/* Unix SMB/CIFS implementation. CIFS-on-CIFS NTVFS filesystem backend Copyright (C) Andrew Tridgell 2003 Copyright (C) James J Myers 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. */ /* this implements a CIFS->CIFS NTVFS filesystem backend. */ #include "includes.h" /* this is stored in ntvfs_private */ struct cvfs_private { struct cli_tree *tree; struct cli_transport *transport; struct tcon_context *conn; const char *map_calls; }; /* a structure used to pass information to an async handler */ struct async_info { struct request_context *req; void *parms; }; /* an idle function to cope with messages from the smbd client while waiting for a reply from the server this function won't be needed once all of the cifs backend and the core of smbd is converted to use async calls */ static void idle_func(struct cli_transport *transport, void *p_private) { struct cvfs_private *private = p_private; if (socket_pending(private->conn->smb->socket.fd)) { smbd_process_async(private->conn->smb); } } /* a handler for oplock break events from the server - these need to be passed along to the client */ static BOOL oplock_handler(struct cli_transport *transport, uint16 tid, uint16 fnum, uint8 level, void *p_private) { struct cvfs_private *private = p_private; DEBUG(5,("vfs_cifs: sending oplock break level %d for fnum %d\n", level, fnum)); return req_send_oplock_break(private->conn, fnum, level); } /* a handler for read events on a connection to a backend server */ static void cifs_socket_handler(struct event_context *ev, struct fd_event *fde, time_t t, uint16 flags) { struct tcon_context *conn = fde->private; struct cvfs_private *private = conn->ntvfs_private; DEBUG(5,("cifs_socket_handler event on fd %d\n", fde->fd)); if (!cli_request_receive_next(private->transport)) { /* the connection to our server is dead */ close_cnum(conn); } } /* connect to a share - used when a tree_connect operation comes in. */ static NTSTATUS cvfs_connect(struct request_context *req, const char *sharename) { struct tcon_context *conn = req->conn; NTSTATUS status; struct cvfs_private *private; char *map_calls; struct fd_event fde; const char *host, *user, *pass, *domain, *remote_share; /* Here we need to determine which server to connect to. * For now we use parametric options, type cifs. * Later we will use security=server and auth_server.c. */ host = lp_parm_string(req->conn->service, "cifs", "server"); user = lp_parm_string(req->conn->service, "cifs", "user"); pass = lp_parm_string(req->conn->service, "cifs", "password"); domain = lp_parm_string(req->conn->service, "cifs", "domain"); remote_share = lp_parm_string(req->conn->service, "cifs", "share"); if (!remote_share) { remote_share = sharename; } if (!host || !user || !pass || !domain) { DEBUG(1,("CIFS backend: You must supply server, user, password and domain\n")); return NT_STATUS_INVALID_PARAMETER; } private = talloc(req->conn->mem_ctx, sizeof(struct cvfs_private)); if (!private) { return NT_STATUS_NO_MEMORY; } ZERO_STRUCTP(private); req->conn->ntvfs_private = (void *)private; status = cli_tree_full_connection(&private->tree, "vfs_cifs", host, 0, remote_share, "?????", user, domain, pass); if (!NT_STATUS_IS_OK(status)) { return status; } private->transport = private->tree->session->transport; private->tree->session->pid = SVAL(req->in.hdr, HDR_PID); private->conn = req->conn; conn->fs_type = talloc_strdup(conn->mem_ctx, "NTFS"); conn->dev_type = talloc_strdup(conn->mem_ctx, "A:"); map_calls = lp_parm_string(req->conn->service, "cifs", "map calls"); if (map_calls) { private->map_calls = talloc_strdup(conn->mem_ctx, map_calls); } /* if we are mapping trans2, then we need to not give a trans2 pointer in the operations structure */ if (private->map_calls && in_list("trans2", private->map_calls, True)) { conn->ntvfs_ops->trans2 = NULL; } /* we need to tell the event loop that we wish to receive read events on our SMB connection to the server */ fde.fd = private->transport->socket->fd; fde.flags = EVENT_FD_READ; fde.private = req->conn; fde.handler = cifs_socket_handler; event_add_fd(conn->smb->events, &fde); /* we need to receive oplock break requests from the server */ cli_oplock_handler(private->transport, oplock_handler, private); cli_transport_idle_handler(private->transport, idle_func, 100, private); return NT_STATUS_OK; } /* disconnect from a share */ static NTSTATUS cvfs_disconnect(struct tcon_context *conn) { struct cvfs_private *private = conn->ntvfs_private; event_remove_fd_all(conn->smb->events, private->transport->socket->fd); smb_tree_disconnect(private->tree); cli_tree_close(private->tree); return NT_STATUS_OK; } /* a handler for simple async replies this handler can only be used for functions that don't return any parameters (those that just return a status code) */ static void async_simple(struct cli_request *c_req) { struct async_info *async = c_req->async.private; struct request_context *req = async->req; req->async.status = cli_request_simple_recv(c_req); req->async.send_fn(req); } /* save some typing for the simple functions */ #define ASYNC_RECV_TAIL(io, async_fn) do { \ if (!c_req) return NT_STATUS_UNSUCCESSFUL; \ { \ struct async_info *async = c_req->async.private; \ async = talloc(req->mem_ctx, sizeof(*async)); \ if (!async) return NT_STATUS_NO_MEMORY; \ async->parms = io; \ async->req = req; \ c_req->async.private = async; \ } \ c_req->async.fn = async_fn; \ req->control_flags |= REQ_CONTROL_ASYNC; \ return NT_STATUS_OK; \ } while (0) #define SIMPLE_ASYNC_TAIL ASYNC_RECV_TAIL(NULL, async_simple) /* delete a file - the dirtype specifies the file types to include in the search. The name can contain CIFS wildcards, but rarely does (except with OS/2 clients) */ static NTSTATUS cvfs_unlink(struct request_context *req, struct smb_unlink *unl) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; /* see if the front end will allow us to perform this function asynchronously. */ if (!req->async.send_fn) { return smb_raw_unlink(private->tree, unl); } c_req = smb_raw_unlink_send(private->tree, unl); SIMPLE_ASYNC_TAIL; } /* a handler for async ioctl replies */ static void async_ioctl(struct cli_request *c_req) { struct async_info *async = c_req->async.private; struct request_context *req = async->req; req->async.status = smb_raw_ioctl_recv(c_req, req->mem_ctx, async->parms); req->async.send_fn(req); } /* ioctl interface */ static NTSTATUS cvfs_ioctl(struct request_context *req, struct smb_ioctl *io) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; /* see if the front end will allow us to perform this function asynchronously. */ if (!req->async.send_fn) { return smb_raw_ioctl(private->tree, req->mem_ctx, io); } c_req = smb_raw_ioctl_send(private->tree, io); ASYNC_RECV_TAIL(io, async_ioctl); } /* check if a directory exists */ static NTSTATUS cvfs_chkpath(struct request_context *req, struct smb_chkpath *cp) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_chkpath(private->tree, cp); } c_req = smb_raw_chkpath_send(private->tree, cp); SIMPLE_ASYNC_TAIL; } /* a handler for async qpathinfo replies */ static void async_qpathinfo(struct cli_request *c_req) { struct async_info *async = c_req->async.private; struct request_context *req = async->req; req->async.status = smb_raw_pathinfo_recv(c_req, req->mem_ctx, async->parms); req->async.send_fn(req); } /* return info on a pathname */ static NTSTATUS cvfs_qpathinfo(struct request_context *req, union smb_fileinfo *info) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_pathinfo(private->tree, req->mem_ctx, info); } c_req = smb_raw_pathinfo_send(private->tree, info); ASYNC_RECV_TAIL(info, async_qpathinfo); } /* a handler for async qfileinfo replies */ static void async_qfileinfo(struct cli_request *c_req) { struct async_info *async = c_req->async.private; struct request_context *req = async->req; req->async.status = smb_raw_fileinfo_recv(c_req, req->mem_ctx, async->parms); req->async.send_fn(req); } /* query info on a open file */ static NTSTATUS cvfs_qfileinfo(struct request_context *req, union smb_fileinfo *info) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_fileinfo(private->tree, req->mem_ctx, info); } c_req = smb_raw_fileinfo_send(private->tree, info); ASYNC_RECV_TAIL(info, async_qfileinfo); } /* set info on a pathname */ static NTSTATUS cvfs_setpathinfo(struct request_context *req, union smb_setfileinfo *st) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_setpathinfo(private->tree, st); } c_req = smb_raw_setpathinfo_send(private->tree, st); SIMPLE_ASYNC_TAIL; } /* a handler for async open replies */ static void async_open(struct cli_request *c_req) { struct async_info *async = c_req->async.private; struct request_context *req = async->req; req->async.status = smb_raw_open_recv(c_req, req->mem_ctx, async->parms); req->async.send_fn(req); } /* open a file */ static NTSTATUS cvfs_open(struct request_context *req, union smb_open *io) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (private->map_calls && in_list("open", private->map_calls, True) && io->generic.level != RAW_OPEN_GENERIC) { return ntvfs_map_open(req, io); } if (!req->async.send_fn) { return smb_raw_open(private->tree, req->mem_ctx, io); } c_req = smb_raw_open_send(private->tree, io); ASYNC_RECV_TAIL(io, async_open); } /* create a directory */ static NTSTATUS cvfs_mkdir(struct request_context *req, union smb_mkdir *md) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_mkdir(private->tree, md); } c_req = smb_raw_mkdir_send(private->tree, md); SIMPLE_ASYNC_TAIL; } /* remove a directory */ static NTSTATUS cvfs_rmdir(struct request_context *req, struct smb_rmdir *rd) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_rmdir(private->tree, rd); } c_req = smb_raw_rmdir_send(private->tree, rd); SIMPLE_ASYNC_TAIL; } /* rename a set of files */ static NTSTATUS cvfs_rename(struct request_context *req, union smb_rename *ren) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_rename(private->tree, ren); } c_req = smb_raw_rename_send(private->tree, ren); SIMPLE_ASYNC_TAIL; } /* copy a set of files */ static NTSTATUS cvfs_copy(struct request_context *req, struct smb_copy *cp) { return NT_STATUS_NOT_SUPPORTED; } /* a handler for async read replies */ static void async_read(struct cli_request *c_req) { struct async_info *async = c_req->async.private; struct request_context *req = async->req; req->async.status = smb_raw_read_recv(c_req, async->parms); req->async.send_fn(req); } /* read from a file */ static NTSTATUS cvfs_read(struct request_context *req, union smb_read *rd) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_read(private->tree, rd); } c_req = smb_raw_read_send(private->tree, rd); ASYNC_RECV_TAIL(rd, async_read); } /* a handler for async write replies */ static void async_write(struct cli_request *c_req) { struct async_info *async = c_req->async.private; struct request_context *req = async->req; req->async.status = smb_raw_write_recv(c_req, async->parms); req->async.send_fn(req); } /* write to a file */ static NTSTATUS cvfs_write(struct request_context *req, union smb_write *wr) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_write(private->tree, wr); } c_req = smb_raw_write_send(private->tree, wr); ASYNC_RECV_TAIL(wr, async_write); } /* seek in a file */ static NTSTATUS cvfs_seek(struct request_context *req, struct smb_seek *io) { return NT_STATUS_NOT_SUPPORTED; } /* flush a file */ static NTSTATUS cvfs_flush(struct request_context *req, struct smb_flush *io) { return NT_STATUS_OK; } /* close a file */ static NTSTATUS cvfs_close(struct request_context *req, union smb_close *io) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_close(private->tree, io); } c_req = smb_raw_close_send(private->tree, io); SIMPLE_ASYNC_TAIL; } /* exit - closing files? */ static NTSTATUS cvfs_exit(struct request_context *req) { return NT_STATUS_NOT_SUPPORTED; } /* lock a byte range */ static NTSTATUS cvfs_lock(struct request_context *req, union smb_lock *lck) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_lock(private->tree, lck); } c_req = smb_raw_lock_send(private->tree, lck); SIMPLE_ASYNC_TAIL; } /* set info on a open file */ static NTSTATUS cvfs_setfileinfo(struct request_context *req, union smb_setfileinfo *info) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_setfileinfo(private->tree, info); } c_req = smb_raw_setfileinfo_send(private->tree, info); SIMPLE_ASYNC_TAIL; } /* a handler for async fsinfo replies */ static void async_fsinfo(struct cli_request *c_req) { struct async_info *async = c_req->async.private; struct request_context *req = async->req; req->async.status = smb_raw_fsinfo_recv(c_req, req->mem_ctx, async->parms); req->async.send_fn(req); } /* return filesystem space info */ static NTSTATUS cvfs_fsinfo(struct request_context *req, union smb_fsinfo *fs) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_fsinfo(private->tree, req->mem_ctx, fs); } c_req = smb_raw_fsinfo_send(private->tree, req->mem_ctx, fs); ASYNC_RECV_TAIL(fs, async_fsinfo); } /* return print queue info */ static NTSTATUS cvfs_lpq(struct request_context *req, union smb_lpq *lpq) { return NT_STATUS_NOT_SUPPORTED; } /* list files in a directory matching a wildcard pattern */ static NTSTATUS cvfs_search_first(struct request_context *req, union smb_search_first *io, void *search_private, BOOL (*callback)(void *, union smb_search_data *)) { struct cvfs_private *private = req->conn->ntvfs_private; return smb_raw_search_first(private->tree, req->mem_ctx, io, search_private, callback); } /* continue a search */ static NTSTATUS cvfs_search_next(struct request_context *req, union smb_search_next *io, void *search_private, BOOL (*callback)(void *, union smb_search_data *)) { struct cvfs_private *private = req->conn->ntvfs_private; return smb_raw_search_next(private->tree, req->mem_ctx, io, search_private, callback); } /* close a search */ static NTSTATUS cvfs_search_close(struct request_context *req, union smb_search_close *io) { struct cvfs_private *private = req->conn->ntvfs_private; return smb_raw_search_close(private->tree, io); } /* a handler for async trans2 replies */ static void async_trans2(struct cli_request *c_req) { struct async_info *async = c_req->async.private; struct request_context *req = async->req; req->async.status = smb_raw_trans2_recv(c_req, req->mem_ctx, async->parms); req->async.send_fn(req); } /* raw trans2 */ static NTSTATUS cvfs_trans2(struct request_context *req, struct smb_trans2 *trans2) { struct cvfs_private *private = req->conn->ntvfs_private; struct cli_request *c_req; if (!req->async.send_fn) { return smb_raw_trans2(private->tree, req->mem_ctx, trans2); } c_req = smb_raw_trans2_send(private->tree, trans2); ASYNC_RECV_TAIL(trans2, async_trans2); } /* initialise the CIFS->CIFS backend, registering ourselves with the ntvfs subsystem */ NTSTATUS ntvfs_cifs_init(void) { NTSTATUS ret; struct ntvfs_ops ops; ZERO_STRUCT(ops); ops.name = "cifs"; ops.type = NTVFS_DISK; /* fill in all the operations */ ops.connect = cvfs_connect; ops.disconnect = cvfs_disconnect; ops.unlink = cvfs_unlink; ops.chkpath = cvfs_chkpath; ops.qpathinfo = cvfs_qpathinfo; ops.setpathinfo = cvfs_setpathinfo; ops.open = cvfs_open; ops.mkdir = cvfs_mkdir; ops.rmdir = cvfs_rmdir; ops.rename = cvfs_rename; ops.copy = cvfs_copy; ops.ioctl = cvfs_ioctl; ops.read = cvfs_read; ops.write = cvfs_write; ops.seek = cvfs_seek; ops.flush = cvfs_flush; ops.close = cvfs_close; ops.exit = cvfs_exit; ops.lock = cvfs_lock; ops.setfileinfo = cvfs_setfileinfo; ops.qfileinfo = cvfs_qfileinfo; ops.fsinfo = cvfs_fsinfo; ops.lpq = cvfs_lpq; ops.search_first = cvfs_search_first; ops.search_next = cvfs_search_next; ops.search_close = cvfs_search_close; /* only define this one for trans2 testing */ ops.trans2 = cvfs_trans2; /* register ourselves with the NTVFS subsystem. We register under the name 'cifs'. */ ret = register_backend("ntvfs", &ops); if (!NT_STATUS_IS_OK(ret)) { DEBUG(0,("Failed to register CIFS backend!\n")); } return ret; }