region->permanent_addr = permanent_addr;
region->size = size;
region->flat.data = xbt_malloc(size);
- MC_process_read(&mc_model_checker->process, region->flat.data, permanent_addr, size);
+ MC_process_read(&mc_model_checker->process, MC_ADDRESS_SPACE_READ_FLAGS_NONE,
+ region->flat.data, permanent_addr, size,
+ MC_PROCESS_INDEX_DISABLED);
XBT_DEBUG("New region : type : %d, data : %p (real addr %p), size : %zu",
region_type, region->flat.data, permanent_addr, size);
return region;
ref_reg = mc_model_checker->parent_snapshot->snapshot_regions[index];
mc_mem_region_t region;
- const bool privatization_aware = object_info && MC_object_info_executable(object_info);
- if (privatization_aware && smpi_privatize_global_variables && smpi_process_count())
+ const bool privatization_aware = MC_object_info_is_privatized(object_info);
+ if (privatization_aware && smpi_process_count())
region = MC_region_new_privatized(type, start_addr, permanent_addr, size, ref_reg);
else
region = MC_region_new(type, start_addr, permanent_addr, size, ref_reg);
return;
}
-static void MC_get_memory_regions(mc_snapshot_t snapshot)
+static void MC_get_memory_regions(mc_process_t process, mc_snapshot_t snapshot)
{
- const mc_process_t process = &mc_model_checker->process;
const size_t n = process->object_infos_size;
snapshot->snapshot_regions_count = n + 1;
snapshot->snapshot_regions = xbt_new0(mc_mem_region_t, n + 1);
for (size_t i = 0; i!=n; ++i) {
- mc_object_info_t object_info = mc_model_checker->process.object_infos[i];
+ mc_object_info_t object_info = process->object_infos[i];
MC_snapshot_add_region(i, snapshot, MC_REGION_TYPE_DATA, object_info,
object_info->start_rw, object_info->start_rw,
object_info->end_rw - object_info->start_rw);
}
- void *start_heap = std_heap->base;
- void *end_heap = std_heap->breakval;
+ xbt_mheap_t heap = MC_process_get_heap(process);
+ void *start_heap = heap->base;
+ void *end_heap = heap->breakval;
+
MC_snapshot_add_region(n, snapshot, MC_REGION_TYPE_HEAP, NULL,
start_heap, start_heap,
(char *) end_heap - (char *) start_heap);
- snapshot->heap_bytes_used = mmalloc_get_bytes_used(std_heap);
+ snapshot->heap_bytes_used = mmalloc_get_bytes_used_remote(
+ heap->heaplimit,
+ MC_process_get_malloc_info(process));
#ifdef HAVE_SMPI
if (smpi_privatize_global_variables && smpi_process_count()) {
} else
#endif
{
- snapshot->privatization_index = MC_NO_PROCESS_INDEX;
+ snapshot->privatization_index = MC_PROCESS_INDEX_MISSING;
}
}
i++;
}
+ result->start = result->start_rw;
+ if ((const void*) result->start_ro > result->start)
+ result->start = result->start_ro;
+ if ((const void*) result->start_exec > result->start)
+ result->start = result->start_exec;
+
+ result->end = result->end_rw;
+ if (result->end_ro && (const void*) result->end_ro < result->end)
+ result->end = result->end_ro;
+ if (result->end_exec && (const void*) result->end_exec > result->end)
+ result->end = result->end_exec;
+
xbt_assert(result->file_name);
xbt_assert(result->start_rw);
xbt_assert(result->start_exec);
static void MC_snapshot_handle_ignore(mc_snapshot_t snapshot)
{
+ xbt_assert(snapshot->process);
snapshot->ignored_data = xbt_dynar_new(sizeof(s_mc_snapshot_ignored_data_t), mc_free_snapshot_ignored_data_pvoid);
// Copy the memory:
ignored_data.start = region->addr;
ignored_data.size = region->size;
ignored_data.data = malloc(region->size);
- memcpy(ignored_data.data, region->addr, region->size);
+ // TODO, we should do this once per privatization segment:
+ MC_process_read(snapshot->process,
+ MC_ADDRESS_SPACE_READ_FLAGS_NONE,
+ ignored_data.data, region->addr, region->size, MC_PROCESS_INDEX_DISABLED);
xbt_dynar_push(snapshot->ignored_data, &ignored_data);
}
// Zero the memory:
xbt_dynar_foreach (mc_checkpoint_ignore, cursor, region) {
- memset(region->addr, 0, region->size);
+ MC_process_clear_memory(snapshot->process, region->addr, region->size);
}
}
unsigned int cursor = 0;
s_mc_snapshot_ignored_data_t ignored_data;
xbt_dynar_foreach (snapshot->ignored_data, cursor, ignored_data) {
- memcpy(ignored_data.start, ignored_data.data, ignored_data.size);
+ MC_process_write(snapshot->process,
+ ignored_data.data, ignored_data.start, ignored_data.size);
}
}
closedir (fd_dir);
}
+static s_mc_address_space_class_t mc_snapshot_class = {
+ .read = (void*) &MC_snapshot_read
+};
+
mc_snapshot_t MC_take_snapshot(int num_state)
{
+ mc_process_t mc_process = &mc_model_checker->process;
mc_snapshot_t snapshot = xbt_new0(s_mc_snapshot_t, 1);
+ snapshot->process = mc_process;
+ snapshot->address_space.address_space_class = &mc_snapshot_class;
snapshot->enabled_processes = xbt_dynar_new(sizeof(int), NULL);
smx_process_t process;
const bool use_soft_dirty = _sg_mc_sparse_checkpoint
&& _sg_mc_soft_dirty
- && MC_process_is_self(&mc_model_checker->process);
+ && MC_process_is_self(mc_process);
/* Save the std heap and the writable mapped pages of libsimgrid and binary */
- MC_get_memory_regions(snapshot);
+ MC_get_memory_regions(mc_process, snapshot);
if (use_soft_dirty)
mc_softdirty_reset();
if (use_soft_dirty) {
mc_model_checker->parent_snapshot = snapshot;
}
+
+ mc_model_checker->process.cache_flags = 0;
}
mc_snapshot_t simcall_HANDLER_mc_snapshot(smx_simcall_t simcall)