/* -*- c-basic-offset: 8 -*- rdesktop: A Remote Desktop Protocol client. Disk Redirection Copyright (C) Jeroen Meijer 2003 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "disk.h" #include #include #include #include /* open, close */ #include /* opendir, closedir, readdir */ #include #include /* errno */ #include #include #include /* ctime */ #if (defined(HAVE_DIRFD) || (HAVE_DECL_DIRFD == 1)) #define DIRFD(a) (dirfd(a)) #else #define DIRFD(a) ((a)->DIR_FD_MEMBER_NAME) #endif /* TODO: Fix mntent-handling for solaris * #include */ #if (defined(HAVE_MNTENT_H) && defined(HAVE_SETMNTENT)) #include #define MNTENT_PATH "/etc/mtab" #define USE_SETMNTENT #endif #ifdef HAVE_SYS_VFS_H #include #endif #ifdef HAVE_SYS_STATVFS_H #include #endif #ifdef HAVE_SYS_STATFS_H #include #endif #ifdef HAVE_SYS_PARAM_H #include #endif #ifdef HAVE_SYS_MOUNT_H #include #endif #include "rdesktop.h" #ifdef STAT_STATFS3_OSF1 #define STATFS_FN(path, buf) (statfs(path,buf,sizeof(buf))) #define STATFS_T statfs #define USE_STATFS #endif #ifdef STAT_STATVFS #define STATFS_FN(path, buf) (statvfs(path,buf)) #define STATFS_T statvfs #define USE_STATVFS #endif #ifdef STAT_STATVFS64 #define STATFS_FN(path, buf) (statvfs64(path,buf)) #define STATFS_T statvfs64 #define USE_STATVFS #endif #if (defined(STAT_STATFS2_FS_DATA) || defined(STAT_STATFS2_BSIZE) || defined(STAT_STATFS2_FSIZE)) #define STATFS_FN(path, buf) (statfs(path,buf)) #define STATFS_T statfs #define USE_STATFS #endif #ifdef STAT_STATFS4 #define STATFS_FN(path, buf) (statfs(path,buf,sizeof(buf),0)) #define STATFS_T statfs #define USE_STATFS #endif #if ((defined(USE_STATFS) && defined(HAVE_STRUCT_STATFS_F_NAMEMAX)) || (defined(USE_STATVFS) && defined(HAVE_STRUCT_STATVFS_F_NAMEMAX))) #define F_NAMELEN(buf) ((buf).f_namemax) #endif #if ((defined(USE_STATFS) && defined(HAVE_STRUCT_STATFS_F_NAMELEN)) || (defined(USE_STATVFS) && defined(HAVE_STRUCT_STATVFS_F_NAMELEN))) #define F_NAMELEN(buf) ((buf).f_namelen) #endif #ifndef F_NAMELEN #define F_NAMELEN(buf) (255) #endif /* Dummy statfs fallback */ #ifndef STATFS_T struct dummy_statfs_t { long f_bfree; long f_bsize; long f_blocks; int f_namelen; int f_namemax; }; static int dummy_statfs(struct dummy_statfs_t *buf) { buf->f_blocks = 262144; buf->f_bfree = 131072; buf->f_bsize = 512; buf->f_namelen = 255; buf->f_namemax = 255; return 0; } #define STATFS_T dummy_statfs_t #define STATFS_FN(path,buf) (dummy_statfs(buf)) #endif extern RDPDR_DEVICE g_rdpdr_device[]; FILEINFO g_fileinfo[MAX_OPEN_FILES]; BOOL g_notify_stamp = False; typedef struct { char name[PATH_MAX]; char label[PATH_MAX]; unsigned long serial; char type[PATH_MAX]; } FsInfoType; static NTSTATUS NotifyInfo(NTHANDLE handle, uint32 info_class, NOTIFY * p); static time_t get_create_time(struct stat *st) { time_t ret, ret1; ret = MIN(st->st_ctime, st->st_mtime); ret1 = MIN(ret, st->st_atime); if (ret1 != (time_t) 0) return ret1; return ret; } /* Convert seconds since 1970 to a filetime */ static void seconds_since_1970_to_filetime(time_t seconds, uint32 * high, uint32 * low) { unsigned long long ticks; ticks = (seconds + 11644473600LL) * 10000000; *low = (uint32) ticks; *high = (uint32) (ticks >> 32); } /* Convert seconds since 1970 back to filetime */ static time_t convert_1970_to_filetime(uint32 high, uint32 low) { unsigned long long ticks; time_t val; ticks = low + (((unsigned long long) high) << 32); ticks /= 10000000; ticks -= 11644473600LL; val = (time_t) ticks; return (val); } /* A wrapper for ftruncate which supports growing files, even if the native ftruncate doesn't. This is needed on Linux FAT filesystems, for example. */ static int ftruncate_growable(int fd, off_t length) { int ret; off_t pos; static const char zero = 0; /* Try the simple method first */ if ((ret = ftruncate(fd, length)) != -1) { return ret; } /* * Some kind of error. Perhaps we were trying to grow. Retry * in a safe way. */ /* Get current position */ if ((pos = lseek(fd, 0, SEEK_CUR)) == -1) { perror("lseek"); return -1; } /* Seek to new size */ if (lseek(fd, length, SEEK_SET) == -1) { perror("lseek"); return -1; } /* Write a zero */ if (write(fd, &zero, 1) == -1) { perror("write"); return -1; } /* Truncate. This shouldn't fail. */ if (ftruncate(fd, length) == -1) { perror("ftruncate"); return -1; } /* Restore position */ if (lseek(fd, pos, SEEK_SET) == -1) { perror("lseek"); return -1; } return 0; } /* Just like open(2), but if a open with O_EXCL fails, retry with GUARDED semantics. This might be necessary because some filesystems (such as NFS filesystems mounted from a unfsd server) doesn't support O_EXCL. GUARDED semantics are subject to race conditions, but we can live with that. */ static int open_weak_exclusive(const char *pathname, int flags, mode_t mode) { int ret; struct stat statbuf; ret = open(pathname, flags, mode); if (ret != -1 || !(flags & O_EXCL)) { /* Success, or not using O_EXCL */ return ret; } /* An error occured, and we are using O_EXCL. In case the FS doesn't support O_EXCL, some kind of error will be returned. Unfortunately, we don't know which one. Linux 2.6.8 seems to return 524, but I cannot find a documented #define for this case. So, we'll return only on errors that we know aren't related to O_EXCL. */ switch (errno) { case EACCES: case EEXIST: case EINTR: case EISDIR: case ELOOP: case ENAMETOOLONG: case ENOENT: case ENOTDIR: return ret; } /* Retry with GUARDED semantics */ if (stat(pathname, &statbuf) != -1) { /* File exists */ errno = EEXIST; return -1; } else { return open(pathname, flags & ~O_EXCL, mode); } } /* Enumeration of devices from rdesktop.c */ /* returns numer of units found and initialized. */ /* optarg looks like ':h=/mnt/floppy,b=/mnt/usbdevice1' */ /* when it arrives to this function. */ int disk_enum_devices(uint32 * id, char *optarg) { char *pos = optarg; char *pos2; int count = 0; /* skip the first colon */ optarg++; while ((pos = next_arg(optarg, ',')) && *id < RDPDR_MAX_DEVICES) { pos2 = next_arg(optarg, '='); strncpy(g_rdpdr_device[*id].name, optarg, sizeof(g_rdpdr_device[*id].name) - 1); if (strlen(optarg) > (sizeof(g_rdpdr_device[*id].name) - 1)) fprintf(stderr, "share name %s truncated to %s\n", optarg, g_rdpdr_device[*id].name); g_rdpdr_device[*id].local_path = (char *) xmalloc(strlen(pos2) + 1); strcpy(g_rdpdr_device[*id].local_path, pos2); g_rdpdr_device[*id].device_type = DEVICE_TYPE_DISK; count++; (*id)++; optarg = pos; } return count; } /* Opens or creates a file or directory */ static NTSTATUS disk_create(uint32 device_id, uint32 accessmask, uint32 sharemode, uint32 create_disposition, uint32 flags_and_attributes, char *filename, NTHANDLE * phandle) { NTHANDLE handle; DIR *dirp; int flags, mode; char path[PATH_MAX]; struct stat filestat; handle = 0; dirp = NULL; flags = 0; mode = S_IRWXU | S_IRGRP | S_IXGRP | S_IROTH | S_IXOTH; if (*filename && filename[strlen(filename) - 1] == '/') filename[strlen(filename) - 1] = 0; sprintf(path, "%s%s", g_rdpdr_device[device_id].local_path, filename); switch (create_disposition) { case CREATE_ALWAYS: /* Delete existing file/link. */ unlink(path); flags |= O_CREAT; break; case CREATE_NEW: /* If the file already exists, then fail. */ flags |= O_CREAT | O_EXCL; break; case OPEN_ALWAYS: /* Create if not already exists. */ flags |= O_CREAT; break; case OPEN_EXISTING: /* Default behaviour */ break; case TRUNCATE_EXISTING: /* If the file does not exist, then fail. */ flags |= O_TRUNC; break; } /*printf("Open: \"%s\" flags: %X, accessmask: %X sharemode: %X create disp: %X\n", path, flags_and_attributes, accessmask, sharemode, create_disposition); */ /* Get information about file and set that flag ourselfs */ if ((stat(path, &filestat) == 0) && (S_ISDIR(filestat.st_mode))) { if (flags_and_attributes & FILE_NON_DIRECTORY_FILE) return STATUS_FILE_IS_A_DIRECTORY; else flags_and_attributes |= FILE_DIRECTORY_FILE; } if (flags_and_attributes & FILE_DIRECTORY_FILE) { if (flags & O_CREAT) { mkdir(path, mode); } dirp = opendir(path); if (!dirp) { switch (errno) { case EACCES: return STATUS_ACCESS_DENIED; case ENOENT: return STATUS_NO_SUCH_FILE; default: perror("opendir"); return STATUS_NO_SUCH_FILE; } } handle = DIRFD(dirp); } else { if (accessmask & GENERIC_ALL || (accessmask & GENERIC_READ && accessmask & GENERIC_WRITE)) { flags |= O_RDWR; } else if ((accessmask & GENERIC_WRITE) && !(accessmask & GENERIC_READ)) { flags |= O_WRONLY; } else { flags |= O_RDONLY; } handle = open_weak_exclusive(path, flags, mode); if (handle == -1) { switch (errno) { case EISDIR: return STATUS_FILE_IS_A_DIRECTORY; case EACCES: return STATUS_ACCESS_DENIED; case ENOENT: return STATUS_NO_SUCH_FILE; case EEXIST: return STATUS_OBJECT_NAME_COLLISION; default: perror("open"); return STATUS_NO_SUCH_FILE; } } /* all read and writes of files should be non blocking */ if (fcntl(handle, F_SETFL, O_NONBLOCK) == -1) perror("fcntl"); } if (handle >= MAX_OPEN_FILES) { error("Maximum number of open files (%s) reached. Increase MAX_OPEN_FILES!\n", handle); exit(1); } if (dirp) g_fileinfo[handle].pdir = dirp; else g_fileinfo[handle].pdir = NULL; g_fileinfo[handle].device_id = device_id; g_fileinfo[handle].flags_and_attributes = flags_and_attributes; g_fileinfo[handle].accessmask = accessmask; strncpy(g_fileinfo[handle].path, path, PATH_MAX - 1); g_fileinfo[handle].delete_on_close = False; g_notify_stamp = True; *phandle = handle; return STATUS_SUCCESS; } static NTSTATUS disk_close(NTHANDLE handle) { struct fileinfo *pfinfo; pfinfo = &(g_fileinfo[handle]); g_notify_stamp = True; rdpdr_abort_io(handle, 0, STATUS_CANCELLED); if (pfinfo->pdir) { if (closedir(pfinfo->pdir) < 0) { perror("closedir"); return STATUS_INVALID_HANDLE; } if (pfinfo->delete_on_close) if (rmdir(pfinfo->path) < 0) { perror(pfinfo->path); return STATUS_ACCESS_DENIED; } pfinfo->delete_on_close = False; } else { if (close(handle) < 0) { perror("close"); return STATUS_INVALID_HANDLE; } if (pfinfo->delete_on_close) if (unlink(pfinfo->path) < 0) { perror(pfinfo->path); return STATUS_ACCESS_DENIED; } pfinfo->delete_on_close = False; } return STATUS_SUCCESS; } static NTSTATUS disk_read(NTHANDLE handle, uint8 * data, uint32 length, uint32 offset, uint32 * result) { int n; #if 0 /* browsing dir ???? */ /* each request is 24 bytes */ if (g_fileinfo[handle].flags_and_attributes & FILE_DIRECTORY_FILE) { *result = 0; return STATUS_SUCCESS; } #endif lseek(handle, offset, SEEK_SET); n = read(handle, data, length); if (n < 0) { *result = 0; switch (errno) { case EISDIR: /* Implement 24 Byte directory read ?? with STATUS_NOT_IMPLEMENTED server doesn't read again */ /* return STATUS_FILE_IS_A_DIRECTORY; */ return STATUS_NOT_IMPLEMENTED; default: perror("read"); return STATUS_INVALID_PARAMETER; } } *result = n; return STATUS_SUCCESS; } static NTSTATUS disk_write(NTHANDLE handle, uint8 * data, uint32 length, uint32 offset, uint32 * result) { int n; lseek(handle, offset, SEEK_SET); n = write(handle, data, length); if (n < 0) { perror("write"); *result = 0; switch (errno) { case ENOSPC: return STATUS_DISK_FULL; default: return STATUS_ACCESS_DENIED; } } *result = n; return STATUS_SUCCESS; } NTSTATUS disk_query_information(NTHANDLE handle, uint32 info_class, STREAM out) { uint32 file_attributes, ft_high, ft_low; struct stat filestat; char *path, *filename; path = g_fileinfo[handle].path; /* Get information about file */ if (fstat(handle, &filestat) != 0) { perror("stat"); out_uint8(out, 0); return STATUS_ACCESS_DENIED; } /* Set file attributes */ file_attributes = 0; if (S_ISDIR(filestat.st_mode)) file_attributes |= FILE_ATTRIBUTE_DIRECTORY; filename = 1 + strrchr(path, '/'); if (filename && filename[0] == '.') file_attributes |= FILE_ATTRIBUTE_HIDDEN; if (!file_attributes) file_attributes |= FILE_ATTRIBUTE_NORMAL; if (!(filestat.st_mode & S_IWUSR)) file_attributes |= FILE_ATTRIBUTE_READONLY; /* Return requested data */ switch (info_class) { case FileBasicInformation: seconds_since_1970_to_filetime(get_create_time(&filestat), &ft_high, &ft_low); out_uint32_le(out, ft_low); /* create_access_time */ out_uint32_le(out, ft_high); seconds_since_1970_to_filetime(filestat.st_atime, &ft_high, &ft_low); out_uint32_le(out, ft_low); /* last_access_time */ out_uint32_le(out, ft_high); seconds_since_1970_to_filetime(filestat.st_mtime, &ft_high, &ft_low); out_uint32_le(out, ft_low); /* last_write_time */ out_uint32_le(out, ft_high); seconds_since_1970_to_filetime(filestat.st_ctime, &ft_high, &ft_low); out_uint32_le(out, ft_low); /* last_change_time */ out_uint32_le(out, ft_high); out_uint32_le(out, file_attributes); break; case FileStandardInformation: out_uint32_le(out, filestat.st_size); /* Allocation size */ out_uint32_le(out, 0); out_uint32_le(out, filestat.st_size); /* End of file */ out_uint32_le(out, 0); out_uint32_le(out, filestat.st_nlink); /* Number of links */ out_uint8(out, 0); /* Delete pending */ out_uint8(out, S_ISDIR(filestat.st_mode) ? 1 : 0); /* Directory */ break; case FileObjectIdInformation: out_uint32_le(out, file_attributes); /* File Attributes */ out_uint32_le(out, 0); /* Reparse Tag */ break; default: unimpl("IRP Query (File) Information class: 0x%x\n", info_class); return STATUS_INVALID_PARAMETER; } return STATUS_SUCCESS; } NTSTATUS disk_set_information(NTHANDLE handle, uint32 info_class, STREAM in, STREAM out) { uint32 length, file_attributes, ft_high, ft_low, delete_on_close; char newname[PATH_MAX], fullpath[PATH_MAX]; struct fileinfo *pfinfo; int mode; struct stat filestat; time_t write_time, change_time, access_time, mod_time; struct utimbuf tvs; struct STATFS_T stat_fs; pfinfo = &(g_fileinfo[handle]); g_notify_stamp = True; switch (info_class) { case FileBasicInformation: write_time = change_time = access_time = 0; in_uint8s(in, 4); /* Handle of root dir? */ in_uint8s(in, 24); /* unknown */ /* CreationTime */ in_uint32_le(in, ft_low); in_uint32_le(in, ft_high); /* AccessTime */ in_uint32_le(in, ft_low); in_uint32_le(in, ft_high); if (ft_low || ft_high) access_time = convert_1970_to_filetime(ft_high, ft_low); /* WriteTime */ in_uint32_le(in, ft_low); in_uint32_le(in, ft_high); if (ft_low || ft_high) write_time = convert_1970_to_filetime(ft_high, ft_low); /* ChangeTime */ in_uint32_le(in, ft_low); in_uint32_le(in, ft_high); if (ft_low || ft_high) change_time = convert_1970_to_filetime(ft_high, ft_low); in_uint32_le(in, file_attributes); if (fstat(handle, &filestat)) return STATUS_ACCESS_DENIED; tvs.modtime = filestat.st_mtime; tvs.actime = filestat.st_atime; if (access_time) tvs.actime = access_time; if (write_time || change_time) mod_time = MIN(write_time, change_time); else mod_time = write_time ? write_time : change_time; if (mod_time) tvs.modtime = mod_time; if (access_time || write_time || change_time) { #if WITH_DEBUG_RDP5 printf("FileBasicInformation access time %s", ctime(&tvs.actime)); printf("FileBasicInformation modification time %s", ctime(&tvs.modtime)); #endif if (utime(pfinfo->path, &tvs) && errno != EPERM) return STATUS_ACCESS_DENIED; } if (!file_attributes) break; /* not valid */ mode = filestat.st_mode; if (file_attributes & FILE_ATTRIBUTE_READONLY) mode &= ~(S_IWUSR | S_IWGRP | S_IWOTH); else mode |= S_IWUSR; mode &= 0777; #if WITH_DEBUG_RDP5 printf("FileBasicInformation set access mode 0%o", mode); #endif if (fchmod(handle, mode)) return STATUS_ACCESS_DENIED; break; case FileRenameInformation: in_uint8s(in, 4); /* Handle of root dir? */ in_uint8s(in, 0x1a); /* unknown */ in_uint32_le(in, length); if (length && (length / 2) < 256) { rdp_in_unistr(in, newname, length); convert_to_unix_filename(newname); } else { return STATUS_INVALID_PARAMETER; } sprintf(fullpath, "%s%s", g_rdpdr_device[pfinfo->device_id].local_path, newname); if (rename(pfinfo->path, fullpath) != 0) { perror("rename"); return STATUS_ACCESS_DENIED; } break; case FileDispositionInformation: /* As far as I understand it, the correct thing to do here is to *schedule* a delete, so it will be deleted when the file is closed. Subsequent FileDispositionInformation requests with DeleteFile set to FALSE should unschedule the delete. See http://www.osronline.com/article.cfm?article=245. */ in_uint32_le(in, delete_on_close); if (delete_on_close || (pfinfo-> accessmask & (FILE_DELETE_ON_CLOSE | FILE_COMPLETE_IF_OPLOCKED))) { pfinfo->delete_on_close = True; } break; case FileAllocationInformation: /* Fall through to FileEndOfFileInformation, which uses ftrunc. This is like Samba with "strict allocation = false", and means that we won't detect out-of-quota errors, for example. */ case FileEndOfFileInformation: in_uint8s(in, 28); /* unknown */ in_uint32_le(in, length); /* file size */ /* prevents start of writing if not enough space left on device */ if (STATFS_FN(g_rdpdr_device[pfinfo->device_id].local_path, &stat_fs) == 0) if (stat_fs.f_bfree * stat_fs.f_bsize < length) return STATUS_DISK_FULL; if (ftruncate_growable(handle, length) != 0) { return STATUS_DISK_FULL; } break; default: unimpl("IRP Set File Information class: 0x%x\n", info_class); return STATUS_INVALID_PARAMETER; } return STATUS_SUCCESS; } NTSTATUS disk_check_notify(NTHANDLE handle) { struct fileinfo *pfinfo; NTSTATUS status = STATUS_PENDING; NOTIFY notify; pfinfo = &(g_fileinfo[handle]); if (!pfinfo->pdir) return STATUS_INVALID_DEVICE_REQUEST; status = NotifyInfo(handle, pfinfo->info_class, ¬ify); if (status != STATUS_PENDING) return status; if (memcmp(&pfinfo->notify, ¬ify, sizeof(NOTIFY))) { /*printf("disk_check_notify found changed event\n"); */ memcpy(&pfinfo->notify, ¬ify, sizeof(NOTIFY)); status = STATUS_NOTIFY_ENUM_DIR; } return status; } NTSTATUS disk_create_notify(NTHANDLE handle, uint32 info_class) { struct fileinfo *pfinfo; NTSTATUS ret = STATUS_PENDING; /* printf("start disk_create_notify info_class %X\n", info_class); */ pfinfo = &(g_fileinfo[handle]); pfinfo->info_class = info_class; ret = NotifyInfo(handle, info_class, &pfinfo->notify); if (info_class & 0x1000) { /* ???? */ if (ret == STATUS_PENDING) return STATUS_SUCCESS; } /* printf("disk_create_notify: num_entries %d\n", pfinfo->notify.num_entries); */ return ret; } static NTSTATUS NotifyInfo(NTHANDLE handle, uint32 info_class, NOTIFY * p) { struct fileinfo *pfinfo; struct stat buf; struct dirent *dp; char *fullname; DIR *dpr; pfinfo = &(g_fileinfo[handle]); if (fstat(handle, &buf) < 0) { perror("NotifyInfo"); return STATUS_ACCESS_DENIED; } p->modify_time = buf.st_mtime; p->status_time = buf.st_ctime; p->num_entries = 0; p->total_time = 0; dpr = opendir(pfinfo->path); if (!dpr) { perror("NotifyInfo"); return STATUS_ACCESS_DENIED; } while ((dp = readdir(dpr))) { if (!strcmp(dp->d_name, ".") || !strcmp(dp->d_name, "..")) continue; p->num_entries++; fullname = (char *) xmalloc(strlen(pfinfo->path) + strlen(dp->d_name) + 2); sprintf(fullname, "%s/%s", pfinfo->path, dp->d_name); if (!stat(fullname, &buf)) { p->total_time += (buf.st_mtime + buf.st_ctime); } xfree(fullname); } closedir(dpr); return STATUS_PENDING; } static FsInfoType * FsVolumeInfo(char *fpath) { static FsInfoType info; #ifdef USE_SETMNTENT FILE *fdfs; struct mntent *e; #endif /* initialize */ memset(&info, 0, sizeof(info)); strcpy(info.label, "RDESKTOP"); strcpy(info.type, "RDPFS"); #ifdef USE_SETMNTENT fdfs = setmntent(MNTENT_PATH, "r"); if (!fdfs) return &info; while ((e = getmntent(fdfs))) { if (str_startswith(e->mnt_dir, fpath)) { strcpy(info.type, e->mnt_type); strcpy(info.name, e->mnt_fsname); if (strstr(e->mnt_opts, "vfat") || strstr(e->mnt_opts, "iso9660")) { int fd = open(e->mnt_fsname, O_RDONLY); if (fd >= 0) { unsigned char buf[512]; memset(buf, 0, sizeof(buf)); if (strstr(e->mnt_opts, "vfat")) /*FAT*/ { strcpy(info.type, "vfat"); read(fd, buf, sizeof(buf)); info.serial = (buf[42] << 24) + (buf[41] << 16) + (buf[40] << 8) + buf[39]; strncpy(info.label, (char *) buf + 43, 10); info.label[10] = '\0'; } else if (lseek(fd, 32767, SEEK_SET) >= 0) /* ISO9660 */ { read(fd, buf, sizeof(buf)); strncpy(info.label, (char *) buf + 41, 32); info.label[32] = '\0'; /* info.Serial = (buf[128]<<24)+(buf[127]<<16)+(buf[126]<<8)+buf[125]; */ } close(fd); } } } } endmntent(fdfs); #else /* initialize */ memset(&info, 0, sizeof(info)); strcpy(info.label, "RDESKTOP"); strcpy(info.type, "RDPFS"); #endif return &info; } NTSTATUS disk_query_volume_information(NTHANDLE handle, uint32 info_class, STREAM out) { struct STATFS_T stat_fs; struct fileinfo *pfinfo; FsInfoType *fsinfo; pfinfo = &(g_fileinfo[handle]); if (STATFS_FN(pfinfo->path, &stat_fs) != 0) { perror("statfs"); return STATUS_ACCESS_DENIED; } fsinfo = FsVolumeInfo(pfinfo->path); switch (info_class) { case FileFsVolumeInformation: out_uint32_le(out, 0); /* volume creation time low */ out_uint32_le(out, 0); /* volume creation time high */ out_uint32_le(out, fsinfo->serial); /* serial */ out_uint32_le(out, 2 * strlen(fsinfo->label)); /* length of string */ out_uint8(out, 0); /* support objects? */ rdp_out_unistr(out, fsinfo->label, 2 * strlen(fsinfo->label) - 2); break; case FileFsSizeInformation: out_uint32_le(out, stat_fs.f_blocks); /* Total allocation units low */ out_uint32_le(out, 0); /* Total allocation high units */ out_uint32_le(out, stat_fs.f_bfree); /* Available allocation units */ out_uint32_le(out, 0); /* Available allowcation units */ out_uint32_le(out, stat_fs.f_bsize / 0x200); /* Sectors per allocation unit */ out_uint32_le(out, 0x200); /* Bytes per sector */ break; case FileFsAttributeInformation: out_uint32_le(out, FS_CASE_SENSITIVE | FS_CASE_IS_PRESERVED); /* fs attributes */ out_uint32_le(out, F_NAMELEN(stat_fs)); /* max length of filename */ out_uint32_le(out, 2 * strlen(fsinfo->type)); /* length of fs_type */ rdp_out_unistr(out, fsinfo->type, 2 * strlen(fsinfo->type) - 2); break; case FileFsLabelInformation: case FileFsDeviceInformation: case FileFsControlInformation: case FileFsFullSizeInformation: case FileFsObjectIdInformation: case FileFsMaximumInformation: default: unimpl("IRP Query Volume Information class: 0x%x\n", info_class); return STATUS_INVALID_PARAMETER; } return STATUS_SUCCESS; } NTSTATUS disk_query_directory(NTHANDLE handle, uint32 info_class, char *pattern, STREAM out) { uint32 file_attributes, ft_low, ft_high; char *dirname, fullpath[PATH_MAX]; DIR *pdir; struct dirent *pdirent; struct stat fstat; struct fileinfo *pfinfo; pfinfo = &(g_fileinfo[handle]); pdir = pfinfo->pdir; dirname = pfinfo->path; file_attributes = 0; switch (info_class) { case FileBothDirectoryInformation: /* If a search pattern is received, remember this pattern, and restart search */ if (pattern[0] != 0) { strncpy(pfinfo->pattern, 1 + strrchr(pattern, '/'), PATH_MAX - 1); rewinddir(pdir); } /* find next dirent matching pattern */ pdirent = readdir(pdir); while (pdirent && fnmatch(pfinfo->pattern, pdirent->d_name, 0) != 0) pdirent = readdir(pdir); if (pdirent == NULL) return STATUS_NO_MORE_FILES; /* Get information for directory entry */ sprintf(fullpath, "%s/%s", dirname, pdirent->d_name); if (stat(fullpath, &fstat)) { switch (errno) { case ENOENT: case ELOOP: case EACCES: /* These are non-fatal errors. */ memset(&fstat, 0, sizeof(fstat)); break; default: /* Fatal error. By returning STATUS_NO_SUCH_FILE, the directory list operation will be aborted */ perror(fullpath); out_uint8(out, 0); return STATUS_NO_SUCH_FILE; } } if (S_ISDIR(fstat.st_mode)) file_attributes |= FILE_ATTRIBUTE_DIRECTORY; if (pdirent->d_name[0] == '.') file_attributes |= FILE_ATTRIBUTE_HIDDEN; if (!file_attributes) file_attributes |= FILE_ATTRIBUTE_NORMAL; if (!(fstat.st_mode & S_IWUSR)) file_attributes |= FILE_ATTRIBUTE_READONLY; /* Return requested information */ out_uint8s(out, 8); /* unknown zero */ seconds_since_1970_to_filetime(get_create_time(&fstat), &ft_high, &ft_low); out_uint32_le(out, ft_low); /* create time */ out_uint32_le(out, ft_high); seconds_since_1970_to_filetime(fstat.st_atime, &ft_high, &ft_low); out_uint32_le(out, ft_low); /* last_access_time */ out_uint32_le(out, ft_high); seconds_since_1970_to_filetime(fstat.st_mtime, &ft_high, &ft_low); out_uint32_le(out, ft_low); /* last_write_time */ out_uint32_le(out, ft_high); seconds_since_1970_to_filetime(fstat.st_ctime, &ft_high, &ft_low); out_uint32_le(out, ft_low); /* change_write_time */ out_uint32_le(out, ft_high); out_uint32_le(out, fstat.st_size); /* filesize low */ out_uint32_le(out, 0); /* filesize high */ out_uint32_le(out, fstat.st_size); /* filesize low */ out_uint32_le(out, 0); /* filesize high */ out_uint32_le(out, file_attributes); out_uint8(out, 2 * strlen(pdirent->d_name) + 2); /* unicode length */ out_uint8s(out, 7); /* pad? */ out_uint8(out, 0); /* 8.3 file length */ out_uint8s(out, 2 * 12); /* 8.3 unicode length */ rdp_out_unistr(out, pdirent->d_name, 2 * strlen(pdirent->d_name)); break; default: /* FIXME: Support FileDirectoryInformation, FileFullDirectoryInformation, and FileNamesInformation */ unimpl("IRP Query Directory sub: 0x%x\n", info_class); return STATUS_INVALID_PARAMETER; } return STATUS_SUCCESS; } static NTSTATUS disk_device_control(NTHANDLE handle, uint32 request, STREAM in, STREAM out) { if (((request >> 16) != 20) || ((request >> 16) != 9)) return STATUS_INVALID_PARAMETER; /* extract operation */ request >>= 2; request &= 0xfff; printf("DISK IOCTL %d\n", request); switch (request) { case 25: /* ? */ case 42: /* ? */ default: unimpl("DISK IOCTL %d\n", request); return STATUS_INVALID_PARAMETER; } return STATUS_SUCCESS; } DEVICE_FNS disk_fns = { disk_create, disk_close, disk_read, disk_write, disk_device_control /* device_control */ };