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

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/*
* Tests for WIDL and RPC server/clients.
*
* Copyright (C) Google 2007 (Dan Hipschman)
*
* 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 <windows.h>
#include "wine/test.h"
#include "server.h"
#include "server_defines.h"
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#define PORT "4114"
#define PIPE "\\pipe\\wine_rpcrt4_test"
#define INT_CODE 4198
static const char *progname;
static HANDLE stop_event;
static void (WINAPI *pNDRSContextMarshall2)(RPC_BINDING_HANDLE, NDR_SCONTEXT, void*, NDR_RUNDOWN, void*, ULONG);
static NDR_SCONTEXT (WINAPI *pNDRSContextUnmarshall2)(RPC_BINDING_HANDLE, void*, ULONG, void*, ULONG);
static RPC_STATUS (WINAPI *pRpcServerRegisterIfEx)(RPC_IF_HANDLE,UUID*, RPC_MGR_EPV*, unsigned int,
unsigned int,RPC_IF_CALLBACK_FN*);
static void InitFunctionPointers(void)
{
HMODULE hrpcrt4 = GetModuleHandleA("rpcrt4.dll");
pNDRSContextMarshall2 = (void *)GetProcAddress(hrpcrt4, "NDRSContextMarshall2");
pNDRSContextUnmarshall2 = (void *)GetProcAddress(hrpcrt4, "NDRSContextUnmarshall2");
pRpcServerRegisterIfEx = (void *)GetProcAddress(hrpcrt4, "RpcServerRegisterIfEx");
}
void __RPC_FAR *__RPC_USER
midl_user_allocate(SIZE_T n)
{
return malloc(n);
}
void __RPC_USER
midl_user_free(void __RPC_FAR *p)
{
free(p);
}
static char *
xstrdup(const char *s)
{
char *d = HeapAlloc(GetProcessHeap(), 0, strlen(s) + 1);
strcpy(d, s);
return d;
}
int
s_int_return(void)
{
return INT_CODE;
}
int
s_square(int x)
{
return x * x;
}
int
s_sum(int x, int y)
{
return x + y;
}
void
s_square_out(int x, int *y)
{
*y = s_square(x);
}
void
s_square_ref(int *x)
{
*x = s_square(*x);
}
int
s_str_length(const char *s)
{
return strlen(s);
}
int
s_str_t_length(str_t s)
{
return strlen(s);
}
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int
s_cstr_length(const char *s, int n)
{
int len = 0;
while (0 < n-- && *s++)
++len;
return len;
}
int
s_dot_self(vector_t *v)
{
return s_square(v->x) + s_square(v->y) + s_square(v->z);
}
double
s_square_half(double x, double *y)
{
*y = x / 2.0;
return x * x;
}
float
s_square_half_float(float x, float *y)
{
*y = x / 2.0f;
return x * x;
}
long
s_square_half_long(long x, long *y)
{
*y = x / 2;
return x * x;
}
int
s_sum_fixed_array(int a[5])
{
return a[0] + a[1] + a[2] + a[3] + a[4];
}
int
s_pints_sum(pints_t *pints)
{
return *pints->pi + **pints->ppi + ***pints->pppi;
}
double
s_ptypes_sum(ptypes_t *pt)
{
return *pt->pc + *pt->ps + *pt->pl + *pt->pf + *pt->pd;
}
int
s_dot_pvectors(pvectors_t *p)
{
return p->pu->x * (*p->pv)->x + p->pu->y * (*p->pv)->y + p->pu->z * (*p->pv)->z;
}
int
s_sum_sp(sp_t *sp)
{
return sp->x + sp->s->x;
}
double
s_square_sun(sun_t *su)
{
switch (su->s)
{
case SUN_I: return su->u.i * su->u.i;
case SUN_F1:
case SUN_F2: return su->u.f * su->u.f;
case SUN_PI: return (*su->u.pi) * (*su->u.pi);
default:
return 0.0;
}
}
int
s_test_list_length(test_list_t *list)
{
return (list->t == TL_LIST
? 1 + s_test_list_length(list->u.tail)
: 0);
}
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int
s_sum_fixed_int_3d(int m[2][3][4])
{
int i, j, k;
int sum = 0;
for (i = 0; i < 2; ++i)
for (j = 0; j < 3; ++j)
for (k = 0; k < 4; ++k)
sum += m[i][j][k];
return sum;
}
int
s_sum_conf_array(int x[], int n)
{
int *p = x, *end = p + n;
int sum = 0;
while (p < end)
sum += *p++;
return sum;
}
int
s_sum_conf_ptr_by_conf_ptr(int n1, int *n2_then_x1, int *x2)
{
int i;
int sum = 0;
if(n1 == 0)
return 0;
for(i = 1; i < n1; ++i)
sum += n2_then_x1[i];
for(i = 0; i < *n2_then_x1; ++i)
sum += x2[i];
return sum;
}
int
s_sum_unique_conf_array(int x[], int n)
{
return s_sum_conf_array(x, n);
}
int
s_sum_unique_conf_ptr(int *x, int n)
{
return x ? s_sum_conf_array(x, n) : 0;
}
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int
s_sum_var_array(int x[20], int n)
{
ok(0 <= n, "RPC sum_var_array\n");
ok(n <= 20, "RPC sum_var_array\n");
return s_sum_conf_array(x, n);
}
int
s_dot_two_vectors(vector_t vs[2])
{
return vs[0].x * vs[1].x + vs[0].y * vs[1].y + vs[0].z * vs[1].z;
}
int
s_sum_cs(cs_t *cs)
{
return s_sum_conf_array(cs->ca, cs->n);
}
int
s_sum_cps(cps_t *cps)
{
int sum = 0;
int i;
for (i = 0; i < *cps->pn; ++i)
sum += cps->ca1[i];
for (i = 0; i < 2 * cps->n; ++i)
sum += cps->ca2[i];
return sum;
}
int
s_sum_cpsc(cpsc_t *cpsc)
{
int sum = 0;
int i;
for (i = 0; i < (cpsc->c ? cpsc->a : cpsc->b); ++i)
sum += cpsc->ca[i];
return sum;
}
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int
s_square_puint(puint_t p)
{
int n = atoi(p);
return n * n;
}
int
s_sum_puints(puints_t *p)
{
int sum = 0;
int i;
for (i = 0; i < p->n; ++i)
sum += atoi(p->ps[i]);
return sum;
}
int
s_sum_cpuints(cpuints_t *p)
{
int sum = 0;
int i;
for (i = 0; i < p->n; ++i)
sum += atoi(p->ps[i]);
return sum;
}
int
s_dot_copy_vectors(vector_t u, vector_t v)
{
return u.x * v.x + u.y * v.y + u.z * v.z;
}
int
s_square_test_us(test_us_t *tus)
{
int n = atoi(tus->us.x);
return n * n;
}
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double
s_square_encu(encu_t *eu)
{
switch (eu->t)
{
case ENCU_I: return eu->tagged_union.i * eu->tagged_union.i;
case ENCU_F: return eu->tagged_union.f * eu->tagged_union.f;
default:
return 0.0;
}
}
double
s_square_unencu(int t, unencu_t *eu)
{
switch (t)
{
case ENCU_I: return eu->i * eu->i;
case ENCU_F: return eu->f * eu->f;
default:
return 0.0;
}
}
void
s_check_se2(se_t *s)
{
ok(s->f == E2, "check_se2\n");
}
int
s_sum_parr(int *a[3])
{
return s_sum_pcarr(a, 3);
}
int
s_sum_pcarr(int *a[], int n)
{
int i, s = 0;
for (i = 0; i < n; ++i)
s += *a[i];
return s;
}
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int
s_enum_ord(e_t e)
{
switch (e)
{
case E1: return 1;
case E2: return 2;
case E3: return 3;
case E4: return 4;
default:
return 0;
}
}
double
s_square_encue(encue_t *eue)
{
switch (eue->t)
{
case E1: return eue->tagged_union.i1 * eue->tagged_union.i1;
case E2: return eue->tagged_union.f2 * eue->tagged_union.f2;
default:
return 0.0;
}
}
int
s_sum_toplev_conf_2n(int *x, int n)
{
int sum = 0;
int i;
for (i = 0; i < 2 * n; ++i)
sum += x[i];
return sum;
}
int
s_sum_toplev_conf_cond(int *x, int a, int b, int c)
{
int sum = 0;
int n = c ? a : b;
int i;
for (i = 0; i < n; ++i)
sum += x[i];
return sum;
}
double
s_sum_aligns(aligns_t *a)
{
return a->c + a->i + a->s + a->d;
}
int
s_sum_padded(padded_t *p)
{
return p->i + p->c;
}
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int
s_sum_padded2(padded_t ps[2])
{
return s_sum_padded(&ps[0]) + s_sum_padded(&ps[1]);
}
int
s_sum_padded_conf(padded_t *ps, int n)
{
int sum = 0;
int i;
for (i = 0; i < n; ++i)
sum += s_sum_padded(&ps[i]);
return sum;
}
int
s_sum_bogus(bogus_t *b)
{
return *b->h.p1 + *b->p2 + *b->p3 + b->c;
}
void
s_check_null(int *null)
{
ok(!null, "RPC check_null\n");
}
int
s_str_struct_len(str_struct_t *s)
{
return lstrlenA(s->s);
}
int
s_wstr_struct_len(wstr_struct_t *s)
{
return lstrlenW(s->s);
}
int
s_sum_doub_carr(doub_carr_t *dc)
{
int i, j;
int sum = 0;
for (i = 0; i < dc->n; ++i)
for (j = 0; j < dc->a[i]->n; ++j)
sum += dc->a[i]->a[j];
return sum;
}
void
s_make_pyramid_doub_carr(unsigned char n, doub_carr_t **dc)
{
doub_carr_t *t;
int i, j;
t = MIDL_user_allocate(FIELD_OFFSET(doub_carr_t, a[n]));
t->n = n;
for (i = 0; i < n; ++i)
{
int v = i + 1;
t->a[i] = MIDL_user_allocate(FIELD_OFFSET(doub_carr_1_t, a[v]));
t->a[i]->n = v;
for (j = 0; j < v; ++j)
t->a[i]->a[j] = j + 1;
}
*dc = t;
}
unsigned
s_hash_bstr(bstr_t b)
{
short n = b[-1];
short *s = b;
unsigned hash = 0;
short i;
for (i = 0; i < n; ++i)
hash = 5 * hash + (unsigned) s[i];
return hash;
}
void
s_get_name(name_t *name)
{
const char bossman[] = "Jeremy White";
memcpy(name->name, bossman, min(name->size, sizeof(bossman)));
/* ensure nul-termination */
if (name->size < sizeof(bossman))
name->name[name->size - 1] = 0;
}
int
s_sum_pcarr2(int n, int **pa)
{
return s_sum_conf_array(*pa, n);
}
int
s_sum_L1_norms(int n, vector_t *vs)
{
int i;
int sum = 0;
for (i = 0; i < n; ++i)
sum += abs(vs[i].x) + abs(vs[i].y) + abs(vs[i].z);
return sum;
}
s123_t *
s_get_s123(void)
{
s123_t *s = MIDL_user_allocate(sizeof *s);
s->f1 = 1;
s->f2 = 2;
s->f3 = 3;
return s;
}
str_t
s_get_filename(void)
{
return (char *)__FILE__;
}
void
s_context_handle_test(void)
{
NDR_SCONTEXT h;
RPC_BINDING_HANDLE binding;
RPC_STATUS status;
unsigned char buf[20];
static RPC_SERVER_INTERFACE server_if =
{
sizeof(RPC_SERVER_INTERFACE),
{{0x00000000,0x4114,0x0704,{0x23,0x01,0x00,0x00,0x00,0x00,0x00,0x00}},{1,0}},
{{0x8a885d04,0x1ceb,0x11c9,{0x9f,0xe8,0x08,0x00,0x2b,0x10,0x48,0x60}},{2,0}},
NULL,
0,
0,
0,
0,
0,
};
binding = I_RpcGetCurrentCallHandle();
ok(binding != NULL, "I_RpcGetCurrentCallHandle returned NULL\n");
h = pNDRSContextUnmarshall2(binding, NULL, NDR_LOCAL_DATA_REPRESENTATION, NULL, 0);
ok(h != NULL, "NDRSContextUnmarshall2 returned NULL\n");
/* marshal a context handle with NULL userContext */
memset(buf, 0xcc, sizeof(buf));
pNDRSContextMarshall2(binding, h, buf, NULL, NULL, 0);
ok(*(ULONG *)buf == 0, "attributes should have been set to 0 instead of 0x%x\n", *(ULONG *)buf);
ok(UuidIsNil((UUID *)&buf[4], &status), "uuid should have been nil\n");
h = pNDRSContextUnmarshall2(binding, NULL, NDR_LOCAL_DATA_REPRESENTATION, NULL, 0);
ok(h != NULL, "NDRSContextUnmarshall2 returned NULL\n");
/* marshal a context handle with non-NULL userContext */
memset(buf, 0xcc, sizeof(buf));
h->userContext = (void *)0xdeadbeef;
pNDRSContextMarshall2(binding, h, buf, NULL, NULL, 0);
ok(*(ULONG *)buf == 0, "attributes should have been set to 0 instead of 0x%x\n", *(ULONG *)buf);
ok(!UuidIsNil((UUID *)&buf[4], &status), "uuid should not have been nil\n");
h = pNDRSContextUnmarshall2(binding, buf, NDR_LOCAL_DATA_REPRESENTATION, NULL, 0);
ok(h != NULL, "NDRSContextUnmarshall2 returned NULL\n");
ok(h->userContext == (void *)0xdeadbeef, "userContext of interface didn't unmarshal properly: %p\n", h->userContext);
/* marshal a context handle with an interface specified */
h = pNDRSContextUnmarshall2(binding, NULL, NDR_LOCAL_DATA_REPRESENTATION, &server_if.InterfaceId, 0);
ok(h != NULL, "NDRSContextUnmarshall2 returned NULL\n");
memset(buf, 0xcc, sizeof(buf));
h->userContext = (void *)0xcafebabe;
pNDRSContextMarshall2(binding, h, buf, NULL, &server_if.InterfaceId, 0);
ok(*(ULONG *)buf == 0, "attributes should have been set to 0 instead of 0x%x\n", *(ULONG *)buf);
ok(!UuidIsNil((UUID *)&buf[4], &status), "uuid should not have been nil\n");
h = pNDRSContextUnmarshall2(binding, buf, NDR_LOCAL_DATA_REPRESENTATION, &server_if.InterfaceId, 0);
ok(h != NULL, "NDRSContextUnmarshall2 returned NULL\n");
ok(h->userContext == (void *)0xcafebabe, "userContext of interface didn't unmarshal properly: %p\n", h->userContext);
/* test same interface data, but different pointer */
/* raises ERROR_INVALID_HANDLE exception */
if (0)
{
RPC_SERVER_INTERFACE server_if_clone = server_if;
pNDRSContextUnmarshall2(binding, buf, NDR_LOCAL_DATA_REPRESENTATION, &server_if_clone.InterfaceId, 0);
}
/* test different interface data, but different pointer */
/* raises ERROR_INVALID_HANDLE exception */
if (0)
{
static RPC_SERVER_INTERFACE server_if2 =
{
sizeof(RPC_SERVER_INTERFACE),
{{0x00000000,0x4114,0x0704,{0x23,0x01,0x00,0x00,0x00,0x00,0x00,0x00}},{1,0}},
{{0x8a885d04,0x1ceb,0x11c9,{0x9f,0xe8,0x08,0x00,0x2b,0x10,0x48,0x60}},{2,0}},
NULL,
0,
0,
0,
0,
0,
};
pNDRSContextMarshall2(binding, h, buf, NULL, &server_if.InterfaceId, 0);
pNDRSContextUnmarshall2(binding, buf, NDR_LOCAL_DATA_REPRESENTATION, &server_if2.InterfaceId, 0);
}
}
void
s_get_numbers(int length, int size, pints_t n[])
{
int i;
for (i = 0; i < length; i++)
{
n[i].pi = midl_user_allocate(sizeof(*n[i].pi));
*n[i].pi = i;
n[i].ppi = NULL;
n[i].pppi = NULL;
}
}
void
s_get_numbers_struct(numbers_struct_t **ns)
{
int i;
*ns = midl_user_allocate(FIELD_OFFSET(numbers_struct_t, numbers[5]));
if (!*ns) return;
(*ns)->length = 5;
(*ns)->size = 5;
for (i = 0; i < (*ns)->length; i++)
{
(*ns)->numbers[i].pi = NULL;
(*ns)->numbers[i].ppi = NULL;
(*ns)->numbers[i].pppi = NULL;
}
(*ns)->numbers[0].pi = midl_user_allocate(sizeof(*(*ns)->numbers[i].pi));
*(*ns)->numbers[0].pi = 5;
}
void
s_stop(void)
{
ok(RPC_S_OK == RpcMgmtStopServerListening(NULL), "RpcMgmtStopServerListening\n");
ok(RPC_S_OK == RpcServerUnregisterIf(NULL, NULL, FALSE), "RpcServerUnregisterIf\n");
ok(SetEvent(stop_event), "SetEvent\n");
}
static void
make_cmdline(char buffer[MAX_PATH], const char *test)
{
sprintf(buffer, "%s server %s", progname, test);
}
static void
run_client(const char *test)
{
char cmdline[MAX_PATH];
PROCESS_INFORMATION info;
STARTUPINFOA startup;
memset(&startup, 0, sizeof startup);
startup.cb = sizeof startup;
make_cmdline(cmdline, test);
ok(CreateProcessA(NULL, cmdline, NULL, NULL, FALSE, 0L, NULL, NULL, &startup, &info), "CreateProcess\n");
winetest_wait_child_process( info.hProcess );
ok(CloseHandle(info.hProcess), "CloseHandle\n");
ok(CloseHandle(info.hThread), "CloseHandle\n");
}
static void
basic_tests(void)
{
char string[] = "I am a string";
WCHAR wstring[] = {'I',' ','a','m',' ','a',' ','w','s','t','r','i','n','g', 0};
int f[5] = {1, 3, 0, -2, -4};
vector_t a = {1, 3, 7};
vector_t vec1 = {4, -2, 1}, vec2 = {-5, 2, 3}, *pvec2 = &vec2;
pvectors_t pvecs = {&vec1, &pvec2};
sp_inner_t spi = {42};
sp_t sp = {-13, &spi};
aligns_t aligns;
pints_t pints;
ptypes_t ptypes;
padded_t padded;
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padded_t padded2[2];
bogus_t bogus;
int i1, i2, i3, *pi2, *pi3, **ppi3;
double u, v;
float s, t;
long q, r;
short h;
char c;
int x;
str_struct_t ss = {string};
wstr_struct_t ws = {wstring};
str_t str;
se_t se;
ok(int_return() == INT_CODE, "RPC int_return\n");
ok(square(7) == 49, "RPC square\n");
ok(sum(23, -4) == 19, "RPC sum\n");
x = 0;
square_out(11, &x);
ok(x == 121, "RPC square_out\n");
x = 5;
square_ref(&x);
ok(x == 25, "RPC square_ref\n");
ok(str_length(string) == strlen(string), "RPC str_length\n");
ok(str_t_length(string) == strlen(string), "RPC str_length\n");
ok(dot_self(&a) == 59, "RPC dot_self\n");
ok(str_struct_len(&ss) == lstrlenA(string), "RPC str_struct_len\n");
ok(wstr_struct_len(&ws) == lstrlenW(wstring), "RPC str_struct_len\n");
v = 0.0;
u = square_half(3.0, &v);
ok(u == 9.0, "RPC square_half\n");
ok(v == 1.5, "RPC square_half\n");
t = 0.0f;
s = square_half_float(3.0f, &t);
ok(s == 9.0f, "RPC square_half_float\n");
ok(t == 1.5f, "RPC square_half_float\n");
r = 0;
q = square_half_long(3, &r);
ok(q == 9, "RPC square_half_long\n");
ok(r == 1, "RPC square_half_long\n");
i1 = 19;
i2 = -3;
i3 = -29;
pi2 = &i2;
pi3 = &i3;
ppi3 = &pi3;
pints.pi = &i1;
pints.ppi = &pi2;
pints.pppi = &ppi3;
ok(pints_sum(&pints) == -13, "RPC pints_sum\n");
c = 10;
h = 3;
q = 14;
s = -5.0f;
u = 11.0;
ptypes.pc = &c;
ptypes.ps = &h;
ptypes.pl = &q;
ptypes.pf = &s;
ptypes.pd = &u;
ok(ptypes_sum(&ptypes) == 33.0, "RPC ptypes_sum\n");
ok(dot_pvectors(&pvecs) == -21, "RPC dot_pvectors\n");
ok(dot_copy_vectors(vec1, vec2) == -21, "RPC dot_copy_vectors\n");
ok(sum_fixed_array(f) == -2, "RPC sum_fixed_array\n");
ok(sum_sp(&sp) == 29, "RPC sum_sp\n");
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ok(enum_ord(E1) == 1, "RPC enum_ord\n");
ok(enum_ord(E2) == 2, "RPC enum_ord\n");
ok(enum_ord(E3) == 3, "RPC enum_ord\n");
ok(enum_ord(E4) == 4, "RPC enum_ord\n");
se.f = E2;
check_se2(&se);
memset(&aligns, 0, sizeof(aligns));
aligns.c = 3;
aligns.i = 4;
aligns.s = 5;
aligns.d = 6.0;
ok(sum_aligns(&aligns) == 18.0, "RPC sum_aligns\n");
padded.i = -3;
padded.c = 8;
ok(sum_padded(&padded) == 5, "RPC sum_padded\n");
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padded2[0].i = -5;
padded2[0].c = 1;
padded2[1].i = 3;
padded2[1].c = 7;
ok(sum_padded2(padded2) == 6, "RPC sum_padded2\n");
padded2[0].i = -5;
padded2[0].c = 1;
padded2[1].i = 3;
padded2[1].c = 7;
ok(sum_padded_conf(padded2, 2) == 6, "RPC sum_padded_conf\n");
i1 = 14;
i2 = -7;
i3 = -4;
bogus.h.p1 = &i1;
bogus.p2 = &i2;
bogus.p3 = &i3;
bogus.c = 9;
ok(sum_bogus(&bogus) == 12, "RPC sum_bogus\n");
check_null(NULL);
str = get_filename();
ok(!strcmp(str, __FILE__), "get_filename() returned %s instead of %s\n", str, __FILE__);
midl_user_free(str);
}
static void
union_tests(void)
{
encue_t eue;
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encu_t eu;
unencu_t uneu;
sun_t su;
int i;
su.s = SUN_I;
su.u.i = 9;
ok(square_sun(&su) == 81.0, "RPC square_sun\n");
su.s = SUN_F1;
su.u.f = 5.0;
ok(square_sun(&su) == 25.0, "RPC square_sun\n");
su.s = SUN_F2;
su.u.f = -2.0;
ok(square_sun(&su) == 4.0, "RPC square_sun\n");
su.s = SUN_PI;
su.u.pi = &i;
i = 11;
ok(square_sun(&su) == 121.0, "RPC square_sun\n");
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eu.t = ENCU_I;
eu.tagged_union.i = 7;
ok(square_encu(&eu) == 49.0, "RPC square_encu\n");
eu.t = ENCU_F;
eu.tagged_union.f = 3.0;
ok(square_encu(&eu) == 9.0, "RPC square_encu\n");
uneu.i = 4;
ok(square_unencu(ENCU_I, &uneu) == 16.0, "RPC square_unencu\n");
uneu.f = 5.0;
ok(square_unencu(ENCU_F, &uneu) == 25.0, "RPC square_unencu\n");
eue.t = E1;
eue.tagged_union.i1 = 8;
ok(square_encue(&eue) == 64.0, "RPC square_encue\n");
eue.t = E2;
eue.tagged_union.f2 = 10.0;
ok(square_encue(&eue) == 100.0, "RPC square_encue\n");
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}
static test_list_t *
null_list(void)
{
test_list_t *n = HeapAlloc(GetProcessHeap(), 0, sizeof *n);
n->t = TL_NULL;
n->u.x = 0;
return n;
}
static test_list_t *
make_list(test_list_t *tail)
{
test_list_t *n = HeapAlloc(GetProcessHeap(), 0, sizeof *n);
n->t = TL_LIST;
n->u.tail = tail;
return n;
}
static void
free_list(test_list_t *list)
{
if (list->t == TL_LIST)
free_list(list->u.tail);
HeapFree(GetProcessHeap(), 0, list);
}
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ULONG __RPC_USER
puint_t_UserSize(ULONG *flags, ULONG start, puint_t *p)
{
return start + sizeof(int);
}
unsigned char * __RPC_USER
puint_t_UserMarshal(ULONG *flags, unsigned char *buffer, puint_t *p)
{
int n = atoi(*p);
memcpy(buffer, &n, sizeof n);
return buffer + sizeof n;
}
unsigned char * __RPC_USER
puint_t_UserUnmarshal(ULONG *flags, unsigned char *buffer, puint_t *p)
{
int n;
memcpy(&n, buffer, sizeof n);
*p = HeapAlloc(GetProcessHeap(), 0, 10);
sprintf(*p, "%d", n);
return buffer + sizeof n;
}
void __RPC_USER
puint_t_UserFree(ULONG *flags, puint_t *p)
{
HeapFree(GetProcessHeap(), 0, *p);
}
ULONG __RPC_USER
us_t_UserSize(ULONG *flags, ULONG start, us_t *pus)
{
return start + sizeof(struct wire_us);
}
unsigned char * __RPC_USER
us_t_UserMarshal(ULONG *flags, unsigned char *buffer, us_t *pus)
{
struct wire_us wus;
wus.x = atoi(pus->x);
memcpy(buffer, &wus, sizeof wus);
return buffer + sizeof wus;
}
unsigned char * __RPC_USER
us_t_UserUnmarshal(ULONG *flags, unsigned char *buffer, us_t *pus)
{
struct wire_us wus;
memcpy(&wus, buffer, sizeof wus);
pus->x = HeapAlloc(GetProcessHeap(), 0, 10);
sprintf(pus->x, "%d", wus.x);
return buffer + sizeof wus;
}
void __RPC_USER
us_t_UserFree(ULONG *flags, us_t *pus)
{
HeapFree(GetProcessHeap(), 0, pus->x);
}
ULONG __RPC_USER
bstr_t_UserSize(ULONG *flags, ULONG start, bstr_t *b)
{
return start + FIELD_OFFSET(user_bstr_t, data[(*b)[-1]]);
}
unsigned char * __RPC_USER
bstr_t_UserMarshal(ULONG *flags, unsigned char *buffer, bstr_t *b)
{
wire_bstr_t wb = (wire_bstr_t) buffer;
wb->n = (*b)[-1];
memcpy(&wb->data, *b, wb->n * sizeof wb->data[0]);
return buffer + FIELD_OFFSET(user_bstr_t, data[wb->n]);
}
unsigned char * __RPC_USER
bstr_t_UserUnmarshal(ULONG *flags, unsigned char *buffer, bstr_t *b)
{
wire_bstr_t wb = (wire_bstr_t) buffer;
short *data = HeapAlloc(GetProcessHeap(), 0, (wb->n + 1) * sizeof *data);
data[0] = wb->n;
memcpy(&data[1], wb->data, wb->n * sizeof data[1]);
*b = &data[1];
return buffer + FIELD_OFFSET(user_bstr_t, data[wb->n]);
}
void __RPC_USER
bstr_t_UserFree(ULONG *flags, bstr_t *b)
{
HeapFree(GetProcessHeap(), 0, &((*b)[-1]));
}
static void
pointer_tests(void)
{
int a[] = {1, 2, 3, 4};
char p1[] = "11";
test_list_t *list = make_list(make_list(make_list(null_list())));
test_us_t tus = {{p1}};
int *pa[4];
puints_t pus;
cpuints_t cpus;
short bstr_data[] = { 5, 'H', 'e', 'l', 'l', 'o' };
bstr_t bstr = &bstr_data[1];
name_t name;
void *buffer;
int *pa2;
s123_t *s123;
ok(test_list_length(list) == 3, "RPC test_list_length\n");
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ok(square_puint(p1) == 121, "RPC square_puint\n");
pus.n = 4;
pus.ps = HeapAlloc(GetProcessHeap(), 0, pus.n * sizeof pus.ps[0]);
pus.ps[0] = xstrdup("5");
pus.ps[1] = xstrdup("6");
pus.ps[2] = xstrdup("7");
pus.ps[3] = xstrdup("8");
ok(sum_puints(&pus) == 26, "RPC sum_puints\n");
HeapFree(GetProcessHeap(), 0, pus.ps[0]);
HeapFree(GetProcessHeap(), 0, pus.ps[1]);
HeapFree(GetProcessHeap(), 0, pus.ps[2]);
HeapFree(GetProcessHeap(), 0, pus.ps[3]);
HeapFree(GetProcessHeap(), 0, pus.ps);
cpus.n = 4;
cpus.ps = HeapAlloc(GetProcessHeap(), 0, cpus.n * sizeof cpus.ps[0]);
cpus.ps[0] = xstrdup("5");
cpus.ps[1] = xstrdup("6");
cpus.ps[2] = xstrdup("7");
cpus.ps[3] = xstrdup("8");
ok(sum_cpuints(&cpus) == 26, "RPC sum_puints\n");
HeapFree(GetProcessHeap(), 0, cpus.ps[0]);
HeapFree(GetProcessHeap(), 0, cpus.ps[1]);
HeapFree(GetProcessHeap(), 0, cpus.ps[2]);
HeapFree(GetProcessHeap(), 0, cpus.ps[3]);
HeapFree(GetProcessHeap(), 0, cpus.ps);
ok(square_test_us(&tus) == 121, "RPC square_test_us\n");
pa[0] = &a[0];
pa[1] = &a[1];
pa[2] = &a[2];
ok(sum_parr(pa) == 6, "RPC sum_parr\n");
pa[0] = &a[0];
pa[1] = &a[1];
pa[2] = &a[2];
pa[3] = &a[3];
ok(sum_pcarr(pa, 4) == 10, "RPC sum_pcarr\n");
ok(hash_bstr(bstr) == s_hash_bstr(bstr), "RPC hash_bstr_data\n");
free_list(list);
name.size = 10;
name.name = buffer = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, name.size);
get_name(&name);
ok(name.name == buffer, "[in,out] pointer should have stayed as %p but instead changed to %p\n", name.name, buffer);
ok(!strcmp(name.name, "Jeremy Wh"), "name didn't unmarshall properly, expected \"Jeremy Wh\", but got \"%s\"\n", name.name);
HeapFree(GetProcessHeap(), 0, name.name);
pa2 = a;
ok(sum_pcarr2(4, &pa2) == 10, "RPC sum_pcarr2\n");
s123 = get_s123();
ok(s123->f1 == 1 && s123->f2 == 2 && s123->f3 == 3, "RPC get_s123\n");
MIDL_user_free(s123);
}
static int
check_pyramid_doub_carr(doub_carr_t *dc)
{
int i, j;
for (i = 0; i < dc->n; ++i)
for (j = 0; j < dc->a[i]->n; ++j)
if (dc->a[i]->a[j] != j + 1)
return FALSE;
return TRUE;
}
static void
free_pyramid_doub_carr(doub_carr_t *dc)
{
int i;
for (i = 0; i < dc->n; ++i)
MIDL_user_free(dc->a[i]);
MIDL_user_free(dc);
}
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static void
array_tests(void)
{
const char str1[25] = "Hello";
int m[2][3][4] =
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{
{{1, 2, 3, 4}, {-1, -3, -5, -7}, {0, 2, 4, 6}},
{{1, -2, 3, -4}, {2, 3, 5, 7}, {-4, -1, -14, 4114}}
};
int c[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9};
int c2[] = {10, 100, 200};
vector_t vs[2] = {{1, -2, 3}, {4, -5, -6}};
cps_t cps;
cpsc_t cpsc;
cs_t *cs;
int n;
int ca[5] = {1, -2, 3, -4, 5};
doub_carr_t *dc;
int *pi;
pints_t api[5];
numbers_struct_t *ns;
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ok(cstr_length(str1, sizeof str1) == strlen(str1), "RPC cstr_length\n");
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ok(sum_fixed_int_3d(m) == 4116, "RPC sum_fixed_int_3d\n");
ok(sum_conf_array(c, 10) == 45, "RPC sum_conf_array\n");
ok(sum_conf_array(&c[5], 2) == 11, "RPC sum_conf_array\n");
ok(sum_conf_array(&c[7], 1) == 7, "RPC sum_conf_array\n");
ok(sum_conf_array(&c[2], 0) == 0, "RPC sum_conf_array\n");
ok(sum_conf_ptr_by_conf_ptr(1, c2, c) == 45, "RPC sum_conf_ptr_by_conf_ptr\n");
ok(sum_conf_ptr_by_conf_ptr(3, c2, c) == 345, "RPC sum_conf_ptr_by_conf_ptr\n");
c2[0] = 0;
ok(sum_conf_ptr_by_conf_ptr(3, c2, c) == 300, "RPC sum_conf_ptr_by_conf_ptr\n");
ok(sum_unique_conf_array(ca, 4) == -2, "RPC sum_unique_conf_array\n");
ok(sum_unique_conf_ptr(ca, 5) == 3, "RPC sum_unique_conf_array\n");
ok(sum_unique_conf_ptr(NULL, 10) == 0, "RPC sum_unique_conf_array\n");
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ok(sum_var_array(c, 10) == 45, "RPC sum_conf_array\n");
ok(sum_var_array(&c[5], 2) == 11, "RPC sum_conf_array\n");
ok(sum_var_array(&c[7], 1) == 7, "RPC sum_conf_array\n");
ok(sum_var_array(&c[2], 0) == 0, "RPC sum_conf_array\n");
ok(dot_two_vectors(vs) == -4, "RPC dot_two_vectors\n");
cs = HeapAlloc(GetProcessHeap(), 0, FIELD_OFFSET(cs_t, ca[5]));
cs->n = 5;
cs->ca[0] = 3;
cs->ca[1] = 5;
cs->ca[2] = -2;
cs->ca[3] = -1;
cs->ca[4] = -4;
ok(sum_cs(cs) == 1, "RPC sum_cs\n");
HeapFree(GetProcessHeap(), 0, cs);
n = 5;
cps.pn = &n;
cps.ca1 = &c[2];
cps.n = 3;
cps.ca2 = &c[3];
ok(sum_cps(&cps) == 53, "RPC sum_cps\n");
cpsc.a = 4;
cpsc.b = 5;
cpsc.c = 1;
cpsc.ca = c;
ok(sum_cpsc(&cpsc) == 6, "RPC sum_cpsc\n");
cpsc.a = 4;
cpsc.b = 5;
cpsc.c = 0;
cpsc.ca = c;
ok(sum_cpsc(&cpsc) == 10, "RPC sum_cpsc\n");
ok(sum_toplev_conf_2n(c, 3) == 15, "RPC sum_toplev_conf_2n\n");
ok(sum_toplev_conf_cond(c, 5, 6, 1) == 10, "RPC sum_toplev_conf_cond\n");
ok(sum_toplev_conf_cond(c, 5, 6, 0) == 15, "RPC sum_toplev_conf_cond\n");
dc = malloc(FIELD_OFFSET(doub_carr_t, a[2]));
dc->n = 2;
dc->a[0] = malloc(FIELD_OFFSET(doub_carr_1_t, a[3]));
dc->a[0]->n = 3;
dc->a[0]->a[0] = 5;
dc->a[0]->a[1] = 1;
dc->a[0]->a[2] = 8;
dc->a[1] = malloc(FIELD_OFFSET(doub_carr_1_t, a[2]));
dc->a[1]->n = 2;
dc->a[1]->a[0] = 2;
dc->a[1]->a[1] = 3;
ok(sum_doub_carr(dc) == 19, "RPC sum_doub_carr\n");
free(dc->a[0]);
free(dc->a[1]);
free(dc);
dc = NULL;
make_pyramid_doub_carr(4, &dc);
ok(check_pyramid_doub_carr(dc), "RPC make_pyramid_doub_carr\n");
free_pyramid_doub_carr(dc);
ok(sum_L1_norms(2, vs) == 21, "RPC sum_L1_norms\n");
memset(api, 0, sizeof(api));
pi = HeapAlloc(GetProcessHeap(), 0, sizeof(*pi));
*pi = -1;
api[0].pi = pi;
get_numbers(1, 1, api);
ok(api[0].pi == pi, "RPC conformant varying array [out] pointer changed from %p to %p\n", pi, api[0].pi);
ok(*api[0].pi == 0, "pi unmarshalled incorrectly %d\n", *api[0].pi);
ns = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, FIELD_OFFSET(numbers_struct_t, numbers[5]));
ns->length = 5;
ns->size = 5;
ns->numbers[0].pi = pi;
get_numbers_struct(&ns);
ok(ns->numbers[0].pi == pi, "RPC conformant varying struct embedded pointer changed from %p to %p\n", pi, ns->numbers[0].pi);
ok(*ns->numbers[0].pi == 5, "pi unmarshalled incorrectly %d\n", *ns->numbers[0].pi);
HeapFree(GetProcessHeap(), 0, ns);
HeapFree(GetProcessHeap(), 0, pi);
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}
static void
run_tests(void)
{
basic_tests();
union_tests();
pointer_tests();
array_tests();
context_handle_test();
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}
static void
client(const char *test)
{
if (strcmp(test, "tcp_basic") == 0)
{
static unsigned char iptcp[] = "ncacn_ip_tcp";
static unsigned char address[] = "127.0.0.1";
static unsigned char port[] = PORT;
unsigned char *binding;
ok(RPC_S_OK == RpcStringBindingCompose(NULL, iptcp, address, port, NULL, &binding), "RpcStringBindingCompose\n");
ok(RPC_S_OK == RpcBindingFromStringBinding(binding, &IServer_IfHandle), "RpcBindingFromStringBinding\n");
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run_tests();
ok(RPC_S_OK == RpcStringFree(&binding), "RpcStringFree\n");
ok(RPC_S_OK == RpcBindingFree(&IServer_IfHandle), "RpcBindingFree\n");
}
else if (strcmp(test, "np_basic") == 0)
{
static unsigned char np[] = "ncacn_np";
static unsigned char address[] = "\\\\.";
static unsigned char pipe[] = PIPE;
unsigned char *binding;
ok(RPC_S_OK == RpcStringBindingCompose(NULL, np, address, pipe, NULL, &binding), "RpcStringBindingCompose\n");
ok(RPC_S_OK == RpcBindingFromStringBinding(binding, &IServer_IfHandle), "RpcBindingFromStringBinding\n");
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run_tests();
stop();
ok(RPC_S_OK == RpcStringFree(&binding), "RpcStringFree\n");
ok(RPC_S_OK == RpcBindingFree(&IServer_IfHandle), "RpcBindingFree\n");
}
}
static void
server(void)
{
static unsigned char iptcp[] = "ncacn_ip_tcp";
static unsigned char port[] = PORT;
static unsigned char np[] = "ncacn_np";
static unsigned char pipe[] = PIPE;
RPC_STATUS status, iptcp_status, np_status;
DWORD ret;
iptcp_status = RpcServerUseProtseqEp(iptcp, 20, port, NULL);
ok(iptcp_status == RPC_S_OK, "RpcServerUseProtseqEp(ncacn_ip_tcp) failed with status %d\n", iptcp_status);
np_status = RpcServerUseProtseqEp(np, 0, pipe, NULL);
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if (np_status == RPC_S_PROTSEQ_NOT_SUPPORTED)
skip("Protocol sequence ncacn_np is not supported\n");
else
ok(np_status == RPC_S_OK, "RpcServerUseProtseqEp(ncacn_np) failed with status %d\n", np_status);
if (pRpcServerRegisterIfEx)
{
trace("Using RpcServerRegisterIfEx\n");
status = pRpcServerRegisterIfEx(s_IServer_v0_0_s_ifspec, NULL, NULL,
RPC_IF_ALLOW_CALLBACKS_WITH_NO_AUTH,
RPC_C_LISTEN_MAX_CALLS_DEFAULT, NULL);
}
else
status = RpcServerRegisterIf(s_IServer_v0_0_s_ifspec, NULL, NULL);
ok(status == RPC_S_OK, "RpcServerRegisterIf failed with status %d\n", status);
status = RpcServerListen(1, 20, TRUE);
ok(status == RPC_S_OK, "RpcServerListen failed with status %d\n", status);
stop_event = CreateEvent(NULL, FALSE, FALSE, NULL);
ok(stop_event != NULL, "CreateEvent failed with error %d\n", GetLastError());
if (iptcp_status == RPC_S_OK)
run_client("tcp_basic");
else
skip("tcp_basic tests skipped due to earlier failure\n");
if (np_status == RPC_S_OK)
run_client("np_basic");
else
{
skip("np_basic tests skipped due to earlier failure\n");
/* np client is what signals stop_event, so bail out if we didn't run do it */
return;
}
ret = WaitForSingleObject(stop_event, 1000);
ok(WAIT_OBJECT_0 == ret, "WaitForSingleObject\n");
/* if the stop event didn't fire then RpcMgmtWaitServerListen will wait
* forever, so don't bother calling it in this case */
if (ret == WAIT_OBJECT_0)
{
status = RpcMgmtWaitServerListen();
todo_wine {
ok(status == RPC_S_OK, "RpcMgmtWaitServerListening failed with status %d\n", status);
}
}
}
START_TEST(server)
{
int argc;
char **argv;
InitFunctionPointers();
argc = winetest_get_mainargs(&argv);
progname = argv[0];
if (argc == 3)
{
RpcTryExcept
{
client(argv[2]);
}
RpcExcept(TRUE)
{
trace("Exception %d\n", RpcExceptionCode());
}
RpcEndExcept
}
else
server();
}