continue;
if (region->storage_type() == simgrid::mc::StorageType::Privatized) {
-#ifdef HAVE_SMPI
+#if HAVE_SMPI
// Use the current process index of the snapshot:
- if (process_index == simgrid::mc::ProcessIndexDisabled) {
+ if (process_index == simgrid::mc::ProcessIndexDisabled)
process_index = snapshot->privatization_index;
- }
- if (process_index < 0) {
+ if (process_index < 0)
xbt_die("Missing process index");
- }
- if (process_index >= (int) region->privatized_data().size()) {
+ if (process_index >= (int) region->privatized_data().size())
xbt_die("Invalid process index");
- }
simgrid::mc::RegionSnapshot& priv_region = region->privatized_data()[process_index];
xbt_assert(priv_region.contain(simgrid::mc::remote(addr)));
return &priv_region;
// Last byte of the memory area:
void* end = (char*) addr + size - 1;
+ // TODO, we assume the chunks are aligned to natural chunk boundaries.
+ // We should remove this assumption.
+
// Page of the last byte of the memory area:
- size_t page_end = mc_page_number(nullptr, end);
+ size_t page_end = simgrid::mc::mmu::split((std::uintptr_t) end).first;
void* dest = target;
- if (dest==nullptr) {
+ if (dest==nullptr)
xbt_die("Missing destination buffer for fragmented memory access");
- }
// Read each page:
- while (mc_page_number(nullptr, addr) != page_end) {
+ while (simgrid::mc::mmu::split((std::uintptr_t) addr).first != page_end) {
void* snapshot_addr = mc_translate_address_region_chunked((uintptr_t) addr, region);
- void* next_page = mc_page_from_number(nullptr, mc_page_number(NULL, addr) + 1);
+ void* next_page = (void*) simgrid::mc::mmu::join(
+ simgrid::mc::mmu::split((std::uintptr_t) addr).first + 1,
+ 0);
size_t readable = (char*) next_page - (char*) addr;
memcpy(dest, snapshot_addr, readable);
addr = (char*) addr + readable;
const void* buffer1 = MC_region_read(region1, buffer1a, addr1, size);
const void* buffer2 = MC_region_read(region2, buffer2a, addr2, size);
int res;
- if (buffer1 == buffer2) {
+ if (buffer1 == buffer2)
res = 0;
- } else {
+ else
res = memcmp(buffer1, buffer2, size);
- }
- if (!stack_alloc) {
+ if (not stack_alloc) {
free(buffer1a);
free(buffer2a);
}
* @return same as memcmp
* */
int MC_snapshot_memcmp(
- const void* addr1, mc_snapshot_t snapshot1,
- const void* addr2, mc_snapshot_t snapshot2, int process_index, size_t size)
+ const void* addr1, simgrid::mc::Snapshot* snapshot1,
+ const void* addr2, simgrid::mc::Snapshot* snapshot2, int process_index, size_t 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);
namespace simgrid {
namespace mc {
-Snapshot::Snapshot(Process* process) :
- AddressSpace(process),
- num_state(0),
- heap_bytes_used(0),
- enabled_processes(),
- privatization_index(0),
- hash(0)
-{
-
-}
-
-Snapshot::~Snapshot()
+Snapshot::Snapshot(Process* process, int _num_state)
+ : AddressSpace(process)
+ , num_state(_num_state)
+ , heap_bytes_used(0)
+ , enabled_processes()
+ , privatization_index(0)
+ , hash(0)
{
}
const void* Snapshot::read_bytes(void* buffer, std::size_t size,
- remote_ptr<void> address, int process_index,
+ RemotePtr<void> address, int process_index,
ReadOptions options) const
{
mc_mem_region_t region = mc_get_snapshot_region((void*)address.address(), this, process_index);
static void test_snapshot(bool sparse_checkpoint) {
- xbt_test_add("Initialisation");
+ xbt_test_add("Initialization");
_sg_mc_sparse_checkpoint = sparse_checkpoint;
xbt_assert(xbt_pagesize == getpagesize());
xbt_assert(1 << xbt_pagebits == xbt_pagesize);
// Init memory and take snapshots:
init_memory(source, byte_size);
simgrid::mc::RegionSnapshot region0 = simgrid::mc::sparse_region(
- simgrid::mc::RegionType::Unknown, source, source, byte_size, nullptr);
+ simgrid::mc::RegionType::Unknown, source, source, byte_size);
for(int i=0; i<n; i+=2) {
init_memory((char*) source + i*xbt_pagesize, xbt_pagesize);
}
simgrid::mc::RegionSnapshot region = simgrid::mc::sparse_region(
- simgrid::mc::RegionType::Unknown, source, source, byte_size, nullptr);
+ simgrid::mc::RegionType::Unknown, source, source, byte_size);
void* destination = mmap(nullptr, 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);
const void* read = MC_region_read(®ion, destination, source, byte_size);
- xbt_test_assert(!memcmp(source, read, byte_size), "Mismatch in MC_region_read()");
+ xbt_test_assert(not memcmp(source, read, byte_size), "Mismatch in MC_region_read()");
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);
const void* read = MC_region_read(®ion, destination, (const char*) source+offset, size);
- xbt_test_assert(!memcmp((char*) source+offset, read, size),
- "Mismatch in MC_region_read()");
+ xbt_test_assert(not memcmp((char*)source + offset, read, size), "Mismatch in MC_region_read()");
}
xbt_test_add("Compare whole 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);
- xbt_test_assert(!MC_snapshot_region_memcmp((char*) source+offset, ®ion, (char*) source+offset, ®ion, size),
- "Mismatch in MC_snapshot_region_memcmp()");
+ xbt_test_assert(
+ not MC_snapshot_region_memcmp((char*)source + offset, ®ion, (char*)source + offset, ®ion, 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*));
simgrid::mc::RegionSnapshot region2 = simgrid::mc::sparse_region(
- simgrid::mc::RegionType::Unknown, source, source, byte_size, nullptr);
+ simgrid::mc::RegionType::Unknown, source, source, byte_size);
xbt_test_assert(MC_region_read_pointer(®ion2, source) == mc_model_checker,
"Mismtach in MC_region_read_pointer()");
}