/** * xrdp: A Remote Desktop Protocol server. * * xrdp device redirection - only drive redirection is currently supported * * Copyright (C) Laxmikant Rashinkar 2013 LK.Rashinkar@gmail.com * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * TODO * o there is one difference in the protocol initialization * sequence upon reconnection: if a user is already logged on, * send a SERVER_USER_LOGGED_ON msg as per section 3.3.5.1.5 * * o how to announce / delete a drive after a connection has been * established? * * o need to support multiple drives; * o for multiple drives, we cannot have global device_id's and file_id's * and all functions must be reenterant * o replace printf's with log_xxx * o mark local funcs with static */ #include #include #include #include #include #include #include #include "arch.h" #include "parse.h" #include "os_calls.h" #include "log.h" #include "chansrv_fuse.h" #include "devredir.h" #include "smartcard.h" /* module based logging */ #define LOG_ERROR 0 #define LOG_INFO 1 #define LOG_DEBUG 2 #ifndef LOG_LEVEL #define LOG_LEVEL LOG_ERROR #endif #define log_error(_params...) \ { \ g_write("[%10.10u]: DEV_REDIR %s: %d : ERROR: ", \ g_time3(), __func__, __LINE__); \ g_writeln (_params); \ } #define log_info(_params...) \ { \ if (LOG_INFO <= LOG_LEVEL) \ { \ g_write("[%10.10u]: DEV_REDIR %s: %d : ", \ g_time3(), __func__, __LINE__); \ g_writeln (_params); \ } \ } #define log_debug(_params...) \ { \ if (LOG_DEBUG <= LOG_LEVEL) \ { \ g_write("[%10.10u]: DEV_REDIR %s: %d : ", \ g_time3(), __func__, __LINE__); \ g_writeln (_params); \ } \ } /* globals */ extern int g_rdpdr_chan_id; /* in chansrv.c */ int g_is_printer_redir_supported = 0; int g_is_port_redir_supported = 0; int g_is_drive_redir_supported = 0; int g_is_smartcard_redir_supported = 0; int g_drive_redir_version = 1; char g_full_name_for_filesystem[1024]; tui32 g_completion_id = 1; tui32 g_clientID; /* unique client ID - announced by client */ tui32 g_device_id; /* unique device ID - announced by client */ tui16 g_client_rdp_version; /* returned by client */ struct stream *g_input_stream = NULL; void xfuse_devredir_cb_write_file(void *vp, char *buf, size_t length); /*****************************************************************************/ int APP_CC dev_redir_init(void) { struct stream *s; int bytes; int fd; union _u { tui32 clientID; char buf[4]; } u; /* get a random number that will act as a unique clientID */ if ((fd = open("/dev/urandom", O_RDONLY))) { if (read(fd, u.buf, 4) != 4) { } close(fd); } else { /* /dev/urandom did not work - use address of struct s */ tui64 u64 = (tui64) (tintptr) &s; u.clientID = (tui32) u64; } /* setup stream */ xstream_new(s, 1024); /* initiate drive redirection protocol by sending Server Announce Req */ xstream_wr_u16_le(s, RDPDR_CTYP_CORE); xstream_wr_u16_le(s, PAKID_CORE_SERVER_ANNOUNCE); xstream_wr_u16_le(s, 0x0001); /* server major ver */ xstream_wr_u16_le(s, 0x000C); /* server minor ver - pretend 2 b Win 7 */ xstream_wr_u32_le(s, u.clientID); /* unique ClientID */ /* send data to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); return 0; } /*****************************************************************************/ int APP_CC dev_redir_deinit(void) { scard_deinit(); return 0; } /** * @brief process incoming data * * @return 0 on success, -1 on failure *****************************************************************************/ int APP_CC dev_redir_data_in(struct stream *s, int chan_id, int chan_flags, int length, int total_length) { struct stream *ls; tui16 comp_type; tui16 pktID; tui16 minor_ver; int rv = 0; /* * handle packet fragmentation */ if ((chan_flags & 3) == 3) { /* all data contained in one packet */ ls = s; } else { /* is this is the first packet? */ if (chan_flags & 1) xstream_new(g_input_stream, total_length); xstream_copyin(g_input_stream, s->p, length); /* in last packet, chan_flags & 0x02 will be true */ if ((chan_flags & 2) == 0) return 0; g_input_stream->p = g_input_stream->data; ls = g_input_stream; } /* read header from incoming data */ xstream_rd_u16_le(ls, comp_type); xstream_rd_u16_le(ls, pktID); /* for now we only handle core type, not printers */ if (comp_type != RDPDR_CTYP_CORE) { log_error("invalid component type in response; expected 0x%x got 0x%x", RDPDR_CTYP_CORE, comp_type); rv = -1; goto done; } /* figure out what kind of response we have gotten */ switch (pktID) { case PAKID_CORE_CLIENTID_CONFIRM: xstream_seek(ls, 2); /* major version, we ignore it */ xstream_rd_u16_le(ls, minor_ver); xstream_rd_u32_le(ls, g_clientID); g_client_rdp_version = minor_ver; switch (minor_ver) { case RDP_CLIENT_50: break; case RDP_CLIENT_51: break; case RDP_CLIENT_52: break; case RDP_CLIENT_60_61: break; } // LK_TODO dev_redir_send_server_clientID_confirm(); break; case PAKID_CORE_CLIENT_NAME: /* client is telling us its computer name; do we even care? */ /* let client know loggin was successful */ dev_redir_send_server_user_logged_on(); usleep(1000 * 100); /* let client know our capabilites */ dev_redir_send_server_core_cap_req(); /* send confirm clientID */ dev_redir_send_server_clientID_confirm(); break; case PAKID_CORE_CLIENT_CAPABILITY: dev_redir_proc_client_core_cap_resp(ls); break; case PAKID_CORE_DEVICELIST_ANNOUNCE: devredir_proc_client_devlist_announce_req(ls); break; case PAKID_CORE_DEVICE_IOCOMPLETION: dev_redir_proc_device_iocompletion(ls); break; default: log_error("got unknown response 0x%x", pktID); break; } done: if (g_input_stream) { xstream_free(g_input_stream); g_input_stream = NULL; } return rv; } /*****************************************************************************/ int APP_CC dev_redir_get_wait_objs(tbus *objs, int *count, int *timeout) { if (g_is_smartcard_redir_supported) { return scard_get_wait_objs(objs, count, timeout); } return 0; } /*****************************************************************************/ int APP_CC dev_redir_check_wait_objs(void) { if (g_is_smartcard_redir_supported) { return scard_check_wait_objs(); } return 0; } /** * @brief let client know our capabilities *****************************************************************************/ void dev_redir_send_server_core_cap_req(void) { struct stream *s; int bytes; xstream_new(s, 1024); /* setup header */ xstream_wr_u16_le(s, RDPDR_CTYP_CORE); xstream_wr_u16_le(s, PAKID_CORE_SERVER_CAPABILITY); xstream_wr_u16_le(s, 5); /* num of caps we are sending */ xstream_wr_u16_le(s, 0x0000); /* padding */ /* setup general capability */ xstream_wr_u16_le(s, CAP_GENERAL_TYPE); /* CapabilityType */ xstream_wr_u16_le(s, 44); /* CapabilityLength - len of this */ /* CAPABILITY_SET in bytes, inc */ /* the header */ xstream_wr_u32_le(s, 2); /* Version */ xstream_wr_u32_le(s, 2); /* O.S type */ xstream_wr_u32_le(s, 0); /* O.S version */ xstream_wr_u16_le(s, 1); /* protocol major version */ xstream_wr_u16_le(s, g_client_rdp_version); /* protocol minor version */ xstream_wr_u32_le(s, 0xffff); /* I/O code 1 */ xstream_wr_u32_le(s, 0); /* I/O code 2 */ xstream_wr_u32_le(s, 7); /* Extended PDU */ xstream_wr_u32_le(s, 0); /* extra flags 1 */ xstream_wr_u32_le(s, 0); /* extra flags 2 */ xstream_wr_u32_le(s, 2); /* special type device cap */ /* setup printer capability */ xstream_wr_u16_le(s, CAP_PRINTER_TYPE); xstream_wr_u16_le(s, 8); xstream_wr_u32_le(s, 1); /* setup serial port capability */ xstream_wr_u16_le(s, CAP_PORT_TYPE); xstream_wr_u16_le(s, 8); xstream_wr_u32_le(s, 1); /* setup file system capability */ xstream_wr_u16_le(s, CAP_DRIVE_TYPE); /* CapabilityType */ xstream_wr_u16_le(s, 8); /* CapabilityLength - len of this */ /* CAPABILITY_SET in bytes, inc */ /* the header */ xstream_wr_u32_le(s, 2); /* Version */ /* setup smart card capability */ xstream_wr_u16_le(s, CAP_SMARTCARD_TYPE); xstream_wr_u16_le(s, 8); xstream_wr_u32_le(s, 1); /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); } void dev_redir_send_server_clientID_confirm(void) { struct stream *s; int bytes; xstream_new(s, 1024); /* setup stream */ xstream_wr_u16_le(s, RDPDR_CTYP_CORE); xstream_wr_u16_le(s, PAKID_CORE_CLIENTID_CONFIRM); xstream_wr_u16_le(s, 0x0001); xstream_wr_u16_le(s, g_client_rdp_version); xstream_wr_u32_le(s, g_clientID); /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); } void dev_redir_send_server_user_logged_on(void) { struct stream *s; int bytes; xstream_new(s, 1024); /* setup stream */ xstream_wr_u16_le(s, RDPDR_CTYP_CORE); xstream_wr_u16_le(s, PAKID_CORE_USER_LOGGEDON); /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); } void devredir_send_server_device_announce_resp(tui32 device_id) { struct stream *s; int bytes; xstream_new(s, 1024); /* setup stream */ xstream_wr_u16_le(s, RDPDR_CTYP_CORE); xstream_wr_u16_le(s, PAKID_CORE_DEVICE_REPLY); xstream_wr_u32_le(s, device_id); xstream_wr_u32_le(s, 0); /* ResultCode */ /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); } /** * @return 0 on success, -1 on failure *****************************************************************************/ int dev_redir_send_drive_create_request(tui32 device_id, char *path, tui32 DesiredAccess, tui32 CreateOptions, tui32 CreateDisposition, tui32 completion_id) { struct stream *s; int bytes; int len; log_debug("DesiredAccess=0x%x CreateDisposition=0x%x CreateOptions=0x%x", DesiredAccess, CreateDisposition, CreateOptions); /* path in unicode needs this much space */ len = ((g_mbstowcs(NULL, path, 0) * sizeof(twchar)) / 2) + 2; xstream_new(s, 1024 + len); devredir_insert_DeviceIoRequest(s, device_id, 0, completion_id, IRP_MJ_CREATE, 0); xstream_wr_u32_le(s, DesiredAccess); /* DesiredAccess */ xstream_wr_u32_le(s, 0); /* AllocationSize high unused */ xstream_wr_u32_le(s, 0); /* AllocationSize low unused */ xstream_wr_u32_le(s, 0); /* FileAttributes */ xstream_wr_u32_le(s, 3); /* SharedAccess LK_TODO */ xstream_wr_u32_le(s, CreateDisposition); /* CreateDisposition */ xstream_wr_u32_le(s, CreateOptions); /* CreateOptions */ xstream_wr_u32_le(s, len); /* PathLength */ devredir_cvt_to_unicode(s->p, path); /* path in unicode */ xstream_seek(s, len); /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); return 0; } /** * Close a request previously created by dev_redir_send_drive_create_request() *****************************************************************************/ int dev_redir_send_drive_close_request(tui16 Component, tui16 PacketId, tui32 DeviceId, tui32 FileId, tui32 CompletionId, tui32 MajorFunction, tui32 MinorFunc, int pad_len) { struct stream *s; int bytes; xstream_new(s, 1024); devredir_insert_DeviceIoRequest(s, DeviceId, FileId, CompletionId, MajorFunction, MinorFunc); if (pad_len) xstream_seek(s, pad_len); /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); log_debug("sent close request; expect CID_FILE_CLOSE"); return 0; } /** * @brief ask client to enumerate directory * * Server Drive Query Directory Request * DR_DRIVE_QUERY_DIRECTORY_REQ * *****************************************************************************/ // LK_TODO Path needs to be Unicode void dev_redir_send_drive_dir_request(IRP *irp, tui32 device_id, tui32 InitialQuery, char *Path) { struct stream *s; int bytes; char upath[4096]; // LK_TODO need to malloc this int path_len = 0; /* during Initial Query, Path cannot be NULL */ if (InitialQuery) { if (Path == NULL) { return; } /* Path in unicode needs this much space */ path_len = ((g_mbstowcs(NULL, Path, 0) * sizeof(twchar)) / 2) + 2; devredir_cvt_to_unicode(upath, Path); } xstream_new(s, 1024 + path_len); irp->completion_type = CID_DIRECTORY_CONTROL; devredir_insert_DeviceIoRequest(s, device_id, irp->FileId, irp->CompletionId, IRP_MJ_DIRECTORY_CONTROL, IRP_MN_QUERY_DIRECTORY); #ifdef USE_SHORT_NAMES_IN_DIR_LISTING xstream_wr_u32_le(s, FileBothDirectoryInformation); /* FsInformationClass */ #else xstream_wr_u32_le(s, FileDirectoryInformation); /* FsInformationClass */ #endif xstream_wr_u8(s, InitialQuery); /* InitialQuery */ if (!InitialQuery) { xstream_wr_u32_le(s, 0); /* PathLength */ xstream_seek(s, 23); } else { xstream_wr_u32_le(s, path_len); /* PathLength */ xstream_seek(s, 23); /* Padding */ xstream_wr_string(s, upath, path_len); } /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); } /****************************************************************************** ** process data received from client ** ******************************************************************************/ /** * @brief process client's repsonse to our core_capability_req() msg * * @param s stream containing client's response *****************************************************************************/ void dev_redir_proc_client_core_cap_resp(struct stream *s) { int i; tui16 num_caps; tui16 cap_type; tui16 cap_len; tui32 cap_version; xstream_rd_u16_le(s, num_caps); xstream_seek(s, 2); /* padding */ for (i = 0; i < num_caps; i++) { xstream_rd_u16_le(s, cap_type); xstream_rd_u16_le(s, cap_len); xstream_rd_u32_le(s, cap_version); /* remove header length and version */ cap_len -= 8; switch (cap_type) { case CAP_GENERAL_TYPE: log_debug("got CAP_GENERAL_TYPE"); xstream_seek(s, cap_len); break; case CAP_PRINTER_TYPE: log_debug("got CAP_PRINTER_TYPE"); g_is_printer_redir_supported = 1; xstream_seek(s, cap_len); break; case CAP_PORT_TYPE: log_debug("got CAP_PORT_TYPE"); g_is_port_redir_supported = 1; xstream_seek(s, cap_len); break; case CAP_DRIVE_TYPE: log_debug("got CAP_DRIVE_TYPE"); g_is_drive_redir_supported = 1; if (cap_version == 2) g_drive_redir_version = 2; xstream_seek(s, cap_len); break; case CAP_SMARTCARD_TYPE: log_debug("got CAP_SMARTCARD_TYPE"); g_is_smartcard_redir_supported = 1; scard_init(); xstream_seek(s, cap_len); break; } } } void devredir_proc_client_devlist_announce_req(struct stream *s) { int i; int j; tui32 device_count; tui32 device_type; tui32 device_data_len; char preferred_dos_name[9]; /* get number of devices being announced */ xstream_rd_u32_le(s, device_count); log_debug("num of devices announced: %d", device_count); for (i = 0; i < device_count; i++) { xstream_rd_u32_le(s, device_type); xstream_rd_u32_le(s, g_device_id); switch (device_type) { case RDPDR_DTYP_FILESYSTEM: /* get preferred DOS name */ for (j = 0; j < 8; j++) { preferred_dos_name[j] = *s->p++; } /* DOS names that are 8 chars long are not NULL terminated */ preferred_dos_name[8] = 0; /* get device data len */ xstream_rd_u32_le(s, device_data_len); if (device_data_len) { xstream_rd_string(g_full_name_for_filesystem, s, device_data_len); } log_debug("device_type=FILE_SYSTEM device_id=0x%x dosname=%s " "device_data_len=%d full_name=%s", g_device_id, preferred_dos_name, device_data_len, g_full_name_for_filesystem); devredir_send_server_device_announce_resp(g_device_id); /* create share directory in xrdp file system; */ /* think of this as the mount point for this share */ xfuse_create_share(g_device_id, preferred_dos_name); break; case RDPDR_DTYP_SMARTCARD: /* get preferred DOS name */ for (j = 0; j < 8; j++) { preferred_dos_name[j] = *s->p++; } /* DOS names that are 8 chars long are not NULL terminated */ preferred_dos_name[8] = 0; /* for smart cards, device data len always 0 */ log_debug("device_type=SMARTCARD device_id=0x%x dosname=%s " "device_data_len=%d", g_device_id, preferred_dos_name, device_data_len); devredir_send_server_device_announce_resp(g_device_id); scard_device_announce(g_device_id); break; /* we don't yet support these devices */ case RDPDR_DTYP_SERIAL: case RDPDR_DTYP_PARALLEL: case RDPDR_DTYP_PRINT: log_debug("unsupported dev: 0x%x", device_type); break; } } } void APP_CC dev_redir_proc_device_iocompletion(struct stream *s) { FUSE_DATA *fuse_data = NULL; IRP *irp = NULL; tui32 DeviceId; tui32 CompletionId; tui32 IoStatus; tui32 Length; xstream_rd_u32_le(s, DeviceId); xstream_rd_u32_le(s, CompletionId); xstream_rd_u32_le(s, IoStatus); log_debug("entered: IoStatus=0x%x CompletionId=%d", IoStatus, CompletionId); if ((irp = devredir_irp_find(CompletionId)) == NULL) { log_error("IRP with completion ID %d not found", CompletionId); return; } /* if callback has been set, call it */ if (irp->callback) { (*irp->callback)(s, irp, DeviceId, CompletionId, IoStatus); goto done; } switch (irp->completion_type) { case CID_CREATE_DIR_REQ: log_debug("got CID_CREATE_DIR_REQ"); if (IoStatus != NT_STATUS_SUCCESS) { /* we were trying to create a request to enumerate a dir */ /* that does not exist; let FUSE know */ fuse_data = devredir_fuse_data_dequeue(irp); if (fuse_data) { xfuse_devredir_cb_enum_dir_done(fuse_data->data_ptr, IoStatus); free(fuse_data); } devredir_irp_delete(irp); return; } xstream_rd_u32_le(s, irp->FileId); log_debug("got CID_CREATE_DIR_REQ IoStatus=0x%x FileId=%d", IoStatus, irp->FileId); dev_redir_send_drive_dir_request(irp, DeviceId, 1, irp->pathname); break; case CID_CREATE_OPEN_REQ: xstream_rd_u32_le(s, irp->FileId); log_debug("got CID_CREATE_OPEN_REQ IoStatus=0x%x FileId=%d", IoStatus, irp->FileId); fuse_data = devredir_fuse_data_dequeue(irp); xfuse_devredir_cb_open_file(fuse_data->data_ptr, IoStatus, DeviceId, irp->FileId); if ((irp->type == S_IFDIR) || (IoStatus != NT_STATUS_SUCCESS)) devredir_irp_delete(irp); break; case CID_READ: log_debug("got CID_READ"); xstream_rd_u32_le(s, Length); fuse_data = devredir_fuse_data_dequeue(irp); if (fuse_data == NULL) log_error("fuse_data is NULL"); xfuse_devredir_cb_read_file(fuse_data->data_ptr, s->p, Length); devredir_irp_delete(irp); break; case CID_WRITE: log_debug("got CID_WRITE"); xstream_rd_u32_le(s, Length); fuse_data = devredir_fuse_data_dequeue(irp); if (fuse_data == NULL) log_error("fuse_data is NULL"); xfuse_devredir_cb_write_file(fuse_data->data_ptr, s->p, Length); devredir_irp_delete(irp); break; case CID_CLOSE: log_debug("got CID_CLOSE"); log_debug("deleting irp with completion_id=%d comp_type=%d", irp->CompletionId, irp->completion_type); devredir_irp_delete(irp); break; case CID_FILE_CLOSE: log_debug("got CID_FILE_CLOSE"); fuse_data = devredir_fuse_data_dequeue(irp); xfuse_devredir_cb_file_close(fuse_data->data_ptr); devredir_irp_delete(irp); break; case CID_DIRECTORY_CONTROL: log_debug("got CID_DIRECTORY_CONTROL"); dev_redir_proc_query_dir_response(irp, s, DeviceId, CompletionId, IoStatus); break; case CID_RMDIR_OR_FILE: log_debug("got CID_RMDIR_OR_FILE"); xstream_rd_u32_le(s, irp->FileId); devredir_proc_cid_rmdir_or_file(irp, IoStatus); return; break; case CID_RMDIR_OR_FILE_RESP: log_debug("got CID_RMDIR_OR_FILE_RESP"); devredir_proc_cid_rmdir_or_file_resp(irp, IoStatus); break; case CID_RENAME_FILE: log_debug("got CID_RENAME_FILE"); xstream_rd_u32_le(s, irp->FileId); devredir_proc_cid_rename_file(irp, IoStatus); return; break; case CID_RENAME_FILE_RESP: log_debug("got CID_RENAME_FILE_RESP"); devredir_proc_cid_rename_file_resp(irp, IoStatus); break; default: log_error("got unknown CompletionID: DeviceId=0x%x " "CompletionId=0x%x IoStatus=0x%x", DeviceId, CompletionId, IoStatus); break; } done: if (fuse_data) { log_debug("free FUSE_DATA=%p", fuse_data); free(fuse_data); } log_debug("exiting"); } void APP_CC dev_redir_proc_query_dir_response(IRP *irp, struct stream *s_in, tui32 DeviceId, tui32 CompletionId, tui32 IoStatus) { FUSE_DATA *fuse_data = NULL; XRDP_INODE *xinode = NULL; tui32 Length; tui32 NextEntryOffset; tui64 CreationTime; tui64 LastAccessTime; tui64 LastWriteTime; tui64 ChangeTime; tui64 EndOfFile; tui32 FileAttributes; tui32 FileNameLength; tui32 status; #ifdef USE_SHORT_NAMES_IN_DIR_LISTING tui32 EaSize; tui8 ShortNameLength; tui8 Reserved; #endif char filename[256]; int i = 0; xstream_rd_u32_le(s_in, Length); if ((IoStatus == NT_STATUS_UNSUCCESSFUL) || (IoStatus == STATUS_NO_MORE_FILES)) { status = (IoStatus == STATUS_NO_MORE_FILES) ? 0 : IoStatus; fuse_data = devredir_fuse_data_dequeue(irp); xfuse_devredir_cb_enum_dir_done(fuse_data->data_ptr, status); irp->completion_type = CID_CLOSE; dev_redir_send_drive_close_request(RDPDR_CTYP_CORE, PAKID_CORE_DEVICE_IOREQUEST, DeviceId, irp->FileId, irp->CompletionId, IRP_MJ_CLOSE, 0, 32); free(fuse_data); return; } /* TODO check status for errors */ /* process FILE_DIRECTORY_INFORMATION structures */ while (i < Length) { log_debug("processing FILE_DIRECTORY_INFORMATION structs"); xstream_rd_u32_le(s_in, NextEntryOffset); xstream_seek(s_in, 4); /* FileIndex */ xstream_rd_u64_le(s_in, CreationTime); xstream_rd_u64_le(s_in, LastAccessTime); xstream_rd_u64_le(s_in, LastWriteTime); xstream_rd_u64_le(s_in, ChangeTime); xstream_rd_u64_le(s_in, EndOfFile); xstream_seek(s_in, 8); /* AllocationSize */ xstream_rd_u32_le(s_in, FileAttributes); xstream_rd_u32_le(s_in, FileNameLength); #ifdef USE_SHORT_NAMES_IN_DIR_LISTING xstream_rd_u32_le(s_in, EaSize); xstream_rd_u8(s_in, ShortNameLength); xstream_rd_u8(s_in, Reserved); xstream_seek(s_in, 23); /* ShortName in Unicode */ #endif devredir_cvt_from_unicode_len(filename, s_in->p, FileNameLength); #ifdef USE_SHORT_NAMES_IN_DIR_LISTING i += 70 + 23 + FileNameLength; #else i += 64 + FileNameLength; #endif //log_debug("NextEntryOffset: 0x%x", NextEntryOffset); //log_debug("CreationTime: 0x%llx", CreationTime); //log_debug("LastAccessTime: 0x%llx", LastAccessTime); //log_debug("LastWriteTime: 0x%llx", LastWriteTime); //log_debug("ChangeTime: 0x%llx", ChangeTime); //log_debug("EndOfFile: %lld", EndOfFile); //log_debug("FileAttributes: 0x%x", FileAttributes); #ifdef USE_SHORT_NAMES_IN_DIR_LISTING //log_debug("ShortNameLength: %d", ShortNameLength); #endif //log_debug("FileNameLength: %d", FileNameLength); log_debug("FileName: %s", filename); if ((xinode = calloc(1, sizeof(struct xrdp_inode))) == NULL) { log_error("system out of memory"); fuse_data = devredir_fuse_data_peek(irp); xfuse_devredir_cb_enum_dir(fuse_data->data_ptr, NULL); return; } strcpy(xinode->name, filename); xinode->size = (size_t) EndOfFile; xinode->mode = WINDOWS_TO_LINUX_FILE_PERM(FileAttributes); xinode->atime = WINDOWS_TO_LINUX_TIME(LastAccessTime); xinode->mtime = WINDOWS_TO_LINUX_TIME(LastWriteTime); xinode->ctime = WINDOWS_TO_LINUX_TIME(CreationTime); /* add this entry to xrdp file system */ fuse_data = devredir_fuse_data_peek(irp); xfuse_devredir_cb_enum_dir(fuse_data->data_ptr, xinode); } dev_redir_send_drive_dir_request(irp, DeviceId, 0, NULL); } /** * FUSE calls this function whenever it wants us to enumerate a dir * * @param fusep opaque data struct that we just pass back to FUSE when done * @param device_id device_id of the redirected share * @param path the dir path to enumerate * * @return 0 on success, -1 on failure *****************************************************************************/ int APP_CC dev_redir_get_dir_listing(void *fusep, tui32 device_id, char *path) { tui32 DesiredAccess; tui32 CreateOptions; tui32 CreateDisposition; int rval; IRP *irp; log_debug("fusep=%p", fusep); if ((irp = devredir_irp_new()) == NULL) return -1; /* cvt / to windows compatible \ */ devredir_cvt_slash(path); irp->CompletionId = g_completion_id++; irp->completion_type = CID_CREATE_DIR_REQ; irp->DeviceId = device_id; strcpy(irp->pathname, path); devredir_fuse_data_enqueue(irp, fusep); DesiredAccess = DA_FILE_READ_DATA | DA_SYNCHRONIZE; CreateOptions = CO_FILE_DIRECTORY_FILE | CO_FILE_SYNCHRONOUS_IO_NONALERT; CreateDisposition = CD_FILE_OPEN; rval = dev_redir_send_drive_create_request(device_id, path, DesiredAccess, CreateOptions, CreateDisposition, irp->CompletionId); log_debug("looking for device_id=%d path=%s", device_id, path); /* when we get a respone to dev_redir_send_drive_create_request(), we */ /* call dev_redir_send_drive_dir_request(), which needs the following */ /* at the end of the path argument */ if (dev_redir_string_ends_with(irp->pathname, '\\')) strcat(irp->pathname, "*"); else strcat(irp->pathname, "\\*"); return rval; } int APP_CC dev_redir_file_open(void *fusep, tui32 device_id, char *path, int mode, int type, char *gen_buf) { tui32 DesiredAccess; tui32 CreateOptions; tui32 CreateDisposition; int rval; IRP *irp; log_debug("device_id=%d path=%s mode=0x%x", device_id, path, mode); if ((irp = devredir_irp_new()) == NULL) return -1; if (type & OP_RENAME_FILE) { irp->completion_type = CID_RENAME_FILE; strcpy(irp->gen_buf, gen_buf); } else { irp->completion_type = CID_CREATE_OPEN_REQ; } irp->CompletionId = g_completion_id++; irp->DeviceId = device_id; strcpy(irp->pathname, path); devredir_fuse_data_enqueue(irp, fusep); if (mode & O_CREAT) { log_debug("open file in O_CREAT"); DesiredAccess = 0x0016019f; /* got this value from windows */ if (type & S_IFDIR) { log_debug("creating dir"); CreateOptions = CO_FILE_DIRECTORY_FILE | CO_FILE_SYNCHRONOUS_IO_NONALERT; irp->type = S_IFDIR; } else { log_debug("creating file"); CreateOptions = 0x44; /* got this value from windows */ } //CreateDisposition = CD_FILE_CREATE; CreateDisposition = 0x02; /* got this value from windows */ } else { log_debug("open file in O_RDWR"); #if 1 /* without the 0x00000010 rdesktop opens files in */ /* O_RDONLY instead of O_RDWR mode */ DesiredAccess = DA_FILE_READ_DATA | DA_FILE_WRITE_DATA | DA_SYNCHRONIZE | 0x00000010; CreateOptions = CO_FILE_SYNCHRONOUS_IO_NONALERT; CreateDisposition = CD_FILE_OPEN; // WAS 1 #else /* got this value from windows; the 0x00000010 was added by LK; */ /* without this rdesktop opens files in O_RDONLY instead of */ /* O_RDWR mode */ DesiredAccess = 0x00120089 | 0x00000010; CreateOptions = 0x20060; CreateDisposition = 0x01; #endif } rval = dev_redir_send_drive_create_request(device_id, path, DesiredAccess, CreateOptions, CreateDisposition, irp->CompletionId); return rval; } int devredir_file_close(void *fusep, tui32 device_id, tui32 FileId) { IRP *irp; log_debug("entered: fusep=%p device_id=%d FileId=%d", fusep, device_id, FileId); #if 0 if ((irp = devredir_irp_new()) == NULL) return -1; irp->CompletionId = g_completion_id++; #else if ((irp = devredir_irp_find_by_fileid(FileId)) == NULL) { log_error("no IRP found with FileId = %d", FileId); return -1; } #endif irp->completion_type = CID_FILE_CLOSE; irp->DeviceId = device_id; devredir_fuse_data_enqueue(irp, fusep); return dev_redir_send_drive_close_request(RDPDR_CTYP_CORE, PAKID_CORE_DEVICE_IOREQUEST, device_id, FileId, irp->CompletionId, IRP_MJ_CLOSE, 0, 32); } /** * Remove (delete) a directory or file *****************************************************************************/ int APP_CC devredir_rmdir_or_file(void *fusep, tui32 device_id, char *path, int mode) { tui32 DesiredAccess; tui32 CreateOptions; tui32 CreateDisposition; int rval; IRP *irp; if ((irp = devredir_irp_new()) == NULL) return -1; irp->CompletionId = g_completion_id++; irp->completion_type = CID_RMDIR_OR_FILE; irp->DeviceId = device_id; strcpy(irp->pathname, path); devredir_fuse_data_enqueue(irp, fusep); //DesiredAccess = DA_DELETE | DA_FILE_READ_ATTRIBUTES | DA_SYNCHRONIZE; DesiredAccess = 0x00100080; /* got this value from windows */ //CreateOptions = CO_FILE_DELETE_ON_CLOSE | CO_FILE_DIRECTORY_FILE | // CO_FILE_SYNCHRONOUS_IO_NONALERT; CreateOptions = 0x020; /* got this value from windows */ //CreateDisposition = CD_FILE_OPEN; // WAS 1 CreateDisposition = 0x01; /* got this value from windows */ rval = dev_redir_send_drive_create_request(device_id, path, DesiredAccess, CreateOptions, CreateDisposition, irp->CompletionId); return rval; } /** * Read data from previously opened file * * @return 0 on success, -1 on failure *****************************************************************************/ int APP_CC devredir_file_read(void *fusep, tui32 DeviceId, tui32 FileId, tui32 Length, tui64 Offset) { struct stream *s; IRP *irp; IRP *new_irp; int bytes; xstream_new(s, 1024); if ((irp = devredir_irp_find_by_fileid(FileId)) == NULL) { log_error("no IRP found with FileId = %d", FileId); xfuse_devredir_cb_read_file(fusep, NULL, 0); return -1; } /* create a new IRP for this request */ if ((new_irp = devredir_irp_clone(irp)) == NULL) { /* system out of memory */ xfuse_devredir_cb_read_file(fusep, NULL, 0); return -1; } new_irp->FileId = 0; new_irp->completion_type = CID_READ; new_irp->CompletionId = g_completion_id++; devredir_fuse_data_enqueue(new_irp, fusep); devredir_insert_DeviceIoRequest(s, DeviceId, FileId, new_irp->CompletionId, IRP_MJ_READ, 0); xstream_wr_u32_le(s, Length); xstream_wr_u64_le(s, Offset); xstream_seek(s, 20); /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); return 0; } int APP_CC dev_redir_file_write(void *fusep, tui32 DeviceId, tui32 FileId, const char *buf, tui32 Length, tui64 Offset) { struct stream *s; IRP *irp; IRP *new_irp; int bytes; log_debug("DeviceId=%d FileId=%d Length=%d Offset=%lld", DeviceId, FileId, Length, Offset); xstream_new(s, 1024 + Length); if ((irp = devredir_irp_find_by_fileid(FileId)) == NULL) { log_error("no IRP found with FileId = %d", FileId); xfuse_devredir_cb_write_file(fusep, NULL, 0); return -1; } /* create a new IRP for this request */ if ((new_irp = devredir_irp_clone(irp)) == NULL) { /* system out of memory */ xfuse_devredir_cb_write_file(fusep, NULL, 0); return -1; } new_irp->FileId = 0; new_irp->completion_type = CID_WRITE; new_irp->CompletionId = g_completion_id++; devredir_fuse_data_enqueue(new_irp, fusep); devredir_insert_DeviceIoRequest(s, DeviceId, FileId, new_irp->CompletionId, IRP_MJ_WRITE, 0); xstream_wr_u32_le(s, Length); xstream_wr_u64_le(s, Offset); xstream_seek(s, 20); /* padding */ /* now insert real data */ xstream_copyin(s, buf, Length); /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); return 0; } /****************************************************************************** ** FIFO for FUSE_DATA ** ******************************************************************************/ /** * Return FUSE_DATA at the head of the queue without removing it * * @return FUSE_DATA on success, or NULL on failure *****************************************************************************/ void * APP_CC devredir_fuse_data_peek(IRP *irp) { log_debug("returning %p", irp->fd_head); return irp->fd_head; } /** * Return oldest FUSE_DATA from queue * * @return FUSE_DATA on success, NULL on failure *****************************************************************************/ void * APP_CC devredir_fuse_data_dequeue(IRP *irp) { FUSE_DATA *head; if ((irp == NULL) || (irp->fd_head == NULL)) { log_debug("+++ returning NULL"); return NULL; } if (irp->fd_head->next == NULL) { /* only one element in queue */ head = irp->fd_head; irp->fd_head = NULL; irp->fd_tail = NULL; log_debug("+++ returning FUSE_DATA=%p containing FUSE_INFO=%p", head, head->data_ptr); return head; } /* more than one element in queue */ head = irp->fd_head; irp->fd_head = head->next; log_debug("+++ returning FUSE_DATA=%p containing FUSE_INFO=%p", head, head->data_ptr); return head; } /** * Insert specified FUSE_DATA at the end of our queue * * @return 0 on success, -1 on failure *****************************************************************************/ int APP_CC devredir_fuse_data_enqueue(IRP *irp, void *vp) { FUSE_DATA *fd; FUSE_DATA *tail; if (irp == NULL) return -1; if ((fd = calloc(1, sizeof(FUSE_DATA))) == NULL) return -1; fd->data_ptr = vp; fd->next = NULL; if (irp->fd_tail == NULL) { /* queue is empty, insert at head */ irp->fd_head = fd; irp->fd_tail = fd; log_debug("+++ inserted FUSE_DATA=%p containing FUSE_INFO=%p at head", fd, vp); return 0; } /* queue is not empty, insert at tail end */ tail = irp->fd_tail; tail->next = fd; irp->fd_tail = fd; log_debug("+++ inserted FUSE_DATA=%p containing FUSE_INFO=%p at tail", fd, vp); return 0; } /****************************************************************************** ** miscellaneous stuff ** ******************************************************************************/ void APP_CC devredir_insert_DeviceIoRequest(struct stream *s, tui32 DeviceId, tui32 FileId, tui32 CompletionId, tui32 MajorFunction, tui32 MinorFunction) { /* setup DR_DEVICE_IOREQUEST header */ xstream_wr_u16_le(s, RDPDR_CTYP_CORE); xstream_wr_u16_le(s, PAKID_CORE_DEVICE_IOREQUEST); xstream_wr_u32_le(s, DeviceId); xstream_wr_u32_le(s, FileId); xstream_wr_u32_le(s, CompletionId); xstream_wr_u32_le(s, MajorFunction); xstream_wr_u32_le(s, MinorFunction); } /** * Convert / to windows compatible \ *****************************************************************************/ void APP_CC devredir_cvt_slash(char *path) { char *cptr = path; while (*cptr != 0) { if (*cptr == '/') *cptr = '\\'; cptr++; } } void APP_CC devredir_cvt_to_unicode(char *unicode, char *path) { char *dest; char *src; int rv; int i; rv = g_mbstowcs((twchar *) unicode, path, strlen(path)); /* unicode is typically 4 bytes, but microsoft only uses 2 bytes */ src = unicode + sizeof(twchar); /* skip 1st unicode char */ dest = unicode + 2; /* first char already in place */ for (i = 1; i < rv; i++) { *dest++ = *src++; *dest++ = *src++; src += 2; } *dest++ = 0; *dest++ = 0; } void APP_CC devredir_cvt_from_unicode_len(char *path, char *unicode, int len) { char *dest; char *dest_saved; char *src; int rv; int i; int bytes_to_alloc; int max_bytes; bytes_to_alloc = (((len / 2) * sizeof(twchar)) + sizeof(twchar)); src = unicode; dest = g_malloc(bytes_to_alloc, 1); dest_saved = dest; for (i = 0; i < len; i += 2) { *dest++ = *src++; *dest++ = *src++; dest += 2; } *dest++ = 0; *dest++ = 0; *dest++ = 0; *dest++ = 0; max_bytes = wcstombs(NULL, (wchar_t *) dest_saved, 0); if (max_bytes > 0) { rv = wcstombs(path, (wchar_t *) dest_saved, max_bytes); path[max_bytes] = 0; } g_free(dest_saved); } int APP_CC dev_redir_string_ends_with(char *string, char c) { int len; len = strlen(string); return (string[len - 1] == c) ? 1 : 0; } void APP_CC devredir_insert_RDPDR_header(struct stream *s, tui16 Component, tui16 PacketId) { xstream_wr_u16_le(s, Component); xstream_wr_u16_le(s, PacketId); } void APP_CC devredir_proc_cid_rmdir_or_file(IRP *irp, tui32 IoStatus) { struct stream *s; int bytes; if (IoStatus != NT_STATUS_SUCCESS) { FUSE_DATA *fuse_data = devredir_fuse_data_dequeue(irp); if (fuse_data) { xfuse_devredir_cb_rmdir_or_file(fuse_data->data_ptr, IoStatus); free(fuse_data); } devredir_irp_delete(irp); return; } xstream_new(s, 1024); irp->completion_type = CID_RMDIR_OR_FILE_RESP; devredir_insert_DeviceIoRequest(s, irp->DeviceId, irp->FileId, irp->CompletionId, IRP_MJ_SET_INFORMATION, 0); xstream_wr_u32_le(s, FileDispositionInformation); xstream_wr_u32_le(s, 0); /* length is zero */ xstream_seek(s, 24); /* padding */ /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); return; } void APP_CC devredir_proc_cid_rmdir_or_file_resp(IRP *irp, tui32 IoStatus) { FUSE_DATA *fuse_data; fuse_data = devredir_fuse_data_dequeue(irp); if (fuse_data) { xfuse_devredir_cb_rmdir_or_file(fuse_data->data_ptr, IoStatus); free(fuse_data); } if (IoStatus != NT_STATUS_SUCCESS) { devredir_irp_delete(irp); return; } irp->completion_type = CID_CLOSE; dev_redir_send_drive_close_request(RDPDR_CTYP_CORE, PAKID_CORE_DEVICE_IOREQUEST, irp->DeviceId, irp->FileId, irp->CompletionId, IRP_MJ_CLOSE, 0, 32); } void APP_CC devredir_proc_cid_rename_file(IRP *irp, tui32 IoStatus) { struct stream *s; int bytes; int sblen; /* SetBuffer length */ int flen; /* FileNameLength */ if (IoStatus != NT_STATUS_SUCCESS) { log_debug("rename returned with IoStatus=0x%x", IoStatus); FUSE_DATA *fuse_data = devredir_fuse_data_dequeue(irp); if (fuse_data) { xfuse_devredir_cb_rename_file(fuse_data->data_ptr, IoStatus); free(fuse_data); } devredir_irp_delete(irp); return; } /* Path in unicode needs this much space */ flen = ((g_mbstowcs(NULL, irp->gen_buf, 0) * sizeof(twchar)) / 2) + 2; sblen = 6 + flen; xstream_new(s, 1024 + flen); irp->completion_type = CID_RENAME_FILE_RESP; devredir_insert_DeviceIoRequest(s, irp->DeviceId, irp->FileId, irp->CompletionId, IRP_MJ_SET_INFORMATION, 0); xstream_wr_u32_le(s, FileRenameInformation); xstream_wr_u32_le(s, sblen); /* number of bytes after padding */ xstream_seek(s, 24); /* padding */ xstream_wr_u8(s, 1); /* ReplaceIfExists */ xstream_wr_u8(s, 0); /* RootDirectory */ xstream_wr_u32_le(s, flen); /* FileNameLength */ /* filename in unicode */ devredir_cvt_to_unicode(s->p, irp->gen_buf); /* UNICODE_TODO */ xstream_seek(s, flen); /* send to client */ bytes = xstream_len(s); send_channel_data(g_rdpdr_chan_id, s->data, bytes); xstream_free(s); return; } void APP_CC devredir_proc_cid_rename_file_resp(IRP *irp, tui32 IoStatus) { FUSE_DATA *fuse_data; log_debug("entered"); fuse_data = devredir_fuse_data_dequeue(irp); if (fuse_data) { xfuse_devredir_cb_rename_file(fuse_data->data_ptr, IoStatus); free(fuse_data); } if (IoStatus != NT_STATUS_SUCCESS) { devredir_irp_delete(irp); return; } irp->completion_type = CID_CLOSE; dev_redir_send_drive_close_request(RDPDR_CTYP_CORE, PAKID_CORE_DEVICE_IOREQUEST, irp->DeviceId, irp->FileId, irp->CompletionId, IRP_MJ_CLOSE, 0, 32); }