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/*
Unix SMB/CIFS implementation.
Copyright (C) Rafal Szczesniak 2005
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.
*/
/*
a composite functions for user management operations (add/del/chg)
*/
#include "includes.h"
#include "libcli/raw/libcliraw.h"
#include "libcli/composite/composite.h"
#include "libcli/composite/monitor.h"
#include "librpc/gen_ndr/ndr_samr.h"
#include "libnet/composite.h"
/*
* Composite user add function
*/
static void useradd_handler(struct rpc_request*);
enum useradd_stage { USERADD_CREATE };
struct useradd_state {
enum useradd_stage stage;
struct dcerpc_pipe *pipe;
struct rpc_request *req;
struct policy_handle domain_handle;
struct samr_CreateUser createuser;
struct policy_handle user_handle;
uint32_t user_rid;
};
/**
* Stage 1 (and the only one for now): Create user account.
*/
static NTSTATUS useradd_create(struct composite_context *c,
struct useradd_state *s)
{
c->status = dcerpc_ndr_request_recv(s->req);
NT_STATUS_NOT_OK_RETURN(c->status);
c->state = SMBCLI_REQUEST_DONE;
return NT_STATUS_OK;
}
/**
* Event handler for asynchronous request. Handles transition through
* intermediate stages of the call.
*
* @param req rpc call context
*/
static void useradd_handler(struct rpc_request *req)
{
struct composite_context *c = req->async.private;
struct useradd_state *s = talloc_get_type(c->private, struct useradd_state);
struct monitor_msg msg;
switch (s->stage) {
case USERADD_CREATE:
c->status = useradd_create(c, s);
msg.type = rpc_create_user;
msg.data.rpc_create_user.rid = *s->createuser.out.rid;
break;
}
if (!NT_STATUS_IS_OK(c->status)) {
c->state = SMBCLI_REQUEST_ERROR;
}
if (c->monitor_fn) {
c->monitor_fn(&msg);
}
if (c->state >= SMBCLI_REQUEST_DONE &&
c->async.fn) {
c->async.fn(c);
}
}
/**
* Sends asynchronous useradd request
*
* @param p dce/rpc call pipe
* @param io arguments and results of the call
*/
struct composite_context *libnet_rpc_useradd_send(struct dcerpc_pipe *p,
struct libnet_rpc_useradd *io,
void (*monitor)(struct monitor_msg*))
{
struct composite_context *c;
struct useradd_state *s;
c = talloc_zero(p, struct composite_context);
if (c == NULL) goto failure;
s = talloc_zero(c, struct useradd_state);
if (s == NULL) goto failure;
s->domain_handle = io->in.domain_handle;
s->pipe = p;
c->state = SMBCLI_REQUEST_SEND;
c->private = s;
c->event_ctx = dcerpc_event_context(p);
c->monitor_fn = monitor;
/* preparing parameters to send rpc request */
s->createuser.in.domain_handle = &io->in.domain_handle;
s->createuser.in.account_name = talloc_zero(c, struct lsa_String);
s->createuser.in.account_name->string = talloc_strdup(c, io->in.username);
s->createuser.out.user_handle = &s->user_handle;
s->createuser.out.rid = &s->user_rid;
/* send request */
s->req = dcerpc_samr_CreateUser_send(p, c, &s->createuser);
/* callback handler */
s->req->async.callback = useradd_handler;
s->req->async.private = c;
s->stage = USERADD_CREATE;
return c;
failure:
talloc_free(c);
return NULL;
}
/**
* Waits for and receives result of asynchronous useradd call
*
* @param c composite context returned by asynchronous useradd call
* @param mem_ctx memory context of the call
* @param io pointer to results (and arguments) of the call
* @return nt status code of execution
*/
NTSTATUS libnet_rpc_useradd_recv(struct composite_context *c, TALLOC_CTX *mem_ctx,
struct libnet_rpc_useradd *io)
{
NTSTATUS status;
struct useradd_state *s;
status = composite_wait(c);
if (NT_STATUS_IS_OK(status) && io) {
/* get and return result of the call */
s = talloc_get_type(c->private, struct useradd_state);
io->out.user_handle = s->user_handle;
}
talloc_free(c);
return status;
}
/**
* Synchronous version of useradd call
*
* @param pipe dce/rpc call pipe
* @param mem_ctx memory context for the call
* @param io arguments and results of the call
* @return nt status code of execution
*/
NTSTATUS libnet_rpc_useradd(struct dcerpc_pipe *pipe,
TALLOC_CTX *mem_ctx,
struct libnet_rpc_useradd *io)
{
struct composite_context *c = libnet_rpc_useradd_send(pipe, io, NULL);
return libnet_rpc_useradd_recv(c, mem_ctx, io);
}
/*
* Composite user delete function
*/
static void userdel_handler(struct rpc_request*);
enum userdel_stage { USERDEL_LOOKUP, USERDEL_OPEN, USERDEL_DELETE };
struct userdel_state {
enum userdel_stage stage;
struct dcerpc_pipe *pipe;
struct rpc_request *req;
struct policy_handle domain_handle;
struct policy_handle user_handle;
struct samr_LookupNames lookupname;
struct samr_OpenUser openuser;
struct samr_DeleteUser deleteuser;
};
/**
* Stage 1: Lookup the user name and resolve it to rid
*/
static NTSTATUS userdel_lookup(struct composite_context *c,
struct userdel_state *s)
{
NTSTATUS status = NT_STATUS_UNSUCCESSFUL;
c->status = dcerpc_ndr_request_recv(s->req);
NT_STATUS_NOT_OK_RETURN(c->status);
if (!s->lookupname.out.rids.count) {
/* TODO: no such user */
status = NT_STATUS_NO_SUCH_USER;
} else if (!s->lookupname.out.rids.count > 1) {
/* TODO: ambiguous username */
status = NT_STATUS_INVALID_ACCOUNT_NAME;
}
s->openuser.in.domain_handle = &s->domain_handle;
s->openuser.in.rid = s->lookupname.out.rids.ids[0];
s->openuser.in.access_mask = SEC_FLAG_MAXIMUM_ALLOWED;
s->openuser.out.user_handle = &s->user_handle;
s->req = dcerpc_samr_OpenUser_send(s->pipe, c, &s->openuser);
s->req->async.callback = userdel_handler;
s->req->async.private = c;
s->stage = USERDEL_OPEN;
return NT_STATUS_OK;
}
/**
* Stage 2: Open user account.
*/
static NTSTATUS userdel_open(struct composite_context *c,
struct userdel_state *s)
{
c->status = dcerpc_ndr_request_recv(s->req);
NT_STATUS_NOT_OK_RETURN(c->status);
s->deleteuser.in.user_handle = &s->user_handle;
s->deleteuser.out.user_handle = &s->user_handle;
s->req = dcerpc_samr_DeleteUser_send(s->pipe, c, &s->deleteuser);
s->req->async.callback = userdel_handler;
s->req->async.private = c;
s->stage = USERDEL_DELETE;
return NT_STATUS_OK;
}
/**
* Stage 3: Delete user account
*/
static NTSTATUS userdel_delete(struct composite_context *c,
struct userdel_state *s)
{
c->status = dcerpc_ndr_request_recv(s->req);
NT_STATUS_NOT_OK_RETURN(c->status);
c->state = SMBCLI_REQUEST_DONE;
return NT_STATUS_OK;
}
/**
* Event handler for asynchronous request. Handles transition through
* intermediate stages of the call.
*
* @param req rpc call context
*/
static void userdel_handler(struct rpc_request *req)
{
struct composite_context *c = req->async.private;
struct userdel_state *s = talloc_get_type(c->private, struct userdel_state);
struct monitor_msg msg;
switch (s->stage) {
case USERDEL_LOOKUP:
c->status = userdel_lookup(c, s);
break;
case USERDEL_OPEN:
c->status = userdel_open(c, s);
break;
case USERDEL_DELETE:
c->status = userdel_delete(c, s);
break;
}
if (!NT_STATUS_IS_OK(c->status)) {
c->state = SMBCLI_REQUEST_ERROR;
}
if (c->monitor_fn) {
c->monitor_fn(&msg);
}
if (c->state >= SMBCLI_REQUEST_DONE &&
c->async.fn) {
c->async.fn(c);
}
}
/**
* Sends asynchronous userdel request
*
* @param p dce/rpc call pipe
* @param io arguments and results of the call
*/
struct composite_context *libnet_rpc_userdel_send(struct dcerpc_pipe *p,
struct libnet_rpc_userdel *io)
{
struct composite_context *c;
struct userdel_state *s;
c = talloc_zero(p, struct composite_context);
if (c == NULL) goto failure;
s = talloc_zero(c, struct userdel_state);
if (s == NULL) goto failure;
c->state = SMBCLI_REQUEST_SEND;
c->private = s;
c->event_ctx = dcerpc_event_context(p);
s->pipe = p;
s->domain_handle = io->in.domain_handle;
/* preparing parameters to send rpc request */
s->lookupname.in.domain_handle = &io->in.domain_handle;
s->lookupname.in.num_names = 1;
s->lookupname.in.names = talloc_zero(s, struct lsa_String);
s->lookupname.in.names->string = io->in.username;
/* send the request */
s->req = dcerpc_samr_LookupNames_send(p, c, &s->lookupname);
/* callback handler */
s->req->async.callback = userdel_handler;
s->req->async.private = c;
s->stage = USERDEL_LOOKUP;
return c;
failure:
talloc_free(c);
return NULL;
}
/**
* Waits for and receives results of asynchronous userdel call
*
* @param c composite context returned by asynchronous userdel call
* @param mem_ctx memory context of the call
* @param io pointer to results (and arguments) of the call
* @return nt status code of execution
*/
NTSTATUS libnet_rpc_userdel_recv(struct composite_context *c, TALLOC_CTX *mem_ctx,
struct libnet_rpc_userdel *io)
{
NTSTATUS status;
struct userdel_state *s;
status = composite_wait(c);
if (NT_STATUS_IS_OK(status) && io) {
s = talloc_get_type(c->private, struct userdel_state);
io->out.user_handle = s->user_handle;
}
talloc_free(c);
return status;
}
/**
* Synchronous version of userdel call
*
* @param pipe dce/rpc call pipe
* @param mem_ctx memory context for the call
* @param io arguments and results of the call
* @return nt status code of execution
*/
NTSTATUS libnet_rpc_userdel(struct dcerpc_pipe *pipe,
TALLOC_CTX *mem_ctx,
struct libnet_rpc_userdel *io)
{
struct composite_context *c = libnet_rpc_userdel_send(pipe, io);
return libnet_rpc_userdel_recv(c, mem_ctx, io);
}
static void usermod_handler(struct rpc_request*);
enum usermod_stage { USERMOD_LOOKUP, USERMOD_OPEN, USERMOD_MODIFY };
struct usermod_state {
enum usermod_stage stage;
struct dcerpc_pipe *pipe;
struct rpc_request *req;
struct policy_handle domain_handle;
struct policy_handle user_handle;
struct usermod_change change;
union samr_UserInfo info;
struct samr_LookupNames lookupname;
struct samr_OpenUser openuser;
struct samr_SetUserInfo setuser;
};
static NTSTATUS usermod_lookup(struct composite_context *c,
struct usermod_state *s)
{
NTSTATUS status;
c->status = dcerpc_ndr_request_recv(s->req);
NT_STATUS_NOT_OK_RETURN(c->status);
if (!s->lookupname.out.rids.count) {
/* TODO: no such user */
status = NT_STATUS_NO_SUCH_USER;
} else if (!s->lookupname.out.rids.count > 1) {
/* TODO: ambiguous username */
status = NT_STATUS_INVALID_ACCOUNT_NAME;
}
s->openuser.in.domain_handle = &s->domain_handle;
s->openuser.in.rid = s->lookupname.out.rids.ids[0];
s->openuser.in.access_mask = SEC_FLAG_MAXIMUM_ALLOWED;
s->openuser.out.user_handle = &s->user_handle;
s->req = dcerpc_samr_OpenUser_send(s->pipe, c, &s->openuser);
s->req->async.callback = usermod_handler;
s->req->async.private = c;
s->stage = USERMOD_OPEN;
return NT_STATUS_OK;
}
static NTSTATUS usermod_open(struct composite_context *c,
struct usermod_state *s)
{
union samr_UserInfo *i = &s->info;
uint16_t level;
c->status = dcerpc_ndr_request_recv(s->req);
NT_STATUS_NOT_OK_RETURN(c->status);
s->setuser.in.user_handle = &s->user_handle;
/* Prepare UserInfo level and data based on bitmask field */
if (s->change.fields) {
if (s->change.fields & USERMOD_FIELD_ACCOUNT_NAME) {
level = 7;
i->info7.account_name.length = 2*strlen_m(s->change.account_name);
i->info7.account_name.size = 2*strlen_m(s->change.account_name);
i->info7.account_name.string = s->change.account_name;
s->change.fields ^= USERMOD_FIELD_ACCOUNT_NAME;
} else if (s->change.fields & USERMOD_FIELD_FULL_NAME) {
level = 8;
i->info8.full_name.length = 2*strlen_m(s->change.full_name);
i->info8.full_name.size = 2*strlen_m(s->change.full_name);
i->info8.full_name.string = s->change.full_name;
s->change.fields ^= USERMOD_FIELD_FULL_NAME;
}
}
s->setuser.in.level = level;
s->setuser.in.info = i;
s->req = dcerpc_samr_SetUserInfo_send(s->pipe, c, &s->setuser);
s->req->async.callback = usermod_handler;
s->req->async.private = c;
/* Get back here again unless all fields have been set */
if (s->change.fields) {
s->stage = USERMOD_OPEN;
} else {
s->stage = USERMOD_MODIFY;
}
return NT_STATUS_OK;
}
static NTSTATUS usermod_modify(struct composite_context *c,
struct usermod_state *s)
{
c->status = dcerpc_ndr_request_recv(s->req);
NT_STATUS_NOT_OK_RETURN(c->status);
c->state = SMBCLI_REQUEST_DONE;
return NT_STATUS_OK;
}
static void usermod_handler(struct rpc_request *req)
{
struct composite_context *c = req->async.private;
struct usermod_state *s = talloc_get_type(c->private, struct usermod_state);
struct monitor_msg msg;
switch (s->stage) {
case USERMOD_LOOKUP:
c->status = usermod_lookup(c, s);
break;
case USERMOD_OPEN:
c->status = usermod_open(c, s);
break;
case USERMOD_MODIFY:
c->status = usermod_modify(c, s);
break;
}
if (!NT_STATUS_IS_OK(c->status)) {
c->state = SMBCLI_REQUEST_ERROR;
}
if (c->monitor_fn) {
c->monitor_fn(&msg);
}
if (c->state >= SMBCLI_REQUEST_DONE &&
c->async.fn) {
c->async.fn(c);
}
}
struct composite_context *libnet_rpc_usermod_send(struct dcerpc_pipe *p,
struct libnet_rpc_usermod *io)
{
struct composite_context *c;
struct usermod_state *s;
c = talloc_zero(p, struct composite_context);
if (c == NULL) goto failure;
s = talloc_zero(c, struct usermod_state);
if (s == NULL) goto failure;
c->state = SMBCLI_REQUEST_SEND;
c->private = s;
c->event_ctx = dcerpc_event_context(p);
s->pipe = p;
s->domain_handle = io->in.domain_handle;
s->change = io->in.change;
s->lookupname.in.domain_handle = &io->in.domain_handle;
s->lookupname.in.num_names = 1;
s->lookupname.in.names = talloc_zero(s, struct lsa_String);
s->lookupname.in.names->string = io->in.username;
s->req = dcerpc_samr_LookupNames_send(p, c, &s->lookupname);
s->req->async.callback = usermod_handler;
s->req->async.private = c;
s->stage = USERMOD_LOOKUP;
return c;
failure:
talloc_free(c);
return NULL;
}
NTSTATUS libnet_rpc_usermod_recv(struct composite_context *c, TALLOC_CTX *mem_ctx,
struct libnet_rpc_usermod *io)
{
NTSTATUS status;
struct usermod_state *s;
status = composite_wait(c);
talloc_free(c);
return status;
}
NTSTATUS libnet_rpc_usermod(struct dcerpc_pipe *pipe,
TALLOC_CTX *mem_ctx,
struct libnet_rpc_usermod *io)
{
struct composite_context *c = libnet_rpc_usermod_send(pipe, io);
return libnet_rpc_usermod_recv(c, mem_ctx, io);
}
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