimit && !equal) {
const malloc_info* heapinfo2b = (const malloc_info*) MC_region_read(
heap_region2, &heapinfo_temp2b, &heapinfos2[i2],
if (i2 == i1 && j2 == j1)
continue;
- if (state->equals_to2_(i2, j2).valid)
+ if (state.equals_to2_(i2, j2).valid)
continue;
addr_block2 = (ADDR2UINT(i2) - 1) * BLOCKSIZE +
- (char *) state->std_heap_copy.heapbase;
+ (char *) state.std_heap_copy.heapbase;
addr_frag2 =
(void *) ((char *) addr_block2 +
(j2 << heapinfo2b->type));
- res_compare =
- compare_heap_area(simgrid::mc::ProcessIndexMissing, addr_frag1, addr_frag2, snapshot2, snapshot2,
- nullptr, nullptr, 0);
-
+ res_compare = compare_heap_area(
+ state, simgrid::mc::ProcessIndexMissing,
+ addr_frag1, addr_frag2, snapshot2, snapshot2,
+ nullptr, nullptr, 0);
if (res_compare != 1) {
equal = 1;
break;
("Block %zu, fragment %zu not found (size_used = %zd, address = %p)\n",
i1, j1, heapinfo1->busy_frag.frag_size[j1],
addr_frag1);
- i2 = state->heaplimit + 1;
- i1 = state->heaplimit + 1;
+ i2 = state.heaplimit + 1;
+ i1 = state.heaplimit + 1;
nb_diff1++;
break;
}
/* All blocks/fragments are equal to another block/fragment ? */
size_t i = 1, j = 0;
- for(i = 1; i < state->heaplimit; i++) {
+ for(i = 1; i < state.heaplimit; i++) {
const malloc_info* heapinfo1 = (const malloc_info*) MC_region_read(
heap_region1, &heapinfo_temp1, &heapinfos1[i], sizeof(malloc_info));
if (heapinfo1->type == MMALLOC_TYPE_UNFRAGMENTED
- && i1 == state->heaplimit
+ && i1 == state.heaplimit
&& heapinfo1->busy_block.busy_size > 0
- && state->equals_to1_(i, 0).valid == 0) {
+ && !state.equals_to1_(i, 0).valid) {
XBT_DEBUG("Block %zu not found (size used = %zu)", i,
heapinfo1->busy_block.busy_size);
nb_diff1++;
if (heapinfo1->type <= 0)
continue;
for (j = 0; j < (size_t) (BLOCKSIZE >> heapinfo1->type); j++)
- if (i1 == state->heaplimit
+ if (i1 == state.heaplimit
&& heapinfo1->busy_frag.frag_size[j] > 0
- && state->equals_to1_(i, j).valid == 0) {
+ && !state.equals_to1_(i, j).valid) {
XBT_DEBUG("Block %zu, Fragment %zu not found (size used = %zd)",
i, j, heapinfo1->busy_frag.frag_size[j]);
nb_diff1++;
}
}
- if (i1 == state->heaplimit)
- XBT_DEBUG("Number of blocks/fragments not found in heap1 : %d", nb_diff1);
+ if (i1 == state.heaplimit)
+ XBT_DEBUG("Number of blocks/fragments not found in heap1: %d", nb_diff1);
- for (i=1; i < state->heaplimit; i++) {
+ for (i=1; i < state.heaplimit; i++) {
const malloc_info* heapinfo2 = (const malloc_info*) MC_region_read(
heap_region2, &heapinfo_temp2, &heapinfos2[i], sizeof(malloc_info));
if (heapinfo2->type == MMALLOC_TYPE_UNFRAGMENTED
- && i1 == state->heaplimit
+ && i1 == state.heaplimit
&& heapinfo2->busy_block.busy_size > 0
- && state->equals_to2_(i, 0).valid == 0) {
+ && !state.equals_to2_(i, 0).valid) {
XBT_DEBUG("Block %zu not found (size used = %zu)", i,
heapinfo2->busy_block.busy_size);
nb_diff2++;
continue;
for (j = 0; j < (size_t) (BLOCKSIZE >> heapinfo2->type); j++)
- if (i1 == state->heaplimit
+ if (i1 == state.heaplimit
&& heapinfo2->busy_frag.frag_size[j] > 0
- && state->equals_to2_(i, j).valid == 0) {
+ && !state.equals_to2_(i, j).valid) {
XBT_DEBUG("Block %zu, Fragment %zu not found (size used = %zd)",
i, j, heapinfo2->busy_frag.frag_size[j]);
nb_diff2++;
}
- if (i1 == state->heaplimit)
- XBT_DEBUG("Number of blocks/fragments not found in heap2 : %d", nb_diff2);
+ if (i1 == state.heaplimit)
+ XBT_DEBUG("Number of blocks/fragments not found in heap2: %d", nb_diff2);
return nb_diff1 > 0 || nb_diff2 > 0;
}
* @param check_ignore
*/
static int compare_heap_area_without_type(
- simgrid::mc::StateComparator *state, int process_index,
+ simgrid::mc::StateComparator& state, int process_index,
const void *real_area1, const void *real_area2,
simgrid::mc::Snapshot* snapshot1,
simgrid::mc::Snapshot* snapshot2,
- xbt_dynar_t previous, int size,
+ HeapLocationPairs* previous, int size,
int check_ignore)
{
simgrid::mc::Process* process = &mc_model_checker->process();
if (check_ignore > 0) {
ssize_t ignore1 = heap_comparison_ignore_size(
- state->processStates[0].to_ignore, (char *) real_area1 + i);
+ state.processStates[0].to_ignore, (char *) real_area1 + i);
if (ignore1 != -1) {
ssize_t ignore2 = heap_comparison_ignore_size(
- state->processStates[1].to_ignore, (char *) real_area2 + i);
+ state.processStates[1].to_ignore, (char *) real_area2 + i);
if (ignore2 == ignore1) {
if (ignore1 == 0) {
check_ignore--;
continue;
}
- if (addr_pointed1 > state->std_heap_copy.heapbase
+ if (addr_pointed1 > state.std_heap_copy.heapbase
&& addr_pointed1 < mc_snapshot_get_heap_end(snapshot1)
- && addr_pointed2 > state->std_heap_copy.heapbase
+ && addr_pointed2 > state.std_heap_copy.heapbase
&& addr_pointed2 < mc_snapshot_get_heap_end(snapshot2)) {
// Both addreses are in the heap:
- int res_compare =
- compare_heap_area(process_index, addr_pointed1, addr_pointed2, snapshot1,
- snapshot2, previous, nullptr, 0);
+ int res_compare = compare_heap_area(state ,process_index,
+ addr_pointed1, addr_pointed2,
+ snapshot1, snapshot2, previous, nullptr, 0);
if (res_compare == 1)
return res_compare;
i = pointer_align + sizeof(void *);
* @return 0 (same), 1 (different), -1 (unknown)
*/
static int compare_heap_area_with_type(
- simgrid::mc::StateComparator *state, int process_index,
+ simgrid::mc::StateComparator& state, int process_index,
const void *real_area1, const void *real_area2,
simgrid::mc::Snapshot* snapshot1,
simgrid::mc::Snapshot* snapshot2,
- xbt_dynar_t previous, simgrid::mc::Type* type,
+ HeapLocationPairs* previous, simgrid::mc::Type* type,
int area_size, int check_ignore,
int pointer_level)
{
if (check_ignore > 0) {
ssize_t ignore1 = heap_comparison_ignore_size(
- state->processStates[0].to_ignore, real_area1);
+ state.processStates[0].to_ignore, real_area1);
if (ignore1 > 0
&& heap_comparison_ignore_size(
- state->processStates[1].to_ignore, real_area2) == ignore1)
+ state.processStates[1].to_ignore, real_area2) == ignore1)
return 0;
}
if (pointer_level <= 1) {
addr_pointed1 = snapshot1->read(remote((void**)real_area1), process_index);
addr_pointed2 = snapshot2->read(remote((void**)real_area2), process_index);
- if (addr_pointed1 > state->std_heap_copy.heapbase
+ if (addr_pointed1 > state.std_heap_copy.heapbase
&& addr_pointed1 < mc_snapshot_get_heap_end(snapshot1)
- && addr_pointed2 > state->std_heap_copy.heapbase
+ && addr_pointed2 > state.std_heap_copy.heapbase
&& addr_pointed2 < mc_snapshot_get_heap_end(snapshot2))
- return compare_heap_area(process_index, addr_pointed1, addr_pointed2, snapshot1,
- snapshot2, previous, type->subtype,
- pointer_level);
+ return compare_heap_area(state, process_index,
+ addr_pointed1, addr_pointed2, snapshot1,
+ snapshot2, previous, type->subtype,
+ pointer_level);
else
return (addr_pointed1 != addr_pointed2);
}
addr_pointed2 = snapshot2->read(
remote((void**)((char*) real_area2 + i * sizeof(void *))),
process_index);
- if (addr_pointed1 > state->std_heap_copy.heapbase
+ if (addr_pointed1 > state.std_heap_copy.heapbase
&& addr_pointed1 < mc_snapshot_get_heap_end(snapshot1)
- && addr_pointed2 > state->std_heap_copy.heapbase
+ && addr_pointed2 > state.std_heap_copy.heapbase
&& addr_pointed2 < mc_snapshot_get_heap_end(snapshot2))
res =
- compare_heap_area(process_index, addr_pointed1, addr_pointed2, snapshot1,
- snapshot2, previous, type->subtype,
- pointer_level);
+ compare_heap_area(state, process_index,
+ addr_pointed1, addr_pointed2, snapshot1,
+ snapshot2, previous, type->subtype,
+ pointer_level);
else
res = (addr_pointed1 != addr_pointed2);
if (res == 1)
return nullptr;
default:
- /* FIXME : other cases ? */
+ /* FIXME: other cases ? */
return nullptr;
}
* @return 0 (same), 1 (different), -1
*/
static
-int compare_heap_area(int process_index, const void *area1, const void *area2, simgrid::mc::Snapshot* snapshot1,
- simgrid::mc::Snapshot* snapshot2, xbt_dynar_t previous,
+int compare_heap_area(simgrid::mc::StateComparator& state, int process_index,
+ const void *area1, const void *area2,
+ simgrid::mc::Snapshot* snapshot1,
+ simgrid::mc::Snapshot* snapshot2,
+ HeapLocationPairs* previous,
simgrid::mc::Type* type, int pointer_level)
{
simgrid::mc::Process* process = &mc_model_checker->process();
- simgrid::mc::StateComparator *state = mc_diff_info.get();
-
int res_compare;
ssize_t block1, frag1, block2, frag2;
ssize_t size;
int new_size1 = -1, new_size2 = -1;
simgrid::mc::Type *new_type1 = nullptr, *new_type2 = nullptr;
- int match_pairs = 0;
+ bool match_pairs = false;
// This is the address of std_heap->heapinfo in the application process:
void* heapinfo_address = &((xbt_mheap_t) process->heap_address)->heapinfo;
malloc_info heapinfo_temp1, heapinfo_temp2;
+ simgrid::mc::HeapLocationPairs current;
if (previous == nullptr) {
- previous = xbt_dynar_new(sizeof(heap_area_pair_t), [](void *d) {
- xbt_free((heap_area_pair_t) * (void **) d); });
- match_pairs = 1;
+ previous = ¤t;
+ match_pairs = true;
}
// Get block number:
block1 =
((char *) area1 -
- (char *) state->std_heap_copy.heapbase) / BLOCKSIZE + 1;
+ (char *) state.std_heap_copy.heapbase) / BLOCKSIZE + 1;
block2 =
((char *) area2 -
- (char *) state->std_heap_copy.heapbase) / BLOCKSIZE + 1;
+ (char *) state.std_heap_copy.heapbase) / BLOCKSIZE + 1;
// If either block is a stack block:
if (is_block_stack((int) block1) && is_block_stack((int) block2)) {
- add_heap_area_pair(previous, block1, -1, block2, -1);
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ previous->insert(simgrid::mc::makeHeapLocationPair(
+ block1, -1, block2, -1));
+ if (match_pairs)
+ state.match_equals(previous);
return 0;
}
// If either block is not in the expected area of memory:
- if (((char *) area1 < (char *) state->std_heap_copy.heapbase)
- || (block1 > (ssize_t) state->processStates[0].heapsize) || (block1 < 1)
- || ((char *) area2 < (char *) state->std_heap_copy.heapbase)
- || (block2 > (ssize_t) state->processStates[1].heapsize) || (block2 < 1)) {
- if (match_pairs)
- xbt_dynar_free(&previous);
+ if (((char *) area1 < (char *) state.std_heap_copy.heapbase)
+ || (block1 > (ssize_t) state.processStates[0].heapsize) || (block1 < 1)
+ || ((char *) area2 < (char *) state.std_heap_copy.heapbase)
+ || (block2 > (ssize_t) state.processStates[1].heapsize) || (block2 < 1)) {
return 1;
}
// Process address of the block:
real_addr_block1 = (ADDR2UINT(block1) - 1) * BLOCKSIZE +
- (char *) state->std_heap_copy.heapbase;
+ (char *) state.std_heap_copy.heapbase;
real_addr_block2 = (ADDR2UINT(block2) - 1) * BLOCKSIZE +
- (char *) state->std_heap_copy.heapbase;
+ (char *) state.std_heap_copy.heapbase;
if (type) {
if ((heapinfo1->type == MMALLOC_TYPE_FREE || heapinfo1->type==MMALLOC_TYPE_HEAPINFO)
&& (heapinfo2->type == MMALLOC_TYPE_FREE || heapinfo2->type ==MMALLOC_TYPE_HEAPINFO)) {
/* Free block */
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (match_pairs)
+ state.match_equals(previous);
return 0;
}
offset1 = (char *) area1 - (char *) real_addr_block1;
offset2 = (char *) area2 - (char *) real_addr_block2;
- if (state->equals_to1_(block1, 0).valid
- && state->equals_to2_(block2, 0).valid
- && state->blocksEqual(block1, block2)) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (state.equals_to1_(block1, 0).valid
+ && state.equals_to2_(block2, 0).valid
+ && state.blocksEqual(block1, block2)) {
+ if (match_pairs)
+ state.match_equals(previous);
return 0;
}
if (type_size != (ssize_t) heapinfo1->busy_block.busy_size
&& type_size != (ssize_t) heapinfo2->busy_block.busy_size
&& (type->name.empty() || type->name == "struct s_smx_context")) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (match_pairs)
+ state.match_equals(previous);
return -1;
}
}
- if (heapinfo1->busy_block.size != heapinfo2->busy_block.size) {
- if (match_pairs)
- xbt_dynar_free(&previous);
+ if (heapinfo1->busy_block.size != heapinfo2->busy_block.size)
return 1;
- }
-
- if (heapinfo1->busy_block.busy_size != heapinfo2->busy_block.busy_size) {
- if (match_pairs)
- xbt_dynar_free(&previous);
+ if (heapinfo1->busy_block.busy_size != heapinfo2->busy_block.busy_size)
return 1;
- }
- if (!add_heap_area_pair(previous, block1, -1, block2, -1)) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (!previous->insert(simgrid::mc::makeHeapLocationPair(
+ block1, -1, block2, -1)).second) {
+ if (match_pairs)
+ state.match_equals(previous);
return 0;
}
// Remember (basic) type inference.
// The current data structure only allows us to do this for the whole block.
if (type != nullptr && area1 == real_addr_block1)
- state->types1_(block1, 0) = type;
+ state.types1_(block1, 0) = type;
if (type != nullptr && area2 == real_addr_block2)
- state->types2_(block2, 0) = type;
+ state.types2_(block2, 0) = type;
if (size <= 0) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (match_pairs)
+ state.match_equals(previous);
return 0;
}
if (type_size != -1) {
if (heapinfo1->busy_frag.frag_size[frag1] == -1
|| heapinfo2->busy_frag.frag_size[frag2] == -1) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (match_pairs)
+ state.match_equals(previous);
return -1;
}
// ?
if (type_size != heapinfo1->busy_frag.frag_size[frag1]
|| type_size != heapinfo2->busy_frag.frag_size[frag2]) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (match_pairs)
+ state.match_equals(previous);
return -1;
}
}
// Check if the blocks are already matched together:
- if (state->equals_to1_(block1, frag1).valid
- && state->equals_to2_(block2, frag2).valid) {
- if (offset1==offset2 && state->fragmentsEqual(block1, frag1, block2, frag2)) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (state.equals_to1_(block1, frag1).valid
+ && state.equals_to2_(block2, frag2).valid) {
+ if (offset1==offset2 && state.fragmentsEqual(block1, frag1, block2, frag2)) {
+ if (match_pairs)
+ state.match_equals(previous);
return 0;
}
}
if (heapinfo1->busy_frag.frag_size[frag1] !=
heapinfo2->busy_frag.frag_size[frag2]) {
if (type_size == -1) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
- return -1;
- } else {
if (match_pairs)
- xbt_dynar_free(&previous);
+ state.match_equals(previous);
+ return -1;
+ } else
return 1;
- }
}
// Size of the fragment:
// Remember (basic) type inference.
// The current data structure only allows us to do this for the whole fragment.
if (type != nullptr && area1 == real_addr_frag1)
- state->types1_(block1, frag1) = type;
+ state.types1_(block1, frag1) = type;
if (type != nullptr && area2 == real_addr_frag2)
- state->types2_(block2, frag2) = type;
+ state.types2_(block2, frag2) = type;
// The type of the variable is already known:
if (type) {
new_type2 = type;
}
// Type inference from the block type.
- else if (state->types1_(block1, frag1) != nullptr
- || state->types2_(block2, frag2) != nullptr) {
+ else if (state.types1_(block1, frag1) != nullptr
+ || state.types2_(block2, frag2) != nullptr) {
offset1 = (char *) area1 - (char *) real_addr_frag1;
offset2 = (char *) area2 - (char *) real_addr_frag2;
- if (state->types1_(block1, frag1) != nullptr
- && state->types2_(block2, frag2) != nullptr) {
+ if (state.types1_(block1, frag1) != nullptr
+ && state.types2_(block2, frag2) != nullptr) {
new_type1 =
- get_offset_type(real_addr_frag1, state->types1_(block1, frag1),
+ get_offset_type(real_addr_frag1, state.types1_(block1, frag1),
offset1, size, snapshot1, process_index);
new_type2 =
- get_offset_type(real_addr_frag2, state->types2_(block2, frag2),
+ get_offset_type(real_addr_frag2, state.types2_(block2, frag2),
offset1, size, snapshot2, process_index);
- } else if (state->types1_(block1, frag1) != nullptr) {
+ } else if (state.types1_(block1, frag1) != nullptr) {
new_type1 =
- get_offset_type(real_addr_frag1, state->types1_(block1, frag1),
+ get_offset_type(real_addr_frag1, state.types1_(block1, frag1),
offset1, size, snapshot1, process_index);
new_type2 =
- get_offset_type(real_addr_frag2, state->types1_(block1, frag1),
+ get_offset_type(real_addr_frag2, state.types1_(block1, frag1),
offset2, size, snapshot2, process_index);
- } else if (state->types2_(block2, frag2) != nullptr) {
+ } else if (state.types2_(block2, frag2) != nullptr) {
new_type1 =
- get_offset_type(real_addr_frag1, state->types2_(block2, frag2),
+ get_offset_type(real_addr_frag1, state.types2_(block2, frag2),
offset1, size, snapshot1, process_index);
new_type2 =
- get_offset_type(real_addr_frag2, state->types2_(block2, frag2),
+ get_offset_type(real_addr_frag2, state.types2_(block2, frag2),
offset2, size, snapshot2, process_index);
} else {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (match_pairs)
+ state.match_equals(previous);
return -1;
}
new_size2 = type->byte_size;
} else {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (match_pairs)
+ state.match_equals(previous);
return -1;
}
}
}
if (offset1 == 0 && offset2 == 0
- && !add_heap_area_pair(previous, block1, frag1, block2, frag2)) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ && !previous->insert(simgrid::mc::makeHeapLocationPair(
+ block1, frag1, block2, frag2)).second) {
+ if (match_pairs)
+ state.match_equals(previous);
return 0;
}
if (size <= 0) {
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (match_pairs)
+ state.match_equals(previous);
return 0;
}
heapinfo1->busy_frag.ignore[frag1]))
check_ignore = heapinfo1->busy_frag.ignore[frag1];
- } else {
- if (match_pairs)
- xbt_dynar_free(&previous);
+ } else
return 1;
- }
/* Start comparison */
compare_heap_area_without_type(state, process_index, area1, area2, snapshot1, snapshot2,
previous, size, check_ignore);
- if (res_compare == 1) {
- if (match_pairs)
- xbt_dynar_free(&previous);
+ if (res_compare == 1)
return res_compare;
- }
-
- if (match_pairs) {
- state->match_equals(previous);
- xbt_dynar_free(&previous);
- }
+ if (match_pairs)
+ state.match_equals(previous);
return 0;
}
}
}
-namespace simgrid {
-namespace mc {
-
-/** A hash which works with more stuff
- *
- * It can hash pairs: the standard hash currently doesn't include this.
- */
-template<class X> struct hash : public std::hash<X> {};
-
-template<class X, class Y>
-struct hash<std::pair<X,Y>> {
- std::size_t operator()(std::pair<X,Y>const& x) const
- {
- struct hash<X> h1;
- struct hash<X> h2;
- return h1(x.first) ^ h2(x.second);
- }
-};
-
-struct ComparisonState {
- std::unordered_set<std::pair<void*, void*>, hash<std::pair<void*, void*>>> compared_pointers;
-};
-
-}
-}
-
-using simgrid::mc::ComparisonState;
-
/************************** Snapshot comparison *******************************/
/******************************************************************************/
-static int compare_areas_with_type(ComparisonState& state,
+static int compare_areas_with_type(simgrid::mc::StateComparator& state,
int process_index,
void* real_area1, simgrid::mc::Snapshot* snapshot1, mc_mem_region_t region1,
void* real_area2, simgrid::mc::Snapshot* snapshot2, mc_mem_region_t region2,
&& addr_pointed2 < mc_snapshot_get_heap_end(snapshot2)))
return 1;
// The pointers are both in the heap:
- return simgrid::mc::compare_heap_area(process_index, addr_pointed1, addr_pointed2, snapshot1,
- snapshot2, nullptr, type->subtype, pointer_level);
+ return simgrid::mc::compare_heap_area(state,
+ process_index, addr_pointed1, addr_pointed2, snapshot1,
+ snapshot2, nullptr, type->subtype, pointer_level);
}
// The pointers are both in the current object R/W segment:
return -1;
break;
default:
- XBT_VERB("Unknown case : %d", type->type);
+ XBT_VERB("Unknown case: %d", type->type);
break;
}
return 0;
}
-static int compare_global_variables(simgrid::mc::ObjectInformation* object_info,
- int process_index,
- mc_mem_region_t r1,
- mc_mem_region_t r2, simgrid::mc::Snapshot* snapshot1,
- simgrid::mc::Snapshot* snapshot2)
+static int compare_global_variables(
+ simgrid::mc::StateComparator& state,
+ simgrid::mc::ObjectInformation* object_info,
+ int process_index,
+ mc_mem_region_t r1, mc_mem_region_t r2,
+ simgrid::mc::Snapshot* snapshot1, simgrid::mc::Snapshot* snapshot2)
{
xbt_assert(r1 && r2, "Missing region.");
// Compare the global variables separately for each simulates process:
for (size_t process_index = 0; process_index < process_count; process_index++) {
- int is_diff = compare_global_variables(object_info, process_index,
+ int is_diff = compare_global_variables(state,
+ object_info, process_index,
&r1->privatized_data()[process_index],
&r2->privatized_data()[process_index],
snapshot1, snapshot2);
#endif
xbt_assert(r2->storage_type() != simgrid::mc::StorageType::Privatized);
- ComparisonState state;
-
std::vector<simgrid::mc::Variable>& variables = object_info->global_variables;
for (simgrid::mc::Variable& current_var : variables) {
continue;
simgrid::mc::Type* bvariable_type = current_var.type;
- int res =
- compare_areas_with_type(state, process_index,
+ int res = compare_areas_with_type(state, process_index,
(char *) current_var.address, snapshot1, r1,
(char *) current_var.address, snapshot2, r2,
bvariable_type, 0);
}
-static int compare_local_variables(int process_index,
+static int compare_local_variables(simgrid::mc::StateComparator& state,
+ int process_index,
simgrid::mc::Snapshot* snapshot1,
simgrid::mc::Snapshot* snapshot2,
mc_snapshot_stack_t stack1,
mc_snapshot_stack_t stack2)
{
- ComparisonState state;
-
if (stack1->local_variables.size() != stack2->local_variables.size()) {
XBT_VERB("Different number of local variables");
return 1;
namespace simgrid {
namespace mc {
+static std::unique_ptr<simgrid::mc::StateComparator> state_comparator;
+
int snapshot_compare(int num1, simgrid::mc::Snapshot* s1, int num2, simgrid::mc::Snapshot* s2)
{
+ // TODO, make this a field of ModelChecker or something similar
+
+ if (state_comparator == nullptr)
+ state_comparator = std::unique_ptr<StateComparator>(new StateComparator());
+ else
+ state_comparator->clear();
+
simgrid::mc::Process* process = &mc_model_checker->process();
int errors = 0;
if (_sg_mc_hash) {
hash_result = (s1->hash != s2->hash);
if (hash_result) {
- XBT_VERB("(%d - %d) Different hash : 0x%" PRIx64 "--0x%" PRIx64, num1,
- num2, s1->hash, s2->hash);
+ XBT_VERB("(%d - %d) Different hash: 0x%" PRIx64 "--0x%" PRIx64, num1, num2, s1->hash, s2->hash);
#ifndef MC_DEBUG
return 1;
#endif
} else
- XBT_VERB("(%d - %d) Same hash : 0x%" PRIx64, num1, num2, s1->hash);
+ XBT_VERB("(%d - %d) Same hash: 0x%" PRIx64, num1, num2, s1->hash);
}
/* Compare enabled processes */
size_used2 = s2->stack_sizes[i];
if (size_used1 != size_used2) {
#ifdef MC_DEBUG
- XBT_DEBUG("(%d - %d) Different size used in stacks : %zu - %zu", num1,
- num2, size_used1, size_used2);
+ XBT_DEBUG("(%d - %d) Different size used in stacks: %zu - %zu", num1, num2, size_used1, size_used2);
errors++;
is_diff = 1;
#else
#ifdef MC_VERBOSE
- XBT_VERB("(%d - %d) Different size used in stacks : %zu - %zu", num1,
- num2, size_used1, size_used2);
+ XBT_VERB("(%d - %d) Different size used in stacks: %zu - %zu", num1, num2, size_used1, size_used2);
#endif
return 1;
#endif
alloca(sizeof(struct mdesc)), sizeof(struct mdesc),
remote(process->heap_address),
simgrid::mc::ProcessIndexMissing, simgrid::mc::ReadOptions::lazy());
- res_init = simgrid::mc::init_heap_information(heap1, heap2, &s1->to_ignore, &s2->to_ignore);
+ res_init = state_comparator->initHeapInformation(
+ heap1, heap2, &s1->to_ignore, &s2->to_ignore);
+
if (res_init == -1) {
#ifdef MC_DEBUG
XBT_DEBUG("(%d - %d) Different heap information", num1, num2);
}
/* Stacks comparison */
- unsigned cursor = 0;
int diff_local = 0;
#ifdef MC_DEBUG
is_diff = 0;
#endif
- mc_snapshot_stack_t stack1, stack2;
- while (cursor < s1->stacks.size()) {
- stack1 = &s1->stacks[cursor];
- stack2 = &s2->stacks[cursor];
+ for (unsigned int cursor = 0; cursor < s1->stacks.size(); cursor++) {
+ mc_snapshot_stack_t stack1 = &s1->stacks[cursor];
+ mc_snapshot_stack_t stack2 = &s2->stacks[cursor];
if (stack1->process_index != stack2->process_index) {
diff_local = 1;
XBT_DEBUG("(%d - %d) Stacks with different process index (%i vs %i)", num1, num2,
stack1->process_index, stack2->process_index);
}
- else diff_local =
- compare_local_variables(stack1->process_index, s1, s2, stack1, stack2);
+ else diff_local = compare_local_variables(*state_comparator,
+ stack1->process_index, s1, s2, stack1, stack2);
if (diff_local > 0) {
#ifdef MC_DEBUG
XBT_DEBUG("(%d - %d) Different local variables between stacks %d", num1,
num2, cursor + 1);
#endif
- simgrid::mc::reset_heap_information();
-
return 1;
#endif
}
- cursor++;
}
size_t regions_count = s1->snapshot_regions.size();
/* Compare global variables */
is_diff =
- compare_global_variables(region1->object_info(),
- simgrid::mc::ProcessIndexDisabled,
- region1, region2,
- s1, s2);
+ compare_global_variables(*state_comparator,
+ region1->object_info(), simgrid::mc::ProcessIndexDisabled,
+ region1, region2, s1, s2);
if (is_diff != 0) {
#ifdef MC_DEBUG
}
/* Compare heap */
- if (simgrid::mc::mmalloc_compare_heap(s1, s2) > 0) {
+ if (simgrid::mc::mmalloc_compare_heap(*state_comparator, s1, s2) > 0) {
#ifdef MC_DEBUG
XBT_DEBUG("(%d - %d) Different heap (mmalloc_compare)", num1, num2);
#ifdef MC_VERBOSE
XBT_VERB("(%d - %d) Different heap (mmalloc_compare)", num1, num2);
#endif
-
return 1;
#endif
}
- simgrid::mc::reset_heap_information();
-
#ifdef MC_VERBOSE
if (errors || hash_result)
XBT_VERB("(%d - %d) Difference found", num1, num2);