Leaked source code of windows server 2003
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//+-------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1996.
//
// File: tldap.cxx
//
// Contents: Command line test utility for LDAP link tracking db
//
// Classes:
//
// Functions:
//
//
//
// History: 18-Nov-96 BillMo Created.
//
// Notes:
//
// Codework:
//
//--------------------------------------------------------------------------
#include <pch.cxx>
#pragma hdrstop
#include "teststub.cxx"
#define TRKDATA_ALLOCATE
#include <trksvr.hxx>
#undef TRKDATA_ALLOCATE
#if DBG
class CTestSvrSvc
{
public:
void Initialize()
{
_svc.Initialize(STANDALONE_DEBUGGABLE_PROCESS);
}
void UnInitialize(HRESULT hr)
{
_svc.UnInitialize(hr);
}
void DoSwitch(TCHAR ** &tszArgs, int & cArgs, BOOL & fError);
private:
void DoAdd(TCHAR * pszKey, TCHAR * ptszNew, TCHAR * ptszBirth);
void DoDelete(TCHAR * ptszKey);
void DoModify(TCHAR * ptszKey, TCHAR * ptszNew, TCHAR * ptszBirth);
void DoQuery(TCHAR * ptszKey);
void DoTouch(TCHAR * ptszKey);
void DoFill(TCHAR * ptszNum);
void DoPurge();
void DoCachePurge();
void DoVolumeTable();
void DoShorten();
void DoRunTests();
void DoIdt();
void TryCreateVolume(const CMachineId & mcid,
const CVolumeSecret & secret,
CVolumeId * pVolumeId);
inline CIntraDomainTable & idt()
{
return(_svc._idt);
}
inline CVolumeTable & voltab()
{
return(_svc._voltab);
}
private:
CTrkSvrSvc _svc;
};
void
CTestSvrSvc::TryCreateVolume(const CMachineId & mcid,
const CVolumeSecret & secret,
CVolumeId * pVolumeId)
{
__try
{
voltab().CreateVolume(mcid, secret, pVolumeId);
}
__except(BreakOnDebuggableException())
{
printf("Exception %08X caught\n", GetExceptionCode());
}
}
void
CTestSvrSvc::DoAdd(TCHAR * ptszKey, TCHAR * ptszNew, TCHAR * ptszBirth)
{
__try
{
BOOL f = idt().Add(CDomainRelativeObjId(ptszKey), CDomainRelativeObjId(ptszNew), CDomainRelativeObjId(ptszBirth));
printf("Add returns %s\n", f ? "TRUE" : "FALSE");
}
__except (BreakOnDebuggableException())
{
printf("Exception %08X caught\n", GetExceptionCode());
}
}
void
CTestSvrSvc::DoDelete(TCHAR * ptszKey)
{
__try
{
BOOL f = idt().Delete(CDomainRelativeObjId(ptszKey));
printf("Delete returns %s\n", f ? "TRUE" : "FALSE");
}
__except (BreakOnDebuggableException())
{
printf("Exception %08X caught\n", GetExceptionCode());
}
}
void
CTestSvrSvc::DoModify(TCHAR * ptszKey, TCHAR * ptszNew, TCHAR * ptszBirth)
{
__try
{
BOOL f = idt().Modify(CDomainRelativeObjId(ptszKey), CDomainRelativeObjId(ptszNew), CDomainRelativeObjId(ptszBirth));
printf("Modify returns %s\n", f ? "TRUE" : "FALSE");
}
__except (BreakOnDebuggableException())
{
printf("Exception %08X caught\n", GetExceptionCode());
}
}
void
CTestSvrSvc::DoQuery(TCHAR * ptszKey)
{
__try
{
CDomainRelativeObjId ldNew;
CDomainRelativeObjId ldBirth;
BOOL f = idt().Query(CDomainRelativeObjId(ptszKey), &ldNew, &ldBirth);
printf("Query returns %s\n", f ? "TRUE" : "FALSE");
if (f)
{
ldNew.DebugPrint(TEXT("ldNew="));
ldBirth.DebugPrint(TEXT("ldBirth="));
}
}
__except (BreakOnDebuggableException())
{
printf("Exception %08X caught\n", GetExceptionCode());
}
}
void
CTestSvrSvc::DoTouch(TCHAR * ptszKey)
{
__try
{
BOOL f = idt().Touch(CDomainRelativeObjId(ptszKey));
printf("Touch returns %s\n", f ? "TRUE" : "FALSE");
}
__except (BreakOnDebuggableException())
{
printf("Exception %08X caught\n", GetExceptionCode());
}
}
class CName
{
public:
CName(int i)
{
_tsz[0] = i/(26*26) + TEXT('a');
_tsz[1] = (i%(26*26))/26 + TEXT('a');
_tsz[2] = i%26 + TEXT('a');
_tsz[3] = 0;
}
operator TCHAR * ()
{
return(_tsz);
}
private:
TCHAR _tsz[10];
};
void
CTestSvrSvc::DoFill(TCHAR * ptszNum)
{
int cEntries;
_stscanf(ptszNum, TEXT("%d"), &cEntries);
__try
{
for (int i=0; i<cEntries; i++)
{
CDomainRelativeObjId ldNew, ldBirth;
idt().Add(CDomainRelativeObjId(CName(i)), ldNew, ldBirth);
}
}
__except (BreakOnDebuggableException())
{
printf("Exception %08X caught\n", GetExceptionCode());
}
}
void
CTestSvrSvc::DoPurge()
{
int cEntries;
__try
{
idt().PurgeAll();
voltab().PurgeAll();
}
__except (BreakOnDebuggableException())
{
printf("Exception %08X caught\n", GetExceptionCode());
}
}
void
CTestSvrSvc::DoCachePurge()
{
const int size = 64000000;
LPDWORD p, pOrig;
p = pOrig = (LPDWORD)GlobalAlloc(GMEM_FIXED, size);
if (p)
{
for (int i=0; i<size/sizeof(*p); i++)
{
*p++ = 0;
}
GlobalFree((HGLOBAL)pOrig);
}
else
printf("couldn't alloc 64M");
}
#define Check(exp) TrkAssert(exp)
void
CTestSvrSvc::DoVolumeTable()
{
// test out volume table functionality
HRESULT hr;
CMachineId mcid1("mcid1");
CMachineId mcid2("mcid2");
CMachineId mcid3("mcid3");
CMachineId mcid4("mcid4");
CVolumeSecret secret1;
CVolumeSecret secret2;
CVolumeSecret secret3;
CVolumeSecret secret4;
CVolumeId volume1;
CVolumeId volume2;
CVolumeId volume3;
CVolumeId volume4;
SequenceNumber seq;
FILETIME ft;
DoPurge();
UuidCreate((GUID*)&volume1);
UuidCreate((GUID*)&volume2);
UuidCreate((GUID*)&volume3);
UuidCreate((GUID*)&volume4);
UuidCreate((GUID*)&secret1);
UuidCreate((GUID*)&secret2);
UuidCreate((GUID*)&secret3);
UuidCreate((GUID*)&secret4);
// Check Queries
CFILETIME cftStart;
// check non-existent volume
hr = voltab().QueryVolume(mcid1, volume1, &seq, &ft);
Check(hr == TRK_S_VOLUME_NOT_FOUND);
// exception when setting seq number on non-existent volume
hr = voltab().SetSequenceNumber(volume1, seq);
Check(hr != S_OK);
hr = voltab().QueryVolume(mcid1, volume1, &seq, &ft);
Check(hr == TRK_S_VOLUME_NOT_FOUND);
// exception when setting seq number on non-existent volume
hr = voltab().SetSequenceNumber(volume1, seq);
Check(hr != S_OK);
// create a volume
TryCreateVolume(mcid1, secret1, & volume1);
// check we can query it if it is us
hr = voltab().QueryVolume(mcid1, volume1, &seq, &ft);
Check(hr == S_OK);
// check we can't query it if it isn't us
hr = voltab().QueryVolume(mcid2, volume1, &seq, &ft);
Check(hr == TRK_S_VOLUME_NOT_OWNED);
// Check Claims
// claim a non-existent volume
hr = voltab().ClaimVolume(mcid1, volume2, secret1, secret1, &seq, &ft);
Check(hr == TRK_S_VOLUME_NOT_FOUND);
// claim an existent volume using the wrong secret
hr = voltab().ClaimVolume(mcid2, volume1, secret2, secret2, &seq, &ft);
Check(hr == TRK_E_VOLUME_ACCESS_DENIED);
// claim an existent volume using the right secret
hr = voltab().ClaimVolume(mcid2, volume1, secret1, secret1, &seq, &ft);
Check(hr == S_OK);
// check the query fails from the original machine
hr = voltab().QueryVolume(mcid1, volume1, &seq, &ft);
Check(hr == TRK_S_VOLUME_NOT_OWNED);
// check the query succeeds from the new machine
hr = voltab().QueryVolume(mcid2, volume1, &seq, &ft);
Check(hr == S_OK);
// Check sequence numbers
SequenceNumber seq2 = seq;
seq ++;
hr = voltab().SetSequenceNumber(volume1, seq);
Check(hr == S_OK);
SequenceNumber seq3;
hr = voltab().QueryVolume(mcid2, volume1, &seq3, &ft);
Check(hr == S_OK);
Check(seq3 == seq);
Check(seq2 + 1 == seq);
}
class CSegString
{
public:
CSegString(int length);
~CSegString();
private:
};
class CSegment
{
public:
CSegment() { _fInitialized = FALSE; }
~CSegment();
const CDomainRelativeObjId Current();
const CDomainRelativeObjId New();
const CDomainRelativeObjId Birth();
private:
BOOL _fInitialized;
};
class COrder
{
public:
COrder(int iLength, int iCurrent) : _iLength(iLength) { }
~COrder();
BOOL GetSegment(CSegment * pSegment);
private:
int _iLength;
};
class COrderEnum
{
public:
COrderEnum(int length);
~COrderEnum();
BOOL GetOrder(COrder * pOrder);
private:
int _iCurrent;
int _iEnd;
int _iLength;
};
COrderEnum::COrderEnum(int iLength)
{
_iLength = iLength;
_iCurrent = 1;
_iEnd = 1;
while (iLength)
{
_iEnd *= iLength;
iLength --;
}
}
BOOL
COrderEnum::GetOrder(COrder * pOrder)
{
if (_iCurrent > _iEnd)
{
return(FALSE);
}
return(TRUE);
}
void
CTestSvrSvc::DoIdt()
{
int cChanges=0;
CDomainRelativeObjId droidCurrent, droidBirth, droidNew;
memcpy( &droidCurrent, "12345678", 8 );
droidBirth = droidCurrent;
memcpy( &droidNew, "87654321", 8 );
_svc.MoveNotify(droidCurrent, droidBirth, droidNew, &cChanges);
CDomainRelativeObjId droidNewRead, droidBirthRead;
idt().Query(droidBirth, &droidNewRead, &droidBirthRead);
Check( droidNewRead == droidNew );
#if 0
// Each letter represents a (volume,oid) pair
//
// Various string lengths:
//
// Length 1:
// a->b a (1 order A)
//
//
// Length 2:
// a->b a, b->c a (2 orders AB, BA)
//
//
// Length 3:
// a->b a, b->c a, c->d a (6 orders ABC, ACB, BAC, BCA, CAB, CBA)
//
//
// Each combination could have a non-matching birth id which should prevent shortening and search
// Each segment can be created either through replication (directly to idt) or
// through MoveNotify.
// Each segment can be shortened through MoveNotify or Search
//
// three lengths
for (int l=1; l<=3; l++)
{
COrderEnum oe(l);
COrder o;
while (oe.GetOrder(&o))
{
CSegString ss(l); // make segment string of length l
BOOL fFirst = TRUE;
CSegment seg, segFirst, segLast;
int index;
while (-1 != (index = o.GetIndex()))
{
seg = ss[index];
if (fFirst)
{
segFirst = seg;
fFirst = FALSE;
}
TRKSVR_MOVE_NOTIFICATION Notification;
Notification.ldCurrent = seg.Current();
Notification.ldNew = seg.New();
Notification.ldBirth = seg.Birth();
_svc.MoveNotify(Notification);
segLast = seg;
}
CDomainRelativeObjId ldNew, ldBirth;
idt().Query(segFirst.Birth(), &ldNew, &ldBirth);
Check(ldNew == segLast.Current());
}
}
#endif // #if 0
}
void
CTestSvrSvc::DoRunTests()
{
DoVolumeTable();
DoIdt();
}
void
CTestSvrSvc::DoSwitch(TCHAR ** &tszArgs, int & cArgs, BOOL & fError)
{
if (cArgs == 0)
{
return;
}
switch (tszArgs[0][1])
{
case TEXT('a'):
case TEXT('A'):
if (cArgs >= 4)
{
DoAdd(tszArgs[1], tszArgs[2], tszArgs[3]);
cArgs -= 4;
tszArgs += 4;
fError = FALSE;
}
break;
case TEXT('d'):
case TEXT('D'):
if (cArgs >= 2)
{
DoDelete(tszArgs[1]);
cArgs -= 2;
tszArgs += 2;
fError = FALSE;
}
break;
case TEXT('m'):
case TEXT('M'):
if (cArgs >= 4)
{
DoModify(tszArgs[1], tszArgs[2], tszArgs[3]);
cArgs -= 4;
tszArgs += 4;
fError = FALSE;
}
break;
case TEXT('q'):
case TEXT('Q'):
if (cArgs >= 2)
{
DoQuery(tszArgs[1]);
cArgs -= 2;
tszArgs += 2;
fError = FALSE;
}
break;
case TEXT('t'):
case TEXT('T'):
if (cArgs >= 2)
{
DoTouch(tszArgs[1]);
cArgs -= 2;
tszArgs += 2;
fError = FALSE;
}
break;
case TEXT('f'):
case TEXT('F'):
if (cArgs >= 2)
{
DoFill(tszArgs[1]);
cArgs -= 2;
tszArgs += 2;
fError = FALSE;
}
break;
case TEXT('p'):
case TEXT('P'):
if (cArgs >= 1)
{
DoPurge();
cArgs -= 1;
tszArgs += 1;
fError = FALSE;
}
break;
case TEXT('c'):
case TEXT('C'):
DoCachePurge();
cArgs -= 1;
tszArgs += 1;
fError = FALSE;
break;
case TEXT('r'):
case TEXT('R'):
DoRunTests();
cArgs -= 1;
tszArgs += 1;
fError = FALSE;
break;
case TEXT('i'):
case TEXT('I'):
printf("Type a command line switch at the prompt (control-c to exit.)\n");
do
{
TCHAR buf[256];
TCHAR * tszArgs2[16];
TCHAR ** tszArgsI = tszArgs2;
int cArgsI=0;
BOOL fError2;
printf("> ");
_getts(buf);
TCHAR * p = buf;
while (*p)
{
tszArgs2[cArgsI++] = p++;
while (*p && *p != TEXT(' ')) p++;
if (*p == ' ')
{
*p = 0;
p++;
}
}
DoSwitch(tszArgsI, cArgsI, fError2);
}
while (TRUE);
break;
default:
break;
}
}
EXTERN_C int __cdecl _tmain(int cArgs, TCHAR **tszArgs )
{
BOOL fError = FALSE;
HRESULT hr;
LARGE_INTEGER liFreq;
CTestSvrSvc test;
__try
{
TrkDebugCreate( TRK_DBG_FLAGS_WRITE_TO_DBG | TRK_DBG_FLAGS_WRITE_TO_STDOUT, "TLDAP" );
g_Debug = 0xffffffff & ~TRKDBG_WORKMAN;
test.Initialize();
cArgs--;
tszArgs++;
redo:
if (cArgs == 0)
{
fError = TRUE;
}
while (!fError && cArgs > 0)
{
fError = TRUE;
if (tszArgs[0][0] == '-' || tszArgs[0][0] == '/')
{
test.DoSwitch(tszArgs, cArgs, fError);
}
}
if (fError)
{
printf("Usage: \n");
printf(" Operation Params\n");
printf(" --------- ------\n");
printf(" Add -a <key> <cur> <birthid>\n");
printf(" Delete -d <key>\n");
printf(" Modify -m <key> <cur> <birthid>\n");
printf(" Query -q <key>\n");
printf(" Touch -t <key>\n");
printf(" Fill -f <number of entries> // aaa,aab,aac ...\n");
printf(" Purge -p 'purge all server database state'\n");
printf(" Cache Purge -c\n");
printf(" Run tests -r\n");
printf(" Interactive -i\n");
}
hr = S_OK;
}
__except (BreakOnDebuggableException())
{
printf("Exception number %08X caught\n", GetExceptionCode());
hr = GetExceptionCode();
}
test.UnInitialize(hr);
Exit:
return(0);
}
#else
EXTERN_C int __cdecl _tmain(int cArgs, TCHAR **tszArgs )
{
printf("Retail build of tldap.exe doesn't run\n");
return(0);
}
#endif