Sweden-Number/dlls/rpcrt4/tests/rpc.c

1227 lines
54 KiB
C

/*
* Unit test suite for rpc functions
*
* Copyright 2002 Greg Turner
* Copyright 2008-2009 Robert Shearman
*
* 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 <stdarg.h>
#include <stdio.h>
#define COBJMACROS
#include <ntstatus.h>
#define WIN32_NO_STATUS
#include "wine/test.h"
#include <windef.h>
#include <winbase.h>
#include <winnt.h>
#include <winerror.h>
#include <ole2.h>
#include <oleauto.h>
#include <ntsecapi.h>
#include <initguid.h>
#include <netfw.h>
#include "rpc.h"
#include "rpcdce.h"
#include "secext.h"
typedef unsigned int unsigned32;
typedef struct twr_t
{
unsigned32 tower_length;
/* [size_is] */ byte tower_octet_string[ 1 ];
} twr_t;
RPC_STATUS WINAPI TowerExplode(const twr_t *tower, RPC_SYNTAX_IDENTIFIER *object, RPC_SYNTAX_IDENTIFIER *syntax, char **protseq, char **endpoint, char **address);
RPC_STATUS WINAPI TowerConstruct(const RPC_SYNTAX_IDENTIFIER *object, const RPC_SYNTAX_IDENTIFIER *syntax, const char *protseq, const char *endpoint, const char *address, twr_t **tower);
static UUID Uuid_Table[10] = {
{ 0x00000000, 0x0000, 0x0000, {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00} }, /* 0 (null) */
{ 0xdeadbeef, 0xdead, 0xbeef, {0x10, 0x21, 0x35, 0x56, 0x89, 0xa0, 0xf4, 0x8a} }, /* 1 */
{ 0xabadfeed, 0x49ff, 0xbead, {0x8a, 0xf4, 0xa0, 0x89, 0x56, 0x35, 0x21, 0x10} }, /* 2 */
{ 0x93da375c, 0x1324, 0x1355, {0x87, 0xff, 0x49, 0x44, 0x34, 0x44, 0x22, 0x19} }, /* 3 */
{ 0xdeadbeef, 0xdead, 0xbeef, {0x10, 0x21, 0x35, 0x56, 0x89, 0xa0, 0xf4, 0x8b} }, /* 4 (~1) */
{ 0x9badfeed, 0x49ff, 0xbead, {0x8a, 0xf4, 0xa0, 0x89, 0x56, 0x35, 0x21, 0x10} }, /* 5 (~2) */
{ 0x00000000, 0x0001, 0x0000, {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00} }, /* 6 (~0) */
{ 0x00000000, 0x0000, 0x0000, {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01} }, /* 7 (~0) */
{ 0x12312312, 0x1231, 0x1231, {0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xff} }, /* 8 */
{ 0x11111111, 0x1111, 0x1111, {0x11, 0x11, 0x11, 0x11, 0x11, 0x11, 0x11, 0x11} } /* 9 */
};
/* index of "10" means "NULL" */
static BOOL Uuid_Comparison_Grid[11][11] = {
{ TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE },
{ FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE },
{ FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE },
{ FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE },
{ FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE },
{ FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE },
{ FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE },
{ FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE },
{ FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE },
{ FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE },
{ TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE }
};
static void UuidConversionAndComparison(void) {
CHAR strx[100], x;
LPSTR str = strx;
WCHAR wstrx[100], wx;
LPWSTR wstr = wstrx;
UUID Uuid1, Uuid2, *PUuid1, *PUuid2;
RPC_STATUS rslt;
int i1,i2;
/* Uuid Equality */
for (i1 = 0; i1 < 11; i1++)
for (i2 = 0; i2 < 11; i2++) {
if (i1 < 10) {
Uuid1 = Uuid_Table[i1];
PUuid1 = &Uuid1;
} else {
PUuid1 = NULL;
}
if (i2 < 10) {
Uuid2 = Uuid_Table[i2];
PUuid2 = &Uuid2;
} else {
PUuid2 = NULL;
}
ok( (UuidEqual(PUuid1, PUuid2, &rslt) == Uuid_Comparison_Grid[i1][i2]), "UUID Equality\n" );
}
/* Uuid to String to Uuid (char) */
for (i1 = 0; i1 < 10; i1++) {
Uuid1 = Uuid_Table[i1];
ok( (UuidToStringA(&Uuid1, (unsigned char**)&str) == RPC_S_OK), "Simple UUID->String copy\n" );
ok( (UuidFromStringA((unsigned char*)str, &Uuid2) == RPC_S_OK), "Simple String->UUID copy from generated UUID String\n" );
ok( UuidEqual(&Uuid1, &Uuid2, &rslt), "Uuid -> String -> Uuid transform\n" );
/* invalid uuid tests -- size of valid UUID string=36 */
for (i2 = 0; i2 < 36; i2++) {
x = str[i2];
str[i2] = 'g'; /* whatever, but "g" is a good boundary condition */
ok( (UuidFromStringA((unsigned char*)str, &Uuid1) == RPC_S_INVALID_STRING_UUID), "Invalid UUID String\n" );
str[i2] = x; /* change it back so remaining tests are interesting. */
}
RpcStringFreeA((unsigned char **)&str);
}
/* Uuid to String to Uuid (wchar) */
for (i1 = 0; i1 < 10; i1++) {
Uuid1 = Uuid_Table[i1];
rslt=UuidToStringW(&Uuid1, &wstr);
ok( (rslt == RPC_S_OK), "Simple UUID->WString copy\n" );
ok( (UuidFromStringW(wstr, &Uuid2) == RPC_S_OK), "Simple WString->UUID copy from generated UUID String\n" );
ok( UuidEqual(&Uuid1, &Uuid2, &rslt), "Uuid -> WString -> Uuid transform\n" );
/* invalid uuid tests -- size of valid UUID string=36 */
for (i2 = 0; i2 < 36; i2++) {
wx = wstr[i2];
wstr[i2] = 'g'; /* whatever, but "g" is a good boundary condition */
ok( (UuidFromStringW(wstr, &Uuid1) == RPC_S_INVALID_STRING_UUID), "Invalid UUID WString\n" );
wstr[i2] = wx; /* change it back so remaining tests are interesting. */
}
RpcStringFreeW(&wstr);
}
}
static void TestDceErrorInqText (void)
{
char bufferInvalid [1024];
char buffer [1024]; /* The required size is not documented but would
* appear to be 256.
*/
DWORD dwCount;
dwCount = FormatMessageA(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL,
RPC_S_NOT_RPC_ERROR, 0, bufferInvalid, ARRAY_SIZE(bufferInvalid), NULL);
/* A random sample of DceErrorInqText */
/* 0 is success */
ok ((DceErrorInqTextA (0, (unsigned char*)buffer) == RPC_S_OK),
"DceErrorInqTextA(0...)\n");
/* A real RPC_S error */
ok ((DceErrorInqTextA (RPC_S_INVALID_STRING_UUID, (unsigned char*)buffer) == RPC_S_OK),
"DceErrorInqTextA(valid...)\n");
if (dwCount)
{
/* A message for which FormatMessage should fail
* which should return RPC_S_OK and the
* fixed "not valid" message
*/
ok ((DceErrorInqTextA (35, (unsigned char*)buffer) == RPC_S_OK &&
strcmp (buffer, bufferInvalid) == 0),
"DceErrorInqTextA(unformattable...)\n");
/* One for which FormatMessage should succeed but
* DceErrorInqText should "fail"
* 3814 is generally quite a long message
*/
ok ((DceErrorInqTextA (3814, (unsigned char*)buffer) == RPC_S_OK &&
strcmp (buffer, bufferInvalid) == 0),
"DceErrorInqTextA(deviation...)\n");
}
else
ok (0, "Cannot set up for DceErrorInqText\n");
}
static RPC_DISPATCH_FUNCTION IFoo_table[] =
{
0
};
static RPC_DISPATCH_TABLE IFoo_v0_0_DispatchTable =
{
0,
IFoo_table
};
static const RPC_SERVER_INTERFACE IFoo___RpcServerInterface =
{
sizeof(RPC_SERVER_INTERFACE),
{{0x00000000,0x0000,0x0000,{0x00,0x00,0x00,0x00,0x00,0x00,0x12,0x34}},{0,0}},
{{0x8a885d04,0x1ceb,0x11c9,{0x9f,0xe8,0x08,0x00,0x2b,0x10,0x48,0x60}},{2,0}},
&IFoo_v0_0_DispatchTable,
0,
0,
0,
0,
0,
};
static RPC_IF_HANDLE IFoo_v0_0_s_ifspec = (RPC_IF_HANDLE)& IFoo___RpcServerInterface;
static void test_rpc_ncacn_ip_tcp(void)
{
RPC_STATUS status;
unsigned char *binding, *principal;
handle_t IFoo_IfHandle;
ULONG level, authnsvc, authzsvc;
RPC_AUTH_IDENTITY_HANDLE identity;
static unsigned char foo[] = "foo";
static unsigned char ncacn_ip_tcp[] = "ncacn_ip_tcp";
static unsigned char address[] = "127.0.0.1";
static unsigned char endpoint[] = "4114";
static unsigned char spn[] = "principal";
status = RpcNetworkIsProtseqValidA(foo);
ok(status == RPC_S_INVALID_RPC_PROTSEQ, "return wrong\n");
status = RpcNetworkIsProtseqValidA(ncacn_ip_tcp);
ok(status == RPC_S_OK, "return wrong\n");
status = RpcMgmtStopServerListening(NULL);
ok(status == RPC_S_NOT_LISTENING,
"wrong RpcMgmtStopServerListening error (%u)\n", status);
status = RpcMgmtWaitServerListen();
ok(status == RPC_S_NOT_LISTENING,
"wrong RpcMgmtWaitServerListen error status (%u)\n", status);
status = RpcServerListen(1, 20, FALSE);
ok(status == RPC_S_NO_PROTSEQS_REGISTERED,
"wrong RpcServerListen error (%u)\n", status);
status = RpcServerUseProtseqEpA(ncacn_ip_tcp, 20, endpoint, NULL);
ok(status == RPC_S_OK, "RpcServerUseProtseqEp failed (%u)\n", status);
status = RpcServerRegisterIf(IFoo_v0_0_s_ifspec, NULL, NULL);
ok(status == RPC_S_OK, "RpcServerRegisterIf failed (%u)\n", status);
status = RpcServerListen(1, 20, TRUE);
ok(status == RPC_S_OK, "RpcServerListen failed (%u)\n", status);
status = RpcServerListen(1, 20, TRUE);
ok(status == RPC_S_ALREADY_LISTENING,
"wrong RpcServerListen error (%u)\n", status);
status = RpcStringBindingComposeA(NULL, ncacn_ip_tcp, address,
endpoint, NULL, &binding);
ok(status == RPC_S_OK, "RpcStringBindingCompose failed (%u)\n", status);
status = RpcBindingFromStringBindingA(binding, &IFoo_IfHandle);
ok(status == RPC_S_OK, "RpcBindingFromStringBinding failed (%u)\n",
status);
status = RpcBindingSetAuthInfoA(IFoo_IfHandle, NULL, RPC_C_AUTHN_LEVEL_NONE,
RPC_C_AUTHN_WINNT, NULL, RPC_C_AUTHZ_NAME);
ok(status == RPC_S_OK, "RpcBindingSetAuthInfo failed (%u)\n", status);
status = RpcBindingInqAuthInfoA(IFoo_IfHandle, NULL, NULL, NULL, NULL, NULL);
ok(status == RPC_S_BINDING_HAS_NO_AUTH, "RpcBindingInqAuthInfo failed (%u)\n",
status);
status = RpcBindingSetAuthInfoA(IFoo_IfHandle, spn, RPC_C_AUTHN_LEVEL_PKT_PRIVACY,
RPC_C_AUTHN_WINNT, NULL, RPC_C_AUTHZ_NAME);
ok(status == RPC_S_OK, "RpcBindingSetAuthInfo failed (%u)\n", status);
level = authnsvc = authzsvc = 0;
principal = (unsigned char *)0xdeadbeef;
identity = (RPC_AUTH_IDENTITY_HANDLE *)0xdeadbeef;
status = RpcBindingInqAuthInfoA(IFoo_IfHandle, &principal, &level, &authnsvc,
&identity, &authzsvc);
ok(status == RPC_S_OK, "RpcBindingInqAuthInfo failed (%u)\n", status);
ok(identity == NULL, "expected NULL identity, got %p\n", identity);
ok(principal != (unsigned char *)0xdeadbeef, "expected valid principal, got %p\n", principal);
ok(level == RPC_C_AUTHN_LEVEL_PKT_PRIVACY, "expected RPC_C_AUTHN_LEVEL_PKT_PRIVACY, got %d\n", level);
ok(authnsvc == RPC_C_AUTHN_WINNT, "expected RPC_C_AUTHN_WINNT, got %d\n", authnsvc);
todo_wine ok(authzsvc == RPC_C_AUTHZ_NAME, "expected RPC_C_AUTHZ_NAME, got %d\n", authzsvc);
if (status == RPC_S_OK) RpcStringFreeA(&principal);
status = RpcMgmtStopServerListening(NULL);
ok(status == RPC_S_OK, "RpcMgmtStopServerListening failed (%u)\n",
status);
status = RpcMgmtStopServerListening(NULL);
ok(status == RPC_S_OK, "RpcMgmtStopServerListening failed (%u)\n",
status);
status = RpcServerUnregisterIf(NULL, NULL, FALSE);
ok(status == RPC_S_OK, "RpcServerUnregisterIf failed (%u)\n", status);
status = RpcMgmtWaitServerListen();
ok(status == RPC_S_OK, "RpcMgmtWaitServerListen failed (%u)\n", status);
status = RpcStringFreeA(&binding);
ok(status == RPC_S_OK, "RpcStringFree failed (%u)\n", status);
status = RpcBindingFree(&IFoo_IfHandle);
ok(status == RPC_S_OK, "RpcBindingFree failed (%u)\n", status);
}
/* this is what's generated with MS/RPC - it includes an extra 2
* bytes in the protocol floor */
static const unsigned char tower_data_tcp_ip1[] =
{
0x05,0x00,0x13,0x00,0x0d,0x00,0xdb,0xf1,
0xa4,0x47,0xca,0x67,0x10,0xb3,0x1f,0x00,
0xdd,0x01,0x06,0x62,0xda,0x00,0x00,0x02,
0x00,0x00,0x00,0x13,0x00,0x0d,0x04,0x5d,
0x88,0x8a,0xeb,0x1c,0xc9,0x11,0x9f,0xe8,
0x08,0x00,0x2b,0x10,0x48,0x60,0x02,0x00,
0x02,0x00,0x00,0x00,0x01,0x00,0x0b,0x02,
0x00,0x00,0x00,0x01,0x00,0x07,0x02,0x00,
0x00,0x87,0x01,0x00,0x09,0x04,0x00,0x0a,
0x00,0x00,0x01,
};
/* this is the optimal data that i think should be generated */
static const unsigned char tower_data_tcp_ip2[] =
{
0x05,0x00,0x13,0x00,0x0d,0x00,0xdb,0xf1,
0xa4,0x47,0xca,0x67,0x10,0xb3,0x1f,0x00,
0xdd,0x01,0x06,0x62,0xda,0x00,0x00,0x02,
0x00,0x00,0x00,0x13,0x00,0x0d,0x04,0x5d,
0x88,0x8a,0xeb,0x1c,0xc9,0x11,0x9f,0xe8,
0x08,0x00,0x2b,0x10,0x48,0x60,0x02,0x00,
0x02,0x00,0x00,0x00,0x01,0x00,0x0b,0x00,
0x00,0x01,0x00,0x07,0x02,0x00,0x00,0x87,
0x01,0x00,0x09,0x04,0x00,0x0a,0x00,0x00,
0x01,
};
static void test_towers(void)
{
RPC_STATUS ret;
twr_t *tower;
static const RPC_SYNTAX_IDENTIFIER mapi_if_id = { { 0xa4f1db00, 0xca47, 0x1067, { 0xb3, 0x1f, 0x00, 0xdd, 0x01, 0x06, 0x62, 0xda } }, { 0, 0 } };
static const RPC_SYNTAX_IDENTIFIER ndr_syntax = { { 0x8a885d04, 0x1ceb, 0x11c9, { 0x9f, 0xe8, 0x08, 0x00, 0x2b, 0x10, 0x48, 0x60 } }, { 2, 0 } };
RPC_SYNTAX_IDENTIFIER object, syntax;
char *protseq, *endpoint, *address;
BOOL same;
ret = TowerConstruct(&mapi_if_id, &ndr_syntax, "ncacn_ip_tcp", "135", "10.0.0.1", &tower);
ok(ret == RPC_S_OK ||
broken(ret == RPC_S_INVALID_RPC_PROTSEQ), /* Vista */
"TowerConstruct failed with error %d\n", ret);
if (ret == RPC_S_INVALID_RPC_PROTSEQ)
{
/* Windows Vista fails with this error and crashes if we continue */
win_skip("TowerConstruct failed, we are most likely on Windows Vista\n");
return;
}
/* first check we have the right amount of data */
ok(tower->tower_length == sizeof(tower_data_tcp_ip1) ||
tower->tower_length == sizeof(tower_data_tcp_ip2),
"Wrong size of tower %d\n", tower->tower_length);
/* then do a byte-by-byte comparison */
same = ((tower->tower_length == sizeof(tower_data_tcp_ip1)) &&
!memcmp(&tower->tower_octet_string, tower_data_tcp_ip1, sizeof(tower_data_tcp_ip1))) ||
((tower->tower_length == sizeof(tower_data_tcp_ip2)) &&
!memcmp(&tower->tower_octet_string, tower_data_tcp_ip2, sizeof(tower_data_tcp_ip2)));
ok(same, "Tower data differs\n");
if (!same)
{
unsigned32 i;
for (i = 0; i < tower->tower_length; i++)
{
if (i % 8 == 0) printf(" ");
printf("0x%02x,", tower->tower_octet_string[i]);
if (i % 8 == 7) printf("\n");
}
printf("\n");
}
ret = TowerExplode(tower, &object, &syntax, &protseq, &endpoint, &address);
ok(ret == RPC_S_OK, "TowerExplode failed with error %d\n", ret);
ok(!memcmp(&object, &mapi_if_id, sizeof(mapi_if_id)), "object id didn't match\n");
ok(!memcmp(&syntax, &ndr_syntax, sizeof(syntax)), "syntax id didn't match\n");
ok(!strcmp(protseq, "ncacn_ip_tcp"), "protseq was \"%s\" instead of \"ncacn_ip_tcp\"\n", protseq);
ok(!strcmp(endpoint, "135"), "endpoint was \"%s\" instead of \"135\"\n", endpoint);
ok(!strcmp(address, "10.0.0.1"), "address was \"%s\" instead of \"10.0.0.1\"\n", address);
I_RpcFree(protseq);
I_RpcFree(endpoint);
I_RpcFree(address);
ret = TowerExplode(tower, NULL, NULL, NULL, NULL, NULL);
ok(ret == RPC_S_OK, "TowerExplode failed with error %d\n", ret);
I_RpcFree(tower);
/* test the behaviour for ip_tcp with name instead of dotted IP notation */
ret = TowerConstruct(&mapi_if_id, &ndr_syntax, "ncacn_ip_tcp", "135", "localhost", &tower);
ok(ret == RPC_S_OK, "TowerConstruct failed with error %d\n", ret);
ret = TowerExplode(tower, NULL, NULL, NULL, NULL, &address);
ok(ret == RPC_S_OK, "TowerExplode failed with error %d\n", ret);
ok(!strcmp(address, "0.0.0.0") ||
broken(!strcmp(address, "255.255.255.255")),
"address was \"%s\" instead of \"0.0.0.0\"\n", address);
I_RpcFree(address);
I_RpcFree(tower);
/* test the behaviour for np with no address */
ret = TowerConstruct(&mapi_if_id, &ndr_syntax, "ncacn_np", "\\pipe\\test", NULL, &tower);
ok(ret == RPC_S_OK, "TowerConstruct failed with error %d\n", ret);
ret = TowerExplode(tower, NULL, NULL, NULL, NULL, &address);
ok(ret == RPC_S_OK ||
broken(ret != RPC_S_OK), /* win2k, indeterminate */
"TowerExplode failed with error %d\n", ret);
/* Windows XP SP3 sets address to NULL */
ok(!address || !strcmp(address, ""), "address was \"%s\" instead of \"\" or NULL (XP SP3)\n", address);
I_RpcFree(address);
I_RpcFree(tower);
}
static void test_I_RpcMapWin32Status(void)
{
LONG win32status;
RPC_STATUS rpc_status;
BOOL w2k3_up = FALSE;
/* Windows 2003 and above return STATUS_UNSUCCESSFUL if given an unknown status */
win32status = I_RpcMapWin32Status(9999);
if (win32status == STATUS_UNSUCCESSFUL)
w2k3_up = TRUE;
/* On Windows XP-SP1 and below some statuses are not mapped and return
* the given status
*/
for (rpc_status = 0; rpc_status < 10000; rpc_status++)
{
LONG expected_win32status;
BOOL missing = FALSE;
win32status = I_RpcMapWin32Status(rpc_status);
switch (rpc_status)
{
case ERROR_SUCCESS: expected_win32status = ERROR_SUCCESS; break;
case ERROR_ACCESS_DENIED: expected_win32status = STATUS_ACCESS_DENIED; break;
case ERROR_INVALID_HANDLE: expected_win32status = RPC_NT_SS_CONTEXT_MISMATCH; break;
case ERROR_OUTOFMEMORY: expected_win32status = STATUS_NO_MEMORY; break;
case ERROR_INVALID_PARAMETER: expected_win32status = STATUS_INVALID_PARAMETER; break;
case ERROR_INSUFFICIENT_BUFFER: expected_win32status = STATUS_BUFFER_TOO_SMALL; break;
case ERROR_MAX_THRDS_REACHED: expected_win32status = STATUS_NO_MEMORY; break;
case ERROR_NOACCESS: expected_win32status = STATUS_ACCESS_VIOLATION; break;
case ERROR_NOT_ENOUGH_SERVER_MEMORY: expected_win32status = STATUS_INSUFF_SERVER_RESOURCES; break;
case ERROR_WRONG_PASSWORD: expected_win32status = STATUS_WRONG_PASSWORD; missing = TRUE; break;
case ERROR_INVALID_LOGON_HOURS: expected_win32status = STATUS_INVALID_LOGON_HOURS; missing = TRUE; break;
case ERROR_PASSWORD_EXPIRED: expected_win32status = STATUS_PASSWORD_EXPIRED; missing = TRUE; break;
case ERROR_ACCOUNT_DISABLED: expected_win32status = STATUS_ACCOUNT_DISABLED; missing = TRUE; break;
case ERROR_INVALID_SECURITY_DESCR: expected_win32status = STATUS_INVALID_SECURITY_DESCR; break;
case RPC_S_INVALID_STRING_BINDING: expected_win32status = RPC_NT_INVALID_STRING_BINDING; break;
case RPC_S_WRONG_KIND_OF_BINDING: expected_win32status = RPC_NT_WRONG_KIND_OF_BINDING; break;
case RPC_S_INVALID_BINDING: expected_win32status = RPC_NT_INVALID_BINDING; break;
case RPC_S_PROTSEQ_NOT_SUPPORTED: expected_win32status = RPC_NT_PROTSEQ_NOT_SUPPORTED; break;
case RPC_S_INVALID_RPC_PROTSEQ: expected_win32status = RPC_NT_INVALID_RPC_PROTSEQ; break;
case RPC_S_INVALID_STRING_UUID: expected_win32status = RPC_NT_INVALID_STRING_UUID; break;
case RPC_S_INVALID_ENDPOINT_FORMAT: expected_win32status = RPC_NT_INVALID_ENDPOINT_FORMAT; break;
case RPC_S_INVALID_NET_ADDR: expected_win32status = RPC_NT_INVALID_NET_ADDR; break;
case RPC_S_NO_ENDPOINT_FOUND: expected_win32status = RPC_NT_NO_ENDPOINT_FOUND; break;
case RPC_S_INVALID_TIMEOUT: expected_win32status = RPC_NT_INVALID_TIMEOUT; break;
case RPC_S_OBJECT_NOT_FOUND: expected_win32status = RPC_NT_OBJECT_NOT_FOUND; break;
case RPC_S_ALREADY_REGISTERED: expected_win32status = RPC_NT_ALREADY_REGISTERED; break;
case RPC_S_TYPE_ALREADY_REGISTERED: expected_win32status = RPC_NT_TYPE_ALREADY_REGISTERED; break;
case RPC_S_ALREADY_LISTENING: expected_win32status = RPC_NT_ALREADY_LISTENING; break;
case RPC_S_NO_PROTSEQS_REGISTERED: expected_win32status = RPC_NT_NO_PROTSEQS_REGISTERED; break;
case RPC_S_NOT_LISTENING: expected_win32status = RPC_NT_NOT_LISTENING; break;
case RPC_S_UNKNOWN_MGR_TYPE: expected_win32status = RPC_NT_UNKNOWN_MGR_TYPE; break;
case RPC_S_UNKNOWN_IF: expected_win32status = RPC_NT_UNKNOWN_IF; break;
case RPC_S_NO_BINDINGS: expected_win32status = RPC_NT_NO_BINDINGS; break;
case RPC_S_NO_PROTSEQS: expected_win32status = RPC_NT_NO_PROTSEQS; break;
case RPC_S_CANT_CREATE_ENDPOINT: expected_win32status = RPC_NT_CANT_CREATE_ENDPOINT; break;
case RPC_S_OUT_OF_RESOURCES: expected_win32status = RPC_NT_OUT_OF_RESOURCES; break;
case RPC_S_SERVER_UNAVAILABLE: expected_win32status = RPC_NT_SERVER_UNAVAILABLE; break;
case RPC_S_SERVER_TOO_BUSY: expected_win32status = RPC_NT_SERVER_TOO_BUSY; break;
case RPC_S_INVALID_NETWORK_OPTIONS: expected_win32status = RPC_NT_INVALID_NETWORK_OPTIONS; break;
case RPC_S_NO_CALL_ACTIVE: expected_win32status = RPC_NT_NO_CALL_ACTIVE; break;
case RPC_S_CALL_FAILED: expected_win32status = RPC_NT_CALL_FAILED; break;
case RPC_S_CALL_FAILED_DNE: expected_win32status = RPC_NT_CALL_FAILED_DNE; break;
case RPC_S_PROTOCOL_ERROR: expected_win32status = RPC_NT_PROTOCOL_ERROR; break;
case RPC_S_UNSUPPORTED_TRANS_SYN: expected_win32status = RPC_NT_UNSUPPORTED_TRANS_SYN; break;
case RPC_S_UNSUPPORTED_TYPE: expected_win32status = RPC_NT_UNSUPPORTED_TYPE; break;
case RPC_S_INVALID_TAG: expected_win32status = RPC_NT_INVALID_TAG; break;
case RPC_S_INVALID_BOUND: expected_win32status = RPC_NT_INVALID_BOUND; break;
case RPC_S_NO_ENTRY_NAME: expected_win32status = RPC_NT_NO_ENTRY_NAME; break;
case RPC_S_INVALID_NAME_SYNTAX: expected_win32status = RPC_NT_INVALID_NAME_SYNTAX; break;
case RPC_S_UNSUPPORTED_NAME_SYNTAX: expected_win32status = RPC_NT_UNSUPPORTED_NAME_SYNTAX; break;
case RPC_S_UUID_NO_ADDRESS: expected_win32status = RPC_NT_UUID_NO_ADDRESS; break;
case RPC_S_DUPLICATE_ENDPOINT: expected_win32status = RPC_NT_DUPLICATE_ENDPOINT; break;
case RPC_S_UNKNOWN_AUTHN_TYPE: expected_win32status = RPC_NT_UNKNOWN_AUTHN_TYPE; break;
case RPC_S_MAX_CALLS_TOO_SMALL: expected_win32status = RPC_NT_MAX_CALLS_TOO_SMALL; break;
case RPC_S_STRING_TOO_LONG: expected_win32status = RPC_NT_STRING_TOO_LONG; break;
case RPC_S_PROTSEQ_NOT_FOUND: expected_win32status = RPC_NT_PROTSEQ_NOT_FOUND; break;
case RPC_S_PROCNUM_OUT_OF_RANGE: expected_win32status = RPC_NT_PROCNUM_OUT_OF_RANGE; break;
case RPC_S_BINDING_HAS_NO_AUTH: expected_win32status = RPC_NT_BINDING_HAS_NO_AUTH; break;
case RPC_S_UNKNOWN_AUTHN_SERVICE: expected_win32status = RPC_NT_UNKNOWN_AUTHN_SERVICE; break;
case RPC_S_UNKNOWN_AUTHN_LEVEL: expected_win32status = RPC_NT_UNKNOWN_AUTHN_LEVEL; break;
case RPC_S_INVALID_AUTH_IDENTITY: expected_win32status = RPC_NT_INVALID_AUTH_IDENTITY; break;
case RPC_S_UNKNOWN_AUTHZ_SERVICE: expected_win32status = RPC_NT_UNKNOWN_AUTHZ_SERVICE; break;
case EPT_S_INVALID_ENTRY: expected_win32status = EPT_NT_INVALID_ENTRY; break;
case EPT_S_CANT_PERFORM_OP: expected_win32status = EPT_NT_CANT_PERFORM_OP; break;
case EPT_S_NOT_REGISTERED: expected_win32status = EPT_NT_NOT_REGISTERED; break;
case EPT_S_CANT_CREATE: expected_win32status = EPT_NT_CANT_CREATE; break;
case RPC_S_NOTHING_TO_EXPORT: expected_win32status = RPC_NT_NOTHING_TO_EXPORT; break;
case RPC_S_INCOMPLETE_NAME: expected_win32status = RPC_NT_INCOMPLETE_NAME; break;
case RPC_S_INVALID_VERS_OPTION: expected_win32status = RPC_NT_INVALID_VERS_OPTION; break;
case RPC_S_NO_MORE_MEMBERS: expected_win32status = RPC_NT_NO_MORE_MEMBERS; break;
case RPC_S_NOT_ALL_OBJS_UNEXPORTED: expected_win32status = RPC_NT_NOT_ALL_OBJS_UNEXPORTED; break;
case RPC_S_INTERFACE_NOT_FOUND: expected_win32status = RPC_NT_INTERFACE_NOT_FOUND; break;
case RPC_S_ENTRY_ALREADY_EXISTS: expected_win32status = RPC_NT_ENTRY_ALREADY_EXISTS; break;
case RPC_S_ENTRY_NOT_FOUND: expected_win32status = RPC_NT_ENTRY_NOT_FOUND; break;
case RPC_S_NAME_SERVICE_UNAVAILABLE: expected_win32status = RPC_NT_NAME_SERVICE_UNAVAILABLE; break;
case RPC_S_INVALID_NAF_ID: expected_win32status = RPC_NT_INVALID_NAF_ID; break;
case RPC_S_CANNOT_SUPPORT: expected_win32status = RPC_NT_CANNOT_SUPPORT; break;
case RPC_S_NO_CONTEXT_AVAILABLE: expected_win32status = RPC_NT_NO_CONTEXT_AVAILABLE; break;
case RPC_S_INTERNAL_ERROR: expected_win32status = RPC_NT_INTERNAL_ERROR; break;
case RPC_S_ZERO_DIVIDE: expected_win32status = RPC_NT_ZERO_DIVIDE; break;
case RPC_S_ADDRESS_ERROR: expected_win32status = RPC_NT_ADDRESS_ERROR; break;
case RPC_S_FP_DIV_ZERO: expected_win32status = RPC_NT_FP_DIV_ZERO; break;
case RPC_S_FP_UNDERFLOW: expected_win32status = RPC_NT_FP_UNDERFLOW; break;
case RPC_S_FP_OVERFLOW: expected_win32status = RPC_NT_FP_OVERFLOW; break;
case RPC_S_CALL_IN_PROGRESS: expected_win32status = RPC_NT_CALL_IN_PROGRESS; break;
case RPC_S_NO_MORE_BINDINGS: expected_win32status = RPC_NT_NO_MORE_BINDINGS; break;
case RPC_S_CALL_CANCELLED: expected_win32status = RPC_NT_CALL_CANCELLED; missing = TRUE; break;
case RPC_S_INVALID_OBJECT: expected_win32status = RPC_NT_INVALID_OBJECT; break;
case RPC_S_INVALID_ASYNC_HANDLE: expected_win32status = RPC_NT_INVALID_ASYNC_HANDLE; missing = TRUE; break;
case RPC_S_INVALID_ASYNC_CALL: expected_win32status = RPC_NT_INVALID_ASYNC_CALL; missing = TRUE; break;
case RPC_S_GROUP_MEMBER_NOT_FOUND: expected_win32status = RPC_NT_GROUP_MEMBER_NOT_FOUND; break;
case RPC_X_NO_MORE_ENTRIES: expected_win32status = RPC_NT_NO_MORE_ENTRIES; break;
case RPC_X_SS_CHAR_TRANS_OPEN_FAIL: expected_win32status = RPC_NT_SS_CHAR_TRANS_OPEN_FAIL; break;
case RPC_X_SS_CHAR_TRANS_SHORT_FILE: expected_win32status = RPC_NT_SS_CHAR_TRANS_SHORT_FILE; break;
case RPC_X_SS_IN_NULL_CONTEXT: expected_win32status = RPC_NT_SS_IN_NULL_CONTEXT; break;
case RPC_X_SS_CONTEXT_DAMAGED: expected_win32status = RPC_NT_SS_CONTEXT_DAMAGED; break;
case RPC_X_SS_HANDLES_MISMATCH: expected_win32status = RPC_NT_SS_HANDLES_MISMATCH; break;
case RPC_X_SS_CANNOT_GET_CALL_HANDLE: expected_win32status = RPC_NT_SS_CANNOT_GET_CALL_HANDLE; break;
case RPC_X_NULL_REF_POINTER: expected_win32status = RPC_NT_NULL_REF_POINTER; break;
case RPC_X_ENUM_VALUE_OUT_OF_RANGE: expected_win32status = RPC_NT_ENUM_VALUE_OUT_OF_RANGE; break;
case RPC_X_BYTE_COUNT_TOO_SMALL: expected_win32status = RPC_NT_BYTE_COUNT_TOO_SMALL; break;
case RPC_X_BAD_STUB_DATA: expected_win32status = RPC_NT_BAD_STUB_DATA; break;
case RPC_X_PIPE_CLOSED: expected_win32status = RPC_NT_PIPE_CLOSED; missing = TRUE; break;
case RPC_X_PIPE_DISCIPLINE_ERROR: expected_win32status = RPC_NT_PIPE_DISCIPLINE_ERROR; missing = TRUE; break;
case RPC_X_PIPE_EMPTY: expected_win32status = RPC_NT_PIPE_EMPTY; missing = TRUE; break;
case ERROR_PASSWORD_MUST_CHANGE: expected_win32status = STATUS_PASSWORD_MUST_CHANGE; missing = TRUE; break;
case ERROR_ACCOUNT_LOCKED_OUT: expected_win32status = STATUS_ACCOUNT_LOCKED_OUT; missing = TRUE; break;
default:
if (w2k3_up)
expected_win32status = STATUS_UNSUCCESSFUL;
else
expected_win32status = rpc_status;
}
ok(win32status == expected_win32status ||
broken(missing && win32status == rpc_status),
"I_RpcMapWin32Status(%d) should have returned 0x%x instead of 0x%x%s\n",
rpc_status, expected_win32status, win32status,
broken(missing) ? " (or have returned with the given status)" : "");
}
}
static void test_RpcStringBindingParseA(void)
{
static unsigned char valid_binding[] = "00000000-0000-0000-c000-000000000046@ncacn_np:.[endpoint=\\pipe\\test]";
static unsigned char valid_binding2[] = "00000000-0000-0000-c000-000000000046@ncacn_np:.[\\pipe\\test]";
static unsigned char invalid_uuid_binding[] = "{00000000-0000-0000-c000-000000000046}@ncacn_np:.[endpoint=\\pipe\\test]";
static unsigned char invalid_ep_binding[] = "00000000-0000-0000-c000-000000000046@ncacn_np:.[endpoint=test]";
static unsigned char invalid_binding[] = "00000000-0000-0000-c000-000000000046@ncacn_np";
RPC_STATUS status;
unsigned char *uuid;
unsigned char *protseq;
unsigned char *network_addr;
unsigned char *endpoint;
unsigned char *options;
/* test all parameters */
status = RpcStringBindingParseA(valid_binding, &uuid, &protseq, &network_addr, &endpoint, &options);
ok(status == RPC_S_OK, "RpcStringBindingParseA failed with error %d\n", status);
ok(!strcmp((char *)uuid, "00000000-0000-0000-c000-000000000046"), "uuid should have been 00000000-0000-0000-C000-000000000046 instead of %s\n", uuid);
ok(!strcmp((char *)protseq, "ncacn_np"), "protseq should have been ncacn_np instead of %s\n", protseq);
ok(!strcmp((char *)network_addr, "."), "network_addr should have been . instead of %s\n", network_addr);
ok(!strcmp((char *)endpoint, "pipetest"), "endpoint should have been pipetest instead of %s\n", endpoint);
if (options)
ok(!strcmp((char *)options, ""), "options should have been \"\" of \"%s\"\n", options);
else
todo_wine ok(FALSE, "options is NULL\n");
RpcStringFreeA(&uuid);
RpcStringFreeA(&protseq);
RpcStringFreeA(&network_addr);
RpcStringFreeA(&endpoint);
RpcStringFreeA(&options);
/* test all parameters with different type of string binding */
status = RpcStringBindingParseA(valid_binding2, &uuid, &protseq, &network_addr, &endpoint, &options);
ok(status == RPC_S_OK, "RpcStringBindingParseA failed with error %d\n", status);
ok(!strcmp((char *)uuid, "00000000-0000-0000-c000-000000000046"), "uuid should have been 00000000-0000-0000-C000-000000000046 instead of %s\n", uuid);
ok(!strcmp((char *)protseq, "ncacn_np"), "protseq should have been ncacn_np instead of %s\n", protseq);
ok(!strcmp((char *)network_addr, "."), "network_addr should have been . instead of %s\n", network_addr);
ok(!strcmp((char *)endpoint, "pipetest"), "endpoint should have been pipetest instead of %s\n", endpoint);
if (options)
ok(!strcmp((char *)options, ""), "options should have been \"\" of \"%s\"\n", options);
else
todo_wine ok(FALSE, "options is NULL\n");
RpcStringFreeA(&uuid);
RpcStringFreeA(&protseq);
RpcStringFreeA(&network_addr);
RpcStringFreeA(&endpoint);
RpcStringFreeA(&options);
/* test with as many parameters NULL as possible */
status = RpcStringBindingParseA(valid_binding, NULL, &protseq, NULL, NULL, NULL);
ok(status == RPC_S_OK, "RpcStringBindingParseA failed with error %d\n", status);
ok(!strcmp((char *)protseq, "ncacn_np"), "protseq should have been ncacn_np instead of %s\n", protseq);
RpcStringFreeA(&protseq);
/* test with invalid uuid */
status = RpcStringBindingParseA(invalid_uuid_binding, NULL, &protseq, NULL, NULL, NULL);
ok(status == RPC_S_INVALID_STRING_UUID, "RpcStringBindingParseA should have returned RPC_S_INVALID_STRING_UUID instead of %d\n", status);
ok(protseq == NULL, "protseq was %p instead of NULL\n", protseq);
/* test with invalid endpoint */
status = RpcStringBindingParseA(invalid_ep_binding, NULL, &protseq, NULL, NULL, NULL);
ok(status == RPC_S_OK, "RpcStringBindingParseA failed with error %d\n", status);
RpcStringFreeA(&protseq);
/* test with invalid binding */
status = RpcStringBindingParseA(invalid_binding, &uuid, &protseq, &network_addr, &endpoint, &options);
todo_wine
ok(status == RPC_S_INVALID_STRING_BINDING, "RpcStringBindingParseA should have returned RPC_S_INVALID_STRING_BINDING instead of %d\n", status);
todo_wine
ok(uuid == NULL, "uuid was %p instead of NULL\n", uuid);
if (uuid)
RpcStringFreeA(&uuid);
ok(protseq == NULL, "protseq was %p instead of NULL\n", protseq);
todo_wine
ok(network_addr == NULL, "network_addr was %p instead of NULL\n", network_addr);
if (network_addr)
RpcStringFreeA(&network_addr);
ok(endpoint == NULL, "endpoint was %p instead of NULL\n", endpoint);
ok(options == NULL, "options was %p instead of NULL\n", options);
}
static void test_RpcExceptionFilter(const char *func_name)
{
ULONG exception;
int retval;
int (WINAPI *pRpcExceptionFilter)(ULONG) = (void *)GetProcAddress(GetModuleHandleA("rpcrt4.dll"), func_name);
if (!pRpcExceptionFilter)
{
win_skip("%s not exported\n", func_name);
return;
}
for (exception = 0; exception < STATUS_REG_NAT_CONSUMPTION; exception++)
{
/* skip over uninteresting bits of the number space */
if (exception == 2000) exception = 0x40000000;
if (exception == 0x40000005) exception = 0x80000000;
if (exception == 0x80000005) exception = 0xc0000000;
retval = pRpcExceptionFilter(exception);
switch (exception)
{
case STATUS_DATATYPE_MISALIGNMENT:
case STATUS_BREAKPOINT:
case STATUS_ACCESS_VIOLATION:
case STATUS_ILLEGAL_INSTRUCTION:
case STATUS_PRIVILEGED_INSTRUCTION:
case STATUS_INSTRUCTION_MISALIGNMENT:
case STATUS_STACK_OVERFLOW:
case STATUS_POSSIBLE_DEADLOCK:
ok(retval == EXCEPTION_CONTINUE_SEARCH, "%s(0x%x) should have returned %d instead of %d\n",
func_name, exception, EXCEPTION_CONTINUE_SEARCH, retval);
break;
case STATUS_GUARD_PAGE_VIOLATION:
case STATUS_IN_PAGE_ERROR:
case STATUS_HANDLE_NOT_CLOSABLE:
trace("%s(0x%x) returned %d\n", func_name, exception, retval);
break;
default:
ok(retval == EXCEPTION_EXECUTE_HANDLER, "%s(0x%x) should have returned %d instead of %d\n",
func_name, exception, EXCEPTION_EXECUTE_HANDLER, retval);
}
}
}
static void test_RpcStringBindingFromBinding(void)
{
static unsigned char ncacn_np[] = "ncacn_np";
static unsigned char address[] = ".";
static unsigned char endpoint[] = "\\pipe\\wine_rpc_test";
RPC_STATUS status;
handle_t handle;
RPC_CSTR binding;
status = RpcStringBindingComposeA(NULL, ncacn_np, address,
endpoint, NULL, &binding);
ok(status == RPC_S_OK, "RpcStringBindingCompose failed (%u)\n", status);
status = RpcBindingFromStringBindingA(binding, &handle);
ok(status == RPC_S_OK, "RpcBindingFromStringBinding failed (%u)\n", status);
RpcStringFreeA(&binding);
status = RpcBindingToStringBindingA(handle, &binding);
ok(status == RPC_S_OK, "RpcStringBindingFromBinding failed with error %u\n", status);
ok(!strcmp((const char *)binding, "ncacn_np:.[\\\\pipe\\\\wine_rpc_test]"),
"binding string didn't match what was expected: \"%s\"\n", binding);
RpcStringFreeA(&binding);
status = RpcBindingFree(&handle);
ok(status == RPC_S_OK, "RpcBindingFree failed with error %u\n", status);
}
static void test_UuidCreate(void)
{
UUID guid;
BYTE version;
UuidCreate(&guid);
version = (guid.Data3 & 0xf000) >> 12;
ok(version == 4 || broken(version == 1), "unexpected version %d\n",
version);
if (version == 4)
{
static UUID v4and = { 0, 0, 0x4000, { 0x80,0,0,0,0,0,0,0 } };
static UUID v4or = { 0xffffffff, 0xffff, 0x4fff,
{ 0xbf,0xff,0xff,0xff,0xff,0xff,0xff,0xff } };
UUID and, or;
RPC_STATUS rslt;
int i;
and = guid;
or = guid;
/* Generate a bunch of UUIDs and mask them. By the end, we expect
* every randomly generated bit to have been zero at least once,
* resulting in no bits set in the and mask except those which are not
* randomly generated: the version number and the topmost bits of the
* Data4 field (treated as big-endian.) Similarly, we expect only
* the bits which are not randomly set to be cleared in the or mask.
*/
for (i = 0; i < 1000; i++)
{
LPBYTE src, dst;
UuidCreate(&guid);
for (src = (LPBYTE)&guid, dst = (LPBYTE)&and;
src - (LPBYTE)&guid < sizeof(guid); src++, dst++)
*dst &= *src;
for (src = (LPBYTE)&guid, dst = (LPBYTE)&or;
src - (LPBYTE)&guid < sizeof(guid); src++, dst++)
*dst |= *src;
}
ok(UuidEqual(&and, &v4and, &rslt),
"unexpected bits set in V4 UUID: %s\n", wine_dbgstr_guid(&and));
ok(UuidEqual(&or, &v4or, &rslt),
"unexpected bits set in V4 UUID: %s\n", wine_dbgstr_guid(&or));
}
else
{
/* Older versions of Windows generate V1 UUIDs. For these, there are
* many stable bits, including at least the MAC address if one is
* present. Just check that Data4[0]'s most significant bits are
* set as expected.
*/
ok((guid.Data4[0] & 0xc0) == 0x80,
"unexpected value in Data4[0]: %02x\n", guid.Data4[0] & 0xc0);
}
}
static void test_UuidCreateSequential(void)
{
UUID guid1;
BYTE version;
RPC_STATUS (WINAPI *pUuidCreateSequential)(UUID *) = (void *)GetProcAddress(GetModuleHandleA("rpcrt4.dll"), "UuidCreateSequential");
RPC_STATUS (WINAPI *pI_UuidCreate)(UUID *) = (void*)GetProcAddress(GetModuleHandleA("rpcrt4.dll"), "I_UuidCreate");
RPC_STATUS ret;
if (!pUuidCreateSequential)
{
win_skip("UuidCreateSequential not exported\n");
return;
}
ok(pI_UuidCreate != pUuidCreateSequential, "got %p, %p\n", pI_UuidCreate, pUuidCreateSequential);
ret = pUuidCreateSequential(&guid1);
ok(!ret || ret == RPC_S_UUID_LOCAL_ONLY,
"expected RPC_S_OK or RPC_S_UUID_LOCAL_ONLY, got %08x\n", ret);
version = (guid1.Data3 & 0xf000) >> 12;
ok(version == 1, "unexpected version %d\n", version);
if (version == 1)
{
UUID guid2;
if (!ret)
{
/* If the call succeeded, there's a valid (non-multicast) MAC
* address in the uuid:
*/
ok(!(guid1.Data4[2] & 0x01) || broken(guid1.Data4[2] & 0x01), /* Win 8.1 */
"GUID does not appear to contain a MAC address: %s\n",
wine_dbgstr_guid(&guid1));
}
else
{
/* Otherwise, there's a randomly generated multicast MAC address
* address in the uuid:
*/
ok((guid1.Data4[2] & 0x01),
"GUID does not appear to contain a multicast MAC address: %s\n",
wine_dbgstr_guid(&guid1));
}
/* Generate another GUID, and make sure its MAC address matches the
* first.
*/
ret = pUuidCreateSequential(&guid2);
ok(!ret || ret == RPC_S_UUID_LOCAL_ONLY,
"expected RPC_S_OK or RPC_S_UUID_LOCAL_ONLY, got %08x\n", ret);
version = (guid2.Data3 & 0xf000) >> 12;
ok(version == 1, "unexpected version %d\n", version);
ok(!memcmp(guid1.Data4, guid2.Data4, sizeof(guid2.Data4)),
"unexpected value in MAC address: %s\n",
wine_dbgstr_guid(&guid2));
/* I_UuidCreate does exactly the same */
pI_UuidCreate(&guid2);
version = (guid2.Data3 & 0xf000) >> 12;
ok(version == 1, "unexpected version %d\n", version);
ok(!memcmp(guid1.Data4, guid2.Data4, sizeof(guid2.Data4)),
"unexpected value in MAC address: %s\n",
wine_dbgstr_guid(&guid2));
}
}
static void test_RpcBindingFree(void)
{
RPC_BINDING_HANDLE binding = NULL;
RPC_STATUS status;
status = RpcBindingFree(&binding);
ok(status == RPC_S_INVALID_BINDING,
"RpcBindingFree should have returned RPC_S_INVALID_BINDING instead of %d\n",
status);
}
static void test_RpcServerInqDefaultPrincName(void)
{
RPC_STATUS ret;
RPC_CSTR principal, saved_principal;
char *username;
ULONG len = 0;
GetUserNameExA( NameSamCompatible, NULL, &len );
username = HeapAlloc( GetProcessHeap(), 0, len );
GetUserNameExA( NameSamCompatible, username, &len );
ret = RpcServerInqDefaultPrincNameA( 0, NULL );
ok( ret == RPC_S_UNKNOWN_AUTHN_SERVICE, "got %u\n", ret );
ret = RpcServerInqDefaultPrincNameA( RPC_C_AUTHN_DEFAULT, NULL );
ok( ret == RPC_S_UNKNOWN_AUTHN_SERVICE, "got %u\n", ret );
principal = (RPC_CSTR)0xdeadbeef;
ret = RpcServerInqDefaultPrincNameA( RPC_C_AUTHN_DEFAULT, &principal );
ok( ret == RPC_S_UNKNOWN_AUTHN_SERVICE, "got %u\n", ret );
ok( principal == (RPC_CSTR)0xdeadbeef, "got unexpected principal\n" );
saved_principal = (RPC_CSTR)0xdeadbeef;
ret = RpcServerInqDefaultPrincNameA( RPC_C_AUTHN_WINNT, &saved_principal );
ok( ret == RPC_S_OK, "got %u\n", ret );
ok( saved_principal != (RPC_CSTR)0xdeadbeef, "expected valid principal\n" );
ok( !strcmp( (const char *)saved_principal, username ), "got \'%s\'\n", saved_principal );
trace("%s\n", saved_principal);
ret = RpcServerRegisterAuthInfoA( (RPC_CSTR)"wine\\test", RPC_C_AUTHN_WINNT, NULL, NULL );
ok( ret == RPC_S_OK, "got %u\n", ret );
principal = (RPC_CSTR)0xdeadbeef;
ret = RpcServerInqDefaultPrincNameA( RPC_C_AUTHN_WINNT, &principal );
ok( ret == RPC_S_OK, "got %u\n", ret );
ok( principal != (RPC_CSTR)0xdeadbeef, "expected valid principal\n" );
ok( !strcmp( (const char *)principal, username ), "got \'%s\'\n", principal );
RpcStringFreeA( &principal );
ret = RpcServerRegisterAuthInfoA( saved_principal, RPC_C_AUTHN_WINNT, NULL, NULL );
ok( ret == RPC_S_OK, "got %u\n", ret );
RpcStringFreeA( &saved_principal );
HeapFree( GetProcessHeap(), 0, username );
}
static void test_RpcServerRegisterAuthInfo(void)
{
RPC_STATUS status;
status = RpcServerRegisterAuthInfoW(NULL, 600, NULL, NULL);
ok(status == RPC_S_UNKNOWN_AUTHN_SERVICE, "status = %x\n", status);
}
static void test_RpcServerUseProtseq(void)
{
RPC_STATUS status;
RPC_BINDING_VECTOR *bindings;
ULONG i;
ULONG binding_count_before;
ULONG binding_count_after1;
ULONG binding_count_after2;
ULONG endpoints_registered = 0;
static unsigned char iptcp[] = "ncacn_ip_tcp";
static unsigned char np[] = "ncacn_np";
static unsigned char ncalrpc[] = "ncalrpc";
BOOL iptcp_registered = FALSE, np_registered = FALSE, ncalrpc_registered = FALSE;
status = RpcServerInqBindings(&bindings);
if (status == RPC_S_NO_BINDINGS)
binding_count_before = 0;
else
{
binding_count_before = bindings->Count;
ok(status == RPC_S_OK, "RpcServerInqBindings failed with status %d\n", status);
for (i = 0; i < bindings->Count; i++)
{
RPC_CSTR str_bind;
status = RpcBindingToStringBindingA(bindings->BindingH[i], &str_bind);
ok(status == RPC_S_OK, "RpcBindingToStringBinding failed with status %d\n", status);
if (lstrlenA((const char *)str_bind) > 12 && !memcmp(str_bind, "ncacn_ip_tcp", 12))
iptcp_registered = TRUE;
if (lstrlenA((const char *)str_bind) > 8 && !memcmp(str_bind, "ncacn_np", 8))
np_registered = TRUE;
if (lstrlenA((const char *)str_bind) > 7 && !memcmp(str_bind, "ncalrpc", 7))
ncalrpc_registered = TRUE;
RpcStringFreeA(&str_bind);
}
RpcBindingVectorFree(&bindings);
}
/* show that RpcServerUseProtseqEp(..., NULL, ...) is the same as
* RpcServerUseProtseq(...) */
status = RpcServerUseProtseqEpA(ncalrpc, 0, NULL, NULL);
ok(status == RPC_S_OK || broken(status == RPC_S_INVALID_ENDPOINT_FORMAT),
"RpcServerUseProtseqEp with NULL endpoint failed with status %d\n",
status);
/* register protocol sequences without explicit endpoints */
status = RpcServerUseProtseqA(np, 0, NULL);
if (status == RPC_S_PROTSEQ_NOT_SUPPORTED)
win_skip("ncacn_np not supported\n");
else
ok(status == RPC_S_OK, "RpcServerUseProtseq(ncacn_np) failed with status %d\n", status);
if (status == RPC_S_OK && !np_registered) endpoints_registered++;
status = RpcServerUseProtseqA(iptcp, 0, NULL);
ok(status == RPC_S_OK, "RpcServerUseProtseq(ncacn_ip_tcp) failed with status %d\n", status);
if (status == RPC_S_OK && !iptcp_registered) endpoints_registered++;
status = RpcServerUseProtseqA(ncalrpc, 0, NULL);
ok(status == RPC_S_OK, "RpcServerUseProtseqEp(ncalrpc) failed with status %d\n", status);
if (status == RPC_S_OK && !ncalrpc_registered) endpoints_registered++;
status = RpcServerInqBindings(&bindings);
ok(status == RPC_S_OK, "RpcServerInqBindings failed with status %d\n", status);
binding_count_after1 = bindings->Count;
ok(binding_count_after1 == binding_count_before + endpoints_registered,
"wrong binding count - before: %u, after %u, endpoints registered %u\n",
binding_count_before, binding_count_after1, endpoints_registered);
for (i = 0; i < bindings->Count; i++)
{
RPC_CSTR str_bind;
status = RpcBindingToStringBindingA(bindings->BindingH[i], &str_bind);
ok(status == RPC_S_OK, "RpcBindingToStringBinding failed with status %d\n", status);
trace("string binding: %s\n", str_bind);
RpcStringFreeA(&str_bind);
}
RpcBindingVectorFree(&bindings);
/* re-register - endpoints should be reused */
status = RpcServerUseProtseqA(np, 0, NULL);
if (status == RPC_S_PROTSEQ_NOT_SUPPORTED)
win_skip("ncacn_np not supported\n");
else
ok(status == RPC_S_OK, "RpcServerUseProtseq(ncacn_np) failed with status %d\n", status);
status = RpcServerUseProtseqA(iptcp, 0, NULL);
ok(status == RPC_S_OK, "RpcServerUseProtseq(ncacn_ip_tcp) failed with status %d\n", status);
status = RpcServerUseProtseqA(ncalrpc, 0, NULL);
ok(status == RPC_S_OK, "RpcServerUseProtseqEp(ncalrpc) failed with status %d\n", status);
status = RpcServerInqBindings(&bindings);
ok(status == RPC_S_OK, "RpcServerInqBindings failed with status %d\n", status);
binding_count_after2 = bindings->Count;
ok(binding_count_after2 == binding_count_after1,
"bindings should have been re-used - after1: %u after2: %u\n",
binding_count_after1, binding_count_after2);
RpcBindingVectorFree(&bindings);
}
static void test_endpoint_mapper(RPC_CSTR protseq, RPC_CSTR address)
{
static unsigned char annotation[] = "Test annotation string.";
RPC_STATUS status;
RPC_BINDING_VECTOR *binding_vector;
handle_t handle;
unsigned char *binding;
status = RpcServerRegisterIf(IFoo_v0_0_s_ifspec, NULL, NULL);
ok(status == RPC_S_OK, "%s: RpcServerRegisterIf failed (%u)\n", protseq, status);
status = RpcServerInqBindings(&binding_vector);
ok(status == RPC_S_OK, "%s: RpcServerInqBindings failed with error %u\n", protseq, status);
/* register endpoints created in test_RpcServerUseProtseq */
status = RpcEpRegisterA(IFoo_v0_0_s_ifspec, binding_vector, NULL, annotation);
ok(status == RPC_S_OK, "%s: RpcEpRegisterA failed with error %u\n", protseq, status);
/* reregister the same endpoint with no annotation */
status = RpcEpRegisterA(IFoo_v0_0_s_ifspec, binding_vector, NULL, NULL);
ok(status == RPC_S_OK, "%s: RpcEpRegisterA failed with error %u\n", protseq, status);
status = RpcStringBindingComposeA(NULL, protseq, address,
NULL, NULL, &binding);
ok(status == RPC_S_OK, "%s: RpcStringBindingCompose failed (%u)\n", protseq, status);
status = RpcBindingFromStringBindingA(binding, &handle);
ok(status == RPC_S_OK, "%s: RpcBindingFromStringBinding failed (%u)\n", protseq, status);
RpcStringFreeA(&binding);
status = RpcBindingReset(handle);
ok(status == RPC_S_OK, "%s: RpcBindingReset failed with error %u\n", protseq, status);
status = RpcEpResolveBinding(handle, IFoo_v0_0_s_ifspec);
ok(status == RPC_S_OK || broken(status == RPC_S_SERVER_UNAVAILABLE), /* win9x */
"%s: RpcEpResolveBinding failed with error %u\n", protseq, status);
status = RpcBindingReset(handle);
ok(status == RPC_S_OK, "%s: RpcBindingReset failed with error %u\n", protseq, status);
status = RpcBindingFree(&handle);
ok(status == RPC_S_OK, "%s: RpcBindingFree failed with error %u\n", protseq, status);
status = RpcServerUnregisterIf(NULL, NULL, FALSE);
ok(status == RPC_S_OK, "%s: RpcServerUnregisterIf failed (%u)\n", protseq, status);
status = RpcEpUnregister(IFoo_v0_0_s_ifspec, binding_vector, NULL);
ok(status == RPC_S_OK, "%s: RpcEpUnregisterA failed with error %u\n", protseq, status);
status = RpcBindingVectorFree(&binding_vector);
ok(status == RPC_S_OK, "%s: RpcBindingVectorFree failed with error %u\n", protseq, status);
}
static BOOL is_process_elevated(void)
{
HANDLE token;
if (OpenProcessToken( GetCurrentProcess(), TOKEN_QUERY, &token ))
{
TOKEN_ELEVATION_TYPE type;
DWORD size;
BOOL ret;
ret = GetTokenInformation( token, TokenElevationType, &type, sizeof(type), &size );
CloseHandle( token );
return (ret && type == TokenElevationTypeFull);
}
return FALSE;
}
static BOOL is_firewall_enabled(void)
{
HRESULT hr, init;
INetFwMgr *mgr = NULL;
INetFwPolicy *policy = NULL;
INetFwProfile *profile = NULL;
VARIANT_BOOL enabled = VARIANT_FALSE;
init = CoInitializeEx( 0, COINIT_APARTMENTTHREADED );
hr = CoCreateInstance( &CLSID_NetFwMgr, NULL, CLSCTX_INPROC_SERVER, &IID_INetFwMgr,
(void **)&mgr );
ok( hr == S_OK, "got %08x\n", hr );
if (hr != S_OK) goto done;
hr = INetFwMgr_get_LocalPolicy( mgr, &policy );
ok( hr == S_OK, "got %08x\n", hr );
if (hr != S_OK) goto done;
hr = INetFwPolicy_get_CurrentProfile( policy, &profile );
if (hr != S_OK) goto done;
hr = INetFwProfile_get_FirewallEnabled( profile, &enabled );
ok( hr == S_OK, "got %08x\n", hr );
done:
if (policy) INetFwPolicy_Release( policy );
if (profile) INetFwProfile_Release( profile );
if (mgr) INetFwMgr_Release( mgr );
if (SUCCEEDED( init )) CoUninitialize();
return (enabled == VARIANT_TRUE);
}
enum firewall_op
{
APP_ADD,
APP_REMOVE
};
static HRESULT set_firewall( enum firewall_op op )
{
static const WCHAR testW[] = {'r','p','c','r','t','4','_','t','e','s','t',0};
HRESULT hr, init;
INetFwMgr *mgr = NULL;
INetFwPolicy *policy = NULL;
INetFwProfile *profile = NULL;
INetFwAuthorizedApplication *app = NULL;
INetFwAuthorizedApplications *apps = NULL;
BSTR name, image = SysAllocStringLen( NULL, MAX_PATH );
if (!GetModuleFileNameW( NULL, image, MAX_PATH ))
{
SysFreeString( image );
return E_FAIL;
}
init = CoInitializeEx( 0, COINIT_APARTMENTTHREADED );
hr = CoCreateInstance( &CLSID_NetFwMgr, NULL, CLSCTX_INPROC_SERVER, &IID_INetFwMgr,
(void **)&mgr );
ok( hr == S_OK, "got %08x\n", hr );
if (hr != S_OK) goto done;
hr = INetFwMgr_get_LocalPolicy( mgr, &policy );
ok( hr == S_OK, "got %08x\n", hr );
if (hr != S_OK) goto done;
hr = INetFwPolicy_get_CurrentProfile( policy, &profile );
if (hr != S_OK) goto done;
hr = INetFwProfile_get_AuthorizedApplications( profile, &apps );
ok( hr == S_OK, "got %08x\n", hr );
if (hr != S_OK) goto done;
hr = CoCreateInstance( &CLSID_NetFwAuthorizedApplication, NULL, CLSCTX_INPROC_SERVER,
&IID_INetFwAuthorizedApplication, (void **)&app );
ok( hr == S_OK, "got %08x\n", hr );
if (hr != S_OK) goto done;
hr = INetFwAuthorizedApplication_put_ProcessImageFileName( app, image );
if (hr != S_OK) goto done;
name = SysAllocString( testW );
hr = INetFwAuthorizedApplication_put_Name( app, name );
SysFreeString( name );
ok( hr == S_OK, "got %08x\n", hr );
if (hr != S_OK) goto done;
if (op == APP_ADD)
hr = INetFwAuthorizedApplications_Add( apps, app );
else if (op == APP_REMOVE)
hr = INetFwAuthorizedApplications_Remove( apps, image );
else
hr = E_INVALIDARG;
done:
if (app) INetFwAuthorizedApplication_Release( app );
if (apps) INetFwAuthorizedApplications_Release( apps );
if (policy) INetFwPolicy_Release( policy );
if (profile) INetFwProfile_Release( profile );
if (mgr) INetFwMgr_Release( mgr );
if (SUCCEEDED( init )) CoUninitialize();
SysFreeString( image );
return hr;
}
START_TEST( rpc )
{
static unsigned char ncacn_np[] = "ncacn_np";
static unsigned char ncalrpc[] = "ncalrpc";
static unsigned char np_address[] = ".";
BOOL firewall_enabled = is_firewall_enabled();
if (firewall_enabled && !is_process_elevated())
{
skip("no privileges, skipping tests to avoid firewall dialog\n");
return;
}
UuidConversionAndComparison();
TestDceErrorInqText();
test_towers();
test_I_RpcMapWin32Status();
test_RpcStringBindingParseA();
test_RpcExceptionFilter("I_RpcExceptionFilter");
test_RpcExceptionFilter("RpcExceptionFilter");
test_RpcStringBindingFromBinding();
test_UuidCreate();
test_UuidCreateSequential();
test_RpcBindingFree();
test_RpcServerInqDefaultPrincName();
test_RpcServerRegisterAuthInfo();
if (firewall_enabled)
{
HRESULT hr = set_firewall(APP_ADD);
if (hr != S_OK)
{
skip("can't authorize app in firewall %08x\n", hr);
return;
}
}
test_rpc_ncacn_ip_tcp();
test_RpcServerUseProtseq();
test_endpoint_mapper(ncacn_np, np_address);
test_endpoint_mapper(ncalrpc, NULL);
if (firewall_enabled) set_firewall(APP_REMOVE);
}