#include <stdbool.h>
+#include "internal_config.h"
+#include "smpi/private.h"
+
+#include "mc_snapshot.h"
#include "mc_private.h"
#include "mc_mmu.h"
#include "mc_page_store.h"
-mc_mem_region_t mc_get_snapshot_region(void* addr, mc_snapshot_t snapshot)
+/** @brief Find the snapshoted region from a pointer
+ *
+ * @param addr Pointer
+ * @param snapshot Snapshot
+ * @param Snapshot region in the snapshot this pointer belongs to
+ * (or NULL if it does not belong to any snapshot region)
+ * */
+mc_mem_region_t mc_get_snapshot_region(void* addr, mc_snapshot_t snapshot, int process_index)
{
- for (size_t i = 0; i != NB_REGIONS; ++i) {
- mc_mem_region_t region = snapshot->regions[i];
- void* start = region->start_addr;
- void* end = (char*) start + region->size;
-
- if (addr >= start && addr < end) {
- return region;
- }
- }
+#ifdef HAVE_SMPI
+ if (snapshot->privatization_regions) {
- return NULL;
-}
+ if (process_index < 0) {
-void* mc_translate_address_region(uintptr_t addr, mc_mem_region_t region)
-{
- xbt_assert(mc_region_contain(region, (void*) addr), "Trying to read out of the region boundary.");
+ mc_mem_region_t region = snapshot->privatization_regions[0];
+ if( mc_region_contain(region, addr) ) {
+ xbt_die("Missing process index");
+ }
- if (!region) {
- return (void *) addr;
- }
+ } else {
+ if (process_index >= smpi_process_count()) {
+ xbt_die("Invalid process index");
+ }
- // Flat snapshot:
- else if (region->data) {
- uintptr_t offset = addr - (uintptr_t) region->start_addr;
- return (void *) ((uintptr_t) region->data + offset);
- }
+ mc_mem_region_t region = snapshot->privatization_regions[process_index];
+ if( mc_region_contain(region, addr) ) {
+ return region;
+ }
- // Per-page snapshot:
- else if (region->page_numbers) {
- size_t pageno = mc_page_number(region->start_addr, (void*) addr);
- size_t snapshot_pageno = region->page_numbers[pageno];
- const void* snapshot_page = mc_page_store_get_page(mc_model_checker->pages, snapshot_pageno);
- return (char*) snapshot_page + mc_page_offset((void*) addr);
+ }
}
+#endif
- else {
- xbt_die("No data for this memory region");
- }
-}
-
-void* mc_translate_address(uintptr_t addr, mc_snapshot_t snapshot)
-{
-
- // If not in a process state/clone:
- if (!snapshot) {
- return (uintptr_t *) addr;
+ for (size_t i = 0; i != NB_REGIONS; ++i) {
+ mc_mem_region_t region = snapshot->regions[i];
+ if ( region && mc_region_contain(region, addr) ) {
+ return region;
+ }
}
- mc_mem_region_t region = mc_get_snapshot_region((void*) addr, snapshot);
- return mc_translate_address_region(addr, region);
+ return NULL;
}
/** @brief Read memory from a snapshot region broken across fragmented pages
* @param size Size of the data to read in bytes
* @return Pointer where the data is located (target buffer of original location)
*/
-static void* mc_snapshot_read_fragmented(void* addr, mc_mem_region_t region, void* target, size_t size)
+void* mc_snapshot_read_fragmented(void* addr, mc_mem_region_t region, void* target, size_t size)
{
+ // Last byte of the memory area:
void* end = (char*) addr + size - 1;
+
+ // Page of the last byte of the memory area:
size_t page_end = mc_page_number(NULL, end);
+
void* dest = target;
+ if (dest==NULL) {
+ xbt_die("Missing destination buffer for fragmented memory access");
+ }
+
// Read each page:
while (mc_page_number(NULL, addr) != page_end) {
void* snapshot_addr = mc_translate_address_region((uintptr_t) addr, region);
return target;
}
-/** @brief Read memory from a snapshot region
- *
- * @param addr Process (non-snapshot) address of the data
- * @param region Snapshot memory region where the data is located
- * @param target Buffer to store the value
- * @param size Size of the data to read in bytes
- * @return Pointer where the data is located (target buffer of original location)
- */
-void* mc_snapshot_read_region(void* addr, mc_mem_region_t region, void* target, size_t size)
-{
- uintptr_t offset = (uintptr_t) addr - (uintptr_t) region->start_addr;
-
- xbt_assert(addr >= region->start_addr && (char*) addr+size < (char*)region->start_addr+region->size,
- "Trying to read out of the region boundary.");
-
- // Linear memory region:
- if (region->data) {
- return (void*) ((uintptr_t) region->data + offset);
- }
-
- // Fragmented memory region:
- else if (region->page_numbers) {
- void* end = (char*) addr + size - 1;
- if( mc_same_page(addr, end) ) {
- // The memory is contained in a single page:
- return mc_translate_address_region((uintptr_t) addr, region);
- } else {
- // The memory spans several pages:
- return mc_snapshot_read_fragmented(addr, region, target, size);
- }
- }
-
- else {
- xbt_die("No data available for this region");
- }
-}
-
/** @brief Read memory from a snapshot
*
* @param addr Process (non-snapshot) address of the data
* @param snapshot Snapshot (or NULL is no snapshot)
* @param target Buffer to store the value
* @param size Size of the data to read in bytes
- * @return Pointer where the data is located (target buffer of original location)
+ * @return Pointer where the data is located (target buffer or original location)
*/
-void* mc_snapshot_read(void* addr, mc_snapshot_t snapshot, void* target, size_t size)
+void* mc_snapshot_read(void* addr, mc_snapshot_t snapshot, int process_index, void* target, size_t size)
{
if (snapshot) {
- mc_mem_region_t region = mc_get_snapshot_region(addr, snapshot);
+ mc_mem_region_t region = mc_get_snapshot_region(addr, snapshot, process_index);
return mc_snapshot_read_region(addr, region, target, size);
} else {
return addr;
* @param snapshot2 Region of the address in the second snapshot
* @return same as memcmp
* */
-int mc_snapshot_region_memcp(
+int mc_snapshot_region_memcmp(
void* addr1, mc_mem_region_t region1,
- void* addr2, mc_mem_region_t region2, size_t size)
+ void* addr2, mc_mem_region_t region2,
+ size_t size)
{
// Using alloca() for large allocations may trigger stack overflow:
// use malloc if the buffer is too big.
-
bool stack_alloc = size < 64;
- void* buffer = stack_alloc ? alloca(2*size) : malloc(2*size);
- void* buffer1 = mc_snapshot_read_region(addr1, region1, buffer, size);
- void* buffer2 = mc_snapshot_read_region(addr2, region2, (char*) buffer + size, size);
+ void* buffer1a = (region1==NULL || region1->data) ? NULL : stack_alloc ? alloca(size) : malloc(size);
+ void* buffer2a = (region2==NULL || region2->data) ? NULL : stack_alloc ? alloca(size) : malloc(size);
+ void* buffer1 = mc_snapshot_read_region(addr1, region1, buffer1a, size);
+ void* buffer2 = mc_snapshot_read_region(addr2, region2, buffer2a, size);
int res;
if (buffer1 == buffer2) {
- res = 0;
+ res = 0;
} else {
res = memcmp(buffer1, buffer2, size);
}
if (!stack_alloc) {
- free(buffer);
+ free(buffer1a);
+ free(buffer2a);
}
return res;
}
* @param snapshot2 Second snapshot
* @return same as memcmp
* */
-int mc_snapshot_memcp(
+int mc_snapshot_memcmp(
void* addr1, mc_snapshot_t snapshot1,
- void* addr2, mc_snapshot_t snapshot2, size_t size)
+ void* addr2, mc_snapshot_t snapshot2, int process_index, size_t size)
{
- mc_mem_region_t region1 = mc_get_snapshot_region(addr1, snapshot1);
- mc_mem_region_t region2 = mc_get_snapshot_region(addr2, snapshot2);
- return mc_snapshot_region_memcp(addr1, region1, addr2, region2, size);
+ mc_mem_region_t region1 = mc_get_snapshot_region(addr1, snapshot1, process_index);
+ mc_mem_region_t region2 = mc_get_snapshot_region(addr2, snapshot2, process_index);
+ return mc_snapshot_region_memcmp(addr1, region1, addr2, region2, size);
}
+
+#ifdef SIMGRID_TEST
+
+#include <string.h>
+#include <stdlib.h>
+
+#include <sys/mman.h>
+
+#include "mc/mc_private.h"
+#include "mc/mc_snapshot.h"
+#include "mc/mc_mmu.h"
+
+XBT_TEST_SUITE("mc_snapshot", "Snapshots");
+
+static inline void init_memory(void* mem, size_t size)
+{
+ char* dest = (char*) mem;
+ for (int i=0; i!=size; ++i) {
+ dest[i] = rand() & 255;
+ }
+}
+
+static void test_snapshot(bool sparse_checkpoint);
+
+XBT_TEST_UNIT("page_snapshots", test_per_snpashots, "Test per-page snapshots")
+{
+ test_snapshot(1);
+}
+
+
+XBT_TEST_UNIT("flat_snapshot", test_flat_snapshots, "Test flat snapshots")
+{
+ test_snapshot(0);
+}
+
+
+static void test_snapshot(bool sparse_checkpoint) {
+
+ xbt_test_add("Initialisation");
+ _sg_mc_soft_dirty = 0;
+ _sg_mc_sparse_checkpoint = sparse_checkpoint;
+ xbt_assert(xbt_pagesize == getpagesize());
+ xbt_assert(1 << xbt_pagebits == xbt_pagesize);
+ mc_model_checker = xbt_new0(s_mc_model_checker_t, 1);
+ mc_model_checker->pages = mc_pages_store_new();
+
+ for(int n=1; n!=256; ++n) {
+
+ // Store region page(s):
+ size_t byte_size = n * xbt_pagesize;
+ void* source = mmap(NULL, byte_size, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0);
+ xbt_assert(source!=MAP_FAILED, "Could not allocate source memory");
+
+ // Init memory and take snapshots:
+ init_memory(source, byte_size);
+ mc_mem_region_t region0 = mc_region_new_sparse(0, source, source, byte_size, NULL);
+ for(int i=0; i<n; i+=2) {
+ init_memory((char*) source + i*xbt_pagesize, xbt_pagesize);
+ }
+ mc_mem_region_t region = mc_region_new_sparse(0, source, source, byte_size, NULL);
+
+ void* destination = mmap(NULL, byte_size, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0);
+ xbt_assert(source!=MAP_FAILED, "Could not allocate destination memory");
+
+ xbt_test_add("Reading whole region data for %i page(s)", n);
+ void* read = mc_snapshot_read_region(source, region, destination, byte_size);
+ xbt_test_assert(!memcmp(source, read, byte_size), "Mismatch in mc_snapshot_read_region()");
+
+ xbt_test_add("Reading parts of region data for %i page(s)", n);
+ for(int j=0; j!=100; ++j) {
+ size_t offset = rand() % byte_size;
+ size_t size = rand() % (byte_size - offset);
+ void* read = mc_snapshot_read_region((char*) source+offset, region, destination, size);
+ xbt_test_assert(!memcmp((char*) source+offset, read, size),
+ "Mismatch in mc_snapshot_read_region()");
+ }
+
+ xbt_test_add("Compare whole region data for %i page(s)", n);
+ xbt_test_assert(!mc_snapshot_region_memcmp(source, NULL, source, region, byte_size),
+ "Mismatch in mc_snapshot_region_memcmp() for the whole region");
+ xbt_test_assert(mc_snapshot_region_memcmp(source, region0, source, region, byte_size),
+ "Unexpected match in mc_snapshot_region_memcmp() with previous snapshot");
+
+ xbt_test_add("Compare parts of region data for %i page(s) with current value", n);
+ for(int j=0; j!=100; ++j) {
+ size_t offset = rand() % byte_size;
+ size_t size = rand() % (byte_size - offset);
+ xbt_test_assert(!mc_snapshot_region_memcmp((char*) source+offset, NULL, (char*) source+offset, region, size),
+ "Mismatch in mc_snapshot_region_memcmp()");
+ }
+
+ xbt_test_add("Compare parts of region data for %i page(s) with itself", n);
+ for(int j=0; j!=100; ++j) {
+ size_t offset = rand() % byte_size;
+ size_t size = rand() % (byte_size - offset);
+ xbt_test_assert(!mc_snapshot_region_memcmp((char*) source+offset, region, (char*) source+offset, region, size),
+ "Mismatch in mc_snapshot_region_memcmp()");
+ }
+
+ if (n==1) {
+ xbt_test_add("Read pointer for %i page(s)", n);
+ memcpy(source, &mc_model_checker, sizeof(void*));
+ mc_mem_region_t region2 = mc_region_new_sparse(0, source, source, byte_size, NULL);
+ xbt_test_assert(mc_snapshot_read_pointer_region(source, region2) == mc_model_checker,
+ "Mismtach in mc_snapshot_read_pointer_region()");
+ MC_region_destroy(region2);
+ }
+
+ MC_region_destroy(region);
+ MC_region_destroy(region0);
+ munmap(destination, byte_size);
+ munmap(source, byte_size);
+ }
+
+ mc_pages_store_delete(mc_model_checker->pages);
+ xbt_free(mc_model_checker);
+ mc_model_checker = NULL;
+}
+
+#endif /* SIMGRID_TEST */