#include #include #include #include #include #include #include #include #pragma mark - #pragma mark VolumeEntry using namespace LittleEndian; using namespace Pascal; using namespace Device; unsigned VolumeEntry::ValidName(const char *cp) { // 7 chars max. Legal values: ascii, printable, // no space/tab, // no $=?,: return Entry::ValidName(cp, 7); } VolumeEntry::VolumeEntry() { _fileNameLength = 0; std::memset(_fileName, 0, 8); _lastVolumeBlock = 0; _fileCount = 0; _accessTime = 0; setInode(1); _inodeGenerator = 1; _cache = NULL; _device = NULL; } VolumeEntry::VolumeEntry(const char *name, Device::BlockDevice *device) { #undef __METHOD__ #define __METHOD__ "VolumeEntry::VolumeEntry" unsigned length; length = ValidName(name); if (!length) throw ProFUSE::Exception(__METHOD__ ": Invalid volume name."); _firstBlock = 0; _lastBlock = 6; _fileKind = kUntypedFile; _inode = 1; _inodeGenerator = 1; _fileNameLength = length; std::memset(_fileName, 0, sizeof(_fileName)); for (unsigned i = 0; i < _fileNameLength; ++i) { _fileName[i] = std::toupper(name[i]); } _lastVolumeBlock = device->blocks(); _fileCount = 0; _accessTime = 0; _lastBoot = Date::Today(); _cache = BlockCache::Create(device); _device = device; _address = 512 * 2; for (unsigned i = 2; i < 6; ++i) { _cache->zeroBlock(i); } void *vp = _cache->acquire(2); IOBuffer b(vp, 512); writeDirectoryEntry(&b); _cache->release(2, true); _cache->sync(); } VolumeEntry::VolumeEntry(Device::BlockDevice *device) { unsigned blockCount; ProFUSE::auto_array buffer(new uint8_t[512]); // read the header block, then load up all the header // blocks. _device = device; _cache = BlockCache::Create(device); _address = 512 * 2; _cache->read(2, buffer.get()); init(buffer.get()); // todo -- verify reasonable values. //printf("%u %u\n", blocks(), _lastBlock - _firstBlock); blockCount = blocks(); if (blockCount > 1) { buffer.reset(readDirectoryHeader()); } // now load up all the children. // if this throws, memory could be lost... try { for (unsigned i = 1; i <= _fileCount; ++i) { std::auto_ptr child; // child.reset(new FileEntry(buffer.get() + i * 0x1a)); child->setInode(++_inodeGenerator); child->_parent = this; child->_address = 512 * 2 + i * 0x1a; _files.push_back(child.release()); } } catch (...) { std::vector::iterator iter; for(iter = _files.begin(); iter != _files.end(); ++iter) { if (*iter) delete *iter; } throw; } } VolumeEntry::~VolumeEntry() { std::vector::iterator iter; for(iter = _files.begin(); iter != _files.end(); ++iter) { if (*iter) delete *iter; } delete _cache; // _device is deleted by _cache. //delete _device; } void VolumeEntry::init(void *vp) { #undef __METHOD__ #define __METHOD__ "VolumeEntry::init" Entry::init(vp); _fileNameLength = Read8(vp, 6); // verify filenamelength <= 7 if (_fileNameLength > 7) throw new ProFUSE::Exception(__METHOD__ ": invalid name length"); // verify fileKind == 0 // verify _fileCount reasonable // verify _lastVolumeBlock reasonable // verify _blocks reasonable. std::memcpy(_fileName, 7 + (uint8_t *)vp, _fileNameLength); _lastVolumeBlock = Read16(vp, 0x0e); _fileCount = Read16(vp, 0x10); _accessTime = Read16(vp, 0x12); _lastBoot = Date(Read16(vp, 0x14)); setInode(1); _inodeGenerator = 1; } FileEntry *VolumeEntry::fileAtIndex(unsigned i) const { return i < _files.size() ? _files[i] : NULL; } FileEntry *VolumeEntry::fileByName(const char *name) const { std::vector::const_iterator iter; for(iter = _files.begin(); iter != _files.end(); ++iter) { FileEntry *e = *iter; if (::strcasecmp(name, e->name()) == 0) return e; } return NULL; } unsigned VolumeEntry::unlink(const char *name) { unsigned index; if (_device->readOnly()) return ProFUSE::drvrWrtProt; // WRITE-PROTECTED DISK for(index = 0; index < _fileCount; ++index) { FileEntry *e = _files[index]; if (::strcasecmp(name, e->name()) == 0) { delete e; _files[index] = NULL; break; } } if (index == _fileCount) return ProFUSE::fileNotFound; // FILE NOT FOUND _files.erase(_files.begin() + index); _fileCount--; // reset addresses. for (unsigned i = index; i < _fileCount; ++i) { FileEntry *e = _files[i]; e->_address -= 0x1a; } // need to update the header blocks. ProFUSE::auto_array buffer(readDirectoryHeader()); // update the filecount. IOBuffer b(buffer.get(), 512 * blocks()); writeDirectoryEntry(&b); // move up all the entries. uint8_t *address = buffer.get() + 0x1a + 0x1a * index; std::memmove(address, address + 0x1a, 0x1a * (_fileCount - index)); // zero out the memory on the previous entry. std::memset(buffer.get() + 0x1a + _fileCount * 0x1a, 0, 0x1a); // now write to disk. writeDirectoryHeader(buffer.get()); _cache->sync(); return 0; } unsigned VolumeEntry::rename(const char *oldName, const char *newName) { FileEntry *e; // 1. verify old name exists. e = fileByName(oldName); if (!e) return ProFUSE::fileNotFound; // 2. verify new name is valid if (!FileEntry::ValidName(newName)) return ProFUSE::badPathSyntax; // 3. verify new name does not exist. if (fileByName(newName)) return ProFUSE::dupPathName; // 4. set the name (throws on error, which won't happen since // we already verified the name is valid. e->setName(newName); // 5. write to disk. writeEntry(e); _cache->sync(); return 0; } unsigned VolumeEntry::krunch() { unsigned prevBlock; std::vector::const_iterator iter; bool gap = false; // sanity check to make sure no weird overlap issues. prevBlock = lastBlock(); for (iter = _files.begin(); iter != _files.end(); ++iter) { FileEntry *e = *iter; unsigned first = e->firstBlock(); unsigned last = e->lastBlock(); if (first != prevBlock) gap = true; if (first < prevBlock) return ProFUSE::damagedBitMap; if (last < first) return ProFUSE::damagedBitMap; if (first < volumeBlocks()) return ProFUSE::damagedBitMap; prevBlock = last; } if (!gap) return 0; // need to update the header blocks. ProFUSE::auto_array buffer(readDirectoryHeader()); IOBuffer b(buffer.get(), 512 * blocks()); prevBlock = lastBlock(); unsigned offset = 0; for (iter = _files.begin(); iter != _files.end(); ++iter, ++offset) { FileEntry *e = *iter; b.setOffset(0x1a + 0x1a * offset); unsigned first = e->firstBlock(); unsigned last = e->lastBlock(); unsigned blocks = last - first; unsigned offset = first - prevBlock; if (offset == 0) { prevBlock = last; continue; } e->_firstBlock = first - offset; e->_lastBlock = last - offset; e->writeDirectoryEntry(&b); for (unsigned i = 0; i < blocks; ++i) { uint8_t buffer[512]; _cache->read(first + i, buffer); _cache->write(prevBlock +i, buffer); _cache->zeroBlock(first + i); } } // now save the directory entries. // load up the directory blocks. writeDirectoryHeader(buffer.get()); _cache->sync(); return 0; } void *VolumeEntry::loadBlock(unsigned block) { return _cache->acquire(block); } void VolumeEntry::unloadBlock(unsigned block, bool dirty) { return _cache->release(block, dirty); } void VolumeEntry::readBlock(unsigned block, void *buffer) { _cache->read(block, buffer); } void VolumeEntry::writeBlock(unsigned block, void *buffer) { _cache->write(block, buffer); } void VolumeEntry::sync() { _cache->sync(); } void VolumeEntry::writeDirectoryEntry(IOBuffer *b) { Entry::writeDirectoryEntry(b); b->write8(0); // reserved b->write8(_fileNameLength); b->writeBytes(_fileName, 7); b->write16(_lastVolumeBlock); b->write16(_fileCount); b->write16(_accessTime); b->write16(_lastBoot); // rest is reserved. b->writeZero(4); } uint8_t *VolumeEntry::readDirectoryHeader() { return readBlocks(2, blocks()); } void VolumeEntry::writeDirectoryHeader(void *buffer) { writeBlocks(buffer, 2, blocks()); } uint8_t *VolumeEntry::readBlocks(unsigned startingBlock, unsigned count) { ProFUSE::auto_array buffer(new uint8_t[512 * count]); for (unsigned i = 0; i < count; ++i) _cache->read(startingBlock + i, buffer.get() + 512 * i); return buffer.release(); } void VolumeEntry::writeBlocks(void *buffer, unsigned startingBlock, unsigned count) { for (unsigned i = 0; i < count; ++i) _cache->write(startingBlock + i, (uint8_t *)buffer + 512 * i); } // does not sync. void VolumeEntry::writeEntry(FileEntry *e) { unsigned address = e->_address; unsigned startBlock = address / 512; unsigned endBlock = (address + 0x1a - 1) / 512; unsigned offset = address % 512; if (startBlock == endBlock) { void *buffer = _cache->acquire(startBlock); IOBuffer b((uint8_t *)buffer + offset, 0x1a); e->writeDirectoryEntry(&b); _cache->release(startBlock, true); } else { // crosses page boundaries. ProFUSE::auto_array buffer(readBlocks(startBlock, 2)); IOBuffer b(buffer.get() + offset, 0x1a); e->writeDirectoryEntry(&b); writeBlocks(buffer.get(), startBlock, 2); } }