/** * @file backup.cpp * Make a backup of a source file * The current plans are to use two files. * * - A '.unc-backup~' file that contains the original contents * - A '.unc-backup-md5~' file that contains the MD5 over the last output * that uncrustify generated * * The logic goes like this: * 1. If there isn't a .backup-md5 or the md5 over the input file doesn't * match what is in .backup-md5, then copy the source file to .backup. * * 2. Create the output file. * * 3. Calculate the md5 over the output file. * Create the .backup-md5 file. * * This will let you run uncrustify multiple times over the same file without * losing the original file. If you edit the file, then a new backup is made. * * @author Ben Gardner * @license GPL v2+ */ #include "prototypes.h" #include "backup.h" #include "logger.h" #include "md5.h" #include "unc_ctype.h" #include "uncrustify.h" #include #include #include using namespace std; int backup_copy_file(const char *filename, const vector &data) { char newpath[1024]; char md5_str_in[33]; char md5_str[34]; UINT8 dig[16]; md5_str_in[0] = 0; MD5::Calc(&data[0], data.size(), dig); snprintf(md5_str, sizeof(md5_str), "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n", dig[0], dig[1], dig[2], dig[3], dig[4], dig[5], dig[6], dig[7], dig[8], dig[9], dig[10], dig[11], dig[12], dig[13], dig[14], dig[15]); // Create the backup-md5 filename, open it and read the md5 snprintf(newpath, sizeof(newpath), "%s%s", filename, UNC_BACKUP_MD5_SUFFIX); FILE *thefile = fopen(newpath, "rb"); if (thefile != nullptr) { char buffer[128]; if (fgets(buffer, sizeof(buffer), thefile) != nullptr) { for (int i = 0; buffer[i] != 0; i++) { if (unc_isxdigit(buffer[i])) { md5_str_in[i] = unc_tolower(buffer[i]); } else { md5_str_in[i] = 0; break; } } } fclose(thefile); } // if the MD5s match, then there is no need to back up the file if (memcmp(md5_str, md5_str_in, 32) == 0) { LOG_FMT(LNOTE, "%s: MD5 match for %s\n", __func__, filename); return(EX_OK); } LOG_FMT(LNOTE, "%s: MD5 mismatch - backing up %s\n", __func__, filename); // Create the backup file snprintf(newpath, sizeof(newpath), "%s%s", filename, UNC_BACKUP_SUFFIX); thefile = fopen(newpath, "wb"); if (thefile != nullptr) { size_t retval = fwrite(&data[0], data.size(), 1, thefile); int my_errno = errno; fclose(thefile); if (retval == 1) { return(EX_OK); } LOG_FMT(LERR, "fwrite(%s) failed: %s (%d)\n", newpath, strerror(my_errno), my_errno); cpd.error_count++; } else { LOG_FMT(LERR, "fopen(%s) failed: %s (%d)\n", newpath, strerror(errno), errno); cpd.error_count++; } return(EX_IOERR); } // backup_copy_file void backup_create_md5_file(const char *filename) { UINT8 dig[16]; MD5 md5; FILE *thefile; UINT8 buf[4096]; size_t len; char newpath[1024]; md5.Init(); thefile = fopen(filename, "rb"); if (thefile == nullptr) { LOG_FMT(LERR, "%s: fopen(%s) failed: %s (%d)\n", __func__, filename, strerror(errno), errno); cpd.error_count++; return; } // read file chunk by chunk and calculate its MD5 checksum while ((len = fread(buf, 1, sizeof(buf), thefile)) > 0) { md5.Update(buf, len); } fclose(thefile); md5.Final(dig); snprintf(newpath, sizeof(newpath), "%s%s", filename, UNC_BACKUP_MD5_SUFFIX); thefile = fopen(newpath, "wb"); if (thefile != nullptr) { fprintf(thefile, "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x %s\n", dig[0], dig[1], dig[2], dig[3], dig[4], dig[5], dig[6], dig[7], dig[8], dig[9], dig[10], dig[11], dig[12], dig[13], dig[14], dig[15], path_basename(filename)); fclose(thefile); } } // backup_create_md5_file