#include <map>
#include <cstring>
-#include "private.h"
#include "private.hpp"
#include <cerrno>
* This information is used by SMPI_SHARED_MALLOC to allocate some shared memory for all simulated processes.
*/
-class smpi_source_location {
+class smpi_source_location : public std::string {
public:
- smpi_source_location(const char* filename, int line)
- : filename(xbt_strdup(filename)), filename_length(strlen(filename)), line(line)
+ smpi_source_location() = default;
+ smpi_source_location(const char* filename, int line) : std::string(std::string(filename) + ":" + std::to_string(line))
{
}
-
- /** Pointer to a static string containing the file name */
- char* filename = nullptr;
- int filename_length = 0;
- int line = 0;
-
- bool operator==(smpi_source_location const& that) const
- {
- return filename_length == that.filename_length && line == that.line &&
- std::memcmp(filename, that.filename, filename_length) == 0;
- }
- bool operator!=(smpi_source_location const& that) const { return not(*this == that); }
-};
-}
-
-namespace std {
-
-template <> class hash<smpi_source_location> {
-public:
- typedef smpi_source_location argument_type;
- typedef std::size_t result_type;
- result_type operator()(smpi_source_location const& loc) const
- {
- return xbt_str_hash_ext(loc.filename, loc.filename_length) ^
- xbt_str_hash_ext((const char*)&loc.line, sizeof(loc.line));
- }
};
-}
-namespace{
-
-typedef struct {
+struct shared_data_t {
int fd = -1;
int count = 0;
-} shared_data_t;
+};
-std::unordered_map<smpi_source_location, shared_data_t> allocs;
-typedef std::unordered_map<smpi_source_location, shared_data_t>::value_type shared_data_key_type;
+std::unordered_map<smpi_source_location, shared_data_t, std::hash<std::string>> allocs;
+typedef decltype(allocs)::value_type shared_data_key_type;
-typedef struct {
+struct shared_metadata_t {
size_t size;
size_t allocated_size;
void *allocated_ptr;
std::vector<std::pair<size_t, size_t>> private_blocks;
shared_data_key_type* data;
-} shared_metadata_t;
+};
std::map<void*, shared_metadata_t> allocs_metadata;
std::map<std::string, void*> calls;
* We cannot use a same file for the two type of calls, since the first one needs to be
* opened in a hugetlbfs mount point whereas the second needs to be a "classical" file. */
if(use_huge_page && smpi_shared_malloc_bogusfile_huge_page == -1) {
- const char *const array[] = {huge_page_mount_point, "simgrid-shmalloc-XXXXXX", nullptr};
- char *huge_page_filename = xbt_str_join_array(array, "/");
+ char* huge_page_filename = bprintf("%s/simgrid-shmalloc-XXXXXX", huge_page_mount_point);
smpi_shared_malloc_bogusfile_huge_page = mkstemp(huge_page_filename);
XBT_DEBUG("bogusfile_huge_page: %s\n", huge_page_filename);
unlink(huge_page_filename);
xbt_free(huge_page_filename);
}
if(smpi_shared_malloc_bogusfile == -1) {
- char *name = xbt_strdup("/tmp/simgrid-shmalloc-XXXXXX");
+ char name[] = "/tmp/simgrid-shmalloc-XXXXXX";
smpi_shared_malloc_bogusfile = mkstemp(name);
XBT_DEBUG("bogusfile : %s\n", name);
unlink(name);
- xbt_free(name);
- char* dumb = (char*)calloc(1, smpi_shared_malloc_blocksize);
+ char* dumb = new char[smpi_shared_malloc_blocksize](); // zero initialized
ssize_t err = write(smpi_shared_malloc_bogusfile, dumb, smpi_shared_malloc_blocksize);
if(err<0)
xbt_die("Could not write bogus file for shared malloc");
- xbt_free(dumb);
+ delete[] dumb;
}
int mmap_base_flag = MAP_FIXED | MAP_SHARED | MAP_POPULATE;
shared_metadata_t newmeta;
//register metadata for memcpy avoidance
- shared_data_key_type* data = (shared_data_key_type*)xbt_malloc(sizeof(shared_data_key_type));
+ shared_data_key_type* data = new shared_data_key_type;
data->second.fd = -1;
data->second.count = 1;
newmeta.size = size;
size_t shared_block_offsets[2] = {0, size};
return smpi_shared_malloc_partial(size, shared_block_offsets, nb_shared_blocks);
}
- XBT_DEBUG("Classic malloc %zu", size);
- return xbt_malloc(size);
+ XBT_DEBUG("Classic allocation of %zu bytes", size);
+ return ::operator new(size);
}
int smpi_is_shared(void* ptr, std::vector<std::pair<size_t, size_t>> &private_blocks, size_t *offset){
std::vector<std::pair<size_t, size_t>> shift_and_frame_private_blocks(const std::vector<std::pair<size_t, size_t>> vec, size_t offset, size_t buff_size) {
std::vector<std::pair<size_t, size_t>> result;
for (auto const& block : vec) {
- auto new_block = std::make_pair(std::min(std::max((size_t)0, block.first-offset), buff_size),
- std::min(std::max((size_t)0, block.second-offset), buff_size));
- if(new_block.second > 0 && new_block.first < buff_size)
- result.push_back(new_block);
+ auto new_block = std::make_pair(std::min(std::max((size_t)0, block.first - offset), buff_size),
+ std::min(std::max((size_t)0, block.second - offset), buff_size));
+ if (new_block.second > 0 && new_block.first < buff_size)
+ result.push_back(new_block);
}
return result;
}
if (meta != allocs_metadata.end()){
meta->second.data->second.count--;
if(meta->second.data->second.count==0)
- xbt_free(meta->second.data);
+ delete meta->second.data;
}
munmap(ptr, meta->second.size);
} else {
- XBT_DEBUG("Classic free of %p", ptr);
- xbt_free(ptr);
+ XBT_DEBUG("Classic deallocation of %p", ptr);
+ ::operator delete(ptr);
}
}
#endif