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640 lines
14 KiB
C++
640 lines
14 KiB
C++
/*
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* Copyright 2004 Martin Fuchs
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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//
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// Explorer clone
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//
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// fatfs.cpp
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//
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// Martin Fuchs, 01.02.2004
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//
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#include <precomp.h>
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#include "fatfs.h"
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#ifdef _DEBUG
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static union DEntry* link_dir_entries(struct dirent* dir, struct Kette* K, int cnt)
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{
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union DEntry* Ent = (union DEntry*) dir;
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struct Kette* L = NULL;
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for(; cnt; cnt--) {
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K->Rueck = L;
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(L=K)->Ent = Ent;
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AddP(K, sizeof(struct Kette));
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L->Vorw = K;
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AddP(Ent, sizeof(union DEntry));
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}
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L->Vorw = NULL;
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return Ent;
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}
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void FATDirectory::read_directory(int scan_flags)
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{
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CONTEXT("FATDirectory::read_directory()");
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read_dir();
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union DEntry* p = (union DEntry*) _dir;
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int i = 0;
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do {
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/* if (!IS_LNAME(p->E.attr) && p->E.name[0]!=FAT_DEL_CHAR)
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gesBytes += p->E.size;
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*/
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AddP(p, sizeof(union DEntry));
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} while(++i<_ents && p->E.name[0]);
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_alloc = (struct Kette*) malloc((size_t)((_ents=i)+8)*sizeof(struct Kette));
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if (!_alloc)
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return;
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link_dir_entries(_dir, _alloc, i);
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Entry* first_entry = NULL;
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int level = _level + 1;
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Entry* last = NULL;
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WIN32_FIND_DATA w32fd;
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FAT_attribute attr;
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String long_name;
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TCHAR buffer[MAX_PATH];
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_tcscpy(buffer, (LPCTSTR)_path);
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LPTSTR pname = buffer + _tcslen(buffer);
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int plen = COUNTOF(buffer) - _tcslen(buffer);
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*pname++ = '\\';
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--plen;
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for(Kette*p=_alloc; p; p=p->Vorw) {
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memset(&w32fd, 0, sizeof(WIN32_FIND_DATA));
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DEntry_E& e = p->Ent->E;
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// get file/directory attributes
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attr.b = e.attr;
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if (attr.b & (_A_DELETED | _A_ILLEGAL))
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attr.b |= _A_ILLEGAL;
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const char* s = e.name;
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LPTSTR d = w32fd.cFileName;
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if (!IS_LNAME(attr.b) || e.name[0]==FAT_DEL_CHAR) {
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if (e.name[0] == FAT_DEL_CHAR)
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w32fd.dwFileAttributes |= ATTRIBUTE_ERASED;
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else if (IS_LNAME(attr.b))
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w32fd.dwFileAttributes |= ATTRIBUTE_LONGNAME;
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else if (attr.a.directory)
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w32fd.dwFileAttributes |= FILE_ATTRIBUTE_DIRECTORY;
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else if (attr.a.volume)
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w32fd.dwFileAttributes |= ATTRIBUTE_VOLNAME; //@@ -> in Volume-Name der Root kopieren
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// get file name
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*d++ = *s==FAT_DEL_CHAR? '?': *s;
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++s;
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for(i=0; i<7; ++i)
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*d++ = *s++;
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while(d>w32fd.cFileName && d[-1]==' ')
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--d;
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*d++ = '.';
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for(; i<10; ++i)
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*d++ = *s++;
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while(d>w32fd.cFileName && d[-1]==' ')
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--d;
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if (d>w32fd.cFileName && d[-1]=='.')
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--d;
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*d = '\0';
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} else {
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s = (const char*)p->Ent->B; // no change of the pointer, just to avoid overung warnings in code checkers
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// read long file name
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TCHAR lname[] = {s[1], s[3], s[5], s[7], s[9], s[14], s[16], s[18], s[20], s[22], s[24], s[28], s[30]};
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long_name = String(lname, 13) + long_name;
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}
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if (!IS_LNAME(attr.b) && !attr.a.volume) {
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// get file size
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w32fd.nFileSizeLow = e.size;
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// convert date/time attribute into FILETIME
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const filedate& date = e.date;
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const filetime& time = e.time;
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SYSTEMTIME stime;
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FILETIME ftime;
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stime.wYear = date.year + 1980;
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stime.wMonth = date.month;
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stime.wDayOfWeek = (WORD)-1;
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stime.wDay = date.day;
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stime.wHour = time.hour;
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stime.wMinute = time.min;
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stime.wSecond = time.sec2 * 2;
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stime.wMilliseconds = 0;
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if (SystemTimeToFileTime(&stime, &ftime))
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LocalFileTimeToFileTime(&ftime, &w32fd.ftLastWriteTime);
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if (!(w32fd.dwFileAttributes & ATTRIBUTE_ERASED)) { //@@
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Entry* entry;
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if (w32fd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
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_tcscpy_s(pname, plen, w32fd.cFileName);
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entry = new FATDirectory(_drive, this, buffer, e.fclus);
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} else
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entry = new FATEntry(this, e.fclus);
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memcpy(&entry->_data, &w32fd, sizeof(WIN32_FIND_DATA));
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if (!long_name.empty()) {
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entry->_content = _tcsdup(long_name);
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long_name.erase();
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}
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if (!first_entry)
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first_entry = entry;
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if (last)
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last->_next = entry;
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entry->_level = level;
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last = entry;
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}
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}
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}
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if (last)
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last->_next = NULL;
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_down = first_entry;
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_scanned = true;
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}
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const void* FATDirectory::get_next_path_component(const void* p) const
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{
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LPCTSTR s = (LPCTSTR) p;
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while(*s && *s!=TEXT('\\') && *s!=TEXT('/'))
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++s;
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while(*s==TEXT('\\') || *s==TEXT('/'))
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++s;
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if (!*s)
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return NULL;
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return s;
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}
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Entry* FATDirectory::find_entry(const void* p)
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{
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LPCTSTR name = (LPCTSTR)p;
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for(Entry*entry=_down; entry; entry=entry->_next) {
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LPCTSTR p = name;
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LPCTSTR q = entry->_data.cFileName;
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do {
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if (!*p || *p==TEXT('\\') || *p==TEXT('/'))
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return entry;
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} while(tolower(*p++) == tolower(*q++));
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p = name;
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q = entry->_data.cAlternateFileName;
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do {
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if (!*p || *p==TEXT('\\') || *p==TEXT('/'))
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return entry;
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} while(tolower(*p++) == tolower(*q++));
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}
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return NULL;
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}
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// get full path of specified directory entry
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bool FATEntry::get_path(PTSTR path, size_t path_count) const
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{
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return get_path_base ( path, path_count, ET_FAT );
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}
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ShellPath FATEntry::create_absolute_pidl() const
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{
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CONTEXT("WinEntry::create_absolute_pidl()");
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return (LPCITEMIDLIST)NULL;
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/* prepend root path if the drive is currently actually mounted in the file system -> return working PIDL
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TCHAR path[MAX_PATH];
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if (get_path(path, COUNTOF(path)))
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return ShellPath(path);
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return ShellPath();
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*/
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}
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FATDirectory::FATDirectory(FATDrive& drive, LPCTSTR root_path)
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: FATEntry(),
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_drive(drive)
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{
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_path = _tcsdup(root_path);
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_secarr = NULL;
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_cur_bufs = 0;
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_ents = 0;
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_dir = NULL;
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_cluster = 0;
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}
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FATDirectory::FATDirectory(FATDrive& drive, Entry* parent, LPCTSTR path, unsigned cluster)
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: FATEntry(parent, cluster),
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_drive(drive)
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{
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_path = _tcsdup(path);
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_secarr = NULL;
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_cur_bufs = 0;
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_ents = 0;
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_dir = NULL;
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}
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FATDirectory::~FATDirectory()
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{
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free(_path);
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_path = NULL;
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}
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bool FATDirectory::read_dir()
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{
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int i;
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if (_cluster == 0) {
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if (!_drive._boot_sector.SectorsPerFAT) { // FAT32? [boot_sector32->reserved0==0]
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BootSector32* boot_sector32 = (BootSector32*) &_drive._boot_sector;
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DWORD sect = _drive._boot_sector.ReservedSectors + _drive._boot_sector.NumberFATs*boot_sector32->SectorsPerFAT32; // lese Root-Directory ein
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int RootEntries = boot_sector32->RootSectors * 32; //@@
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_secarr = (struct dirsecz*)malloc(sizeof(DWORD) * (_cur_bufs = (int)((_ents=RootEntries)/_drive._bufents)));
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for(i=0; i<_cur_bufs; i++)
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_secarr->s[i] = sect+i;
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_dir = (struct dirent*)malloc((size_t)(_ents+16)*sizeof(union DEntry));
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if (!_dir)
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return false;
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if (!(_drive.read_sector(*_secarr->s,(Buffer*)_dir,_cur_bufs)))
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return false;
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} else {
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DWORD sect = _drive._boot_sector.ReservedSectors + _drive._boot_sector.NumberFATs*_drive._boot_sector.SectorsPerFAT; // read in root directory
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_secarr = (struct dirsecz*)malloc(sizeof(DWORD) * (_cur_bufs = (int)((_ents=_drive._boot_sector.RootEntries)/_drive._bufents)));
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for(i=0; i<_cur_bufs; i++)
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_secarr->s[i] = sect+i;
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_dir = (struct dirent*)malloc((size_t)(_ents+16)*sizeof(union DEntry));
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if (!_dir)
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return false;
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if (!_drive.read_sector(*_secarr->s,(Buffer*)_dir,_cur_bufs))
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return false;
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}
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} else {
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Buffer* buf;
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bool ok;
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DWORD h = _cluster;
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_cur_bufs = 0;
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do {
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h = _drive.read_FAT(h, ok);
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if (!ok)
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return false;
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_cur_bufs++;
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} while (h<0x0ffffff0 && h);
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_secarr = (struct dirsecz*) malloc(sizeof(DWORD) * _cur_bufs);
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if (!_secarr)
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return false;
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_ents = _drive._bufents * (size_t)_cur_bufs * _drive._SClus;
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if ((buf=(Buffer*)(_dir=(struct dirent*)malloc((size_t) (_ents+16)*sizeof(union DEntry)))) == NULL)
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return false;
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h = _cluster;
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DWORD fdatsec;
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if (!_drive._boot_sector.SectorsPerFAT) { // FAT32 ?
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BootSector32* boot_sector32 = (BootSector32*) &_drive._boot_sector;
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//int RootEntries = boot_sector32->RootSectors * 32; //@@
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//fdatsec = _drive._boot_sector.ReservedSectors + _drive._boot_sector.NumberFATs*boot_sector32->SectorsPerFAT32 + RootEntries*sizeof(DEntry)/_drive._boot_sector.BytesPerSector; // dpb.fdirsec
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fdatsec = _drive._boot_sector.ReservedSectors +
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_drive._boot_sector.NumberFATs*boot_sector32->SectorsPerFAT32 + boot_sector32->RootSectors;
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} else
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fdatsec = _drive._boot_sector.ReservedSectors +
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_drive._boot_sector.NumberFATs*_drive._boot_sector.SectorsPerFAT +
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_drive._boot_sector.RootEntries*sizeof(DEntry)/_drive._boot_sector.BytesPerSector; // dpb.fdirsec
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for(i=0; i<_cur_bufs; i++) {
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_secarr->s[i] = fdatsec + (DWORD)_drive._SClus*(h-2);
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h = _drive.read_FAT(h, ok);
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if (!ok)
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return false;
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}
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for(i=0; i<_cur_bufs; i++) {
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if ((ok = (_drive.read_sector(_secarr->s[i], buf, _drive._SClus))) == true)
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AddP(buf, _drive._bufl*_drive._SClus)
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else {
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//@@FPara = _secarr->s[i];
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return false;
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}
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}
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buf->dat[0] = 0; // Endekennzeichen f<>r Rekurs setzen
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}
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return true;
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}
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#ifdef _MSC_VER
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#pragma warning(disable: 4355)
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#endif
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FATDrive::FATDrive(LPCTSTR path)
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: FATDirectory(*this, TEXT("\\"))
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{
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_bufl = 0;
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_bufents = 0;
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_SClus = 0;
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_FATCache = NULL;
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_CacheCount = 0;
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_CacheSec = NULL;
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_CacheCnt = NULL;
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_CacheDty = NULL;
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_Caches = 0;
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_hDrive = CreateFile(path, GENERIC_READ|GENERIC_WRITE, FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, 0);
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if (_hDrive != INVALID_HANDLE_VALUE) {
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_boot_sector.BytesPerSector = 512;
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if (read_sector(0, (Buffer*)&_boot_sector, 1)) {
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_bufl = _boot_sector.BytesPerSector;
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_SClus = _boot_sector.SectorsPerCluster;
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_bufents = _bufl / sizeof(union DEntry);
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}
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small_cache();
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}
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}
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FATDrive::~FATDrive()
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{
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if (_hDrive != INVALID_HANDLE_VALUE)
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CloseHandle(_hDrive);
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free(_path);
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_path = NULL;
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}
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void FATDrive::small_cache()
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{
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if (_FATCache)
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free(_FATCache);
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if (_CacheSec) {
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free(_CacheSec), _CacheSec = NULL;
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free(_CacheCnt);
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free(_CacheDty);
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}
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_Caches = CACHE_SIZE_LOW;
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_FATCache = (struct Cache *) malloc((_Caches+1) * _drive._bufl);
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reset_cache();
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}
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void FATDrive::reset_cache() // mark cache as empty
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{
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int i;
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if (!_CacheSec) {
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_CacheSec = (DWORD*) malloc(_Caches * sizeof(DWORD));
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_CacheCnt = (int*) malloc(_Caches * sizeof(int));
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_CacheDty = (bool*) malloc(_Caches * sizeof(bool));
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} else {
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_CacheSec = (DWORD*) realloc(_CacheSec, _Caches * sizeof(DWORD));
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_CacheCnt = (int*) realloc(_CacheCnt, _Caches * sizeof(int));
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_CacheDty = (bool*) realloc(_CacheDty, _Caches * sizeof(bool));
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}
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for(i=0; i<_Caches; i++)
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_CacheSec[i] = 0;
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_read_ahead = (_Caches+1) / 2;
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}
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bool FATDrive::read_sector(DWORD sec, Buffer* buf, int len)
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{
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sec += 63; //@@ jump to first partition
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if (SetFilePointer(_hDrive, sec*_drive._boot_sector.BytesPerSector, 0, 0) == INVALID_SET_FILE_POINTER)
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return false;
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DWORD read;
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if (!ReadFile(_hDrive, buf, len*_drive._boot_sector.BytesPerSector, &read, 0))
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return false;
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return true;
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}
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DWORD FATDrive::read_FAT(DWORD cluster, bool& ok) //@@ use exception handling
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{
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DWORD nClus;
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Buffer* FATBuf;
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DWORD nclus = (_boot_sector.Sectors32? _boot_sector.Sectors32: _boot_sector.Sectors16) / _boot_sector.SectorsPerCluster; ///@todo cache result
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if (cluster > nclus) {
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ok = false;
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return (DWORD)-1;
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}
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if (nclus >= 65536) { // FAT32
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DWORD FATsec = cluster / (_boot_sector.BytesPerSector/4);
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DWORD z = (cluster - _boot_sector.BytesPerSector/4 * FATsec)*4;
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FATsec += _boot_sector.ReservedSectors;
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if (!read_cache(FATsec, &FATBuf))
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ok = false;
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nClus = dpeek(&FATBuf->dat[z]);
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} else if (nclus >= 4096) { // 16 Bit-FAT
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DWORD FATsec = cluster / (_boot_sector.BytesPerSector/2);
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DWORD z = (cluster - _boot_sector.BytesPerSector/2 * FATsec)*2;
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FATsec += _boot_sector.ReservedSectors;
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if (!read_cache(FATsec, &FATBuf))
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ok = false;
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nClus = wpeek(&FATBuf->dat[z]);
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||
if (nClus >= 0xfff0)
|
||
nClus |= 0x0fff0000;
|
||
} else { // 12 Bit-FAT
|
||
DWORD FATsec = cluster*3 / (_boot_sector.BytesPerSector*2);
|
||
DWORD z = (cluster*3 - _boot_sector.BytesPerSector*2*FATsec)/2;
|
||
FATsec += _boot_sector.ReservedSectors;
|
||
if (!read_cache(FATsec,&FATBuf))
|
||
ok = false;
|
||
BYTE a = FATBuf->dat[z++];
|
||
|
||
if (z >= _boot_sector.BytesPerSector)
|
||
if (!read_cache(FATsec+1,&FATBuf))
|
||
ok = false;
|
||
z = 0;
|
||
|
||
BYTE b = FATBuf->dat[z];
|
||
|
||
if (cluster & 1)
|
||
nClus = (a>>4) | (b<<4);
|
||
else
|
||
nClus = a | ((b & 0xf)<<8);
|
||
|
||
if (nClus >= 0xff0)
|
||
nClus |= 0x0ffff000;
|
||
}
|
||
|
||
return nClus;
|
||
}
|
||
|
||
bool FATDrive::read_cache(DWORD sec, Buffer** bufptr)
|
||
{
|
||
int i, C, anz;
|
||
|
||
if (_boot_sector.BytesPerSector != BufLen) // no standard sector size?
|
||
return read_sector(sec, *bufptr=(Buffer*)&_FATCache[0], 1);
|
||
|
||
_CacheCount++;
|
||
|
||
for(i=0; _CacheSec[i]!=sec && i<_Caches; )
|
||
++i;
|
||
|
||
if (i < _Caches)
|
||
{
|
||
*bufptr = (Buffer*) &_FATCache[i]; // FAT-Sektor schon gepuffert
|
||
_CacheCnt[i]++;
|
||
return true;
|
||
}
|
||
|
||
i = get_cache_buffer();
|
||
|
||
if (_cache_empty) // von get_cache_buffer() gesetzt
|
||
{
|
||
C = _CacheCount-1;
|
||
anz = _boot_sector.SectorsPerFAT*_boot_sector.NumberFATs - sec;
|
||
|
||
if (anz > _read_ahead)
|
||
anz = _read_ahead;
|
||
|
||
for(i=0; i<anz; i++) {
|
||
_CacheSec[i] = sec++;
|
||
_CacheCnt[i] = C;
|
||
_CacheDty[i] = 0;
|
||
}
|
||
|
||
_CacheCnt[0] = _CacheCount;
|
||
|
||
return read_sector(_CacheSec[0], *bufptr=(Buffer*) &_FATCache[0], anz);
|
||
}
|
||
else
|
||
{
|
||
_CacheDty[i] = 0;
|
||
_CacheCnt[i] = _CacheCount;
|
||
|
||
return read_sector(_CacheSec[i]=sec, *bufptr=(Buffer*) &_FATCache[i], 1);
|
||
}
|
||
}
|
||
|
||
int FATDrive::get_cache_buffer() // search for free cache buffer
|
||
{
|
||
int i, j, minCnt;
|
||
|
||
for(i=0; i<_Caches; i++)
|
||
if (_CacheSec[i])
|
||
break;
|
||
|
||
_cache_empty = i==_Caches? true: false;
|
||
|
||
for(i=0; _CacheSec[i] && i<_Caches; )
|
||
++i;
|
||
|
||
if (i < _Caches)
|
||
j = i;
|
||
else
|
||
{
|
||
minCnt = 0; // search for least used buffer
|
||
|
||
for(j=i=0; i<_Caches; i++)
|
||
if (minCnt < _CacheCnt[i]) {
|
||
minCnt = _CacheCnt[i];
|
||
j = i;
|
||
}
|
||
|
||
/**@todo enable write back
|
||
if (CacheDty[j]) // Dirty-Flag gesetzt?
|
||
if (writesec(_CacheSec[j], (Buffer*) &_FATCache[j], 1))
|
||
FPara = _CacheSec[j], Frag(SecWriteErr);
|
||
*/
|
||
}
|
||
|
||
return j;
|
||
}
|
||
|
||
#endif // _DEBUG
|