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/*
* Network Store Interface tests
*
* Copyright 2021 Huw Davies
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "winsock2.h"
#include "winternl.h"
#include "ws2ipdef.h"
#include "iphlpapi.h"
#include "netioapi.h"
#include "iptypes.h"
#include "netiodef.h"
#include "wine/nsi.h"
#include "wine/test.h"
#define expect_bounded(name,val,lo,hi) expect_bounded_(__LINE__,name,val,lo,hi)
static void expect_bounded_( int line, const char* name, ULONG64 val, ULONG64 lo, ULONG64 hi )
{
ok_(__FILE__, line)( lo <= val && val <= hi, "%s: %I64d not in [%I64d %I64d]\n",
name, val, lo, hi );
}
static int unstable( int val )
{
return !winetest_interactive || val;
}
static void test_nsi_api( void )
{
DWORD rw_sizes[] = { FIELD_OFFSET(struct nsi_ndis_ifinfo_rw, name2), FIELD_OFFSET(struct nsi_ndis_ifinfo_rw, unk),
sizeof(struct nsi_ndis_ifinfo_rw) };
struct nsi_ndis_ifinfo_rw *rw_tbl, *rw, get_rw, *enum_rw_tbl, *enum_rw;
struct nsi_ndis_ifinfo_dynamic *dyn_tbl, *dyn, get_dyn, *enum_dyn_tbl, *enum_dyn;
struct nsi_ndis_ifinfo_static *stat_tbl, *stat, get_stat, *enum_stat_tbl, *enum_stat;
struct nsi_get_all_parameters_ex get_all_params;
struct nsi_get_parameter_ex get_param;
struct nsi_enumerate_all_ex enum_params;
DWORD err, count, i, rw_size, enum_count;
NET_LUID *luid_tbl, *enum_luid_tbl;
/* Use the NDIS ifinfo table to test various api */
for (i = 0; i < ARRAY_SIZE(rw_sizes); i++)
{
err = NsiAllocateAndGetTable( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, (void **)&luid_tbl, sizeof(*luid_tbl),
(void **)&rw_tbl, rw_sizes[i], (void **)&dyn_tbl, sizeof(*dyn_tbl),
(void **)&stat_tbl, sizeof(*stat_tbl), &count, 0 );
if (!err) break;
}
ok( !err, "got %d\n", err );
rw_size = rw_sizes[i];
for (i = 0; i < count; i++)
{
winetest_push_context( "%d", i );
rw = (struct nsi_ndis_ifinfo_rw *)((BYTE *)rw_tbl + i * rw_size);
dyn = dyn_tbl + i;
stat = stat_tbl + i;
err = NsiGetAllParameters( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, luid_tbl + i, sizeof(*luid_tbl),
&get_rw, rw_size, &get_dyn, sizeof(get_dyn), &get_stat, sizeof(get_stat) );
ok( !err, "got %d\n", err );
/* test a selection of members */
ok( IsEqualGUID( &get_rw.network_guid, &rw->network_guid ), "mismatch\n" );
ok( get_rw.alias.Length == rw->alias.Length, "mismatch\n" );
ok( !memcmp( get_rw.alias.String, rw->alias.String, rw->alias.Length ), "mismatch\n" );
ok( get_rw.phys_addr.Length == rw->phys_addr.Length, "mismatch\n" );
ok( !memcmp( get_rw.phys_addr.Address, rw->phys_addr.Address, IF_MAX_PHYS_ADDRESS_LENGTH ), "mismatch\n" );
ok( get_dyn.oper_status == dyn->oper_status, "mismatch\n" );
ok( get_stat.if_index == stat->if_index, "mismatch\n" );
ok( IsEqualGUID( &get_stat.if_guid, &stat->if_guid ), "mismatch\n" );
memset( &get_rw, 0xcc, sizeof(get_rw) );
memset( &get_dyn, 0xcc, sizeof(get_dyn) );
memset( &get_stat, 0xcc, sizeof(get_stat) );
memset( &get_all_params, 0, sizeof(get_all_params) );
get_all_params.first_arg = 1;
get_all_params.module = &NPI_MS_NDIS_MODULEID;
get_all_params.table = NSI_NDIS_IFINFO_TABLE;
get_all_params.key = luid_tbl + i;
get_all_params.key_size = sizeof(*luid_tbl);
get_all_params.rw_data = &get_rw;
get_all_params.rw_size = rw_size;
get_all_params.dynamic_data = &get_dyn;
get_all_params.dynamic_size = sizeof(get_dyn);
get_all_params.static_data = &get_stat;
get_all_params.static_size = sizeof(get_stat);
err = NsiGetAllParametersEx( &get_all_params );
ok( !err, "got %d\n", err );
/* test a selection of members */
ok( IsEqualGUID( &get_rw.network_guid, &rw->network_guid ), "mismatch\n" );
ok( get_rw.alias.Length == rw->alias.Length, "mismatch\n" );
ok( !memcmp( get_rw.alias.String, rw->alias.String, rw->alias.Length ), "mismatch\n" );
ok( get_rw.phys_addr.Length == rw->phys_addr.Length, "mismatch\n" );
ok( !memcmp( get_rw.phys_addr.Address, rw->phys_addr.Address, IF_MAX_PHYS_ADDRESS_LENGTH ), "mismatch\n" );
ok( get_dyn.oper_status == dyn->oper_status, "mismatch\n" );
ok( get_stat.if_index == stat->if_index, "mismatch\n" );
ok( IsEqualGUID( &get_stat.if_guid, &stat->if_guid ), "mismatch\n" );
memset( &get_rw, 0xcc, sizeof(get_rw) );
memset( &get_dyn, 0xcc, sizeof(get_dyn) );
memset( &get_stat, 0xcc, sizeof(get_stat) );
err = NsiGetParameter( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, luid_tbl + i, sizeof(*luid_tbl),
NSI_PARAM_TYPE_RW, &get_rw.alias, sizeof(get_rw.alias),
FIELD_OFFSET(struct nsi_ndis_ifinfo_rw, alias) );
ok( !err, "got %d\n", err );
ok( get_rw.alias.Length == rw->alias.Length, "mismatch\n" );
ok( !memcmp( get_rw.alias.String, rw->alias.String, rw->alias.Length ), "mismatch\n" );
err = NsiGetParameter( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, luid_tbl + i, sizeof(*luid_tbl),
NSI_PARAM_TYPE_STATIC, &get_stat.if_index, sizeof(get_stat.if_index),
FIELD_OFFSET(struct nsi_ndis_ifinfo_static, if_index) );
ok( !err, "got %d\n", err );
ok( get_stat.if_index == stat->if_index, "mismatch\n" );
err = NsiGetParameter( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, luid_tbl + i, sizeof(*luid_tbl),
NSI_PARAM_TYPE_STATIC, &get_stat.if_guid, sizeof(get_stat.if_guid),
FIELD_OFFSET(struct nsi_ndis_ifinfo_static, if_guid) );
ok( !err, "got %d\n", err );
ok( IsEqualGUID( &get_stat.if_guid, &stat->if_guid ), "mismatch\n" );
memset( &get_rw, 0xcc, sizeof(get_rw) );
memset( &get_dyn, 0xcc, sizeof(get_dyn) );
memset( &get_stat, 0xcc, sizeof(get_stat) );
memset( &get_param, 0, sizeof(get_param) );
get_param.first_arg = 1;
get_param.module = &NPI_MS_NDIS_MODULEID;
get_param.table = NSI_NDIS_IFINFO_TABLE;
get_param.key = luid_tbl + i;
get_param.key_size = sizeof(*luid_tbl);
get_param.param_type = NSI_PARAM_TYPE_RW;
get_param.data = &get_rw.alias;
get_param.data_size = sizeof(get_rw.alias);
get_param.data_offset = FIELD_OFFSET(struct nsi_ndis_ifinfo_rw, alias);
err = NsiGetParameterEx( &get_param );
ok( !err, "got %d\n", err );
ok( get_rw.alias.Length == rw->alias.Length, "mismatch\n" );
ok( !memcmp( get_rw.alias.String, rw->alias.String, rw->alias.Length ), "mismatch\n" );
get_param.param_type = NSI_PARAM_TYPE_STATIC;
get_param.data = &get_stat.if_index;
get_param.data_size = sizeof(get_stat.if_index);
get_param.data_offset = FIELD_OFFSET(struct nsi_ndis_ifinfo_static, if_index);
err = NsiGetParameterEx( &get_param );
ok( !err, "got %d\n", err );
ok( get_stat.if_index == stat->if_index, "mismatch\n" );
get_param.param_type = NSI_PARAM_TYPE_STATIC;
get_param.data = &get_stat.if_guid;
get_param.data_size = sizeof(get_stat.if_guid);
get_param.data_offset = FIELD_OFFSET(struct nsi_ndis_ifinfo_static, if_guid);
err = NsiGetParameterEx( &get_param );
ok( !err, "got %d\n", err );
ok( IsEqualGUID( &get_stat.if_guid, &stat->if_guid ), "mismatch\n" );
winetest_pop_context();
}
enum_count = 0;
err = NsiEnumerateObjectsAllParameters( 1, 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE,
NULL, 0, NULL, 0,
NULL, 0, NULL, 0, &enum_count );
ok( !err, "got %d\n", err );
ok( enum_count == count, "mismatch\n" );
enum_luid_tbl = malloc( count * sizeof(*enum_luid_tbl) );
enum_rw_tbl = malloc( count * rw_size );
enum_dyn_tbl = malloc( count * sizeof(*enum_dyn_tbl) );
enum_stat_tbl = malloc( count * sizeof(*enum_stat_tbl) );
err = NsiEnumerateObjectsAllParameters( 1, 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE,
enum_luid_tbl, sizeof(*enum_luid_tbl), enum_rw_tbl, rw_size,
enum_dyn_tbl, sizeof(*enum_dyn_tbl), enum_stat_tbl, sizeof(*enum_stat_tbl),
&enum_count );
ok( !err, "got %d\n", err );
ok( enum_count == count, "mismatch\n" );
for (i = 0; i < count; i++)
{
winetest_push_context( "%d", i );
rw = (struct nsi_ndis_ifinfo_rw *)((BYTE *)rw_tbl + i * rw_size);
enum_rw = (struct nsi_ndis_ifinfo_rw *)((BYTE *)enum_rw_tbl + i * rw_size);
dyn = dyn_tbl + i;
enum_dyn = enum_dyn_tbl + i;
stat = stat_tbl + i;
enum_stat = enum_stat_tbl + i;
/* test a selection of members */
ok( enum_luid_tbl[i].Value == luid_tbl[i].Value, "mismatch\n" );
ok( IsEqualGUID( &enum_rw->network_guid, &rw->network_guid ), "mismatch\n" );
ok( enum_rw->alias.Length == rw->alias.Length, "mismatch\n" );
ok( !memcmp( enum_rw->alias.String, rw->alias.String, rw->alias.Length ), "mismatch\n" );
ok( enum_rw->phys_addr.Length == rw->phys_addr.Length, "mismatch\n" );
ok( !memcmp( enum_rw->phys_addr.Address, rw->phys_addr.Address, IF_MAX_PHYS_ADDRESS_LENGTH ), "mismatch\n" );
ok( enum_dyn->oper_status == dyn->oper_status, "mismatch\n" );
ok( enum_stat->if_index == stat->if_index, "mismatch\n" );
ok( IsEqualGUID( &enum_stat->if_guid, &stat->if_guid ), "mismatch\n" );
winetest_pop_context();
}
if (count > 0)
{
enum_count--;
memset( enum_luid_tbl, 0xcc, count * sizeof(*enum_luid_tbl) );
err = NsiEnumerateObjectsAllParameters( 1, 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE,
enum_luid_tbl, sizeof(*enum_luid_tbl), enum_rw_tbl, rw_size,
enum_dyn_tbl, sizeof(*enum_dyn_tbl), enum_stat_tbl, sizeof(*enum_stat_tbl),
&enum_count );
ok( err == ERROR_MORE_DATA, "got %d\n", err );
ok( enum_count == count - 1, "mismatch\n" );
for (i = 0; i < enum_count; i++) /* for simplicity just check the luids */
ok( enum_luid_tbl[i].Value == luid_tbl[i].Value, "%d: mismatch\n", i );
}
memset( &enum_params, 0, sizeof(enum_params) );
enum_params.first_arg = 1;
enum_params.second_arg = 1;
enum_params.module = &NPI_MS_NDIS_MODULEID;
enum_params.table = NSI_NDIS_IFINFO_TABLE;
enum_params.key_data = enum_luid_tbl;
enum_params.key_size = sizeof(*enum_luid_tbl);
enum_params.rw_data = enum_rw_tbl;
enum_params.rw_size = rw_size;
enum_params.dynamic_data = enum_dyn_tbl;
enum_params.dynamic_size = sizeof(*enum_dyn_tbl);
enum_params.static_data = enum_stat_tbl;
enum_params.static_size = sizeof(*enum_stat_tbl);
enum_params.count = count;
err = NsiEnumerateObjectsAllParametersEx( &enum_params );
ok( !err, "got %d\n", err );
ok( enum_params.count == count, "mismatch\n" );
free( enum_luid_tbl );
free( enum_rw_tbl );
free( enum_dyn_tbl );
free( enum_stat_tbl );
NsiFreeTable( luid_tbl, rw_tbl, dyn_tbl, stat_tbl );
}
static void test_ndis_ifinfo( void )
{
DWORD rw_sizes[] = { FIELD_OFFSET(struct nsi_ndis_ifinfo_rw, name2), FIELD_OFFSET(struct nsi_ndis_ifinfo_rw, unk),
sizeof(struct nsi_ndis_ifinfo_rw) };
struct nsi_ndis_ifinfo_rw *rw_tbl, rw_get;
struct nsi_ndis_ifinfo_dynamic *dyn_tbl, *dyn_tbl_2, dyn_get;
struct nsi_ndis_ifinfo_static *stat_tbl, stat_get;
DWORD err, count, i, rw_size;
NET_LUID *luid_tbl, *luid_tbl_2, luid_get;
MIB_IF_TABLE2 *table;
/* Contents of GetIfTable2() keyed by luids */
for (i = 0; i < ARRAY_SIZE(rw_sizes); i++)
{
err = NsiAllocateAndGetTable( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, (void **)&luid_tbl, sizeof(*luid_tbl),
(void **)&rw_tbl, rw_sizes[i], (void **)&dyn_tbl, sizeof(*dyn_tbl),
(void **)&stat_tbl, sizeof(*stat_tbl), &count, 0 );
if (!err) break;
}
ok( !err, "got %d\n", err );
if (err) return;
rw_size = rw_sizes[i];
err = GetIfTable2( &table );
ok( !err, "got %d\n", err );
ok( table->NumEntries == count, "table entries %d count %d\n", table->NumEntries, count );
/* Grab the dyn table again to provide an upper bound for the stats returned from GetIfTable2().
(The luids must be retrieved again otherwise NsiAllocateAndGetTable() fails). */
err = NsiAllocateAndGetTable( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, (void **)&luid_tbl_2, sizeof(*luid_tbl_2),
NULL, 0, (void **)&dyn_tbl_2, sizeof(*dyn_tbl_2),
NULL, 0, &count, 0 );
ok( !err, "got %d\n", err );
ok( table->NumEntries == count, "table entries %d count %d\n", table->NumEntries, count );
for (i = 0; i < count; i++)
{
MIB_IF_ROW2 *row = table->Table + i;
NET_LUID *luid = luid_tbl + i;
struct nsi_ndis_ifinfo_rw *rw = (struct nsi_ndis_ifinfo_rw *)((BYTE *)rw_tbl + i * rw_size);
struct nsi_ndis_ifinfo_dynamic *dyn = dyn_tbl + i, *dyn_2 = dyn_tbl_2 + i;
struct nsi_ndis_ifinfo_static *stat = stat_tbl + i;
winetest_push_context( "%d", i );
ok( row->InterfaceLuid.Value == luid->Value, "mismatch\n" );
ok( row->InterfaceIndex == stat->if_index, "mismatch\n" );
ok( IsEqualGUID( &row->InterfaceGuid, &stat->if_guid ), "mismatch\n" );
ok( !memcmp( row->Alias, rw->alias.String, rw->alias.Length ), "mismatch\n" );
ok( lstrlenW( row->Alias ) * 2 == rw->alias.Length, "mismatch\n" );
ok( !memcmp( row->Description, stat->descr.String, sizeof(row->Description) ), "mismatch\n" );
ok( lstrlenW( row->Description ) * 2 == stat->descr.Length, "mismatch\n" );
ok( row->PhysicalAddressLength == rw->phys_addr.Length, "mismatch\n" );
ok( !memcmp( row->PhysicalAddress, rw->phys_addr.Address, IF_MAX_PHYS_ADDRESS_LENGTH ), "mismatch\n" );
ok( row->PhysicalAddressLength == stat->perm_phys_addr.Length, "mismatch\n" );
ok( !memcmp( row->PermanentPhysicalAddress, stat->perm_phys_addr.Address, IF_MAX_PHYS_ADDRESS_LENGTH ),
"mismatch\n" );
ok( row->Mtu == dyn->mtu, "mismatch\n" );
ok( row->Type == stat->type, "mismatch\n" );
/* TunnelType */
ok( row->MediaType == stat->media_type, "mismatch\n" );
ok( row->PhysicalMediumType == stat->phys_medium_type, "mismatch\n" );
ok( row->AccessType == stat->access_type, "mismatch\n" );
/* DirectionType */
ok( row->InterfaceAndOperStatusFlags.HardwareInterface == stat->flags.hw, "mismatch\n" );
ok( row->InterfaceAndOperStatusFlags.FilterInterface == stat->flags.filter, "mismatch\n" );
ok( row->InterfaceAndOperStatusFlags.ConnectorPresent == stat->conn_present, "mismatch\n" );
/* NotAuthenticated */
ok( row->InterfaceAndOperStatusFlags.NotMediaConnected == dyn->flags.not_media_conn, "mismatch\n" );
/* Paused */
/* LowPower */
/* EndPointInterface */
ok( row->OperStatus == dyn->oper_status, "mismatch\n" );
ok( row->AdminStatus == rw->admin_status, "mismatch\n" );
ok( row->MediaConnectState == dyn->media_conn_state, "mismatch\n" );
ok( IsEqualGUID( &row->NetworkGuid, &rw->network_guid ), "mismatch\n" );
ok( row->ConnectionType == stat->conn_type, "mismatch\n" );
if (dyn->xmit_speed == ~0ULL) dyn->xmit_speed = 0;
ok( row->TransmitLinkSpeed == dyn->xmit_speed, "mismatch\n" );
if (dyn->rcv_speed == ~0ULL) dyn->rcv_speed = 0;
ok( row->ReceiveLinkSpeed == dyn->rcv_speed, "mismatch\n" );
expect_bounded( "InOctets", row->InOctets, dyn->in_octets, dyn_2->in_octets );
expect_bounded( "InUcastPkts", row->InUcastPkts, dyn->in_ucast_pkts, dyn_2->in_ucast_pkts );
expect_bounded( "InNUcastPkts", row->InNUcastPkts,
dyn->in_mcast_pkts + dyn->in_bcast_pkts,
dyn_2->in_mcast_pkts + dyn_2->in_bcast_pkts );
expect_bounded( "InDiscards", row->InDiscards, dyn->in_discards, dyn_2->in_discards );
expect_bounded( "InErrors", row->InErrors, dyn->in_errors, dyn_2->in_errors );
/* InUnknownProtos */
expect_bounded( "InUcastOctets", row->InUcastOctets, dyn->in_ucast_octs, dyn_2->in_ucast_octs );
expect_bounded( "InMulticastOctets", row->InMulticastOctets, dyn->in_mcast_octs, dyn_2->in_mcast_octs );
expect_bounded( "InBroadcastOctets", row->InBroadcastOctets, dyn->in_bcast_octs, dyn_2->in_bcast_octs );
expect_bounded( "OutOctets", row->OutOctets, dyn->out_octets, dyn_2->out_octets );
expect_bounded( "OutUcastPkts", row->OutUcastPkts, dyn->out_ucast_pkts, dyn_2->out_ucast_pkts );
expect_bounded( "OutNUcastPkts", row->OutNUcastPkts,
dyn->out_mcast_pkts + dyn->out_bcast_pkts,
dyn_2->out_mcast_pkts + dyn_2->out_bcast_pkts );
expect_bounded( "OutDiscards", row->OutDiscards, dyn->out_discards, dyn_2->out_discards );
expect_bounded( "OutErrors", row->OutErrors, dyn->out_errors, dyn_2->out_errors );
expect_bounded( "OutUcastOctets", row->OutUcastOctets, dyn->out_ucast_octs, dyn_2->out_ucast_octs );
expect_bounded( "OutMulticastOctets", row->OutMulticastOctets, dyn->out_mcast_octs, dyn_2->out_mcast_octs );
expect_bounded( "OutBroadcastOctets", row->OutBroadcastOctets, dyn->out_bcast_octs, dyn_2->out_bcast_octs );
/* OutQLen */
winetest_pop_context();
}
err = NsiGetAllParameters( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, luid_tbl, sizeof(*luid_tbl),
&rw_get, rw_size, &dyn_get, sizeof(dyn_get),
&stat_get, sizeof(stat_get) );
ok( !err, "got %d\n", err );
ok( IsEqualGUID( &stat_tbl[0].if_guid, &stat_get.if_guid ), "mismatch\n" );
err = NsiGetParameter( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, luid_tbl, sizeof(*luid_tbl),
NSI_PARAM_TYPE_STATIC, &stat_get.if_guid, sizeof(stat_get.if_guid),
FIELD_OFFSET(struct nsi_ndis_ifinfo_static, if_guid) );
ok( !err, "got %d\n", err );
ok( IsEqualGUID( &stat_tbl[0].if_guid, &stat_get.if_guid ), "mismatch\n" );
luid_get.Value = ~0u;
err = NsiGetAllParameters( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, &luid_get, sizeof(luid_get),
&rw_get, rw_size, &dyn_get, sizeof(dyn_get),
&stat_get, sizeof(stat_get) );
ok( err == ERROR_FILE_NOT_FOUND, "got %d\n", err );
err = NsiGetParameter( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, &luid_get, sizeof(luid_get),
NSI_PARAM_TYPE_STATIC, &stat_get.if_guid, sizeof(stat_get.if_guid),
FIELD_OFFSET(struct nsi_ndis_ifinfo_static, if_guid) );
ok( err == ERROR_FILE_NOT_FOUND, "got %d\n", err );
FreeMibTable( table );
NsiFreeTable( luid_tbl_2, NULL, dyn_tbl_2, NULL );
NsiFreeTable( luid_tbl, rw_tbl, dyn_tbl, stat_tbl );
}
static void test_ndis_index_luid( void )
{
DWORD err, count, i;
NET_LUID *luids, luid;
DWORD index;
/* index -> luid map. NsiAllocateAndGetTable and NsiGetAllParameters fail */
/* first get the luids */
err = NsiAllocateAndGetTable( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_IFINFO_TABLE, (void **)&luids, sizeof(*luids),
NULL, 0, NULL, 0, NULL, 0, &count, 0 );
ok( !err, "got %d\n", err );
for (i = 0; i < count; i++)
{
ConvertInterfaceLuidToIndex( luids + i, &index );
err = NsiGetParameter( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_INDEX_LUID_TABLE, &index, sizeof(index),
NSI_PARAM_TYPE_STATIC, &luid, sizeof(luid), 0 );
ok( !err, "got %d\n", err );
ok( luid.Value == luids[i].Value, "%d: luid mismatch\n", i );
}
NsiFreeTable( luids, NULL, NULL, NULL );
index = ~0u;
err = NsiGetParameter( 1, &NPI_MS_NDIS_MODULEID, NSI_NDIS_INDEX_LUID_TABLE, &index, sizeof(index),
NSI_PARAM_TYPE_STATIC, &luid, sizeof(luid), 0 );
ok( err == ERROR_FILE_NOT_FOUND, "got %d\n", err );
}
static void test_ip_cmpt( int family )
{
DWORD rw_sizes[] = { FIELD_OFFSET(struct nsi_ip_cmpt_rw, unk2), sizeof(struct nsi_ip_cmpt_rw) };
const NPI_MODULEID *mod = (family == AF_INET) ? &NPI_MS_IPV4_MODULEID : &NPI_MS_IPV6_MODULEID;
struct nsi_ip_cmpt_dynamic dyn;
struct nsi_ip_cmpt_rw rw;
MIB_IPSTATS table;
DWORD err, key, i;
winetest_push_context( family == AF_INET ? "AF_INET" : "AF_INET6" );
/* key = 0 also seems to work, but NsiAllocateAndGetTable returns
a single table with key == 1. Presumably this is the compartment id */
key = 1;
for (i = 0; i < ARRAY_SIZE(rw_sizes); i++)
{
err = NsiGetAllParameters( 1, mod, 2, &key, sizeof(key), &rw, rw_sizes[i], &dyn, sizeof(dyn), NULL, 0 );
if (!err) break;
}
ok( !err, "got %x\n", err );
err = GetIpStatisticsEx( &table, family );
ok( !err, "got %d\n", err );
if (err) goto err;
ok( table.dwForwarding - 1 == rw.not_forwarding, "%x vs %x\n", table.dwForwarding, rw.not_forwarding );
ok( table.dwDefaultTTL == rw.default_ttl, "%x vs %x\n", table.dwDefaultTTL, rw.default_ttl );
ok( table.dwNumIf == dyn.num_ifs, "%x vs %x\n", table.dwNumIf, dyn.num_ifs );
ok( table.dwNumAddr == dyn.num_addrs, "%x vs %x\n", table.dwNumAddr, dyn.num_addrs );
ok( table.dwNumRoutes == dyn.num_routes, "%x vs %x\n", table.dwNumRoutes, dyn.num_routes );
err:
winetest_pop_context();
}
static void test_ip_icmpstats( int family )
{
const NPI_MODULEID *mod = (family == AF_INET) ? &NPI_MS_IPV4_MODULEID : &NPI_MS_IPV6_MODULEID;
struct nsi_ip_icmpstats_dynamic nsi_stats, nsi_stats2;
MIB_ICMP_EX table;
DWORD err, i;
winetest_push_context( family == AF_INET ? "AF_INET" : "AF_INET6" );
err = NsiGetAllParameters( 1, mod, NSI_IP_ICMPSTATS_TABLE, NULL, 0, NULL, 0, &nsi_stats, sizeof(nsi_stats), NULL, 0 );
ok( !err, "got %d\n", err );
if (err) goto err;
err = GetIcmpStatisticsEx( &table, family );
ok( !err, "got %d\n", err );
if (err) goto err;
err = NsiGetAllParameters( 1, mod, NSI_IP_ICMPSTATS_TABLE, NULL, 0, NULL, 0, &nsi_stats2, sizeof(nsi_stats2), NULL, 0 );
ok( !err, "got %d\n", err );
expect_bounded( "icmpInStats.dwMsgs", table.icmpInStats.dwMsgs, nsi_stats.in_msgs, nsi_stats2.in_msgs );
expect_bounded( "icmpInStats.dwErrors", table.icmpInStats.dwErrors, nsi_stats.in_errors, nsi_stats2.in_errors );
expect_bounded( "icmpOutStats.dwMsgs", table.icmpOutStats.dwMsgs, nsi_stats.out_msgs, nsi_stats2.out_msgs );
expect_bounded( "icmpOutStats.dwErrors", table.icmpOutStats.dwErrors, nsi_stats.out_errors, nsi_stats2.out_errors );
for (i = 0; i < ARRAY_SIZE(nsi_stats.in_type_counts); i++)
{
winetest_push_context( "%d", i );
expect_bounded( "icmpInStats.rgdwTypeCount", table.icmpInStats.rgdwTypeCount[i], nsi_stats.in_type_counts[i], nsi_stats2.in_type_counts[i] );
expect_bounded( "icmpOutStats.rgdwTypeCount", table.icmpOutStats.rgdwTypeCount[i], nsi_stats.out_type_counts[i], nsi_stats2.out_type_counts[i] );
winetest_pop_context();
}
err:
winetest_pop_context();
}
static void test_ip_ipstats( int family )
{
const NPI_MODULEID *mod = (family == AF_INET) ? &NPI_MS_IPV4_MODULEID : &NPI_MS_IPV6_MODULEID;
struct nsi_ip_ipstats_dynamic dyn, dyn2;
struct nsi_ip_ipstats_static stat;
MIB_IPSTATS table;
DWORD err;
winetest_push_context( family == AF_INET ? "AF_INET" : "AF_INET6" );
/* The table appears to consist of a single object without a key. The rw data does exist but
isn't part of GetIpStatisticsEx() and isn't yet tested */
err = NsiGetAllParameters( 1, mod, NSI_IP_IPSTATS_TABLE, NULL, 0, NULL, 0, &dyn, sizeof(dyn), &stat, sizeof(stat) );
ok( !err, "got %x\n", err );
if (err) goto err;
err = GetIpStatisticsEx( &table, family );
ok( !err, "got %d\n", err );
err = NsiGetAllParameters( 1, mod, NSI_IP_IPSTATS_TABLE, NULL, 0, NULL, 0, &dyn2, sizeof(dyn2), NULL, 0 );
ok( !err, "got %x\n", err );
/* dwForwarding and dwDefaultTTL come from the compartment table */
expect_bounded( "dwInReceives", table.dwInReceives, dyn.in_recv, dyn2.in_recv );
expect_bounded( "dwInHdrErrors", table.dwInHdrErrors, dyn.in_hdr_errs, dyn2.in_hdr_errs );
expect_bounded( "dwInAddrErrors", table.dwInAddrErrors, dyn.in_addr_errs, dyn2.in_addr_errs );
expect_bounded( "dwForwDatagrams", table.dwForwDatagrams, dyn.fwd_dgrams, dyn2.fwd_dgrams );
expect_bounded( "dwInUnknownProtos", table.dwInUnknownProtos, dyn.in_unk_protos, dyn2.in_unk_protos );
expect_bounded( "dwInDiscards", table.dwInDiscards, dyn.in_discards, dyn2.in_discards );
expect_bounded( "dwInDelivers", table.dwInDelivers, dyn.in_delivers, dyn2.in_delivers );
expect_bounded( "dwOutRequests", table.dwOutRequests, dyn.out_reqs, dyn2.out_reqs );
expect_bounded( "dwRoutingDiscards", table.dwRoutingDiscards, dyn.routing_discards, dyn2.routing_discards );
expect_bounded( "dwOutDiscards", table.dwOutDiscards, dyn.out_discards, dyn2.out_discards );
expect_bounded( "dwOutNoRoutes", table.dwOutNoRoutes, dyn.out_no_routes, dyn2.out_no_routes );
ok( table.dwReasmTimeout == stat.reasm_timeout, "bad timeout %d != %d\n", table.dwReasmTimeout, stat.reasm_timeout );
expect_bounded( "dwReasmReqds", table.dwReasmReqds, dyn.reasm_reqds, dyn2.reasm_reqds );
expect_bounded( "dwReasmOks", table.dwReasmOks, dyn.reasm_oks, dyn2.reasm_oks );
expect_bounded( "dwReasmFails", table.dwReasmFails, dyn.reasm_fails, dyn2.reasm_fails );
expect_bounded( "dwFragOks", table.dwFragOks, dyn.frag_oks, dyn2.frag_oks );
expect_bounded( "dwFragFails", table.dwFragFails, dyn.frag_fails, dyn2.frag_fails );
expect_bounded( "dwFragCreates", table.dwFragCreates, dyn.frag_creates, dyn2.frag_creates );
/* dwNumIf, dwNumAddr and dwNumRoutes come from the compartment table */
err:
winetest_pop_context();
}
static void test_ip_unicast( int family )
{
DWORD rw_sizes[] = { FIELD_OFFSET(struct nsi_ip_unicast_rw, unk[0]), FIELD_OFFSET(struct nsi_ip_unicast_rw, unk[1]),
sizeof(struct nsi_ip_unicast_rw) };
struct nsi_ipv4_unicast_key *key_tbl, *key4, get_key;
struct nsi_ipv6_unicast_key *key6;
struct nsi_ip_unicast_rw *rw_tbl, *rw, get_rw;
struct nsi_ip_unicast_dynamic *dyn_tbl, *dyn, get_dyn;
struct nsi_ip_unicast_static *stat_tbl, *stat, get_stat;
MIB_UNICASTIPADDRESS_TABLE *table;
const NPI_MODULEID *mod = (family == AF_INET) ? &NPI_MS_IPV4_MODULEID : &NPI_MS_IPV6_MODULEID;
DWORD err, count, i, rw_size, key_size = (family == AF_INET) ? sizeof(*key4) : sizeof(*key6);
winetest_push_context( family == AF_INET ? "AF_INET" : "AF_INET6" );
for (i = 0; i < ARRAY_SIZE(rw_sizes); i++)
{
err = NsiAllocateAndGetTable( 1, mod, NSI_IP_UNICAST_TABLE, (void **)&key_tbl, key_size,
(void **)&rw_tbl, rw_sizes[i], (void **)&dyn_tbl, sizeof(*dyn_tbl),
(void **)&stat_tbl, sizeof(*stat_tbl), &count, 0 );
if (!err) break;
}
ok( !err, "got %d\n", err );
rw_size = rw_sizes[i];
err = GetUnicastIpAddressTable( family, &table );
ok( !err, "got %d\n", err );
ok( table->NumEntries == count, "table entries %d count %d\n", table->NumEntries, count );
for (i = 0; i < count; i++)
{
MIB_UNICASTIPADDRESS_ROW *row = table->Table + i;
rw = (struct nsi_ip_unicast_rw *)((BYTE *)rw_tbl + i * rw_size);
dyn = dyn_tbl + i;
stat = stat_tbl + i;
winetest_push_context( "%d", i );
ok( row->Address.si_family == family, "mismatch\n" );
if (family == AF_INET)
{
key4 = key_tbl + i;
ok( !memcmp( &row->Address.Ipv4.sin_addr, &key4->addr, sizeof(struct in_addr) ), "mismatch\n" );
ok( row->InterfaceLuid.Value == key4->luid.Value, "mismatch\n" );
}
else
{
key6 = (struct nsi_ipv6_unicast_key *)key_tbl + i;
ok( !memcmp( &row->Address.Ipv6.sin6_addr, &key6->addr, sizeof(struct in6_addr) ), "mismatch\n" );
ok( row->InterfaceLuid.Value == key6->luid.Value, "mismatch\n" );
}
ok( row->PrefixOrigin == rw->prefix_origin, "mismatch\n" );
ok( row->SuffixOrigin == rw->suffix_origin, "mismatch\n" );
ok( row->ValidLifetime == rw->valid_lifetime, "mismatch\n" );
ok( row->PreferredLifetime == rw->preferred_lifetime, "mismatch\n" );
ok( row->OnLinkPrefixLength == rw->on_link_prefix, "mismatch\n" );
/* SkipAsSource */
ok( row->DadState == dyn->dad_state, "mismatch\n" );
ok( row->ScopeId.Value == dyn->scope_id, "mismatch\n" );
ok( row->CreationTimeStamp.QuadPart == stat->creation_time, "mismatch\n" );
winetest_pop_context();
}
get_key.luid.Value = ~0u;
get_key.addr.s_addr = 0;
err = NsiGetAllParameters( 1, &NPI_MS_IPV4_MODULEID, NSI_IP_UNICAST_TABLE, &get_key, sizeof(get_key),
&get_rw, rw_size, &get_dyn, sizeof(get_dyn), &get_stat, sizeof(get_stat) );
ok( err == ERROR_NOT_FOUND, "got %d\n", err );
FreeMibTable( table );
NsiFreeTable( key_tbl, rw_tbl, dyn_tbl, stat_tbl );
winetest_pop_context();
}
static void test_ip_neighbour( int family )
{
const NPI_MODULEID *mod = (family == AF_INET) ? &NPI_MS_IPV4_MODULEID : &NPI_MS_IPV6_MODULEID;
DWORD err, i, count, count2, attempt;
struct nsi_ipv4_neighbour_key *key_tbl, *key_tbl_2, *key4;
struct nsi_ipv6_neighbour_key *key6;
struct nsi_ip_neighbour_rw *rw_tbl, *rw;
struct nsi_ip_neighbour_dynamic *dyn_tbl, *dyn_tbl_2, *dyn;
MIB_IPNET_TABLE2 *table;
DWORD key_size = (family == AF_INET) ? sizeof(struct nsi_ipv4_neighbour_key) : sizeof(struct nsi_ipv6_neighbour_key);
winetest_push_context( family == AF_INET ? "AF_INET" : "AF_INET6" );
for (attempt = 0; attempt < 5; attempt++)
{
err = NsiAllocateAndGetTable( 1, mod, NSI_IP_NEIGHBOUR_TABLE, (void **)&key_tbl, key_size,
(void **)&rw_tbl, sizeof(*rw), (void **)&dyn_tbl, sizeof(*dyn),
NULL, 0, &count, 0 );
todo_wine_if( family == AF_INET6 )
ok( !err, "got %x\n", err );
if (err) goto err;
err = GetIpNetTable2( family, &table );
ok( !err, "got %x\n", err );
err = NsiAllocateAndGetTable( 1, mod, NSI_IP_NEIGHBOUR_TABLE, (void **)&key_tbl_2, key_size,
NULL, 0, (void **)&dyn_tbl_2, sizeof(*dyn),
NULL, 0, &count2, 0 );
ok( !err, "got %x\n", err );
if (count == count2 && !memcmp( dyn_tbl, dyn_tbl_2, count * sizeof(*dyn) )) break;
NsiFreeTable( key_tbl_2, NULL, dyn_tbl_2, NULL );
NsiFreeTable( key_tbl, rw_tbl, dyn_tbl, NULL );
}
ok( count == table->NumEntries, "%d vs %d\n", count, table->NumEntries );
for (i = 0; i < count; i++)
{
MIB_IPNET_ROW2 *row = table->Table + i;
rw = rw_tbl + i;
dyn = dyn_tbl + i;
if (family == AF_INET)
{
key4 = key_tbl + i;
ok( key4->addr.s_addr == row->Address.Ipv4.sin_addr.s_addr, "%08x vs %08x\n", key4->addr.s_addr,
row->Address.Ipv4.sin_addr.s_addr );
ok( key4->luid.Value == row->InterfaceLuid.Value, "%s vs %s\n", wine_dbgstr_longlong( key4->luid.Value ),
wine_dbgstr_longlong( row->InterfaceLuid.Value ) );
ok( key4->luid2.Value == row->InterfaceLuid.Value, "mismatch\n" );
}
else if (family == AF_INET6)
{
key6 = (struct nsi_ipv6_neighbour_key *)key_tbl + i;
ok( !memcmp( key6->addr.s6_addr, row->Address.Ipv6.sin6_addr.s6_addr, sizeof(IN6_ADDR) ), "mismatch\n" );
ok( key6->luid.Value == row->InterfaceLuid.Value, "mismatch\n" );
ok( key6->luid2.Value == row->InterfaceLuid.Value, "mismatch\n" );
}
ok( dyn->phys_addr_len == row->PhysicalAddressLength, "mismatch\n" );
ok( !memcmp( rw->phys_addr, row->PhysicalAddress, dyn->phys_addr_len ), "mismatch\n" );
ok( dyn->state == row->State, "%x vs %x\n", dyn->state, row->State );
ok( dyn->flags.is_router == row->IsRouter, "%x vs %x\n", dyn->flags.is_router, row->IsRouter );
ok( dyn->flags.is_unreachable == row->IsUnreachable, "%x vs %x\n", dyn->flags.is_unreachable, row->IsUnreachable );
ok( dyn->time == row->ReachabilityTime.LastReachable, "%x vs %x\n", dyn->time, row->ReachabilityTime.LastReachable );
}
NsiFreeTable( key_tbl_2, NULL, dyn_tbl_2, NULL );
NsiFreeTable( key_tbl, rw_tbl, dyn_tbl, NULL );
err:
winetest_pop_context();
}
static void test_ip_forward( int family )
{
DWORD rw_sizes[] = { FIELD_OFFSET(struct nsi_ip_forward_rw, unk),
FIELD_OFFSET(struct nsi_ip_forward_rw, unk2), sizeof(struct nsi_ip_forward_rw) };
DWORD dyn_sizes4[] = { sizeof(struct nsi_ipv4_forward_dynamic) - 3 * sizeof(DWORD),
sizeof(struct nsi_ipv4_forward_dynamic) };
DWORD dyn_sizes6[] = { sizeof(struct nsi_ipv6_forward_dynamic) - 3 * sizeof(DWORD),
sizeof(struct nsi_ipv6_forward_dynamic) };
DWORD *dyn_sizes = family == AF_INET ? dyn_sizes4 : dyn_sizes6;
struct nsi_ipv4_forward_key *key_tbl, *key4;
struct nsi_ipv6_forward_key *key6;
struct nsi_ip_forward_rw *rw_tbl, *rw;
struct nsi_ipv4_forward_dynamic *dyn_tbl, *dyn4;
struct nsi_ipv6_forward_dynamic *dyn6;
struct nsi_ip_forward_static *stat_tbl, *stat;
MIB_IPFORWARD_TABLE2 *table;
const NPI_MODULEID *mod = (family == AF_INET) ? &NPI_MS_IPV4_MODULEID : &NPI_MS_IPV6_MODULEID;
DWORD key_size = (family == AF_INET) ? sizeof(*key4) : sizeof(*key6);
DWORD err, count, i, rw_size, dyn_size;
winetest_push_context( family == AF_INET ? "AF_INET" : "AF_INET6" );
for (i = 0; i < ARRAY_SIZE(rw_sizes); i++)
{
err = NsiAllocateAndGetTable( 1, mod, NSI_IP_FORWARD_TABLE, (void **)&key_tbl, key_size,
(void **)&rw_tbl, rw_sizes[i], NULL, 0,
NULL, 0, &count, 0 );
if (!err) break;
}
ok( !err, "got %d\n", err );
if (err) { winetest_pop_context(); return; }
rw_size = rw_sizes[i];
NsiFreeTable( key_tbl, rw_tbl, NULL, NULL );
for (i = 0; i < ARRAY_SIZE(dyn_sizes4); i++)
{
err = NsiAllocateAndGetTable( 1, mod, NSI_IP_FORWARD_TABLE, (void **)&key_tbl, key_size,
(void **)&rw_tbl, rw_size, (void **)&dyn_tbl, dyn_sizes[i],
(void **)&stat_tbl, sizeof(*stat_tbl), &count, 0 );
if (!err) break;
}
ok( !err, "got %d\n", err );
dyn_size = dyn_sizes[i];
err = GetIpForwardTable2( family, &table );
ok( !err, "got %d\n", err );
ok( table->NumEntries == count, "table entries %d count %d\n", table->NumEntries, count );
for (i = 0; i < count; i++)
{
MIB_IPFORWARD_ROW2 *row = table->Table + i;
rw = (struct nsi_ip_forward_rw *)((BYTE *)rw_tbl + i * rw_size);
stat = stat_tbl + i;
winetest_push_context( "%d", i );
ok( row->DestinationPrefix.Prefix.si_family == family, "mismatch\n" );
if (family == AF_INET)
{
key4 = key_tbl + i;
dyn4 = (struct nsi_ipv4_forward_dynamic *)((BYTE *)dyn_tbl + i * dyn_size);
ok( row->InterfaceLuid.Value == key4->luid.Value, "mismatch\n" );
ok( row->InterfaceLuid.Value == key4->luid2.Value, "mismatch\n" );
ok( row->DestinationPrefix.Prefix.Ipv4.sin_addr.s_addr == key4->prefix.s_addr, "mismatch\n" );
ok( row->DestinationPrefix.Prefix.Ipv4.sin_port == 0, "mismatch\n" );
ok( row->DestinationPrefix.PrefixLength == key4->prefix_len, "mismatch\n" );
ok( row->NextHop.Ipv4.sin_addr.s_addr == key4->next_hop.s_addr, "mismatch\n" );
ok( row->NextHop.Ipv4.sin_port == 0, "mismatch\n" );
ok( row->Age == dyn4->age, "mismatch\n" );
}
else
{
key6 = (struct nsi_ipv6_forward_key *)key_tbl + i;
dyn6 = (struct nsi_ipv6_forward_dynamic *)((BYTE *)dyn_tbl + i * dyn_size);
ok( row->InterfaceLuid.Value == key6->luid.Value, "mismatch\n" );
ok( row->InterfaceLuid.Value == key6->luid2.Value, "mismatch\n" );
ok( !memcmp( &row->DestinationPrefix.Prefix.Ipv6.sin6_addr, &key6->prefix, sizeof(key6->prefix) ),
"mismatch\n" );
ok( row->DestinationPrefix.Prefix.Ipv6.sin6_port == 0, "mismatch\n" );
ok( row->DestinationPrefix.Prefix.Ipv6.sin6_flowinfo == 0, "mismatch\n" );
ok( row->DestinationPrefix.Prefix.Ipv6.sin6_scope_id == 0, "mismatch\n" );
ok( row->DestinationPrefix.PrefixLength == key6->prefix_len, "mismatch\n" );
ok( !memcmp( &row->NextHop.Ipv6.sin6_addr, &key6->next_hop, sizeof(key6->next_hop) ), "mismatch\n" );
ok( row->NextHop.Ipv6.sin6_port == 0, "mismatch\n" );
ok( row->NextHop.Ipv6.sin6_flowinfo == 0, "mismatch\n" );
ok( row->NextHop.Ipv6.sin6_scope_id == 0, "mismatch\n" );
ok( row->Age == dyn6->age, "mismatch\n" );
}
ok( row->InterfaceIndex == stat->if_index, "mismatch\n" );
ok( row->SitePrefixLength == rw->site_prefix_len, "mismatch\n" );
ok( row->ValidLifetime == rw->valid_lifetime, "mismatch\n" );
ok( row->PreferredLifetime == rw->preferred_lifetime, "mismatch\n" );
ok( row->Metric == rw->metric, "mismatch\n" );
ok( row->Protocol == rw->protocol, "mismatch\n" );
ok( row->Loopback == rw->loopback, "mismatch\n" );
ok( row->AutoconfigureAddress == rw->autoconf, "mismatch\n" );
ok( row->Publish == rw->publish, "mismatch\n" );
ok( row->Immortal == rw->immortal, "mismatch\n" );
ok( row->Origin == stat->origin, "mismatch\n" );
winetest_pop_context();
}
FreeMibTable( table );
NsiFreeTable( key_tbl, rw_tbl, dyn_tbl, stat_tbl );
winetest_pop_context();
}
static void test_tcp_stats( int family )
{
DWORD err;
USHORT key = family;
struct nsi_tcp_stats_dynamic dyn, dyn2;
struct nsi_tcp_stats_static stat;
MIB_TCPSTATS table;
winetest_push_context( family == AF_INET ? "AF_INET" : "AF_INET6" );
err = NsiGetAllParameters( 1, &NPI_MS_TCP_MODULEID, NSI_TCP_STATS_TABLE, &key, sizeof(key), NULL, 0,
&dyn, sizeof(dyn), &stat, sizeof(stat) );
ok( !err, "got %x\n", err );
err = GetTcpStatisticsEx( &table, family );
ok( !err, "got %d\n", err );
err = NsiGetAllParameters( 1, &NPI_MS_TCP_MODULEID, NSI_TCP_STATS_TABLE, &key, sizeof(key), NULL, 0,
&dyn2, sizeof(dyn), NULL, 0 );
ok( !err, "got %x\n", err );
ok( table.dwRtoAlgorithm == stat.rto_algo, "%d vs %d\n", table.dwRtoAlgorithm, stat.rto_algo );
ok( table.dwRtoMin == stat.rto_min, "%d vs %d\n", table.dwRtoMin, stat.rto_min );
ok( table.dwRtoMax == stat.rto_max, "%d vs %d\n", table.dwRtoMax, stat.rto_max );
ok( table.dwMaxConn == stat.max_conns, "%d vs %d\n", table.dwMaxConn, stat.max_conns );
ok( unstable( table.dwActiveOpens == dyn.active_opens ), "%d vs %d\n", table.dwActiveOpens, dyn.active_opens );
ok( unstable( table.dwPassiveOpens == dyn.passive_opens ), "%d vs %d\n", table.dwPassiveOpens, dyn.passive_opens );
expect_bounded( "dwAttemptFails", table.dwAttemptFails, dyn.attempt_fails, dyn2.attempt_fails );
expect_bounded( "dwEstabResets", table.dwEstabResets, dyn.est_rsts, dyn2.est_rsts );
ok( unstable( table.dwCurrEstab == dyn.cur_est ), "%d vs %d\n", table.dwCurrEstab, dyn.cur_est );
expect_bounded( "dwInSegs", table.dwInSegs, dyn.in_segs, dyn2.in_segs );
expect_bounded( "dwOutSegs", table.dwOutSegs, dyn.out_segs, dyn2.out_segs );
expect_bounded( "dwRetransSegs", table.dwRetransSegs, dyn.retrans_segs, dyn2.retrans_segs );
expect_bounded( "dwInErrs", table.dwInErrs, dyn.in_errs, dyn2.in_errs );
expect_bounded( "dwOutRsts", table.dwOutRsts, dyn.out_rsts, dyn2.out_rsts );
ok( unstable( table.dwNumConns == dyn.num_conns ), "%d vs %d\n", table.dwNumConns, dyn.num_conns );
winetest_pop_context();
}
static void test_tcp_tables( int family, int table_type )
{
DWORD dyn_sizes[] = { FIELD_OFFSET(struct nsi_tcp_conn_dynamic, unk[2]), sizeof(struct nsi_tcp_conn_dynamic) };
DWORD i, err, count, table_num, dyn_size, size;
struct nsi_tcp_conn_key *keys;
struct nsi_tcp_conn_dynamic *dyn_tbl, *dyn;
struct nsi_tcp_conn_static *stat;
MIB_TCPTABLE_OWNER_MODULE *table;
MIB_TCP6TABLE_OWNER_MODULE *table6;
MIB_TCPROW_OWNER_MODULE *row;
MIB_TCP6ROW_OWNER_MODULE *row6;
winetest_push_context( "%s: %d", family == AF_INET ? "AF_INET" : "AF_INET6", table_type );
switch (table_type)
{
case TCP_TABLE_OWNER_MODULE_ALL: table_num = 3; break;
case TCP_TABLE_OWNER_MODULE_CONNECTIONS: table_num = 4; break;
case TCP_TABLE_OWNER_MODULE_LISTENER: table_num = 5; break;
default: return;
}
for (i = 0; i < ARRAY_SIZE(dyn_sizes); i++)
{
err = NsiAllocateAndGetTable( 1, &NPI_MS_TCP_MODULEID, table_num, (void **)&keys, sizeof(*keys), NULL, 0,
(void **)&dyn_tbl, dyn_sizes[i], (void **)&stat, sizeof(*stat), &count, 0 );
if (!err) break;
}
ok( !err, "got %d\n", err );
dyn_size = dyn_sizes[i];
size = 0;
err = GetExtendedTcpTable( NULL, &size, 0, family, table_type, 0 );
size *= 2;
table = malloc( size );
table6 = (MIB_TCP6TABLE_OWNER_MODULE *)table;
err = GetExtendedTcpTable( table, &size, 0, family, table_type, 0 );
ok( !err, "got %d\n", err );
row = table->table;
row6 = table6->table;
for (i = 0; i < count; i++)
{
dyn = (struct nsi_tcp_conn_dynamic *)((BYTE *)dyn_tbl + i * dyn_size);
if (keys[i].local.si_family != family) continue;
if (family == AF_INET)
{
ok( unstable( row->dwLocalAddr == keys[i].local.Ipv4.sin_addr.s_addr ), "%08x vs %08x\n",
row->dwLocalAddr, keys[i].local.Ipv4.sin_addr.s_addr );
ok( unstable( row->dwLocalPort == keys[i].local.Ipv4.sin_port ), "%d vs %d\n",
row->dwLocalPort, keys[i].local.Ipv4.sin_port );
ok( unstable( row->dwRemoteAddr == keys[i].remote.Ipv4.sin_addr.s_addr ), "%08x vs %08x\n",
row->dwRemoteAddr, keys[i].remote.Ipv4.sin_addr.s_addr );
ok( unstable( row->dwRemotePort == keys[i].remote.Ipv4.sin_port ), "%d vs %d\n",
row->dwRemotePort, keys[i].remote.Ipv4.sin_port );
ok( unstable( row->dwState == dyn->state ), "%x vs %x\n", row->dwState, dyn->state );
ok( unstable( row->dwOwningPid == stat[i].pid ), "%x vs %x\n", row->dwOwningPid, stat[i].pid );
ok( unstable( row->liCreateTimestamp.QuadPart == stat[i].create_time ), "mismatch\n" );
ok( unstable( row->OwningModuleInfo[0] == stat[i].mod_info ), "mismatch\n");
row++;
}
else if (family == AF_INET6)
{
ok( unstable( !memcmp( row6->ucLocalAddr, keys[i].local.Ipv6.sin6_addr.s6_addr, sizeof(IN6_ADDR) ) ),
"mismatch\n" );
ok( unstable( row6->dwLocalScopeId == keys[i].local.Ipv6.sin6_scope_id ), "%x vs %x\n",
row6->dwLocalScopeId, keys[i].local.Ipv6.sin6_scope_id );
ok( unstable( row6->dwLocalPort == keys[i].local.Ipv6.sin6_port ), "%d vs %d\n",
row6->dwLocalPort, keys[i].local.Ipv6.sin6_port );
ok( unstable( !memcmp( row6->ucRemoteAddr, keys[i].remote.Ipv6.sin6_addr.s6_addr, sizeof(IN6_ADDR) ) ),
"mismatch\n" );
ok( unstable( row6->dwRemoteScopeId == keys[i].remote.Ipv6.sin6_scope_id ), "%x vs %x\n",
row6->dwRemoteScopeId, keys[i].remote.Ipv6.sin6_scope_id );
ok( unstable( row6->dwRemotePort == keys[i].remote.Ipv6.sin6_port ), "%d vs %d\n",
row6->dwRemotePort, keys[i].remote.Ipv6.sin6_port );
ok( unstable( row6->dwState == dyn->state ), "%x vs %x\n", row6->dwState, dyn->state );
ok( unstable( row6->dwOwningPid == stat[i].pid ), "%x vs %x\n", row6->dwOwningPid, stat[i].pid );
ok( unstable( row6->liCreateTimestamp.QuadPart == stat[i].create_time ), "mismatch\n" );
ok( unstable( row6->OwningModuleInfo[0] == stat[i].mod_info ), "mismatch\n");
row6++;
}
}
free( table );
NsiFreeTable( keys, NULL, dyn_tbl, stat );
winetest_pop_context();
}
static void test_udp_stats( int family )
{
DWORD err;
USHORT key = family;
struct nsi_udp_stats_dynamic dyn, dyn2;
MIB_UDPSTATS table;
winetest_push_context( family == AF_INET ? "AF_INET" : "AF_INET6" );
err = NsiGetAllParameters( 1, &NPI_MS_UDP_MODULEID, NSI_UDP_STATS_TABLE, &key, sizeof(key), NULL, 0,
&dyn, sizeof(dyn), NULL, 0 );
ok( !err, "got %x\n", err );
err = GetUdpStatisticsEx( &table, family );
ok( !err, "got %d\n", err );
err = NsiGetAllParameters( 1, &NPI_MS_UDP_MODULEID, NSI_UDP_STATS_TABLE, &key, sizeof(key), NULL, 0,
&dyn2, sizeof(dyn2), NULL, 0 );
ok( !err, "got %x\n", err );
expect_bounded( "dwInDatagrams", table.dwInDatagrams, dyn.in_dgrams, dyn2.in_dgrams );
expect_bounded( "dwNoPorts", table.dwNoPorts, dyn.no_ports, dyn2.no_ports );
expect_bounded( "dwInErrors", table.dwInErrors, dyn.in_errs, dyn2.in_errs );
expect_bounded( "dwOutDatagrams", table.dwOutDatagrams, dyn.out_dgrams, dyn2.out_dgrams );
ok( unstable( table.dwNumAddrs == dyn.num_addrs ), "%d %d\n", table.dwNumAddrs, dyn.num_addrs );
winetest_pop_context();
}
static void test_udp_tables( int family )
{
DWORD i, err, count, size;
struct nsi_udp_endpoint_key *keys;
struct nsi_udp_endpoint_static *stat;
MIB_UDPTABLE_OWNER_MODULE *table;
MIB_UDP6TABLE_OWNER_MODULE *table6;
MIB_UDPROW_OWNER_MODULE *row;
MIB_UDP6ROW_OWNER_MODULE *row6;
winetest_push_context( "%s", family == AF_INET ? "AF_INET" : "AF_INET6" );
err = NsiAllocateAndGetTable( 1, &NPI_MS_UDP_MODULEID, NSI_UDP_ENDPOINT_TABLE, (void **)&keys, sizeof(*keys),
NULL, 0, NULL, 0, (void **)&stat, sizeof(*stat), &count, 0 );
ok( !err, "got %x\n", err );
size = 0;
err = GetExtendedUdpTable( NULL, &size, 0, family, UDP_TABLE_OWNER_MODULE, 0 );
size *= 2;
table = malloc( size );
table6 = (MIB_UDP6TABLE_OWNER_MODULE *)table;
err = GetExtendedUdpTable( table, &size, 0, family, UDP_TABLE_OWNER_MODULE, 0 );
ok( !err, "got %d\n", err );
row = table->table;
row6 = table6->table;
for (i = 0; i < count; i++)
{
if (keys[i].local.si_family != family) continue;
if (family == AF_INET)
{
ok( unstable( row->dwLocalAddr == keys[i].local.Ipv4.sin_addr.s_addr ), "%08x vs %08x\n",
row->dwLocalAddr, keys[i].local.Ipv4.sin_addr.s_addr );
ok( unstable( row->dwLocalPort == keys[i].local.Ipv4.sin_port ), "%d vs %d\n",
row->dwLocalPort, keys[i].local.Ipv4.sin_port );
ok( unstable( row->dwOwningPid == stat[i].pid ), "%x vs %x\n", row->dwOwningPid, stat[i].pid );
ok( unstable( row->liCreateTimestamp.QuadPart == stat[i].create_time ), "mismatch\n" );
ok( unstable( row->dwFlags == stat[i].flags ), "%x vs %x\n", row->dwFlags, stat[i].flags );
ok( unstable( row->OwningModuleInfo[0] == stat[i].mod_info ), "mismatch\n");
row++;
}
else if (family == AF_INET6)
{
ok( unstable( !memcmp( row6->ucLocalAddr, keys[i].local.Ipv6.sin6_addr.s6_addr, sizeof(IN6_ADDR) ) ),
"mismatch\n" );
ok( unstable( row6->dwLocalScopeId == keys[i].local.Ipv6.sin6_scope_id ), "%x vs %x\n",
row6->dwLocalScopeId, keys[i].local.Ipv6.sin6_scope_id );
ok( unstable( row6->dwLocalPort == keys[i].local.Ipv6.sin6_port ), "%d vs %d\n",
row6->dwLocalPort, keys[i].local.Ipv6.sin6_port );
ok( unstable( row6->dwOwningPid == stat[i].pid ), "%x vs %x\n", row6->dwOwningPid, stat[i].pid );
ok( unstable( row6->liCreateTimestamp.QuadPart == stat[i].create_time ), "mismatch\n" );
ok( unstable( row6->dwFlags == stat[i].flags ), "%x vs %x\n", row6->dwFlags, stat[i].flags );
ok( unstable( row6->OwningModuleInfo[0] == stat[i].mod_info ), "mismatch\n");
row6++;
}
}
free( table );
NsiFreeTable( keys, NULL, NULL, stat );
winetest_pop_context();
}
START_TEST( nsi )
{
test_nsi_api();
test_ndis_ifinfo();
test_ndis_index_luid();
test_ip_cmpt( AF_INET );
test_ip_cmpt( AF_INET6 );
test_ip_icmpstats( AF_INET );
test_ip_icmpstats( AF_INET6 );
test_ip_ipstats( AF_INET );
test_ip_ipstats( AF_INET6 );
test_ip_unicast( AF_INET );
test_ip_unicast( AF_INET6 );
test_ip_neighbour( AF_INET );
test_ip_neighbour( AF_INET6 );
test_ip_forward( AF_INET );
test_ip_forward( AF_INET6 );
test_tcp_stats( AF_INET );
test_tcp_stats( AF_INET6 );
test_tcp_tables( AF_INET, TCP_TABLE_OWNER_MODULE_ALL );
test_tcp_tables( AF_INET, TCP_TABLE_OWNER_MODULE_CONNECTIONS );
test_tcp_tables( AF_INET, TCP_TABLE_OWNER_MODULE_LISTENER );
test_tcp_tables( AF_INET6, TCP_TABLE_OWNER_MODULE_ALL );
test_tcp_tables( AF_INET6, TCP_TABLE_OWNER_MODULE_CONNECTIONS );
test_tcp_tables( AF_INET6, TCP_TABLE_OWNER_MODULE_LISTENER );
test_udp_stats( AF_INET );
test_udp_stats( AF_INET6 );
test_udp_tables( AF_INET );
test_udp_tables( AF_INET6 );
}
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