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samba-mirror/source4/torture/rpc/spoolss.c
2010-04-06 12:13:54 +02:00

5442 lines
159 KiB
C

/*
Unix SMB/CIFS implementation.
test suite for spoolss rpc operations
Copyright (C) Tim Potter 2003
Copyright (C) Stefan Metzmacher 2005
Copyright (C) Jelmer Vernooij 2007
Copyright (C) Guenther Deschner 2009-2010
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 "torture/torture.h"
#include "librpc/gen_ndr/ndr_misc.h"
#include "librpc/gen_ndr/ndr_spoolss.h"
#include "librpc/gen_ndr/ndr_spoolss_c.h"
#include "librpc/gen_ndr/ndr_winreg_c.h"
#include "librpc/gen_ndr/ndr_security.h"
#include "libcli/security/security.h"
#include "torture/rpc/rpc.h"
#include "param/param.h"
#include "lib/registry/registry.h"
#define TORTURE_WELLKNOWN_PRINTER "torture_wkn_printer"
#define TORTURE_PRINTER "torture_printer"
#define TORTURE_WELLKNOWN_PRINTER_EX "torture_wkn_printer_ex"
#define TORTURE_PRINTER_EX "torture_printer_ex"
#define TOP_LEVEL_PRINTER_KEY "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Print\\Printers"
struct test_spoolss_context {
/* print server handle */
struct policy_handle server_handle;
/* for EnumPorts */
uint32_t port_count[3];
union spoolss_PortInfo *ports[3];
/* for EnumPrinterDrivers */
uint32_t driver_count[8];
union spoolss_DriverInfo *drivers[8];
/* for EnumMonitors */
uint32_t monitor_count[3];
union spoolss_MonitorInfo *monitors[3];
/* for EnumPrintProcessors */
uint32_t print_processor_count[2];
union spoolss_PrintProcessorInfo *print_processors[2];
/* for EnumPrinters */
uint32_t printer_count[6];
union spoolss_PrinterInfo *printers[6];
};
#define COMPARE_STRING(tctx, c,r,e) \
torture_assert_str_equal(tctx, c.e, r.e, "invalid value")
/* not every compiler supports __typeof__() */
#if (__GNUC__ >= 3)
#define _CHECK_FIELD_SIZE(c,r,e,type) do {\
if (sizeof(__typeof__(c.e)) != sizeof(type)) { \
torture_fail(tctx, #c "." #e "field is not " #type "\n"); \
}\
if (sizeof(__typeof__(r.e)) != sizeof(type)) { \
torture_fail(tctx, #r "." #e "field is not " #type "\n"); \
}\
} while(0)
#else
#define _CHECK_FIELD_SIZE(c,r,e,type) do {} while(0)
#endif
#define COMPARE_UINT32(tctx, c, r, e) do {\
_CHECK_FIELD_SIZE(c, r, e, uint32_t); \
torture_assert_int_equal(tctx, c.e, r.e, "invalid value"); \
} while(0)
#define COMPARE_UINT64(tctx, c, r, e) do {\
_CHECK_FIELD_SIZE(c, r, e, uint64_t); \
torture_assert_int_equal(tctx, c.e, r.e, "invalid value"); \
} while(0)
#define COMPARE_NTTIME(tctx, c, r, e) do {\
_CHECK_FIELD_SIZE(c, r, e, NTTIME); \
torture_assert_int_equal(tctx, c.e, r.e, "invalid value"); \
} while(0)
#define COMPARE_STRING_ARRAY(tctx, c,r,e) do {\
int __i; \
if (!c.e && !r.e) { \
break; \
} \
if (c.e && !r.e) { \
torture_fail(tctx, #r "." #e " field is NULL and " #c "." #e " is not\n"); \
} \
if (!c.e && r.e) { \
torture_fail(tctx, #c "." #e " field is NULL and " #r "." #e " is not\n"); \
} \
for (__i=0;c.e[__i] != NULL; __i++) { \
torture_assert_str_equal(tctx, c.e[__i], r.e[__i], "invalid value"); \
} \
} while(0)
#define CHECK_ALIGN(size, n) do {\
if (size % n) {\
torture_warning(tctx, "%d is *NOT* %d byte aligned, should be %d",\
size, n, size + n - (size % n));\
}\
} while(0)
#define DO_ROUND(size, n) (((size)+((n)-1)) & ~((n)-1))
#define CHECK_NEEDED_SIZE_ENUM_LEVEL(fn, info, level, count, ic, needed, align) do { \
if (torture_setting_bool(tctx, "spoolss_check_size", false)) {\
uint32_t size = ndr_size_##fn##_info(tctx, ic, level, count, info);\
uint32_t round_size = DO_ROUND(size, align);\
if (round_size != needed) {\
torture_warning(tctx, __location__": "#fn" level %d (count: %d) got unexpected needed size: %d, we calculated: %d", level, count, needed, round_size);\
CHECK_ALIGN(size, align);\
}\
}\
} while(0)
#define CHECK_NEEDED_SIZE_ENUM(fn, info, count, ic, needed, align) do { \
if (torture_setting_bool(tctx, "spoolss_check_size", false)) {\
uint32_t size = ndr_size_##fn##_info(tctx, ic, count, info);\
uint32_t round_size = DO_ROUND(size, align);\
if (round_size != needed) {\
torture_warning(tctx, __location__": "#fn" (count: %d) got unexpected needed size: %d, we calculated: %d", count, needed, round_size);\
CHECK_ALIGN(size, align);\
}\
}\
} while(0)
#define CHECK_NEEDED_SIZE_LEVEL(fn, info, level, ic, needed, align) do { \
if (torture_setting_bool(tctx, "spoolss_check_size", false)) {\
uint32_t size = ndr_size_##fn(info, level, ic, 0);\
uint32_t round_size = DO_ROUND(size, align);\
if (round_size != needed) {\
torture_warning(tctx, __location__": "#fn" level %d got unexpected needed size: %d, we calculated: %d", level, needed, round_size);\
CHECK_ALIGN(size, align);\
}\
}\
} while(0)
static bool PrinterInfo_to_SetPrinterInfo(struct torture_context *tctx,
const union spoolss_PrinterInfo *i,
uint32_t level,
union spoolss_SetPrinterInfo *s)
{
switch (level) {
case 0:
s->info0 = talloc(tctx, struct spoolss_SetPrinterInfo0);
break;
case 2:
s->info2 = talloc(tctx, struct spoolss_SetPrinterInfo2);
s->info2->servername = i->info2.servername;
s->info2->printername = i->info2.printername;
s->info2->sharename = i->info2.sharename;
s->info2->portname = i->info2.portname;
s->info2->drivername = i->info2.drivername;
s->info2->comment = i->info2.comment;
s->info2->location = i->info2.location;
s->info2->devmode_ptr = 0;
s->info2->sepfile = i->info2.sepfile;
s->info2->printprocessor = i->info2.printprocessor;
s->info2->datatype = i->info2.datatype;
s->info2->parameters = i->info2.parameters;
s->info2->secdesc_ptr = 0;
s->info2->attributes = i->info2.attributes;
s->info2->priority = i->info2.priority;
s->info2->defaultpriority = i->info2.defaultpriority;
s->info2->starttime = i->info2.starttime;
s->info2->untiltime = i->info2.untiltime;
s->info2->status = i->info2.status;
s->info2->cjobs = i->info2.cjobs;
s->info2->averageppm = i->info2.averageppm;
break;
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
case 9:
default:
return false;
}
return true;
}
static bool test_OpenPrinter_server(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *server_handle)
{
NTSTATUS status;
struct spoolss_OpenPrinter op;
struct dcerpc_binding_handle *b = p->binding_handle;
op.in.printername = talloc_asprintf(tctx, "\\\\%s", dcerpc_server_name(p));
op.in.datatype = NULL;
op.in.devmode_ctr.devmode= NULL;
op.in.access_mask = 0;
op.out.handle = server_handle;
torture_comment(tctx, "Testing OpenPrinter(%s)\n", op.in.printername);
status = dcerpc_spoolss_OpenPrinter_r(b, tctx, &op);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_OpenPrinter failed");
torture_assert_werr_ok(tctx, op.out.result, "dcerpc_spoolss_OpenPrinter failed");
return true;
}
static bool test_EnumPorts(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct test_spoolss_context *ctx)
{
NTSTATUS status;
struct spoolss_EnumPorts r;
uint16_t levels[] = { 1, 2 };
int i, j;
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
DATA_BLOB blob;
uint32_t needed;
uint32_t count;
union spoolss_PortInfo *info;
r.in.servername = "";
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumPorts level %u\n", r.in.level);
status = dcerpc_spoolss_EnumPorts_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumPorts failed");
if (W_ERROR_IS_OK(r.out.result)) {
/* TODO: do some more checks here */
continue;
}
torture_assert_werr_equal(tctx, r.out.result, WERR_INSUFFICIENT_BUFFER,
"EnumPorts unexpected return code");
blob = data_blob_talloc(ctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumPorts_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumPorts failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumPorts failed");
torture_assert(tctx, info, "EnumPorts returned no info");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumPorts, info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
ctx->port_count[level] = count;
ctx->ports[level] = info;
}
for (i=1;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
int old_level = levels[i-1];
torture_assert_int_equal(tctx, ctx->port_count[level], ctx->port_count[old_level],
"EnumPorts invalid value");
}
/* if the array sizes are not the same we would maybe segfault in the following code */
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
for (j=0;j<ctx->port_count[level];j++) {
union spoolss_PortInfo *cur = &ctx->ports[level][j];
union spoolss_PortInfo *ref = &ctx->ports[2][j];
switch (level) {
case 1:
COMPARE_STRING(tctx, cur->info1, ref->info2, port_name);
break;
case 2:
/* level 2 is our reference, and it makes no sense to compare it to itself */
break;
}
}
}
return true;
}
static bool test_GetPrintProcessorDirectory(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct test_spoolss_context *ctx,
const char *environment)
{
NTSTATUS status;
struct dcerpc_binding_handle *b = p->binding_handle;
struct spoolss_GetPrintProcessorDirectory r;
struct {
uint16_t level;
const char *server;
} levels[] = {{
.level = 1,
.server = NULL
},{
.level = 1,
.server = ""
},{
.level = 78,
.server = ""
},{
.level = 1,
.server = talloc_asprintf(ctx, "\\\\%s", dcerpc_server_name(p))
},{
.level = 1024,
.server = talloc_asprintf(ctx, "\\\\%s", dcerpc_server_name(p))
}
};
int i;
uint32_t needed;
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i].level;
DATA_BLOB blob;
r.in.server = levels[i].server;
r.in.environment = environment;
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
torture_comment(tctx, "Testing GetPrintProcessorDirectory level %u\n", r.in.level);
status = dcerpc_spoolss_GetPrintProcessorDirectory_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status,
"dcerpc_spoolss_GetPrintProcessorDirectory failed");
torture_assert_werr_equal(tctx, r.out.result, WERR_INSUFFICIENT_BUFFER,
"GetPrintProcessorDirectory unexpected return code");
blob = data_blob_talloc(ctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_GetPrintProcessorDirectory_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_GetPrintProcessorDirectory failed");
torture_assert_werr_ok(tctx, r.out.result, "GetPrintProcessorDirectory failed");
CHECK_NEEDED_SIZE_LEVEL(spoolss_PrintProcessorDirectoryInfo, r.out.info, r.in.level, lp_iconv_convenience(tctx->lp_ctx), needed, 2);
}
return true;
}
static bool test_GetPrinterDriverDirectory(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct test_spoolss_context *ctx,
const char *environment)
{
NTSTATUS status;
struct dcerpc_binding_handle *b = p->binding_handle;
struct spoolss_GetPrinterDriverDirectory r;
struct {
uint16_t level;
const char *server;
} levels[] = {{
.level = 1,
.server = NULL
},{
.level = 1,
.server = ""
},{
.level = 78,
.server = ""
},{
.level = 1,
.server = talloc_asprintf(ctx, "\\\\%s", dcerpc_server_name(p))
},{
.level = 1024,
.server = talloc_asprintf(ctx, "\\\\%s", dcerpc_server_name(p))
}
};
int i;
uint32_t needed;
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i].level;
DATA_BLOB blob;
r.in.server = levels[i].server;
r.in.environment = environment;
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
torture_comment(tctx, "Testing GetPrinterDriverDirectory level %u\n", r.in.level);
status = dcerpc_spoolss_GetPrinterDriverDirectory_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status,
"dcerpc_spoolss_GetPrinterDriverDirectory failed");
torture_assert_werr_equal(tctx, r.out.result, WERR_INSUFFICIENT_BUFFER,
"GetPrinterDriverDirectory unexpected return code");
blob = data_blob_talloc(ctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_GetPrinterDriverDirectory_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_GetPrinterDriverDirectory failed");
torture_assert_werr_ok(tctx, r.out.result, "GetPrinterDriverDirectory failed");
CHECK_NEEDED_SIZE_LEVEL(spoolss_DriverDirectoryInfo, r.out.info, r.in.level, lp_iconv_convenience(tctx->lp_ctx), needed, 2);
}
return true;
}
static bool test_EnumPrinterDrivers(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct test_spoolss_context *ctx,
const char *architecture)
{
NTSTATUS status;
struct dcerpc_binding_handle *b = p->binding_handle;
struct spoolss_EnumPrinterDrivers r;
uint16_t levels[] = { 1, 2, 3, 4, 5, 6, 8 };
int i, j;
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
DATA_BLOB blob;
uint32_t needed;
uint32_t count;
union spoolss_DriverInfo *info;
/* FIXME: gd, come back and fix "" as server, and handle
* priority of returned error codes in torture test and samba 3
* server */
r.in.server = talloc_asprintf(tctx, "\\\\%s", dcerpc_server_name(p));
r.in.environment = architecture;
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumPrinterDrivers level %u (%s)\n", r.in.level, r.in.environment);
status = dcerpc_spoolss_EnumPrinterDrivers_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status,
"dcerpc_spoolss_EnumPrinterDrivers failed");
if (W_ERROR_IS_OK(r.out.result)) {
/* TODO: do some more checks here */
continue;
}
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
blob = data_blob_talloc(ctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumPrinterDrivers_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumPrinterDrivers failed");
}
torture_assert_werr_ok(tctx, r.out.result, "EnumPrinterDrivers failed");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumPrinterDrivers, info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
ctx->driver_count[level] = count;
ctx->drivers[level] = info;
}
for (i=1;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
int old_level = levels[i-1];
torture_assert_int_equal(tctx, ctx->driver_count[level], ctx->driver_count[old_level],
"EnumPrinterDrivers invalid value");
}
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
for (j=0;j<ctx->driver_count[level];j++) {
union spoolss_DriverInfo *cur = &ctx->drivers[level][j];
union spoolss_DriverInfo *ref = &ctx->drivers[8][j];
switch (level) {
case 1:
COMPARE_STRING(tctx, cur->info1, ref->info8, driver_name);
break;
case 2:
COMPARE_UINT32(tctx, cur->info2, ref->info8, version);
COMPARE_STRING(tctx, cur->info2, ref->info8, driver_name);
COMPARE_STRING(tctx, cur->info2, ref->info8, architecture);
COMPARE_STRING(tctx, cur->info2, ref->info8, driver_path);
COMPARE_STRING(tctx, cur->info2, ref->info8, data_file);
COMPARE_STRING(tctx, cur->info2, ref->info8, config_file);
break;
case 3:
COMPARE_UINT32(tctx, cur->info3, ref->info8, version);
COMPARE_STRING(tctx, cur->info3, ref->info8, driver_name);
COMPARE_STRING(tctx, cur->info3, ref->info8, architecture);
COMPARE_STRING(tctx, cur->info3, ref->info8, driver_path);
COMPARE_STRING(tctx, cur->info3, ref->info8, data_file);
COMPARE_STRING(tctx, cur->info3, ref->info8, config_file);
COMPARE_STRING(tctx, cur->info3, ref->info8, help_file);
COMPARE_STRING_ARRAY(tctx, cur->info3, ref->info8, dependent_files);
COMPARE_STRING(tctx, cur->info3, ref->info8, monitor_name);
COMPARE_STRING(tctx, cur->info3, ref->info8, default_datatype);
break;
case 4:
COMPARE_UINT32(tctx, cur->info4, ref->info8, version);
COMPARE_STRING(tctx, cur->info4, ref->info8, driver_name);
COMPARE_STRING(tctx, cur->info4, ref->info8, architecture);
COMPARE_STRING(tctx, cur->info4, ref->info8, driver_path);
COMPARE_STRING(tctx, cur->info4, ref->info8, data_file);
COMPARE_STRING(tctx, cur->info4, ref->info8, config_file);
COMPARE_STRING(tctx, cur->info4, ref->info8, help_file);
COMPARE_STRING_ARRAY(tctx, cur->info4, ref->info8, dependent_files);
COMPARE_STRING(tctx, cur->info4, ref->info8, monitor_name);
COMPARE_STRING(tctx, cur->info4, ref->info8, default_datatype);
COMPARE_STRING_ARRAY(tctx, cur->info4, ref->info8, previous_names);
break;
case 5:
COMPARE_UINT32(tctx, cur->info5, ref->info8, version);
COMPARE_STRING(tctx, cur->info5, ref->info8, driver_name);
COMPARE_STRING(tctx, cur->info5, ref->info8, architecture);
COMPARE_STRING(tctx, cur->info5, ref->info8, driver_path);
COMPARE_STRING(tctx, cur->info5, ref->info8, data_file);
COMPARE_STRING(tctx, cur->info5, ref->info8, config_file);
/*COMPARE_UINT32(tctx, cur->info5, ref->info8, driver_attributes);*/
/*COMPARE_UINT32(tctx, cur->info5, ref->info8, config_version);*/
/*TODO: ! COMPARE_UINT32(tctx, cur->info5, ref->info8, driver_version); */
break;
case 6:
COMPARE_UINT32(tctx, cur->info6, ref->info8, version);
COMPARE_STRING(tctx, cur->info6, ref->info8, driver_name);
COMPARE_STRING(tctx, cur->info6, ref->info8, architecture);
COMPARE_STRING(tctx, cur->info6, ref->info8, driver_path);
COMPARE_STRING(tctx, cur->info6, ref->info8, data_file);
COMPARE_STRING(tctx, cur->info6, ref->info8, config_file);
COMPARE_STRING(tctx, cur->info6, ref->info8, help_file);
COMPARE_STRING_ARRAY(tctx, cur->info6, ref->info8, dependent_files);
COMPARE_STRING(tctx, cur->info6, ref->info8, monitor_name);
COMPARE_STRING(tctx, cur->info6, ref->info8, default_datatype);
COMPARE_STRING_ARRAY(tctx, cur->info6, ref->info8, previous_names);
COMPARE_NTTIME(tctx, cur->info6, ref->info8, driver_date);
COMPARE_UINT64(tctx, cur->info6, ref->info8, driver_version);
COMPARE_STRING(tctx, cur->info6, ref->info8, manufacturer_name);
COMPARE_STRING(tctx, cur->info6, ref->info8, manufacturer_url);
COMPARE_STRING(tctx, cur->info6, ref->info8, hardware_id);
COMPARE_STRING(tctx, cur->info6, ref->info8, provider);
break;
case 8:
/* level 8 is our reference, and it makes no sense to compare it to itself */
break;
}
}
}
return true;
}
static bool test_EnumMonitors(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct test_spoolss_context *ctx)
{
NTSTATUS status;
struct spoolss_EnumMonitors r;
uint16_t levels[] = { 1, 2 };
int i, j;
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
DATA_BLOB blob;
uint32_t needed;
uint32_t count;
union spoolss_MonitorInfo *info;
r.in.servername = "";
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumMonitors level %u\n", r.in.level);
status = dcerpc_spoolss_EnumMonitors_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumMonitors failed");
if (W_ERROR_IS_OK(r.out.result)) {
/* TODO: do some more checks here */
continue;
}
torture_assert_werr_equal(tctx, r.out.result, WERR_INSUFFICIENT_BUFFER,
"EnumMonitors failed");
blob = data_blob_talloc(ctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumMonitors_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumMonitors failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumMonitors failed");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumMonitors, info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
ctx->monitor_count[level] = count;
ctx->monitors[level] = info;
}
for (i=1;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
int old_level = levels[i-1];
torture_assert_int_equal(tctx, ctx->monitor_count[level], ctx->monitor_count[old_level],
"EnumMonitors invalid value");
}
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
for (j=0;j<ctx->monitor_count[level];j++) {
union spoolss_MonitorInfo *cur = &ctx->monitors[level][j];
union spoolss_MonitorInfo *ref = &ctx->monitors[2][j];
switch (level) {
case 1:
COMPARE_STRING(tctx, cur->info1, ref->info2, monitor_name);
break;
case 2:
/* level 2 is our reference, and it makes no sense to compare it to itself */
break;
}
}
}
return true;
}
static bool test_EnumPrintProcessors(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct test_spoolss_context *ctx,
const char *environment)
{
NTSTATUS status;
struct spoolss_EnumPrintProcessors r;
uint16_t levels[] = { 1 };
int i, j;
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
DATA_BLOB blob;
uint32_t needed;
uint32_t count;
union spoolss_PrintProcessorInfo *info;
r.in.servername = "";
r.in.environment = environment;
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumPrintProcessors level %u\n", r.in.level);
status = dcerpc_spoolss_EnumPrintProcessors_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumPrintProcessors failed");
if (W_ERROR_IS_OK(r.out.result)) {
/* TODO: do some more checks here */
continue;
}
torture_assert_werr_equal(tctx, r.out.result, WERR_INSUFFICIENT_BUFFER,
"EnumPrintProcessors unexpected return code");
blob = data_blob_talloc(ctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumPrintProcessors_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumPrintProcessors failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumPrintProcessors failed");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumPrintProcessors, info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
ctx->print_processor_count[level] = count;
ctx->print_processors[level] = info;
}
for (i=1;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
int old_level = levels[i-1];
torture_assert_int_equal(tctx, ctx->print_processor_count[level], ctx->print_processor_count[old_level],
"EnumPrintProcessors failed");
}
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
for (j=0;j<ctx->print_processor_count[level];j++) {
#if 0
union spoolss_PrintProcessorInfo *cur = &ctx->print_processors[level][j];
union spoolss_PrintProcessorInfo *ref = &ctx->print_processors[1][j];
#endif
switch (level) {
case 1:
/* level 1 is our reference, and it makes no sense to compare it to itself */
break;
}
}
}
return true;
}
static bool test_EnumPrintProcDataTypes(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct test_spoolss_context *ctx)
{
NTSTATUS status;
struct spoolss_EnumPrintProcDataTypes r;
uint16_t levels[] = { 1 };
int i;
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
DATA_BLOB blob;
uint32_t needed;
uint32_t count;
union spoolss_PrintProcDataTypesInfo *info;
r.in.servername = "";
r.in.print_processor_name = "winprint";
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumPrintProcDataTypes level %u\n", r.in.level);
status = dcerpc_spoolss_EnumPrintProcDataTypes_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumPrintProcDataType failed");
if (W_ERROR_IS_OK(r.out.result)) {
/* TODO: do some more checks here */
continue;
}
torture_assert_werr_equal(tctx, r.out.result, WERR_INSUFFICIENT_BUFFER,
"EnumPrintProcDataTypes unexpected return code");
blob = data_blob_talloc(ctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumPrintProcDataTypes_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumPrintProcDataTypes failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumPrintProcDataTypes failed");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumPrintProcDataTypes, info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
}
return true;
}
static bool test_EnumPrinters(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct test_spoolss_context *ctx)
{
struct spoolss_EnumPrinters r;
NTSTATUS status;
uint16_t levels[] = { 0, 1, 2, 4, 5 };
int i, j;
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
DATA_BLOB blob;
uint32_t needed;
uint32_t count;
union spoolss_PrinterInfo *info;
r.in.flags = PRINTER_ENUM_LOCAL;
r.in.server = "";
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumPrinters level %u\n", r.in.level);
status = dcerpc_spoolss_EnumPrinters_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumPrinters failed");
if (W_ERROR_IS_OK(r.out.result)) {
/* TODO: do some more checks here */
continue;
}
torture_assert_werr_equal(tctx, r.out.result, WERR_INSUFFICIENT_BUFFER,
"EnumPrinters unexpected return code");
blob = data_blob_talloc(ctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumPrinters_r(b, ctx, &r);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EnumPrinters failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumPrinters failed");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumPrinters, info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
ctx->printer_count[level] = count;
ctx->printers[level] = info;
}
for (i=1;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
int old_level = levels[i-1];
torture_assert_int_equal(tctx, ctx->printer_count[level], ctx->printer_count[old_level],
"EnumPrinters invalid value");
}
for (i=0;i<ARRAY_SIZE(levels);i++) {
int level = levels[i];
for (j=0;j<ctx->printer_count[level];j++) {
union spoolss_PrinterInfo *cur = &ctx->printers[level][j];
union spoolss_PrinterInfo *ref = &ctx->printers[2][j];
switch (level) {
case 0:
COMPARE_STRING(tctx, cur->info0, ref->info2, printername);
COMPARE_STRING(tctx, cur->info0, ref->info2, servername);
COMPARE_UINT32(tctx, cur->info0, ref->info2, cjobs);
/*COMPARE_UINT32(tctx, cur->info0, ref->info2, total_jobs);
COMPARE_UINT32(tctx, cur->info0, ref->info2, total_bytes);
COMPARE_SPOOLSS_TIME(cur->info0, ref->info2, spoolss_Time time);
COMPARE_UINT32(tctx, cur->info0, ref->info2, global_counter);
COMPARE_UINT32(tctx, cur->info0, ref->info2, total_pages);
COMPARE_UINT32(tctx, cur->info0, ref->info2, version);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown10);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown11);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown12);
COMPARE_UINT32(tctx, cur->info0, ref->info2, session_counter);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown14);
COMPARE_UINT32(tctx, cur->info0, ref->info2, printer_errors);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown16);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown17);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown18);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown19);
COMPARE_UINT32(tctx, cur->info0, ref->info2, change_id);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown21);*/
COMPARE_UINT32(tctx, cur->info0, ref->info2, status);
/*COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown23);
COMPARE_UINT32(tctx, cur->info0, ref->info2, c_setprinter);
COMPARE_UINT16(cur->info0, ref->info2, unknown25);
COMPARE_UINT16(cur->info0, ref->info2, unknown26);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown27);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown28);
COMPARE_UINT32(tctx, cur->info0, ref->info2, unknown29);*/
break;
case 1:
/*COMPARE_UINT32(tctx, cur->info1, ref->info2, flags);*/
/*COMPARE_STRING(tctx, cur->info1, ref->info2, name);*/
/*COMPARE_STRING(tctx, cur->info1, ref->info2, description);*/
COMPARE_STRING(tctx, cur->info1, ref->info2, comment);
break;
case 2:
/* level 2 is our reference, and it makes no sense to compare it to itself */
break;
case 4:
COMPARE_STRING(tctx, cur->info4, ref->info2, printername);
COMPARE_STRING(tctx, cur->info4, ref->info2, servername);
COMPARE_UINT32(tctx, cur->info4, ref->info2, attributes);
break;
case 5:
COMPARE_STRING(tctx, cur->info5, ref->info2, printername);
COMPARE_STRING(tctx, cur->info5, ref->info2, portname);
COMPARE_UINT32(tctx, cur->info5, ref->info2, attributes);
/*COMPARE_UINT32(tctx, cur->info5, ref->info2, device_not_selected_timeout);
COMPARE_UINT32(tctx, cur->info5, ref->info2, transmission_retry_timeout);*/
break;
}
}
}
/* TODO:
* - verify that the port of a printer was in the list returned by EnumPorts
*/
return true;
}
static bool test_GetPrinterDriver2(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *driver_name,
const char *environment);
bool test_GetPrinter_level(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t level,
union spoolss_PrinterInfo *info)
{
struct spoolss_GetPrinter r;
uint32_t needed;
r.in.handle = handle;
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
torture_comment(tctx, "Testing GetPrinter level %u\n", r.in.level);
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_GetPrinter_r(b, tctx, &r),
"GetPrinter failed");
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_GetPrinter_r(b, tctx, &r),
"GetPrinter failed");
}
torture_assert_werr_ok(tctx, r.out.result, "GetPrinter failed");
CHECK_NEEDED_SIZE_LEVEL(spoolss_PrinterInfo, r.out.info, r.in.level, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
if (info && r.out.info) {
*info = *r.out.info;
}
return true;
}
static bool test_GetPrinter(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *environment)
{
uint32_t levels[] = {0, 1, 2, 3, 4, 5, 6, 7, 8};
int i;
for (i=0;i<ARRAY_SIZE(levels);i++) {
union spoolss_PrinterInfo info;
ZERO_STRUCT(info);
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, levels[i], &info),
"failed to call GetPrinter");
if ((levels[i] == 2) && info.info2.drivername && strlen(info.info2.drivername)) {
torture_assert(tctx,
test_GetPrinterDriver2(tctx, b, handle, info.info2.drivername, environment),
"failed to call test_GetPrinterDriver2");
}
}
return true;
}
static bool test_SetPrinter(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
struct spoolss_SetPrinterInfoCtr *info_ctr,
struct spoolss_DevmodeContainer *devmode_ctr,
struct sec_desc_buf *secdesc_ctr,
enum spoolss_PrinterControl command)
{
struct spoolss_SetPrinter r;
r.in.handle = handle;
r.in.info_ctr = info_ctr;
r.in.devmode_ctr = devmode_ctr;
r.in.secdesc_ctr = secdesc_ctr;
r.in.command = command;
torture_comment(tctx, "Testing SetPrinter level %d\n", r.in.info_ctr->level);
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_SetPrinter_r(b, tctx, &r),
"failed to call SetPrinter");
torture_assert_werr_ok(tctx, r.out.result,
"failed to call SetPrinter");
return true;
}
static bool test_SetPrinter_errors(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
struct spoolss_SetPrinter r;
uint16_t levels[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9};
int i;
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
info_ctr.level = 0;
info_ctr.info.info0 = NULL;
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
r.in.handle = handle;
r.in.info_ctr = &info_ctr;
r.in.devmode_ctr = &devmode_ctr;
r.in.secdesc_ctr = &secdesc_ctr;
r.in.command = 0;
torture_comment(tctx, "Testing SetPrinter all zero\n");
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_SetPrinter_r(b, tctx, &r),
"failed to call SetPrinter");
torture_assert_werr_equal(tctx, r.out.result, WERR_INVALID_PARAM,
"failed to call SetPrinter");
again:
for (i=0; i < ARRAY_SIZE(levels); i++) {
struct spoolss_SetPrinterInfo0 info0;
struct spoolss_SetPrinterInfo1 info1;
struct spoolss_SetPrinterInfo2 info2;
struct spoolss_SetPrinterInfo3 info3;
struct spoolss_SetPrinterInfo4 info4;
struct spoolss_SetPrinterInfo5 info5;
struct spoolss_SetPrinterInfo6 info6;
struct spoolss_SetPrinterInfo7 info7;
struct spoolss_SetPrinterInfo8 info8;
struct spoolss_SetPrinterInfo9 info9;
info_ctr.level = levels[i];
switch (levels[i]) {
case 0:
ZERO_STRUCT(info0);
info_ctr.info.info0 = &info0;
break;
case 1:
ZERO_STRUCT(info1);
info_ctr.info.info1 = &info1;
break;
case 2:
ZERO_STRUCT(info2);
info_ctr.info.info2 = &info2;
break;
case 3:
ZERO_STRUCT(info3);
info_ctr.info.info3 = &info3;
break;
case 4:
ZERO_STRUCT(info4);
info_ctr.info.info4 = &info4;
break;
case 5:
ZERO_STRUCT(info5);
info_ctr.info.info5 = &info5;
break;
case 6:
ZERO_STRUCT(info6);
info_ctr.info.info6 = &info6;
break;
case 7:
ZERO_STRUCT(info7);
info_ctr.info.info7 = &info7;
break;
case 8:
ZERO_STRUCT(info8);
info_ctr.info.info8 = &info8;
break;
case 9:
ZERO_STRUCT(info9);
info_ctr.info.info9 = &info9;
break;
}
torture_comment(tctx, "Testing SetPrinter level %d, command %d\n",
info_ctr.level, r.in.command);
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_SetPrinter_r(b, tctx, &r),
"failed to call SetPrinter");
switch (r.in.command) {
case SPOOLSS_PRINTER_CONTROL_UNPAUSE: /* 0 */
/* is ignored for all levels other then 0 */
if (info_ctr.level > 0) {
/* ignored then */
break;
}
case SPOOLSS_PRINTER_CONTROL_PAUSE: /* 1 */
case SPOOLSS_PRINTER_CONTROL_RESUME: /* 2 */
case SPOOLSS_PRINTER_CONTROL_PURGE: /* 3 */
if (info_ctr.level > 0) {
/* is invalid for all levels other then 0 */
torture_assert_werr_equal(tctx, r.out.result, WERR_INVALID_PRINTER_COMMAND,
"unexpected error code returned");
continue;
} else {
torture_assert_werr_ok(tctx, r.out.result,
"failed to call SetPrinter with non 0 command");
continue;
}
break;
case SPOOLSS_PRINTER_CONTROL_SET_STATUS: /* 4 */
/* FIXME: gd needs further investigation */
default:
torture_assert_werr_equal(tctx, r.out.result, WERR_INVALID_PRINTER_COMMAND,
"unexpected error code returned");
continue;
}
switch (info_ctr.level) {
case 1:
torture_assert_werr_equal(tctx, r.out.result, WERR_UNKNOWN_LEVEL,
"unexpected error code returned");
break;
case 2:
torture_assert_werr_equal(tctx, r.out.result, WERR_UNKNOWN_PRINTER_DRIVER,
"unexpected error code returned");
break;
case 3:
case 4:
case 5:
case 7:
torture_assert_werr_equal(tctx, r.out.result, WERR_INVALID_PARAM,
"unexpected error code returned");
break;
case 9:
torture_assert_werr_equal(tctx, r.out.result, WERR_NOT_SUPPORTED,
"unexpected error code returned");
break;
default:
torture_assert_werr_ok(tctx, r.out.result,
"failed to call SetPrinter");
break;
}
}
if (r.in.command < 5) {
r.in.command++;
goto again;
}
return true;
}
static void clear_info2(struct spoolss_SetPrinterInfoCtr *r)
{
if ((r->level == 2) && (r->info.info2)) {
r->info.info2->secdesc_ptr = 0;
r->info.info2->devmode_ptr = 0;
}
}
static bool test_PrinterInfo(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
NTSTATUS status;
struct spoolss_SetPrinter s;
struct spoolss_GetPrinter q;
struct spoolss_GetPrinter q0;
struct spoolss_SetPrinterInfoCtr info_ctr;
union spoolss_PrinterInfo info;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
uint32_t needed;
bool ret = true;
int i;
uint32_t status_list[] = {
/* these do not stick
PRINTER_STATUS_PAUSED,
PRINTER_STATUS_ERROR,
PRINTER_STATUS_PENDING_DELETION, */
PRINTER_STATUS_PAPER_JAM,
PRINTER_STATUS_PAPER_OUT,
PRINTER_STATUS_MANUAL_FEED,
PRINTER_STATUS_PAPER_PROBLEM,
PRINTER_STATUS_OFFLINE,
PRINTER_STATUS_IO_ACTIVE,
PRINTER_STATUS_BUSY,
PRINTER_STATUS_PRINTING,
PRINTER_STATUS_OUTPUT_BIN_FULL,
PRINTER_STATUS_NOT_AVAILABLE,
PRINTER_STATUS_WAITING,
PRINTER_STATUS_PROCESSING,
PRINTER_STATUS_INITIALIZING,
PRINTER_STATUS_WARMING_UP,
PRINTER_STATUS_TONER_LOW,
PRINTER_STATUS_NO_TONER,
PRINTER_STATUS_PAGE_PUNT,
PRINTER_STATUS_USER_INTERVENTION,
PRINTER_STATUS_OUT_OF_MEMORY,
PRINTER_STATUS_DOOR_OPEN,
PRINTER_STATUS_SERVER_UNKNOWN,
PRINTER_STATUS_POWER_SAVE,
/* these do not stick
0x02000000,
0x04000000,
0x08000000,
0x10000000,
0x20000000,
0x40000000,
0x80000000 */
};
uint32_t default_attribute = PRINTER_ATTRIBUTE_LOCAL;
uint32_t attribute_list[] = {
PRINTER_ATTRIBUTE_QUEUED,
/* fails with WERR_INVALID_DATATYPE:
PRINTER_ATTRIBUTE_DIRECT, */
/* does not stick
PRINTER_ATTRIBUTE_DEFAULT, */
PRINTER_ATTRIBUTE_SHARED,
/* does not stick
PRINTER_ATTRIBUTE_NETWORK, */
PRINTER_ATTRIBUTE_HIDDEN,
PRINTER_ATTRIBUTE_LOCAL,
PRINTER_ATTRIBUTE_ENABLE_DEVQ,
PRINTER_ATTRIBUTE_KEEPPRINTEDJOBS,
PRINTER_ATTRIBUTE_DO_COMPLETE_FIRST,
PRINTER_ATTRIBUTE_WORK_OFFLINE,
/* does not stick
PRINTER_ATTRIBUTE_ENABLE_BIDI, */
/* fails with WERR_INVALID_DATATYPE:
PRINTER_ATTRIBUTE_RAW_ONLY, */
/* these do not stick
PRINTER_ATTRIBUTE_PUBLISHED,
PRINTER_ATTRIBUTE_FAX,
PRINTER_ATTRIBUTE_TS,
0x00010000,
0x00020000,
0x00040000,
0x00080000,
0x00100000,
0x00200000,
0x00400000,
0x00800000,
0x01000000,
0x02000000,
0x04000000,
0x08000000,
0x10000000,
0x20000000,
0x40000000,
0x80000000 */
};
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
s.in.handle = handle;
s.in.command = 0;
s.in.info_ctr = &info_ctr;
s.in.devmode_ctr = &devmode_ctr;
s.in.secdesc_ctr = &secdesc_ctr;
q.in.handle = handle;
q.out.info = &info;
q0 = q;
#define TESTGETCALL(call, r) \
r.in.buffer = NULL; \
r.in.offered = 0;\
r.out.needed = &needed; \
status = dcerpc_spoolss_ ##call## _r(b, tctx, &r); \
if (!NT_STATUS_IS_OK(status)) { \
torture_comment(tctx, #call " level %u failed - %s (%s)\n", \
r.in.level, nt_errstr(status), __location__); \
ret = false; \
break; \
}\
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {\
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed); \
data_blob_clear(&blob); \
r.in.buffer = &blob; \
r.in.offered = needed; \
}\
status = dcerpc_spoolss_ ##call## _r(b, tctx, &r); \
if (!NT_STATUS_IS_OK(status)) { \
torture_comment(tctx, #call " level %u failed - %s (%s)\n", \
r.in.level, nt_errstr(status), __location__); \
ret = false; \
break; \
} \
if (!W_ERROR_IS_OK(r.out.result)) { \
torture_comment(tctx, #call " level %u failed - %s (%s)\n", \
r.in.level, win_errstr(r.out.result), __location__); \
ret = false; \
break; \
}
#define TESTSETCALL_EXP(call, r, err) \
clear_info2(&info_ctr);\
status = dcerpc_spoolss_ ##call## _r(b, tctx, &r); \
if (!NT_STATUS_IS_OK(status)) { \
torture_comment(tctx, #call " level %u failed - %s (%s)\n", \
r.in.info_ctr->level, nt_errstr(status), __location__); \
ret = false; \
break; \
} \
if (!W_ERROR_IS_OK(err)) { \
if (!W_ERROR_EQUAL(err, r.out.result)) { \
torture_comment(tctx, #call " level %u failed - %s, expected %s (%s)\n", \
r.in.info_ctr->level, win_errstr(r.out.result), win_errstr(err), __location__); \
ret = false; \
} \
break; \
} \
if (!W_ERROR_IS_OK(r.out.result)) { \
torture_comment(tctx, #call " level %u failed - %s (%s)\n", \
r.in.info_ctr->level, win_errstr(r.out.result), __location__); \
ret = false; \
break; \
}
#define TESTSETCALL(call, r) \
TESTSETCALL_EXP(call, r, WERR_OK)
#define STRING_EQUAL(s1, s2, field) \
if ((s1 && !s2) || (s2 && !s1) || strcmp(s1, s2)) { \
torture_comment(tctx, "Failed to set %s to '%s' (%s)\n", \
#field, s2, __location__); \
ret = false; \
break; \
}
#define MEM_EQUAL(s1, s2, length, field) \
if ((s1 && !s2) || (s2 && !s1) || memcmp(s1, s2, length)) { \
torture_comment(tctx, "Failed to set %s to '%s' (%s)\n", \
#field, (const char *)s2, __location__); \
ret = false; \
break; \
}
#define INT_EQUAL(i1, i2, field) \
if (i1 != i2) { \
torture_comment(tctx, "Failed to set %s to 0x%llx - got 0x%llx (%s)\n", \
#field, (unsigned long long)i2, (unsigned long long)i1, __location__); \
ret = false; \
break; \
}
#define SD_EQUAL(sd1, sd2, field) \
if (!security_descriptor_equal(sd1, sd2)) { \
torture_comment(tctx, "Failed to set %s (%s)\n", \
#field, __location__); \
ret = false; \
break; \
}
#define TEST_PRINTERINFO_STRING_EXP_ERR(lvl1, field1, lvl2, field2, value, err) do { \
torture_comment(tctx, "field test %d/%s vs %d/%s\n", lvl1, #field1, lvl2, #field2); \
q.in.level = lvl1; \
TESTGETCALL(GetPrinter, q) \
info_ctr.level = lvl1; \
info_ctr.info.info ## lvl1 = (struct spoolss_SetPrinterInfo ## lvl1 *)(void *)&q.out.info->info ## lvl1; \
info_ctr.info.info ## lvl1->field1 = value;\
TESTSETCALL_EXP(SetPrinter, s, err) \
info_ctr.info.info ## lvl1->field1 = ""; \
TESTGETCALL(GetPrinter, q) \
info_ctr.info.info ## lvl1->field1 = value; \
STRING_EQUAL(info_ctr.info.info ## lvl1->field1, value, field1); \
q.in.level = lvl2; \
TESTGETCALL(GetPrinter, q) \
info_ctr.info.info ## lvl2 = (struct spoolss_SetPrinterInfo ## lvl2 *)(void *)&q.out.info->info ## lvl2; \
STRING_EQUAL(info_ctr.info.info ## lvl2->field2, value, field2); \
} while (0)
#define TEST_PRINTERINFO_STRING(lvl1, field1, lvl2, field2, value) do { \
TEST_PRINTERINFO_STRING_EXP_ERR(lvl1, field1, lvl2, field2, value, WERR_OK); \
} while (0);
#define TEST_PRINTERINFO_INT_EXP(lvl1, field1, lvl2, field2, value, exp_value) do { \
torture_comment(tctx, "field test %d/%s vs %d/%s\n", lvl1, #field1, lvl2, #field2); \
q.in.level = lvl1; \
TESTGETCALL(GetPrinter, q) \
info_ctr.level = lvl1; \
info_ctr.info.info ## lvl1 = (struct spoolss_SetPrinterInfo ## lvl1 *)(void *)&q.out.info->info ## lvl1; \
info_ctr.info.info ## lvl1->field1 = value; \
TESTSETCALL(SetPrinter, s) \
info_ctr.info.info ## lvl1->field1 = 0; \
TESTGETCALL(GetPrinter, q) \
info_ctr.info.info ## lvl1 = (struct spoolss_SetPrinterInfo ## lvl1 *)(void *)&q.out.info->info ## lvl1; \
INT_EQUAL(info_ctr.info.info ## lvl1->field1, exp_value, field1); \
q.in.level = lvl2; \
TESTGETCALL(GetPrinter, q) \
info_ctr.info.info ## lvl2 = (struct spoolss_SetPrinterInfo ## lvl2 *)(void *)&q.out.info->info ## lvl2; \
INT_EQUAL(info_ctr.info.info ## lvl2->field2, exp_value, field1); \
} while (0)
#define TEST_PRINTERINFO_INT(lvl1, field1, lvl2, field2, value) do { \
TEST_PRINTERINFO_INT_EXP(lvl1, field1, lvl2, field2, value, value); \
} while (0)
q0.in.level = 0;
do { TESTGETCALL(GetPrinter, q0) } while (0);
TEST_PRINTERINFO_STRING(2, comment, 1, comment, "xx2-1 comment");
TEST_PRINTERINFO_STRING(2, comment, 2, comment, "xx2-2 comment");
/* level 0 printername does not stick */
/* TEST_PRINTERINFO_STRING(2, printername, 0, printername, "xx2-0 printer"); */
TEST_PRINTERINFO_STRING(2, printername, 1, name, "xx2-1 printer");
TEST_PRINTERINFO_STRING(2, printername, 2, printername, "xx2-2 printer");
TEST_PRINTERINFO_STRING(2, printername, 4, printername, "xx2-4 printer");
TEST_PRINTERINFO_STRING(2, printername, 5, printername, "xx2-5 printer");
/* TEST_PRINTERINFO_STRING(4, printername, 0, printername, "xx4-0 printer"); */
TEST_PRINTERINFO_STRING(4, printername, 1, name, "xx4-1 printer");
TEST_PRINTERINFO_STRING(4, printername, 2, printername, "xx4-2 printer");
TEST_PRINTERINFO_STRING(4, printername, 4, printername, "xx4-4 printer");
TEST_PRINTERINFO_STRING(4, printername, 5, printername, "xx4-5 printer");
/* TEST_PRINTERINFO_STRING(5, printername, 0, printername, "xx5-0 printer"); */
TEST_PRINTERINFO_STRING(5, printername, 1, name, "xx5-1 printer");
TEST_PRINTERINFO_STRING(5, printername, 2, printername, "xx5-2 printer");
TEST_PRINTERINFO_STRING(5, printername, 4, printername, "xx5-4 printer");
TEST_PRINTERINFO_STRING(5, printername, 5, printername, "xx5-5 printer");
/* servername can be set but does not stick
TEST_PRINTERINFO_STRING(2, servername, 0, servername, "xx2-0 servername");
TEST_PRINTERINFO_STRING(2, servername, 2, servername, "xx2-2 servername");
TEST_PRINTERINFO_STRING(2, servername, 4, servername, "xx2-4 servername");
*/
/* passing an invalid port will result in WERR_UNKNOWN_PORT */
TEST_PRINTERINFO_STRING_EXP_ERR(2, portname, 2, portname, "xx2-2 portname", WERR_UNKNOWN_PORT);
TEST_PRINTERINFO_STRING_EXP_ERR(2, portname, 5, portname, "xx2-5 portname", WERR_UNKNOWN_PORT);
TEST_PRINTERINFO_STRING_EXP_ERR(5, portname, 2, portname, "xx5-2 portname", WERR_UNKNOWN_PORT);
TEST_PRINTERINFO_STRING_EXP_ERR(5, portname, 5, portname, "xx5-5 portname", WERR_UNKNOWN_PORT);
TEST_PRINTERINFO_STRING(2, sharename, 2, sharename, "xx2-2 sharename");
/* passing an invalid driver will result in WERR_UNKNOWN_PRINTER_DRIVER */
TEST_PRINTERINFO_STRING_EXP_ERR(2, drivername, 2, drivername, "xx2-2 drivername", WERR_UNKNOWN_PRINTER_DRIVER);
TEST_PRINTERINFO_STRING(2, location, 2, location, "xx2-2 location");
/* passing an invalid sepfile will result in WERR_INVALID_SEPARATOR_FILE */
TEST_PRINTERINFO_STRING_EXP_ERR(2, sepfile, 2, sepfile, "xx2-2 sepfile", WERR_INVALID_SEPARATOR_FILE);
/* passing an invalid printprocessor will result in WERR_UNKNOWN_PRINTPROCESSOR */
TEST_PRINTERINFO_STRING_EXP_ERR(2, printprocessor, 2, printprocessor, "xx2-2 printprocessor", WERR_UNKNOWN_PRINTPROCESSOR);
TEST_PRINTERINFO_STRING(2, datatype, 2, datatype, "xx2-2 datatype");
TEST_PRINTERINFO_STRING(2, parameters, 2, parameters, "xx2-2 parameters");
for (i=0; i < ARRAY_SIZE(attribute_list); i++) {
/* TEST_PRINTERINFO_INT_EXP(2, attributes, 1, flags,
attribute_list[i],
(attribute_list[i] | default_attribute)
); */
TEST_PRINTERINFO_INT_EXP(2, attributes, 2, attributes,
attribute_list[i],
(attribute_list[i] | default_attribute)
);
TEST_PRINTERINFO_INT_EXP(2, attributes, 4, attributes,
attribute_list[i],
(attribute_list[i] | default_attribute)
);
TEST_PRINTERINFO_INT_EXP(2, attributes, 5, attributes,
attribute_list[i],
(attribute_list[i] | default_attribute)
);
/* TEST_PRINTERINFO_INT_EXP(4, attributes, 1, flags,
attribute_list[i],
(attribute_list[i] | default_attribute)
); */
TEST_PRINTERINFO_INT_EXP(4, attributes, 2, attributes,
attribute_list[i],
(attribute_list[i] | default_attribute)
);
TEST_PRINTERINFO_INT_EXP(4, attributes, 4, attributes,
attribute_list[i],
(attribute_list[i] | default_attribute)
);
TEST_PRINTERINFO_INT_EXP(4, attributes, 5, attributes,
attribute_list[i],
(attribute_list[i] | default_attribute)
);
/* TEST_PRINTERINFO_INT_EXP(5, attributes, 1, flags,
attribute_list[i],
(attribute_list[i] | default_attribute)
); */
TEST_PRINTERINFO_INT_EXP(5, attributes, 2, attributes,
attribute_list[i],
(attribute_list[i] | default_attribute)
);
TEST_PRINTERINFO_INT_EXP(5, attributes, 4, attributes,
attribute_list[i],
(attribute_list[i] | default_attribute)
);
TEST_PRINTERINFO_INT_EXP(5, attributes, 5, attributes,
attribute_list[i],
(attribute_list[i] | default_attribute)
);
}
for (i=0; i < ARRAY_SIZE(status_list); i++) {
/* level 2 sets do not stick
TEST_PRINTERINFO_INT(2, status, 0, status, status_list[i]);
TEST_PRINTERINFO_INT(2, status, 2, status, status_list[i]);
TEST_PRINTERINFO_INT(2, status, 6, status, status_list[i]); */
TEST_PRINTERINFO_INT(6, status, 0, status, status_list[i]);
TEST_PRINTERINFO_INT(6, status, 2, status, status_list[i]);
TEST_PRINTERINFO_INT(6, status, 6, status, status_list[i]);
}
/* priorities need to be between 0 and 99
passing an invalid priority will result in WERR_INVALID_PRIORITY */
TEST_PRINTERINFO_INT(2, priority, 2, priority, 0);
TEST_PRINTERINFO_INT(2, priority, 2, priority, 1);
TEST_PRINTERINFO_INT(2, priority, 2, priority, 99);
/* TEST_PRINTERINFO_INT(2, priority, 2, priority, 100); */
TEST_PRINTERINFO_INT(2, defaultpriority,2, defaultpriority, 0);
TEST_PRINTERINFO_INT(2, defaultpriority,2, defaultpriority, 1);
TEST_PRINTERINFO_INT(2, defaultpriority,2, defaultpriority, 99);
/* TEST_PRINTERINFO_INT(2, defaultpriority,2, defaultpriority, 100); */
TEST_PRINTERINFO_INT(2, starttime, 2, starttime, __LINE__);
TEST_PRINTERINFO_INT(2, untiltime, 2, untiltime, __LINE__);
/* does not stick
TEST_PRINTERINFO_INT(2, cjobs, 2, cjobs, __LINE__);
TEST_PRINTERINFO_INT(2, averageppm, 2, averageppm, __LINE__); */
/* does not stick
TEST_PRINTERINFO_INT(5, device_not_selected_timeout, 5, device_not_selected_timeout, __LINE__);
TEST_PRINTERINFO_INT(5, transmission_retry_timeout, 5, transmission_retry_timeout, __LINE__); */
/* FIXME: gd also test devmode and secdesc behavior */
{
/* verify composition of level 1 description field */
const char *description;
const char *tmp;
q0.in.level = 1;
do { TESTGETCALL(GetPrinter, q0) } while (0);
description = talloc_strdup(tctx, q0.out.info->info1.description);
q0.in.level = 2;
do { TESTGETCALL(GetPrinter, q0) } while (0);
tmp = talloc_asprintf(tctx, "%s,%s,%s",
q0.out.info->info2.printername,
q0.out.info->info2.drivername,
q0.out.info->info2.location);
do { STRING_EQUAL(description, tmp, "description")} while (0);
}
return ret;
}
#define torture_assert_sid_equal(torture_ctx,got,expected,cmt)\
do { struct dom_sid *__got = (got), *__expected = (expected); \
if (!dom_sid_equal(__got, __expected)) { \
torture_result(torture_ctx, TORTURE_FAIL, \
__location__": "#got" was %s, expected %s: %s", \
dom_sid_string(torture_ctx, __got), dom_sid_string(torture_ctx, __expected), cmt); \
return false; \
} \
} while(0)
static bool test_security_descriptor_equal(struct torture_context *tctx,
const struct security_descriptor *sd1,
const struct security_descriptor *sd2)
{
if (sd1 == sd2) {
return true;
}
if (!sd1 || !sd2) {
torture_comment(tctx, "%s\n", __location__);
return false;
}
torture_assert_int_equal(tctx, sd1->revision, sd2->revision, "revision mismatch");
torture_assert_int_equal(tctx, sd1->type, sd2->type, "type mismatch");
torture_assert_sid_equal(tctx, sd1->owner_sid, sd2->owner_sid, "owner mismatch");
torture_assert_sid_equal(tctx, sd1->group_sid, sd2->group_sid, "group mismatch");
if (!security_acl_equal(sd1->sacl, sd2->sacl)) {
torture_comment(tctx, "%s: sacl mismatch\n", __location__);
NDR_PRINT_DEBUG(security_acl, sd1->sacl);
NDR_PRINT_DEBUG(security_acl, sd2->sacl);
return false;
}
if (!security_acl_equal(sd1->dacl, sd2->dacl)) {
torture_comment(tctx, "%s: dacl mismatch\n", __location__);
NDR_PRINT_DEBUG(security_acl, sd1->dacl);
NDR_PRINT_DEBUG(security_acl, sd2->dacl);
return false;
}
return true;
}
static bool test_sd_set_level(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t level,
struct security_descriptor *sd)
{
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
union spoolss_SetPrinterInfo sinfo;
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
switch (level) {
case 2: {
union spoolss_PrinterInfo info;
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
torture_assert(tctx, PrinterInfo_to_SetPrinterInfo(tctx, &info, 2, &sinfo), "");
info_ctr.level = 2;
info_ctr.info = sinfo;
break;
}
case 3: {
struct spoolss_SetPrinterInfo3 info3;
info3.sec_desc_ptr = 0;
info_ctr.level = 3;
info_ctr.info.info3 = &info3;
break;
}
default:
return false;
}
secdesc_ctr.sd = sd;
torture_assert(tctx,
test_SetPrinter(tctx, b, handle, &info_ctr, &devmode_ctr, &secdesc_ctr, 0), "");
return true;
}
static bool test_PrinterInfo_SDs(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
union spoolss_PrinterInfo info;
struct security_descriptor *sd1, *sd2;
int i;
/* just compare level 2 and level 3 */
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
sd1 = info.info2.secdesc;
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 3, &info), "");
sd2 = info.info3.secdesc;
torture_assert(tctx, test_security_descriptor_equal(tctx, sd1, sd2),
"SD level 2 != SD level 3");
/* query level 2, set level 2, query level 2 */
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
sd1 = info.info2.secdesc;
torture_assert(tctx, test_sd_set_level(tctx, b, handle, 2, sd1), "");
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
sd2 = info.info2.secdesc;
if (sd1->type & SEC_DESC_DACL_DEFAULTED) {
torture_comment(tctx, "removing SEC_DESC_DACL_DEFAULTED\n");
sd1->type &= ~SEC_DESC_DACL_DEFAULTED;
}
torture_assert(tctx, test_security_descriptor_equal(tctx, sd1, sd2),
"SD level 2 != SD level 2 after SD has been set via level 2");
/* query level 2, set level 3, query level 2 */
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
sd1 = info.info2.secdesc;
torture_assert(tctx, test_sd_set_level(tctx, b, handle, 3, sd1), "");
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
sd2 = info.info2.secdesc;
torture_assert(tctx, test_security_descriptor_equal(tctx, sd1, sd2),
"SD level 2 != SD level 2 after SD has been set via level 3");
/* set modified sd level 3, query level 2 */
for (i=0; i < 93; i++) {
struct security_ace a;
const char *sid_string = talloc_asprintf(tctx, "S-1-5-32-9999%i", i);
a.type = SEC_ACE_TYPE_ACCESS_ALLOWED;
a.flags = 0;
a.size = 0; /* autogenerated */
a.access_mask = 0;
a.trustee = *dom_sid_parse_talloc(tctx, sid_string);
torture_assert_ntstatus_ok(tctx, security_descriptor_dacl_add(sd1, &a), "");
}
torture_assert(tctx, test_sd_set_level(tctx, b, handle, 3, sd1), "");
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
sd2 = info.info2.secdesc;
if (sd1->type & SEC_DESC_DACL_DEFAULTED) {
torture_comment(tctx, "removing SEC_DESC_DACL_DEFAULTED\n");
sd1->type &= ~SEC_DESC_DACL_DEFAULTED;
}
torture_assert(tctx, test_security_descriptor_equal(tctx, sd1, sd2),
"modified SD level 2 != SD level 2 after SD has been set via level 3");
return true;
}
/*
* wrapper call that saves original sd, runs tests, and restores sd
*/
static bool test_PrinterInfo_SD(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
union spoolss_PrinterInfo info;
struct security_descriptor *sd;
bool ret = true;
torture_comment(tctx, "Testing Printer Security Descriptors\n");
/* save original sd */
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info),
"failed to get initial security descriptor");
sd = security_descriptor_copy(tctx, info.info2.secdesc);
/* run tests */
ret = test_PrinterInfo_SDs(tctx, b, handle);
/* restore original sd */
torture_assert(tctx, test_sd_set_level(tctx, b, handle, 3, sd),
"failed to restore initial security descriptor");
torture_comment(tctx, "Printer Security Descriptors test %s\n\n",
ret ? "succeeded" : "failed");
return ret;
}
static bool test_devmode_set_level(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t level,
struct spoolss_DeviceMode *devmode)
{
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
union spoolss_SetPrinterInfo sinfo;
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
switch (level) {
case 2: {
union spoolss_PrinterInfo info;
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
torture_assert(tctx, PrinterInfo_to_SetPrinterInfo(tctx, &info, 2, &sinfo), "");
info_ctr.level = 2;
info_ctr.info = sinfo;
break;
}
case 8: {
struct spoolss_SetPrinterInfo8 info8;
info8.devmode_ptr = 0;
info_ctr.level = 8;
info_ctr.info.info8 = &info8;
break;
}
default:
return false;
}
devmode_ctr.devmode = devmode;
torture_assert(tctx,
test_SetPrinter(tctx, b, handle, &info_ctr, &devmode_ctr, &secdesc_ctr, 0), "");
return true;
}
static bool test_devicemode_equal(struct torture_context *tctx,
const struct spoolss_DeviceMode *d1,
const struct spoolss_DeviceMode *d2)
{
if (d1 == d2) {
return true;
}
if (!d1 || !d2) {
torture_comment(tctx, "%s\n", __location__);
return false;
}
torture_assert_str_equal(tctx, d1->devicename, d2->devicename, "devicename mismatch");
torture_assert_int_equal(tctx, d1->specversion, d2->specversion, "specversion mismatch");
torture_assert_int_equal(tctx, d1->driverversion, d2->driverversion, "driverversion mismatch");
torture_assert_int_equal(tctx, d1->size, d2->size, "size mismatch");
torture_assert_int_equal(tctx, d1->__driverextra_length, d2->__driverextra_length, "__driverextra_length mismatch");
torture_assert_int_equal(tctx, d1->fields, d2->fields, "fields mismatch");
torture_assert_int_equal(tctx, d1->orientation, d2->orientation, "orientation mismatch");
torture_assert_int_equal(tctx, d1->papersize, d2->papersize, "papersize mismatch");
torture_assert_int_equal(tctx, d1->paperlength, d2->paperlength, "paperlength mismatch");
torture_assert_int_equal(tctx, d1->paperwidth, d2->paperwidth, "paperwidth mismatch");
torture_assert_int_equal(tctx, d1->scale, d2->scale, "scale mismatch");
torture_assert_int_equal(tctx, d1->copies, d2->copies, "copies mismatch");
torture_assert_int_equal(tctx, d1->defaultsource, d2->defaultsource, "defaultsource mismatch");
torture_assert_int_equal(tctx, d1->printquality, d2->printquality, "printquality mismatch");
torture_assert_int_equal(tctx, d1->color, d2->color, "color mismatch");
torture_assert_int_equal(tctx, d1->duplex, d2->duplex, "duplex mismatch");
torture_assert_int_equal(tctx, d1->yresolution, d2->yresolution, "yresolution mismatch");
torture_assert_int_equal(tctx, d1->ttoption, d2->ttoption, "ttoption mismatch");
torture_assert_int_equal(tctx, d1->collate, d2->collate, "collate mismatch");
torture_assert_str_equal(tctx, d1->formname, d2->formname, "formname mismatch");
torture_assert_int_equal(tctx, d1->logpixels, d2->logpixels, "logpixels mismatch");
torture_assert_int_equal(tctx, d1->bitsperpel, d2->bitsperpel, "bitsperpel mismatch");
torture_assert_int_equal(tctx, d1->pelswidth, d2->pelswidth, "pelswidth mismatch");
torture_assert_int_equal(tctx, d1->pelsheight, d2->pelsheight, "pelsheight mismatch");
torture_assert_int_equal(tctx, d1->displayflags, d2->displayflags, "displayflags mismatch");
torture_assert_int_equal(tctx, d1->displayfrequency, d2->displayfrequency, "displayfrequency mismatch");
torture_assert_int_equal(tctx, d1->icmmethod, d2->icmmethod, "icmmethod mismatch");
torture_assert_int_equal(tctx, d1->icmintent, d2->icmintent, "icmintent mismatch");
torture_assert_int_equal(tctx, d1->mediatype, d2->mediatype, "mediatype mismatch");
torture_assert_int_equal(tctx, d1->dithertype, d2->dithertype, "dithertype mismatch");
torture_assert_int_equal(tctx, d1->reserved1, d2->reserved1, "reserved1 mismatch");
torture_assert_int_equal(tctx, d1->reserved2, d2->reserved2, "reserved2 mismatch");
torture_assert_int_equal(tctx, d1->panningwidth, d2->panningwidth, "panningwidth mismatch");
torture_assert_int_equal(tctx, d1->panningheight, d2->panningheight, "panningheight mismatch");
torture_assert_data_blob_equal(tctx, d1->driverextra_data, d2->driverextra_data, "driverextra_data mismatch");
return true;
}
static bool test_devicemode_full(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
struct spoolss_SetPrinter s;
struct spoolss_GetPrinter q;
struct spoolss_GetPrinter q0;
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_SetPrinterInfo8 info8;
union spoolss_PrinterInfo info;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
uint32_t needed;
bool ret = true;
NTSTATUS status;
#define TEST_DEVMODE_INT_EXP(lvl1, field1, lvl2, field2, value, exp_value) do { \
torture_comment(tctx, "field test %d/%s vs %d/%s\n", lvl1, #field1, lvl2, #field2); \
q.in.level = lvl1; \
TESTGETCALL(GetPrinter, q) \
info_ctr.level = lvl1; \
if (lvl1 == 2) {\
info_ctr.info.info ## lvl1 = (struct spoolss_SetPrinterInfo ## lvl1 *)(void *)&q.out.info->info ## lvl1; \
} else if (lvl1 == 8) {\
info_ctr.info.info ## lvl1 = &info8; \
}\
devmode_ctr.devmode = q.out.info->info ## lvl1.devmode; \
devmode_ctr.devmode->field1 = value; \
TESTSETCALL(SetPrinter, s) \
TESTGETCALL(GetPrinter, q) \
INT_EQUAL(q.out.info->info ## lvl1.devmode->field1, exp_value, field1); \
q.in.level = lvl2; \
TESTGETCALL(GetPrinter, q) \
INT_EQUAL(q.out.info->info ## lvl2.devmode->field2, exp_value, field1); \
} while (0)
#define TEST_DEVMODE_INT(lvl1, field1, lvl2, field2, value) do { \
TEST_DEVMODE_INT_EXP(lvl1, field1, lvl2, field2, value, value); \
} while (0)
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
ZERO_STRUCT(info8);
s.in.handle = handle;
s.in.command = 0;
s.in.info_ctr = &info_ctr;
s.in.devmode_ctr = &devmode_ctr;
s.in.secdesc_ctr = &secdesc_ctr;
q.in.handle = handle;
q.out.info = &info;
q0 = q;
#if 0
const char *devicename;/* [charset(UTF16)] */
enum spoolss_DeviceModeSpecVersion specversion;
uint16_t driverversion;
uint16_t size;
uint16_t __driverextra_length;/* [value(r->driverextra_data.length)] */
uint32_t fields;
#endif
TEST_DEVMODE_INT(8, orientation, 8, orientation, __LINE__);
TEST_DEVMODE_INT(8, papersize, 8, papersize, __LINE__);
TEST_DEVMODE_INT(8, paperlength, 8, paperlength, __LINE__);
TEST_DEVMODE_INT(8, paperwidth, 8, paperwidth, __LINE__);
TEST_DEVMODE_INT(8, scale, 8, scale, __LINE__);
TEST_DEVMODE_INT(8, copies, 8, copies, __LINE__);
TEST_DEVMODE_INT(8, defaultsource, 8, defaultsource, __LINE__);
TEST_DEVMODE_INT(8, printquality, 8, printquality, __LINE__);
TEST_DEVMODE_INT(8, color, 8, color, __LINE__);
TEST_DEVMODE_INT(8, duplex, 8, duplex, __LINE__);
TEST_DEVMODE_INT(8, yresolution, 8, yresolution, __LINE__);
TEST_DEVMODE_INT(8, ttoption, 8, ttoption, __LINE__);
TEST_DEVMODE_INT(8, collate, 8, collate, __LINE__);
#if 0
const char *formname;/* [charset(UTF16)] */
#endif
TEST_DEVMODE_INT(8, logpixels, 8, logpixels, __LINE__);
TEST_DEVMODE_INT(8, bitsperpel, 8, bitsperpel, __LINE__);
TEST_DEVMODE_INT(8, pelswidth, 8, pelswidth, __LINE__);
TEST_DEVMODE_INT(8, pelsheight, 8, pelsheight, __LINE__);
TEST_DEVMODE_INT(8, displayflags, 8, displayflags, __LINE__);
TEST_DEVMODE_INT(8, displayfrequency, 8, displayfrequency, __LINE__);
TEST_DEVMODE_INT(8, icmmethod, 8, icmmethod, __LINE__);
TEST_DEVMODE_INT(8, icmintent, 8, icmintent, __LINE__);
TEST_DEVMODE_INT(8, mediatype, 8, mediatype, __LINE__);
TEST_DEVMODE_INT(8, dithertype, 8, dithertype, __LINE__);
TEST_DEVMODE_INT(8, reserved1, 8, reserved1, __LINE__);
TEST_DEVMODE_INT(8, reserved2, 8, reserved2, __LINE__);
TEST_DEVMODE_INT(8, panningwidth, 8, panningwidth, __LINE__);
TEST_DEVMODE_INT(8, panningheight, 8, panningheight, __LINE__);
return ret;
}
static bool call_OpenPrinterEx(struct torture_context *tctx,
struct dcerpc_pipe *p,
const char *name,
struct spoolss_DeviceMode *devmode,
struct policy_handle *handle);
static bool test_ClosePrinter(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle);
static bool test_PrinterInfo_DevModes(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
const char *name)
{
union spoolss_PrinterInfo info;
struct spoolss_DeviceMode *devmode;
struct spoolss_DeviceMode *devmode2;
struct policy_handle handle_devmode;
struct dcerpc_binding_handle *b = p->binding_handle;
/* simply compare level8 and level2 devmode */
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 8, &info), "");
devmode = info.info8.devmode;
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
devmode2 = info.info2.devmode;
torture_assert(tctx, test_devicemode_equal(tctx, devmode, devmode2),
"DM level 8 != DM level 2");
/* set devicemode level 8 and see if it persists */
devmode->copies = 93;
devmode->formname = talloc_strdup(tctx, "Legal");
torture_assert(tctx, test_devmode_set_level(tctx, b, handle, 8, devmode), "");
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 8, &info), "");
devmode2 = info.info8.devmode;
torture_assert(tctx, test_devicemode_equal(tctx, devmode, devmode2),
"modified DM level 8 != DM level 8 after DM has been set via level 8");
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
devmode2 = info.info2.devmode;
torture_assert(tctx, test_devicemode_equal(tctx, devmode, devmode2),
"modified DM level 8 != DM level 2");
/* set devicemode level 2 and see if it persists */
devmode->copies = 39;
devmode->formname = talloc_strdup(tctx, "Executive");
torture_assert(tctx, test_devmode_set_level(tctx, b, handle, 2, devmode), "");
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 8, &info), "");
devmode2 = info.info8.devmode;
torture_assert(tctx, test_devicemode_equal(tctx, devmode, devmode2),
"modified DM level 8 != DM level 8 after DM has been set via level 2");
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info), "");
devmode2 = info.info2.devmode;
torture_assert(tctx, test_devicemode_equal(tctx, devmode, devmode2),
"modified DM level 8 != DM level 2");
/* check every single bit in public part of devicemode */
torture_assert(tctx, test_devicemode_full(tctx, b, handle),
"failed to set every single devicemode component");
/* change formname upon open and see if it persists in getprinter calls */
devmode->formname = talloc_strdup(tctx, "A4");
devmode->copies = 42;
torture_assert(tctx, call_OpenPrinterEx(tctx, p, name, devmode, &handle_devmode),
"failed to open printer handle");
torture_assert(tctx, test_GetPrinter_level(tctx, b, &handle_devmode, 8, &info), "");
devmode2 = info.info8.devmode;
if (strequal(devmode->devicename, devmode2->devicename)) {
torture_warning(tctx, "devicenames are the same\n");
} else {
torture_comment(tctx, "devicename passed in for open: %s\n", devmode->devicename);
torture_comment(tctx, "devicename after level 8 get: %s\n", devmode2->devicename);
}
if (strequal(devmode->formname, devmode2->formname)) {
torture_warning(tctx, "formname are the same\n");
} else {
torture_comment(tctx, "formname passed in for open: %s\n", devmode->formname);
torture_comment(tctx, "formname after level 8 get: %s\n", devmode2->formname);
}
if (devmode->copies == devmode2->copies) {
torture_warning(tctx, "copies are the same\n");
} else {
torture_comment(tctx, "copies passed in for open: %d\n", devmode->copies);
torture_comment(tctx, "copies after level 8 get: %d\n", devmode2->copies);
}
torture_assert(tctx, test_GetPrinter_level(tctx, b, &handle_devmode, 2, &info), "");
devmode2 = info.info2.devmode;
if (strequal(devmode->devicename, devmode2->devicename)) {
torture_warning(tctx, "devicenames are the same\n");
} else {
torture_comment(tctx, "devicename passed in for open: %s\n", devmode->devicename);
torture_comment(tctx, "devicename after level 2 get: %s\n", devmode2->devicename);
}
if (strequal(devmode->formname, devmode2->formname)) {
torture_warning(tctx, "formname is the same\n");
} else {
torture_comment(tctx, "formname passed in for open: %s\n", devmode->formname);
torture_comment(tctx, "formname after level 2 get: %s\n", devmode2->formname);
}
if (devmode->copies == devmode2->copies) {
torture_warning(tctx, "copies are the same\n");
} else {
torture_comment(tctx, "copies passed in for open: %d\n", devmode->copies);
torture_comment(tctx, "copies after level 2 get: %d\n", devmode2->copies);
}
test_ClosePrinter(tctx, b, &handle_devmode);
return true;
}
/*
* wrapper call that saves original devmode, runs tests, and restores devmode
*/
static bool test_PrinterInfo_DevMode(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
const char *name)
{
union spoolss_PrinterInfo info;
struct spoolss_DeviceMode *devmode;
bool ret = true;
struct dcerpc_binding_handle *b = p->binding_handle;
torture_comment(tctx, "Testing Printer Devicemodes\n");
/* save original devmode */
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 8, &info),
"failed to get initial global devicemode");
devmode = info.info8.devmode;
/* run tests */
ret = test_PrinterInfo_DevModes(tctx, p, handle, name);
/* restore original devmode */
torture_assert(tctx, test_devmode_set_level(tctx, b, handle, 8, devmode),
"failed to restore initial global device mode");
torture_comment(tctx, "Printer Devicemodes test %s\n\n",
ret ? "succeeded" : "failed");
return ret;
}
static bool test_ClosePrinter(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
NTSTATUS status;
struct spoolss_ClosePrinter r;
r.in.handle = handle;
r.out.handle = handle;
torture_comment(tctx, "Testing ClosePrinter\n");
status = dcerpc_spoolss_ClosePrinter_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "ClosePrinter failed");
torture_assert_werr_ok(tctx, r.out.result, "ClosePrinter failed");
return true;
}
static bool test_GetForm(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *form_name,
uint32_t level)
{
NTSTATUS status;
struct spoolss_GetForm r;
uint32_t needed;
r.in.handle = handle;
r.in.form_name = form_name;
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
torture_comment(tctx, "Testing GetForm level %d\n", r.in.level);
status = dcerpc_spoolss_GetForm_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "GetForm failed");
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_GetForm_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "GetForm failed");
torture_assert_werr_ok(tctx, r.out.result, "GetForm failed");
torture_assert(tctx, r.out.info, "No form info returned");
}
torture_assert_werr_ok(tctx, r.out.result, "GetForm failed");
CHECK_NEEDED_SIZE_LEVEL(spoolss_FormInfo, r.out.info, r.in.level, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
return true;
}
static bool test_EnumForms(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle, bool print_server)
{
NTSTATUS status;
struct spoolss_EnumForms r;
bool ret = true;
uint32_t needed;
uint32_t count;
uint32_t levels[] = { 1, 2 };
int i;
for (i=0; i<ARRAY_SIZE(levels); i++) {
union spoolss_FormInfo *info;
r.in.handle = handle;
r.in.level = levels[i];
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumForms level %d\n", levels[i]);
status = dcerpc_spoolss_EnumForms_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "EnumForms failed");
if ((r.in.level == 2) && (W_ERROR_EQUAL(r.out.result, WERR_UNKNOWN_LEVEL))) {
break;
}
if (print_server && W_ERROR_EQUAL(r.out.result, WERR_BADFID))
torture_fail(tctx, "EnumForms on the PrintServer isn't supported by test server (NT4)");
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
int j;
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumForms_r(b, tctx, &r);
torture_assert(tctx, info, "No forms returned");
for (j = 0; j < count; j++) {
if (!print_server)
ret &= test_GetForm(tctx, b, handle, info[j].info1.form_name, levels[i]);
}
}
torture_assert_ntstatus_ok(tctx, status, "EnumForms failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumForms failed");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumForms, info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
}
return true;
}
static bool test_DeleteForm(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *form_name)
{
NTSTATUS status;
struct spoolss_DeleteForm r;
r.in.handle = handle;
r.in.form_name = form_name;
status = dcerpc_spoolss_DeleteForm_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "DeleteForm failed");
torture_assert_werr_ok(tctx, r.out.result, "DeleteForm failed");
return true;
}
static bool test_AddForm(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle, bool print_server)
{
struct spoolss_AddForm r;
struct spoolss_AddFormInfo1 addform;
const char *form_name = "testform3";
NTSTATUS status;
bool ret = true;
r.in.handle = handle;
r.in.level = 1;
r.in.info.info1 = &addform;
addform.flags = SPOOLSS_FORM_USER;
addform.form_name = form_name;
addform.size.width = 50;
addform.size.height = 25;
addform.area.left = 5;
addform.area.top = 10;
addform.area.right = 45;
addform.area.bottom = 15;
status = dcerpc_spoolss_AddForm_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "AddForm failed");
torture_assert_werr_ok(tctx, r.out.result, "AddForm failed");
if (!print_server) ret &= test_GetForm(tctx, b, handle, form_name, 1);
{
struct spoolss_SetForm sf;
struct spoolss_AddFormInfo1 setform;
sf.in.handle = handle;
sf.in.form_name = form_name;
sf.in.level = 1;
sf.in.info.info1= &setform;
setform.flags = addform.flags;
setform.form_name = addform.form_name;
setform.size = addform.size;
setform.area = addform.area;
setform.size.width = 1234;
status = dcerpc_spoolss_SetForm_r(b, tctx, &sf);
torture_assert_ntstatus_ok(tctx, status, "SetForm failed");
torture_assert_werr_ok(tctx, sf.out.result, "SetForm failed");
}
if (!print_server) ret &= test_GetForm(tctx, b, handle, form_name, 1);
{
struct spoolss_EnumForms e;
union spoolss_FormInfo *info;
uint32_t needed;
uint32_t count;
bool found = false;
e.in.handle = handle;
e.in.level = 1;
e.in.buffer = NULL;
e.in.offered = 0;
e.out.needed = &needed;
e.out.count = &count;
e.out.info = &info;
torture_comment(tctx, "Testing EnumForms level 1\n");
status = dcerpc_spoolss_EnumForms_r(b, tctx, &e);
torture_assert_ntstatus_ok(tctx, status, "EnumForms failed");
if (print_server && W_ERROR_EQUAL(e.out.result, WERR_BADFID))
torture_fail(tctx, "EnumForms on the PrintServer isn't supported by test server (NT4)");
if (W_ERROR_EQUAL(e.out.result, WERR_INSUFFICIENT_BUFFER)) {
int j;
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
e.in.buffer = &blob;
e.in.offered = needed;
status = dcerpc_spoolss_EnumForms_r(b, tctx, &e);
torture_assert(tctx, info, "No forms returned");
for (j = 0; j < count; j++) {
if (strequal(form_name, info[j].info1.form_name)) {
found = true;
break;
}
}
}
torture_assert(tctx, found, "Newly added form not found in enum call");
}
if (!test_DeleteForm(tctx, b, handle, form_name)) {
ret = false;
}
return ret;
}
static bool test_EnumPorts_old(struct torture_context *tctx,
struct dcerpc_pipe *p)
{
NTSTATUS status;
struct spoolss_EnumPorts r;
uint32_t needed;
uint32_t count;
union spoolss_PortInfo *info;
struct dcerpc_binding_handle *b = p->binding_handle;
r.in.servername = talloc_asprintf(tctx, "\\\\%s",
dcerpc_server_name(p));
r.in.level = 2;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumPorts\n");
status = dcerpc_spoolss_EnumPorts_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "EnumPorts failed");
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumPorts_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "EnumPorts failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumPorts failed");
torture_assert(tctx, info, "No ports returned");
}
torture_assert_werr_ok(tctx, r.out.result, "EnumPorts failed");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumPorts, info, 2, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
return true;
}
static bool test_AddPort(struct torture_context *tctx,
struct dcerpc_pipe *p)
{
NTSTATUS status;
struct spoolss_AddPort r;
struct dcerpc_binding_handle *b = p->binding_handle;
r.in.server_name = talloc_asprintf(tctx, "\\\\%s",
dcerpc_server_name(p));
r.in.unknown = 0;
r.in.monitor_name = "foo";
torture_comment(tctx, "Testing AddPort\n");
status = dcerpc_spoolss_AddPort_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "AddPort failed");
/* win2k3 returns WERR_NOT_SUPPORTED */
#if 0
if (!W_ERROR_IS_OK(r.out.result)) {
printf("AddPort failed - %s\n", win_errstr(r.out.result));
return false;
}
#endif
return true;
}
static bool test_GetJob_args(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t job_id,
uint32_t level,
union spoolss_JobInfo *info_p)
{
NTSTATUS status;
struct spoolss_GetJob r;
union spoolss_JobInfo info;
uint32_t needed;
r.in.handle = handle;
r.in.job_id = job_id;
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.info = &info;
torture_comment(tctx, "Testing GetJob(%d), level %d\n", job_id, r.in.level);
status = dcerpc_spoolss_GetJob_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "GetJob failed");
if (level == 0) {
torture_assert_werr_equal(tctx, r.out.result, WERR_UNKNOWN_LEVEL, "Unexpected return code");
}
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_GetJob_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "GetJob failed");
torture_assert_werr_ok(tctx, r.out.result, "GetJob failed");
torture_assert(tctx, r.out.info, "No job info returned");
CHECK_NEEDED_SIZE_LEVEL(spoolss_JobInfo, r.out.info, r.in.level, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
}
if (info_p) {
*info_p = *r.out.info;
}
return true;
}
static bool test_GetJob(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t job_id)
{
uint32_t levels[] = {0, 1, 2 /* 3, 4 */};
uint32_t i;
for (i=0; i < ARRAY_SIZE(levels); i++) {
torture_assert(tctx,
test_GetJob_args(tctx, b, handle, job_id, levels[i], NULL),
"GetJob failed");
}
return true;
}
static bool test_SetJob(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle, uint32_t job_id,
enum spoolss_JobControl command)
{
NTSTATUS status;
struct spoolss_SetJob r;
r.in.handle = handle;
r.in.job_id = job_id;
r.in.ctr = NULL;
r.in.command = command;
switch (command) {
case SPOOLSS_JOB_CONTROL_PAUSE:
torture_comment(tctx, "Testing SetJob(%d) SPOOLSS_JOB_CONTROL_PAUSE\n", job_id);
break;
case SPOOLSS_JOB_CONTROL_RESUME:
torture_comment(tctx, "Testing SetJob(%d), SPOOLSS_JOB_CONTROL_RESUME\n", job_id);
break;
case SPOOLSS_JOB_CONTROL_CANCEL:
torture_comment(tctx, "Testing SetJob(%d), SPOOLSS_JOB_CONTROL_CANCEL\n", job_id);
break;
case SPOOLSS_JOB_CONTROL_RESTART:
torture_comment(tctx, "Testing SetJob(%d), SPOOLSS_JOB_CONTROL_RESTART\n", job_id);
break;
case SPOOLSS_JOB_CONTROL_DELETE:
torture_comment(tctx, "Testing SetJob(%d), SPOOLSS_JOB_CONTROL_DELETE\n", job_id);
break;
case SPOOLSS_JOB_CONTROL_SEND_TO_PRINTER:
torture_comment(tctx, "Testing SetJob(%d), SPOOLSS_JOB_CONTROL_SEND_TO_PRINTER\n", job_id);
break;
case SPOOLSS_JOB_CONTROL_LAST_PAGE_EJECTED:
torture_comment(tctx, "Testing SetJob(%d), SPOOLSS_JOB_CONTROL_LAST_PAGE_EJECTED\n", job_id);
break;
case SPOOLSS_JOB_CONTROL_RETAIN:
torture_comment(tctx, "Testing SetJob(%d), SPOOLSS_JOB_CONTROL_RETAIN\n", job_id);
break;
case SPOOLSS_JOB_CONTROL_RELEASE:
torture_comment(tctx, "Testing SetJob(%d), SPOOLSS_JOB_CONTROL_RELEASE\n", job_id);
break;
default:
torture_comment(tctx, "Testing SetJob(%d)\n", job_id);
break;
}
status = dcerpc_spoolss_SetJob_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "SetJob failed");
torture_assert_werr_ok(tctx, r.out.result, "SetJob failed");
return true;
}
static bool test_AddJob(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
NTSTATUS status;
struct spoolss_AddJob r;
uint32_t needed;
r.in.level = 0;
r.in.handle = handle;
r.in.offered = 0;
r.out.needed = &needed;
r.in.buffer = r.out.buffer = NULL;
torture_comment(tctx, "Testing AddJob\n");
status = dcerpc_spoolss_AddJob_r(b, tctx, &r);
torture_assert_werr_equal(tctx, r.out.result, WERR_UNKNOWN_LEVEL, "AddJob failed");
r.in.level = 1;
status = dcerpc_spoolss_AddJob_r(b, tctx, &r);
torture_assert_werr_equal(tctx, r.out.result, WERR_INVALID_PARAM, "AddJob failed");
return true;
}
static bool test_EnumJobs_args(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t level,
uint32_t *count_p,
union spoolss_JobInfo **info_p)
{
NTSTATUS status;
struct spoolss_EnumJobs r;
uint32_t needed;
uint32_t count;
union spoolss_JobInfo *info;
r.in.handle = handle;
r.in.firstjob = 0;
r.in.numjobs = 0xffffffff;
r.in.level = level;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumJobs level %d\n", level);
status = dcerpc_spoolss_EnumJobs_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "EnumJobs failed");
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumJobs_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "EnumJobs failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumJobs failed");
torture_assert(tctx, info, "No jobs returned");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumJobs, *r.out.info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
} else {
torture_assert_werr_ok(tctx, r.out.result, "EnumJobs failed");
}
if (count_p) {
*count_p = count;
}
if (info_p) {
*info_p = info;
}
return true;
}
static bool test_DoPrintTest_add_one_job(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t *job_id)
{
NTSTATUS status;
struct spoolss_StartDocPrinter s;
struct spoolss_DocumentInfo1 info1;
struct spoolss_StartPagePrinter sp;
struct spoolss_WritePrinter w;
struct spoolss_EndPagePrinter ep;
struct spoolss_EndDocPrinter e;
int i;
uint32_t num_written;
torture_comment(tctx, "Testing StartDocPrinter\n");
s.in.handle = handle;
s.in.level = 1;
s.in.info.info1 = &info1;
s.out.job_id = job_id;
info1.document_name = "TorturePrintJob";
info1.output_file = NULL;
info1.datatype = "RAW";
status = dcerpc_spoolss_StartDocPrinter_r(b, tctx, &s);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_StartDocPrinter failed");
torture_assert_werr_ok(tctx, s.out.result, "StartDocPrinter failed");
for (i=1; i < 4; i++) {
torture_comment(tctx, "Testing StartPagePrinter: Page[%d], JobId[%d]\n", i, *job_id);
sp.in.handle = handle;
status = dcerpc_spoolss_StartPagePrinter_r(b, tctx, &sp);
torture_assert_ntstatus_ok(tctx, status,
"dcerpc_spoolss_StartPagePrinter failed");
torture_assert_werr_ok(tctx, sp.out.result, "StartPagePrinter failed");
torture_comment(tctx, "Testing WritePrinter: Page[%d], JobId[%d]\n", i, *job_id);
w.in.handle = handle;
w.in.data = data_blob_string_const(talloc_asprintf(tctx,"TortureTestPage: %d\nData\n",i));
w.out.num_written = &num_written;
status = dcerpc_spoolss_WritePrinter_r(b, tctx, &w);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_WritePrinter failed");
torture_assert_werr_ok(tctx, w.out.result, "WritePrinter failed");
torture_comment(tctx, "Testing EndPagePrinter: Page[%d], JobId[%d]\n", i, *job_id);
ep.in.handle = handle;
status = dcerpc_spoolss_EndPagePrinter_r(b, tctx, &ep);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EndPagePrinter failed");
torture_assert_werr_ok(tctx, ep.out.result, "EndPagePrinter failed");
}
torture_comment(tctx, "Testing EndDocPrinter: JobId[%d]\n", *job_id);
e.in.handle = handle;
status = dcerpc_spoolss_EndDocPrinter_r(b, tctx, &e);
torture_assert_ntstatus_ok(tctx, status, "dcerpc_spoolss_EndDocPrinter failed");
torture_assert_werr_ok(tctx, e.out.result, "EndDocPrinter failed");
return true;
}
static bool test_DoPrintTest_check_jobs(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t num_jobs,
uint32_t *job_ids)
{
uint32_t count;
union spoolss_JobInfo *info = NULL;
int i;
torture_assert(tctx,
test_AddJob(tctx, b, handle),
"AddJob failed");
torture_assert(tctx,
test_EnumJobs_args(tctx, b, handle, 1, &count, &info),
"EnumJobs level 1 failed");
torture_assert_int_equal(tctx, count, num_jobs, "unexpected number of jobs in queue");
for (i=0; i < num_jobs; i++) {
union spoolss_JobInfo ginfo;
torture_assert_int_equal(tctx, info[i].info1.job_id, job_ids[i], "job id mismatch");
torture_assert(tctx,
test_GetJob_args(tctx, b, handle, info[i].info1.job_id, 1, &ginfo),
"failed to call test_GetJob");
torture_assert_int_equal(tctx, ginfo.info1.job_id, info[i].info1.job_id, "job id mismatch");
}
for (i=0; i < num_jobs; i++) {
torture_assert(tctx,
test_SetJob(tctx, b, handle, info[i].info1.job_id, SPOOLSS_JOB_CONTROL_PAUSE),
"failed to pause printjob");
torture_assert(tctx,
test_SetJob(tctx, b, handle, info[i].info1.job_id, SPOOLSS_JOB_CONTROL_RESUME),
"failed to resume printjob");
}
return true;
}
static bool test_DoPrintTest(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
bool ret = true;
uint32_t num_jobs = 8;
uint32_t *job_ids;
int i;
job_ids = talloc_zero_array(tctx, uint32_t, num_jobs);
for (i=0; i < num_jobs; i++) {
ret &= test_DoPrintTest_add_one_job(tctx, b, handle, &job_ids[i]);
}
ret &= test_DoPrintTest_check_jobs(tctx, b, handle, num_jobs, job_ids);
for (i=0; i < num_jobs; i++) {
ret &= test_SetJob(tctx, b, handle, job_ids[i], SPOOLSS_JOB_CONTROL_DELETE);
}
return ret;
}
static bool test_PausePrinter(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
NTSTATUS status;
struct spoolss_SetPrinter r;
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
info_ctr.level = 0;
info_ctr.info.info0 = NULL;
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
r.in.handle = handle;
r.in.info_ctr = &info_ctr;
r.in.devmode_ctr = &devmode_ctr;
r.in.secdesc_ctr = &secdesc_ctr;
r.in.command = SPOOLSS_PRINTER_CONTROL_PAUSE;
torture_comment(tctx, "Testing SetPrinter: SPOOLSS_PRINTER_CONTROL_PAUSE\n");
status = dcerpc_spoolss_SetPrinter_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "SetPrinter failed");
torture_assert_werr_ok(tctx, r.out.result, "SetPrinter failed");
return true;
}
static bool test_ResumePrinter(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
NTSTATUS status;
struct spoolss_SetPrinter r;
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
info_ctr.level = 0;
info_ctr.info.info0 = NULL;
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
r.in.handle = handle;
r.in.info_ctr = &info_ctr;
r.in.devmode_ctr = &devmode_ctr;
r.in.secdesc_ctr = &secdesc_ctr;
r.in.command = SPOOLSS_PRINTER_CONTROL_RESUME;
torture_comment(tctx, "Testing SetPrinter: SPOOLSS_PRINTER_CONTROL_RESUME\n");
status = dcerpc_spoolss_SetPrinter_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "SetPrinter failed");
torture_assert_werr_ok(tctx, r.out.result, "SetPrinter failed");
return true;
}
static bool test_GetPrinterData(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *value_name,
enum winreg_Type *type_p,
uint8_t **data_p,
uint32_t *needed_p)
{
NTSTATUS status;
struct spoolss_GetPrinterData r;
uint32_t needed;
enum winreg_Type type;
union spoolss_PrinterData data;
r.in.handle = handle;
r.in.value_name = value_name;
r.in.offered = 0;
r.out.needed = &needed;
r.out.type = &type;
r.out.data = talloc_zero_array(tctx, uint8_t, r.in.offered);
torture_comment(tctx, "Testing GetPrinterData(%s)\n", r.in.value_name);
status = dcerpc_spoolss_GetPrinterData_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "GetPrinterData failed");
if (W_ERROR_EQUAL(r.out.result, WERR_MORE_DATA)) {
r.in.offered = needed;
r.out.data = talloc_zero_array(tctx, uint8_t, r.in.offered);
status = dcerpc_spoolss_GetPrinterData_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "GetPrinterData failed");
}
torture_assert_werr_ok(tctx, r.out.result,
talloc_asprintf(tctx, "GetPrinterData(%s) failed", r.in.value_name));
CHECK_NEEDED_SIZE_LEVEL(spoolss_PrinterData, &data, type, lp_iconv_convenience(tctx->lp_ctx), needed, 1);
if (type_p) {
*type_p = type;
}
if (data_p) {
*data_p = r.out.data;
}
if (needed_p) {
*needed_p = needed;
}
return true;
}
static bool test_GetPrinterDataEx(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
const char *key_name,
const char *value_name,
enum winreg_Type *type_p,
uint8_t **data_p,
uint32_t *needed_p)
{
NTSTATUS status;
struct spoolss_GetPrinterDataEx r;
enum winreg_Type type;
uint32_t needed;
union spoolss_PrinterData data;
struct dcerpc_binding_handle *b = p->binding_handle;
r.in.handle = handle;
r.in.key_name = key_name;
r.in.value_name = value_name;
r.in.offered = 0;
r.out.type = &type;
r.out.needed = &needed;
r.out.data = talloc_zero_array(tctx, uint8_t, r.in.offered);
torture_comment(tctx, "Testing GetPrinterDataEx(%s - %s)\n",
r.in.key_name, r.in.value_name);
status = dcerpc_spoolss_GetPrinterDataEx_r(b, tctx, &r);
if (!NT_STATUS_IS_OK(status)) {
if (NT_STATUS_EQUAL(status,NT_STATUS_NET_WRITE_FAULT) &&
p->last_fault_code == DCERPC_FAULT_OP_RNG_ERROR) {
torture_skip(tctx, "GetPrinterDataEx not supported by server\n");
}
torture_assert_ntstatus_ok(tctx, status, "GetPrinterDataEx failed");
}
if (W_ERROR_EQUAL(r.out.result, WERR_MORE_DATA)) {
r.in.offered = needed;
r.out.data = talloc_zero_array(tctx, uint8_t, r.in.offered);
status = dcerpc_spoolss_GetPrinterDataEx_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "GetPrinterDataEx failed");
}
torture_assert_werr_ok(tctx, r.out.result,
talloc_asprintf(tctx, "GetPrinterDataEx(%s - %s) failed", r.in.key_name, r.in.value_name));
CHECK_NEEDED_SIZE_LEVEL(spoolss_PrinterData, &data, type, lp_iconv_convenience(tctx->lp_ctx), needed, 1);
if (type_p) {
*type_p = type;
}
if (data_p) {
*data_p = r.out.data;
}
if (needed_p) {
*needed_p = needed;
}
return true;
}
static bool test_GetPrinterData_list(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
const char **architecture)
{
struct dcerpc_binding_handle *b = p->binding_handle;
const char *list[] = {
"W3SvcInstalled",
"BeepEnabled",
"EventLog",
/* "NetPopup", not on w2k8 */
/* "NetPopupToComputer", not on w2k8 */
"MajorVersion",
"MinorVersion",
"DefaultSpoolDirectory",
"Architecture",
"DsPresent",
"OSVersion",
/* "OSVersionEx", not on s3 */
"DNSMachineName"
};
int i;
for (i=0; i < ARRAY_SIZE(list); i++) {
enum winreg_Type type, type_ex;
uint8_t *data, *data_ex;
uint32_t needed, needed_ex;
torture_assert(tctx, test_GetPrinterData(tctx, b, handle, list[i], &type, &data, &needed),
talloc_asprintf(tctx, "GetPrinterData failed on %s\n", list[i]));
torture_assert(tctx, test_GetPrinterDataEx(tctx, p, handle, "random_string", list[i], &type_ex, &data_ex, &needed_ex),
talloc_asprintf(tctx, "GetPrinterDataEx failed on %s\n", list[i]));
torture_assert_int_equal(tctx, type, type_ex, "type mismatch");
torture_assert_int_equal(tctx, needed, needed_ex, "needed mismatch");
torture_assert_mem_equal(tctx, data, data_ex, needed, "data mismatch");
if (strequal(list[i], "Architecture")) {
if (architecture) {
DATA_BLOB blob = data_blob_const(data, needed);
*architecture = reg_val_data_string(tctx, lp_iconv_convenience(tctx->lp_ctx), REG_SZ, blob);
}
}
}
return true;
}
static bool test_EnumPrinterData(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
uint32_t enum_index,
uint32_t value_offered,
uint32_t data_offered,
enum winreg_Type *type_p,
uint32_t *value_needed_p,
uint32_t *data_needed_p,
const char **value_name_p,
uint8_t **data_p,
WERROR *result_p)
{
struct spoolss_EnumPrinterData r;
uint32_t data_needed;
uint32_t value_needed;
enum winreg_Type type;
struct dcerpc_binding_handle *b = p->binding_handle;
r.in.handle = handle;
r.in.enum_index = enum_index;
r.in.value_offered = value_offered;
r.in.data_offered = data_offered;
r.out.data_needed = &data_needed;
r.out.value_needed = &value_needed;
r.out.type = &type;
r.out.data = talloc_zero_array(tctx, uint8_t, r.in.data_offered);
r.out.value_name = talloc_zero_array(tctx, const char, r.in.value_offered);
torture_comment(tctx, "Testing EnumPrinterData(%d)\n", enum_index);
torture_assert_ntstatus_ok(tctx,
dcerpc_spoolss_EnumPrinterData_r(b, tctx, &r),
"EnumPrinterData failed");
if (type_p) {
*type_p = type;
}
if (value_needed_p) {
*value_needed_p = value_needed;
}
if (data_needed_p) {
*data_needed_p = data_needed;
}
if (value_name_p) {
*value_name_p = r.out.value_name;
}
if (data_p) {
*data_p = r.out.data;
}
if (result_p) {
*result_p = r.out.result;
}
return true;
}
static bool test_EnumPrinterData_all(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle)
{
uint32_t enum_index = 0;
enum winreg_Type type;
uint32_t value_needed;
uint32_t data_needed;
uint8_t *data;
const char *value_name;
WERROR result;
torture_comment(tctx, "Testing EnumPrinterData\n");
do {
torture_assert(tctx,
test_EnumPrinterData(tctx, p, handle, enum_index, 0, 0,
&type, &value_needed, &data_needed,
&value_name, &data, &result),
"EnumPrinterData failed");
if (W_ERROR_EQUAL(result, WERR_NO_MORE_ITEMS)) {
break;
}
torture_assert(tctx,
test_EnumPrinterData(tctx, p, handle, enum_index, value_needed, data_needed,
&type, &value_needed, &data_needed,
&value_name, &data, &result),
"EnumPrinterData failed");
if (W_ERROR_EQUAL(result, WERR_NO_MORE_ITEMS)) {
break;
}
enum_index++;
} while (W_ERROR_IS_OK(result));
torture_comment(tctx, "EnumPrinterData test succeeded\n");
return true;
}
static bool test_EnumPrinterDataEx(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *key_name,
uint32_t *count_p,
struct spoolss_PrinterEnumValues **info_p)
{
struct spoolss_EnumPrinterDataEx r;
struct spoolss_PrinterEnumValues *info;
uint32_t needed;
uint32_t count;
r.in.handle = handle;
r.in.key_name = key_name;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumPrinterDataEx(%s)\n", key_name);
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_EnumPrinterDataEx_r(b, tctx, &r),
"EnumPrinterDataEx failed");
if (W_ERROR_EQUAL(r.out.result, WERR_MORE_DATA)) {
r.in.offered = needed;
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_EnumPrinterDataEx_r(b, tctx, &r),
"EnumPrinterDataEx failed");
}
torture_assert_werr_ok(tctx, r.out.result, "EnumPrinterDataEx failed");
CHECK_NEEDED_SIZE_ENUM(spoolss_EnumPrinterDataEx, info, count, lp_iconv_convenience(tctx->lp_ctx), needed, 1);
if (count_p) {
*count_p = count;
}
if (info_p) {
*info_p = info;
}
return true;
}
static bool test_SetPrinterData(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *value_name,
enum winreg_Type type,
uint8_t *data,
uint32_t offered);
static bool test_DeletePrinterData(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *value_name);
static bool test_EnumPrinterData_consistency(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle)
{
uint32_t count;
struct spoolss_PrinterEnumValues *info;
int i;
uint32_t value_needed, data_needed;
uint32_t value_offered, data_offered;
WERROR result;
struct dcerpc_binding_handle *b = p->binding_handle;
enum winreg_Type type;
DATA_BLOB blob;
torture_comment(tctx, "Testing EnumPrinterData vs EnumPrinterDataEx consistency\n");
torture_assert(tctx,
reg_string_to_val(tctx, lp_iconv_convenience(tctx->lp_ctx),
"REG_SZ", "torture_data1", &type, &blob), "");
torture_assert(tctx,
test_SetPrinterData(tctx, b, handle, "torture_value1", type, blob.data, blob.length),
"SetPrinterData failed");
blob = data_blob_string_const("torture_data2");
torture_assert(tctx,
test_SetPrinterData(tctx, b, handle, "torture_value2", REG_BINARY, blob.data, blob.length),
"SetPrinterData failed");
blob = data_blob_talloc(tctx, NULL, 4);
SIVAL(blob.data, 0, 0x11223344);
torture_assert(tctx,
test_SetPrinterData(tctx, b, handle, "torture_value3", type, blob.data, blob.length),
"SetPrinterData failed");
torture_assert(tctx,
test_EnumPrinterDataEx(tctx, b, handle, "PrinterDriverData", &count, &info),
"failed to call EnumPrinterDataEx");
/* get the max sizes for value and data */
torture_assert(tctx,
test_EnumPrinterData(tctx, p, handle, 0, 0, 0,
NULL, &value_needed, &data_needed,
NULL, NULL, &result),
"EnumPrinterData failed");
torture_assert_werr_ok(tctx, result, "unexpected result");
/* check if the reply from the EnumPrinterData really matches max values */
for (i=0; i < count; i++) {
if (info[i].value_name_len > value_needed) {
torture_fail(tctx,
talloc_asprintf(tctx,
"EnumPrinterDataEx gave a reply with value length %d which is larger then expected max value length %d from EnumPrinterData",
info[i].value_name_len, value_needed));
}
if (info[i].data_length > data_needed) {
torture_fail(tctx,
talloc_asprintf(tctx,
"EnumPrinterDataEx gave a reply with data length %d which is larger then expected max data length %d from EnumPrinterData",
info[i].data_length, data_needed));
}
}
/* assuming that both EnumPrinterData and EnumPrinterDataEx do either
* sort or not sort the replies by value name, we should be able to do
* the following entry comparison */
data_offered = data_needed;
value_offered = value_needed;
for (i=0; i < count; i++) {
const char *value_name;
uint8_t *data;
torture_assert(tctx,
test_EnumPrinterData(tctx, p, handle, i, value_offered, data_offered,
&type, &value_needed, &data_needed,
&value_name, &data, &result),
"EnumPrinterData failed");
if (i -1 == count) {
torture_assert_werr_equal(tctx, result, WERR_NO_MORE_ITEMS,
"unexpected result");
break;
} else {
torture_assert_werr_ok(tctx, result, "unexpected result");
}
torture_assert_int_equal(tctx, type, info[i].type, "type mismatch");
torture_assert_int_equal(tctx, value_needed, info[i].value_name_len, "value name length mismatch");
torture_assert_str_equal(tctx, value_name, info[i].value_name, "value name mismatch");
torture_assert_int_equal(tctx, data_needed, info[i].data_length, "data length mismatch");
torture_assert_mem_equal(tctx, data, info[i].data->data, info[i].data_length, "data mismatch");
}
torture_assert(tctx,
test_DeletePrinterData(tctx, b, handle, "torture_value1"),
"DeletePrinterData failed");
torture_assert(tctx,
test_DeletePrinterData(tctx, b, handle, "torture_value2"),
"DeletePrinterData failed");
torture_assert(tctx,
test_DeletePrinterData(tctx, b, handle, "torture_value3"),
"DeletePrinterData failed");
torture_comment(tctx, "EnumPrinterData vs EnumPrinterDataEx consistency test succeeded\n\n");
return true;
}
static bool test_DeletePrinterData(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *value_name)
{
NTSTATUS status;
struct spoolss_DeletePrinterData r;
r.in.handle = handle;
r.in.value_name = value_name;
torture_comment(tctx, "Testing DeletePrinterData(%s)\n",
r.in.value_name);
status = dcerpc_spoolss_DeletePrinterData_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "DeletePrinterData failed");
torture_assert_werr_ok(tctx, r.out.result, "DeletePrinterData failed");
return true;
}
static bool test_DeletePrinterDataEx(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *key_name,
const char *value_name)
{
struct spoolss_DeletePrinterDataEx r;
r.in.handle = handle;
r.in.key_name = key_name;
r.in.value_name = value_name;
torture_comment(tctx, "Testing DeletePrinterDataEx(%s - %s)\n",
r.in.key_name, r.in.value_name);
torture_assert_ntstatus_ok(tctx,
dcerpc_spoolss_DeletePrinterDataEx_r(b, tctx, &r),
"DeletePrinterDataEx failed");
torture_assert_werr_ok(tctx, r.out.result,
"DeletePrinterDataEx failed");
return true;
}
static bool test_DeletePrinterKey(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *key_name)
{
struct spoolss_DeletePrinterKey r;
r.in.handle = handle;
r.in.key_name = key_name;
torture_comment(tctx, "Testing DeletePrinterKey(%s)\n", r.in.key_name);
if (strequal(key_name, "") && !torture_setting_bool(tctx, "dangerous", false)) {
torture_skip(tctx, "not wiping out printer registry - enable dangerous tests to use\n");
return true;
}
torture_assert_ntstatus_ok(tctx,
dcerpc_spoolss_DeletePrinterKey_r(b, tctx, &r),
"DeletePrinterKey failed");
torture_assert_werr_ok(tctx, r.out.result,
"DeletePrinterKey failed");
return true;
}
static bool test_winreg_OpenHKLM(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
struct winreg_OpenHKLM r;
r.in.system_name = NULL;
r.in.access_mask = SEC_FLAG_MAXIMUM_ALLOWED;
r.out.handle = handle;
torture_comment(tctx, "Testing winreg_OpenHKLM\n");
torture_assert_ntstatus_ok(tctx, dcerpc_winreg_OpenHKLM_r(b, tctx, &r), "OpenHKLM failed");
torture_assert_werr_ok(tctx, r.out.result, "OpenHKLM failed");
return true;
}
static void init_winreg_String(struct winreg_String *name, const char *s)
{
name->name = s;
if (s) {
name->name_len = 2 * (strlen_m(s) + 1);
name->name_size = name->name_len;
} else {
name->name_len = 0;
name->name_size = 0;
}
}
static bool test_winreg_OpenKey(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *hive_handle,
const char *keyname,
struct policy_handle *key_handle)
{
struct winreg_OpenKey r;
r.in.parent_handle = hive_handle;
init_winreg_String(&r.in.keyname, keyname);
r.in.options = REG_KEYTYPE_NON_VOLATILE;
r.in.access_mask = SEC_FLAG_MAXIMUM_ALLOWED;
r.out.handle = key_handle;
torture_comment(tctx, "Testing winreg_OpenKey(%s)\n", keyname);
torture_assert_ntstatus_ok(tctx, dcerpc_winreg_OpenKey_r(b, tctx, &r), "OpenKey failed");
torture_assert_werr_ok(tctx, r.out.result, "OpenKey failed");
return true;
}
static bool test_winreg_CloseKey(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
struct winreg_CloseKey r;
r.in.handle = handle;
r.out.handle = handle;
torture_comment(tctx, "Testing winreg_CloseKey\n");
torture_assert_ntstatus_ok(tctx, dcerpc_winreg_CloseKey_r(b, tctx, &r), "CloseKey failed");
torture_assert_werr_ok(tctx, r.out.result, "CloseKey failed");
return true;
}
bool test_winreg_QueryValue(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *value_name,
enum winreg_Type *type_p,
uint32_t *data_size_p,
uint32_t *data_length_p,
uint8_t **data_p)
{
struct winreg_QueryValue r;
enum winreg_Type type = REG_NONE;
uint32_t data_size = 0;
uint32_t data_length = 0;
struct winreg_String valuename;
uint8_t *data = NULL;
init_winreg_String(&valuename, value_name);
data = talloc_zero_array(tctx, uint8_t, 0);
r.in.handle = handle;
r.in.value_name = &valuename;
r.in.type = &type;
r.in.data_size = &data_size;
r.in.data_length = &data_length;
r.in.data = data;
r.out.type = &type;
r.out.data = data;
r.out.data_size = &data_size;
r.out.data_length = &data_length;
torture_comment(tctx, "Testing winreg_QueryValue(%s)\n", value_name);
torture_assert_ntstatus_ok(tctx, dcerpc_winreg_QueryValue_r(b, tctx, &r), "QueryValue failed");
if (W_ERROR_EQUAL(r.out.result, WERR_MORE_DATA)) {
*r.in.data_size = *r.out.data_size;
data = talloc_zero_array(tctx, uint8_t, *r.in.data_size);
r.in.data = data;
r.out.data = data;
torture_assert_ntstatus_ok(tctx, dcerpc_winreg_QueryValue_r(b, tctx, &r), "QueryValue failed");
}
torture_assert_werr_ok(tctx, r.out.result, "QueryValue failed");
if (type_p) {
*type_p = *r.out.type;
}
if (data_size_p) {
*data_size_p = *r.out.data_size;
}
if (data_length_p) {
*data_length_p = *r.out.data_length;
}
if (data_p) {
*data_p = r.out.data;
}
return true;
}
static bool test_winreg_query_printerdata(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *printer_name,
const char *key_name,
const char *value_name,
enum winreg_Type *w_type,
uint32_t *w_size,
uint32_t *w_length,
uint8_t **w_data)
{
const char *printer_key;
struct policy_handle key_handle;
printer_key = talloc_asprintf(tctx, "%s\\%s\\%s",
TOP_LEVEL_PRINTER_KEY, printer_name, key_name);
torture_assert(tctx,
test_winreg_OpenKey(tctx, b, handle, printer_key, &key_handle), "");
torture_assert(tctx,
test_winreg_QueryValue(tctx, b, &key_handle, value_name, w_type, w_size, w_length, w_data), "");
torture_assert(tctx,
test_winreg_CloseKey(tctx, b, &key_handle), "");
return true;
}
static bool test_SetPrinterData(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *value_name,
enum winreg_Type type,
uint8_t *data,
uint32_t offered)
{
struct spoolss_SetPrinterData r;
r.in.handle = handle;
r.in.value_name = value_name;
r.in.type = type;
r.in.data = data;
r.in.offered = offered;
torture_comment(tctx, "Testing SetPrinterData(%s)\n",
r.in.value_name);
torture_assert_ntstatus_ok(tctx,
dcerpc_spoolss_SetPrinterData_r(b, tctx, &r),
"SetPrinterData failed");
torture_assert_werr_ok(tctx, r.out.result,
"SetPrinterData failed");
return true;
}
static bool test_SetPrinterData_matrix(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *printer_name,
struct dcerpc_binding_handle *winreg_handle,
struct policy_handle *hive_handle)
{
const char *values[] = {
"spootyfoot",
"spooty\\foot",
#if 0
/* FIXME: not working with s3 atm. */
"spooty,foot",
"spooty,fo,ot",
#endif
"spooty foot",
#if 0
/* FIXME: not working with s3 atm. */
"spooty\\fo,ot",
"spooty,fo\\ot"
#endif
};
int i;
for (i=0; i < ARRAY_SIZE(values); i++) {
enum winreg_Type type;
DATA_BLOB blob;
uint8_t *data;
uint32_t needed;
torture_assert(tctx,
reg_string_to_val(tctx, lp_iconv_convenience(tctx->lp_ctx),
"REG_SZ", "dog", &type, &blob), "");
torture_assert(tctx,
test_SetPrinterData(tctx, b, handle, values[i], REG_SZ, blob.data, blob.length),
"SetPrinterData failed");
torture_assert(tctx,
test_GetPrinterData(tctx, b, handle, values[i], &type, &data, &needed),
"GetPrinterData failed");
torture_assert_int_equal(tctx, type, REG_SZ, "type mismatch");
torture_assert_int_equal(tctx, needed, blob.length, "size mismatch");
torture_assert_mem_equal(tctx, data, blob.data, blob.length, "buffer mismatch");
if (winreg_handle && hive_handle) {
enum winreg_Type w_type;
uint32_t w_size;
uint32_t w_length;
uint8_t *w_data;
torture_assert(tctx,
test_winreg_query_printerdata(tctx, winreg_handle, hive_handle,
printer_name, "PrinterDriverData", values[i],
&w_type, &w_size, &w_length, &w_data), "");
torture_assert_int_equal(tctx, w_type, REG_SZ, "winreg type mismatch");
torture_assert_int_equal(tctx, w_size, blob.length, "winreg size mismatch");
torture_assert_int_equal(tctx, w_length, blob.length, "winreg length mismatch");
torture_assert_mem_equal(tctx, w_data, blob.data, blob.length, "winreg buffer mismatch");
}
torture_assert(tctx,
test_DeletePrinterData(tctx, b, handle, values[i]),
"DeletePrinterData failed");
}
return true;
}
static bool test_EnumPrinterKey(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *key_name,
const char ***array);
static bool test_SetPrinterDataEx(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *key_name,
const char *value_name,
enum winreg_Type type,
uint8_t *data,
uint32_t offered)
{
NTSTATUS status;
struct spoolss_SetPrinterDataEx r;
r.in.handle = handle;
r.in.key_name = key_name;
r.in.value_name = value_name;
r.in.type = type;
r.in.data = data;
r.in.offered = offered;
torture_comment(tctx, "Testing SetPrinterDataEx(%s - %s) type: %s, offered: 0x%08x\n",
r.in.key_name, r.in.value_name, str_regtype(r.in.type), r.in.offered);
status = dcerpc_spoolss_SetPrinterDataEx_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "SetPrinterDataEx failed");
torture_assert_werr_ok(tctx, r.out.result, "SetPrinterDataEx failed");
return true;
}
static bool test_SetPrinterDataEx_matrix(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
const char *printername,
struct dcerpc_binding_handle *winreg_handle,
struct policy_handle *hive_handle)
{
struct dcerpc_binding_handle *b = p->binding_handle;
const char *value_name = "dog";
const char *keys[] = {
"torturedataex",
"torture data ex",
#if 0
/* FIXME: not working with s3 atm. */
"torturedataex_with_subkey\\subkey",
"torturedataex_with_subkey\\subkey:0",
"torturedataex_with_subkey\\subkey:1",
"torturedataex_with_subkey\\subkey\\subsubkey",
"torturedataex_with_subkey\\subkey\\subsubkey:0",
"torturedataex_with_subkey\\subkey\\subsubkey:1",
#endif
"torture,data",
#if 0
/* FIXME: not working with s3 atm. */
"torture,data,ex",
"torture,data\\ex",
"torture\\data,ex"
#endif
};
enum winreg_Type types[] = {
REG_SZ,
REG_MULTI_SZ,
REG_DWORD,
REG_BINARY
};
const char *str = "abcdefghijklmnopqrstuvwxzy";
int i, t, s;
for (i=0; i < ARRAY_SIZE(keys); i++) {
for (t=0; t < ARRAY_SIZE(types); t++) {
for (s=0; s < strlen(str); s++) {
char *c;
const char *key;
enum winreg_Type type;
const char *string = talloc_strndup(tctx, str, s);
DATA_BLOB blob = data_blob_string_const(string);
const char **subkeys;
DATA_BLOB data;
uint8_t *data_out;
uint32_t needed, offered = 0;
uint32_t ecount;
struct spoolss_PrinterEnumValues *einfo;
if (types[t] == REG_DWORD) {
s = 0xffff;
}
if (torture_setting_bool(tctx, "samba3", false)) {
if ((types[t] == REG_MULTI_SZ) && s == 0) {
torture_warning(tctx, "samba3 does not handle 4 byte emtpy REG_MULTI_SZ buffers");
continue;
}
}
switch (types[t]) {
case REG_BINARY:
data = blob;
offered = blob.length;
break;
case REG_DWORD:
data = data_blob_talloc(tctx, NULL, 4);
SIVAL(data.data, 0, 0x12345678);
offered = 4;
break;
case REG_SZ:
torture_assert(tctx,
reg_string_to_val(tctx, lp_iconv_convenience(tctx->lp_ctx),
"REG_SZ", string, &type, &data), "");
offered = data.length;
/*strlen_m_term(data.string)*2;*/
break;
case REG_MULTI_SZ:
torture_assert(tctx,
reg_string_to_val(tctx, lp_iconv_convenience(tctx->lp_ctx),
"REG_SZ", string, &type, &data), "");
torture_assert(tctx, data_blob_realloc(tctx, &data, data.length + 2), "");
memset(&data.data[data.length - 2], '\0', 2);
offered = data.length;
break;
default:
torture_fail(tctx, talloc_asprintf(tctx, "type %d untested\n", types[t]));
}
torture_assert(tctx,
test_SetPrinterDataEx(tctx, b, handle, keys[i], value_name, types[t], data.data, offered),
"failed to call SetPrinterDataEx");
torture_assert(tctx,
test_GetPrinterDataEx(tctx, p, handle, keys[i], value_name, &type, &data_out, &needed),
"failed to call GetPrinterDataEx");
torture_assert(tctx,
test_EnumPrinterDataEx(tctx, b, handle, keys[i], &ecount, &einfo),
"failed to call EnumPrinterDataEx");
torture_assert_int_equal(tctx, types[t], type, "type mismatch");
torture_assert_int_equal(tctx, needed, offered, "size mismatch");
torture_assert_mem_equal(tctx, data_out, data.data, offered, "buffer mismatch");
torture_assert_int_equal(tctx, ecount, 1, "unexpected enum count");
torture_assert_str_equal(tctx, einfo[0].value_name, value_name, "value_name mismatch");
torture_assert_int_equal(tctx, einfo[0].value_name_len, strlen_m_term(value_name)*2, "unexpected value_name_len");
torture_assert_int_equal(tctx, einfo[0].type, types[t], "type mismatch");
torture_assert_int_equal(tctx, einfo[0].data_length, offered, "size mismatch");
if (einfo[0].data_length > 0) {
torture_assert_mem_equal(tctx, einfo[0].data->data, data.data, offered, "buffer mismatch");
}
if (winreg_handle && hive_handle) {
enum winreg_Type w_type;
uint32_t w_size;
uint32_t w_length;
uint8_t *w_data;
torture_assert(tctx,
test_winreg_query_printerdata(tctx, winreg_handle, hive_handle,
printername, keys[i], value_name,
&w_type, &w_size, &w_length, &w_data), "");
torture_assert_int_equal(tctx, w_type, types[t], "winreg type mismatch");
torture_assert_int_equal(tctx, w_size, offered, "winreg size mismatch");
torture_assert_int_equal(tctx, w_length, offered, "winreg length mismatch");
torture_assert_mem_equal(tctx, w_data, data.data, offered, "winreg buffer mismatch");
}
key = talloc_strdup(tctx, keys[i]);
if (!test_DeletePrinterDataEx(tctx, b, handle, keys[i], value_name)) {
return false;
}
c = strchr(key, '\\');
if (c) {
int k;
/* we have subkeys */
*c = 0;
if (!test_EnumPrinterKey(tctx, b, handle, key, &subkeys)) {
return false;
}
for (k=0; subkeys && subkeys[k]; k++) {
const char *current_key = talloc_asprintf(tctx, "%s\\%s", key, subkeys[k]);
if (!test_DeletePrinterKey(tctx, b, handle, current_key)) {
return false;
}
}
if (!test_DeletePrinterKey(tctx, b, handle, key)) {
return false;
}
} else {
if (!test_DeletePrinterKey(tctx, b, handle, key)) {
return false;
}
}
}
}
}
return true;
}
static bool test_PrinterData_winreg(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
const char *printer_name)
{
struct dcerpc_binding_handle *b = p->binding_handle;
struct dcerpc_pipe *p2;
bool ret = true;
struct policy_handle hive_handle;
struct dcerpc_binding_handle *b2;
torture_assert_ntstatus_ok(tctx,
torture_rpc_connection(tctx, &p2, &ndr_table_winreg),
"could not open winreg pipe");
b2 = p2->binding_handle;
torture_assert(tctx, test_winreg_OpenHKLM(tctx, b2, &hive_handle), "");
ret &= test_SetPrinterData_matrix(tctx, b, handle, printer_name, b2, &hive_handle);
ret &= test_SetPrinterDataEx_matrix(tctx, p, handle, printer_name, b2, &hive_handle);
test_winreg_CloseKey(tctx, b2, &hive_handle);
talloc_free(p2);
return ret;
}
static bool test_GetChangeID_PrinterData(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t *change_id)
{
enum winreg_Type type;
uint8_t *data;
uint32_t needed;
torture_assert(tctx,
test_GetPrinterData(tctx, b, handle, "ChangeID", &type, &data, &needed),
"failed to call GetPrinterData");
torture_assert(tctx, type == REG_DWORD, "unexpected type");
torture_assert_int_equal(tctx, needed, 4, "unexpected size");
*change_id = IVAL(data, 0);
return true;
}
static bool test_GetChangeID_PrinterDataEx(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
uint32_t *change_id)
{
enum winreg_Type type;
uint8_t *data;
uint32_t needed;
torture_assert(tctx,
test_GetPrinterDataEx(tctx, p, handle, "PrinterDriverData", "ChangeID", &type, &data, &needed),
"failed to call GetPrinterData");
torture_assert(tctx, type == REG_DWORD, "unexpected type");
torture_assert_int_equal(tctx, needed, 4, "unexpected size");
*change_id = IVAL(data, 0);
return true;
}
static bool test_GetChangeID_PrinterInfo(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
uint32_t *change_id)
{
union spoolss_PrinterInfo info;
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 0, &info),
"failed to query Printer level 0");
*change_id = info.info0.change_id;
return true;
}
static bool test_ChangeID(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle)
{
uint32_t change_id, change_id_ex, change_id_info;
uint32_t change_id2, change_id_ex2, change_id_info2;
union spoolss_PrinterInfo info;
const char *comment;
struct dcerpc_binding_handle *b = p->binding_handle;
torture_comment(tctx, "Testing ChangeID: id change test #1\n");
torture_assert(tctx, test_GetChangeID_PrinterData(tctx, b, handle, &change_id),
"failed to query for ChangeID");
torture_assert(tctx, test_GetChangeID_PrinterDataEx(tctx, p, handle, &change_id_ex),
"failed to query for ChangeID");
torture_assert(tctx, test_GetChangeID_PrinterInfo(tctx, b, handle, &change_id_info),
"failed to query for ChangeID");
torture_assert_int_equal(tctx, change_id, change_id_ex,
"change_ids should all be equal");
torture_assert_int_equal(tctx, change_id_ex, change_id_info,
"change_ids should all be equal");
torture_comment(tctx, "Testing ChangeID: id change test #2\n");
torture_assert(tctx, test_GetChangeID_PrinterData(tctx, b, handle, &change_id),
"failed to query for ChangeID");
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info),
"failed to query Printer level 2");
torture_assert(tctx, test_GetChangeID_PrinterDataEx(tctx, p, handle, &change_id_ex),
"failed to query for ChangeID");
torture_assert(tctx, test_GetChangeID_PrinterInfo(tctx, b, handle, &change_id_info),
"failed to query for ChangeID");
torture_assert_int_equal(tctx, change_id, change_id_ex,
"change_id should not have changed");
torture_assert_int_equal(tctx, change_id_ex, change_id_info,
"change_id should not have changed");
torture_comment(tctx, "Testing ChangeID: id change test #3\n");
torture_assert(tctx, test_GetChangeID_PrinterData(tctx, b, handle, &change_id),
"failed to query for ChangeID");
torture_assert(tctx, test_GetChangeID_PrinterDataEx(tctx, p, handle, &change_id_ex),
"failed to query for ChangeID");
torture_assert(tctx, test_GetChangeID_PrinterInfo(tctx, b, handle, &change_id_info),
"failed to query for ChangeID");
torture_assert(tctx, test_GetPrinter_level(tctx, b, handle, 2, &info),
"failed to query Printer level 2");
comment = talloc_strdup(tctx, info.info2.comment);
{
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
union spoolss_SetPrinterInfo sinfo;
ZERO_STRUCT(info_ctr);
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
torture_assert(tctx, PrinterInfo_to_SetPrinterInfo(tctx, &info, 2, &sinfo), "");
sinfo.info2->comment = "torture_comment";
info_ctr.level = 2;
info_ctr.info = sinfo;
torture_assert(tctx, test_SetPrinter(tctx, b, handle, &info_ctr, &devmode_ctr, &secdesc_ctr, 0),
"failed to call SetPrinter");
sinfo.info2->comment = comment;
torture_assert(tctx, test_SetPrinter(tctx, b, handle, &info_ctr, &devmode_ctr, &secdesc_ctr, 0),
"failed to call SetPrinter");
}
torture_assert(tctx, test_GetChangeID_PrinterData(tctx, b, handle, &change_id2),
"failed to query for ChangeID");
torture_assert(tctx, test_GetChangeID_PrinterDataEx(tctx, p, handle, &change_id_ex2),
"failed to query for ChangeID");
torture_assert(tctx, test_GetChangeID_PrinterInfo(tctx, b, handle, &change_id_info2),
"failed to query for ChangeID");
torture_assert_int_equal(tctx, change_id2, change_id_ex2,
"change_ids should all be equal");
torture_assert_int_equal(tctx, change_id_ex2, change_id_info2,
"change_ids should all be equal");
torture_assert(tctx, (change_id < change_id2),
talloc_asprintf(tctx, "change_id %d needs to be larger than change_id %d",
change_id2, change_id));
torture_assert(tctx, (change_id_ex < change_id_ex2),
talloc_asprintf(tctx, "change_id %d needs to be larger than change_id %d",
change_id_ex2, change_id_ex));
torture_assert(tctx, (change_id_info < change_id_info2),
talloc_asprintf(tctx, "change_id %d needs to be larger than change_id %d",
change_id_info2, change_id_info));
torture_comment(tctx, "ChangeID tests succeeded\n\n");
return true;
}
static bool test_SecondaryClosePrinter(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle)
{
NTSTATUS status;
struct dcerpc_binding *b;
struct dcerpc_pipe *p2;
struct spoolss_ClosePrinter cp;
/* only makes sense on SMB */
if (p->conn->transport.transport != NCACN_NP) {
return true;
}
torture_comment(tctx, "testing close on secondary pipe\n");
status = dcerpc_parse_binding(tctx, p->conn->binding_string, &b);
torture_assert_ntstatus_ok(tctx, status, "Failed to parse dcerpc binding");
status = dcerpc_secondary_connection(p, &p2, b);
torture_assert_ntstatus_ok(tctx, status, "Failed to create secondary connection");
status = dcerpc_bind_auth_none(p2, &ndr_table_spoolss);
torture_assert_ntstatus_ok(tctx, status, "Failed to create bind on secondary connection");
cp.in.handle = handle;
cp.out.handle = handle;
status = dcerpc_spoolss_ClosePrinter_r(p2->binding_handle, tctx, &cp);
torture_assert_ntstatus_equal(tctx, status, NT_STATUS_NET_WRITE_FAULT,
"ERROR: Allowed close on secondary connection");
torture_assert_int_equal(tctx, p2->last_fault_code, DCERPC_FAULT_CONTEXT_MISMATCH,
"Unexpected fault code");
talloc_free(p2);
return true;
}
static bool test_OpenPrinter_badname(struct torture_context *tctx,
struct dcerpc_binding_handle *b, const char *name)
{
NTSTATUS status;
struct spoolss_OpenPrinter op;
struct spoolss_OpenPrinterEx opEx;
struct policy_handle handle;
bool ret = true;
op.in.printername = name;
op.in.datatype = NULL;
op.in.devmode_ctr.devmode= NULL;
op.in.access_mask = 0;
op.out.handle = &handle;
torture_comment(tctx, "Testing OpenPrinter(%s) with bad name\n", op.in.printername);
status = dcerpc_spoolss_OpenPrinter_r(b, tctx, &op);
torture_assert_ntstatus_ok(tctx, status, "OpenPrinter failed");
torture_assert_werr_equal(tctx, op.out.result, WERR_INVALID_PRINTER_NAME,
"unexpected result");
if (W_ERROR_IS_OK(op.out.result)) {
ret &=test_ClosePrinter(tctx, b, &handle);
}
opEx.in.printername = name;
opEx.in.datatype = NULL;
opEx.in.devmode_ctr.devmode = NULL;
opEx.in.access_mask = 0;
opEx.in.level = 1;
opEx.in.userlevel.level1 = NULL;
opEx.out.handle = &handle;
torture_comment(tctx, "Testing OpenPrinterEx(%s) with bad name\n", opEx.in.printername);
status = dcerpc_spoolss_OpenPrinterEx_r(b, tctx, &opEx);
torture_assert_ntstatus_ok(tctx, status, "OpenPrinterEx failed");
torture_assert_werr_equal(tctx, opEx.out.result, WERR_INVALID_PARAM,
"unexpected result");
if (W_ERROR_IS_OK(opEx.out.result)) {
ret &=test_ClosePrinter(tctx, b, &handle);
}
return ret;
}
static bool test_OpenPrinter(struct torture_context *tctx,
struct dcerpc_pipe *p,
const char *name,
const char *environment)
{
NTSTATUS status;
struct spoolss_OpenPrinter r;
struct policy_handle handle;
bool ret = true;
struct dcerpc_binding_handle *b = p->binding_handle;
r.in.printername = talloc_asprintf(tctx, "\\\\%s\\%s", dcerpc_server_name(p), name);
r.in.datatype = NULL;
r.in.devmode_ctr.devmode= NULL;
r.in.access_mask = SEC_FLAG_MAXIMUM_ALLOWED;
r.out.handle = &handle;
torture_comment(tctx, "Testing OpenPrinter(%s)\n", r.in.printername);
status = dcerpc_spoolss_OpenPrinter_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "OpenPrinter failed");
torture_assert_werr_ok(tctx, r.out.result, "OpenPrinter failed");
if (!test_GetPrinter(tctx, b, &handle, environment)) {
ret = false;
}
if (!torture_setting_bool(tctx, "samba3", false)) {
if (!test_SecondaryClosePrinter(tctx, p, &handle)) {
ret = false;
}
}
if (!test_ClosePrinter(tctx, b, &handle)) {
ret = false;
}
return ret;
}
static bool call_OpenPrinterEx(struct torture_context *tctx,
struct dcerpc_pipe *p,
const char *name,
struct spoolss_DeviceMode *devmode,
struct policy_handle *handle)
{
struct spoolss_OpenPrinterEx r;
struct spoolss_UserLevel1 userlevel1;
NTSTATUS status;
struct dcerpc_binding_handle *b = p->binding_handle;
if (name && name[0]) {
r.in.printername = talloc_asprintf(tctx, "\\\\%s\\%s",
dcerpc_server_name(p), name);
} else {
r.in.printername = talloc_asprintf(tctx, "\\\\%s",
dcerpc_server_name(p));
}
r.in.datatype = NULL;
r.in.devmode_ctr.devmode= devmode;
r.in.access_mask = SEC_FLAG_MAXIMUM_ALLOWED;
r.in.level = 1;
r.in.userlevel.level1 = &userlevel1;
r.out.handle = handle;
userlevel1.size = 1234;
userlevel1.client = "hello";
userlevel1.user = "spottyfoot!";
userlevel1.build = 1;
userlevel1.major = 2;
userlevel1.minor = 3;
userlevel1.processor = 4;
torture_comment(tctx, "Testing OpenPrinterEx(%s)\n", r.in.printername);
status = dcerpc_spoolss_OpenPrinterEx_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "OpenPrinterEx failed");
torture_assert_werr_ok(tctx, r.out.result, "OpenPrinterEx failed");
return true;
}
static bool test_printer_rename(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
const char *name)
{
bool ret = true;
union spoolss_PrinterInfo info;
union spoolss_SetPrinterInfo sinfo;
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
const char *printer_name;
const char *printer_name_orig;
const char *printer_name_new = "SAMBA smbtorture Test Printer (Copy 2)";
struct policy_handle new_handle;
const char *q;
struct dcerpc_binding_handle *b = p->binding_handle;
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
torture_comment(tctx, "Testing Printer rename operations\n");
torture_assert(tctx,
test_GetPrinter_level(tctx, b, handle, 2, &info),
"failed to call GetPrinter level 2");
printer_name_orig = talloc_strdup(tctx, info.info2.printername);
q = strrchr(info.info2.printername, '\\');
if (q) {
torture_warning(tctx,
"server returns printername %s incl. servername although we did not set servername", info.info2.printername);
}
torture_assert(tctx,
PrinterInfo_to_SetPrinterInfo(tctx, &info, 2, &sinfo), "");
sinfo.info2->printername = printer_name_new;
info_ctr.level = 2;
info_ctr.info = sinfo;
torture_assert(tctx,
test_SetPrinter(tctx, b, handle, &info_ctr, &devmode_ctr, &secdesc_ctr, 0),
"failed to call SetPrinter level 2");
torture_assert(tctx,
test_GetPrinter_level(tctx, b, handle, 2, &info),
"failed to call GetPrinter level 2");
printer_name = talloc_strdup(tctx, info.info2.printername);
q = strrchr(info.info2.printername, '\\');
if (q) {
torture_warning(tctx,
"server returns printername %s incl. servername although we did not set servername", info.info2.printername);
q++;
printer_name = q;
}
torture_assert_str_equal(tctx, printer_name, printer_name_new,
"new printer name was not set");
/* samba currently cannot fully rename printers */
if (!torture_setting_bool(tctx, "samba3", false)) {
torture_assert(tctx,
test_OpenPrinter_badname(tctx, b, printer_name_orig),
"still can open printer with oldname after rename");
} else {
torture_warning(tctx, "*not* checking for open with oldname after rename for samba3");
}
torture_assert(tctx,
call_OpenPrinterEx(tctx, p, printer_name_new, NULL, &new_handle),
"failed to open printer with new name");
torture_assert(tctx,
test_GetPrinter_level(tctx, b, &new_handle, 2, &info),
"failed to call GetPrinter level 2");
/* FIXME: we openend with servername! */
printer_name = talloc_asprintf(tctx, "\\\\%s\\%s",
dcerpc_server_name(p), printer_name_new);
torture_assert_str_equal(tctx, info.info2.printername, printer_name,
"new printer name was not set");
torture_assert(tctx,
test_ClosePrinter(tctx, b, &new_handle),
"failed to close printer");
torture_comment(tctx, "Printer rename operations test succeeded\n\n");
return ret;
}
static bool test_OpenPrinterEx(struct torture_context *tctx,
struct dcerpc_pipe *p,
const char *name,
const char *environment)
{
struct policy_handle handle;
bool ret = true;
struct dcerpc_binding_handle *b = p->binding_handle;
if (!call_OpenPrinterEx(tctx, p, name, NULL, &handle)) {
return false;
}
if (!test_PrinterInfo_SD(tctx, b, &handle)) {
ret = false;
}
if (!test_GetPrinter(tctx, b, &handle, environment)) {
ret = false;
}
if (!test_EnumForms(tctx, b, &handle, false)) {
ret = false;
}
if (!test_AddForm(tctx, b, &handle, false)) {
ret = false;
}
if (!test_EnumPrinterData_all(tctx, p, &handle)) {
ret = false;
}
if (!test_EnumPrinterDataEx(tctx, b, &handle, "PrinterDriverData", NULL, NULL)) {
ret = false;
}
if (!test_EnumPrinterData_consistency(tctx, p, &handle)) {
ret = false;
}
if (!test_printer_keys(tctx, b, &handle)) {
ret = false;
}
if (!test_PausePrinter(tctx, b, &handle)) {
ret = false;
}
if (!test_DoPrintTest(tctx, b, &handle)) {
ret = false;
}
if (!test_ResumePrinter(tctx, b, &handle)) {
ret = false;
}
if (!test_SetPrinterData_matrix(tctx, b, &handle, name, NULL, NULL)) {
ret = false;
}
if (!test_SetPrinterDataEx_matrix(tctx, p, &handle, name, NULL, NULL)) {
ret = false;
}
if (!torture_setting_bool(tctx, "samba3", false)) {
if (!test_SecondaryClosePrinter(tctx, p, &handle)) {
ret = false;
}
}
if (!test_ClosePrinter(tctx, b, &handle)) {
ret = false;
}
return ret;
}
static bool test_EnumPrinters_old(struct torture_context *tctx,
struct dcerpc_pipe *p,
const char *environment)
{
struct spoolss_EnumPrinters r;
NTSTATUS status;
uint16_t levels[] = {1, 2, 4, 5};
int i;
bool ret = true;
struct dcerpc_binding_handle *b = p->binding_handle;
for (i=0;i<ARRAY_SIZE(levels);i++) {
union spoolss_PrinterInfo *info;
int j;
uint32_t needed;
uint32_t count;
r.in.flags = PRINTER_ENUM_LOCAL;
r.in.server = "";
r.in.level = levels[i];
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumPrinters level %u\n", r.in.level);
status = dcerpc_spoolss_EnumPrinters_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "EnumPrinters failed");
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumPrinters_r(b, tctx, &r);
}
torture_assert_ntstatus_ok(tctx, status, "EnumPrinters failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumPrinters failed");
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumPrinters, info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
if (!info) {
torture_comment(tctx, "No printers returned\n");
return true;
}
for (j=0;j<count;j++) {
if (r.in.level == 1) {
char *unc = talloc_strdup(tctx, info[j].info1.name);
char *slash, *name;
name = unc;
if (unc[0] == '\\' && unc[1] == '\\') {
unc +=2;
}
slash = strchr(unc, '\\');
if (slash) {
slash++;
name = slash;
}
if (!test_OpenPrinter(tctx, p, name, environment)) {
ret = false;
}
if (!test_OpenPrinterEx(tctx, p, name, environment)) {
ret = false;
}
}
}
}
return ret;
}
static bool test_GetPrinterDriver(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *driver_name)
{
struct spoolss_GetPrinterDriver r;
uint32_t needed;
r.in.handle = handle;
r.in.architecture = "W32X86";
r.in.level = 1;
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
torture_comment(tctx, "Testing GetPrinterDriver level %d\n", r.in.level);
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_GetPrinterDriver_r(b, tctx, &r),
"failed to call GetPrinterDriver");
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_GetPrinterDriver_r(b, tctx, &r),
"failed to call GetPrinterDriver");
}
torture_assert_werr_ok(tctx, r.out.result,
"failed to call GetPrinterDriver");
CHECK_NEEDED_SIZE_LEVEL(spoolss_DriverInfo, r.out.info, r.in.level, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
return true;
}
static bool test_GetPrinterDriver2(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *driver_name,
const char *architecture)
{
struct spoolss_GetPrinterDriver2 r;
uint16_t levels[] = {1, 2, 3, 4, 5, 6, 8, 101 };
uint32_t needed;
uint32_t server_major_version;
uint32_t server_minor_version;
int i;
r.in.handle = handle;
r.in.architecture = architecture;
r.in.client_major_version = 3;
r.in.client_minor_version = 0;
r.out.needed = &needed;
r.out.server_major_version = &server_major_version;
r.out.server_minor_version = &server_minor_version;
for (i=0;i<ARRAY_SIZE(levels);i++) {
r.in.buffer = NULL;
r.in.offered = 0;
r.in.level = levels[i];
torture_comment(tctx, "Testing GetPrinterDriver2(%s) level %d\n",
driver_name, r.in.level);
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_GetPrinterDriver2_r(b, tctx, &r),
"failed to call GetPrinterDriver2");
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_GetPrinterDriver2_r(b, tctx, &r),
"failed to call GetPrinterDriver2");
}
if (W_ERROR_EQUAL(r.out.result, WERR_INVALID_LEVEL)) {
switch (r.in.level) {
case 101:
case 8:
continue;
default:
break;
}
}
torture_assert_werr_ok(tctx, r.out.result,
"failed to call GetPrinterDriver2");
CHECK_NEEDED_SIZE_LEVEL(spoolss_DriverInfo, r.out.info, r.in.level, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
}
return true;
}
static bool test_EnumPrinterDrivers_old(struct torture_context *tctx,
struct dcerpc_pipe *p,
const char *environment)
{
struct spoolss_EnumPrinterDrivers r;
NTSTATUS status;
uint16_t levels[] = {1, 2, 3, 4, 5, 6};
int i;
struct dcerpc_binding_handle *b = p->binding_handle;
for (i=0;i<ARRAY_SIZE(levels);i++) {
uint32_t needed;
uint32_t count;
union spoolss_DriverInfo *info;
r.in.server = talloc_asprintf(tctx, "\\\\%s", dcerpc_server_name(p));
r.in.environment = environment;
r.in.level = levels[i];
r.in.buffer = NULL;
r.in.offered = 0;
r.out.needed = &needed;
r.out.count = &count;
r.out.info = &info;
torture_comment(tctx, "Testing EnumPrinterDrivers level %u\n", r.in.level);
status = dcerpc_spoolss_EnumPrinterDrivers_r(b, tctx, &r);
torture_assert_ntstatus_ok(tctx, status, "EnumPrinterDrivers failed");
if (W_ERROR_EQUAL(r.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
r.in.buffer = &blob;
r.in.offered = needed;
status = dcerpc_spoolss_EnumPrinterDrivers_r(b, tctx, &r);
}
torture_assert_ntstatus_ok(tctx, status, "EnumPrinterDrivers failed");
torture_assert_werr_ok(tctx, r.out.result, "EnumPrinterDrivers failed");
if (!info) {
torture_comment(tctx, "No printer drivers returned\n");
break;
}
CHECK_NEEDED_SIZE_ENUM_LEVEL(spoolss_EnumPrinterDrivers, info, r.in.level, count, lp_iconv_convenience(tctx->lp_ctx), needed, 4);
}
return true;
}
static bool test_DeletePrinter(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
struct spoolss_DeletePrinter r;
torture_comment(tctx, "Testing DeletePrinter\n");
r.in.handle = handle;
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_DeletePrinter_r(b, tctx, &r),
"failed to delete printer");
torture_assert_werr_ok(tctx, r.out.result,
"failed to delete printer");
return true;
}
static bool test_EnumPrinters_findname(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
uint32_t flags,
uint32_t level,
const char *name,
bool *found)
{
struct spoolss_EnumPrinters e;
uint32_t count;
union spoolss_PrinterInfo *info;
uint32_t needed;
int i;
*found = false;
e.in.flags = flags;
e.in.server = NULL;
e.in.level = level;
e.in.buffer = NULL;
e.in.offered = 0;
e.out.count = &count;
e.out.info = &info;
e.out.needed = &needed;
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_EnumPrinters_r(b, tctx, &e),
"failed to enum printers");
if (W_ERROR_EQUAL(e.out.result, WERR_INSUFFICIENT_BUFFER)) {
DATA_BLOB blob = data_blob_talloc(tctx, NULL, needed);
data_blob_clear(&blob);
e.in.buffer = &blob;
e.in.offered = needed;
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_EnumPrinters_r(b, tctx, &e),
"failed to enum printers");
}
torture_assert_werr_ok(tctx, e.out.result,
"failed to enum printers");
for (i=0; i < count; i++) {
const char *current = NULL;
const char *q;
switch (level) {
case 1:
current = info[i].info1.name;
break;
}
if (strequal(current, name)) {
*found = true;
break;
}
q = strrchr(current, '\\');
if (q) {
if (!e.in.server) {
torture_warning(tctx,
"server returns printername %s incl. servername although we did not set servername", current);
}
q++;
if (strequal(q, name)) {
*found = true;
break;
}
}
}
return true;
}
static bool test_AddPrinter_wellknown(struct torture_context *tctx,
struct dcerpc_pipe *p,
const char *printername,
bool ex)
{
WERROR result;
struct spoolss_AddPrinter r;
struct spoolss_AddPrinterEx rex;
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_SetPrinterInfo1 info1;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
struct spoolss_UserLevelCtr userlevel_ctr;
struct policy_handle handle;
bool found = false;
struct dcerpc_binding_handle *b = p->binding_handle;
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
ZERO_STRUCT(userlevel_ctr);
ZERO_STRUCT(info1);
torture_comment(tctx, "Testing AddPrinter%s level 1\n", ex ? "Ex":"");
/* try to add printer to wellknown printer list (level 1) */
userlevel_ctr.level = 1;
info_ctr.info.info1 = &info1;
info_ctr.level = 1;
rex.in.server = NULL;
rex.in.info_ctr = &info_ctr;
rex.in.devmode_ctr = &devmode_ctr;
rex.in.secdesc_ctr = &secdesc_ctr;
rex.in.userlevel_ctr = &userlevel_ctr;
rex.out.handle = &handle;
r.in.server = NULL;
r.in.info_ctr = &info_ctr;
r.in.devmode_ctr = &devmode_ctr;
r.in.secdesc_ctr = &secdesc_ctr;
r.out.handle = &handle;
torture_assert_ntstatus_ok(tctx, ex ? dcerpc_spoolss_AddPrinterEx_r(b, tctx, &rex) :
dcerpc_spoolss_AddPrinter_r(b, tctx, &r),
"failed to add printer");
result = ex ? rex.out.result : r.out.result;
torture_assert_werr_equal(tctx, result, WERR_INVALID_PRINTER_NAME,
"unexpected result code");
info1.name = printername;
info1.flags = PRINTER_ATTRIBUTE_SHARED;
torture_assert_ntstatus_ok(tctx, ex ? dcerpc_spoolss_AddPrinterEx_r(b, tctx, &rex) :
dcerpc_spoolss_AddPrinter_r(b, tctx, &r),
"failed to add printer");
result = ex ? rex.out.result : r.out.result;
torture_assert_werr_equal(tctx, result, WERR_PRINTER_ALREADY_EXISTS,
"unexpected result code");
/* bizarre protocol, WERR_PRINTER_ALREADY_EXISTS means success here,
better do a real check to see the printer is really there */
torture_assert(tctx, test_EnumPrinters_findname(tctx, b,
PRINTER_ENUM_NETWORK, 1,
printername,
&found),
"failed to enum printers");
torture_assert(tctx, found, "failed to find newly added printer");
info1.flags = 0;
torture_assert_ntstatus_ok(tctx, ex ? dcerpc_spoolss_AddPrinterEx_r(b, tctx, &rex) :
dcerpc_spoolss_AddPrinter_r(b, tctx, &r),
"failed to add printer");
result = ex ? rex.out.result : r.out.result;
torture_assert_werr_equal(tctx, result, WERR_PRINTER_ALREADY_EXISTS,
"unexpected result code");
/* bizarre protocol, WERR_PRINTER_ALREADY_EXISTS means success here,
better do a real check to see the printer has really been removed
from the well known printer list */
found = false;
torture_assert(tctx, test_EnumPrinters_findname(tctx, b,
PRINTER_ENUM_NETWORK, 1,
printername,
&found),
"failed to enum printers");
#if 0
torture_assert(tctx, !found, "printer still in well known printer list");
#endif
return true;
}
static bool test_AddPrinter_normal(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle_p,
const char *printername,
const char *drivername,
const char *portname,
bool ex)
{
WERROR result;
struct spoolss_AddPrinter r;
struct spoolss_AddPrinterEx rex;
struct spoolss_SetPrinterInfoCtr info_ctr;
struct spoolss_SetPrinterInfo2 info2;
struct spoolss_DevmodeContainer devmode_ctr;
struct sec_desc_buf secdesc_ctr;
struct spoolss_UserLevelCtr userlevel_ctr;
struct policy_handle handle;
bool found = false;
bool existing_printer_deleted = false;
struct dcerpc_binding_handle *b = p->binding_handle;
ZERO_STRUCT(devmode_ctr);
ZERO_STRUCT(secdesc_ctr);
ZERO_STRUCT(userlevel_ctr);
torture_comment(tctx, "Testing AddPrinter%s level 2\n", ex ? "Ex":"");
userlevel_ctr.level = 1;
rex.in.server = NULL;
rex.in.info_ctr = &info_ctr;
rex.in.devmode_ctr = &devmode_ctr;
rex.in.secdesc_ctr = &secdesc_ctr;
rex.in.userlevel_ctr = &userlevel_ctr;
rex.out.handle = &handle;
r.in.server = NULL;
r.in.info_ctr = &info_ctr;
r.in.devmode_ctr = &devmode_ctr;
r.in.secdesc_ctr = &secdesc_ctr;
r.out.handle = &handle;
again:
/* try to add printer to printer list (level 2) */
ZERO_STRUCT(info2);
info_ctr.info.info2 = &info2;
info_ctr.level = 2;
torture_assert_ntstatus_ok(tctx, ex ? dcerpc_spoolss_AddPrinterEx_r(b, tctx, &rex) :
dcerpc_spoolss_AddPrinter_r(b, tctx, &r),
"failed to add printer");
result = ex ? rex.out.result : r.out.result;
torture_assert_werr_equal(tctx, result, WERR_INVALID_PRINTER_NAME,
"unexpected result code");
info2.printername = printername;
torture_assert_ntstatus_ok(tctx, ex ? dcerpc_spoolss_AddPrinterEx_r(b, tctx, &rex) :
dcerpc_spoolss_AddPrinter_r(b, tctx, &r),
"failed to add printer");
result = ex ? rex.out.result : r.out.result;
if (W_ERROR_EQUAL(result, WERR_PRINTER_ALREADY_EXISTS)) {
struct policy_handle printer_handle;
if (existing_printer_deleted) {
torture_fail(tctx, "already deleted printer still existing?");
}
torture_assert(tctx, call_OpenPrinterEx(tctx, p, printername, NULL, &printer_handle),
"failed to open printer handle");
torture_assert(tctx, test_DeletePrinter(tctx, b, &printer_handle),
"failed to delete printer");
torture_assert(tctx, test_ClosePrinter(tctx, b, &printer_handle),
"failed to close server handle");
existing_printer_deleted = true;
goto again;
}
torture_assert_werr_equal(tctx, result, WERR_UNKNOWN_PORT,
"unexpected result code");
info2.portname = portname;
torture_assert_ntstatus_ok(tctx, ex ? dcerpc_spoolss_AddPrinterEx_r(b, tctx, &rex) :
dcerpc_spoolss_AddPrinter_r(b, tctx, &r),
"failed to add printer");
result = ex ? rex.out.result : r.out.result;
torture_assert_werr_equal(tctx, result, WERR_UNKNOWN_PRINTER_DRIVER,
"unexpected result code");
info2.drivername = drivername;
torture_assert_ntstatus_ok(tctx, ex ? dcerpc_spoolss_AddPrinterEx_r(b, tctx, &rex) :
dcerpc_spoolss_AddPrinter_r(b, tctx, &r),
"failed to add printer");
result = ex ? rex.out.result : r.out.result;
/* w2k8r2 allows to add printer w/o defining printprocessor */
if (!W_ERROR_IS_OK(result)) {
torture_assert_werr_equal(tctx, result, WERR_UNKNOWN_PRINTPROCESSOR,
"unexpected result code");
info2.printprocessor = "winprint";
torture_assert_ntstatus_ok(tctx, ex ? dcerpc_spoolss_AddPrinterEx_r(b, tctx, &rex) :
dcerpc_spoolss_AddPrinter_r(b, tctx, &r),
"failed to add printer");
result = ex ? rex.out.result : r.out.result;
torture_assert_werr_ok(tctx, result,
"failed to add printer");
}
*handle_p = handle;
/* we are paranoid, really check if the printer is there now */
torture_assert(tctx, test_EnumPrinters_findname(tctx, b,
PRINTER_ENUM_LOCAL, 1,
printername,
&found),
"failed to enum printers");
torture_assert(tctx, found, "failed to find newly added printer");
torture_assert_ntstatus_ok(tctx, ex ? dcerpc_spoolss_AddPrinterEx_r(b, tctx, &rex) :
dcerpc_spoolss_AddPrinter_r(b, tctx, &r),
"failed to add printer");
result = ex ? rex.out.result : r.out.result;
torture_assert_werr_equal(tctx, result, WERR_PRINTER_ALREADY_EXISTS,
"unexpected result code");
return true;
}
static bool test_AddPrinterEx(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle_p,
const char *printername,
const char *drivername,
const char *portname)
{
bool ret = true;
if (!torture_setting_bool(tctx, "samba3", false)) {
if (!test_AddPrinter_wellknown(tctx, p, TORTURE_WELLKNOWN_PRINTER_EX, true)) {
torture_comment(tctx, "failed to add printer to well known list\n");
ret = false;
}
}
if (!test_AddPrinter_normal(tctx, p, handle_p,
printername, drivername, portname,
true)) {
torture_comment(tctx, "failed to add printer to printer list\n");
ret = false;
}
return ret;
}
static bool test_AddPrinter(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle_p,
const char *printername,
const char *drivername,
const char *portname)
{
bool ret = true;
if (!torture_setting_bool(tctx, "samba3", false)) {
if (!test_AddPrinter_wellknown(tctx, p, TORTURE_WELLKNOWN_PRINTER, false)) {
torture_comment(tctx, "failed to add printer to well known list\n");
ret = false;
}
}
if (!test_AddPrinter_normal(tctx, p, handle_p,
printername, drivername, portname,
false)) {
torture_comment(tctx, "failed to add printer to printer list\n");
ret = false;
}
return ret;
}
static bool test_printer_info(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
bool ret = true;
if (torture_setting_bool(tctx, "samba3", false)) {
torture_skip(tctx, "skipping printer info cross tests against samba 3");
}
if (!test_PrinterInfo(tctx, b, handle)) {
ret = false;
}
if (!test_SetPrinter_errors(tctx, b, handle)) {
ret = false;
}
return ret;
}
static bool test_EnumPrinterKey(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle,
const char *key_name,
const char ***array)
{
struct spoolss_EnumPrinterKey r;
uint32_t needed = 0;
union spoolss_KeyNames key_buffer;
int32_t offered[] = { 0, 1, 2, 3, 4, 5, -1, -2, -3, -4, -5, 256, 512, 1024, 2048 };
uint32_t _ndr_size;
int i;
r.in.handle = handle;
r.in.key_name = key_name;
r.out.key_buffer = &key_buffer;
r.out.needed = &needed;
r.out._ndr_size = &_ndr_size;
for (i=0; i < ARRAY_SIZE(offered); i++) {
if (offered[i] < 0 && needed) {
if (needed <= 4) {
continue;
}
r.in.offered = needed + offered[i];
} else {
r.in.offered = offered[i];
}
ZERO_STRUCT(key_buffer);
torture_comment(tctx, "Testing EnumPrinterKey(%s) with %d offered\n", r.in.key_name, r.in.offered);
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_EnumPrinterKey_r(b, tctx, &r),
"failed to call EnumPrinterKey");
if (W_ERROR_EQUAL(r.out.result, WERR_MORE_DATA)) {
torture_assert(tctx, (_ndr_size == r.in.offered/2),
talloc_asprintf(tctx, "EnumPrinterKey size mismatch, _ndr_size %d (expected %d)",
_ndr_size, r.in.offered/2));
r.in.offered = needed;
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_EnumPrinterKey_r(b, tctx, &r),
"failed to call EnumPrinterKey");
}
if (offered[i] > 0) {
torture_assert_werr_ok(tctx, r.out.result,
"failed to call EnumPrinterKey");
}
torture_assert(tctx, (_ndr_size == r.in.offered/2),
talloc_asprintf(tctx, "EnumPrinterKey size mismatch, _ndr_size %d (expected %d)",
_ndr_size, r.in.offered/2));
torture_assert(tctx, (*r.out.needed <= r.in.offered),
talloc_asprintf(tctx, "EnumPrinterKey size mismatch: needed %d is not <= offered %d", *r.out.needed, r.in.offered));
torture_assert(tctx, (*r.out.needed <= _ndr_size * 2),
talloc_asprintf(tctx, "EnumPrinterKey size mismatch: needed %d is not <= _ndr_size %d * 2", *r.out.needed, _ndr_size));
if (key_buffer.string_array) {
uint32_t calc_needed = 0;
int s;
for (s=0; key_buffer.string_array[s]; s++) {
calc_needed += strlen_m_term(key_buffer.string_array[s])*2;
}
if (!key_buffer.string_array[0]) {
calc_needed += 2;
}
calc_needed += 2;
torture_assert_int_equal(tctx, *r.out.needed, calc_needed,
"EnumPrinterKey unexpected size");
}
}
if (array) {
*array = key_buffer.string_array;
}
return true;
}
bool test_printer_keys(struct torture_context *tctx,
struct dcerpc_binding_handle *b,
struct policy_handle *handle)
{
const char **key_array = NULL;
int i;
torture_comment(tctx, "Testing Printer Keys\n");
torture_assert(tctx, test_EnumPrinterKey(tctx, b, handle, "", &key_array),
"failed to call test_EnumPrinterKey");
for (i=0; key_array && key_array[i]; i++) {
torture_assert(tctx, test_EnumPrinterKey(tctx, b, handle, key_array[i], NULL),
"failed to call test_EnumPrinterKey");
}
for (i=0; key_array && key_array[i]; i++) {
torture_assert(tctx, test_EnumPrinterDataEx(tctx, b, handle, key_array[i], NULL, NULL),
"failed to call test_EnumPrinterDataEx");
}
torture_comment(tctx, "Printer Keys test succeeded\n\n");
return true;
}
static bool test_one_printer(struct torture_context *tctx,
struct dcerpc_pipe *p,
struct policy_handle *handle,
const char *name)
{
bool ret = true;
struct dcerpc_binding_handle *b = p->binding_handle;
if (!test_PausePrinter(tctx, b, handle)) {
ret = false;
}
if (!test_DoPrintTest(tctx, b, handle)) {
ret = false;
}
if (!test_ResumePrinter(tctx, b, handle)) {
ret = false;
}
if (!test_printer_info(tctx, b, handle)) {
ret = false;
}
if (!test_PrinterInfo_SD(tctx, b, handle)) {
ret = false;
}
if (!test_PrinterInfo_DevMode(tctx, p, handle, name)) {
ret = false;
}
if (!test_ChangeID(tctx, p, handle)) {
ret = false;
}
if (!test_printer_keys(tctx, b, handle)) {
ret = false;
}
if (!test_EnumPrinterData_consistency(tctx, p, handle)) {
ret = false;
}
if (!test_SetPrinterDataEx_matrix(tctx, p, handle, name, NULL, NULL)) {
ret = false;
}
if (!test_PrinterData_winreg(tctx, p, handle, name)) {
ret = false;
}
if (!test_printer_rename(tctx, p, handle, name)) {
ret = false;
}
return ret;
}
static bool test_printer(struct torture_context *tctx,
struct dcerpc_pipe *p)
{
bool ret = true;
struct policy_handle handle[2];
bool found = false;
const char *drivername = "Microsoft XPS Document Writer";
const char *portname = "LPT1:";
struct dcerpc_binding_handle *b = p->binding_handle;
/* test printer created via AddPrinter */
if (!test_AddPrinter(tctx, p, &handle[0], TORTURE_PRINTER, drivername, portname)) {
return false;
}
if (!test_one_printer(tctx, p, &handle[0], TORTURE_PRINTER)) {
ret = false;
}
if (!test_DeletePrinter(tctx, b, &handle[0])) {
ret = false;
}
if (!test_EnumPrinters_findname(tctx, b, PRINTER_ENUM_LOCAL, 1,
TORTURE_PRINTER, &found)) {
ret = false;
}
torture_assert(tctx, !found, "deleted printer still there");
/* test printer created via AddPrinterEx */
if (!test_AddPrinterEx(tctx, p, &handle[1], TORTURE_PRINTER_EX, drivername, portname)) {
return false;
}
if (!test_one_printer(tctx, p, &handle[1], TORTURE_PRINTER_EX)) {
ret = false;
}
if (!test_DeletePrinter(tctx, b, &handle[1])) {
ret = false;
}
if (!test_EnumPrinters_findname(tctx, b, PRINTER_ENUM_LOCAL, 1,
TORTURE_PRINTER_EX, &found)) {
ret = false;
}
torture_assert(tctx, !found, "deleted printer still there");
return ret;
}
static bool test_architecture_buffer(struct torture_context *tctx,
struct dcerpc_pipe *p)
{
struct spoolss_OpenPrinterEx r;
struct spoolss_UserLevel1 u1;
struct policy_handle handle;
uint32_t architectures[] = {
PROCESSOR_ARCHITECTURE_INTEL,
PROCESSOR_ARCHITECTURE_IA64,
PROCESSOR_ARCHITECTURE_AMD64
};
uint32_t needed[3];
int i;
struct dcerpc_binding_handle *b = p->binding_handle;
for (i=0; i < ARRAY_SIZE(architectures); i++) {
torture_comment(tctx, "Testing OpenPrinterEx with architecture %d\n", architectures[i]);
u1.size = 0;
u1.client = NULL;
u1.user = NULL;
u1.build = 0;
u1.major = 3;
u1.minor = 0;
u1.processor = architectures[i];
r.in.printername = talloc_asprintf(tctx, "\\\\%s", dcerpc_server_name(p));
r.in.datatype = NULL;
r.in.devmode_ctr.devmode= NULL;
r.in.access_mask = SEC_FLAG_MAXIMUM_ALLOWED;
r.in.level = 1;
r.in.userlevel.level1 = &u1;
r.out.handle = &handle;
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_OpenPrinterEx_r(b, tctx, &r), "");
torture_assert_werr_ok(tctx, r.out.result, "");
{
struct spoolss_EnumPrinters e;
uint32_t count;
union spoolss_PrinterInfo *info;
e.in.flags = PRINTER_ENUM_LOCAL;
e.in.server = NULL;
e.in.level = 2;
e.in.buffer = NULL;
e.in.offered = 0;
e.out.count = &count;
e.out.info = &info;
e.out.needed = &needed[i];
torture_assert_ntstatus_ok(tctx, dcerpc_spoolss_EnumPrinters_r(b, tctx, &e), "");
#if 0
torture_comment(tctx, "needed was %d\n", needed[i]);
#endif
}
torture_assert(tctx, test_ClosePrinter(tctx, b, &handle), "");
}
for (i=1; i < ARRAY_SIZE(architectures); i++) {
if (needed[i-1] != needed[i]) {
torture_fail(tctx,
talloc_asprintf(tctx, "needed size %d for architecture %d != needed size %d for architecture %d\n",
needed[i-1], architectures[i-1], needed[i], architectures[i]));
}
}
return true;
}
bool torture_rpc_spoolss(struct torture_context *torture)
{
NTSTATUS status;
struct dcerpc_pipe *p;
struct dcerpc_binding_handle *b;
bool ret = true;
struct test_spoolss_context *ctx;
const char *environment = SPOOLSS_ARCHITECTURE_NT_X86;
status = torture_rpc_connection(torture, &p, &ndr_table_spoolss);
if (!NT_STATUS_IS_OK(status)) {
return false;
}
b = p->binding_handle;
ctx = talloc_zero(torture, struct test_spoolss_context);
ret &= test_OpenPrinter_server(torture, p, &ctx->server_handle);
ret &= test_GetPrinterData_list(torture, p, &ctx->server_handle, &environment);
ret &= test_EnumForms(torture, b, &ctx->server_handle, true);
ret &= test_AddForm(torture, b, &ctx->server_handle, true);
ret &= test_EnumPorts(torture, b, ctx);
ret &= test_GetPrinterDriverDirectory(torture, p, ctx, environment);
ret &= test_GetPrintProcessorDirectory(torture, p, ctx, environment);
ret &= test_EnumPrinterDrivers(torture, p, ctx, environment);
ret &= test_EnumPrinterDrivers(torture, p, ctx, SPOOLSS_ARCHITECTURE_ALL);
ret &= test_EnumMonitors(torture, b, ctx);
ret &= test_EnumPrintProcessors(torture, b, ctx, environment);
ret &= test_EnumPrintProcDataTypes(torture, b, ctx);
ret &= test_EnumPrinters(torture, b, ctx);
ret &= test_OpenPrinter_badname(torture, b, "__INVALID_PRINTER__");
ret &= test_OpenPrinter_badname(torture, b, "\\\\__INVALID_HOST__");
ret &= test_OpenPrinter_badname(torture, b, "");
ret &= test_OpenPrinter_badname(torture, b, "\\\\\\");
ret &= test_OpenPrinter_badname(torture, b, "\\\\\\__INVALID_PRINTER__");
ret &= test_OpenPrinter_badname(torture, b, talloc_asprintf(torture, "\\\\%s\\", dcerpc_server_name(p)));
ret &= test_OpenPrinter_badname(torture, b,
talloc_asprintf(torture, "\\\\%s\\__INVALID_PRINTER__", dcerpc_server_name(p)));
ret &= test_AddPort(torture, p);
ret &= test_EnumPorts_old(torture, p);
ret &= test_EnumPrinters_old(torture, p, environment);
ret &= test_EnumPrinterDrivers_old(torture, p, environment);
ret &= test_architecture_buffer(torture, p);
return ret;
}
struct torture_suite *torture_rpc_spoolss_printer(TALLOC_CTX *mem_ctx)
{
struct torture_suite *suite = torture_suite_create(mem_ctx, "SPOOLSS-PRINTER");
struct torture_rpc_tcase *tcase = torture_suite_add_rpc_iface_tcase(suite,
"printer", &ndr_table_spoolss);
torture_rpc_tcase_add_test(tcase, "printer", test_printer);
return suite;
}