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samba-mirror/source4/torture/smb2/replay.c
Sachin Prabhu aa28477bbe s4-torture: move torture_wait_for_oplock_break() to central oplock handler.
Signed-off-by: Guenther Deschner <gd@samba.org>
Reviewed-by: Jeremy Allison <jra@samba.org>
2019-04-19 17:27:12 +00:00

2418 lines
71 KiB
C

/*
Unix SMB/CIFS implementation.
test suite for SMB2 replay
Copyright (C) Anubhav Rakshit 2014
Copyright (C) Stefan Metzmacher 2014
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 3 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, see <http://www.gnu.org/licenses/>.
*/
#include "includes.h"
#include "libcli/smb2/smb2.h"
#include "libcli/smb2/smb2_calls.h"
#include "torture/torture.h"
#include "torture/smb2/proto.h"
#include "../libcli/smb/smbXcli_base.h"
#include "lib/cmdline/popt_common.h"
#include "auth/credentials/credentials.h"
#include "libcli/security/security.h"
#include "libcli/resolve/resolve.h"
#include "lib/param/param.h"
#include "lib/events/events.h"
#include "oplock_break_handler.h"
#define CHECK_VAL(v, correct) do { \
if ((v) != (correct)) { \
torture_result(tctx, TORTURE_FAIL, "(%s): wrong value for %s got 0x%x - should be 0x%x\n", \
__location__, #v, (int)v, (int)correct); \
ret = false; \
goto done; \
}} while (0)
#define CHECK_STATUS(status, correct) do { \
if (!NT_STATUS_EQUAL(status, correct)) { \
torture_result(tctx, TORTURE_FAIL, __location__": Incorrect status %s - should be %s", \
nt_errstr(status), nt_errstr(correct)); \
ret = false; \
goto done; \
}} while (0)
#define CHECK_CREATED(__io, __created, __attribute) \
do { \
CHECK_VAL((__io)->out.create_action, NTCREATEX_ACTION_ ## __created); \
CHECK_VAL((__io)->out.size, 0); \
CHECK_VAL((__io)->out.file_attr, (__attribute)); \
CHECK_VAL((__io)->out.reserved2, 0); \
} while(0)
#define CHECK_HANDLE(__h1, __h2) \
do { \
CHECK_VAL((__h1)->data[0], (__h2)->data[0]); \
CHECK_VAL((__h1)->data[1], (__h2)->data[1]); \
} while(0)
#define __IO_OUT_VAL(__io1, __io2, __m) \
CHECK_VAL((__io1)->out.__m, (__io2)->out.__m)
#define CHECK_CREATE_OUT(__io1, __io2) \
do { \
CHECK_HANDLE(&(__io1)->out.file.handle, \
&(__io2)->out.file.handle); \
__IO_OUT_VAL(__io1, __io2, oplock_level); \
__IO_OUT_VAL(__io1, __io2, create_action); \
__IO_OUT_VAL(__io1, __io2, create_time); \
__IO_OUT_VAL(__io1, __io2, access_time); \
__IO_OUT_VAL(__io1, __io2, write_time); \
__IO_OUT_VAL(__io1, __io2, change_time); \
__IO_OUT_VAL(__io1, __io2, alloc_size); \
__IO_OUT_VAL(__io1, __io2, size); \
__IO_OUT_VAL(__io1, __io2, file_attr); \
__IO_OUT_VAL(__io1, __io2, durable_open); \
__IO_OUT_VAL(__io1, __io2, durable_open_v2); \
__IO_OUT_VAL(__io1, __io2, persistent_open); \
__IO_OUT_VAL(__io1, __io2, timeout); \
__IO_OUT_VAL(__io1, __io2, blobs.num_blobs); \
if ((__io1)->out.oplock_level == SMB2_OPLOCK_LEVEL_LEASE) { \
__IO_OUT_VAL(__io1, __io2, lease_response.lease_state);\
__IO_OUT_VAL(__io1, __io2, lease_response.lease_key.data[0]);\
__IO_OUT_VAL(__io1, __io2, lease_response.lease_key.data[1]);\
} \
} while(0)
#define BASEDIR "replaytestdir"
/**
* Test what happens when SMB2_FLAGS_REPLAY_OPERATION is enabled for various
* commands. We want to verify if the server returns an error code or not.
*/
static bool test_replay_commands(struct torture_context *tctx, struct smb2_tree *tree)
{
bool ret = true;
NTSTATUS status;
struct smb2_handle h;
uint8_t buf[200];
struct smb2_read rd;
union smb_setfileinfo sfinfo;
union smb_fileinfo qfinfo;
union smb_ioctl ioctl;
struct smb2_lock lck;
struct smb2_lock_element el[2];
struct smb2_flush f;
TALLOC_CTX *tmp_ctx = talloc_new(tree);
const char *fname = BASEDIR "\\replay_commands.dat";
struct smb2_transport *transport = tree->session->transport;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"Replay tests\n");
}
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
status = torture_smb2_testdir(tree, BASEDIR, &h);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, h);
smb2cli_session_start_replay(tree->session->smbXcli);
torture_comment(tctx, "Try Commands with Replay Flags Enabled\n");
torture_comment(tctx, "Trying create\n");
status = torture_smb2_testfile(tree, fname, &h);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_VAL(break_info.count, 0);
/*
* Wireshark shows that the response has SMB2_FLAGS_REPLAY_OPERATION
* flags set. The server should ignore this flag.
*/
torture_comment(tctx, "Trying write\n");
status = smb2_util_write(tree, h, buf, 0, ARRAY_SIZE(buf));
CHECK_STATUS(status, NT_STATUS_OK);
f = (struct smb2_flush) {
.in.file.handle = h
};
torture_comment(tctx, "Trying flush\n");
status = smb2_flush(tree, &f);
CHECK_STATUS(status, NT_STATUS_OK);
rd = (struct smb2_read) {
.in.file.handle = h,
.in.length = 10,
.in.offset = 0,
.in.min_count = 1
};
torture_comment(tctx, "Trying read\n");
status = smb2_read(tree, tmp_ctx, &rd);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_VAL(rd.out.data.length, 10);
sfinfo.generic.level = RAW_SFILEINFO_POSITION_INFORMATION;
sfinfo.position_information.in.file.handle = h;
sfinfo.position_information.in.position = 0x1000;
torture_comment(tctx, "Trying setinfo\n");
status = smb2_setinfo_file(tree, &sfinfo);
CHECK_STATUS(status, NT_STATUS_OK);
qfinfo = (union smb_fileinfo) {
.generic.level = RAW_FILEINFO_POSITION_INFORMATION,
.generic.in.file.handle = h
};
torture_comment(tctx, "Trying getinfo\n");
status = smb2_getinfo_file(tree, tmp_ctx, &qfinfo);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_VAL(qfinfo.position_information.out.position, 0x1000);
ioctl = (union smb_ioctl) {
.smb2.level = RAW_IOCTL_SMB2,
.smb2.in.file.handle = h,
.smb2.in.function = FSCTL_CREATE_OR_GET_OBJECT_ID,
.smb2.in.max_output_response = 64,
.smb2.in.flags = SMB2_IOCTL_FLAG_IS_FSCTL
};
torture_comment(tctx, "Trying ioctl\n");
status = smb2_ioctl(tree, tmp_ctx, &ioctl.smb2);
CHECK_STATUS(status, NT_STATUS_OK);
lck = (struct smb2_lock) {
.in.locks = el,
.in.lock_count = 0x0001,
.in.lock_sequence = 0x00000000,
.in.file.handle = h
};
el[0].reserved = 0x00000000;
el[0].flags = SMB2_LOCK_FLAG_EXCLUSIVE |
SMB2_LOCK_FLAG_FAIL_IMMEDIATELY;
torture_comment(tctx, "Trying lock\n");
el[0].offset = 0x0000000000000000;
el[0].length = 0x0000000000000100;
status = smb2_lock(tree, &lck);
CHECK_STATUS(status, NT_STATUS_OK);
lck.in.file.handle = h;
el[0].flags = SMB2_LOCK_FLAG_UNLOCK;
status = smb2_lock(tree, &lck);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_VAL(break_info.count, 0);
done:
smb2cli_session_stop_replay(tree->session->smbXcli);
smb2_util_close(tree, h);
smb2_deltree(tree, BASEDIR);
talloc_free(tmp_ctx);
return ret;
}
/**
* Test replay detection without create GUID on single channel.
* Regular creates can not be replayed.
* The return code is unaffected of the REPLAY_OPERATION flag.
*/
static bool test_replay_regular(struct torture_context *tctx,
struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h;
struct smb2_handle *h = NULL;
struct smb2_create io;
uint32_t perms = 0;
bool ret = true;
const char *fname = BASEDIR "\\replay_regular.dat";
struct smb2_transport *transport = tree->session->transport;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h);
CHECK_VAL(break_info.count, 0);
torture_comment(tctx, "No replay detection for regular create\n");
perms = SEC_STD_SYNCHRONIZE | SEC_STD_READ_CONTROL | SEC_STD_DELETE |
SEC_DIR_WRITE_ATTRIBUTE | SEC_DIR_READ_ATTRIBUTE |
SEC_DIR_WRITE_EA | SEC_FILE_APPEND_DATA |
SEC_FILE_WRITE_DATA;
io = (struct smb2_create) {
.in.desired_access = perms,
.in.file_attributes = 0,
.in.create_disposition = NTCREATEX_DISP_CREATE,
.in.share_access = NTCREATEX_SHARE_ACCESS_DELETE,
.in.create_options = 0x0,
.in.fname = fname
};
status = smb2_create(tree, tctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_VAL(break_info.count, 0);
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, tctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OBJECT_NAME_COLLISION);
CHECK_VAL(break_info.count, 0);
smb2_util_close(tree, *h);
h = NULL;
smb2_util_unlink(tree, fname);
/*
* Same experiment with different create disposition.
*/
io.in.create_disposition = NTCREATEX_DISP_OPEN_IF;
status = smb2_create(tree, tctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_VAL(break_info.count, 0);
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, tctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_SHARING_VIOLATION);
CHECK_VAL(break_info.count, 0);
smb2_util_close(tree, *h);
h = NULL;
smb2_util_unlink(tree, fname);
/*
* Now with more generous share mode.
*/
io.in.share_access = smb2_util_share_access("RWD");
status = smb2_create(tree, tctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_VAL(break_info.count, 0);
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, tctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_VAL(break_info.count, 0);
done:
if (h != NULL) {
smb2_util_close(tree, *h);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test Durability V2 Create Replay Detection on Single Channel.
*/
static bool test_replay_dhv2_oplock1(struct torture_context *tctx,
struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h;
struct smb2_handle *h = NULL;
struct smb2_create io, ref1;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay_dhv2_oplock1.dat";
struct smb2_transport *transport = tree->session->transport;
uint32_t share_capabilities;
bool share_is_so;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
share_capabilities = smb2cli_tcon_capabilities(tree->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
torture_comment(tctx, "Replay of DurableHandleReqV2 on Single "
"Channel\n");
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h);
CHECK_VAL(break_info.count, 0);
smb2_oplock_create_share(&io, fname,
smb2_util_share_access(""),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
ref1 = io;
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io.out.durable_open, false);
if (share_is_so) {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("s"));
CHECK_VAL(io.out.durable_open_v2, false);
CHECK_VAL(io.out.timeout, 0);
} else {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("b"));
CHECK_VAL(io.out.durable_open_v2, true);
CHECK_VAL(io.out.timeout, io.in.timeout);
}
/*
* Replay Durable V2 Create on single channel
*/
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATE_OUT(&io, &ref1);
CHECK_VAL(break_info.count, 0);
done:
if (h != NULL) {
smb2_util_close(tree, *h);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test Durability V2 Create Replay Detection on Single Channel.
* Hand in a different oplock level in the replay.
* Server responds with the handed in oplock level and
* corresponding durable status, but does not change the
* oplock level or durable status of the opened file.
*/
static bool test_replay_dhv2_oplock2(struct torture_context *tctx,
struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h;
struct smb2_handle *h = NULL;
struct smb2_create io, ref1, ref2;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay_dhv2_oplock2.dat";
struct smb2_transport *transport = tree->session->transport;
uint32_t share_capabilities;
bool share_is_so;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
share_capabilities = smb2cli_tcon_capabilities(tree->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
torture_comment(tctx, "Replay of DurableHandleReqV2 on Single "
"Channel\n");
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h);
CHECK_VAL(break_info.count, 0);
smb2_oplock_create_share(&io, fname,
smb2_util_share_access(""),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
ref1 = io;
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io.out.durable_open, false);
if (share_is_so) {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("s"));
CHECK_VAL(io.out.durable_open_v2, false);
CHECK_VAL(io.out.timeout, 0);
} else {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("b"));
CHECK_VAL(io.out.durable_open_v2, true);
CHECK_VAL(io.out.timeout, io.in.timeout);
}
/*
* Replay durable v2 create on single channel:
*
* Replay the create with a different oplock (none).
* The server replies with the requested oplock level
* and also only replies with durable handle based
* on whether it could have been granted based on
* the requested oplock type.
*/
smb2_oplock_create_share(&io, fname,
smb2_util_share_access(""),
smb2_util_oplock_level(""));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
/*
* Adapt the response to the exepected values
*/
ref2 = ref1;
ref2.out.oplock_level = smb2_util_oplock_level("");
ref2.out.durable_open_v2 = false;
ref2.out.timeout = 0;
ref2.out.blobs.num_blobs = 0;
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATE_OUT(&io, &ref2);
CHECK_VAL(break_info.count, 0);
/*
* Prove that the open file still has a batch oplock
* by breaking it with another open.
*/
smb2_oplock_create_share(&io, fname,
smb2_util_share_access(""),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = GUID_random();
io.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_SHARING_VIOLATION);
if (!share_is_so) {
CHECK_VAL(break_info.count, 1);
CHECK_HANDLE(&break_info.handle, &ref1.out.file.handle);
CHECK_VAL(break_info.level, smb2_util_oplock_level("s"));
ZERO_STRUCT(break_info);
}
done:
if (h != NULL) {
smb2_util_close(tree, *h);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test Durability V2 Create Replay Detection on Single Channel.
* Replay with a different share mode. The share mode of
* the opened file is not changed by this.
*/
static bool test_replay_dhv2_oplock3(struct torture_context *tctx,
struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h;
struct smb2_handle *h = NULL;
struct smb2_create io, ref1;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay_dhv2_oplock3.dat";
struct smb2_transport *transport = tree->session->transport;
uint32_t share_capabilities;
bool share_is_so;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
share_capabilities = smb2cli_tcon_capabilities(tree->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
torture_comment(tctx, "Replay of DurableHandleReqV2 on Single "
"Channel\n");
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h);
CHECK_VAL(break_info.count, 0);
smb2_oplock_create_share(&io, fname,
smb2_util_share_access(""),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
ref1 = io;
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io.out.durable_open, false);
if (share_is_so) {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("s"));
CHECK_VAL(io.out.durable_open_v2, false);
CHECK_VAL(io.out.timeout, 0);
} else {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("b"));
CHECK_VAL(io.out.durable_open_v2, true);
CHECK_VAL(io.out.timeout, io.in.timeout);
}
/*
* Replay durable v2 create on single channel:
*
* Replay the create with a different share mode.
* The server replies with the requested share
* mode instead of that which is associated to
* the handle.
*/
smb2_oplock_create_share(&io, fname,
smb2_util_share_access("RWD"),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATE_OUT(&io, &ref1);
CHECK_VAL(break_info.count, 0);
/*
* In order to prove that the different share mode in the
* replayed create had no effect on the open file handle,
* show that a new create yields NT_STATUS_SHARING_VIOLATION.
*/
smb2_oplock_create_share(&io, fname,
smb2_util_share_access(""),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = GUID_random();
io.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_SHARING_VIOLATION);
if (!share_is_so) {
CHECK_VAL(break_info.count, 1);
CHECK_HANDLE(&break_info.handle, &ref1.out.file.handle);
CHECK_VAL(break_info.level, smb2_util_oplock_level("s"));
ZERO_STRUCT(break_info);
}
done:
if (h != NULL) {
smb2_util_close(tree, *h);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test Durability V2 Create Replay Detection on Single Channel.
* Create with an oplock, and replay with a lease.
*/
static bool test_replay_dhv2_oplock_lease(struct torture_context *tctx,
struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h;
struct smb2_handle *h = NULL;
struct smb2_create io;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay_dhv2_oplock1.dat";
struct smb2_transport *transport = tree->session->transport;
uint32_t share_capabilities;
bool share_is_so;
uint32_t server_capabilities;
struct smb2_lease ls;
uint64_t lease_key;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
server_capabilities = smb2cli_conn_server_capabilities(transport->conn);
if (!(server_capabilities & SMB2_CAP_LEASING)) {
torture_skip(tctx, "leases are not supported");
}
share_capabilities = smb2cli_tcon_capabilities(tree->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
torture_comment(tctx, "Replay of DurableHandleReqV2 on Single "
"Channel\n");
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h);
CHECK_VAL(break_info.count, 0);
smb2_oplock_create_share(&io, fname,
smb2_util_share_access(""),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io.out.durable_open, false);
if (share_is_so) {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("s"));
CHECK_VAL(io.out.durable_open_v2, false);
CHECK_VAL(io.out.timeout, 0);
} else {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("b"));
CHECK_VAL(io.out.durable_open_v2, true);
CHECK_VAL(io.out.timeout, io.in.timeout);
}
/*
* Replay Durable V2 Create on single channel
* but replay it with a lease instead of an oplock.
*/
lease_key = random();
smb2_lease_create(&io, &ls, false /* dir */, fname,
lease_key, smb2_util_lease_state("RH"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_ACCESS_DENIED);
done:
if (h != NULL) {
smb2_util_close(tree, *h);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test durability v2 create replay detection on single channel.
* Variant with leases instead of oplocks:
* - open a file with a rh lease
* - upgrade to a rwh lease with a second create
* - replay the first create.
* ==> it gets back the upgraded lease level
*/
static bool test_replay_dhv2_lease1(struct torture_context *tctx,
struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h1;
struct smb2_handle *h1 = NULL;
struct smb2_handle _h2;
struct smb2_handle *h2 = NULL;
struct smb2_create io1, io2, ref1;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay2_lease1.dat";
struct smb2_transport *transport = tree->session->transport;
uint32_t share_capabilities;
bool share_is_so;
uint32_t server_capabilities;
struct smb2_lease ls1, ls2;
uint64_t lease_key;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
server_capabilities = smb2cli_conn_server_capabilities(transport->conn);
if (!(server_capabilities & SMB2_CAP_LEASING)) {
torture_skip(tctx, "leases are not supported");
}
share_capabilities = smb2cli_tcon_capabilities(tree->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
torture_comment(tctx, "Replay of DurableHandleReqV2 with Lease "
"on Single Channel\n");
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h1);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h1);
CHECK_VAL(break_info.count, 0);
lease_key = random();
smb2_lease_create(&io1, &ls1, false /* dir */, fname,
lease_key, smb2_util_lease_state("RH"));
io1.in.durable_open = false;
io1.in.durable_open_v2 = true;
io1.in.persistent_open = false;
io1.in.create_guid = create_guid;
io1.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io1);
CHECK_STATUS(status, NT_STATUS_OK);
ref1 = io1;
_h1 = io1.out.file.handle;
h1 = &_h1;
CHECK_CREATED(&io1, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io1.out.durable_open, false);
CHECK_VAL(io1.out.oplock_level, SMB2_OPLOCK_LEVEL_LEASE);
CHECK_VAL(io1.out.lease_response.lease_key.data[0], lease_key);
CHECK_VAL(io1.out.lease_response.lease_key.data[1], ~lease_key);
if (share_is_so) {
CHECK_VAL(io1.out.lease_response.lease_state,
smb2_util_lease_state("R"));
CHECK_VAL(io1.out.durable_open_v2, false);
CHECK_VAL(io1.out.timeout, 0);
} else {
CHECK_VAL(io1.out.lease_response.lease_state,
smb2_util_lease_state("RH"));
CHECK_VAL(io1.out.durable_open_v2, true);
CHECK_VAL(io1.out.timeout, io1.in.timeout);
}
/*
* Upgrade the lease to RWH
*/
smb2_lease_create(&io2, &ls2, false /* dir */, fname,
lease_key, smb2_util_lease_state("RHW"));
io2.in.durable_open = false;
io2.in.durable_open_v2 = true;
io2.in.persistent_open = false;
io2.in.create_guid = GUID_random(); /* new guid... */
io2.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io2);
CHECK_STATUS(status, NT_STATUS_OK);
_h2 = io2.out.file.handle;
h2 = &_h2;
/*
* Replay Durable V2 Create on single channel.
* We get the io from open #1 but with the
* upgraded lease.
*/
/* adapt expected lease in response */
if (!share_is_so) {
ref1.out.lease_response.lease_state =
smb2_util_lease_state("RHW");
}
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io1);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATE_OUT(&io1, &ref1);
CHECK_VAL(break_info.count, 0);
done:
smb2cli_session_stop_replay(tree->session->smbXcli);
if (h1 != NULL) {
smb2_util_close(tree, *h1);
}
if (h2 != NULL) {
smb2_util_close(tree, *h2);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test durability v2 create replay detection on single channel.
* Variant with leases instead of oplocks, where the
* replay does not specify the original lease level but
* just a "R" lease. This still gives the upgraded lease
* level in the reply.
* - open a file with a rh lease
* - upgrade to a rwh lease with a second create
* - replay the first create.
* ==> it gets back the upgraded lease level
*/
static bool test_replay_dhv2_lease2(struct torture_context *tctx,
struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h1;
struct smb2_handle *h1 = NULL;
struct smb2_handle _h2;
struct smb2_handle *h2 = NULL;
struct smb2_create io1, io2, ref1;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay2_lease2.dat";
struct smb2_transport *transport = tree->session->transport;
uint32_t share_capabilities;
bool share_is_so;
uint32_t server_capabilities;
struct smb2_lease ls1, ls2;
uint64_t lease_key;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
server_capabilities = smb2cli_conn_server_capabilities(transport->conn);
if (!(server_capabilities & SMB2_CAP_LEASING)) {
torture_skip(tctx, "leases are not supported");
}
share_capabilities = smb2cli_tcon_capabilities(tree->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
torture_comment(tctx, "Replay of DurableHandleReqV2 with Lease "
"on Single Channel\n");
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h1);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h1);
CHECK_VAL(break_info.count, 0);
lease_key = random();
smb2_lease_create(&io1, &ls1, false /* dir */, fname,
lease_key, smb2_util_lease_state("RH"));
io1.in.durable_open = false;
io1.in.durable_open_v2 = true;
io1.in.persistent_open = false;
io1.in.create_guid = create_guid;
io1.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io1);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATED(&io1, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io1.out.durable_open, false);
CHECK_VAL(io1.out.oplock_level, SMB2_OPLOCK_LEVEL_LEASE);
CHECK_VAL(io1.out.lease_response.lease_key.data[0], lease_key);
CHECK_VAL(io1.out.lease_response.lease_key.data[1], ~lease_key);
if (share_is_so) {
CHECK_VAL(io1.out.lease_response.lease_state,
smb2_util_lease_state("R"));
CHECK_VAL(io1.out.durable_open_v2, false);
CHECK_VAL(io1.out.timeout, 0);
} else {
CHECK_VAL(io1.out.lease_response.lease_state,
smb2_util_lease_state("RH"));
CHECK_VAL(io1.out.durable_open_v2, true);
CHECK_VAL(io1.out.timeout, io1.in.timeout);
}
ref1 = io1;
_h1 = io1.out.file.handle;
h1 = &_h1;
/*
* Upgrade the lease to RWH
*/
smb2_lease_create(&io2, &ls2, false /* dir */, fname,
lease_key, smb2_util_lease_state("RHW"));
io2.in.durable_open = false;
io2.in.durable_open_v2 = true;
io2.in.persistent_open = false;
io2.in.create_guid = GUID_random(); /* new guid... */
io2.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io2);
CHECK_STATUS(status, NT_STATUS_OK);
_h2 = io2.out.file.handle;
h2 = &_h2;
/*
* Replay Durable V2 Create on single channel.
* Changing the requested lease level to "R"
* does not change the response:
* We get the reply from open #1 but with the
* upgraded lease.
*/
/* adapt the expected response */
if (!share_is_so) {
ref1.out.lease_response.lease_state =
smb2_util_lease_state("RHW");
}
smb2_lease_create(&io1, &ls1, false /* dir */, fname,
lease_key, smb2_util_lease_state("R"));
io1.in.durable_open = false;
io1.in.durable_open_v2 = true;
io1.in.persistent_open = false;
io1.in.create_guid = create_guid;
io1.in.timeout = UINT32_MAX;
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io1);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATE_OUT(&io1, &ref1);
CHECK_VAL(break_info.count, 0);
done:
smb2cli_session_stop_replay(tree->session->smbXcli);
if (h1 != NULL) {
smb2_util_close(tree, *h1);
}
if (h2 != NULL) {
smb2_util_close(tree, *h2);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test durability v2 create replay detection on single channel.
* create with a lease, and replay with a different lease key
*/
static bool test_replay_dhv2_lease3(struct torture_context *tctx,
struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h1;
struct smb2_handle *h1 = NULL;
struct smb2_handle _h2;
struct smb2_handle *h2 = NULL;
struct smb2_create io1, io2;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay2_lease2.dat";
struct smb2_transport *transport = tree->session->transport;
uint32_t share_capabilities;
bool share_is_so;
uint32_t server_capabilities;
struct smb2_lease ls1, ls2;
uint64_t lease_key;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
server_capabilities = smb2cli_conn_server_capabilities(transport->conn);
if (!(server_capabilities & SMB2_CAP_LEASING)) {
torture_skip(tctx, "leases are not supported");
}
share_capabilities = smb2cli_tcon_capabilities(tree->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
torture_comment(tctx, "Replay of DurableHandleReqV2 with Lease "
"on Single Channel\n");
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h1);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h1);
CHECK_VAL(break_info.count, 0);
lease_key = random();
smb2_lease_create(&io1, &ls1, false /* dir */, fname,
lease_key, smb2_util_lease_state("RH"));
io1.in.durable_open = false;
io1.in.durable_open_v2 = true;
io1.in.persistent_open = false;
io1.in.create_guid = create_guid;
io1.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io1);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATED(&io1, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io1.out.durable_open, false);
CHECK_VAL(io1.out.oplock_level, SMB2_OPLOCK_LEVEL_LEASE);
CHECK_VAL(io1.out.lease_response.lease_key.data[0], lease_key);
CHECK_VAL(io1.out.lease_response.lease_key.data[1], ~lease_key);
if (share_is_so) {
CHECK_VAL(io1.out.lease_response.lease_state,
smb2_util_lease_state("R"));
CHECK_VAL(io1.out.durable_open_v2, false);
CHECK_VAL(io1.out.timeout, 0);
} else {
CHECK_VAL(io1.out.lease_response.lease_state,
smb2_util_lease_state("RH"));
CHECK_VAL(io1.out.durable_open_v2, true);
CHECK_VAL(io1.out.timeout, io1.in.timeout);
}
_h1 = io1.out.file.handle;
h1 = &_h1;
/*
* Upgrade the lease to RWH
*/
smb2_lease_create(&io2, &ls2, false /* dir */, fname,
lease_key, smb2_util_lease_state("RHW"));
io2.in.durable_open = false;
io2.in.durable_open_v2 = true;
io2.in.persistent_open = false;
io2.in.create_guid = GUID_random(); /* new guid... */
io2.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io2);
CHECK_STATUS(status, NT_STATUS_OK);
_h2 = io2.out.file.handle;
h2 = &_h2;
/*
* Replay Durable V2 Create on single channel.
* use a different lease key.
*/
smb2_lease_create(&io1, &ls1, false /* dir */, fname,
random() /* lease key */,
smb2_util_lease_state("RH"));
io1.in.durable_open = false;
io1.in.durable_open_v2 = true;
io1.in.persistent_open = false;
io1.in.create_guid = create_guid;
io1.in.timeout = UINT32_MAX;
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io1);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_ACCESS_DENIED);
done:
smb2cli_session_stop_replay(tree->session->smbXcli);
if (h1 != NULL) {
smb2_util_close(tree, *h1);
}
if (h2 != NULL) {
smb2_util_close(tree, *h2);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test durability v2 create replay detection on single channel.
* Do the original create with a lease, and do the replay
* with an oplock.
*/
static bool test_replay_dhv2_lease_oplock(struct torture_context *tctx,
struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h1;
struct smb2_handle *h1 = NULL;
struct smb2_handle _h2;
struct smb2_handle *h2 = NULL;
struct smb2_create io1, io2, ref1;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay2_lease1.dat";
struct smb2_transport *transport = tree->session->transport;
uint32_t share_capabilities;
bool share_is_so;
uint32_t server_capabilities;
struct smb2_lease ls1, ls2;
uint64_t lease_key;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
server_capabilities = smb2cli_conn_server_capabilities(transport->conn);
if (!(server_capabilities & SMB2_CAP_LEASING)) {
torture_skip(tctx, "leases are not supported");
}
share_capabilities = smb2cli_tcon_capabilities(tree->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
torture_comment(tctx, "Replay of DurableHandleReqV2 with Lease "
"on Single Channel\n");
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h1);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h1);
CHECK_VAL(break_info.count, 0);
lease_key = random();
smb2_lease_create(&io1, &ls1, false /* dir */, fname,
lease_key, smb2_util_lease_state("RH"));
io1.in.durable_open = false;
io1.in.durable_open_v2 = true;
io1.in.persistent_open = false;
io1.in.create_guid = create_guid;
io1.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io1);
CHECK_STATUS(status, NT_STATUS_OK);
ref1 = io1;
_h1 = io1.out.file.handle;
h1 = &_h1;
CHECK_CREATED(&io1, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io1.out.durable_open, false);
CHECK_VAL(io1.out.oplock_level, SMB2_OPLOCK_LEVEL_LEASE);
CHECK_VAL(io1.out.lease_response.lease_key.data[0], lease_key);
CHECK_VAL(io1.out.lease_response.lease_key.data[1], ~lease_key);
if (share_is_so) {
CHECK_VAL(io1.out.lease_response.lease_state,
smb2_util_lease_state("R"));
CHECK_VAL(io1.out.durable_open_v2, false);
CHECK_VAL(io1.out.timeout, 0);
} else {
CHECK_VAL(io1.out.lease_response.lease_state,
smb2_util_lease_state("RH"));
CHECK_VAL(io1.out.durable_open_v2, true);
CHECK_VAL(io1.out.timeout, io1.in.timeout);
}
/*
* Upgrade the lease to RWH
*/
smb2_lease_create(&io2, &ls2, false /* dir */, fname,
lease_key, smb2_util_lease_state("RHW"));
io2.in.durable_open = false;
io2.in.durable_open_v2 = true;
io2.in.persistent_open = false;
io2.in.create_guid = GUID_random(); /* new guid... */
io2.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io2);
CHECK_STATUS(status, NT_STATUS_OK);
_h2 = io2.out.file.handle;
h2 = &_h2;
/*
* Replay Durable V2 Create on single channel.
* We get the io from open #1 but with the
* upgraded lease.
*/
smb2_oplock_create_share(&io2, fname,
smb2_util_share_access(""),
smb2_util_oplock_level("b"));
io2.in.durable_open = false;
io2.in.durable_open_v2 = true;
io2.in.persistent_open = false;
io2.in.create_guid = create_guid;
io2.in.timeout = UINT32_MAX;
/* adapt expected lease in response */
if (!share_is_so) {
ref1.out.lease_response.lease_state =
smb2_util_lease_state("RHW");
}
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io1);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATE_OUT(&io1, &ref1);
CHECK_VAL(break_info.count, 0);
done:
smb2cli_session_stop_replay(tree->session->smbXcli);
if (h1 != NULL) {
smb2_util_close(tree, *h1);
}
if (h2 != NULL) {
smb2_util_close(tree, *h2);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
static bool test_channel_sequence_table(struct torture_context *tctx,
struct smb2_tree *tree,
bool do_replay,
uint16_t opcode)
{
NTSTATUS status = NT_STATUS_UNSUCCESSFUL;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle handle;
struct smb2_handle *phandle = NULL;
struct smb2_create io;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\channel_sequence.dat";
uint16_t csn = 0;
uint16_t limit = UINT16_MAX - 0x7fff;
int i;
struct {
uint16_t csn;
bool csn_rand_low;
bool csn_rand_high;
NTSTATUS expected_status;
} tests[] = {
{
.csn = 0,
.expected_status = NT_STATUS_OK,
},{
.csn = 0x7fff + 1,
.expected_status = NT_STATUS_FILE_NOT_AVAILABLE,
},{
.csn = 0x7fff + 2,
.expected_status = NT_STATUS_FILE_NOT_AVAILABLE,
},{
.csn = -1,
.csn_rand_high = true,
.expected_status = NT_STATUS_FILE_NOT_AVAILABLE,
},{
.csn = 0xffff,
.expected_status = NT_STATUS_FILE_NOT_AVAILABLE,
},{
.csn = 0x7fff,
.expected_status = NT_STATUS_OK,
},{
.csn = 0x7ffe,
.expected_status = NT_STATUS_FILE_NOT_AVAILABLE,
},{
.csn = 0,
.expected_status = NT_STATUS_FILE_NOT_AVAILABLE,
},{
.csn = -1,
.csn_rand_low = true,
.expected_status = NT_STATUS_FILE_NOT_AVAILABLE,
},{
.csn = 0x7fff + 1,
.expected_status = NT_STATUS_OK,
},{
.csn = 0xffff,
.expected_status = NT_STATUS_OK,
},{
.csn = 0,
.expected_status = NT_STATUS_OK,
},{
.csn = 1,
.expected_status = NT_STATUS_OK,
},{
.csn = 0,
.expected_status = NT_STATUS_FILE_NOT_AVAILABLE,
},{
.csn = 1,
.expected_status = NT_STATUS_OK,
},{
.csn = 0xffff,
.expected_status = NT_STATUS_FILE_NOT_AVAILABLE,
}
};
smb2cli_session_reset_channel_sequence(tree->session->smbXcli, 0);
csn = smb2cli_session_current_channel_sequence(tree->session->smbXcli);
torture_comment(tctx, "Testing create with channel sequence number: 0x%04x\n", csn);
smb2_oplock_create_share(&io, fname,
smb2_util_share_access("RWD"),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
torture_assert_ntstatus_ok_goto(tctx,
smb2_create(tree, mem_ctx, &io),
ret, done, "failed to call smb2_create");
handle = io.out.file.handle;
phandle = &handle;
for (i=0; i <ARRAY_SIZE(tests); i++) {
const char *opstr = "";
union smb_fileinfo qfinfo;
csn = tests[i].csn;
if (tests[i].csn_rand_low) {
csn = rand() % limit;
} else if (tests[i].csn_rand_high) {
csn = rand() % limit + 0x7fff;
}
switch (opcode) {
case SMB2_OP_WRITE:
opstr = "write";
break;
case SMB2_OP_IOCTL:
opstr = "ioctl";
break;
case SMB2_OP_SETINFO:
opstr = "setinfo";
break;
default:
break;
}
smb2cli_session_reset_channel_sequence(tree->session->smbXcli, csn);
csn = smb2cli_session_current_channel_sequence(tree->session->smbXcli);
torture_comment(tctx, "Testing %s (replay: %s) with CSN 0x%04x, expecting: %s\n",
opstr, do_replay ? "true" : "false", csn,
nt_errstr(tests[i].expected_status));
if (do_replay) {
smb2cli_session_start_replay(tree->session->smbXcli);
}
switch (opcode) {
case SMB2_OP_WRITE: {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, 255);
generate_random_buffer(blob.data, blob.length);
status = smb2_util_write(tree, handle, blob.data, 0, blob.length);
if (NT_STATUS_IS_OK(status)) {
struct smb2_read rd;
rd = (struct smb2_read) {
.in.file.handle = handle,
.in.length = blob.length,
.in.offset = 0
};
torture_assert_ntstatus_ok_goto(tctx,
smb2_read(tree, tree, &rd),
ret, done, "failed to read after write");
torture_assert_data_blob_equal(tctx,
rd.out.data, blob,
"read/write mismatch");
}
break;
}
case SMB2_OP_IOCTL: {
union smb_ioctl ioctl;
ioctl = (union smb_ioctl) {
.smb2.level = RAW_IOCTL_SMB2,
.smb2.in.file.handle = handle,
.smb2.in.function = FSCTL_CREATE_OR_GET_OBJECT_ID,
.smb2.in.max_output_response = 64,
.smb2.in.flags = SMB2_IOCTL_FLAG_IS_FSCTL
};
status = smb2_ioctl(tree, mem_ctx, &ioctl.smb2);
break;
}
case SMB2_OP_SETINFO: {
union smb_setfileinfo sfinfo;
ZERO_STRUCT(sfinfo);
sfinfo.generic.level = RAW_SFILEINFO_POSITION_INFORMATION;
sfinfo.generic.in.file.handle = handle;
sfinfo.position_information.in.position = 0x1000;
status = smb2_setinfo_file(tree, &sfinfo);
break;
}
default:
break;
}
qfinfo = (union smb_fileinfo) {
.generic.level = RAW_FILEINFO_POSITION_INFORMATION,
.generic.in.file.handle = handle
};
torture_assert_ntstatus_ok_goto(tctx,
smb2_getinfo_file(tree, mem_ctx, &qfinfo),
ret, done, "failed to read after write");
if (do_replay) {
smb2cli_session_stop_replay(tree->session->smbXcli);
}
torture_assert_ntstatus_equal_goto(tctx,
status, tests[i].expected_status,
ret, done, "got unexpected failure code");
}
done:
if (phandle != NULL) {
smb2_util_close(tree, *phandle);
}
smb2_util_unlink(tree, fname);
return ret;
}
static bool test_channel_sequence(struct torture_context *tctx,
struct smb2_tree *tree)
{
TALLOC_CTX *mem_ctx = talloc_new(tctx);
bool ret = true;
const char *fname = BASEDIR "\\channel_sequence.dat";
struct smb2_transport *transport1 = tree->session->transport;
struct smb2_handle handle;
uint32_t server_capabilities;
uint16_t opcodes[] = { SMB2_OP_WRITE, SMB2_OP_IOCTL, SMB2_OP_SETINFO };
int i;
if (smbXcli_conn_protocol(transport1->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"Replay tests\n");
}
server_capabilities = smb2cli_conn_server_capabilities(
tree->session->transport->conn);
if (!(server_capabilities & SMB2_CAP_MULTI_CHANNEL)) {
torture_skip(tctx,
"Server does not support multi-channel.");
}
torture_comment(tctx, "Testing channel sequence numbers\n");
torture_assert_ntstatus_ok_goto(tctx,
torture_smb2_testdir(tree, BASEDIR, &handle),
ret, done, "failed to setup test directory");
smb2_util_close(tree, handle);
smb2_util_unlink(tree, fname);
for (i=0; i <ARRAY_SIZE(opcodes); i++) {
torture_assert(tctx,
test_channel_sequence_table(tctx, tree, false, opcodes[i]),
"failed to test CSN without replay flag");
torture_assert(tctx,
test_channel_sequence_table(tctx, tree, true, opcodes[i]),
"failed to test CSN with replay flag");
}
done:
smb2_util_unlink(tree, fname);
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test Durability V2 Create Replay Detection on Multi Channel
*/
static bool test_replay3(struct torture_context *tctx, struct smb2_tree *tree1)
{
const char *host = torture_setting_string(tctx, "host", NULL);
const char *share = torture_setting_string(tctx, "share", NULL);
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h;
struct smb2_handle *h = NULL;
struct smb2_create io;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay3.dat";
struct smb2_tree *tree2 = NULL;
struct smb2_transport *transport1 = tree1->session->transport;
struct smb2_transport *transport2 = NULL;
struct smb2_session *session1_1 = tree1->session;
struct smb2_session *session1_2 = NULL;
uint32_t share_capabilities;
bool share_is_so;
uint32_t server_capabilities;
if (smbXcli_conn_protocol(transport1->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"Replay tests\n");
}
server_capabilities = smb2cli_conn_server_capabilities(
tree1->session->transport->conn);
if (!(server_capabilities & SMB2_CAP_MULTI_CHANNEL)) {
torture_skip(tctx,
"Server does not support multi-channel.");
}
share_capabilities = smb2cli_tcon_capabilities(tree1->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
transport1->oplock.handler = torture_oplock_ack_handler;
transport1->oplock.private_data = tree1;
torture_comment(tctx, "Replay of DurableHandleReqV2 on Multi "
"Channel\n");
status = torture_smb2_testdir(tree1, BASEDIR, &_h);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree1, _h);
smb2_util_unlink(tree1, fname);
CHECK_VAL(break_info.count, 0);
/*
* use the 1st channel, 1st session
*/
smb2_oplock_create_share(&io, fname,
smb2_util_share_access(""),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
tree1->session = session1_1;
status = smb2_create(tree1, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
if (share_is_so) {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("s"));
CHECK_VAL(io.out.durable_open_v2, false);
CHECK_VAL(io.out.timeout, 0);
} else {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("b"));
CHECK_VAL(io.out.durable_open_v2, true);
CHECK_VAL(io.out.timeout, io.in.timeout);
}
CHECK_VAL(io.out.durable_open, false);
CHECK_VAL(break_info.count, 0);
status = smb2_connect(tctx,
host,
lpcfg_smb_ports(tctx->lp_ctx),
share,
lpcfg_resolve_context(tctx->lp_ctx),
popt_get_cmdline_credentials(),
&tree2,
tctx->ev,
&transport1->options,
lpcfg_socket_options(tctx->lp_ctx),
lpcfg_gensec_settings(tctx, tctx->lp_ctx)
);
torture_assert_ntstatus_ok_goto(tctx, status, ret, done,
"smb2_connect failed");
transport2 = tree2->session->transport;
transport2->oplock.handler = torture_oplock_ack_handler;
transport2->oplock.private_data = tree2;
/*
* Now bind the 1st session to 2nd transport channel
*/
session1_2 = smb2_session_channel(transport2,
lpcfg_gensec_settings(tctx, tctx->lp_ctx),
tree2, session1_1);
torture_assert(tctx, session1_2 != NULL, "smb2_session_channel failed");
status = smb2_session_setup_spnego(session1_2,
popt_get_cmdline_credentials(),
0 /* previous_session_id */);
CHECK_STATUS(status, NT_STATUS_OK);
/*
* use the 2nd channel, 1st session
*/
tree1->session = session1_2;
smb2cli_session_start_replay(tree1->session->smbXcli);
status = smb2_create(tree1, mem_ctx, &io);
smb2cli_session_stop_replay(tree1->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
if (share_is_so) {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("s"));
CHECK_VAL(io.out.durable_open_v2, false);
CHECK_VAL(io.out.timeout, 0);
} else {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("b"));
CHECK_VAL(io.out.durable_open_v2, true);
CHECK_VAL(io.out.timeout, io.in.timeout);
}
CHECK_VAL(io.out.durable_open, false);
CHECK_VAL(break_info.count, 0);
tree1->session = session1_1;
smb2_util_close(tree1, *h);
h = NULL;
done:
talloc_free(tree2);
tree1->session = session1_1;
if (h != NULL) {
smb2_util_close(tree1, *h);
}
smb2_util_unlink(tree1, fname);
smb2_deltree(tree1, BASEDIR);
talloc_free(tree1);
talloc_free(mem_ctx);
return ret;
}
/**
* Test Multichannel IO Ordering using ChannelSequence/Channel Epoch number
*/
static bool test_replay4(struct torture_context *tctx, struct smb2_tree *tree1)
{
const char *host = torture_setting_string(tctx, "host", NULL);
const char *share = torture_setting_string(tctx, "share", NULL);
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h1;
struct smb2_handle *h1 = NULL;
struct smb2_create io;
struct GUID create_guid = GUID_random();
uint8_t buf[64];
struct smb2_read rd;
union smb_setfileinfo sfinfo;
bool ret = true;
const char *fname = BASEDIR "\\replay4.dat";
struct smb2_tree *tree2 = NULL;
struct smb2_transport *transport1 = tree1->session->transport;
struct smb2_transport *transport2 = NULL;
struct smb2_session *session1_1 = tree1->session;
struct smb2_session *session1_2 = NULL;
uint16_t curr_cs;
uint32_t share_capabilities;
bool share_is_so;
uint32_t server_capabilities;
if (smbXcli_conn_protocol(transport1->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"Replay tests\n");
}
server_capabilities = smb2cli_conn_server_capabilities(
tree1->session->transport->conn);
if (!(server_capabilities & SMB2_CAP_MULTI_CHANNEL)) {
torture_skip(tctx,
"Server does not support multi-channel.");
}
share_capabilities = smb2cli_tcon_capabilities(tree1->smbXcli);
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
transport1->oplock.handler = torture_oplock_ack_handler;
transport1->oplock.private_data = tree1;
torture_comment(tctx, "IO Ordering for Multi Channel\n");
status = torture_smb2_testdir(tree1, BASEDIR, &_h1);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree1, _h1);
smb2_util_unlink(tree1, fname);
CHECK_VAL(break_info.count, 0);
/*
* use the 1st channel, 1st session
*/
smb2_oplock_create_share(&io, fname,
smb2_util_share_access(""),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
tree1->session = session1_1;
status = smb2_create(tree1, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
_h1 = io.out.file.handle;
h1 = &_h1;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
if (share_is_so) {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("s"));
CHECK_VAL(io.out.durable_open_v2, false);
CHECK_VAL(io.out.timeout, 0);
} else {
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("b"));
CHECK_VAL(io.out.durable_open_v2, true);
CHECK_VAL(io.out.timeout, io.in.timeout);
}
CHECK_VAL(io.out.durable_open, false);
CHECK_VAL(break_info.count, 0);
status = smb2_util_write(tree1, *h1, buf, 0, ARRAY_SIZE(buf));
CHECK_STATUS(status, NT_STATUS_OK);
/*
* Increment ChannelSequence so that server thinks that there's a
* Channel Failure
*/
smb2cli_session_increment_channel_sequence(tree1->session->smbXcli);
/*
* Perform a Read with incremented ChannelSequence
*/
rd = (struct smb2_read) {
.in.file.handle = *h1,
.in.length = sizeof(buf),
.in.offset = 0
};
status = smb2_read(tree1, tree1, &rd);
CHECK_STATUS(status, NT_STATUS_OK);
/*
* Performing a Write with Stale ChannelSequence is not allowed by
* server
*/
curr_cs = smb2cli_session_reset_channel_sequence(
tree1->session->smbXcli, 0);
status = smb2_util_write(tree1, *h1, buf, 0, ARRAY_SIZE(buf));
CHECK_STATUS(status, NT_STATUS_FILE_NOT_AVAILABLE);
/*
* Performing a Write Replay with Stale ChannelSequence is not allowed
* by server
*/
smb2cli_session_start_replay(tree1->session->smbXcli);
smb2cli_session_reset_channel_sequence(tree1->session->smbXcli, 0);
status = smb2_util_write(tree1, *h1, buf, 0, ARRAY_SIZE(buf));
smb2cli_session_stop_replay(tree1->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_FILE_NOT_AVAILABLE);
/*
* Performing a SetInfo with stale ChannelSequence is not allowed by
* server
*/
ZERO_STRUCT(sfinfo);
sfinfo.generic.level = RAW_SFILEINFO_POSITION_INFORMATION;
sfinfo.generic.in.file.handle = *h1;
sfinfo.position_information.in.position = 0x1000;
status = smb2_setinfo_file(tree1, &sfinfo);
CHECK_STATUS(status, NT_STATUS_FILE_NOT_AVAILABLE);
/*
* Performing a Read with stale ChannelSequence is allowed
*/
rd = (struct smb2_read) {
.in.file.handle = *h1,
.in.length = ARRAY_SIZE(buf),
.in.offset = 0
};
status = smb2_read(tree1, tree1, &rd);
CHECK_STATUS(status, NT_STATUS_OK);
status = smb2_connect(tctx,
host,
lpcfg_smb_ports(tctx->lp_ctx),
share,
lpcfg_resolve_context(tctx->lp_ctx),
popt_get_cmdline_credentials(),
&tree2,
tctx->ev,
&transport1->options,
lpcfg_socket_options(tctx->lp_ctx),
lpcfg_gensec_settings(tctx, tctx->lp_ctx)
);
torture_assert_ntstatus_ok_goto(tctx, status, ret, done,
"smb2_connect failed");
transport2 = tree2->session->transport;
transport2->oplock.handler = torture_oplock_ack_handler;
transport2->oplock.private_data = tree2;
/*
* Now bind the 1st session to 2nd transport channel
*/
session1_2 = smb2_session_channel(transport2,
lpcfg_gensec_settings(tctx, tctx->lp_ctx),
tree2, session1_1);
torture_assert(tctx, session1_2 != NULL, "smb2_session_channel failed");
status = smb2_session_setup_spnego(session1_2,
popt_get_cmdline_credentials(),
0 /* previous_session_id */);
CHECK_STATUS(status, NT_STATUS_OK);
/*
* use the 2nd channel, 1st session
*/
tree1->session = session1_2;
/*
* Write Replay with Correct ChannelSequence is allowed by the server
*/
smb2cli_session_start_replay(tree1->session->smbXcli);
smb2cli_session_reset_channel_sequence(tree1->session->smbXcli,
curr_cs);
status = smb2_util_write(tree1, *h1, buf, 0, ARRAY_SIZE(buf));
CHECK_STATUS(status, NT_STATUS_OK);
smb2cli_session_stop_replay(tree1->session->smbXcli);
/*
* See what happens if we change the Buffer and perform a Write Replay.
* This is to show that Write Replay does not really care about the data
*/
memset(buf, 'r', ARRAY_SIZE(buf));
smb2cli_session_start_replay(tree1->session->smbXcli);
status = smb2_util_write(tree1, *h1, buf, 0, ARRAY_SIZE(buf));
CHECK_STATUS(status, NT_STATUS_OK);
smb2cli_session_stop_replay(tree1->session->smbXcli);
/*
* Read back from File to verify what was written
*/
rd = (struct smb2_read) {
.in.file.handle = *h1,
.in.length = ARRAY_SIZE(buf),
.in.offset = 0
};
status = smb2_read(tree1, tree1, &rd);
CHECK_STATUS(status, NT_STATUS_OK);
if ((rd.out.data.length != ARRAY_SIZE(buf)) ||
memcmp(rd.out.data.data, buf, ARRAY_SIZE(buf))) {
torture_comment(tctx, "Write Replay Data Mismatch\n");
}
tree1->session = session1_1;
smb2_util_close(tree1, *h1);
h1 = NULL;
if (share_is_so) {
CHECK_VAL(break_info.count, 1);
} else {
CHECK_VAL(break_info.count, 0);
}
done:
talloc_free(tree2);
tree1->session = session1_1;
if (h1 != NULL) {
smb2_util_close(tree1, *h1);
}
smb2_util_unlink(tree1, fname);
smb2_deltree(tree1, BASEDIR);
talloc_free(tree1);
talloc_free(mem_ctx);
return ret;
}
/**
* Test Durability V2 Persistent Create Replay on a Single Channel
*/
static bool test_replay5(struct torture_context *tctx, struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h;
struct smb2_handle *h = NULL;
struct smb2_create io;
struct GUID create_guid = GUID_random();
bool ret = true;
uint32_t share_capabilities;
bool share_is_ca;
bool share_is_so;
uint32_t server_capabilities;
const char *fname = BASEDIR "\\replay5.dat";
struct smb2_transport *transport = tree->session->transport;
struct smbcli_options options = tree->session->transport->options;
uint8_t expect_oplock = smb2_util_oplock_level("b");
NTSTATUS expect_status = NT_STATUS_DUPLICATE_OBJECTID;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"Replay tests\n");
}
server_capabilities = smb2cli_conn_server_capabilities(
tree->session->transport->conn);
if (!(server_capabilities & SMB2_CAP_PERSISTENT_HANDLES)) {
torture_skip(tctx,
"Server does not support persistent handles.");
}
share_capabilities = smb2cli_tcon_capabilities(tree->smbXcli);
share_is_ca = share_capabilities & SMB2_SHARE_CAP_CONTINUOUS_AVAILABILITY;
if (!share_is_ca) {
torture_skip(tctx, "Share is not continuously available.");
}
share_is_so = share_capabilities & SMB2_SHARE_CAP_SCALEOUT;
if (share_is_so) {
expect_oplock = smb2_util_oplock_level("s");
expect_status = NT_STATUS_FILE_NOT_AVAILABLE;
}
ZERO_STRUCT(break_info);
break_info.tctx = tctx;
transport->oplock.handler = torture_oplock_ack_handler;
transport->oplock.private_data = tree;
torture_comment(tctx, "Replay of Persistent DurableHandleReqV2 on Single "
"Channel\n");
status = torture_smb2_testdir(tree, BASEDIR, &_h);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h);
smb2_util_unlink(tree, fname);
CHECK_VAL(break_info.count, 0);
smb2_oplock_create_share(&io, fname,
smb2_util_share_access("RWD"),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = true;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io.out.oplock_level, expect_oplock);
CHECK_VAL(io.out.durable_open, false);
CHECK_VAL(io.out.durable_open_v2, true);
CHECK_VAL(io.out.persistent_open, true);
CHECK_VAL(io.out.timeout, io.in.timeout);
CHECK_VAL(break_info.count, 0);
/* disconnect, leaving the durable open */
TALLOC_FREE(tree);
if (!torture_smb2_connection_ext(tctx, 0, &options, &tree)) {
torture_warning(tctx, "couldn't reconnect, bailing\n");
ret = false;
goto done;
}
/* a re-open of a persistent handle causes an error */
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, expect_status);
/* SMB2_FLAGS_REPLAY_OPERATION must be set to open the Persistent Handle */
smb2cli_session_start_replay(tree->session->smbXcli);
smb2cli_session_increment_channel_sequence(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io.out.durable_open, false);
CHECK_VAL(io.out.persistent_open, true);
CHECK_VAL(io.out.oplock_level, expect_oplock);
_h = io.out.file.handle;
h = &_h;
smb2_util_close(tree, *h);
h = NULL;
done:
if (h != NULL) {
smb2_util_close(tree, *h);
}
smb2_util_unlink(tree, fname);
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
/**
* Test Error Codes when a DurableHandleReqV2 with matching CreateGuid is
* re-sent with or without SMB2_FLAGS_REPLAY_OPERATION
*/
static bool test_replay6(struct torture_context *tctx, struct smb2_tree *tree)
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_handle _h;
struct smb2_handle *h = NULL;
struct smb2_create io, ref1;
union smb_fileinfo qfinfo;
struct GUID create_guid = GUID_random();
bool ret = true;
const char *fname = BASEDIR "\\replay6.dat";
struct smb2_transport *transport = tree->session->transport;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
torture_reset_break_info(tctx, &break_info);
tree->session->transport->oplock.handler = torture_oplock_ack_handler;
tree->session->transport->oplock.private_data = tree;
torture_comment(tctx, "Error Codes for DurableHandleReqV2 Replay\n");
smb2_util_unlink(tree, fname);
status = torture_smb2_testdir(tree, BASEDIR, &_h);
CHECK_STATUS(status, NT_STATUS_OK);
smb2_util_close(tree, _h);
torture_wait_for_oplock_break(tctx);
CHECK_VAL(break_info.count, 0);
torture_reset_break_info(tctx, &break_info);
smb2_oplock_create_share(&io, fname,
smb2_util_share_access("RWD"),
smb2_util_oplock_level("b"));
io.in.durable_open = false;
io.in.durable_open_v2 = true;
io.in.persistent_open = false;
io.in.create_guid = create_guid;
io.in.timeout = UINT32_MAX;
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_OK);
ref1 = io;
_h = io.out.file.handle;
h = &_h;
CHECK_CREATED(&io, CREATED, FILE_ATTRIBUTE_ARCHIVE);
CHECK_VAL(io.out.oplock_level, smb2_util_oplock_level("b"));
CHECK_VAL(io.out.durable_open, false);
CHECK_VAL(io.out.durable_open_v2, true);
io.in.file_attributes = FILE_ATTRIBUTE_DIRECTORY;
io.in.create_disposition = NTCREATEX_DISP_OPEN;
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_CREATE_OUT(&io, &ref1);
torture_wait_for_oplock_break(tctx);
CHECK_VAL(break_info.count, 0);
torture_reset_break_info(tctx, &break_info);
qfinfo = (union smb_fileinfo) {
.generic.level = RAW_FILEINFO_POSITION_INFORMATION,
.generic.in.file.handle = *h
};
torture_comment(tctx, "Trying getinfo\n");
status = smb2_getinfo_file(tree, mem_ctx, &qfinfo);
CHECK_STATUS(status, NT_STATUS_OK);
CHECK_VAL(qfinfo.position_information.out.position, 0);
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
torture_assert_u64_not_equal_goto(tctx,
io.out.file.handle.data[0],
ref1.out.file.handle.data[0],
ret, done, "data 0");
torture_assert_u64_not_equal_goto(tctx,
io.out.file.handle.data[1],
ref1.out.file.handle.data[1],
ret, done, "data 1");
torture_wait_for_oplock_break(tctx);
CHECK_VAL(break_info.count, 1);
CHECK_VAL(break_info.level, smb2_util_oplock_level("s"));
torture_reset_break_info(tctx, &break_info);
/*
* Resend the matching Durable V2 Create without
* SMB2_FLAGS_REPLAY_OPERATION. This triggers an oplock break and still
* gets NT_STATUS_DUPLICATE_OBJECTID
*/
status = smb2_create(tree, mem_ctx, &io);
CHECK_STATUS(status, NT_STATUS_DUPLICATE_OBJECTID);
torture_wait_for_oplock_break(tctx);
CHECK_VAL(break_info.count, 0);
torture_reset_break_info(tctx, &break_info);
/*
* According to MS-SMB2 3.3.5.9.10 if Durable V2 Create is replayed and
* FileAttributes or CreateDisposition do not match the earlier Create
* request the Server fails request with
* NT_STATUS_INVALID_PARAMETER. But through this test we see that server
* does not really care about changed FileAttributes or
* CreateDisposition.
*/
io.in.file_attributes = FILE_ATTRIBUTE_DIRECTORY;
io.in.create_disposition = NTCREATEX_DISP_OPEN;
smb2cli_session_start_replay(tree->session->smbXcli);
status = smb2_create(tree, mem_ctx, &io);
smb2cli_session_stop_replay(tree->session->smbXcli);
CHECK_STATUS(status, NT_STATUS_OK);
torture_assert_u64_not_equal_goto(tctx,
io.out.file.handle.data[0],
ref1.out.file.handle.data[0],
ret, done, "data 0");
torture_assert_u64_not_equal_goto(tctx,
io.out.file.handle.data[1],
ref1.out.file.handle.data[1],
ret, done, "data 1");
torture_wait_for_oplock_break(tctx);
CHECK_VAL(break_info.count, 0);
done:
if (h != NULL) {
smb2_util_close(tree, *h);
}
smb2_util_unlink(tree, fname);
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
static bool test_replay7(struct torture_context *tctx, struct smb2_tree *tree)
{
TALLOC_CTX *mem_ctx = talloc_new(tctx);
struct smb2_transport *transport = tree->session->transport;
NTSTATUS status;
struct smb2_handle _dh;
struct smb2_handle *dh = NULL;
struct smb2_notify notify;
struct smb2_request *req;
union smb_fileinfo qfinfo;
bool ret = false;
if (smbXcli_conn_protocol(transport->conn) < PROTOCOL_SMB3_00) {
torture_skip(tctx, "SMB 3.X Dialect family required for "
"replay tests\n");
}
torture_comment(tctx, "Notify across increment/decrement of csn\n");
smbXcli_conn_set_force_channel_sequence(transport->conn, true);
status = torture_smb2_testdir(tree, BASEDIR, &_dh);
CHECK_STATUS(status, NT_STATUS_OK);
dh = &_dh;
notify.in.recursive = 0x0000;
notify.in.buffer_size = 0xffff;
notify.in.file.handle = _dh;
notify.in.completion_filter = FILE_NOTIFY_CHANGE_FILE_NAME;
notify.in.unknown = 0x00000000;
/*
* This posts a long-running request with csn==0 to "dh". Now
* op->request_count==1 in smb2_server.c.
*/
smb2cli_session_reset_channel_sequence(tree->session->smbXcli, 0);
req = smb2_notify_send(tree, &notify);
qfinfo = (union smb_fileinfo) {
.generic.level = RAW_FILEINFO_POSITION_INFORMATION,
.generic.in.file.handle = _dh
};
/*
* This sequence of 2 dummy requests moves
* op->request_count==1 to op->pre_request_count. The numbers
* used avoid int16 overflow.
*/
smb2cli_session_reset_channel_sequence(tree->session->smbXcli, 30000);
status = smb2_getinfo_file(tree, mem_ctx, &qfinfo);
CHECK_STATUS(status, NT_STATUS_OK);
smb2cli_session_reset_channel_sequence(tree->session->smbXcli, 60000);
status = smb2_getinfo_file(tree, mem_ctx, &qfinfo);
CHECK_STATUS(status, NT_STATUS_OK);
/*
* This final request turns the op->global->channel_sequence
* to the same as we had when sending the notify above. The
* notify's request count has in the meantime moved to
* op->pre_request_count.
*/
smb2cli_session_reset_channel_sequence(tree->session->smbXcli, 0);
status = smb2_getinfo_file(tree, mem_ctx, &qfinfo);
CHECK_STATUS(status, NT_STATUS_OK);
/*
* At this point op->request_count==0.
*
* The next cancel makes us reply to the notify. Because the
* csn we currently use is the same as we used when sending
* the notify, smbd thinks it must decrement op->request_count
* and not op->pre_request_count.
*/
status = smb2_cancel(req);
CHECK_STATUS(status, NT_STATUS_OK);
status = smb2_notify_recv(req, mem_ctx, &notify);
CHECK_STATUS(status, NT_STATUS_CANCELLED);
ret = true;
done:
if (dh != NULL) {
smb2_util_close(tree, _dh);
}
smb2_deltree(tree, BASEDIR);
talloc_free(tree);
talloc_free(mem_ctx);
return ret;
}
struct torture_suite *torture_smb2_replay_init(TALLOC_CTX *ctx)
{
struct torture_suite *suite =
torture_suite_create(ctx, "replay");
torture_suite_add_1smb2_test(suite, "replay-commands", test_replay_commands);
torture_suite_add_1smb2_test(suite, "replay-regular", test_replay_regular);
torture_suite_add_1smb2_test(suite, "replay-dhv2-oplock1", test_replay_dhv2_oplock1);
torture_suite_add_1smb2_test(suite, "replay-dhv2-oplock2", test_replay_dhv2_oplock2);
torture_suite_add_1smb2_test(suite, "replay-dhv2-oplock3", test_replay_dhv2_oplock3);
torture_suite_add_1smb2_test(suite, "replay-dhv2-oplock-lease", test_replay_dhv2_oplock_lease);
torture_suite_add_1smb2_test(suite, "replay-dhv2-lease1", test_replay_dhv2_lease1);
torture_suite_add_1smb2_test(suite, "replay-dhv2-lease2", test_replay_dhv2_lease2);
torture_suite_add_1smb2_test(suite, "replay-dhv2-lease3", test_replay_dhv2_lease3);
torture_suite_add_1smb2_test(suite, "replay-dhv2-lease-oplock", test_replay_dhv2_lease_oplock);
torture_suite_add_1smb2_test(suite, "channel-sequence", test_channel_sequence);
torture_suite_add_1smb2_test(suite, "replay3", test_replay3);
torture_suite_add_1smb2_test(suite, "replay4", test_replay4);
torture_suite_add_1smb2_test(suite, "replay5", test_replay5);
torture_suite_add_1smb2_test(suite, "replay6", test_replay6);
torture_suite_add_1smb2_test(suite, "replay7", test_replay7);
suite->description = talloc_strdup(suite, "SMB2 REPLAY tests");
return suite;
}