// // C++ Interface: diskio (Unix components [Linux, FreeBSD, Mac OS X]) // // Description: Class to handle low-level disk I/O for GPT fdisk // // // Author: Rod Smith , (C) 2009 // // Copyright: See COPYING file that comes with this distribution // // // This program is copyright (c) 2009 by Roderick W. Smith. It is distributed // under the terms of the GNU GPL version 2, as detailed in the COPYING file. #define __STDC_LIMIT_MACROS #define __STDC_CONSTANT_MACROS #include #include #include #include #include #include #include #include #include #ifdef __linux__ #include "linux/hdreg.h" #endif #include #include #include #include "diskio.h" using namespace std; #if defined(__APPLE__) || defined(__linux__) #define off64_t off_t #define stat64 stat #define fstat64 fstat #define lstat64 lstat #define lseek64 lseek #endif // Returns the official "real" name for a shortened version of same. // Trivial here; more important in Windows void DiskIO::MakeRealName(void) { realFilename = userFilename; } // DiskIO::MakeRealName() // Open the currently on-record file for reading. Returns 1 if the file is // already open or is opened by this call, 0 if opening the file doesn't // work. int DiskIO::OpenForRead(void) { int shouldOpen = 1; struct stat64 st; if (isOpen) { // file is already open if (openForWrite) { Close(); } else { shouldOpen = 0; } // if/else } // if if (shouldOpen) { fd = open(realFilename.c_str(), O_RDONLY); if (fd == -1) { cerr << "Problem opening " << realFilename << " for reading! Error is " << errno << ".\n"; if (errno == EACCES) // User is probably not running as root cerr << "You must run this program as root or use sudo!\n"; if (errno == ENOENT) cerr << "The specified file does not exist!\n"; realFilename = ""; userFilename = ""; modelName = ""; isOpen = 0; openForWrite = 0; } else { isOpen = 0; openForWrite = 0; if (fstat64(fd, &st) == 0) { if (S_ISDIR(st.st_mode)) cerr << "The specified path is a directory!\n"; #if !(defined(__FreeBSD__) || defined(__FreeBSD_kernel__)) \ && !defined(__APPLE__) else if (S_ISCHR(st.st_mode)) cerr << "The specified path is a character device!\n"; #endif else if (S_ISFIFO(st.st_mode)) cerr << "The specified path is a FIFO!\n"; else if (S_ISSOCK(st.st_mode)) cerr << "The specified path is a socket!\n"; else isOpen = 1; } // if (fstat64()...) #if defined(__linux__) && !defined(EFI) if (isOpen && realFilename.substr(0,4) == "/dev") { ostringstream modelNameFilename; modelNameFilename << "/sys/block" << realFilename.substr(4,512) << "/device/model"; ifstream modelNameFile(modelNameFilename.str().c_str()); if (modelNameFile.is_open()) { getline(modelNameFile, modelName); } // if } // if #endif } // if/else } // if return isOpen; } // DiskIO::OpenForRead(void) // An extended file-open function. This includes some system-specific checks. // Returns 1 if the file is open, 0 otherwise.... int DiskIO::OpenForWrite(void) { if ((isOpen) && (openForWrite)) return 1; // Close the disk, in case it's already open for reading only.... Close(); // try to open the device; may fail.... fd = open(realFilename.c_str(), O_WRONLY | O_CREAT, S_IWUSR | S_IRUSR | S_IRGRP | S_IROTH); #ifdef __APPLE__ // MacOS X requires a shared lock under some circumstances.... if (fd < 0) { cerr << "Warning: Devices opened with shared lock will not have their\npartition table automatically reloaded!\n"; fd = open(realFilename.c_str(), O_WRONLY | O_SHLOCK); } // if #endif if (fd >= 0) { isOpen = 1; openForWrite = 1; } else { isOpen = 0; openForWrite = 0; } // if/else return isOpen; } // DiskIO::OpenForWrite(void) // Close the disk device. Note that this does NOT erase the stored filenames, // so the file can be re-opened without specifying the filename. void DiskIO::Close(void) { if (isOpen) if (close(fd) < 0) cerr << "Warning! Problem closing file!\n"; isOpen = 0; openForWrite = 0; } // DiskIO::Close() // Returns block size of device pointed to by fd file descriptor. If the ioctl // returns an error condition, print a warning but return a value of SECTOR_SIZE // (512). If the disk can't be opened at all, return a value of 0. int DiskIO::GetBlockSize(void) { int err = -1, blockSize = 0; #ifdef __sun__ struct dk_minfo minfo; #endif // If disk isn't open, try to open it.... if (!isOpen) { OpenForRead(); } // if if (isOpen) { #ifdef __APPLE__ err = ioctl(fd, DKIOCGETBLOCKSIZE, &blockSize); #endif #ifdef __sun__ err = ioctl(fd, DKIOCGMEDIAINFO, &minfo); if (err == 0) blockSize = minfo.dki_lbsize; #endif #if defined (__FreeBSD__) || defined (__FreeBSD_kernel__) err = ioctl(fd, DIOCGSECTORSIZE, &blockSize); #endif #ifdef __linux__ err = ioctl(fd, BLKSSZGET, &blockSize); #endif if (err == -1) { blockSize = SECTOR_SIZE; // ENOTTY = inappropriate ioctl; probably being called on a disk image // file, so don't display the warning message.... // 32-bit code returns EINVAL, I don't know why. I know I'm treading on // thin ice here, but it should be OK in all but very weird cases.... if ((errno != ENOTTY) && (errno != EINVAL)) { cerr << "\aError " << errno << " when determining sector size! Setting sector size to " << SECTOR_SIZE << "\n"; cout << "Disk device is " << realFilename << "\n"; } // if } // if (err == -1) } // if (isOpen) return (blockSize); } // DiskIO::GetBlockSize() // Returns the physical block size of the device, if possible. If this is // not supported, or if an error occurs, this function returns 0. // TODO: Get this working in more OSes than Linux. int DiskIO::GetPhysBlockSize(void) { int err = -1, physBlockSize = 0; // If disk isn't open, try to open it.... if (!isOpen) { OpenForRead(); } // if if (isOpen) { #if defined __linux__ && !defined(EFI) err = ioctl(fd, BLKPBSZGET, &physBlockSize); #endif } // if (isOpen) if (err == -1) physBlockSize = 0; return (physBlockSize); } // DiskIO::GetPhysBlockSize(void) // Returns the number of heads, according to the kernel, or 255 if the // correct value can't be determined. uint32_t DiskIO::GetNumHeads(void) { uint32_t numHeads = 255; #ifdef HDIO_GETGEO struct hd_geometry geometry; // If disk isn't open, try to open it.... if (!isOpen) OpenForRead(); if (!ioctl(fd, HDIO_GETGEO, &geometry)) numHeads = (uint32_t) geometry.heads; #endif return numHeads; } // DiskIO::GetNumHeads(); // Returns the number of sectors per track, according to the kernel, or 63 // if the correct value can't be determined. uint32_t DiskIO::GetNumSecsPerTrack(void) { uint32_t numSecs = 63; #ifdef HDIO_GETGEO struct hd_geometry geometry; // If disk isn't open, try to open it.... if (!isOpen) OpenForRead(); if (!ioctl(fd, HDIO_GETGEO, &geometry)) numSecs = (uint32_t) geometry.sectors; #endif return numSecs; } // DiskIO::GetNumSecsPerTrack() // Resync disk caches so the OS uses the new partition table. This code varies // a lot from one OS to another. // Returns 1 on success, 0 if the kernel continues to use the old partition table. // (Note that for most OSes, the default of 0 is returned because I've not yet // looked into how to test for success in the underlying system calls...) int DiskIO::DiskSync(void) { int i, retval = 0, platformFound = 0; // If disk isn't open, try to open it.... if (!isOpen) { OpenForRead(); } // if if (isOpen) { sync(); #if defined(__APPLE__) || defined(__sun__) cout << "Warning: The kernel may continue to use old or deleted partitions.\n" << "You should reboot or remove the drive.\n"; /* don't know if this helps * it definitely will get things on disk though: * http://topiks.org/mac-os-x/0321278542/ch12lev1sec8.html */ #ifdef __sun__ i = ioctl(fd, DKIOCFLUSHWRITECACHE); #else i = ioctl(fd, DKIOCSYNCHRONIZECACHE); #endif platformFound++; #endif #if defined (__FreeBSD__) || defined (__FreeBSD_kernel__) sleep(2); i = ioctl(fd, DIOCGFLUSH); cout << "Warning: The kernel may continue to use old or deleted partitions.\n" << "You should reboot or remove the drive.\n"; platformFound++; #endif #ifdef __linux__ sleep(1); // Theoretically unnecessary, but ioctl() fails sometimes if omitted.... fsync(fd); i = ioctl(fd, BLKRRPART); if (i) { cout << "Warning: The kernel is still using the old partition table.\n" << "The new table will be used at the next reboot or after you\n" << "run partprobe(8) or kpartx(8)\n"; } else { retval = 1; } // if/else platformFound++; #endif if (platformFound == 0) cerr << "Warning: Platform not recognized!\n"; if (platformFound > 1) cerr << "\nWarning: We seem to be running on multiple platforms!\n"; } // if (isOpen) return retval; } // DiskIO::DiskSync() // Seek to the specified sector. Returns 1 on success, 0 on failure. // Note that seeking beyond the end of the file is NOT detected as a failure! int DiskIO::Seek(uint64_t sector) { int retval = 1; off64_t seekTo, sought; // If disk isn't open, try to open it.... if (!isOpen) { retval = OpenForRead(); } // if if (isOpen) { seekTo = sector * (uint64_t) GetBlockSize(); sought = lseek64(fd, seekTo, SEEK_SET); if (sought != seekTo) { retval = 0; } // if } // if return retval; } // DiskIO::Seek() // A variant on the standard read() function. Done to work around // limitations in FreeBSD concerning the matching of the sector // size with the number of bytes read. // Returns the number of bytes read into buffer. int DiskIO::Read(void* buffer, int numBytes) { int blockSize, numBlocks, retval = 0; char* tempSpace; // If disk isn't open, try to open it.... if (!isOpen) { OpenForRead(); } // if if (isOpen) { // Compute required space and allocate memory blockSize = GetBlockSize(); if (numBytes <= blockSize) { numBlocks = 1; tempSpace = new char [blockSize]; } else { numBlocks = numBytes / blockSize; if ((numBytes % blockSize) != 0) numBlocks++; tempSpace = new char [numBlocks * blockSize]; } // if/else if (tempSpace == NULL) { cerr << "Unable to allocate memory in DiskIO::Read()! Terminating!\n"; exit(1); } // if // Read the data into temporary space, then copy it to buffer retval = read(fd, tempSpace, numBlocks * blockSize); memcpy(buffer, tempSpace, numBytes); // Adjust the return value, if necessary.... if (((numBlocks * blockSize) != numBytes) && (retval > 0)) retval = numBytes; delete[] tempSpace; } // if (isOpen) return retval; } // DiskIO::Read() // A variant on the standard write() function. Done to work around // limitations in FreeBSD concerning the matching of the sector // size with the number of bytes read. // Returns the number of bytes written. int DiskIO::Write(void* buffer, int numBytes) { int blockSize, i, numBlocks, retval = 0; char* tempSpace; // If disk isn't open, try to open it.... if ((!isOpen) || (!openForWrite)) { OpenForWrite(); } // if if (isOpen) { // Compute required space and allocate memory blockSize = GetBlockSize(); if (numBytes <= blockSize) { numBlocks = 1; tempSpace = new char [blockSize]; } else { numBlocks = numBytes / blockSize; if ((numBytes % blockSize) != 0) numBlocks++; tempSpace = new char [numBlocks * blockSize]; } // if/else if (tempSpace == NULL) { cerr << "Unable to allocate memory in DiskIO::Write()! Terminating!\n"; exit(1); } // if // Copy the data to my own buffer, then write it memcpy(tempSpace, buffer, numBytes); for (i = numBytes; i < numBlocks * blockSize; i++) { tempSpace[i] = 0; } // for retval = write(fd, tempSpace, numBlocks * blockSize); // Adjust the return value, if necessary.... if (((numBlocks * blockSize) != numBytes) && (retval > 0)) retval = numBytes; delete[] tempSpace; } // if (isOpen) return retval; } // DiskIO:Write() /************************************************************************************** * * * Below functions are lifted from various sources, as documented in comments before * * each one. * * * **************************************************************************************/ // The disksize function is taken from the Linux fdisk code and modified // greatly since then to enable FreeBSD and MacOS support, as well as to // return correct values for disk image files. uint64_t DiskIO::DiskSize(int *err) { uint64_t sectors = 0; // size in sectors off64_t bytes = 0; // size in bytes struct stat64 st; int platformFound = 0; #ifdef __sun__ struct dk_minfo minfo; #endif // If disk isn't open, try to open it.... if (!isOpen) { OpenForRead(); } // if if (isOpen) { // Note to self: I recall testing a simplified version of // this code, similar to what's in the __APPLE__ block, // on Linux, but I had some problems. IIRC, it ran OK on 32-bit // systems but not on 64-bit. Keep this in mind in case of // 32/64-bit issues on MacOS.... #ifdef __APPLE__ *err = ioctl(fd, DKIOCGETBLOCKCOUNT, §ors); platformFound++; #endif #ifdef __sun__ *err = ioctl(fd, DKIOCGMEDIAINFO, &minfo); if (*err == 0) sectors = minfo.dki_capacity; platformFound++; #endif #if defined (__FreeBSD__) || defined (__FreeBSD_kernel__) *err = ioctl(fd, DIOCGMEDIASIZE, &bytes); long long b = GetBlockSize(); sectors = bytes / b; platformFound++; #endif #ifdef __linux__ long sz; long long b; *err = ioctl(fd, BLKGETSIZE, &sz); if (*err) { sectors = sz = 0; } // if if ((!*err) || (errno == EFBIG)) { *err = ioctl(fd, BLKGETSIZE64, &b); if (*err || b == 0 || b == sz) sectors = sz; else sectors = (b >> 9); } // if // Unintuitively, the above returns values in 512-byte blocks, no // matter what the underlying device's block size. Correct for this.... sectors /= (GetBlockSize() / 512); platformFound++; #endif if (platformFound != 1) cerr << "Warning! We seem to be running on no known platform!\n"; // The above methods have failed, so let's assume it's a regular // file (a QEMU image, dd backup, or what have you) and see what // fstat() gives us.... if ((sectors == 0) || (*err == -1)) { if (fstat64(fd, &st) == 0) { bytes = st.st_size; if ((bytes % UINT64_C(512)) != 0) cerr << "Warning: File size is not a multiple of 512 bytes!" << " Misbehavior is likely!\n\a"; sectors = bytes / UINT64_C(512); } // if } // if } // if (isOpen) return sectors; } // DiskIO::DiskSize()