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samba-mirror/source4/libcli/clidfs.c
Andrew Tridgell ef2e26c91b first public release of samba4 code 
(This used to be commit b0510b5428)
2003-08-13 01:53:07 +00:00

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/*
Unix SMB/CIFS implementation.
Dfs routines
Copyright (C) James 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.
*/
#include "includes.h"
BOOL cli_client_initialize(struct cli_client* context,
const char* sockops,
char* username, char* password, char* workgroup,
int flags)
{
int i;
for (i=0; i < DFS_MAX_CLUSTER_SIZE ; i++) {
context->cli[i] = cli_raw_initialise();
}
context->sockops = sockops;
context->username = username;
context->password = password;
context->workgroup = workgroup;
context->connection_flags = flags;
if (flags & CLI_FULL_CONNECTION_USE_DFS)
context->use_dfs = True;
context->number_members = DFS_MAX_CLUSTER_SIZE;
return True;
}
/****************************************************************************
Interpret a Dfs referral structure.
The length of the structure is returned
The structure of a Dfs referral depends on the info level.
****************************************************************************/
static int interpret_referral(struct cli_state *cli,
int level,char *p,referral_info *rinfo)
{
char* q;
int version, size;
version = SVAL(p,0);
size = SVAL(p,2);
rinfo->server_type = SVAL(p,4);
rinfo->referral_flags = SVAL(p,6);
rinfo->proximity = SVAL(p,8);
rinfo->ttl = SVAL(p,10);
rinfo->pathOffset = SVAL(p,12);
rinfo->altPathOffset = SVAL(p,14);
rinfo->nodeOffset = SVAL(p,16);
DEBUG(3,("referral version=%d, size=%d, server_type=%d, flags=0x%x, proximity=%d, ttl=%d, pathOffset=%d, altPathOffset=%d, nodeOffset=%d\n",
version, size, rinfo->server_type, rinfo->referral_flags,
rinfo->proximity, rinfo->ttl, rinfo->pathOffset,
rinfo->altPathOffset, rinfo->nodeOffset));
q = (char*)(p + (rinfo->pathOffset));
//printf("p=%p, q=%p, offset=%d\n", p, q, rinfo->pathOffset);
//printf("hex=0x%x, string=%s\n", q, q);
clistr_pull(cli, rinfo->path, q,
sizeof(rinfo->path),
-1, STR_TERMINATE);
DEBUG(4,("referral path=%s\n", rinfo->path));
q = (char*)(p + (rinfo->altPathOffset)/sizeof(char));
if (rinfo->altPathOffset > 0)
clistr_pull(cli, rinfo->altPath, q,
sizeof(rinfo->altPath),
-1, STR_TERMINATE);
DEBUG(4,("referral alt path=%s\n", rinfo->altPath));
q = (char*)(p + (rinfo->nodeOffset)/sizeof(char));
if (rinfo->nodeOffset > 0)
clistr_pull(cli, rinfo->node, q,
sizeof(rinfo->node),
-1, STR_TERMINATE);
DEBUG(4,("referral node=%s\n", rinfo->node));
fstrcpy(rinfo->host, &rinfo->node[1]);
p = strchr_m(&rinfo->host[1],'\\');
if (!p) {
printf("invalid referral node %s\n", rinfo->node);
return -1;
}
*p = 0;
rinfo->share = talloc_strdup(cli->mem_ctx, p+1);
DEBUG(3,("referral host=%s share=%s\n",
rinfo->host, rinfo->share));
return size;
}
#if 0
int cli_select_dfs_referral(struct cli_state *cli, dfs_info* dinfo)
{
return (int)sys_random()%dinfo->number_referrals;
}
int cli_get_dfs_referral(struct cli_state *cli,const char *Fname, dfs_info* dinfo)
{
struct smb_trans2 parms;
int info_level;
char *p;
pstring fname;
int i;
char *rparam=NULL, *rdata=NULL;
int param_len, data_len;
uint16 setup;
pstring param;
DATA_BLOB trans_param, trans_data;
/* NT uses 260, OS/2 uses 2. Both accept 1. */
info_level = (cli->capabilities&CAP_NT_SMBS)?260:1;
pstrcpy(fname,Fname);
setup = TRANSACT2_GET_DFS_REFERRAL ;
SSVAL(param,0,CLI_DFS_MAX_REFERRAL_LEVEL); /* attribute */
p = param+2;
p += clistr_push(cli, param+2, fname, -1,
STR_TERMINATE);
param_len = PTR_DIFF(p, param);
DEBUG(3,("cli_get_dfs_referral: sending request\n"));
trans_param.length = param_len;
trans_param.data = param;
trans_data.length = 0;
trans_data.data = NULL;
if (!cli_send_trans(cli, SMBtrans2,
NULL, /* Name */
-1, 0, /* fid, flags */
&setup, 1, 0, /* setup, length, max */
&trans_param, 10, /* param, length, max */
&trans_data,
cli->max_xmit /* data, length, max */
)) {
return 0;
}
if (!cli_receive_trans(cli, SMBtrans2,
&rparam, &param_len,
&rdata, &data_len) &&
cli_is_dos_error(cli)) {
return 0;
}
//printf("cli_get_dfs_referral: received response, rdata=%p, rparam=%p\n",
// rdata, rparam);
if (cli_is_error(cli) || !rdata)
return 0;
/* parse out some important return info */
//printf("cli_get_dfs_referral: valid response\n");
p = rdata;
dinfo->path_consumed = SVAL(p,0);
dinfo->number_referrals = SVAL(p,2);
dinfo->referral_flags = SVAL(p,4);
DEBUG(3,("cli_get_dfs_referral: path_consumed=%d, # referrals=%d, flags=0x%x\n",
dinfo->path_consumed, dinfo->number_referrals,
dinfo->referral_flags));
/* point to the referral bytes */
p+=8;
for (i=0; i < dinfo->number_referrals; i++) {
p += interpret_referral(cli,info_level,p,&dinfo->referrals[i]);
}
SAFE_FREE(rdata);
SAFE_FREE(rparam);
DEBUG(3,("received %d Dfs referrals\n",
dinfo->number_referrals));
dinfo->selected_referral = cli_select_dfs_referral(cli, dinfo);
DEBUG(3, ("selected Dfs referral %d %s\n",
dinfo->selected_referral, dinfo->referrals[dinfo->selected_referral].node));
return(dinfo->number_referrals);
}
#endif
/* check if the server produced Dfs redirect */
BOOL cli_check_dfs_redirect(struct cli_state* c, char* fname,
dfs_info* dinfo)
{
//printf("check_dfs_redirect: error %s\n",
// cli_errstr(c));
if (cli_is_dos_error(c)) {
printf("got dos error\n");
return False;
} else {
NTSTATUS status;
/* Check NT error */
status = cli_nt_error(c);
//printf("got nt error 0x%x\n", status);
if (NT_STATUS_V(NT_STATUS_PATH_NOT_COVERED) != NT_STATUS_V(status)) {
return False;
}
}
/* execute trans2 getdfsreferral */
//printf("check_dfs_redirect: process referral\n");
//cli_get_dfs_referral(c, fname, dinfo);
return True;
}
int cli_dfs_open_connection(struct cli_client* cluster,
char* host, char* share, int flags)
{
int i;
BOOL retry;
struct cli_state* c;
// check if already connected
for (i=0; i < DFS_MAX_CLUSTER_SIZE; i++) {
if (cluster->cli[i]->in_use && strequal(host, cli_state_get_host(cluster->cli[i]))
&& strequal(share, cli_state_get_share(cluster->cli[i]))) {
DEBUG(3,("cli_dfs_open_connection: already connected to \\\\%s\\%s\n", host, share));
return i;
}
}
// open connection
DEBUG(3,("cli_dfs_open_connection: opening \\\\%s\\%s %s@%s\n",
host, share, cluster->username, cluster->workgroup));
for (i=0; i < DFS_MAX_CLUSTER_SIZE; i++) {
if (!cluster->cli[i]->in_use) {
break;
}
}
if (i >= DFS_MAX_CLUSTER_SIZE)
return -1;
c = cluster->cli[i];
if (NT_STATUS_IS_ERR(cli_full_connection(&c,
NULL, host, NULL, 0,
share, "?????",
cluster->username, cluster->workgroup,
cluster->password, flags,
&retry)))
return -1;
cli_state_set_sockopt(cluster->cli[i], cluster->sockops);
cli_state_set_host(cluster->cli[i], host);
cli_state_set_share(cluster->cli[i], share);
cluster->cli[i]->in_use = True;
DEBUG(3,("cli_dfs_open_connection: connected \\\\%s\\%s (%d) %s@%s\n",
cli_state_get_host(cluster->cli[i]), cli_state_get_share(cluster->cli[i]), i,
cluster->username, cluster->workgroup));
return i;
}
/**********************************************************************
Parse the pathname of the form \hostname\service\reqpath
into the dfs_path structure
**********************************************************************/
BOOL cli_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_string(temp,"\\","\\");
DEBUG(10,("temp in cli_parse_dfs_path: .%s. after trimming \\'s\n",temp));
/* now tokenize */
/* parse out hostname */
p = strchr(temp,'\\');
if(p == NULL)
return False;
*p = '\0';
pstrcpy(pdp->hostname,temp);
DEBUG(10,("hostname: %s\n",pdp->hostname));
/* parse out servicename */
temp = p+1;
p = strchr(temp,'\\');
if(p == NULL) {
pstrcpy(pdp->servicename,temp);
pdp->reqpath[0] = '\0';
return True;
}
*p = '\0';
pstrcpy(pdp->servicename,temp);
DEBUG(10,("servicename: %s\n",pdp->servicename));
/* rest is reqpath */
pstrcpy(pdp->reqpath, p+1);
DEBUG(10,("rest of the path: %s\n",pdp->reqpath));
return True;
}
char* rebuild_filename(char *referral_fname, struct cli_state* c,
char* fname, int path_consumed)
{
const char *template = "\\\\%s\\%s\\%s";
struct dfs_path dp;
// TODO: handle consumed length
DEBUG(3,("rebuild_filename: %s, %d consumed of %d\n",
fname, path_consumed, strlen(fname)));
if (cli_parse_dfs_path(fname, &dp)) {
DEBUG(3,("rebuild_filename: reqpath=%s\n",
dp.reqpath));
asprintf(&referral_fname,
template, cli_state_get_host(c),
cli_state_get_share(c), dp.reqpath);
}
else
return NULL;
DEBUG(3,("rebuild_filename: %s -> %s\n", fname, referral_fname));
return referral_fname;
}
/****************************************************************************
Open a file (allowing for Dfs referral).
****************************************************************************/
int cli_dfs_open(struct cli_client* cluster, int *server,
char *fname_src, int flags, int share_mode)
{
int referral_number;
dfs_info dinfo;
char *referral_fname;
int fnum;
DEBUG(3,("cli_dfs_open: open %s on server %s(%d)\n",
fname_src, cli_state_get_host(cluster->cli[*server]), *server));
cluster->cli[*server]->dfs_referral = *server;
if ((fnum = cli_open(cluster->cli[*server], fname_src, flags, share_mode)) < 0) {
if (cli_check_dfs_redirect(cluster->cli[*server], fname_src, &dinfo)) {
// choose referral, check if already connected, open if not
referral_number = dinfo.selected_referral;
DEBUG(3,("cli_dfs_open: redirecting to %s\n", dinfo.referrals[referral_number].node));
cluster->cli[*server]->dfs_referral = cli_dfs_open_connection(cluster,
dinfo.referrals[referral_number].host,
dinfo.referrals[referral_number].share,
cluster->connection_flags);
*server = cluster->cli[*server]->dfs_referral;
if (server < 0)
return False;
// rebuild file name and retry operation.
if (rebuild_filename(referral_fname, cluster->cli[*server], fname_src, dinfo.path_consumed) == NULL)
return False;
fname_src = referral_fname;
DEBUG(3,("cli_dfs_open: Dfs open %s on server %s(%d)\n",
fname_src, cli_state_get_host(cluster->cli[*server]), *server));
fnum = cli_open(cluster->cli[*server], fname_src, flags, share_mode);
}
if (cli_is_error(cluster->cli[*server])) {
printf("cli_dfs_open: open of %s failed (%s)\n",
fname_src, cli_errstr(cluster->cli[*server]));
return -1;
}
}
DEBUG(3,("cli_dfs_open: open %s fnum=%d\n",
fname_src, fnum));
return fnum;
}
/****************************************************************************
Delete a file (allowing for Dfs referral).
****************************************************************************/
NTSTATUS cli_nt_unlink(struct cli_client* cluster, int *server,
char *fname_src, uint16 FileAttributes)
{
int referral_number;
dfs_info dinfo;
char *referral_fname;
struct smb_unlink parms;
DEBUG(3,("cli_nt_unlink: delete %s on server %s(%d), attributes=0x%x\n",
fname_src, cli_state_get_host(cluster->cli[*server]), *server,
FileAttributes));
cluster->cli[*server]->dfs_referral = *server;
parms.in.pattern = fname_src;
parms.in.dirtype = FileAttributes;
if (NT_STATUS_IS_ERR(cli_raw_unlink(cluster->cli[*server], &parms))) {
printf("cli_nt_unlink: delete of %s failed (%s)\n",
fname_src, cli_errstr(cluster->cli[*server]));
if (cli_check_dfs_redirect(cluster->cli[*server], fname_src, &dinfo)) {
// choose referral, check if already connected, open if not
referral_number = dinfo.selected_referral;
DEBUG(3,("cli_nt_unlink: redirecting to %s\n", dinfo.referrals[referral_number].node));
cluster->cli[*server]->dfs_referral = cli_dfs_open_connection(cluster,
dinfo.referrals[referral_number].host,
dinfo.referrals[referral_number].share,
cluster->connection_flags);
*server = cluster->cli[*server]->dfs_referral;
if (server < 0)
return NT_STATUS_INTERNAL_ERROR;
// rebuild file name and retry operation.
if (rebuild_filename(referral_fname, cluster->cli[*server], fname_src, dinfo.path_consumed) == NULL)
return NT_STATUS_INTERNAL_ERROR;
fname_src = referral_fname;
DEBUG(3,("cli_nt_unlink: Dfs delete %s on server %s(%d)\n",
fname_src, cli_state_get_host(cluster->cli[*server]), *server));
cli_raw_unlink(cluster->cli[*server], &parms);
}
if (cli_is_error(cluster->cli[*server])) {
printf("cli_nt_unlink: delete of %s failed (%s)\n",
fname_src, cli_errstr(cluster->cli[*server]));
}
}
return cli_nt_error(cluster->cli[*server]);
}
/****************************************************************************
Rename a file (allowing for Dfs referral).
****************************************************************************/
BOOL cli_dfs_rename(struct cli_client* cluster, int *server,
char *fname_src, char *fname_dst)
{
int referral_number;
dfs_info dinfo;
char *referral_fname;
DEBUG(3,("cli_dfs_rename: rename %s to %s on server %s(%d)\n",
fname_src, fname_dst, cli_state_get_host(cluster->cli[*server]), *server));
cluster->cli[*server]->dfs_referral = *server;
if (!cli_rename(cluster->cli[*server], fname_src, fname_dst)) {
if (cli_check_dfs_redirect(cluster->cli[*server], fname_src, &dinfo)) {
// choose referral, check if already connected, open if not
referral_number = dinfo.selected_referral;
DEBUG(3,("cli_dfs_rename: redirecting to %s\n", dinfo.referrals[referral_number].node));
cluster->cli[*server]->dfs_referral = cli_dfs_open_connection(cluster,
dinfo.referrals[referral_number].host,
dinfo.referrals[referral_number].share,
cluster->connection_flags);
*server = cluster->cli[*server]->dfs_referral;
if (server < 0)
return False;
// rebuild file name and retry operation.
if (rebuild_filename(referral_fname, cluster->cli[*server], fname_src, dinfo.path_consumed) == NULL)
return False;
fname_src = referral_fname;
DEBUG(3,("cli_dfs_rename: Dfs rename %s to %s on server %s(%d)\n",
fname_src, fname_dst, cli_state_get_host(cluster->cli[*server]), *server));
cli_rename(cluster->cli[*server], fname_src, fname_dst);
}
if (cli_is_error(cluster->cli[*server])) {
printf("cli_dfs_rename: rename of %s to %s failed (%s)\n",
fname_src, fname_dst, cli_errstr(cluster->cli[*server]));
return False;
}
}
return True;
}
/****************************************************************************
Make directory (allowing for Dfs referral).
****************************************************************************/
BOOL cli_dfs_mkdir(struct cli_client* cluster, int *server,
char *fname_src)
{
int referral_number;
dfs_info dinfo;
char *referral_fname;
DEBUG(3,("cli_dfs_mkdir: mkdir %s on server %s(%d)\n",
fname_src, cli_state_get_host(cluster->cli[*server]), *server));
cluster->cli[*server]->dfs_referral = *server;
if (!cli_mkdir(cluster->cli[*server], fname_src)) {
printf("cli_dfs_mkdir: mkdir of %s failed (%s)\n",
fname_src, cli_errstr(cluster->cli[*server]));
if (cli_check_dfs_redirect(cluster->cli[*server], fname_src, &dinfo)) {
// choose referral, check if already connected, open if not
referral_number = dinfo.selected_referral;
DEBUG(3,("cli_dfs_mkdir: redirecting to %s\n", dinfo.referrals[referral_number].node));
cluster->cli[*server]->dfs_referral = cli_dfs_open_connection(cluster,
dinfo.referrals[referral_number].host,
dinfo.referrals[referral_number].share,
cluster->connection_flags);
*server = cluster->cli[*server]->dfs_referral;
if (server < 0)
return False;
// rebuild file name and retry operation.
if (rebuild_filename(referral_fname, cluster->cli[*server], fname_src, dinfo.path_consumed) == NULL)
return False;
fname_src = referral_fname;
DEBUG(3,("cli_dfs_mkdir: Dfs mkdir %s on server %s(%d)\n",
fname_src, cli_state_get_host(cluster->cli[*server]), *server));
cli_mkdir(cluster->cli[*server], fname_src);
}
if (cli_is_error(cluster->cli[*server])) {
printf("cli_dfs_mkdir: mkdir of %s failed (%s)\n",
fname_src, cli_errstr(cluster->cli[*server]));
return False;
}
}
return True;
}
/****************************************************************************
Remove directory (allowing for Dfs referral).
****************************************************************************/
BOOL cli_dfs_rmdir(struct cli_client* cluster, int *server,
char *fname_src)
{
int referral_number;
dfs_info dinfo;
char *referral_fname;
DEBUG(3,("cli_dfs_rmdir: rmdir %s on server %s(%d)\n",
fname_src, cli_state_get_host(cluster->cli[*server]), *server));
cluster->cli[*server]->dfs_referral = *server;
if (!cli_rmdir(cluster->cli[*server], fname_src)) {
printf("cli_dfs_rmdir: rmdir of %s failed (%s)\n",
fname_src, cli_errstr(cluster->cli[*server]));
if (cli_check_dfs_redirect(cluster->cli[*server], fname_src, &dinfo)) {
// choose referral, check if already connected, open if not
referral_number = dinfo.selected_referral;
DEBUG(3,("cli_dfs_rmdir: redirecting to %s\n", dinfo.referrals[referral_number].node));
cluster->cli[*server]->dfs_referral = cli_dfs_open_connection(cluster,
dinfo.referrals[referral_number].host,
dinfo.referrals[referral_number].share,
cluster->connection_flags);
*server = cluster->cli[*server]->dfs_referral;
if (server < 0)
return False;
// rebuild file name and retry operation.
if (rebuild_filename(referral_fname, cluster->cli[*server], fname_src, dinfo.path_consumed) == NULL)
return False;
fname_src = referral_fname;
DEBUG(3,("cli_dfs_rmdir: Dfs rmdir %s on server %s(%d)\n",
fname_src, cli_state_get_host(cluster->cli[*server]), *server));
cli_rmdir(cluster->cli[*server], fname_src);
}
if (cli_is_error(cluster->cli[*server])) {
printf("cli_dfs_rmdir: rmdir of %s failed (%s)\n",
fname_src, cli_errstr(cluster->cli[*server]));
return False;
}
}
return True;
}
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