* load_directory()
*
* Read all the file names in the specified directory, and return them as
- * an array of "struct dirent" pointers. The array address is returned in
+ * an array of "char *" pointers. The array address is returned in
* *namelist, and the function result is the count of file names.
*
- * To free the result data, free each namelist array member, then free the
+ * To free the result data, free each (char *) array member, then free the
* namelist array itself.
*/
int
-load_directory(const char *dirname, struct dirent *** namelist)
+load_directory(const char *dirname, char ***namelist)
{
DIR *dirdesc;
struct dirent *direntry;
int count = 0;
- int allocsize = 64;
- size_t entrysize;
+ int allocsize = 64; /* initial array size */
- *namelist = (struct dirent **)
- pg_malloc(allocsize * sizeof(struct dirent *));
+ *namelist = (char **) pg_malloc(allocsize * sizeof(char *));
if ((dirdesc = opendir(dirname)) == NULL)
pg_log(PG_FATAL, "could not open directory \"%s\": %s\n",
if (count >= allocsize)
{
allocsize *= 2;
- *namelist = (struct dirent **)
- pg_realloc(*namelist, allocsize * sizeof(struct dirent *));
+ *namelist = (char **)
+ pg_realloc(*namelist, allocsize * sizeof(char *));
}
- entrysize = offsetof(struct dirent, d_name) +
- strlen(direntry->d_name) + 1;
-
- (*namelist)[count] = (struct dirent *) pg_malloc(entrysize);
-
- memcpy((*namelist)[count], direntry, entrysize);
-
- count++;
+ (*namelist)[count++] = pg_strdup(direntry->d_name);
}
#ifdef WIN32
typedef void *pageCnvCtx;
#endif
-int load_directory(const char *dirname, struct dirent *** namelist);
+int load_directory(const char *dirname, char ***namelist);
const char *copyAndUpdateFile(pageCnvCtx *pageConverter, const char *src,
const char *dst, bool force);
const char *linkAndUpdateFile(pageCnvCtx *pageConverter, const char *src,
{
char old_dir[MAXPGPATH];
char file_pattern[MAXPGPATH];
- struct dirent **namelist = NULL;
+ char **namelist = NULL;
int numFiles = 0;
int mapnum;
int fileno;
for (fileno = 0; fileno < numFiles; fileno++)
{
- char *vm_offset = strstr(namelist[fileno]->d_name, "_vm");
+ char *vm_offset = strstr(namelist[fileno], "_vm");
bool is_vm_file = false;
/* Is a visibility map file? (name ends with _vm) */
if (vm_offset && strlen(vm_offset) == strlen("_vm"))
is_vm_file = true;
- if (strncmp(namelist[fileno]->d_name, file_pattern,
+ if (strncmp(namelist[fileno], file_pattern,
strlen(file_pattern)) == 0 &&
(!is_vm_file || !vm_crashsafe_change))
{
snprintf(old_file, sizeof(old_file), "%s/%s", maps[mapnum].old_dir,
- namelist[fileno]->d_name);
+ namelist[fileno]);
snprintf(new_file, sizeof(new_file), "%s/%u%s", maps[mapnum].new_dir,
- maps[mapnum].new_relfilenode, strchr(namelist[fileno]->d_name, '_'));
+ maps[mapnum].new_relfilenode, strchr(namelist[fileno], '_'));
unlink(new_file);
transfer_relfile(pageConverter, old_file, new_file,
for (fileno = 0; fileno < numFiles; fileno++)
{
- if (strncmp(namelist[fileno]->d_name, file_pattern,
+ if (strncmp(namelist[fileno], file_pattern,
strlen(file_pattern)) == 0)
{
snprintf(old_file, sizeof(old_file), "%s/%s", maps[mapnum].old_dir,
- namelist[fileno]->d_name);
+ namelist[fileno]);
snprintf(new_file, sizeof(new_file), "%s/%u%s", maps[mapnum].new_dir,
- maps[mapnum].new_relfilenode, strchr(namelist[fileno]->d_name, '.'));
+ maps[mapnum].new_relfilenode, strchr(namelist[fileno], '.'));
unlink(new_file);
transfer_relfile(pageConverter, old_file, new_file,