xref: /aoo4110/main/tools/source/debug/stcktree.cxx (revision b1cdbd2c)
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21 
22 
23 
24 // MARKER(update_precomp.py): autogen include statement, do not remove
25 #include "precompiled_tools.hxx"
26 
27 #include <string.h>
28 
29 #include <tools/debug.hxx>
30 
31 // -----------------------------------------------------------------------
32 
33 #if defined( DBG_UTIL ) && defined( WNT ) && defined( INTEL )
34 
35 struct ImpDbgStackTree
36 {
37 	ImpDbgStackTree*	pLeft_;
38 	ImpDbgStackTree*	pRight_;
39 	ImpDbgStackTree*	pCaller_;
40 	ImpDbgStackTree*	pSub_;
41 	sal_uIntPtr				nIP_;
42 	sal_uIntPtr				nBytesLeak_;
43 	sal_uIntPtr				nBytesPeak_;
44 	sal_uIntPtr				nBytes_;
45 	sal_uIntPtr				nCountLeak_;
46 	sal_uIntPtr				nCountPeak_;
47 	sal_uIntPtr				nCount_;
48 	sal_uIntPtr				nMax_;
49 	sal_uIntPtr				nMin_;
50 
51 						ImpDbgStackTree( ImpDbgStackTree* pSub, sal_uIntPtr nIP );
52 						~ImpDbgStackTree();
53 
54 	ImpDbgStackTree*	Add( sal_uIntPtr nAlloc, sal_uIntPtr* pBP, sal_uIntPtr nIP );
55 	void				Print( int nLevel, sal_uIntPtr nCount, sal_uIntPtr nCountLeak );
56 	void				Print( int nLevel );
57 };
58 
59 static ImpDbgStackTree* pImpDbgStackTreeRoot	 = NULL;
60 static sal_uIntPtr*			pImpDbgStackTreeBP		 = NULL;
61 static sal_uIntPtr			nImpDbgStackTreeMain	 = 0;
62 static int				nImpDbgStackTreeSem 	 = 0;
63 
64 // -----------------------------------------------------------------------
65 
ImpDbgStackTree(ImpDbgStackTree * pSub,sal_uIntPtr nIP)66 ImpDbgStackTree::ImpDbgStackTree( ImpDbgStackTree* pSub, sal_uIntPtr nIP )
67 {
68 	pSub_ = pSub;
69 	nIP_ = nIP;
70 	pLeft_ = pRight_ = pCaller_ = NULL;
71 	nBytesLeak_ = nBytesPeak_ = nBytes_ = 0;
72 	nCountLeak_ = nCountPeak_ = nCount_ = 0;
73 }
74 
75 // -----------------------------------------------------------------------
76 
~ImpDbgStackTree()77 ImpDbgStackTree::~ImpDbgStackTree()
78 {
79 	if ( pLeft_ )
80 		delete pLeft_;
81 	if ( pRight_ )
82 		delete pRight_;
83 	if ( pCaller_ )
84 		delete pCaller_;
85 }
86 
87 // -----------------------------------------------------------------------
88 
Print(int nLevel,sal_uIntPtr nCount,sal_uIntPtr nCountLeak)89 void ImpDbgStackTree::Print( int nLevel, sal_uIntPtr nCount, sal_uIntPtr nCountLeak )
90 {
91 	if ( pLeft_ )
92 		pLeft_->Print( nLevel, nCount, nCountLeak );
93 
94 	if ( nCount_ >= nCount && nCountLeak_ >= nCountLeak )
95 	{
96 		if ( nMax_ == nMin_ )
97 		{
98 			sal_uIntPtr nTemp = nCountLeak_ * nMin_;
99 			DbgOutf( "%*c%08lx Count=%lu/%lu/%lu Bytes=%lu/%lu/%lu Size=%lu",
100 					 nLevel, ' ', nIP_,
101 					 nCount_, nCountPeak_, nCountLeak_,
102 					 nBytes_, nBytesPeak_, nTemp,
103 					 nMin_ );
104 		}
105 		else
106 		{
107 			DbgOutf( "%*c%08lx Count=%lu/%lu/%lu Bytes=%lu/%lu/%lu Size=%lu-%lu",
108 					 nLevel, ' ', nIP_,
109 					 nCount_, nCountPeak_, nCountLeak_,
110 					 nBytes_, nBytesPeak_, nBytesLeak_,
111 					 nMin_, nMax_ );
112 		}
113 
114 		if ( pCaller_ )
115 			if( nLevel > 3 && nCountLeak )
116 				pCaller_->Print( nLevel + 1, nCount, 1 );
117 			else
118 				pCaller_->Print( nLevel + 1, nCount, nCountLeak );
119 	}
120 
121 	if ( pRight_ )
122 		pRight_->Print( nLevel, nCount, nCountLeak );
123 }
124 
125 // -----------------------------------------------------------------------
126 
Print(int nLevel)127 void ImpDbgStackTree::Print( int nLevel )
128 {
129 	if ( pSub_ )
130 		pSub_->Print( nLevel + 1 );
131 	DbgOutf( "%*c%08lx", nLevel, ' ',nIP_ );
132 }
133 
134 // -----------------------------------------------------------------------
135 
Add(sal_uIntPtr nAlloc,sal_uIntPtr * pBP,sal_uIntPtr nIP)136 ImpDbgStackTree* ImpDbgStackTree::Add( sal_uIntPtr nAlloc, sal_uIntPtr *pBP, sal_uIntPtr nIP )
137 {
138 	if ( nIP < nIP_ )
139 	{
140 		if ( !pLeft_ )
141 			pLeft_ = new ImpDbgStackTree( pSub_, nIP );
142 		return pLeft_->Add( nAlloc, pBP, nIP );
143 	}
144 	if ( nIP > nIP_ )
145 	{
146 		if ( !pRight_ )
147 			pRight_ = new ImpDbgStackTree( pSub_, nIP );
148 		return pRight_->Add( nAlloc, pBP, nIP );
149 	}
150 
151 	nCount_++;
152 	nCountLeak_++;
153 	if ( nCountLeak_ > nCountPeak_ )
154 		nCountPeak_ = nCountLeak_;
155 	nBytes_ 	+= nAlloc;
156 	nBytesLeak_ += nAlloc;
157 	if ( nBytesLeak_ > nBytesPeak_ )
158 		nBytesPeak_ = nBytesLeak_;
159 	if ( nCount_ == 1 )
160 		nMax_ = nMin_ = nAlloc;
161 	else if ( nMax_ < nAlloc )
162 		nMax_ = nAlloc;
163 	else if ( nMin_ > nAlloc )
164 		nMin_ = nAlloc;
165 
166 	if ( !(pBP[0] & 3) && (sal_uIntPtr)pBP < pBP[0] && pBP[0] < (sal_uIntPtr)pImpDbgStackTreeBP )
167 	{
168 		pBP = (sal_uIntPtr*)pBP[0];
169 		nIP = pBP[1];
170 		if ( 0x01100000 <= nIP && nIP < 0x20000000 && nIP != nImpDbgStackTreeMain )
171 		{
172 			if ( !pCaller_ )
173 				pCaller_ = new ImpDbgStackTree( this, nIP );
174 			return pCaller_->Add( nAlloc, pBP, nIP );
175 		}
176 		else
177 			return this;
178 	}
179 
180 	return this;
181 }
182 
183 // -----------------------------------------------------------------------
184 
DbgStartStackTree()185 void DbgStartStackTree()
186 {
187 	if ( !nImpDbgStackTreeMain )
188 	{
189 		sal_uIntPtr* pBP;
190 		__asm mov pBP, ebp;
191 
192 		pImpDbgStackTreeBP	 = (sal_uIntPtr*)pBP[0];
193 		nImpDbgStackTreeMain = pImpDbgStackTreeBP[1];
194 	}
195 }
196 
197 // -----------------------------------------------------------------------
198 
DbgEndStackTree()199 void DbgEndStackTree()
200 {
201 	if ( nImpDbgStackTreeMain )
202 	{
203 		nImpDbgStackTreeMain = 0;
204 		if ( pImpDbgStackTreeRoot )
205 		{
206 			// Ausgaben ins File umleiten
207 			DbgData* pData = DbgGetData();
208 			sal_uIntPtr nOldOut = pData->nTraceOut;
209 			pData->nTraceOut = DBG_OUT_FILE;
210 
211 			DbgOutf( "Leak-Report" );
212 			DbgOutf( "===========" );
213 			DbgOutf( "Mem-StackTree:" );
214 			DbgOutf( "{" );
215 			pImpDbgStackTreeRoot->Print( 1, 1, 2 );
216 			DbgOutf( "}" );
217 
218 			DbgOutf( "Alloc-Report" );
219 			DbgOutf( "===========" );
220 			DbgOutf( "Mem-StackTree:" );
221 			DbgOutf( "{" );
222 			pImpDbgStackTreeRoot->Print( 1, 1000, 0 ); // ???
223 			DbgOutf( "}" );
224 
225 			pData->nTraceOut = nOldOut;
226 
227 			nImpDbgStackTreeSem++;
228 			delete pImpDbgStackTreeRoot;
229 			pImpDbgStackTreeRoot = NULL;
230 			nImpDbgStackTreeSem--;
231 		}
232 	}
233 }
234 
235 // -----------------------------------------------------------------------
236 
DbgGetStackTree(sal_uIntPtr nAlloc)237 void* DbgGetStackTree( sal_uIntPtr nAlloc )
238 {
239 	ImpDbgStackTree* pReturn = NULL;
240 
241 	if ( nImpDbgStackTreeMain && !nImpDbgStackTreeSem )
242 	{
243 		nImpDbgStackTreeSem++;
244 
245 		sal_uIntPtr* pBP;
246 		__asm mov pBP, ebp;
247 
248 		sal_uIntPtr  nIP = pBP[1];
249 		if ( !pImpDbgStackTreeRoot )
250 			pImpDbgStackTreeRoot = new ImpDbgStackTree( NULL, nIP );
251 		pReturn = pImpDbgStackTreeRoot->Add( nAlloc, pBP, nIP );
252 		nImpDbgStackTreeSem--;
253 	}
254 
255 	return pReturn;
256 }
257 
258 // -----------------------------------------------------------------------
259 
DbgFreeStackTree(void * pVoid,sal_uIntPtr nAlloc)260 void DbgFreeStackTree( void* pVoid, sal_uIntPtr nAlloc )
261 {
262 	ImpDbgStackTree* p = (ImpDbgStackTree*)pVoid;
263 
264 	if ( p && nImpDbgStackTreeMain && !nImpDbgStackTreeSem )
265 	{
266 		if ( nAlloc < p->nMin_ )
267 			nAlloc = p->nMin_;
268 
269 		p->nCountLeak_--;
270 		p->nBytesLeak_ -= nAlloc;
271 
272 		if ( p->nMax_ && 0xFFFFFFFF / p->nMax_ > p->nCountLeak_ )
273 		{
274 			if ( p->nBytesLeak_ > p->nMax_ * p->nCountLeak_ )
275 			{
276 				nAlloc		   += p->nBytesLeak_ - p->nMax_ * p->nCountLeak_;
277 				p->nBytesLeak_	= p->nMax_ * p->nCountLeak_;
278 			}
279 		}
280 
281 		if ( p->pSub_ )
282 			DbgFreeStackTree( (void*)(p->pSub_), nAlloc );
283 	}
284 }
285 
286 // -----------------------------------------------------------------------
287 
DbgPrintStackTree(void * pVoid)288 void DbgPrintStackTree( void* pVoid )
289 {
290 	ImpDbgStackTree* p = (ImpDbgStackTree*)pVoid;
291 
292 	if ( p && nImpDbgStackTreeMain && !nImpDbgStackTreeSem )
293 	{
294 		// Ausgaben ins File umleiten
295 		DbgData* pData = DbgGetData();
296 		sal_uIntPtr nOldOut = pData->nTraceOut;
297 		pData->nTraceOut = DBG_OUT_FILE;
298 
299 		DbgOutf( "Mem-StackTree:" );
300 		DbgOutf( "{" );
301 		p->Print( 1 );
302 		DbgOutf( "}" );
303 
304 		pData->nTraceOut = nOldOut;
305 	}
306 }
307 
308 #else
309 
DbgStartStackTree()310 void DbgStartStackTree() {}
DbgEndStackTree()311 void DbgEndStackTree() {}
DbgGetStackTree(sal_uIntPtr)312 void* DbgGetStackTree( sal_uIntPtr ) { return NULL; }
DbgFreeStackTree(void *,sal_uIntPtr)313 void DbgFreeStackTree( void*, sal_uIntPtr ) {}
DbgPrintStackTree(void *)314 void DbgPrintStackTree( void* ) {}
315 
316 #endif
317