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samba-mirror/source3/smbd/msdfs.c

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/*
Unix SMB/Netbios implementation.
Version 3.0
MSDFS services for Samba
Copyright (C) Shirish Kalele 2000
Copyright (C) Jeremy Allison 2007
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 a DFS pathname of the form \hostname\service\reqpath
into the dfs_path structure.
If POSIX pathnames is true, the pathname may also be of the
form /hostname/service/reqpath.
We cope with either here.
Unfortunately, due to broken clients who might set the
SVAL(inbuf,smb_flg2) & FLAGS2_DFS_PATHNAMES bit and then
send a local path, we have to cope with that too....
JRA.
**********************************************************************/
static NTSTATUS parse_dfs_path(const char *pathname,
BOOL allow_wcards,
struct dfs_path *pdp,
BOOL *ppath_contains_wcard)
{
pstring pathname_local;
char *p,*temp;
NTSTATUS status = NT_STATUS_OK;
char sepchar;
ZERO_STRUCTP(pdp);
pstrcpy(pathname_local,pathname);
p = temp = pathname_local;
pdp->posix_path = (lp_posix_pathnames() && *pathname == '/');
sepchar = pdp->posix_path ? '/' : '\\';
if (*pathname != sepchar) {
DEBUG(10,("parse_dfs_path: path %s doesn't start with %c\n",
pathname, sepchar ));
/*
* Possibly client sent a local path by mistake.
* Try and convert to a local path.
*/
pdp->hostname[0] = '\0';
pdp->servicename[0] = '\0';
/* We've got no info about separators. */
pdp->posix_path = lp_posix_pathnames();
p = temp;
DEBUG(10,("parse_dfs_path: trying to convert %s to a local path\n",
temp));
goto local_path;
}
trim_char(temp,sepchar,sepchar);
DEBUG(10,("parse_dfs_path: temp = |%s| after trimming %c's\n",
temp, sepchar));
/* Now tokenize. */
/* Parse out hostname. */
p = strchr_m(temp,sepchar);
if(p == NULL) {
DEBUG(10,("parse_dfs_path: can't parse hostname from path %s\n",
temp));
/*
* Possibly client sent a local path by mistake.
* Try and convert to a local path.
*/
pdp->hostname[0] = '\0';
pdp->servicename[0] = '\0';
p = temp;
DEBUG(10,("parse_dfs_path: trying to convert %s to a local path\n",
temp));
goto local_path;
}
*p = '\0';
fstrcpy(pdp->hostname,temp);
DEBUG(10,("parse_dfs_path: hostname: %s\n",pdp->hostname));
/* If we got a hostname, is it ours (or an IP address) ? */
if (!is_myname_or_ipaddr(pdp->hostname)) {
/* Repair path. */
*p = sepchar;
DEBUG(10,("parse_dfs_path: hostname %s isn't ours. Try local path from path %s\n",
pdp->hostname, temp));
/*
* Possibly client sent a local path by mistake.
* Try and convert to a local path.
*/
pdp->hostname[0] = '\0';
pdp->servicename[0] = '\0';
p = temp;
DEBUG(10,("parse_dfs_path: trying to convert %s to a local path\n",
temp));
goto local_path;
}
/* Parse out servicename. */
temp = p+1;
p = strchr_m(temp,sepchar);
if(p == NULL) {
fstrcpy(pdp->servicename,temp);
pdp->reqpath[0] = '\0';
return NT_STATUS_OK;
}
*p = '\0';
fstrcpy(pdp->servicename,temp);
DEBUG(10,("parse_dfs_path: servicename: %s\n",pdp->servicename));
p++;
local_path:
*ppath_contains_wcard = False;
/* Rest is reqpath. */
if (pdp->posix_path) {
status = check_path_syntax_posix(pdp->reqpath, p);
} else {
if (allow_wcards) {
status = check_path_syntax_wcard(pdp->reqpath, p, ppath_contains_wcard);
} else {
status = check_path_syntax(pdp->reqpath, p);
}
}
if (!NT_STATUS_IS_OK(status)) {
DEBUG(10,("parse_dfs_path: '%s' failed with %s\n",
p, nt_errstr(status) ));
return status;
}
DEBUG(10,("parse_dfs_path: rest of the path: %s\n",pdp->reqpath));
return NT_STATUS_OK;
}
/********************************************************
Fake up a connection struct for the VFS layer.
Note this CHANGES CWD !!!! JRA.
*********************************************************/
static BOOL create_conn_struct(connection_struct *conn, int snum, const char *path)
{
pstring connpath;
ZERO_STRUCTP(conn);
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;
}
if (!(conn->params = TALLOC_ZERO_P(conn->mem_ctx, struct share_params))) {
DEBUG(0, ("TALLOC failed\n"));
return False;
}
conn->params->service = snum;
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
msdfs:server1\share1\pathname,server2\share2\pathname
msdfs:server1/share1,server2/share2
msdfs:server1/share1/pathname,server2/share2/pathname.
Note that the alternate paths returned here must be of the canonicalized
form:
\server\share or
\server\share\path\to\file,
even in posix path mode. This is because we have no knowledge if the
server we're referring to understands posix paths.
**********************************************************************/
static BOOL parse_msdfs_symlink(TALLOC_CTX *ctx,
char *target,
struct referral **preflist,
int *refcount)
{
pstring temp;
char *prot;
char *alt_path[MAX_REFERRAL_COUNT];
int count = 0, i;
struct referral *reflist;
pstrcpy(temp,target);
prot = strtok(temp,":");
if (!prot) {
DEBUG(0,("parse_msdfs_symlink: invalid path !\n"));
return False;
}
/* parse out the alternate paths */
while((count<MAX_REFERRAL_COUNT) &&
((alt_path[count] = strtok(NULL,",")) != NULL)) {
count++;
}
DEBUG(10,("parse_msdfs_symlink: count=%d\n", count));
reflist = *preflist = TALLOC_ZERO_ARRAY(ctx, struct referral, count);
if(reflist == NULL) {
DEBUG(0,("parse_msdfs_symlink: talloc failed!\n"));
return False;
}
for(i=0;i<count;i++) {
char *p;
/* Canonicalize link target. Replace all /'s in the path by a \ */
string_replace(alt_path[i], '/', '\\');
/* Remove leading '\\'s */
p = alt_path[i];
while (*p && (*p == '\\')) {
p++;
}
pstrcpy(reflist[i].alternate_path, "\\");
pstrcat(reflist[i].alternate_path, p);
reflist[i].proximity = 0;
reflist[i].ttl = REFERRAL_TTL;
DEBUG(10, ("parse_msdfs_symlink: Created alt path: %s\n", reflist[i].alternate_path));
*refcount += 1;
}
return True;
}
/**********************************************************************
Returns true if the unix path is a valid msdfs symlink and also
returns the target string from inside the link.
**********************************************************************/
BOOL is_msdfs_link(connection_struct *conn,
const char *path,
pstring link_target,
SMB_STRUCT_STAT *sbufp)
{
SMB_STRUCT_STAT st;
int referral_len = 0;
if (sbufp == NULL) {
sbufp = &st;
}
if (SMB_VFS_LSTAT(conn, path, sbufp) != 0) {
DEBUG(5,("is_msdfs_link: %s does not exist.\n",path));
return False;
}
if (!S_ISLNK(sbufp->st_mode)) {
DEBUG(5,("is_msdfs_link: %s is not a link.\n",path));
return False;
}
/* open the link and read it */
referral_len = SMB_VFS_READLINK(conn, path, link_target, sizeof(pstring)-1);
if (referral_len == -1) {
DEBUG(0,("is_msdfs_link: Error reading msdfs link %s: %s\n",
path, strerror(errno)));
return False;
}
link_target[referral_len] = '\0';
DEBUG(5,("is_msdfs_link: %s -> %s\n",path, link_target));
if (!strnequal(link_target, "msdfs:", 6)) {
return False;
}
return True;
}
/*****************************************************************
Used by other functions to decide if a dfs path is remote,
and to get the list of referred locations for that remote path.
search_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.
consumedcntp: how much of the dfs path is being redirected. the client
should try the remaining path on the redirected server.
If this returns NT_STATUS_PATH_NOT_COVERED the contents of the msdfs
link redirect are in targetpath.
*****************************************************************/
static NTSTATUS dfs_path_lookup(connection_struct *conn,
const char *dfspath, /* Incoming complete dfs path */
const struct dfs_path *pdp, /* Parsed out server+share+extrapath. */
BOOL search_flag, /* Called from a findfirst ? */
int *consumedcntp,
pstring targetpath)
{
char *p = NULL;
char *q = NULL;
SMB_STRUCT_STAT sbuf;
NTSTATUS status;
pstring localpath;
pstring canon_dfspath; /* Canonicalized dfs path. (only '/' components). */
DEBUG(10,("dfs_path_lookup: Conn path = %s reqpath = %s\n",
conn->connectpath, pdp->reqpath));
/*
* Note the unix path conversion here we're doing we can
* throw away. We're looking for a symlink for a dfs
* resolution, if we don't find it we'll do another
* unix_convert later in the codepath.
* If we needed to remember what we'd resolved in
* dp->reqpath (as the original code did) we'd
* pstrcpy(localhost, dp->reqpath) on any code
* path below that returns True - but I don't
* think this is needed. JRA.
*/
pstrcpy(localpath, pdp->reqpath);
status = unix_convert(conn, localpath, search_flag, NULL, &sbuf);
if (!NT_STATUS_IS_OK(status)) {
return status;
}
/* Optimization - check if we can redirect the whole path. */
if (is_msdfs_link(conn, localpath, targetpath, NULL)) {
if (search_flag) {
DEBUG(6,("dfs_path_lookup (FindFirst) No redirection "
"for dfs link %s.\n", dfspath));
return NT_STATUS_OK;
}
DEBUG(6,("dfs_path_lookup: %s resolves to a "
"valid dfs link %s.\n", dfspath, targetpath));
if (consumedcntp) {
*consumedcntp = strlen(dfspath);
}
return NT_STATUS_PATH_NOT_COVERED;
}
/* Prepare to test only for '/' components in the given path,
* so if a Windows path replace all '\\' characters with '/'.
* For a POSIX DFS path we know all separators are already '/'. */
pstrcpy(canon_dfspath, dfspath);
if (!pdp->posix_path) {
string_replace(canon_dfspath, '\\', '/');
}
/*
* Redirect if any component in the path is a link.
* We do this by walking backwards through the
* local path, chopping off the last component
* in both the local path and the canonicalized
* DFS path. If we hit a DFS link then we're done.
*/
p = strrchr_m(localpath, '/');
if (consumedcntp) {
q = strrchr_m(canon_dfspath, '/');
}
while (p) {
*p = '\0';
if (q) {
*q = '\0';
}
if (is_msdfs_link(conn, localpath, targetpath, NULL)) {
DEBUG(4, ("dfs_path_lookup: Redirecting %s because "
"parent %s is dfs link\n", dfspath, localpath));
if (consumedcntp) {
*consumedcntp = strlen(canon_dfspath);
DEBUG(10, ("dfs_path_lookup: Path consumed: %s "
"(%d)\n", canon_dfspath, *consumedcntp));
}
return NT_STATUS_PATH_NOT_COVERED;
}
/* Step back on the filesystem. */
p = strrchr_m(localpath, '/');
if (consumedcntp) {
/* And in the canonicalized dfs path. */
q = strrchr_m(canon_dfspath, '/');
}
}
return NT_STATUS_OK;
}
/*****************************************************************
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_dfs_path_XX()
for details.
This function can return NT_STATUS_OK, meaning use the returned path as-is
(mapped into a local path).
or NT_STATUS_NOT_COVERED meaning return a DFS redirect, or
any other NT_STATUS error which is a genuine error to be
returned to the client.
*****************************************************************/
static NTSTATUS dfs_redirect( connection_struct *conn,
pstring dfs_path,
BOOL search_wcard_flag,
BOOL *ppath_contains_wcard)
{
NTSTATUS status;
struct dfs_path dp;
pstring targetpath;
status = parse_dfs_path(dfs_path, search_wcard_flag, &dp, ppath_contains_wcard);
if (!NT_STATUS_IS_OK(status)) {
return status;
}
if (dp.reqpath[0] == '\0') {
pstrcpy(dfs_path, dp.reqpath);
DEBUG(5,("dfs_redirect: self-referral.\n"));
return NT_STATUS_OK;
}
/* If dfs pathname for a non-dfs share, convert to tcon-relative
path and return OK */
if (!lp_msdfs_root(SNUM(conn))) {
pstrcpy(dfs_path, dp.reqpath);
return NT_STATUS_OK;
}
/* If it looked like a local path (zero hostname/servicename)
* just treat as a tcon-relative path. */
if (dp.hostname[0] == '\0' && dp.servicename[0] == '\0') {
pstrcpy(dfs_path, dp.reqpath);
return NT_STATUS_OK;
}
if (!( strequal(dp.servicename, lp_servicename(SNUM(conn)))
|| (strequal(dp.servicename, HOMES_NAME)
&& strequal(lp_servicename(SNUM(conn)), get_current_username()) )) ) {
/* The given sharename doesn't match this connection. */
return NT_STATUS_OBJECT_PATH_NOT_FOUND;
}
status = dfs_path_lookup(conn, dfs_path, &dp,
search_wcard_flag, NULL, targetpath);
if (!NT_STATUS_IS_OK(status)) {
if (NT_STATUS_EQUAL(status, NT_STATUS_PATH_NOT_COVERED)) {
DEBUG(3,("dfs_redirect: Redirecting %s\n", dfs_path));
} else {
DEBUG(10,("dfs_redirect: dfs_path_lookup failed for %s with %s\n",
dfs_path, nt_errstr(status) ));
}
return status;
}
DEBUG(3,("dfs_redirect: Not redirecting %s.\n", dfs_path));
/* Form non-dfs tcon-relative path */
pstrcpy(dfs_path, dp.reqpath);
DEBUG(3,("dfs_redirect: Path converted to non-dfs path %s\n", dfs_path));
return NT_STATUS_OK;
}
/**********************************************************************
Return a self referral.
**********************************************************************/
static BOOL self_ref(TALLOC_CTX *ctx,
const char *dfs_path,
struct junction_map *jucn,
int *consumedcntp,
BOOL *self_referralp)
{
struct referral *ref;
*self_referralp = True;
jucn->referral_count = 1;
if((ref = TALLOC_ZERO_P(ctx, struct referral)) == NULL) {
DEBUG(0,("self_ref: talloc failed for referral\n"));
return False;
}
pstrcpy(ref->alternate_path,dfs_path);
ref->proximity = 0;
ref->ttl = REFERRAL_TTL;
jucn->referral_list = ref;
*consumedcntp = strlen(dfs_path);
return True;
}
/**********************************************************************
Gets valid referrals for a dfs path and fills up the
junction_map structure.
**********************************************************************/
BOOL get_referred_path(TALLOC_CTX *ctx,
const char *dfs_path,
struct junction_map *jucn,
int *consumedcntp,
BOOL *self_referralp)
{
struct connection_struct conns;
struct connection_struct *conn = &conns;
struct dfs_path dp;
pstring conn_path;
pstring targetpath;
int snum;
NTSTATUS status;
BOOL ret = False;
BOOL dummy;
ZERO_STRUCT(conns);
*self_referralp = False;
status = parse_dfs_path(dfs_path, False, &dp, &dummy);
if (!NT_STATUS_IS_OK(status)) {
return False;
}
/* Verify hostname in path */
if (!is_myname_or_ipaddr(dp.hostname)) {
DEBUG(3, ("get_referred_path: Invalid hostname %s in path %s\n",
dp.hostname, dfs_path));
return False;
}
fstrcpy(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, dfs_path));
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,
dfs_path,
jucn,
consumedcntp,
self_referralp);
}
/*
* It's an msdfs proxy share. Redirect to
* the configured target share.
*/
jucn->referral_count = 1;
if ((ref = TALLOC_ZERO_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;
*consumedcntp = strlen(dfs_path);
ret = True;
goto out;
}
pstrcpy(conn_path, lp_pathname(snum));
if (!create_conn_struct(conn, snum, conn_path)) {
return False;
}
/* If this is a DFS path dfs_lookup should return
* NT_STATUS_PATH_NOT_COVERED. */
status = dfs_path_lookup(conn, dfs_path, &dp,
False, consumedcntp, targetpath);
if (!NT_STATUS_EQUAL(status, NT_STATUS_PATH_NOT_COVERED)) {
DEBUG(3,("get_referred_path: No valid referrals for path %s\n",
dfs_path));
goto out;
}
/* We know this is a valid dfs link. Parse the targetpath. */
if (!parse_msdfs_symlink(ctx, targetpath,
&jucn->referral_list,
&jucn->referral_count)) {
DEBUG(3,("get_referred_path: failed to parse symlink "
"target %s\n", targetpath ));
goto out;
}
ret = True;
out:
conn_free_internal(conn);
return ret;
}
static int setup_ver2_dfs_referral(const 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;i<junction->referral_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 = (char *)SMB_REALLOC(pdata,reply_size);
if(pdata == NULL) {
DEBUG(0,("Realloc failed!\n"));
return -1;
}
r13915: Fixed a very interesting class of realloc() bugs found by Coverity. realloc can return NULL in one of two cases - (1) the realloc failed, (2) realloc succeeded but the new size requested was zero, in which case this is identical to a free() call. The error paths dealing with these two cases should be different, but mostly weren't. Secondly the standard idiom for dealing with realloc when you know the new size is non-zero is the following : tmp = realloc(p, size); if (!tmp) { SAFE_FREE(p); return error; } else { p = tmp; } However, there were *many* *many* places in Samba where we were using the old (broken) idiom of : p = realloc(p, size) if (!p) { return error; } which will leak the memory pointed to by p on realloc fail. This commit (hopefully) fixes all these cases by moving to a standard idiom of : p = SMB_REALLOC(p, size) if (!p) { return error; } Where if the realloc returns null due to the realloc failing or size == 0 we *guarentee* that the storage pointed to by p has been freed. This allows me to remove a lot of code that was dealing with the standard (more verbose) method that required a tmp pointer. This is almost always what you want. When a realloc fails you never usually want the old memory, you want to free it and get into your error processing asap. For the 11 remaining cases where we really do need to keep the old pointer I have invented the new macro SMB_REALLOC_KEEP_OLD_ON_ERROR, which can be used as follows : tmp = SMB_REALLOC_KEEP_OLD_ON_ERROR(p, size); if (!tmp) { SAFE_FREE(p); return error; } else { p = tmp; } SMB_REALLOC_KEEP_OLD_ON_ERROR guarentees never to free the pointer p, even on size == 0 or realloc fail. All this is done by a hidden extra argument to Realloc(), BOOL free_old_on_error which is set appropriately by the SMB_REALLOC and SMB_REALLOC_KEEP_OLD_ON_ERROR macros (and their array counterparts). It remains to be seen what this will do to our Coverity bug count :-). Jeremy. (This used to be commit 1d710d06a214f3f1740e80e0bffd6aab44aac2b0)
2006-03-07 09:31:04 +03:00
*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;i<junction->referral_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(const 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;i<junction->referral_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 = (char *)SMB_REALLOC(pdata,reply_size);
if(pdata == NULL) {
DEBUG(0,("version3 referral setup: malloc failed for Realloc!\n"));
return -1;
}
r13915: Fixed a very interesting class of realloc() bugs found by Coverity. realloc can return NULL in one of two cases - (1) the realloc failed, (2) realloc succeeded but the new size requested was zero, in which case this is identical to a free() call. The error paths dealing with these two cases should be different, but mostly weren't. Secondly the standard idiom for dealing with realloc when you know the new size is non-zero is the following : tmp = realloc(p, size); if (!tmp) { SAFE_FREE(p); return error; } else { p = tmp; } However, there were *many* *many* places in Samba where we were using the old (broken) idiom of : p = realloc(p, size) if (!p) { return error; } which will leak the memory pointed to by p on realloc fail. This commit (hopefully) fixes all these cases by moving to a standard idiom of : p = SMB_REALLOC(p, size) if (!p) { return error; } Where if the realloc returns null due to the realloc failing or size == 0 we *guarentee* that the storage pointed to by p has been freed. This allows me to remove a lot of code that was dealing with the standard (more verbose) method that required a tmp pointer. This is almost always what you want. When a realloc fails you never usually want the old memory, you want to free it and get into your error processing asap. For the 11 remaining cases where we really do need to keep the old pointer I have invented the new macro SMB_REALLOC_KEEP_OLD_ON_ERROR, which can be used as follows : tmp = SMB_REALLOC_KEEP_OLD_ON_ERROR(p, size); if (!tmp) { SAFE_FREE(p); return error; } else { p = tmp; } SMB_REALLOC_KEEP_OLD_ON_ERROR guarentees never to free the pointer p, even on size == 0 or realloc fail. All this is done by a hidden extra argument to Realloc(), BOOL free_old_on_error which is set appropriately by the SMB_REALLOC and SMB_REALLOC_KEEP_OLD_ON_ERROR macros (and their array counterparts). It remains to be seen what this will do to our Coverity bug count :-). Jeremy. (This used to be commit 1d710d06a214f3f1740e80e0bffd6aab44aac2b0)
2006-03-07 09:31:04 +03:00
*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;i<junction->referral_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. This call returns
the amount of the path covered by this server, and where the
client should be redirected to. This is the meat of the
TRANS2_GET_DFS_REFERRAL call.
******************************************************************/
int setup_dfs_referral(connection_struct *orig_conn,
const char *dfs_path,
int max_referral_level,
char **ppdata)
{
struct junction_map junction;
int consumedcnt = 0;
BOOL self_referral = False;
int reply_size = 0;
char *pathnamep = NULL;
pstring local_dfs_path;
TALLOC_CTX *ctx;
if (!(ctx=talloc_init("setup_dfs_referral"))) {
return -1;
}
ZERO_STRUCT(junction);
/* get the junction entry */
if (!dfs_path) {
talloc_destroy(ctx);
return -1;
}
/*
* Trim pathname sent by client so it begins with only one backslash.
* Two backslashes confuse some dfs clients
*/
pstrcpy(local_dfs_path, dfs_path);
pathnamep = local_dfs_path;
while (IS_DIRECTORY_SEP(pathnamep[0]) && IS_DIRECTORY_SEP(pathnamep[1])) {
pathnamep++;
}
/* The following call can change cwd. */
if (!get_referred_path(ctx, pathnamep, &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;i<junction.referral_count;i++)
dbgtext(" %s",junction.referral_list[i].alternate_path);
dbgtext(".\n");
}
}
/* create the referral depeding on version */
DEBUG(10,("max_referral_level :%d\n",max_referral_level));
if (max_referral_level < 2) {
max_referral_level = 2;
}
if (max_referral_level > 3) {
max_referral_level = 3;
}
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(const char *dfs_path, struct junction_map *jucn)
{
int snum;
BOOL dummy;
struct dfs_path dp;
NTSTATUS status = parse_dfs_path(dfs_path, False, &dp, &dummy);
if (!NT_STATUS_IS_OK(status)) {
return False;
}
/* check if path is dfs : validate first token */
if (!is_myname_or_ipaddr(dp.hostname)) {
DEBUG(4,("create_junction: Invalid hostname %s in dfs path %s\n",
dp.hostname, dfs_path));
return False;
}
/* Check for a non-DFS share */
snum = lp_servicenumber(dp.servicename);
if(snum < 0 || !lp_msdfs_root(snum)) {
DEBUG(4,("create_junction: %s is not an msdfs root.\n",
dp.servicename));
return False;
}
fstrcpy(jucn->service_name,dp.servicename);
pstrcpy(jucn->volume_name,dp.reqpath);
pstrcpy(jucn->comment, lp_comment(snum));
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_out)
{
int snum;
pstring conn_path;
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_out, 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; i<jucn->referral_count; i++) {
char* refpath = jucn->referral_list[i].alternate_path;
/* Alternate paths always use Windows separators. */
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
*/
fstrcpy(jucn[cnt].service_name, service_name);
jucn[cnt].volume_name[0] = '\0';
jucn[cnt].referral_count = 1;
ref = jucn[cnt].referral_list = TALLOC_ZERO_P(ctx, struct referral);
if (jucn[cnt].referral_list == NULL) {
DEBUG(0, ("talloc 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));
cnt++;
goto out;
}
pstr_sprintf(ref->alternate_path, "\\\\%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) {
pstring link_target;
if (cnt >= jn_remain) {
SMB_VFS_CLOSEDIR(&conn,dirp);
DEBUG(2, ("ran out of MSDFS junction slots"));
goto out;
}
if (is_msdfs_link(&conn, dname, link_target, NULL)) {
if (parse_msdfs_symlink(ctx,
link_target,
&jucn[cnt].referral_list,
&jucn[cnt].referral_count)) {
fstrcpy(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();
load_registry_shares();
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;
}
/******************************************************************************
Core function to resolve a dfs pathname.
******************************************************************************/
NTSTATUS resolve_dfspath(connection_struct *conn, BOOL dfs_pathnames, pstring name)
{
NTSTATUS status = NT_STATUS_OK;
BOOL dummy;
if (dfs_pathnames) {
status = dfs_redirect(conn, name, False, &dummy);
}
return status;
}
/******************************************************************************
Core function to resolve a dfs pathname possibly containing a wildcard.
This function is identical to the above except for the BOOL param to
dfs_redirect but I need this to be separate so it's really clear when
we're allowing wildcards and when we're not. JRA.
******************************************************************************/
NTSTATUS resolve_dfspath_wcard(connection_struct *conn, BOOL dfs_pathnames, pstring name, BOOL *ppath_contains_wcard)
{
NTSTATUS status = NT_STATUS_OK;
if (dfs_pathnames) {
status = dfs_redirect(conn, name, True, ppath_contains_wcard);
}
return status;
}