#include "mc_page_store.h"
#include "mc_mmu.h"
#include "mc_private.h"
+#include "mc_snapshot.h"
#include <xbt/mmalloc.h>
* If possible, the restoration will be incremental
* (the modified pages will not be touched).
*
- * @param data The start of the region (must be at the beginning of a page)
- * @param pag_count Number of pages of the region
+ * @param start_addr
+ * @param page_count Number of pages of the region
+ * @param pagenos
* @param pagemap Linux kernel pagemap values fot this region (or NULL)
* @param reference_pages Snapshot page numbers of the previous soft_dirty_reset (or NULL)
*/
-void mc_restore_page_snapshot_region(mc_mem_region_t region, size_t page_count, uint64_t* pagemap, mc_mem_region_t reference_region)
+void mc_restore_page_snapshot_region(void* start_addr, size_t page_count, size_t* pagenos, uint64_t* pagemap, size_t* reference_pagenos)
{
for (size_t i=0; i!=page_count; ++i) {
bool softclean = pagemap && !(pagemap[i] & SOFT_DIRTY);
- if (softclean && reference_region && reference_region->page_numbers[i] == region->page_numbers[i]) {
+ if (softclean && reference_pagenos && pagenos[i] == reference_pagenos[i]) {
// The page is softclean and is the same as the reference one:
// the page is already in the target state.
continue;
}
// Otherwise, copy the page:
- void* target_page = mc_page_from_number(region->start_addr, i);
- const void* source_page = mc_model_checker->pages->get_page(region->page_numbers[i]);
+ void* target_page = mc_page_from_number(start_addr, i);
+ const void* source_page = mc_model_checker->pages->get_page(pagenos[i]);
memcpy(target_page, source_page, xbt_pagesize);
}
}
// ***** High level API
-mc_mem_region_t mc_region_new_sparse(int type, void *start_addr, size_t size, mc_mem_region_t ref_reg)
+mc_mem_region_t mc_region_new_sparse(mc_region_type_t region_type,
+ void *start_addr, void* permanent_addr, size_t size,
+ mc_mem_region_t ref_reg)
{
- mc_mem_region_t new_reg = xbt_new(s_mc_mem_region_t, 1);
-
- new_reg->start_addr = start_addr;
- new_reg->data = NULL;
- new_reg->size = size;
- new_reg->page_numbers = NULL;
+ mc_mem_region_t region = xbt_new(s_mc_mem_region_t, 1);
+ region->region_type = region_type;
+ region->storage_type = MC_REGION_STORAGE_TYPE_CHUNKED;
+ region->start_addr = start_addr;
+ region->permanent_addr = permanent_addr;
+ region->size = size;
xbt_assert((((uintptr_t)start_addr) & (xbt_pagesize-1)) == 0,
"Not at the beginning of a page");
+ xbt_assert((((uintptr_t)permanent_addr) & (xbt_pagesize-1)) == 0,
+ "Not at the beginning of a page");
size_t page_count = mc_page_count(size);
uint64_t* pagemap = NULL;
if (_sg_mc_soft_dirty && mc_model_checker->parent_snapshot) {
- pagemap = (uint64_t*) mmalloc_no_memset((xbt_mheap_t) mc_heap, sizeof(uint64_t) * page_count);
- mc_read_pagemap(pagemap, mc_page_number(NULL, start_addr), page_count);
+ pagemap = (uint64_t*) mmalloc_no_memset(mc_heap, sizeof(uint64_t) * page_count);
+ mc_read_pagemap(pagemap, mc_page_number(NULL, permanent_addr), page_count);
}
+ size_t* reg_page_numbers = NULL;
+ if (ref_reg!=NULL && ref_reg->storage_type == MC_REGION_STORAGE_TYPE_CHUNKED)
+ reg_page_numbers = ref_reg->chunked.page_numbers;
+
// Take incremental snapshot:
- new_reg->page_numbers = mc_take_page_snapshot_region(start_addr, page_count, pagemap,
- ref_reg==NULL ? NULL : ref_reg->page_numbers);
+ region->chunked.page_numbers = mc_take_page_snapshot_region(
+ permanent_addr, page_count, pagemap, reg_page_numbers);
if(pagemap) {
- mfree((xbt_mheap_t) mc_heap, pagemap);
+ mfree(mc_heap, pagemap);
}
- return new_reg;
+ return region;
}
void mc_region_restore_sparse(mc_mem_region_t reg, mc_mem_region_t ref_reg)
{
- xbt_assert((((uintptr_t)reg->start_addr) & (xbt_pagesize-1)) == 0,
+ xbt_assert((((uintptr_t)reg->permanent_addr) & (xbt_pagesize-1)) == 0,
"Not at the beginning of a page");
size_t page_count = mc_page_count(reg->size);
// Read soft-dirty bits if necessary in order to know which pages have changed:
if (_sg_mc_soft_dirty && mc_model_checker->parent_snapshot) {
- pagemap = (uint64_t*) mmalloc_no_memset((xbt_mheap_t) mc_heap, sizeof(uint64_t) * page_count);
- mc_read_pagemap(pagemap, mc_page_number(NULL, reg->start_addr), page_count);
+ pagemap = (uint64_t*) mmalloc_no_memset(mc_heap, sizeof(uint64_t) * page_count);
+ mc_read_pagemap(pagemap, mc_page_number(NULL, reg->permanent_addr), page_count);
}
- // Incremental per-page snapshot restoration:
- mc_restore_page_snapshot_region(reg, page_count, pagemap, ref_reg);
+ // Incremental per-page snapshot restoration:s
+ size_t* reg_page_numbers = NULL;
+ if (ref_reg && ref_reg->storage_type == MC_REGION_STORAGE_TYPE_CHUNKED)
+ reg_page_numbers = ref_reg->chunked.page_numbers;
+
+ mc_restore_page_snapshot_region(reg->permanent_addr, page_count, reg->chunked.page_numbers,
+ pagemap, reg_page_numbers);
- // This is funny, the restoration can restore the state of the current heap,
- // if this happen free(pagemap) would free from the wrong heap:
if(pagemap) {
- mfree((xbt_mheap_t) mc_heap, pagemap);
+ free(pagemap);
}
}