Source code of Windows XP (NT5)
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1301 lines
30 KiB

#include "headers.hxx"
#pragma hdrstop
#include <compobj.h>
#include <initguid.h>
//
// Helpful debug macros
//
#define DBG_OUT_HRESULT(hr) printf("error 0x%x at line %u\n", hr, __LINE__)
#define BREAK_ON_FAIL_HRESULT(hr) \
if (FAILED(hr)) \
{ \
DBG_OUT_HRESULT(hr); \
break; \
}
//
// Forward references
//
VOID
DumpDsSelectedItemList(
PDSSELECTIONLIST pDsSelList,
ULONG cRequestedAttributes,
LPCTSTR *aptzRequestedAttributes);
VOID
Usage();
HRESULT
AnsiToUnicode(
LPWSTR pwszTo,
LPCSTR szFrom,
LONG cchTo);
BOOL
ParseFetchSwitch(
char *pzFetchSwitch,
PULONG pcRequestedAttributes,
LPCTSTR **paptzRequestedAttributes);
BOOL
ParseGroupSwitch(
char *pzGroupSwitch,
ULONG *pulFlags);
BOOL
ParseUserSwitch(
char *pzUserSwitch,
ULONG *pulFlags);
BOOL
ParseInitialScope(
char *pzScopeSwitch,
ULONG *pulFlags);
BOOL
ParseScope(
char *pzScopeSwitch,
ULONG *pulFlags,
PWSTR wzComputer,
PWSTR wzDomain);
BOOL
ParseProviders(
char *pzProviderSwitch,
PULONG cAcceptableProviders,
LPCWSTR **paptzAcceptableProviders);
BOOL
ParseRunCount(
char *pzRunCountSwitch,
PULONG pcRunCount);
LPWSTR
VariantString(
VARIANT *pvar);
void
VarArrayToStr(
VARIANT *pvar,
LPWSTR wzBuf,
ULONG cchbuf);
//
// Entry point
//
enum API_TO_CALL
{
NONE,
COMPUTER,
USER_GROUP
};
void _cdecl
main(int argc, char * argv[])
{
HRESULT hr;
BOOL fBadArg = FALSE;
API_TO_CALL api = NONE;
ULONG flObjectPicker = 0;
ULONG flDsObjectPicker = 0;
ULONG flUserGroupObjectPickerSpecifiedDomain = 0;
ULONG flUserGroupObjectPickerOtherDomains = 0;
ULONG *pflUserGroup = &flUserGroupObjectPickerOtherDomains;
ULONG flComputerObjectPicker = 0;
ULONG flInitialScope = 0;
WCHAR wzComputer[MAX_PATH] = L"";
WCHAR wzDomain[MAX_PATH] = L"";
ULONG cAcceptableProviders = 0;
LPCWSTR *aptzAcceptableProviders = NULL;
ULONG cInvocations = 1;
ULONG cRequestedAttributes = 0;
LPCTSTR *aptzRequestedAttributes = NULL;
for (int idxArg = 1; idxArg < argc && !fBadArg; idxArg++)
{
switch (argv[idxArg][1])
{
case 'c':
case 'C':
if (argv[idxArg][2] == ':' &&
tolower(argv[idxArg][3]) == 'a')
{
if (api == USER_GROUP)
{
fBadArg = TRUE;
printf("Can't specify /C:Api with user/group switches\n");
}
api = COMPUTER;
}
else
{
if (api == COMPUTER)
{
fBadArg = TRUE;
printf("Can't specify both /C and /C:Api\n");
}
api = USER_GROUP;
*pflUserGroup |= UGOP_COMPUTERS;
}
break;
case 'd':
case 'D':
if (argv[idxArg][2] != ':')
{
printf("Expected ':' after /D\n");
fBadArg = TRUE;
break;
}
switch (argv[idxArg][3])
{
case 's':
case 'S':
pflUserGroup = &flUserGroupObjectPickerSpecifiedDomain;
break;
case 'o':
case 'O':
case '0': // allow a typo
pflUserGroup = &flUserGroupObjectPickerOtherDomains;
break;
default:
fBadArg = TRUE;
printf("Expected S or O after /D:\n");
break;
}
break;
case 'f':
case 'F':
fBadArg = !ParseFetchSwitch(argv[idxArg], &cRequestedAttributes, &aptzRequestedAttributes);
break;
case 'g':
case 'G':
if (api != NONE && api != USER_GROUP)
{
fBadArg = TRUE;
break;
}
api = USER_GROUP;
fBadArg = !ParseGroupSwitch(argv[idxArg], pflUserGroup);
break;
case 'h':
case 'H':
if (api != NONE && api != USER_GROUP)
{
fBadArg = TRUE;
break;
}
api = USER_GROUP;
*pflUserGroup |= UGOP_INCLUDE_HIDDEN;
break;
case 'i':
case 'I':
fBadArg = !ParseInitialScope(argv[idxArg], &flInitialScope);
break;
case 'm':
case 'M':
flObjectPicker |= OP_MULTISELECT;
break;
case 'n':
case 'N':
flDsObjectPicker |= DSOP_RESTRICT_NAMES_TO_KNOWN_DOMAINS;
break;
case 'p':
case 'P':
fBadArg = !ParseProviders(argv[idxArg],
&cAcceptableProviders,
&aptzAcceptableProviders);
break;
case 'r':
case 'R':
fBadArg = !ParseRunCount(argv[idxArg], &cInvocations);
break;
case 's':
case 'S':
fBadArg = !ParseScope(argv[idxArg],
&flDsObjectPicker,
wzComputer,
wzDomain);
break;
case 'u':
case 'U':
if (api == COMPUTER)
{
fBadArg = TRUE;
break;
}
api = USER_GROUP;
fBadArg = !ParseUserSwitch(argv[idxArg], pflUserGroup);
break;
case 'x':
case 'X':
flDsObjectPicker |= DSOP_CONVERT_EXTERNAL_PATHS_TO_SID;
break;
default:
fBadArg = TRUE;
break;
}
}
if (fBadArg || api == NONE)
{
Usage();
return;
}
hr = CoInitialize(NULL);
if (FAILED(hr))
{
printf("CoInitializeEx - 0x%x\n", hr);
return;
}
//
// Call the API
//
PDSSELECTIONLIST pDsSelList = NULL;
if (api == USER_GROUP)
{
GETUSERGROUPSELECTIONINFO ugsi;
ZeroMemory(&ugsi, sizeof ugsi);
ugsi.cbSize = sizeof(ugsi);
ugsi.ptzComputerName = *wzComputer ? wzComputer : NULL;
ugsi.ptzDomainName = *wzDomain ? wzDomain : NULL;
ugsi.flObjectPicker = flObjectPicker;
ugsi.flDsObjectPicker = flDsObjectPicker;
ugsi.flStartingScope = flInitialScope;
ugsi.flUserGroupObjectPickerSpecifiedDomain =
flUserGroupObjectPickerSpecifiedDomain;
ugsi.flUserGroupObjectPickerOtherDomains =
flUserGroupObjectPickerOtherDomains;
ugsi.ppDsSelList = &pDsSelList;
ugsi.cAcceptableProviders = cAcceptableProviders;
ugsi.aptzAcceptableProviders = aptzAcceptableProviders;
ugsi.cRequestedAttributes = cRequestedAttributes;
ugsi.aptzRequestedAttributes = aptzRequestedAttributes;
for (ULONG i = 0; i < cInvocations; i++)
{
hr = GetUserGroupSelection(&ugsi);
if (hr == S_FALSE)
{
printf("Invocation %u: User/Group picker dialog cancelled\n", i);
}
else if (SUCCEEDED(hr))
{
DumpDsSelectedItemList(pDsSelList,
cRequestedAttributes,
aptzRequestedAttributes);
}
else
{
printf("Invocation %u: User/Group picker dialog failed 0x%x\n", i, hr);
}
FreeDsSelectionList(pDsSelList);
pDsSelList = NULL;
}
}
else if (api == COMPUTER)
{
GETCOMPUTERSELECTIONINFO csi;
ZeroMemory(&csi, sizeof csi);
csi.cbSize = sizeof(csi);
csi.ptzComputerName = *wzComputer ? wzComputer : NULL;
csi.ptzDomainName = *wzDomain ? wzDomain : NULL;
csi.flObjectPicker = flObjectPicker;
csi.flDsObjectPicker = flDsObjectPicker;
csi.flStartingScope = flInitialScope;
csi.flComputerObjectPicker = flComputerObjectPicker;
csi.ppDsSelList = &pDsSelList;
csi.cAcceptableProviders = cAcceptableProviders;
csi.aptzAcceptableProviders = aptzAcceptableProviders;
csi.cRequestedAttributes = cRequestedAttributes;
csi.aptzRequestedAttributes = aptzRequestedAttributes;
for (ULONG i = 0; i < cInvocations; i++)
{
hr = GetComputerSelection(&csi);
if (hr == S_FALSE)
{
printf("Invocation %u: Computer picker dialog cancelled\n", i);
}
else if (SUCCEEDED(hr))
{
DumpDsSelectedItemList(pDsSelList,
cRequestedAttributes,
aptzRequestedAttributes);
}
else
{
printf("Invocation %u: Computer picker dialog failed 0x%x\n", i, hr);
}
FreeDsSelectionList(pDsSelList);
pDsSelList = NULL;
}
}
else
{
printf("unexpected api setting\n");
}
CoUninitialize();
}
LPWSTR apwzAttr[100];
BOOL
ParseFetchSwitch(
char *pzFetchSwitch,
PULONG pcRequestedAttributes,
LPCTSTR **paptzRequestedAttributes)
{
BOOL fOk = TRUE;
pzFetchSwitch += 2; // advance past '/' (or '-') and 'G'
if (*pzFetchSwitch != ':')
{
printf("expected : after /Fetch\n");
return FALSE;
}
*pcRequestedAttributes = 0;
*paptzRequestedAttributes = NULL;
ULONG cRequestedAttributes = 0;
for (pzFetchSwitch++; *pzFetchSwitch && fOk; pzFetchSwitch++)
{
if (*pzFetchSwitch == ',')
{
continue;
}
PSTR pzComma = strchr(pzFetchSwitch, ',');
if (pzComma)
{
*pzComma = '\0';
}
ULONG cchFetchSwitch = strlen(pzFetchSwitch) + 1;
// BUGBUG this is leaked. (who cares?)
apwzAttr[cRequestedAttributes] = new WCHAR[cchFetchSwitch];
if (!apwzAttr[cRequestedAttributes])
{
printf("out of memory\n");
return FALSE;
}
AnsiToUnicode(apwzAttr[cRequestedAttributes],
pzFetchSwitch,
cchFetchSwitch);
cRequestedAttributes++;
if (pzComma)
{
*pzComma = ',';
pzFetchSwitch = pzComma;
}
else
{
pzFetchSwitch += strlen(pzFetchSwitch) - 1;
}
}
if (cRequestedAttributes && fOk)
{
*pcRequestedAttributes = cRequestedAttributes;
*paptzRequestedAttributes = (LPCTSTR *)apwzAttr;
}
return fOk;
}
BOOL
ParseGroupSwitch(
char *pzGroupSwitch,
ULONG *pulFlags)
{
BOOL fOk = TRUE;
pzGroupSwitch += 2; // advance past '/' (or '-') and 'G'
if (*pzGroupSwitch != ':')
{
printf("expected : after /Groups\n");
return FALSE;
}
for (pzGroupSwitch++; *pzGroupSwitch && fOk; pzGroupSwitch++)
{
if (*pzGroupSwitch == ',')
{
continue;
}
PSTR pzComma = strchr(pzGroupSwitch, ',');
if (pzComma)
{
*pzComma = '\0';
}
BOOL fMatch = FALSE;
if (!lstrcmpiA(pzGroupSwitch, "all"))
{
fMatch = TRUE;
*pulFlags |= UGOP_ALL_GROUPS;
}
if (pzComma)
{
*pzComma = ',';
}
if (fMatch)
{
if (pzComma)
{
pzGroupSwitch = pzComma;
}
else
{
pzGroupSwitch += strlen(pzGroupSwitch) - 1;
}
continue;
}
switch (tolower(*pzGroupSwitch))
{
case 'u':
if (tolower(pzGroupSwitch[1]) == 's')
{
*pulFlags |= UGOP_UNIVERSAL_GROUPS_SE;
pzGroupSwitch++;
}
else
{
*pulFlags |= UGOP_UNIVERSAL_GROUPS;
}
break;
case 'a':
if (tolower(pzGroupSwitch[1]) == 's')
{
*pulFlags |= UGOP_ACCOUNT_GROUPS_SE;
pzGroupSwitch++;
}
else
{
*pulFlags |= UGOP_ACCOUNT_GROUPS;
}
break;
case 'r':
if (tolower(pzGroupSwitch[1]) == 's')
{
*pulFlags |= UGOP_RESOURCE_GROUPS_SE;
pzGroupSwitch++;
}
else
{
*pulFlags |= UGOP_RESOURCE_GROUPS;
}
break;
case 'l':
*pulFlags |= UGOP_LOCAL_GROUPS;
break;
case 'g':
*pulFlags |= UGOP_GLOBAL_GROUPS;
break;
case 'b':
*pulFlags |= UGOP_BUILTIN_GROUPS;
break;
case 'w':
*pulFlags |= UGOP_WELL_KNOWN_PRINCIPALS_USERS;
break;
default:
fOk = FALSE;
printf("unexpected character '%c' in group type switch\n",
*pzGroupSwitch);
break;
}
}
printf("flags = 0x%x\n", *pulFlags);
return fOk;
}
BOOL
ParseUserSwitch(
char *pzUserSwitch,
ULONG *pulFlags)
{
BOOL fOk = TRUE;
pzUserSwitch += 2; // advance past '/' (or '-') and 'U'
if (*pzUserSwitch != ':')
{
printf("expected : after /Users\n");
return FALSE;
}
for (pzUserSwitch++; *pzUserSwitch && fOk; pzUserSwitch++)
{
if (*pzUserSwitch == ',')
{
continue;
}
PSTR pzComma = strchr(pzUserSwitch, ',');
if (pzComma)
{
*pzComma = '\0';
}
BOOL fMatch = FALSE;
if (!lstrcmpiA(pzUserSwitch, "all"))
{
fMatch = TRUE;
*pulFlags |= UGOP_ALL_USERS;
}
else if (!lstrcmpiA(pzUserSwitch, "world"))
{
fMatch = TRUE;
*pulFlags |= UGOP_USER_WORLD;
}
else if (!lstrcmpiA(pzUserSwitch, "authenticated"))
{
fMatch = TRUE;
*pulFlags |= UGOP_USER_AUTHENTICATED_USER;
}
else if (!lstrcmpiA(pzUserSwitch, "anonymous"))
{
fMatch = TRUE;
*pulFlags |= UGOP_USER_ANONYMOUS;
}
else if (!lstrcmpiA(pzUserSwitch, "dialup"))
{
fMatch = TRUE;
*pulFlags |= UGOP_USER_DIALUP;
}
else if (!lstrcmpiA(pzUserSwitch, "network"))
{
fMatch = TRUE;
*pulFlags |= UGOP_USER_NETWORK;
}
else if (!lstrcmpiA(pzUserSwitch, "Batch"))
{
fMatch = TRUE;
*pulFlags |= UGOP_USER_BATCH;
}
else if (!lstrcmpiA(pzUserSwitch, "Interactive"))
{
fMatch = TRUE;
*pulFlags |= UGOP_USER_INTERACTIVE;
}
else if (!lstrcmpiA(pzUserSwitch, "Service"))
{
fMatch = TRUE;
*pulFlags |= UGOP_USER_SERVICE;
}
else if (!lstrcmpiA(pzUserSwitch, "System"))
{
fMatch = TRUE;
*pulFlags |= UGOP_USER_SYSTEM;
}
if (pzComma)
{
*pzComma = ',';
}
if (fMatch)
{
if (pzComma)
{
pzUserSwitch = pzComma;
}
else
{
pzUserSwitch += strlen(pzUserSwitch) - 1;
}
continue;
}
switch (tolower(*pzUserSwitch))
{
case 'u':
*pulFlags |= UGOP_USERS;
break;
case 'c':
*pulFlags |= UGOP_CONTACTS;
break;
default:
fOk = FALSE;
printf("unexpected character '%c' in user type switch\n",
*pzUserSwitch);
break;
}
if (pzComma)
{
pzUserSwitch = pzComma;
}
}
return fOk;
}
BOOL
ParseInitialScope(
char *pzScopeSwitch,
ULONG *pulFlags)
{
PSTR pzCur = strchr(pzScopeSwitch, ':');
if (!pzCur)
{
printf("expected : after /InitialScope switch\n");
return FALSE;
}
// advance past colon
pzCur++;
switch (tolower(*pzCur))
{
case 'c':
*pulFlags |= DSOP_SCOPE_SPECIFIED_MACHINE;
break;
case 'd':
*pulFlags |= DSOP_SCOPE_SPECIFIED_DOMAIN;
break;
case 'g':
*pulFlags |= DSOP_SCOPE_DIRECTORY;
break;
case 't':
*pulFlags |= DSOP_SCOPE_DOMAIN_TREE;
break;
case 'x':
*pulFlags |= DSOP_SCOPE_EXTERNAL_TRUSTED_DOMAINS;
break;
default:
printf("invalid /InitialScope switch\n");
return FALSE;
}
return TRUE;
}
BOOL
ParseProviders(
char *pzProviderSwitch,
PULONG pcAcceptableProviders,
LPCWSTR **paptzAcceptableProviders)
{
BOOL fOk = TRUE;
PSTR pzCur = strchr(pzProviderSwitch, ':');
static LPCWSTR apwzProviders[3];
*paptzAcceptableProviders = apwzProviders;
if (!pzCur)
{
printf("expected : after /Providers switch\n");
return FALSE;
}
ZeroMemory(apwzProviders, sizeof apwzProviders);
// advance past colon
pzCur++;
while (*pzCur)
{
switch (tolower(*pzCur))
{
case 'w':
apwzProviders[(*pcAcceptableProviders)++] = L"WinNT";
break;
case 'l':
apwzProviders[(*pcAcceptableProviders)++] = L"LDAP";
break;
case 'g':
apwzProviders[(*pcAcceptableProviders)++] = L"GC";
break;
default:
printf("invalid provider switch\n");
return FALSE;
}
for (; *pzCur && *pzCur != ','; pzCur++)
{
}
if (*pzCur == ',')
{
pzCur++;
}
// ignore extras
if (*pcAcceptableProviders == 3)
{
break;
}
}
return fOk;
}
BOOL
ParseRunCount(
char *pzRunCountSwitch,
PULONG pcRunCount)
{
PSTR pzCur = strchr(pzRunCountSwitch, ':');
if (!pzCur)
{
printf("expected : after /Runcount switch\n");
return FALSE;
}
*pcRunCount = (ULONG) atol(pzCur + 1);
if (!*pcRunCount || *pcRunCount > 10)
{
printf("Invalid run count %u\n", *pcRunCount);
}
return TRUE;
}
BOOL
ParseScope(
char *pzScopeSwitch,
ULONG *pulFlags,
PWSTR wzComputer,
PWSTR wzDomain)
{
PSTR pzCur = strchr(pzScopeSwitch, ':');
if (!pzCur)
{
printf("expected : after /Scope switch\n");
return FALSE;
}
// advance past colon
pzCur++;
while (*pzCur)
{
switch (tolower(*pzCur))
{
case 'c':
{
*pulFlags |= DSOP_SCOPE_SPECIFIED_MACHINE;
// find '='
for (PSTR pzEqual = pzCur;
*pzEqual && *pzEqual != ',' && *pzEqual != '=';
pzEqual++)
{
}
if (*pzEqual == '=')
{
CHAR szTemp[MAX_PATH];
strcpy(szTemp, pzEqual + 1);
LPSTR pzComma = strchr(szTemp, ',');
if (pzComma)
{
*pzComma = '\0';
}
AnsiToUnicode(wzComputer, szTemp, MAX_PATH);
pzCur = pzEqual + 1;
}
break;
}
case 'd':
{
*pulFlags |= DSOP_SCOPE_SPECIFIED_DOMAIN;
for (PSTR pzEqual = pzCur;
*pzEqual && *pzEqual != ',' && *pzEqual != '=';
pzEqual++)
{
}
if (*pzEqual == '=')
{
CHAR szTemp[MAX_PATH];
LPSTR pzOpenQuote = strchr(pzEqual, '\'');
if (!pzOpenQuote)
{
printf("Expected single quote after = in domain spec\n");
return FALSE;
}
LPSTR pzCloseQuote = strchr(pzOpenQuote + 1, '\'');
if (!pzCloseQuote)
{
printf("Expected closing single quote after = in domain spec\n");
return FALSE;
}
CopyMemory(szTemp, pzOpenQuote + 1, pzCloseQuote - pzOpenQuote - 1);
szTemp[pzCloseQuote - pzOpenQuote - 1] = '\0';
AnsiToUnicode(wzDomain, szTemp, MAX_PATH);
pzCur = pzCloseQuote + 1;
}
break;
}
case 'g':
*pulFlags |= DSOP_SCOPE_DIRECTORY;
break;
case 't':
*pulFlags |= DSOP_SCOPE_DOMAIN_TREE;
break;
case 'x':
*pulFlags |= DSOP_SCOPE_EXTERNAL_TRUSTED_DOMAINS;
break;
default:
printf("invalid scope switch\n");
return FALSE;
}
for (; *pzCur && *pzCur != ','; pzCur++)
{
}
if (*pzCur == ',')
{
pzCur++;
}
}
return TRUE;
}
//+--------------------------------------------------------------------------
//
// Function: DumpDsSelectedItemList
//
// Synopsis: Dump the contents of the list of DS items the user selected
// to the console.
//
// Arguments: [pDsSelList] - list of Ds items
//
// History: 11-04-1997 DavidMun Created
//
//---------------------------------------------------------------------------
VOID
DumpDsSelectedItemList(
PDSSELECTIONLIST pDsSelList,
ULONG cRequestedAttributes,
LPCTSTR *aptzRequestedAttributes)
{
if (!pDsSelList)
{
printf("List is empty\n");
return;
}
ULONG i;
PDSSELECTION pCur = &pDsSelList->aDsSelection[0];
for (i = 0; i < pDsSelList->cItems; i++, pCur++)
{
printf("Name: %ws\n", pCur->pwzName);
printf("Class: %ws\n", pCur->pwzClass);
printf("Path: %ws\n", pCur->pwzADsPath);
printf("UPN: %ws\n", pCur->pwzUPN);
for (ULONG j = 0; j < cRequestedAttributes; j++)
{
printf("Attr %02u: %ws = %ws\n",
j,
aptzRequestedAttributes[j],
VariantString(&pCur->pvarOtherAttributes[j]));
}
printf("\n");
}
}
LPWSTR
VariantString(
VARIANT *pvar)
{
static WCHAR wzBuf[1024];
wzBuf[0] = L'\0';
switch (pvar->vt)
{
case VT_EMPTY:
lstrcpy(wzBuf, L"VT_EMPTY");
break;
case VT_NULL:
lstrcpy(wzBuf, L"VT_NULL");
break;
case VT_I2:
wsprintf(wzBuf, L"%d", V_I2(pvar));
break;
case VT_I4:
wsprintf(wzBuf, L"%d", V_I4(pvar));
break;
case VT_R4:
wsprintf(wzBuf, L"%f", V_R4(pvar));
break;
case VT_R8:
wsprintf(wzBuf, L"%f", V_R8(pvar));
break;
case VT_CY:
wsprintf(wzBuf, L"$%f", V_CY(pvar));
break;
case VT_DATE:
wsprintf(wzBuf, L"date %f", V_DATE(pvar));
break;
case VT_BSTR:
if (V_BSTR(pvar))
{
wsprintf(wzBuf, L"'%ws'", V_BSTR(pvar));
}
else
{
lstrcpy(wzBuf, L"VT_BSTR NULL");
}
break;
case VT_DISPATCH:
wsprintf(wzBuf, L"VT_DISPATCH 0x%x", V_DISPATCH(pvar));
break;
case VT_UNKNOWN:
wsprintf(wzBuf, L"VT_UNKNOWN 0x%x", V_UNKNOWN(pvar));
break;
case VT_ERROR:
case VT_HRESULT:
wsprintf(wzBuf, L"hr 0x%x", V_ERROR(pvar));
break;
case VT_BOOL:
wsprintf(wzBuf, L"%s", V_BOOL(pvar) ? "TRUE" : "FALSE");
break;
case VT_VARIANT:
wsprintf(wzBuf, L"variant 0x%x", V_VARIANTREF(pvar));
break;
case VT_DECIMAL:
lstrcpy(wzBuf, L"VT_DECIMAL");
break;
case VT_I1:
wsprintf(wzBuf, L"%d", V_I1(pvar));
break;
case VT_UI1:
wsprintf(wzBuf, L"%u", V_UI1(pvar));
break;
case VT_UI2:
wsprintf(wzBuf, L"%u", V_UI2(pvar));
break;
case VT_UI4:
wsprintf(wzBuf, L"%u", V_UI4(pvar));
break;
case VT_I8:
lstrcpy(wzBuf, L"VT_I8");
break;
case VT_UI8:
lstrcpy(wzBuf, L"VT_UI8");
break;
case VT_INT:
wsprintf(wzBuf, L"%d", V_INT(pvar));
break;
case VT_UINT:
wsprintf(wzBuf, L"%u", V_UINT(pvar));
break;
case VT_VOID:
lstrcpy(wzBuf, L"VT_VOID");
break;
case VT_UI1 | VT_ARRAY:
VarArrayToStr(pvar, wzBuf, ARRAYLEN(wzBuf));
break;
case VT_PTR:
case VT_SAFEARRAY:
case VT_CARRAY:
case VT_USERDEFINED:
case VT_LPSTR:
case VT_LPWSTR:
case VT_RECORD:
case VT_FILETIME:
case VT_BLOB:
case VT_STREAM:
case VT_STORAGE:
case VT_STREAMED_OBJECT:
case VT_STORED_OBJECT:
case VT_BLOB_OBJECT:
case VT_CF:
case VT_CLSID:
case VT_BSTR_BLOB:
default:
wsprintf(wzBuf, L"VT 0x%x", V_VT(pvar));
break;
}
return wzBuf;
}
void
VarArrayToStr(
VARIANT *pvar,
LPWSTR wzBuf,
ULONG cchBuf)
{
ULONG i;
LPWSTR pwzNext = wzBuf;
LPWSTR pwzEnd = wzBuf + cchBuf;
for (i = 0; i < pvar->parray->rgsabound[0].cElements && pwzNext < pwzEnd + 6; i++)
{
wsprintf(pwzNext, L"x%02x ", ((LPBYTE)(pvar->parray->pvData))[i]);
pwzNext += lstrlen(pwzNext);
}
}
VOID
Usage()
{
printf("\n");
printf("Usage: opt <switches>\n");
printf("\n");
printf("Switches are:\n");
printf(" /Computers[:Api]\n");
printf(" If API is specified, GetComputerSelection is called, otherwise\n");
printf(" this means include computer objects in the query\n");
printf(" /Domain:{S|O}\n");
printf(" If S is specified, then any following /Users, /Groups, or\n");
printf(" /Computers switches apply only to the specified domain scope.\n");
printf(" Otherwise, those switches apply to all other scopes\n");
printf(" /Fetch:<attr>[,<attr>]...\n");
printf(" <attr> is the name of an attribute to retrieve\n");
printf(" /Groups:<group-type>[,<group-type>]...\n");
printf(" <group-type> is one of:\n");
printf(" ALL - same as specifiying each of the following\n");
printf(" U - Universal\n");
printf(" A - Account\n");
printf(" R - Resource\n");
printf(" US - Universal Security Enabled\n");
printf(" AS - Account Security Enabled\n");
printf(" RS - Resource Security Enabled\n");
printf(" L - Local\n");
printf(" G - Global\n");
printf(" B - Builtin\n");
printf(" W - Well-Known Security Principals\n");
printf(" /Hidden\n");
printf(" Include objects hidden from address book.\n");
printf(" /Initialscope:{Computer|Domain|Gc|Tree|Xternal}\n");
printf(" /Multiselect\n");
printf(" /Namerestrict - reject names in unknown domains\n");
printf(" /Providers:<provider>[,<provider>]\n");
printf(" <provider> is one of:\n");
printf(" WINNT\n");
printf(" LDAP\n");
printf(" GC\n");
printf(" /Runcount:<n>\n");
printf(" <n> is number of times to invoke object picker\n");
printf(" /Scopes:<scope-spec>[,<scope-spec>]...\n");
printf(" <scope-spec> is one of:\n");
printf(" Computer[=name]\n");
printf(" Domain[='<domain-spec>']\n");
printf(" Gc\n");
printf(" Tree\n");
printf(" Xternal\n");
printf(" <domain-spec> is one of:\n");
printf(" <path> - the ADs path of a DS namespace\n");
printf(" <name> - the flat name of a downlevel domain\n");
printf(" /Users:<user-type>[,<user-type>]...\n");
printf(" <user-type> is one of:\n");
printf(" ALL - same as specifying each of the following\n");
printf(" U - User\n");
printf(" C - Contact\n");
printf(" WORLD\n");
printf(" AUTHENTICATED\n");
printf(" ANONYMOUS\n");
printf(" DIALUP\n");
printf(" NETWORK\n");
printf(" BATCH\n");
printf(" INTERACTIVE\n");
printf(" SERVICE\n");
printf(" SYSTEM\n");
printf(" /Xternal - force conversion of external paths to SIDs\n");
printf("\n");
printf("You must specify the Scope switch and at least one of the Computers,\n");
printf("Groups, or Users switches.\n");
printf("The significant characters in the switches are shown in upper case.\n");
}
//+---------------------------------------------------------------------------
//
// Function: AnsiToUnicode
//
// Synopsis: Convert ANSI string [szFrom] to Unicode string in buffer
// [pwszTo].
//
// Arguments: [pwszTo] - destination buffer
// [szFrom] - source string
// [cchTo] - size of destination buffer, in WCHARS
//
// Returns: S_OK - conversion succeeded
// HRESULT_FROM_WIN32 - MultiByteToWideChar failed
//
// Modifies: *[pwszTo]
//
// History: 10-29-96 DavidMun Created
//
// Notes: The string in [pwszTo] will be NULL terminated even on
// failure.
//
//----------------------------------------------------------------------------
HRESULT
AnsiToUnicode(
LPWSTR pwszTo,
LPCSTR szFrom,
LONG cchTo)
{
HRESULT hr = S_OK;
ULONG cchWritten;
cchWritten = MultiByteToWideChar(CP_ACP, 0, szFrom, -1, pwszTo, cchTo);
if (!cchWritten)
{
pwszTo[cchTo - 1] = L'\0'; // ensure NULL termination
hr = HRESULT_FROM_WIN32(GetLastError());
printf("AnsiToUnicode: MultiByteToWideChar hr=0x%x\n", hr);
}
return hr;
}