/* * Drive management code * * Copyright 2003 Mark Westcott * Copyright 2003-2004 Mike Hearn * Copyright 2004 Chris Morgan * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "winecfg.h" #include "resource.h" WINE_DEFAULT_DEBUG_CHANNEL(winecfg); struct drive drives[26]; /* one for each drive letter */ static inline int letter_to_index(char letter) { return (toupper(letter) - 'A'); } /* This function produces a mask for each drive letter that isn't * currently used. Each bit of the long result represents a letter, * with A being the least significant bit, and Z being the most * significant. * * To calculate this, we loop over each letter, and see if we can get * a drive entry for it. If so, we set the appropriate bit. At the * end, we flip each bit, to give the desired result. * * The letter parameter is always marked as being available. This is * so the edit dialog can display the currently used drive letter * alongside the available ones. */ long drive_available_mask(char letter) { long result = 0; int i; WINE_TRACE("\n"); for(i = 0; i < 26; i++) { if (!drives[i].in_use) continue; result |= (1 << (toupper(drives[i].letter) - 'A')); } result = ~result; if (letter) result |= DRIVE_MASK_BIT(letter); WINE_TRACE("finished drive letter loop with %lx\n", result); return result; } BOOL add_drive(char letter, char *targetpath, char *label, char *serial, unsigned int type) { int driveIndex = letter_to_index(letter); if(drives[driveIndex].in_use) return FALSE; WINE_TRACE("letter == '%c', unixpath == '%s', label == '%s', serial == '%s', type == %d\n", letter, targetpath, label, serial, type); drives[driveIndex].letter = toupper(letter); drives[driveIndex].unixpath = strdupA(targetpath); drives[driveIndex].label = strdupA(label); drives[driveIndex].serial = strdupA(serial); drives[driveIndex].type = type; drives[driveIndex].in_use = TRUE; return TRUE; } /* deallocates the contents of the drive. does not free the drive itself */ void delete_drive(struct drive *d) { HeapFree(GetProcessHeap(), 0, d->unixpath); d->unixpath = NULL; HeapFree(GetProcessHeap(), 0, d->label); d->label = NULL; HeapFree(GetProcessHeap(), 0, d->serial); d->serial = NULL; d->in_use = FALSE; } #if 0 /* currently unused, but if users have this burning desire to be able to rename drives, we can put it back in. */ BOOL copyDrive(struct drive *pSrc, struct drive *pDst) { if(pDst->in_use) { WINE_TRACE("pDst already in use\n"); return FALSE; } if(!pSrc->unixpath) WINE_TRACE("!pSrc->unixpath\n"); if(!pSrc->label) WINE_TRACE("!pSrc->label\n"); if(!pSrc->serial) WINE_TRACE("!pSrc->serial\n"); pDst->unixpath = strdupA(pSrc->unixpath); pDst->label = strdupA(pSrc->label); pDst->serial = strdupA(pSrc->serial); pDst->type = pSrc->type; pDst->in_use = TRUE; return TRUE; } BOOL moveDrive(struct drive *pSrc, struct drive *pDst) { WINE_TRACE("pSrc->letter == %c, pDst->letter == %c\n", pSrc->letter, pDst->letter); if(!copyDrive(pSrc, pDst)) { WINE_TRACE("copyDrive failed\n"); return FALSE; } delete_drive(pSrc); return TRUE; } #endif /* Load currently defined drives into the drives array */ void load_drives() { char *devices, *dev; int len; int drivecount = 0, i; int retval; static const int arraysize = 512; WINE_TRACE("\n"); /* FIXME: broken symlinks in $WINEPREFIX/dosdevices will not be returned by this API, so we need to handle that */ /* setup the drives array */ dev = devices = HeapAlloc(GetProcessHeap(), 0, arraysize); len = GetLogicalDriveStrings(arraysize, devices); /* make all devices unused */ for (i = 0; i < 26; i++) { drives[i].letter = 'A' + i; drives[i].in_use = FALSE; HeapFree(GetProcessHeap(), 0, drives[i].unixpath); drives[i].unixpath = NULL; HeapFree(GetProcessHeap(), 0, drives[i].label); drives[i].label = NULL; HeapFree(GetProcessHeap(), 0, drives[i].serial); drives[i].serial = NULL; } /* work backwards through the result of GetLogicalDriveStrings */ while (len) { char volname[512]; /* volume name */ DWORD serial; char serialstr[256]; char rootpath[256]; char simplepath[3]; int pathlen; char targetpath[256]; char *c; *devices = toupper(*devices); WINE_TRACE("devices == '%s'\n", devices); volname[0] = 0; retval = GetVolumeInformation(devices, volname, sizeof(volname), &serial, NULL, NULL, NULL, 0); if(!retval) { WINE_ERR("GetVolumeInformation() for '%s' failed, setting serial to 0\n", devices); PRINTERROR(); serial = 0; } WINE_TRACE("serial: '0x%lX'\n", serial); /* build rootpath for GetDriveType() */ strncpy(rootpath, devices, sizeof(rootpath)); pathlen = strlen(rootpath); /* ensure that we have a backslash on the root path */ if ((rootpath[pathlen - 1] != '\\') && (pathlen < sizeof(rootpath))) { rootpath[pathlen] = '\\'; rootpath[pathlen + 1] = 0; } strncpy(simplepath, devices, 2); /* QueryDosDevice() requires no trailing backslash */ simplepath[2] = 0; QueryDosDevice(simplepath, targetpath, sizeof(targetpath)); /* targetpath may have forward slashes rather than backslashes, so correct */ c = targetpath; do if (*c == '\\') *c = '/'; while (*c++); snprintf(serialstr, sizeof(serialstr), "%lX", serial); WINE_TRACE("serialstr: '%s'\n", serialstr); add_drive(*devices, targetpath, volname, serialstr, GetDriveType(rootpath)); len -= strlen(devices); devices += strlen(devices); /* skip over any nulls */ while ((*devices == 0) && (len)) { len--; devices++; } drivecount++; } WINE_TRACE("found %d drives\n", drivecount); HeapFree(GetProcessHeap(), 0, dev); } /* some of this code appears to be broken by bugs in Wine: the label * setting code has no effect, for instance */ void apply_drive_changes() { int i; CHAR devicename[4]; CHAR targetpath[256]; BOOL foundDrive; CHAR volumeNameBuffer[512]; DWORD serialNumber; DWORD maxComponentLength; DWORD fileSystemFlags; CHAR fileSystemName[128]; int retval; BOOL defineDevice; WINE_TRACE("\n"); /* add each drive and remove as we go */ for(i = 0; i < 26; i++) { defineDevice = FALSE; foundDrive = FALSE; snprintf(devicename, sizeof(devicename), "%c:", 'A' + i); /* get a drive */ if(QueryDosDevice(devicename, targetpath, sizeof(targetpath))) { char *cursor; /* correct the slashes in the path to be UNIX style */ while ((cursor = strchr(targetpath, '\\'))) *cursor = '/'; foundDrive = TRUE; } /* if we found a drive and have a drive then compare things */ if(foundDrive && drives[i].in_use) { char newSerialNumberText[256]; volumeNameBuffer[0] = 0; WINE_TRACE("drives[i].letter: '%c'\n", drives[i].letter); snprintf(devicename, sizeof(devicename), "%c:\\", 'A' + i); retval = GetVolumeInformation(devicename, volumeNameBuffer, sizeof(volumeNameBuffer), &serialNumber, &maxComponentLength, &fileSystemFlags, fileSystemName, sizeof(fileSystemName)); if(!retval) { WINE_TRACE(" GetVolumeInformation() for '%s' failed\n", devicename); WINE_TRACE(" Skipping this drive\n"); PRINTERROR(); continue; /* skip this drive */ } snprintf(newSerialNumberText, sizeof(newSerialNumberText), "%lX", serialNumber); WINE_TRACE(" current path: '%s', new path: '%s'\n", targetpath, drives[i].unixpath); WINE_TRACE(" current label: '%s', new label: '%s'\n", volumeNameBuffer, drives[i].label); WINE_TRACE(" current serial: '%s', new serial: '%s'\n", newSerialNumberText, drives[i].serial); /* compare to what we have */ /* do we have the same targetpath? */ if(strcmp(drives[i].unixpath, targetpath) || strcmp(drives[i].label, volumeNameBuffer) || strcmp(drives[i].serial, newSerialNumberText)) { defineDevice = TRUE; WINE_TRACE(" making changes to drive '%s'\n", devicename); } else { WINE_TRACE(" no changes to drive '%s'\n", devicename); } } else if(foundDrive && !drives[i].in_use) { /* remove this drive */ if(!DefineDosDevice(DDD_REMOVE_DEFINITION, devicename, drives[i].unixpath)) { WINE_ERR("unable to remove devicename of '%s', targetpath of '%s'\n", devicename, drives[i].unixpath); PRINTERROR(); } else { WINE_TRACE("removed devicename of '%s', targetpath of '%s'\n", devicename, drives[i].unixpath); } } else if(drives[i].in_use) /* foundDrive must be false from the above check */ { defineDevice = TRUE; } /* adding and modifying are the same steps */ if(defineDevice) { char filename[256]; HANDLE hFile; HKEY hKey; char *typeText; char driveValue[256]; /* define this drive */ /* DefineDosDevice() requires that NO trailing slash be present */ snprintf(devicename, sizeof(devicename), "%c:", 'A' + i); if(!DefineDosDevice(DDD_RAW_TARGET_PATH, devicename, drives[i].unixpath)) { WINE_ERR(" unable to define devicename of '%s', targetpath of '%s'\n", devicename, drives[i].unixpath); PRINTERROR(); } else { WINE_TRACE(" added devicename of '%s', targetpath of '%s'\n", devicename, drives[i].unixpath); /* SetVolumeLabel() requires a trailing slash */ snprintf(devicename, sizeof(devicename), "%c:\\", 'A' + i); if(!SetVolumeLabel(devicename, drives[i].label)) { WINE_WARN("unable to set volume label for devicename of '%s', label of '%s'\n", devicename, drives[i].label); PRINTERROR(); } else { WINE_TRACE(" set volume label for devicename of '%s', label of '%s'\n", devicename, drives[i].label); } } /* Set the drive type in the registry */ if(drives[i].type == DRIVE_FIXED) typeText = "hd"; else if(drives[i].type == DRIVE_REMOTE) typeText = "network"; else if(drives[i].type == DRIVE_REMOVABLE) typeText = "floppy"; else /* must be DRIVE_CDROM */ typeText = "cdrom"; snprintf(driveValue, sizeof(driveValue), "%c:", toupper(drives[i].letter)); retval = RegOpenKey(HKEY_LOCAL_MACHINE, "Software\\Wine\\Drives", &hKey); if(retval != ERROR_SUCCESS) { WINE_TRACE(" Unable to open '%s'\n", "Software\\Wine\\Drives"); } else { retval = RegSetValueEx( hKey, driveValue, 0, REG_SZ, typeText, strlen(typeText) + 1); if(retval != ERROR_SUCCESS) { WINE_TRACE(" Unable to set value of '%s' to '%s'\n", driveValue, typeText); } else { WINE_TRACE(" Finished setting value of '%s' to '%s'\n", driveValue, typeText); RegCloseKey(hKey); } } /* Set the drive serial number via a .windows-serial file in */ /* the targetpath directory */ snprintf(filename, sizeof(filename), "%c:\\.windows-serial", drives[i].letter); WINE_TRACE(" Putting serial number of '%ld' into file '%s'\n", serialNumber, filename); hFile = CreateFile(filename, GENERIC_WRITE, FILE_SHARE_READ, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL); if (hFile != INVALID_HANDLE_VALUE) { DWORD w; WINE_TRACE(" writing serial number of '%s'\n", drives[i].serial); WriteFile(hFile, drives[i].serial, strlen(drives[i].serial), &w, NULL); WriteFile(hFile, "\n", strlen("\n"), &w, NULL); CloseHandle(hFile); } else { WINE_TRACE(" CreateFile() error with file '%s'\n", filename); } } } }