/* Unix SMB/Netbios implementation. Version 3.0 MSDfs services for Samba Copyright (C) Shirish Kalele 2000 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. */ #define DBGC_CLASS DBGC_MSDFS #include "includes.h" extern uint32 global_client_caps; /********************************************************************** Parse the pathname of the form \hostname\service\reqpath into the dfs_path structure **********************************************************************/ static BOOL parse_dfs_path(char *pathname, struct dfs_path *pdp) { pstring pathname_local; char *p, *temp; pstrcpy(pathname_local,pathname); p = temp = pathname_local; ZERO_STRUCTP(pdp); trim_char(temp,'\\','\\'); DEBUG(10,("temp in parse_dfs_path: .%s. after trimming \\'s\n",temp)); /* now tokenize */ /* parse out hostname */ p = strchr_m(temp,'\\'); if(p == NULL) { return False; } *p = '\0'; pstrcpy(pdp->hostname,temp); DEBUG(10,("parse_dfs_path: hostname: %s\n",pdp->hostname)); /* parse out servicename */ temp = p+1; p = strchr_m(temp,'\\'); if(p == NULL) { pstrcpy(pdp->servicename,temp); pdp->reqpath[0] = '\0'; return True; } *p = '\0'; pstrcpy(pdp->servicename,temp); DEBUG(10,("parse_dfs_path: servicename: %s\n",pdp->servicename)); /* rest is reqpath */ check_path_syntax(pdp->reqpath, p+1); DEBUG(10,("parse_dfs_path: rest of the path: %s\n",pdp->reqpath)); return True; } /********************************************************************** Parse the pathname of the form /hostname/service/reqpath into the dfs_path structure **********************************************************************/ static BOOL parse_processed_dfs_path(char* pathname, struct dfs_path *pdp, BOOL allow_wcards) { pstring pathname_local; char *p,*temp; pstrcpy(pathname_local,pathname); p = temp = pathname_local; ZERO_STRUCTP(pdp); trim_char(temp,'/','/'); DEBUG(10,("temp in parse_processed_dfs_path: .%s. after trimming \\'s\n",temp)); /* now tokenize */ /* parse out hostname */ p = strchr_m(temp,'/'); if(p == NULL) { return False; } *p = '\0'; pstrcpy(pdp->hostname,temp); DEBUG(10,("parse_processed_dfs_path: hostname: %s\n",pdp->hostname)); /* parse out servicename */ temp = p+1; p = strchr_m(temp,'/'); if(p == NULL) { pstrcpy(pdp->servicename,temp); pdp->reqpath[0] = '\0'; return True; } *p = '\0'; pstrcpy(pdp->servicename,temp); DEBUG(10,("parse_processed_dfs_path: servicename: %s\n",pdp->servicename)); /* rest is reqpath */ if (allow_wcards) { BOOL path_contains_wcard; check_path_syntax_wcard(pdp->reqpath, p+1, &path_contains_wcard); } else { check_path_syntax(pdp->reqpath, p+1); } DEBUG(10,("parse_processed_dfs_path: rest of the path: %s\n",pdp->reqpath)); return True; } /******************************************************** Fake up a connection struct for the VFS layer. Note this CHANGES CWD !!!! JRA. *********************************************************/ static BOOL create_conn_struct(connection_struct *conn, int snum, char *path) { pstring connpath; ZERO_STRUCTP(conn); conn->service = snum; pstrcpy(connpath, path); pstring_sub(connpath , "%S", lp_servicename(snum)); /* needed for smbd_vfs_init() */ if ( (conn->mem_ctx=talloc_init("connection_struct")) == NULL ) { DEBUG(0,("talloc_init(connection_struct) failed!\n")); return False; } set_conn_connectpath(conn, connpath); if (!smbd_vfs_init(conn)) { DEBUG(0,("create_conn_struct: smbd_vfs_init failed.\n")); conn_free_internal(conn); return False; } /* * Windows seems to insist on doing trans2getdfsreferral() calls on the IPC$ * share as the anonymous user. If we try to chdir as that user we will * fail.... WTF ? JRA. */ if (vfs_ChDir(conn,conn->connectpath) != 0) { DEBUG(3,("create_conn_struct: Can't ChDir to new conn path %s. Error was %s\n", conn->connectpath, strerror(errno) )); conn_free_internal(conn); return False; } return True; } /********************************************************************** Parse the contents of a symlink to verify if it is an msdfs referral A valid referral is of the form: msdfs:server1\share1,server2\share2 talloc CTX can be NULL here if preflist and refcount pointers are null. **********************************************************************/ static BOOL parse_symlink(TALLOC_CTX *ctx, char *buf, struct referral **preflist, int *refcount) { pstring temp; char *prot; char *alt_path[MAX_REFERRAL_COUNT]; int count = 0, i; struct referral *reflist; pstrcpy(temp,buf); prot = strtok(temp,":"); if (!strequal(prot, "msdfs")) { return False; } /* No referral list requested. Just yes/no. */ if (!preflist) { return True; } if (!ctx) { DEBUG(0,("parse_symlink: logic error. TALLOC_CTX should not be null.\n")); return True; } /* parse out the alternate paths */ while(((alt_path[count] = strtok(NULL,",")) != NULL) && countst_mode)) { /* open the link and read it */ referral_len = SMB_VFS_READLINK(conn, path, referral, sizeof(pstring)-1); if (referral_len == -1) { DEBUG(0,("is_msdfs_link: Error reading msdfs link %s: %s\n", path, strerror(errno))); return False; } referral[referral_len] = '\0'; DEBUG(5,("is_msdfs_link: %s -> %s\n",path,referral)); if (parse_symlink(ctx, referral, reflistp, refcnt)) { return True; } } return False; } /***************************************************************** Used by other functions to decide if a dfs path is remote, and to get the list of referred locations for that remote path. findfirst_flag: For findfirsts, dfs links themselves are not redirected, but paths beyond the links are. For normal smb calls, even dfs links need to be redirected. self_referralp: clients expect a dfs referral for the same share when they request referrals for dfs roots on a server. consumedcntp: how much of the dfs path is being redirected. the client should try the remaining path on the redirected server. TALLOC_CTX can be NULL here if struct referral **reflistpp, int *refcntp are also NULL. *****************************************************************/ static BOOL resolve_dfs_path(TALLOC_CTX *ctx, pstring dfspath, struct dfs_path *dp, connection_struct *conn, BOOL search_flag, struct referral **reflistpp, int *refcntp, BOOL *self_referralp, int *consumedcntp) { pstring localpath; int consumed_level = 1; char *p; BOOL bad_path = False; SMB_STRUCT_STAT sbuf; pstring reqpath; if (!dp || !conn) { DEBUG(1,("resolve_dfs_path: NULL dfs_path* or NULL connection_struct*!\n")); return False; } if (!ctx && (reflistpp || refcntp)) { DEBUG(0,("resolve_dfs_path: logic error. TALLOC_CTX must not be NULL.\n")); } if (dp->reqpath[0] == '\0') { if (self_referralp) { DEBUG(6,("resolve_dfs_path: self-referral. returning False\n")); *self_referralp = True; } return False; } DEBUG(10,("resolve_dfs_path: Conn path = %s req_path = %s\n", conn->connectpath, dp->reqpath)); unix_convert(dp->reqpath,conn,0,&bad_path,&sbuf); /* JRA... should we strlower the last component here.... ? */ pstrcpy(localpath, dp->reqpath); /* check if need to redirect */ if (is_msdfs_link(ctx, conn, localpath, reflistpp, refcntp, NULL)) { if ( search_flag ) { DEBUG(6,("resolve_dfs_path (FindFirst) No redirection " "for dfs link %s.\n", dfspath)); return False; } DEBUG(6,("resolve_dfs_path: %s resolves to a valid Dfs link.\n", dfspath)); if (consumedcntp) { *consumedcntp = strlen(dfspath); } return True; } /* redirect if any component in the path is a link */ pstrcpy(reqpath, dp->reqpath); p = strrchr_m(reqpath, '/'); while (p) { *p = '\0'; pstrcpy(localpath, reqpath); if (is_msdfs_link(ctx, conn, localpath, reflistpp, refcntp, NULL)) { DEBUG(4, ("resolve_dfs_path: Redirecting %s because parent %s is dfs link\n", dfspath, localpath)); /* To find the path consumed, we truncate the original DFS pathname passed to use to remove the last component. The length of the resulting string is the path consumed */ if (consumedcntp) { char *q; pstring buf; pstrcpy(buf, dfspath); trim_char(buf, '\0', '\\'); for (; consumed_level; consumed_level--) { q = strrchr_m(buf, '\\'); if (q) { *q = 0; } } *consumedcntp = strlen(buf); DEBUG(10, ("resolve_dfs_path: Path consumed: %s (%d)\n", buf, *consumedcntp)); } return True; } p = strrchr_m(reqpath, '/'); consumed_level++; } return False; } /***************************************************************** Decides if a dfs pathname should be redirected or not. If not, the pathname is converted to a tcon-relative local unix path search_wcard_flag: this flag performs 2 functions bother related to searches. See resolve_dfs_path() and parse_processed_dfs_path() for details. *****************************************************************/ BOOL dfs_redirect( pstring pathname, connection_struct *conn, BOOL search_wcard_flag ) { struct dfs_path dp; if (!conn || !pathname) { return False; } parse_processed_dfs_path(pathname, &dp, search_wcard_flag); /* if dfs pathname for a non-dfs share, convert to tcon-relative path and return false */ if (!lp_msdfs_root(SNUM(conn))) { pstrcpy(pathname, dp.reqpath); return False; } if (!strequal(dp.servicename, lp_servicename(SNUM(conn)) )) { return False; } if (resolve_dfs_path(NULL, pathname, &dp, conn, search_wcard_flag, NULL, NULL, NULL, NULL)) { DEBUG(3,("dfs_redirect: Redirecting %s\n", pathname)); return True; } else { DEBUG(3,("dfs_redirect: Not redirecting %s.\n", pathname)); /* Form non-dfs tcon-relative path */ pstrcpy(pathname, dp.reqpath); DEBUG(3,("dfs_redirect: Path converted to non-dfs path %s\n", pathname)); return False; } /* never reached */ } /********************************************************************** Return a self referral. **********************************************************************/ static BOOL self_ref(TALLOC_CTX *ctx, char *pathname, struct junction_map *jucn, int *consumedcntp, BOOL *self_referralp) { struct referral *ref; if (self_referralp != NULL) { *self_referralp = True; } jucn->referral_count = 1; if((ref = TALLOC_P(ctx, struct referral)) == NULL) { DEBUG(0,("self_ref: malloc failed for referral\n")); return False; } pstrcpy(ref->alternate_path,pathname); ref->proximity = 0; ref->ttl = REFERRAL_TTL; jucn->referral_list = ref; if (consumedcntp) { *consumedcntp = strlen(pathname); } return True; } /********************************************************************** Gets valid referrals for a dfs path and fills up the junction_map structure. **********************************************************************/ BOOL get_referred_path(TALLOC_CTX *ctx, char *pathname, struct junction_map *jucn, int *consumedcntp, BOOL *self_referralp) { struct dfs_path dp; struct connection_struct conns; struct connection_struct *conn = &conns; pstring conn_path; int snum; BOOL ret = False; BOOL self_referral = False; if (!pathname || !jucn) { return False; } ZERO_STRUCT(conns); if (self_referralp) { *self_referralp = False; } else { self_referralp = &self_referral; } parse_dfs_path(pathname, &dp); /* Verify hostname in path */ if ( !strequal(get_local_machine_name(), dp.hostname) ) { /* Hostname mismatch, check if one of our IP addresses */ if (!ismyip(*interpret_addr2(dp.hostname))) { DEBUG(3, ("get_referred_path: Invalid hostname %s in path %s\n", dp.hostname, pathname)); return False; } } pstrcpy(jucn->service_name, dp.servicename); pstrcpy(jucn->volume_name, dp.reqpath); /* Verify the share is a dfs root */ snum = lp_servicenumber(jucn->service_name); if(snum < 0) { if ((snum = find_service(jucn->service_name)) < 0) { return False; } } if (!lp_msdfs_root(snum)) { DEBUG(3,("get_referred_path: .%s. in dfs path %s is not a dfs root.\n", dp.servicename, pathname)); goto out; } /* * Self referrals are tested with a anonymous IPC connection and * a GET_DFS_REFERRAL call to \\server\share. (which means dp.reqpath[0] points * to an empty string). create_conn_struct cd's into the directory and will * fail if it cannot (as the anonymous user). Cope with this. */ if (dp.reqpath[0] == '\0') { struct referral* ref; if (*lp_msdfs_proxy(snum) == '\0') { return self_ref(ctx, pathname, jucn, consumedcntp, self_referralp); } jucn->referral_count = 1; if ((ref = TALLOC_P(ctx, struct referral)) == NULL) { DEBUG(0, ("malloc failed for referral\n")); goto out; } pstrcpy(ref->alternate_path, lp_msdfs_proxy(snum)); if (dp.reqpath[0] != '\0') { pstrcat(ref->alternate_path, dp.reqpath); } ref->proximity = 0; ref->ttl = REFERRAL_TTL; jucn->referral_list = ref; if (consumedcntp) { *consumedcntp = strlen(pathname); } ret = True; goto out; } pstrcpy(conn_path, lp_pathname(snum)); if (!create_conn_struct(conn, snum, conn_path)) { return False; } /* If not remote & not a self referral, return False */ if (!resolve_dfs_path(ctx, pathname, &dp, conn, False, &jucn->referral_list, &jucn->referral_count, self_referralp, consumedcntp)) { if (!*self_referralp) { DEBUG(3,("get_referred_path: No valid referrals for path %s\n", pathname)); goto out; } } /* if self_referral, fill up the junction map */ if (*self_referralp) { if (self_ref(ctx, pathname, jucn, consumedcntp, self_referralp) == False) { goto out; } } ret = True; out: conn_free_internal(conn); return ret; } static int setup_ver2_dfs_referral(char *pathname, char **ppdata, struct junction_map *junction, int consumedcnt, BOOL self_referral) { char* pdata = *ppdata; unsigned char uni_requestedpath[1024]; int uni_reqpathoffset1,uni_reqpathoffset2; int uni_curroffset; int requestedpathlen=0; int offset; int reply_size = 0; int i=0; DEBUG(10,("setting up version2 referral\nRequested path:\n")); requestedpathlen = rpcstr_push(uni_requestedpath, pathname, sizeof(pstring), STR_TERMINATE); if (DEBUGLVL(10)) { dump_data(0, (const char *) uni_requestedpath,requestedpathlen); } DEBUG(10,("ref count = %u\n",junction->referral_count)); uni_reqpathoffset1 = REFERRAL_HEADER_SIZE + VERSION2_REFERRAL_SIZE * junction->referral_count; uni_reqpathoffset2 = uni_reqpathoffset1 + requestedpathlen; uni_curroffset = uni_reqpathoffset2 + requestedpathlen; reply_size = REFERRAL_HEADER_SIZE + VERSION2_REFERRAL_SIZE*junction->referral_count + 2 * requestedpathlen; DEBUG(10,("reply_size: %u\n",reply_size)); /* add up the unicode lengths of all the referral paths */ for(i=0;ireferral_count;i++) { DEBUG(10,("referral %u : %s\n",i,junction->referral_list[i].alternate_path)); reply_size += (strlen(junction->referral_list[i].alternate_path)+1)*2; } DEBUG(10,("reply_size = %u\n",reply_size)); /* add the unexplained 0x16 bytes */ reply_size += 0x16; pdata = SMB_REALLOC(pdata,reply_size); if(pdata == NULL) { DEBUG(0,("malloc failed for Realloc!\n")); return -1; } *ppdata = pdata; /* copy in the dfs requested paths.. required for offset calculations */ memcpy(pdata+uni_reqpathoffset1,uni_requestedpath,requestedpathlen); memcpy(pdata+uni_reqpathoffset2,uni_requestedpath,requestedpathlen); /* create the header */ SSVAL(pdata,0,consumedcnt * 2); /* path consumed */ SSVAL(pdata,2,junction->referral_count); /* number of referral in this pkt */ if(self_referral) { SIVAL(pdata,4,DFSREF_REFERRAL_SERVER | DFSREF_STORAGE_SERVER); } else { SIVAL(pdata,4,DFSREF_STORAGE_SERVER); } offset = 8; /* add the referral elements */ for(i=0;ireferral_count;i++) { struct referral* ref = &junction->referral_list[i]; int unilen; SSVAL(pdata,offset,2); /* version 2 */ SSVAL(pdata,offset+2,VERSION2_REFERRAL_SIZE); if(self_referral) { SSVAL(pdata,offset+4,1); } else { SSVAL(pdata,offset+4,0); } SSVAL(pdata,offset+6,0); /* ref_flags :use path_consumed bytes? */ SIVAL(pdata,offset+8,ref->proximity); SIVAL(pdata,offset+12,ref->ttl); SSVAL(pdata,offset+16,uni_reqpathoffset1-offset); SSVAL(pdata,offset+18,uni_reqpathoffset2-offset); /* copy referred path into current offset */ unilen = rpcstr_push(pdata+uni_curroffset, ref->alternate_path, sizeof(pstring), STR_UNICODE); SSVAL(pdata,offset+20,uni_curroffset-offset); uni_curroffset += unilen; offset += VERSION2_REFERRAL_SIZE; } /* add in the unexplained 22 (0x16) bytes at the end */ memset(pdata+uni_curroffset,'\0',0x16); return reply_size; } static int setup_ver3_dfs_referral(char *pathname, char **ppdata, struct junction_map *junction, int consumedcnt, BOOL self_referral) { char* pdata = *ppdata; unsigned char uni_reqpath[1024]; int uni_reqpathoffset1, uni_reqpathoffset2; int uni_curroffset; int reply_size = 0; int reqpathlen = 0; int offset,i=0; DEBUG(10,("setting up version3 referral\n")); reqpathlen = rpcstr_push(uni_reqpath, pathname, sizeof(pstring), STR_TERMINATE); if (DEBUGLVL(10)) { dump_data(0, (char *) uni_reqpath,reqpathlen); } uni_reqpathoffset1 = REFERRAL_HEADER_SIZE + VERSION3_REFERRAL_SIZE * junction->referral_count; uni_reqpathoffset2 = uni_reqpathoffset1 + reqpathlen; reply_size = uni_curroffset = uni_reqpathoffset2 + reqpathlen; for(i=0;ireferral_count;i++) { DEBUG(10,("referral %u : %s\n",i,junction->referral_list[i].alternate_path)); reply_size += (strlen(junction->referral_list[i].alternate_path)+1)*2; } pdata = SMB_REALLOC(pdata,reply_size); if(pdata == NULL) { DEBUG(0,("version3 referral setup: malloc failed for Realloc!\n")); return -1; } *ppdata = pdata; /* create the header */ SSVAL(pdata,0,consumedcnt * 2); /* path consumed */ SSVAL(pdata,2,junction->referral_count); /* number of referral */ if(self_referral) { SIVAL(pdata,4,DFSREF_REFERRAL_SERVER | DFSREF_STORAGE_SERVER); } else { SIVAL(pdata,4,DFSREF_STORAGE_SERVER); } /* copy in the reqpaths */ memcpy(pdata+uni_reqpathoffset1,uni_reqpath,reqpathlen); memcpy(pdata+uni_reqpathoffset2,uni_reqpath,reqpathlen); offset = 8; for(i=0;ireferral_count;i++) { struct referral* ref = &(junction->referral_list[i]); int unilen; SSVAL(pdata,offset,3); /* version 3 */ SSVAL(pdata,offset+2,VERSION3_REFERRAL_SIZE); if(self_referral) { SSVAL(pdata,offset+4,1); } else { SSVAL(pdata,offset+4,0); } SSVAL(pdata,offset+6,0); /* ref_flags :use path_consumed bytes? */ SIVAL(pdata,offset+8,ref->ttl); SSVAL(pdata,offset+12,uni_reqpathoffset1-offset); SSVAL(pdata,offset+14,uni_reqpathoffset2-offset); /* copy referred path into current offset */ unilen = rpcstr_push(pdata+uni_curroffset,ref->alternate_path, sizeof(pstring), STR_UNICODE | STR_TERMINATE); SSVAL(pdata,offset+16,uni_curroffset-offset); /* copy 0x10 bytes of 00's in the ServiceSite GUID */ memset(pdata+offset+18,'\0',16); uni_curroffset += unilen; offset += VERSION3_REFERRAL_SIZE; } return reply_size; } /****************************************************************** Set up the Dfs referral for the dfs pathname ******************************************************************/ int setup_dfs_referral(connection_struct *orig_conn, char *pathname, int max_referral_level, char **ppdata) { struct junction_map junction; int consumedcnt; BOOL self_referral = False; pstring buf; int reply_size = 0; char *pathnamep = pathname; TALLOC_CTX *ctx; if (!(ctx=talloc_init("setup_dfs_referral"))) { return -1; } ZERO_STRUCT(junction); /* get the junction entry */ if (!pathnamep) { talloc_destroy(ctx); return -1; } /* Trim pathname sent by client so it begins with only one backslash. Two backslashes confuse some dfs clients */ while (pathnamep[0] == '\\' && pathnamep[1] == '\\') { pathnamep++; } pstrcpy(buf, pathnamep); /* The following call can change cwd. */ if (!get_referred_path(ctx, buf, &junction, &consumedcnt, &self_referral)) { vfs_ChDir(orig_conn,orig_conn->connectpath); talloc_destroy(ctx); return -1; } vfs_ChDir(orig_conn,orig_conn->connectpath); if (!self_referral) { pathnamep[consumedcnt] = '\0'; if( DEBUGLVL( 3 ) ) { int i=0; dbgtext("setup_dfs_referral: Path %s to alternate path(s):",pathnamep); for(i=0;i3) { max_referral_level = 2; } switch(max_referral_level) { case 2: reply_size = setup_ver2_dfs_referral(pathnamep, ppdata, &junction, consumedcnt, self_referral); break; case 3: reply_size = setup_ver3_dfs_referral(pathnamep, ppdata, &junction, consumedcnt, self_referral); break; default: DEBUG(0,("setup_dfs_referral: Invalid dfs referral version: %d\n", max_referral_level)); talloc_destroy(ctx); return -1; } if (DEBUGLVL(10)) { DEBUGADD(0,("DFS Referral pdata:\n")); dump_data(0,*ppdata,reply_size); } talloc_destroy(ctx); return reply_size; } /********************************************************************** The following functions are called by the NETDFS RPC pipe functions **********************************************************************/ /********************************************************************* Creates a junction structure from a Dfs pathname **********************************************************************/ BOOL create_junction(char *pathname, struct junction_map *jucn) { struct dfs_path dp; parse_dfs_path(pathname,&dp); /* check if path is dfs : validate first token */ if ( !strequal(get_local_machine_name(),dp.hostname) ) { /* Hostname mismatch, check if one of our IP addresses */ if (!ismyip(*interpret_addr2(dp.hostname))) { DEBUG(4,("create_junction: Invalid hostname %s in dfs path %s\n", dp.hostname, pathname)); return False; } } /* Check for a non-DFS share */ if(!lp_msdfs_root(lp_servicenumber(dp.servicename))) { DEBUG(4,("create_junction: %s is not an msdfs root.\n", dp.servicename)); return False; } pstrcpy(jucn->service_name,dp.servicename); pstrcpy(jucn->volume_name,dp.reqpath); return True; } /********************************************************************** Forms a valid Unix pathname from the junction **********************************************************************/ static BOOL junction_to_local_path(struct junction_map *jucn, char *path, int max_pathlen, connection_struct *conn) { int snum; pstring conn_path; if(!path || !jucn) { return False; } snum = lp_servicenumber(jucn->service_name); if(snum < 0) { return False; } safe_strcpy(path, lp_pathname(snum), max_pathlen-1); safe_strcat(path, "/", max_pathlen-1); safe_strcat(path, jucn->volume_name, max_pathlen-1); pstrcpy(conn_path, lp_pathname(snum)); if (!create_conn_struct(conn, snum, conn_path)) { return False; } return True; } BOOL create_msdfs_link(struct junction_map *jucn, BOOL exists) { pstring path; pstring msdfs_link; connection_struct conns; connection_struct *conn = &conns; int i=0; BOOL insert_comma = False; BOOL ret = False; ZERO_STRUCT(conns); if(!junction_to_local_path(jucn, path, sizeof(path), conn)) { return False; } /* form the msdfs_link contents */ pstrcpy(msdfs_link, "msdfs:"); for(i=0; ireferral_count; i++) { char* refpath = jucn->referral_list[i].alternate_path; trim_char(refpath, '\\', '\\'); if(*refpath == '\0') { if (i == 0) { insert_comma = False; } continue; } if (i > 0 && insert_comma) { pstrcat(msdfs_link, ","); } pstrcat(msdfs_link, refpath); if (!insert_comma) { insert_comma = True; } } DEBUG(5,("create_msdfs_link: Creating new msdfs link: %s -> %s\n", path, msdfs_link)); if(exists) { if(SMB_VFS_UNLINK(conn,path)!=0) { goto out; } } if(SMB_VFS_SYMLINK(conn, msdfs_link, path) < 0) { DEBUG(1,("create_msdfs_link: symlink failed %s -> %s\nError: %s\n", path, msdfs_link, strerror(errno))); goto out; } ret = True; out: conn_free_internal(conn); return ret; } BOOL remove_msdfs_link(struct junction_map *jucn) { pstring path; connection_struct conns; connection_struct *conn = &conns; BOOL ret = False; ZERO_STRUCT(conns); if( junction_to_local_path(jucn, path, sizeof(path), conn) ) { if( SMB_VFS_UNLINK(conn, path) == 0 ) { ret = True; } talloc_destroy( conn->mem_ctx ); } conn_free_internal(conn); return ret; } static int form_junctions(TALLOC_CTX *ctx, int snum, struct junction_map *jucn, int jn_remain) { int cnt = 0; SMB_STRUCT_DIR *dirp; char* dname; pstring connect_path; char* service_name = lp_servicename(snum); connection_struct conn; struct referral *ref = NULL; ZERO_STRUCT(conn); if (jn_remain <= 0) { return 0; } pstrcpy(connect_path,lp_pathname(snum)); if(*connect_path == '\0') { return 0; } /* * Fake up a connection struct for the VFS layer. */ if (!create_conn_struct(&conn, snum, connect_path)) { return 0; } /* form a junction for the msdfs root - convention DO NOT REMOVE THIS: NT clients will not work with us if this is not present */ pstrcpy(jucn[cnt].service_name, service_name); jucn[cnt].volume_name[0] = '\0'; jucn[cnt].referral_count = 1; ref = jucn[cnt].referral_list = TALLOC_P(ctx, struct referral); if (jucn[cnt].referral_list == NULL) { DEBUG(0, ("Malloc failed!\n")); goto out; } ref->proximity = 0; ref->ttl = REFERRAL_TTL; if (*lp_msdfs_proxy(snum) != '\0') { pstrcpy(ref->alternate_path, lp_msdfs_proxy(snum)); goto out; } slprintf(ref->alternate_path, sizeof(pstring)-1, "\\\\%s\\%s", get_local_machine_name(), service_name); cnt++; /* Now enumerate all dfs links */ dirp = SMB_VFS_OPENDIR(&conn, ".", NULL, 0); if(!dirp) { goto out; } while ((dname = vfs_readdirname(&conn, dirp)) != NULL) { if (cnt >= jn_remain) { SMB_VFS_CLOSEDIR(&conn,dirp); DEBUG(2, ("ran out of MSDFS junction slots")); goto out; } if (is_msdfs_link(ctx, &conn, dname, &jucn[cnt].referral_list, &jucn[cnt].referral_count, NULL)) { pstrcpy(jucn[cnt].service_name, service_name); pstrcpy(jucn[cnt].volume_name, dname); cnt++; } } SMB_VFS_CLOSEDIR(&conn,dirp); out: conn_free_internal(&conn); return cnt; } int enum_msdfs_links(TALLOC_CTX *ctx, struct junction_map *jucn, int jn_max) { int i=0; int sharecount = 0; int jn_count = 0; if(!lp_host_msdfs()) { return 0; } /* Ensure all the usershares are loaded. */ become_root(); sharecount = load_usershare_shares(); unbecome_root(); for(i=0;i < sharecount && (jn_max - jn_count) > 0;i++) { if(lp_msdfs_root(i)) { jn_count += form_junctions(ctx, i,jucn,jn_max - jn_count); } } return jn_count; }