#include "mc_private.h"
#include "xbt/module.h"
#include <xbt/mmalloc.h>
+#include "../smpi/private.h"
#include "xbt/mmalloc/mmprivate.h"
static void MC_region_destroy(mc_mem_region_t reg)
{
- xbt_free(reg->data);
+ munmap(reg->data, reg->size);
xbt_free(reg);
}
xbt_free(snapshot->stack_sizes);
xbt_dynar_free(&(snapshot->stacks));
xbt_dynar_free(&(snapshot->to_ignore));
+
+ if(snapshot->privatization_regions){
+ size_t n = snapshot->nb_processes;
+ for(i=0; i!=n; ++i) {
+ MC_region_destroy(snapshot->privatization_regions[i]);
+ }
+ xbt_free(snapshot->privatization_regions);
+ }
+
xbt_free(snapshot);
}
mc_mem_region_t new_reg = xbt_new(s_mc_mem_region_t, 1);
new_reg->start_addr = start_addr;
new_reg->size = size;
- new_reg->data = xbt_malloc(size);
+ new_reg->data = mmap(NULL, size, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0);
+ if(new_reg->data==MAP_FAILED)
+ xbt_die("Could not mmap new memory for snapshot.");
memcpy(new_reg->data, start_addr, size);
+ madvise(new_reg->data, size, MADV_MERGEABLE);
XBT_DEBUG("New region : type : %d, data : %p (real addr %p), size : %zu", type, new_reg->data, start_addr, size);
}
static void MC_get_memory_regions(mc_snapshot_t snapshot){
+ size_t i;
void* start_heap = ((xbt_mheap_t)std_heap)->base;
void* end_heap = ((xbt_mheap_t)std_heap)->breakval;
snapshot->heap_bytes_used = mmalloc_get_bytes_used(std_heap);
MC_snapshot_add_region(snapshot, 1, mc_libsimgrid_info->start_rw, mc_libsimgrid_info->end_rw - mc_libsimgrid_info->start_rw);
- MC_snapshot_add_region(snapshot, 2, mc_binary_info->start_rw, mc_binary_info->end_rw - mc_binary_info->start_rw);
+ if(!smpi_privatize_global_variables) {
+ MC_snapshot_add_region(snapshot, 2, mc_binary_info->start_rw, mc_binary_info->end_rw - mc_binary_info->start_rw);
+ snapshot->privatization_regions = NULL;
+ snapshot->privatization_index = -1;
+ } else {
+ snapshot->privatization_regions = xbt_new(mc_mem_region_t, SIMIX_process_count());
+ for (i=0; i< SIMIX_process_count(); i++){
+ snapshot->privatization_regions[i] = MC_region_new(-1, mappings[i], size_data_exe);
+ }
+ snapshot->privatization_index = loaded_page;
+ }
}
/** @brief Finds the range of the different memory segments and binary paths */
* \param ip Instruction pointer
* \return true if the variable is valid
* */
-static bool mc_valid_variable(dw_variable_t var, dw_frame_t frame, const void* ip) {
+static bool mc_valid_variable(dw_variable_t var, dw_frame_t scope, const void* ip) {
// The variable is not yet valid:
- if((const void*)((const char*) frame->low_pc + var->start_scope) > ip)
+ if((const void*)((const char*) scope->low_pc + var->start_scope) > ip)
return false;
else
return true;
dw_variable_t current_variable;
xbt_dynar_foreach(scope->variables, cursor, current_variable){
- if(!mc_valid_variable(current_variable, stack_frame->frame, (void*) stack_frame->ip))
+ if(!mc_valid_variable(current_variable, scope, (void*) stack_frame->ip))
continue;
int region_type;
new_var->type = current_variable->type;
new_var->region= region_type;
- /* if(current_variable->address!=NULL) {
+ if(current_variable->address!=NULL) {
new_var->address = current_variable->address;
- } else */
+ } else
if(current_variable->locations.size != 0){
new_var->address = (void*) mc_dwarf_resolve_locations(¤t_variable->locations,
+ current_variable->object_info,
&(stack_frame->unw_cursor), (void*)stack_frame->frame_base, NULL);
+ } else {
+ xbt_die("No address");
}
xbt_dynar_push(result, &new_var);
unw_cursor_t c;
- int ret;
- for(ret = unw_init_local(&c, (unw_context_t *)stack_context); ret >= 0; ret = unw_step(&c)){
+ // TODO, check condition check (unw_init_local==0 means end of frame)
+ if(unw_init_local(&c, (unw_context_t *)stack_context)!=0) {
+
+ xbt_die("Could not initialize stack unwinding");
+
+ } else while(1) {
+
mc_stack_frame_t stack_frame = xbt_new(s_mc_stack_frame_t, 1);
xbt_dynar_push(result, &stack_frame);
if(frame) {
stack_frame->frame_name = xbt_strdup(frame->name);
- stack_frame->frame_base = (unw_word_t)mc_find_frame_base(frame, &c);
+ stack_frame->frame_base = (unw_word_t)mc_find_frame_base(frame, frame->object_info, &c);
} else {
stack_frame->frame_base = 0;
+ stack_frame->frame_name = NULL;
}
/* Stop before context switch with maestro */
if(frame!=NULL && frame->name!=NULL && !strcmp(frame->name, "smx_ctx_sysv_wrapper"))
break;
+
+ int ret = ret = unw_step(&c);
+ if(ret==0) {
+ xbt_die("Unexpected end of stack.");
+ } else if(ret<0) {
+ xbt_die("Error while unwinding stack.");
+ }
}
if(xbt_dynar_length(result) == 0){
if(num_state > 0)
MC_dump_checkpoint_ignore(snapshot);
+ // mprotect the region after zero-ing ignored parts:
+ size_t i;
+ for(i=0; i!=NB_REGIONS; ++i) {
+ mc_mem_region_t region = snapshot->regions[i];
+ mprotect(region->data, region->size, PROT_READ);
+ }
+
return snapshot;
}
void MC_restore_snapshot(mc_snapshot_t snapshot){
unsigned int i;
for(i=0; i < NB_REGIONS; i++){
- MC_region_restore(snapshot->regions[i]);
+ // For privatized, variables we decided it was not necessary to take the snapshot:
+ if(snapshot->regions[i])
+ MC_region_restore(snapshot->regions[i]);
}
+ if(snapshot->privatization_regions) {
+ for (i=0; i< SIMIX_process_count(); i++){
+ if(snapshot->privatization_regions[i]) {
+ MC_region_restore(snapshot->privatization_regions[i]);
+ }
+ }
+ switch_data_segment(snapshot->privatization_index);
+ }
}
void* mc_translate_address(uintptr_t addr, mc_snapshot_t snapshot) {