Sweden-Number/dlls/shell32/tests/shlexec.c

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/*
* Unit test of the ShellExecute function.
*
* Copyright 2005 Francois Gouget for CodeWeavers
*
* 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
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*/
/* TODO:
* - test the default verb selection
* - test selection of an alternate class
* - try running executables in more ways
* - try passing arguments to executables
* - ShellExecute("foo.shlexec") with no path should work if foo.shlexec is
* in the PATH
* - test associations that use %l, %L or "%1" instead of %1
* - we may want to test ShellExecuteEx() instead of ShellExecute()
* and then we could also check its return value
* - ShellExecuteEx() also calls SetLastError() with meaningful values which
* we could check
*/
/* Needed to get SEE_MASK_NOZONECHECKS with the PSDK */
#define NTDDI_WINXPSP1 0x05010100
#define NTDDI_VERSION NTDDI_WINXPSP1
#define _WIN32_WINNT 0x0501
#include <stdio.h>
#include <assert.h>
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#include "wtypes.h"
#include "winbase.h"
#include "windef.h"
#include "shellapi.h"
#include "shlwapi.h"
#include "wine/test.h"
#include "shell32_test.h"
static char argv0[MAX_PATH];
static int myARGC;
static char** myARGV;
static char tmpdir[MAX_PATH];
static char child_file[MAX_PATH];
static DLLVERSIONINFO dllver;
static BOOL skip_noassoc_tests = FALSE;
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/***
*
* ShellExecute wrappers
*
***/
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static void dump_child(void);
static HANDLE hEvent;
static void init_event(const char* child_file)
{
char* event_name;
event_name=strrchr(child_file, '\\')+1;
hEvent=CreateEvent(NULL, FALSE, FALSE, event_name);
}
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static void strcat_param(char* str, const char* param)
{
if (param!=NULL)
{
strcat(str, "\"");
strcat(str, param);
strcat(str, "\"");
}
else
{
strcat(str, "null");
}
}
static char shell_call[2048]="";
static int shell_execute(LPCSTR operation, LPCSTR file, LPCSTR parameters, LPCSTR directory)
{
INT_PTR rc;
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strcpy(shell_call, "ShellExecute(");
strcat_param(shell_call, operation);
strcat(shell_call, ", ");
strcat_param(shell_call, file);
strcat(shell_call, ", ");
strcat_param(shell_call, parameters);
strcat(shell_call, ", ");
strcat_param(shell_call, directory);
strcat(shell_call, ")");
if (winetest_debug > 1)
trace("%s\n", shell_call);
DeleteFile(child_file);
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SetLastError(0xcafebabe);
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/* FIXME: We cannot use ShellExecuteEx() here because if there is no
* association it displays the 'Open With' dialog and I could not find
* a flag to prevent this.
*/
rc=(INT_PTR)ShellExecute(NULL, operation, file, parameters, directory, SW_SHOWNORMAL);
if (rc > 32)
{
int wait_rc;
wait_rc=WaitForSingleObject(hEvent, 5000);
if (wait_rc == WAIT_TIMEOUT)
{
HWND wnd = FindWindowA("#32770", "Windows");
if (wnd != NULL)
{
SendMessage(wnd, WM_CLOSE, 0, 0);
win_skip("Skipping shellexecute of file with unassociated extension\n");
skip_noassoc_tests = TRUE;
rc = SE_ERR_NOASSOC;
}
}
ok(wait_rc==WAIT_OBJECT_0 || rc <= 32, "WaitForSingleObject returned %d\n", wait_rc);
}
/* The child process may have changed the result file, so let profile
* functions know about it
*/
WritePrivateProfileStringA(NULL, NULL, NULL, child_file);
if (rc > 32)
dump_child();
return rc;
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}
static int shell_execute_ex(DWORD mask, LPCSTR operation, LPCSTR file,
LPCSTR parameters, LPCSTR directory)
{
SHELLEXECUTEINFO sei;
BOOL success;
INT_PTR rc;
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strcpy(shell_call, "ShellExecuteEx(");
strcat_param(shell_call, operation);
strcat(shell_call, ", ");
strcat_param(shell_call, file);
strcat(shell_call, ", ");
strcat_param(shell_call, parameters);
strcat(shell_call, ", ");
strcat_param(shell_call, directory);
strcat(shell_call, ")");
if (winetest_debug > 1)
trace("%s\n", shell_call);
sei.cbSize=sizeof(sei);
sei.fMask=SEE_MASK_NOCLOSEPROCESS | mask;
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sei.hwnd=NULL;
sei.lpVerb=operation;
sei.lpFile=file;
sei.lpParameters=parameters;
sei.lpDirectory=directory;
sei.nShow=SW_SHOWNORMAL;
sei.hInstApp=NULL; /* Out */
sei.lpIDList=NULL;
sei.lpClass=NULL;
sei.hkeyClass=NULL;
sei.dwHotKey=0;
U(sei).hIcon=NULL;
sei.hProcess=NULL; /* Out */
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DeleteFile(child_file);
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SetLastError(0xcafebabe);
success=ShellExecuteEx(&sei);
rc=(INT_PTR)sei.hInstApp;
ok((success && rc > 32) || (!success && rc <= 32),
"%s rc=%d and hInstApp=%ld is not allowed\n", shell_call, success, rc);
if (rc > 32)
{
int wait_rc;
if (sei.hProcess!=NULL)
{
wait_rc=WaitForSingleObject(sei.hProcess, 5000);
ok(wait_rc==WAIT_OBJECT_0, "WaitForSingleObject(hProcess) returned %d\n", wait_rc);
}
wait_rc=WaitForSingleObject(hEvent, 5000);
ok(wait_rc==WAIT_OBJECT_0, "WaitForSingleObject returned %d\n", wait_rc);
}
/* The child process may have changed the result file, so let profile
* functions know about it
*/
WritePrivateProfileStringA(NULL, NULL, NULL, child_file);
if (rc > 32)
dump_child();
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return rc;
}
/***
*
* Functions to create / delete associations wrappers
*
***/
static BOOL create_test_association(const char* extension)
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{
HKEY hkey, hkey_shell;
char class[MAX_PATH];
LONG rc;
sprintf(class, "shlexec%s", extension);
rc=RegCreateKeyEx(HKEY_CLASSES_ROOT, extension, 0, NULL, 0, KEY_SET_VALUE,
NULL, &hkey, NULL);
if (rc != ERROR_SUCCESS)
return FALSE;
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rc=RegSetValueEx(hkey, NULL, 0, REG_SZ, (LPBYTE) class, strlen(class)+1);
ok(rc==ERROR_SUCCESS, "RegSetValueEx '%s' failed, expected ERROR_SUCCESS, got %d\n", class, rc);
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CloseHandle(hkey);
rc=RegCreateKeyEx(HKEY_CLASSES_ROOT, class, 0, NULL, 0,
KEY_CREATE_SUB_KEY | KEY_ENUMERATE_SUB_KEYS, NULL, &hkey, NULL);
ok(rc==ERROR_SUCCESS, "RegCreateKeyEx '%s' failed, expected ERROR_SUCCESS, got %d\n", class, rc);
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rc=RegCreateKeyEx(hkey, "shell", 0, NULL, 0,
KEY_CREATE_SUB_KEY, NULL, &hkey_shell, NULL);
ok(rc==ERROR_SUCCESS, "RegCreateKeyEx 'shell' failed, expected ERROR_SUCCESS, got %d\n", rc);
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CloseHandle(hkey);
CloseHandle(hkey_shell);
return TRUE;
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}
/* Based on RegDeleteTreeW from dlls/advapi32/registry.c */
static LSTATUS myRegDeleteTreeA(HKEY hKey, LPCSTR lpszSubKey)
{
LONG ret;
DWORD dwMaxSubkeyLen, dwMaxValueLen;
DWORD dwMaxLen, dwSize;
CHAR szNameBuf[MAX_PATH], *lpszName = szNameBuf;
HKEY hSubKey = hKey;
if(lpszSubKey)
{
ret = RegOpenKeyExA(hKey, lpszSubKey, 0, KEY_READ, &hSubKey);
if (ret) return ret;
}
/* Get highest length for keys, values */
ret = RegQueryInfoKeyA(hSubKey, NULL, NULL, NULL, NULL,
&dwMaxSubkeyLen, NULL, NULL, &dwMaxValueLen, NULL, NULL, NULL);
if (ret) goto cleanup;
dwMaxSubkeyLen++;
dwMaxValueLen++;
dwMaxLen = max(dwMaxSubkeyLen, dwMaxValueLen);
if (dwMaxLen > sizeof(szNameBuf)/sizeof(CHAR))
{
/* Name too big: alloc a buffer for it */
if (!(lpszName = HeapAlloc( GetProcessHeap(), 0, dwMaxLen*sizeof(CHAR))))
{
ret = ERROR_NOT_ENOUGH_MEMORY;
goto cleanup;
}
}
/* Recursively delete all the subkeys */
while (TRUE)
{
dwSize = dwMaxLen;
if (RegEnumKeyExA(hSubKey, 0, lpszName, &dwSize, NULL,
NULL, NULL, NULL)) break;
ret = myRegDeleteTreeA(hSubKey, lpszName);
if (ret) goto cleanup;
}
if (lpszSubKey)
ret = RegDeleteKeyA(hKey, lpszSubKey);
else
while (TRUE)
{
dwSize = dwMaxLen;
if (RegEnumValueA(hKey, 0, lpszName, &dwSize,
NULL, NULL, NULL, NULL)) break;
ret = RegDeleteValueA(hKey, lpszName);
if (ret) goto cleanup;
}
cleanup:
/* Free buffer if allocated */
if (lpszName != szNameBuf)
HeapFree( GetProcessHeap(), 0, lpszName);
if(lpszSubKey)
RegCloseKey(hSubKey);
return ret;
}
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static void delete_test_association(const char* extension)
{
char class[MAX_PATH];
sprintf(class, "shlexec%s", extension);
myRegDeleteTreeA(HKEY_CLASSES_ROOT, class);
myRegDeleteTreeA(HKEY_CLASSES_ROOT, extension);
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}
static void create_test_verb_dde(const char* extension, const char* verb,
int rawcmd, const char* cmdtail, const char *ddeexec,
const char *application, const char *topic,
const char *ifexec)
{
HKEY hkey_shell, hkey_verb, hkey_cmd;
char shell[MAX_PATH];
char* cmd;
LONG rc;
sprintf(shell, "shlexec%s\\shell", extension);
rc=RegOpenKeyEx(HKEY_CLASSES_ROOT, shell, 0,
KEY_CREATE_SUB_KEY, &hkey_shell);
assert(rc==ERROR_SUCCESS);
rc=RegCreateKeyEx(hkey_shell, verb, 0, NULL, 0, KEY_CREATE_SUB_KEY,
NULL, &hkey_verb, NULL);
assert(rc==ERROR_SUCCESS);
rc=RegCreateKeyEx(hkey_verb, "command", 0, NULL, 0, KEY_SET_VALUE,
NULL, &hkey_cmd, NULL);
assert(rc==ERROR_SUCCESS);
if (rawcmd)
{
rc=RegSetValueEx(hkey_cmd, NULL, 0, REG_SZ, (LPBYTE)cmdtail, strlen(cmdtail)+1);
}
else
{
cmd=HeapAlloc(GetProcessHeap(), 0, strlen(argv0)+10+strlen(child_file)+2+strlen(cmdtail)+1);
sprintf(cmd,"%s shlexec \"%s\" %s", argv0, child_file, cmdtail);
rc=RegSetValueEx(hkey_cmd, NULL, 0, REG_SZ, (LPBYTE)cmd, strlen(cmd)+1);
assert(rc==ERROR_SUCCESS);
HeapFree(GetProcessHeap(), 0, cmd);
}
if (ddeexec)
{
HKEY hkey_ddeexec, hkey_application, hkey_topic, hkey_ifexec;
rc=RegCreateKeyEx(hkey_verb, "ddeexec", 0, NULL, 0, KEY_SET_VALUE |
KEY_CREATE_SUB_KEY, NULL, &hkey_ddeexec, NULL);
assert(rc==ERROR_SUCCESS);
rc=RegSetValueEx(hkey_ddeexec, NULL, 0, REG_SZ, (LPBYTE)ddeexec,
strlen(ddeexec)+1);
assert(rc==ERROR_SUCCESS);
if (application)
{
rc=RegCreateKeyEx(hkey_ddeexec, "application", 0, NULL, 0, KEY_SET_VALUE,
NULL, &hkey_application, NULL);
assert(rc==ERROR_SUCCESS);
rc=RegSetValueEx(hkey_application, NULL, 0, REG_SZ, (LPBYTE)application,
strlen(application)+1);
assert(rc==ERROR_SUCCESS);
CloseHandle(hkey_application);
}
if (topic)
{
rc=RegCreateKeyEx(hkey_ddeexec, "topic", 0, NULL, 0, KEY_SET_VALUE,
NULL, &hkey_topic, NULL);
assert(rc==ERROR_SUCCESS);
rc=RegSetValueEx(hkey_topic, NULL, 0, REG_SZ, (LPBYTE)topic,
strlen(topic)+1);
assert(rc==ERROR_SUCCESS);
CloseHandle(hkey_topic);
}
if (ifexec)
{
rc=RegCreateKeyEx(hkey_ddeexec, "ifexec", 0, NULL, 0, KEY_SET_VALUE,
NULL, &hkey_ifexec, NULL);
assert(rc==ERROR_SUCCESS);
rc=RegSetValueEx(hkey_ifexec, NULL, 0, REG_SZ, (LPBYTE)ifexec,
strlen(ifexec)+1);
assert(rc==ERROR_SUCCESS);
CloseHandle(hkey_ifexec);
}
CloseHandle(hkey_ddeexec);
}
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CloseHandle(hkey_shell);
CloseHandle(hkey_verb);
CloseHandle(hkey_cmd);
}
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static void create_test_verb(const char* extension, const char* verb,
int rawcmd, const char* cmdtail)
{
create_test_verb_dde(extension, verb, rawcmd, cmdtail, NULL, NULL,
NULL, NULL);
}
/***
*
* Functions to check that the child process was started just right
* (borrowed from dlls/kernel32/tests/process.c)
*
***/
static const char* encodeA(const char* str)
{
static char encoded[2*1024+1];
char* ptr;
size_t len,i;
if (!str) return "";
len = strlen(str) + 1;
if (len >= sizeof(encoded)/2)
{
fprintf(stderr, "string is too long!\n");
assert(0);
}
ptr = encoded;
for (i = 0; i < len; i++)
sprintf(&ptr[i * 2], "%02x", (unsigned char)str[i]);
ptr[2 * len] = '\0';
return ptr;
}
static unsigned decode_char(char c)
{
if (c >= '0' && c <= '9') return c - '0';
if (c >= 'a' && c <= 'f') return c - 'a' + 10;
assert(c >= 'A' && c <= 'F');
return c - 'A' + 10;
}
static char* decodeA(const char* str)
{
static char decoded[1024];
char* ptr;
size_t len,i;
len = strlen(str) / 2;
if (!len--) return NULL;
if (len >= sizeof(decoded))
{
fprintf(stderr, "string is too long!\n");
assert(0);
}
ptr = decoded;
for (i = 0; i < len; i++)
ptr[i] = (decode_char(str[2 * i]) << 4) | decode_char(str[2 * i + 1]);
ptr[len] = '\0';
return ptr;
}
static void childPrintf(HANDLE h, const char* fmt, ...)
{
va_list valist;
char buffer[1024];
DWORD w;
va_start(valist, fmt);
vsprintf(buffer, fmt, valist);
va_end(valist);
WriteFile(h, buffer, strlen(buffer), &w, NULL);
}
static DWORD ddeInst;
static HSZ hszTopic;
static char ddeExec[MAX_PATH], ddeApplication[MAX_PATH];
static BOOL post_quit_on_execute;
static HDDEDATA CALLBACK ddeCb(UINT uType, UINT uFmt, HCONV hConv,
HSZ hsz1, HSZ hsz2, HDDEDATA hData,
ULONG_PTR dwData1, ULONG_PTR dwData2)
{
DWORD size = 0;
if (winetest_debug > 2)
trace("dde_cb: %04x, %04x, %p, %p, %p, %p, %08lx, %08lx\n",
uType, uFmt, hConv, hsz1, hsz2, hData, dwData1, dwData2);
switch (uType)
{
case XTYP_CONNECT:
if (!DdeCmpStringHandles(hsz1, hszTopic))
{
size = DdeQueryString(ddeInst, hsz2, ddeApplication, MAX_PATH, CP_WINANSI);
assert(size < MAX_PATH);
return (HDDEDATA)TRUE;
}
return (HDDEDATA)FALSE;
case XTYP_EXECUTE:
size = DdeGetData(hData, (LPBYTE)ddeExec, MAX_PATH, 0L);
assert(size < MAX_PATH);
DdeFreeDataHandle(hData);
if (post_quit_on_execute)
PostQuitMessage(0);
return (HDDEDATA)DDE_FACK;
default:
return NULL;
}
}
/*
* This is just to make sure the child won't run forever stuck in a GetMessage()
* loop when DDE fails for some reason.
*/
static void CALLBACK childTimeout(HWND wnd, UINT msg, UINT_PTR timer, DWORD time)
{
trace("childTimeout called\n");
PostQuitMessage(0);
}
static void doChild(int argc, char** argv)
{
char* filename;
HANDLE hFile, map;
int i;
int rc;
HSZ hszApplication;
UINT_PTR timer;
HANDLE dde_ready;
MSG msg;
char *shared_block;
filename=argv[2];
hFile=CreateFileA(filename, GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, 0);
if (hFile == INVALID_HANDLE_VALUE)
return;
/* Arguments */
childPrintf(hFile, "[Arguments]\r\n");
if (winetest_debug > 2)
trace("argcA=%d\n", argc);
childPrintf(hFile, "argcA=%d\r\n", argc);
for (i = 0; i < argc; i++)
{
if (winetest_debug > 2)
trace("argvA%d=%s\n", i, argv[i]);
childPrintf(hFile, "argvA%d=%s\r\n", i, encodeA(argv[i]));
}
map = OpenFileMappingA(FILE_MAP_READ, FALSE, "winetest_shlexec_dde_map");
if (map != NULL)
{
shared_block = MapViewOfFile(map, FILE_MAP_READ, 0, 0, 4096);
CloseHandle(map);
if (shared_block[0] != '\0' || shared_block[1] != '\0')
{
post_quit_on_execute = TRUE;
ddeInst = 0;
rc = DdeInitializeA(&ddeInst, ddeCb, CBF_SKIP_ALLNOTIFICATIONS | CBF_FAIL_ADVISES |
CBF_FAIL_POKES | CBF_FAIL_REQUESTS, 0L);
assert(rc == DMLERR_NO_ERROR);
hszApplication = DdeCreateStringHandleA(ddeInst, shared_block, CP_WINANSI);
hszTopic = DdeCreateStringHandleA(ddeInst, shared_block + strlen(shared_block) + 1, CP_WINANSI);
assert(hszApplication && hszTopic);
assert(DdeNameService(ddeInst, hszApplication, 0L, DNS_REGISTER | DNS_FILTEROFF));
timer = SetTimer(NULL, 0, 2500, childTimeout);
dde_ready = CreateEvent(NULL, FALSE, FALSE, "winetest_shlexec_dde_ready");
SetEvent(dde_ready);
CloseHandle(dde_ready);
while (GetMessage(&msg, NULL, 0, 0))
DispatchMessage(&msg);
KillTimer(NULL, timer);
assert(DdeNameService(ddeInst, hszApplication, 0L, DNS_UNREGISTER));
assert(DdeFreeStringHandle(ddeInst, hszTopic));
assert(DdeFreeStringHandle(ddeInst, hszApplication));
assert(DdeUninitialize(ddeInst));
}
else
{
dde_ready = CreateEvent(NULL, FALSE, FALSE, "winetest_shlexec_dde_ready");
SetEvent(dde_ready);
CloseHandle(dde_ready);
}
UnmapViewOfFile(shared_block);
childPrintf(hFile, "ddeExec=%s\r\n", encodeA(ddeExec));
}
CloseHandle(hFile);
init_event(filename);
SetEvent(hEvent);
CloseHandle(hEvent);
}
static char* getChildString(const char* sect, const char* key)
{
char buf[1024];
char* ret;
GetPrivateProfileStringA(sect, key, "-", buf, sizeof(buf), child_file);
if (buf[0] == '\0' || (buf[0] == '-' && buf[1] == '\0')) return NULL;
assert(!(strlen(buf) & 1));
ret = decodeA(buf);
return ret;
}
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static void dump_child(void)
{
if (winetest_debug > 1)
{
char key[18];
char* str;
int i, c;
c=GetPrivateProfileIntA("Arguments", "argcA", -1, child_file);
trace("argcA=%d\n",c);
for (i=0;i<c;i++)
{
sprintf(key, "argvA%d", i);
str=getChildString("Arguments", key);
trace("%s=%s\n", key, str);
}
}
}
static int StrCmpPath(const char* s1, const char* s2)
{
if (!s1 && !s2) return 0;
if (!s2) return 1;
if (!s1) return -1;
while (*s1)
{
if (!*s2)
{
if (*s1=='.')
s1++;
return (*s1-*s2);
}
if ((*s1=='/' || *s1=='\\') && (*s2=='/' || *s2=='\\'))
{
while (*s1=='/' || *s1=='\\')
s1++;
while (*s2=='/' || *s2=='\\')
s2++;
}
else if (toupper(*s1)==toupper(*s2))
{
s1++;
s2++;
}
else
{
return (*s1-*s2);
}
}
if (*s2=='.')
s2++;
if (*s2)
return -1;
return 0;
}
static int _okChildString(const char* file, int line, const char* key, const char* expected)
{
char* result;
result=getChildString("Arguments", key);
return ok_(file, line)(lstrcmpiA(result, expected) == 0,
"%s expected '%s', got '%s'\n", key, expected, result);
}
static int _okChildPath(const char* file, int line, const char* key, const char* expected)
{
char* result;
result=getChildString("Arguments", key);
return ok_(file, line)(StrCmpPath(result, expected) == 0,
"%s expected '%s', got '%s'\n", key, expected, result);
}
static int _okChildInt(const char* file, int line, const char* key, int expected)
{
INT result;
result=GetPrivateProfileIntA("Arguments", key, expected, child_file);
return ok_(file, line)(result == expected,
"%s expected %d, but got %d\n", key, expected, result);
}
#define okChildString(key, expected) _okChildString(__FILE__, __LINE__, (key), (expected))
#define okChildPath(key, expected) _okChildPath(__FILE__, __LINE__, (key), (expected))
#define okChildInt(key, expected) _okChildInt(__FILE__, __LINE__, (key), (expected))
/***
*
* GetLongPathNameA equivalent that supports Win95 and WinNT
*
***/
static DWORD get_long_path_name(const char* shortpath, char* longpath, DWORD longlen)
{
char tmplongpath[MAX_PATH];
const char* p;
DWORD sp = 0, lp = 0;
DWORD tmplen;
WIN32_FIND_DATAA wfd;
HANDLE goit;
if (!shortpath || !shortpath[0])
return 0;
if (shortpath[1] == ':')
{
tmplongpath[0] = shortpath[0];
tmplongpath[1] = ':';
lp = sp = 2;
}
while (shortpath[sp])
{
/* check for path delimiters and reproduce them */
if (shortpath[sp] == '\\' || shortpath[sp] == '/')
{
if (!lp || tmplongpath[lp-1] != '\\')
{
/* strip double "\\" */
tmplongpath[lp++] = '\\';
}
tmplongpath[lp] = 0; /* terminate string */
sp++;
continue;
}
p = shortpath + sp;
if (sp == 0 && p[0] == '.' && (p[1] == '/' || p[1] == '\\'))
{
tmplongpath[lp++] = *p++;
tmplongpath[lp++] = *p++;
}
for (; *p && *p != '/' && *p != '\\'; p++);
tmplen = p - (shortpath + sp);
lstrcpyn(tmplongpath + lp, shortpath + sp, tmplen + 1);
/* Check if the file exists and use the existing file name */
goit = FindFirstFileA(tmplongpath, &wfd);
if (goit == INVALID_HANDLE_VALUE)
return 0;
FindClose(goit);
strcpy(tmplongpath + lp, wfd.cFileName);
lp += strlen(tmplongpath + lp);
sp += tmplen;
}
tmplen = strlen(shortpath) - 1;
if ((shortpath[tmplen] == '/' || shortpath[tmplen] == '\\') &&
(tmplongpath[lp - 1] != '/' && tmplongpath[lp - 1] != '\\'))
tmplongpath[lp++] = shortpath[tmplen];
tmplongpath[lp] = 0;
tmplen = strlen(tmplongpath) + 1;
if (tmplen <= longlen)
{
strcpy(longpath, tmplongpath);
tmplen--; /* length without 0 */
}
return tmplen;
}
/***
*
* Tests
*
***/
static const char* testfiles[]=
{
"%s\\test file.shlexec",
"%s\\%%nasty%% $file.shlexec",
"%s\\test file.noassoc",
"%s\\test file.noassoc.shlexec",
"%s\\test file.shlexec.noassoc",
"%s\\test_shortcut_shlexec.lnk",
"%s\\test_shortcut_exe.lnk",
"%s\\test file.shl",
"%s\\test file.shlfoo",
"%s\\test file.sfe",
"%s\\masked file.shlexec",
"%s\\masked",
"%s\\test file.sde",
"%s\\test file.exe",
"%s\\test2.exe",
NULL
};
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typedef struct
{
const char* verb;
const char* basename;
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int todo;
int rc;
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} filename_tests_t;
static filename_tests_t filename_tests[]=
{
/* Test bad / nonexistent filenames */
{NULL, "%s\\nonexistent.shlexec", 0x0, SE_ERR_FNF},
{NULL, "%s\\nonexistent.noassoc", 0x0, SE_ERR_FNF},
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/* Standard tests */
{NULL, "%s\\test file.shlexec", 0x0, 33},
{NULL, "%s\\test file.shlexec.", 0x0, 33},
{NULL, "%s\\%%nasty%% $file.shlexec", 0x0, 33},
{NULL, "%s/test file.shlexec", 0x0, 33},
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/* Test filenames with no association */
{NULL, "%s\\test file.noassoc", 0x0, SE_ERR_NOASSOC},
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/* Test double extensions */
{NULL, "%s\\test file.noassoc.shlexec", 0x0, 33},
{NULL, "%s\\test file.shlexec.noassoc", 0x0, SE_ERR_NOASSOC},
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/* Test alternate verbs */
{"LowerL", "%s\\nonexistent.shlexec", 0x0, SE_ERR_FNF},
{"LowerL", "%s\\test file.noassoc", 0x0, SE_ERR_NOASSOC},
{"QuotedLowerL", "%s\\test file.shlexec", 0x0, 33},
{"QuotedUpperL", "%s\\test file.shlexec", 0x0, 33},
/* Test file masked due to space */
{NULL, "%s\\masked file.shlexec", 0x1, 33},
/* Test if quoting prevents the masking */
{NULL, "%s\\masked file.shlexec", 0x40, 33},
{NULL, NULL, 0}
};
static filename_tests_t noquotes_tests[]=
{
/* Test unquoted '%1' thingies */
{"NoQuotes", "%s\\test file.shlexec", 0xa, 33},
{"LowerL", "%s\\test file.shlexec", 0xa, 33},
{"UpperL", "%s\\test file.shlexec", 0xa, 33},
{NULL, NULL, 0}
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};
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static void test_filename(void)
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{
char filename[MAX_PATH];
const filename_tests_t* test;
char* c;
int rc;
test=filename_tests;
while (test->basename)
{
BOOL quotedfile = FALSE;
if (skip_noassoc_tests && test->rc == SE_ERR_NOASSOC)
{
win_skip("Skipping shellexecute of file with unassociated extension\n");
test++;
continue;
}
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sprintf(filename, test->basename, tmpdir);
if (strchr(filename, '/'))
{
c=filename;
while (*c)
{
if (*c=='\\')
*c='/';
c++;
}
}
if ((test->todo & 0x40)==0)
{
rc=shell_execute(test->verb, filename, NULL, NULL);
}
else
{
char quoted[MAX_PATH + 2];
quotedfile = TRUE;
sprintf(quoted, "\"%s\"", filename);
rc=shell_execute(test->verb, quoted, NULL, NULL);
}
if (rc > 32)
rc=33;
if ((test->todo & 0x1)==0)
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{
ok(rc==test->rc ||
broken(quotedfile && rc == 2), /* NT4 */
"%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
else todo_wine
{
ok(rc==test->rc, "%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
if (rc == 33)
{
const char* verb;
if ((test->todo & 0x2)==0)
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{
okChildInt("argcA", 5);
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}
else todo_wine
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{
okChildInt("argcA", 5);
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}
verb=(test->verb ? test->verb : "Open");
if ((test->todo & 0x4)==0)
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{
okChildString("argvA3", verb);
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}
else todo_wine
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{
okChildString("argvA3", verb);
}
if ((test->todo & 0x8)==0)
{
okChildPath("argvA4", filename);
}
else todo_wine
{
okChildPath("argvA4", filename);
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}
}
test++;
}
test=noquotes_tests;
while (test->basename)
{
sprintf(filename, test->basename, tmpdir);
rc=shell_execute(test->verb, filename, NULL, NULL);
if (rc > 32)
rc=33;
if ((test->todo & 0x1)==0)
{
ok(rc==test->rc, "%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
else todo_wine
{
ok(rc==test->rc, "%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
if (rc==0)
{
int count;
const char* verb;
char* str;
verb=(test->verb ? test->verb : "Open");
if ((test->todo & 0x4)==0)
{
okChildString("argvA3", verb);
}
else todo_wine
{
okChildString("argvA3", verb);
}
count=4;
str=filename;
while (1)
{
char attrib[18];
char* space;
space=strchr(str, ' ');
if (space)
*space='\0';
sprintf(attrib, "argvA%d", count);
if ((test->todo & 0x8)==0)
{
okChildPath(attrib, str);
}
else todo_wine
{
okChildPath(attrib, str);
}
count++;
if (!space)
break;
str=space+1;
}
if ((test->todo & 0x2)==0)
{
okChildInt("argcA", count);
}
else todo_wine
{
okChildInt("argcA", count);
}
}
test++;
}
if (dllver.dwMajorVersion != 0)
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{
/* The more recent versions of shell32.dll accept quoted filenames
* while older ones (e.g. 4.00) don't. Still we want to test this
* because IE 6 depends on the new behavior.
* One day we may need to check the exact version of the dll but for
* now making sure DllGetVersion() is present is sufficient.
*/
sprintf(filename, "\"%s\\test file.shlexec\"", tmpdir);
rc=shell_execute(NULL, filename, NULL, NULL);
ok(rc > 32, "%s failed: rc=%d err=%d\n", shell_call, rc,
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GetLastError());
okChildInt("argcA", 5);
okChildString("argvA3", "Open");
sprintf(filename, "%s\\test file.shlexec", tmpdir);
okChildPath("argvA4", filename);
}
}
static void test_find_executable(void)
{
char filename[MAX_PATH];
char command[MAX_PATH];
const filename_tests_t* test;
INT_PTR rc;
if (!create_test_association(".sfe"))
{
skip("Unable to create association for '.sfe'\n");
return;
}
create_test_verb(".sfe", "Open", 1, "%1");
/* Don't test FindExecutable(..., NULL), it always crashes */
strcpy(command, "your word");
if (0) /* Can crash on Vista! */
{
rc=(INT_PTR)FindExecutableA(NULL, NULL, command);
ok(rc == SE_ERR_FNF || rc > 32 /* nt4 */, "FindExecutable(NULL) returned %ld\n", rc);
ok(strcmp(command, "your word") != 0, "FindExecutable(NULL) returned command=[%s]\n", command);
}
strcpy(command, "your word");
rc=(INT_PTR)FindExecutableA(tmpdir, NULL, command);
ok(rc == SE_ERR_NOASSOC /* >= win2000 */ || rc > 32 /* win98, nt4 */, "FindExecutable(NULL) returned %ld\n", rc);
ok(strcmp(command, "your word") != 0, "FindExecutable(NULL) returned command=[%s]\n", command);
sprintf(filename, "%s\\test file.sfe", tmpdir);
rc=(INT_PTR)FindExecutableA(filename, NULL, command);
ok(rc > 32, "FindExecutable(%s) returned %ld\n", filename, rc);
/* Depending on the platform, command could be '%1' or 'test file.sfe' */
rc=(INT_PTR)FindExecutableA("test file.sfe", tmpdir, command);
ok(rc > 32, "FindExecutable(%s) returned %ld\n", filename, rc);
rc=(INT_PTR)FindExecutableA("test file.sfe", NULL, command);
ok(rc == SE_ERR_FNF, "FindExecutable(%s) returned %ld\n", filename, rc);
delete_test_association(".sfe");
if (!create_test_association(".shl"))
{
skip("Unable to create association for '.shl'\n");
return;
}
create_test_verb(".shl", "Open", 0, "Open");
sprintf(filename, "%s\\test file.shl", tmpdir);
rc=(INT_PTR)FindExecutableA(filename, NULL, command);
ok(rc == SE_ERR_FNF /* NT4 */ || rc > 32, "FindExecutable(%s) returned %ld\n", filename, rc);
sprintf(filename, "%s\\test file.shlfoo", tmpdir);
rc=(INT_PTR)FindExecutableA(filename, NULL, command);
delete_test_association(".shl");
if (rc > 32)
{
/* On Windows XP and 2003 FindExecutable() is completely broken.
* Probably what it does is convert the filename to 8.3 format,
* which as a side effect converts the '.shlfoo' extension to '.shl',
* and then tries to find an association for '.shl'. This means it
* will normally fail on most extensions with more than 3 characters,
* like '.mpeg', etc.
* Also it means we cannot do any other test.
*/
win_skip("FindExecutable() is broken -> not running 4+ character extension tests\n");
return;
}
test=filename_tests;
while (test->basename)
{
sprintf(filename, test->basename, tmpdir);
if (strchr(filename, '/'))
{
char* c;
c=filename;
while (*c)
{
if (*c=='\\')
*c='/';
c++;
}
}
/* Win98 does not '\0'-terminate command! */
memset(command, '\0', sizeof(command));
rc=(INT_PTR)FindExecutableA(filename, NULL, command);
if (rc > 32)
rc=33;
if ((test->todo & 0x10)==0)
{
ok(rc==test->rc, "FindExecutable(%s) failed: rc=%ld\n", filename, rc);
}
else todo_wine
{
ok(rc==test->rc, "FindExecutable(%s) failed: rc=%ld\n", filename, rc);
}
if (rc > 32)
{
int equal;
equal=strcmp(command, argv0) == 0 ||
/* NT4 returns an extra 0x8 character! */
(strlen(command) == strlen(argv0)+1 && strncmp(command, argv0, strlen(argv0)) == 0);
if ((test->todo & 0x20)==0)
{
ok(equal, "FindExecutable(%s) returned command='%s' instead of '%s'\n",
filename, command, argv0);
}
else todo_wine
{
ok(equal, "FindExecutable(%s) returned command='%s' instead of '%s'\n",
filename, command, argv0);
}
}
test++;
}
}
static filename_tests_t lnk_tests[]=
{
/* Pass bad / nonexistent filenames as a parameter */
{NULL, "%s\\nonexistent.shlexec", 0xa, 33},
{NULL, "%s\\nonexistent.noassoc", 0xa, 33},
/* Pass regular paths as a parameter */
{NULL, "%s\\test file.shlexec", 0xa, 33},
{NULL, "%s/%%nasty%% $file.shlexec", 0xa, 33},
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/* Pass filenames with no association as a parameter */
{NULL, "%s\\test file.noassoc", 0xa, 33},
{NULL, NULL, 0}
};
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static void test_lnks(void)
{
char filename[MAX_PATH];
char params[MAX_PATH];
const filename_tests_t* test;
int rc;
sprintf(filename, "%s\\test_shortcut_shlexec.lnk", tmpdir);
rc=shell_execute_ex(SEE_MASK_NOZONECHECKS, NULL, filename, NULL, NULL);
ok(rc > 32, "%s failed: rc=%d err=%d\n", shell_call, rc,
GetLastError());
okChildInt("argcA", 5);
okChildString("argvA3", "Open");
sprintf(params, "%s\\test file.shlexec", tmpdir);
get_long_path_name(params, filename, sizeof(filename));
okChildPath("argvA4", filename);
sprintf(filename, "%s\\test_shortcut_exe.lnk", tmpdir);
rc=shell_execute_ex(SEE_MASK_NOZONECHECKS, NULL, filename, NULL, NULL);
ok(rc > 32, "%s failed: rc=%d err=%d\n", shell_call, rc,
GetLastError());
okChildInt("argcA", 4);
okChildString("argvA3", "Lnk");
if (dllver.dwMajorVersion>=6)
{
char* c;
/* Recent versions of shell32.dll accept '/'s in shortcut paths.
* Older versions don't or are quite buggy in this regard.
*/
sprintf(filename, "%s\\test_shortcut_exe.lnk", tmpdir);
c=filename;
while (*c)
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{
if (*c=='\\')
*c='/';
c++;
}
rc=shell_execute_ex(SEE_MASK_NOZONECHECKS, NULL, filename, NULL, NULL);
ok(rc > 32, "%s failed: rc=%d err=%d\n", shell_call, rc,
GetLastError());
okChildInt("argcA", 4);
okChildString("argvA3", "Lnk");
}
sprintf(filename, "%s\\test_shortcut_exe.lnk", tmpdir);
test=lnk_tests;
while (test->basename)
{
params[0]='\"';
sprintf(params+1, test->basename, tmpdir);
strcat(params,"\"");
rc=shell_execute_ex(SEE_MASK_NOZONECHECKS, NULL, filename, params,
NULL);
if (rc > 32)
rc=33;
if ((test->todo & 0x1)==0)
{
ok(rc==test->rc, "%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
else todo_wine
{
ok(rc==test->rc, "%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
if (rc==0)
{
if ((test->todo & 0x2)==0)
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{
okChildInt("argcA", 5);
}
else
{
okChildInt("argcA", 5);
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}
if ((test->todo & 0x4)==0)
{
okChildString("argvA3", "Lnk");
}
else todo_wine
{
okChildString("argvA3", "Lnk");
}
sprintf(params, test->basename, tmpdir);
if ((test->todo & 0x8)==0)
{
okChildPath("argvA4", params);
}
else
{
okChildPath("argvA4", params);
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}
}
test++;
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}
}
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static void test_exes(void)
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{
char filename[MAX_PATH];
char params[1024];
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int rc;
sprintf(params, "shlexec \"%s\" Exec", child_file);
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/* We need NOZONECHECKS on Win2003 to block a dialog */
rc=shell_execute_ex(SEE_MASK_NOZONECHECKS, NULL, argv0, params,
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NULL);
ok(rc > 32, "%s returned %d\n", shell_call, rc);
okChildInt("argcA", 4);
okChildString("argvA3", "Exec");
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if (! skip_noassoc_tests)
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{
sprintf(filename, "%s\\test file.noassoc", tmpdir);
if (CopyFile(argv0, filename, FALSE))
{
rc=shell_execute(NULL, filename, params, NULL);
todo_wine {
ok(rc==SE_ERR_NOASSOC, "%s succeeded: rc=%d\n", shell_call, rc);
}
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}
}
else
{
win_skip("Skipping shellexecute of file with unassociated extension\n");
}
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}
static void test_exes_long(void)
{
char filename[MAX_PATH];
char params[2024];
char longparam[MAX_PATH];
int rc;
for (rc = 0; rc < MAX_PATH; rc++)
longparam[rc]='a'+rc%26;
longparam[MAX_PATH-1]=0;
sprintf(params, "shlexec \"%s\" %s", child_file,longparam);
/* We need NOZONECHECKS on Win2003 to block a dialog */
rc=shell_execute_ex(SEE_MASK_NOZONECHECKS, NULL, argv0, params,
NULL);
ok(rc > 32, "%s returned %d\n", shell_call, rc);
okChildInt("argcA", 4);
okChildString("argvA3", longparam);
if (! skip_noassoc_tests)
{
sprintf(filename, "%s\\test file.noassoc", tmpdir);
if (CopyFile(argv0, filename, FALSE))
{
rc=shell_execute(NULL, filename, params, NULL);
todo_wine {
ok(rc==SE_ERR_NOASSOC, "%s succeeded: rc=%d\n", shell_call, rc);
}
}
}
else
{
win_skip("Skipping shellexecute of file with unassociated extension\n");
}
}
typedef struct
{
const char* command;
const char* ddeexec;
const char* application;
const char* topic;
const char* ifexec;
int expectedArgs;
const char* expectedDdeExec;
int todo;
} dde_tests_t;
static dde_tests_t dde_tests[] =
{
/* Test passing and not passing command-line
* argument, no DDE */
{"", NULL, NULL, NULL, NULL, FALSE, "", 0x0},
{"\"%1\"", NULL, NULL, NULL, NULL, TRUE, "", 0x0},
/* Test passing and not passing command-line
* argument, with DDE */
{"", "[open(\"%1\")]", "shlexec", "dde", NULL, FALSE, "[open(\"%s\")]", 0x0},
{"\"%1\"", "[open(\"%1\")]", "shlexec", "dde", NULL, TRUE, "[open(\"%s\")]", 0x0},
/* Test unquoted %1 in command and ddeexec
* (test filename has space) */
{"%1", "[open(%1)]", "shlexec", "dde", NULL, 2, "[open(%s)]", 0x0},
/* Test ifexec precedence over ddeexec */
{"", "[open(\"%1\")]", "shlexec", "dde", "[ifexec(\"%1\")]", FALSE, "[ifexec(\"%s\")]", 0x0},
/* Test default DDE topic */
{"", "[open(\"%1\")]", "shlexec", NULL, NULL, FALSE, "[open(\"%s\")]", 0x0},
/* Test default DDE application */
{"", "[open(\"%1\")]", NULL, "dde", NULL, FALSE, "[open(\"%s\")]", 0x0},
{NULL, NULL, NULL, NULL, NULL, 0, 0x0}
};
static DWORD WINAPI hooked_WaitForInputIdle(HANDLE process, DWORD timeout)
{
HANDLE dde_ready;
DWORD wait_result;
dde_ready = CreateEventA(NULL, FALSE, FALSE, "winetest_shlexec_dde_ready");
wait_result = WaitForSingleObject(dde_ready, timeout);
CloseHandle(dde_ready);
return wait_result;
}
/*
* WaitForInputIdle() will normally return immediately for console apps. That's
* a problem for us because ShellExecute will assume that an app is ready to
* receive DDE messages after it has called WaitForInputIdle() on that app.
* To work around that we install our own version of WaitForInputIdle() that
2009-10-08 11:23:19 +02:00
* will wait for the child to explicitly tell us that it is ready. We do that
* by changing the entry for WaitForInputIdle() in the shell32 import address
* table.
*/
static void hook_WaitForInputIdle(void *new_func)
{
char *base;
PIMAGE_NT_HEADERS nt_headers;
DWORD import_directory_rva;
PIMAGE_IMPORT_DESCRIPTOR import_descriptor;
base = (char *) GetModuleHandleA("shell32.dll");
nt_headers = (PIMAGE_NT_HEADERS)(base + ((PIMAGE_DOS_HEADER) base)->e_lfanew);
import_directory_rva = nt_headers->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT].VirtualAddress;
/* Search for the correct imported module by walking the import descriptors */
import_descriptor = (PIMAGE_IMPORT_DESCRIPTOR)(base + import_directory_rva);
while (U(*import_descriptor).OriginalFirstThunk != 0)
{
char *import_module_name;
import_module_name = base + import_descriptor->Name;
if (lstrcmpiA(import_module_name, "user32.dll") == 0 ||
lstrcmpiA(import_module_name, "user32") == 0)
{
PIMAGE_THUNK_DATA int_entry;
PIMAGE_THUNK_DATA iat_entry;
/* The import name table and import address table are two parallel
* arrays. We need the import name table to find the imported
* routine and the import address table to patch the address, so
* walk them side by side */
int_entry = (PIMAGE_THUNK_DATA)(base + U(*import_descriptor).OriginalFirstThunk);
iat_entry = (PIMAGE_THUNK_DATA)(base + import_descriptor->FirstThunk);
while (int_entry->u1.Ordinal != 0)
{
if (! IMAGE_SNAP_BY_ORDINAL(int_entry->u1.Ordinal))
{
PIMAGE_IMPORT_BY_NAME import_by_name;
import_by_name = (PIMAGE_IMPORT_BY_NAME)(base + int_entry->u1.AddressOfData);
if (lstrcmpA((char *) import_by_name->Name, "WaitForInputIdle") == 0)
{
/* Found the correct routine in the correct imported module. Patch it. */
DWORD old_prot;
VirtualProtect(&iat_entry->u1.Function, sizeof(ULONG_PTR), PAGE_READWRITE, &old_prot);
iat_entry->u1.Function = (ULONG_PTR) new_func;
VirtualProtect(&iat_entry->u1.Function, sizeof(ULONG_PTR), old_prot, &old_prot);
break;
}
}
int_entry++;
iat_entry++;
}
break;
}
import_descriptor++;
}
}
static void test_dde(void)
{
char filename[MAX_PATH], defApplication[MAX_PATH];
const dde_tests_t* test;
char params[1024];
int rc;
HANDLE map;
char *shared_block;
hook_WaitForInputIdle((void *) hooked_WaitForInputIdle);
sprintf(filename, "%s\\test file.sde", tmpdir);
/* Default service is application name minus path and extension */
strcpy(defApplication, strrchr(argv0, '\\')+1);
*strchr(defApplication, '.') = 0;
map = CreateFileMappingA(INVALID_HANDLE_VALUE, NULL, PAGE_READWRITE, 0,
4096, "winetest_shlexec_dde_map");
shared_block = MapViewOfFile(map, FILE_MAP_READ | FILE_MAP_WRITE, 0, 0, 4096);
test = dde_tests;
while (test->command)
{
if (!create_test_association(".sde"))
{
skip("Unable to create association for '.sfe'\n");
return;
}
create_test_verb_dde(".sde", "Open", 0, test->command, test->ddeexec,
test->application, test->topic, test->ifexec);
if (test->application != NULL || test->topic != NULL)
{
strcpy(shared_block, test->application ? test->application : defApplication);
strcpy(shared_block + strlen(shared_block) + 1, test->topic ? test->topic : SZDDESYS_TOPIC);
}
else
{
shared_block[0] = '\0';
shared_block[1] = '\0';
}
ddeExec[0] = 0;
rc = shell_execute_ex(SEE_MASK_FLAG_DDEWAIT | SEE_MASK_FLAG_NO_UI, NULL, filename, NULL, NULL);
if ((test->todo & 0x1)==0)
{
ok(32 < rc, "%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
else todo_wine
{
ok(32 < rc, "%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
if (32 < rc)
{
if ((test->todo & 0x2)==0)
{
okChildInt("argcA", test->expectedArgs + 3);
}
else todo_wine
{
okChildInt("argcA", test->expectedArgs + 3);
}
if (test->expectedArgs == 1)
{
if ((test->todo & 0x4) == 0)
{
okChildPath("argvA3", filename);
}
else todo_wine
{
okChildPath("argvA3", filename);
}
}
if ((test->todo & 0x8) == 0)
{
sprintf(params, test->expectedDdeExec, filename);
okChildPath("ddeExec", params);
}
else todo_wine
{
sprintf(params, test->expectedDdeExec, filename);
okChildPath("ddeExec", params);
}
}
delete_test_association(".sde");
test++;
}
UnmapViewOfFile(shared_block);
CloseHandle(map);
hook_WaitForInputIdle((void *) WaitForInputIdle);
}
#define DDE_DEFAULT_APP_VARIANTS 2
typedef struct
{
const char* command;
const char* expectedDdeApplication[DDE_DEFAULT_APP_VARIANTS];
int todo;
int rc[DDE_DEFAULT_APP_VARIANTS];
} dde_default_app_tests_t;
static dde_default_app_tests_t dde_default_app_tests[] =
{
/* Windows XP and 98 handle default DDE app names in different ways.
* The application name we see in the first test determines the pattern
* of application names and return codes we will look for. */
/* Test unquoted existing filename with a space */
{"%s\\test file.exe", {"test file", "test"}, 0x0, {33, 33}},
{"%s\\test file.exe param", {"test file", "test"}, 0x0, {33, 33}},
/* Test quoted existing filename with a space */
{"\"%s\\test file.exe\"", {"test file", "test file"}, 0x0, {33, 33}},
{"\"%s\\test file.exe\" param", {"test file", "test file"}, 0x0, {33, 33}},
/* Test unquoted filename with a space that doesn't exist, but
* test2.exe does */
{"%s\\test2 file.exe", {"test2", "test2"}, 0x0, {33, 33}},
{"%s\\test2 file.exe param", {"test2", "test2"}, 0x0, {33, 33}},
/* Test quoted filename with a space that does not exist */
{"\"%s\\test2 file.exe\"", {"", "test2 file"}, 0x0, {5, 33}},
{"\"%s\\test2 file.exe\" param", {"", "test2 file"}, 0x0, {5, 33}},
/* Test filename supplied without the extension */
{"%s\\test2", {"test2", "test2"}, 0x0, {33, 33}},
{"%s\\test2 param", {"test2", "test2"}, 0x0, {33, 33}},
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/* Test an unquoted nonexistent filename */
{"%s\\notexist.exe", {"", "notexist"}, 0x0, {5, 33}},
{"%s\\notexist.exe param", {"", "notexist"}, 0x0, {5, 33}},
/* Test an application that will be found on the path */
{"cmd", {"cmd", "cmd"}, 0x0, {33, 33}},
{"cmd param", {"cmd", "cmd"}, 0x0, {33, 33}},
/* Test an application that will not be found on the path */
{"xyzwxyzwxyz", {"", "xyzwxyzwxyz"}, 0x0, {5, 33}},
{"xyzwxyzwxyz param", {"", "xyzwxyzwxyz"}, 0x0, {5, 33}},
{NULL, {NULL}, 0, {0}}
};
typedef struct
{
char *filename;
DWORD threadIdParent;
} dde_thread_info_t;
static DWORD CALLBACK ddeThread(LPVOID arg)
{
dde_thread_info_t *info = arg;
assert(info && info->filename);
PostThreadMessage(info->threadIdParent,
WM_QUIT,
shell_execute_ex(SEE_MASK_FLAG_DDEWAIT | SEE_MASK_FLAG_NO_UI, NULL, info->filename, NULL, NULL),
0L);
ExitThread(0);
}
static void test_dde_default_app(void)
{
char filename[MAX_PATH];
HSZ hszApplication;
dde_thread_info_t info = { filename, GetCurrentThreadId() };
const dde_default_app_tests_t* test;
char params[1024];
DWORD threadId;
MSG msg;
int rc, which = 0;
post_quit_on_execute = FALSE;
ddeInst = 0;
rc = DdeInitializeA(&ddeInst, ddeCb, CBF_SKIP_ALLNOTIFICATIONS | CBF_FAIL_ADVISES |
CBF_FAIL_POKES | CBF_FAIL_REQUESTS, 0L);
assert(rc == DMLERR_NO_ERROR);
sprintf(filename, "%s\\test file.sde", tmpdir);
/* It is strictly not necessary to register an application name here, but wine's
* DdeNameService implementation complains if 0L is passed instead of
* hszApplication with DNS_FILTEROFF */
hszApplication = DdeCreateStringHandleA(ddeInst, "shlexec", CP_WINANSI);
hszTopic = DdeCreateStringHandleA(ddeInst, "shlexec", CP_WINANSI);
assert(hszApplication && hszTopic);
assert(DdeNameService(ddeInst, hszApplication, 0L, DNS_REGISTER | DNS_FILTEROFF));
test = dde_default_app_tests;
while (test->command)
{
if (!create_test_association(".sde"))
{
skip("Unable to create association for '.sde'\n");
return;
}
sprintf(params, test->command, tmpdir);
create_test_verb_dde(".sde", "Open", 1, params, "[test]", NULL,
"shlexec", NULL);
ddeApplication[0] = 0;
/* No application will be run as we will respond to the first DDE event,
* so don't wait for it */
SetEvent(hEvent);
assert(CreateThread(NULL, 0, ddeThread, &info, 0, &threadId));
while (GetMessage(&msg, NULL, 0, 0)) DispatchMessage(&msg);
rc = msg.wParam > 32 ? 33 : msg.wParam;
/* First test, find which set of test data we expect to see */
if (test == dde_default_app_tests)
{
int i;
for (i=0; i<DDE_DEFAULT_APP_VARIANTS; i++)
{
if (!strcmp(ddeApplication, test->expectedDdeApplication[i]))
{
which = i;
break;
}
}
if (i == DDE_DEFAULT_APP_VARIANTS)
skip("Default DDE application test does not match any available results, using first expected data set.\n");
}
if ((test->todo & 0x1)==0)
{
ok(rc==test->rc[which], "%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
else todo_wine
{
ok(rc==test->rc[which], "%s failed: rc=%d err=%d\n", shell_call,
rc, GetLastError());
}
if (rc == 33)
{
if ((test->todo & 0x2)==0)
{
ok(!strcmp(ddeApplication, test->expectedDdeApplication[which]),
"Expected application '%s', got '%s'\n",
test->expectedDdeApplication[which], ddeApplication);
}
else todo_wine
{
ok(!strcmp(ddeApplication, test->expectedDdeApplication[which]),
"Expected application '%s', got '%s'\n",
test->expectedDdeApplication[which], ddeApplication);
}
}
delete_test_association(".sde");
test++;
}
assert(DdeNameService(ddeInst, hszApplication, 0L, DNS_UNREGISTER));
assert(DdeFreeStringHandle(ddeInst, hszTopic));
assert(DdeFreeStringHandle(ddeInst, hszApplication));
assert(DdeUninitialize(ddeInst));
}
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static void init_test(void)
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{
HMODULE hdll;
HRESULT (WINAPI *pDllGetVersion)(DLLVERSIONINFO*);
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char filename[MAX_PATH];
WCHAR lnkfile[MAX_PATH];
char params[1024];
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const char* const * testfile;
lnk_desc_t desc;
DWORD rc;
HRESULT r;
hdll=GetModuleHandleA("shell32.dll");
pDllGetVersion=(void*)GetProcAddress(hdll, "DllGetVersion");
if (pDllGetVersion)
{
dllver.cbSize=sizeof(dllver);
pDllGetVersion(&dllver);
trace("major=%d minor=%d build=%d platform=%d\n",
dllver.dwMajorVersion, dllver.dwMinorVersion,
dllver.dwBuildNumber, dllver.dwPlatformID);
}
else
{
memset(&dllver, 0, sizeof(dllver));
}
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r = CoInitialize(NULL);
ok(SUCCEEDED(r), "CoInitialize failed (0x%08x)\n", r);
if (FAILED(r))
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exit(1);
rc=GetModuleFileName(NULL, argv0, sizeof(argv0));
assert(rc!=0 && rc<sizeof(argv0));
if (GetFileAttributes(argv0)==INVALID_FILE_ATTRIBUTES)
{
strcat(argv0, ".so");
ok(GetFileAttributes(argv0)!=INVALID_FILE_ATTRIBUTES,
"unable to find argv0!\n");
}
GetTempPathA(sizeof(filename), filename);
GetTempFileNameA(filename, "wt", 0, tmpdir);
DeleteFileA( tmpdir );
rc = CreateDirectoryA( tmpdir, NULL );
ok( rc, "failed to create %s err %u\n", tmpdir, GetLastError() );
rc = GetTempFileNameA(tmpdir, "wt", 0, child_file);
assert(rc != 0);
init_event(child_file);
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/* Set up the test files */
testfile=testfiles;
while (*testfile)
{
HANDLE hfile;
sprintf(filename, *testfile, tmpdir);
hfile=CreateFile(filename, GENERIC_WRITE, 0, NULL, CREATE_ALWAYS,
FILE_ATTRIBUTE_NORMAL, NULL);
if (hfile==INVALID_HANDLE_VALUE)
{
trace("unable to create '%s': err=%d\n", filename, GetLastError());
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assert(0);
}
CloseHandle(hfile);
testfile++;
}
/* Setup the test shortcuts */
sprintf(filename, "%s\\test_shortcut_shlexec.lnk", tmpdir);
MultiByteToWideChar(CP_ACP, 0, filename, -1, lnkfile, sizeof(lnkfile)/sizeof(*lnkfile));
desc.description=NULL;
desc.workdir=NULL;
sprintf(filename, "%s\\test file.shlexec", tmpdir);
desc.path=filename;
desc.pidl=NULL;
desc.arguments="ignored";
desc.showcmd=0;
desc.icon=NULL;
desc.icon_id=0;
desc.hotkey=0;
create_lnk(lnkfile, &desc, 0);
sprintf(filename, "%s\\test_shortcut_exe.lnk", tmpdir);
MultiByteToWideChar(CP_ACP, 0, filename, -1, lnkfile, sizeof(lnkfile)/sizeof(*lnkfile));
desc.description=NULL;
desc.workdir=NULL;
desc.path=argv0;
desc.pidl=NULL;
sprintf(params, "shlexec \"%s\" Lnk", child_file);
desc.arguments=params;
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desc.showcmd=0;
desc.icon=NULL;
desc.icon_id=0;
desc.hotkey=0;
create_lnk(lnkfile, &desc, 0);
/* Create a basic association suitable for most tests */
if (!create_test_association(".shlexec"))
{
skip("Unable to create association for '.shlexec'\n");
return;
}
create_test_verb(".shlexec", "Open", 0, "Open \"%1\"");
create_test_verb(".shlexec", "NoQuotes", 0, "NoQuotes %1");
create_test_verb(".shlexec", "LowerL", 0, "LowerL %l");
create_test_verb(".shlexec", "QuotedLowerL", 0, "QuotedLowerL \"%l\"");
create_test_verb(".shlexec", "UpperL", 0, "UpperL %L");
create_test_verb(".shlexec", "QuotedUpperL", 0, "QuotedUpperL \"%L\"");
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}
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static void cleanup_test(void)
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{
char filename[MAX_PATH];
const char* const * testfile;
/* Delete the test files */
testfile=testfiles;
while (*testfile)
{
sprintf(filename, *testfile, tmpdir);
/* Make sure we can delete the files ('test file.noassoc' is read-only now) */
SetFileAttributes(filename, FILE_ATTRIBUTE_NORMAL);
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DeleteFile(filename);
testfile++;
}
DeleteFile(child_file);
RemoveDirectoryA(tmpdir);
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/* Delete the test association */
delete_test_association(".shlexec");
CloseHandle(hEvent);
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CoUninitialize();
}
static void test_commandline(void)
{
static const WCHAR one[] = {'o','n','e',0};
static const WCHAR two[] = {'t','w','o',0};
static const WCHAR three[] = {'t','h','r','e','e',0};
static const WCHAR four[] = {'f','o','u','r',0};
static const WCHAR fmt1[] = {'%','s',' ','%','s',' ','%','s',' ','%','s',0};
static const WCHAR fmt2[] = {' ','%','s',' ','%','s',' ','%','s',' ','%','s',0};
static const WCHAR fmt3[] = {'%','s','=','%','s',' ','%','s','=','\"','%','s','\"',0};
static const WCHAR fmt4[] = {'\"','%','s','\"',' ','\"','%','s',' ','%','s','\"',' ','%','s',0};
static const WCHAR fmt5[] = {'\\','\"','%','s','\"',' ','%','s','=','\"','%','s','\\','\"',' ','\"','%','s','\\','\"',0};
static const WCHAR fmt6[] = {0};
static const WCHAR chkfmt1[] = {'%','s','=','%','s',0};
static const WCHAR chkfmt2[] = {'%','s',' ','%','s',0};
static const WCHAR chkfmt3[] = {'\\','\"','%','s','\"',0};
static const WCHAR chkfmt4[] = {'%','s','=','%','s','\"',' ','%','s','\"',0};
WCHAR cmdline[255];
LPWSTR *args = (LPWSTR*)0xdeadcafe;
INT numargs = -1;
wsprintfW(cmdline,fmt1,one,two,three,four);
args=CommandLineToArgvW(cmdline,&numargs);
if (args == NULL && numargs == -1)
{
win_skip("CommandLineToArgvW not implemented, skipping\n");
return;
}
ok(numargs == 4, "expected 4 args, got %i\n",numargs);
ok(lstrcmpW(args[0],one)==0,"arg0 is not as expected\n");
ok(lstrcmpW(args[1],two)==0,"arg1 is not as expected\n");
ok(lstrcmpW(args[2],three)==0,"arg2 is not as expected\n");
ok(lstrcmpW(args[3],four)==0,"arg3 is not as expected\n");
wsprintfW(cmdline,fmt2,one,two,three,four);
args=CommandLineToArgvW(cmdline,&numargs);
ok(numargs == 5, "expected 5 args, got %i\n",numargs);
ok(args[0][0]==0,"arg0 is not as expected\n");
ok(lstrcmpW(args[1],one)==0,"arg1 is not as expected\n");
ok(lstrcmpW(args[2],two)==0,"arg2 is not as expected\n");
ok(lstrcmpW(args[3],three)==0,"arg3 is not as expected\n");
ok(lstrcmpW(args[4],four)==0,"arg4 is not as expected\n");
wsprintfW(cmdline,fmt3,one,two,three,four);
args=CommandLineToArgvW(cmdline,&numargs);
ok(numargs == 2, "expected 2 args, got %i\n",numargs);
wsprintfW(cmdline,chkfmt1,one,two);
ok(lstrcmpW(args[0],cmdline)==0,"arg0 is not as expected\n");
wsprintfW(cmdline,chkfmt1,three,four);
ok(lstrcmpW(args[1],cmdline)==0,"arg1 is not as expected\n");
wsprintfW(cmdline,fmt4,one,two,three,four);
args=CommandLineToArgvW(cmdline,&numargs);
ok(numargs == 3, "expected 3 args, got %i\n",numargs);
ok(lstrcmpW(args[0],one)==0,"arg0 is not as expected\n");
wsprintfW(cmdline,chkfmt2,two,three);
ok(lstrcmpW(args[1],cmdline)==0,"arg1 is not as expected\n");
ok(lstrcmpW(args[2],four)==0,"arg2 is not as expected\n");
wsprintfW(cmdline,fmt5,one,two,three,four);
args=CommandLineToArgvW(cmdline,&numargs);
ok(numargs == 2, "expected 2 args, got %i\n",numargs);
wsprintfW(cmdline,chkfmt3,one);
todo_wine ok(lstrcmpW(args[0],cmdline)==0,"arg0 is not as expected\n");
wsprintfW(cmdline,chkfmt4,two,three,four);
todo_wine ok(lstrcmpW(args[1],cmdline)==0,"arg1 is not as expected\n");
wsprintfW(cmdline,fmt6);
args=CommandLineToArgvW(cmdline,&numargs);
ok(numargs == 1, "expected 1 args, got %i\n",numargs);
}
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START_TEST(shlexec)
{
myARGC = winetest_get_mainargs(&myARGV);
if (myARGC >= 3)
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{
doChild(myARGC, myARGV);
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exit(0);
}
init_test();
test_filename();
test_find_executable();
test_lnks();
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test_exes();
test_exes_long();
test_dde();
test_dde_default_app();
test_commandline();
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cleanup_test();
}