|
|
//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1993.
//
// File: stdalloc.cxx
//
// Contents: 16-bit OLE allocator
//
// Classes:
//
// Functions:
//
// History: 3-07-94 kevinro Ported from ole2.01 (16-bit)
//
//----------------------------------------------------------------------------
#include <headers.cxx>
#pragma hdrstop
#include <ole2sp.h>
/****** Standard Task/Shared Allocator **********************************/
#define NULLSAB ((__segment)0)
typedef __segment SAB;
// amount of space windows reserves at start of segment
#define cbWinRes 16
// amount of space LocalInit takes (somewhat empirical)
#define cbWinOH (6+10+46)
// total overhead per global block
#define cbTotalOH (cbWinRes + sizeof(StdAllocHdr) + cbWinOH + 32)
// maximum sized object in a SAB (fudged to include space for per-block
// overhead and most anything else we missed).
#define cbMaxSAB (0xfffe - cbTotalOH)
//+---------------------------------------------------------------------------
//
// Class: CStdMalloc ()
//
// Purpose: Standard task allocator
//
// History: 3-04-94 kevinro Created
//
// Notes:
//
//----------------------------------------------------------------------------
class FAR CStdMalloc : public IMalloc { public: CStdMalloc(DWORD memctx) { m_refs = 1; m_pStdAllocHead = NULL; m_flags = (memctx == MEMCTX_TASK)? GMEM_MOVEABLE : GMEM_MOVEABLE|GMEM_SHARE; }
STDMETHOD(QueryInterface)(REFIID iid, void FAR* FAR* ppvObj) { VDATEPTROUT( ppvObj, LPVOID ); *ppvObj = NULL; VDATEIID( iid );
if (iid == IID_IUnknown || iid == IID_IMalloc) { *ppvObj = this; ++m_refs; return NOERROR; } else { *ppvObj = NULL; return ReportResult(0, E_NOINTERFACE, 0, 0); } } STDMETHOD_(ULONG,AddRef)(void) { return ++m_refs; } STDMETHOD_(ULONG,Release)(void) { if (--m_refs == 0) { // free all memory (includes the memory for this class)
FreeAllMem(); return 0; } else return m_refs; } STDMETHOD_(void FAR*, Alloc) (ULONG cb); STDMETHOD_(void FAR*, Realloc) (void FAR* pv, ULONG cb); STDMETHOD_(void, Free) (void FAR* pv); STDMETHOD_(ULONG, GetSize) (void FAR* pv); STDMETHOD_(int, DidAlloc) (void FAR* pv); STDMETHOD_(void, HeapMinimize) ();
private: ULONG m_refs; UINT m_flags;
#define STDALLOC_SIG 0x4D445453 // 'STDM'
struct StdAllocHdr { ULONG m_Signature; HTASK m_hTask; // task which owns this block
StdAllocHdr FAR* m_pStdAllocNext; };
StdAllocHdr FAR* m_pStdAllocHead;
INTERNAL_(StdAllocHdr FAR*) MapBlockToSA(SAB sab) { return (StdAllocHdr FAR*)MAKELONG(cbWinRes, sab); } INTERNAL_(SAB) MapSAToBlock(StdAllocHdr FAR* pSA) { return (__segment)pSA; } INTERNAL_(void FAR*) AllocInBlock(SAB seg, UINT cb); INTERNAL_(SAB) AllocNewBlock(UINT cb); INTERNAL_(SAB) MapPtrToBlock(void FAR* pv);
INTERNAL_(CStdMalloc FAR*) MoveSelf(LPVOID lpv); friend HRESULT STDAPICALLTYPE CoCreateStandardMalloc(DWORD memctx, IMalloc FAR* FAR* ppMalloc);
INTERNAL_(void) FreeAllMem(void); };
INTERNAL_(void FAR*) CStdMalloc::AllocInBlock(SAB sab, UINT cb) { #ifdef _DEBUG
WINDEBUGINFO Olddebuginfo, debuginfo; //get initial debug state
GetWinDebugInfo(&debuginfo, WDI_OPTIONS); Olddebuginfo = debuginfo; //turn off alerts (see bug 3502)
debuginfo.dwOptions |= DBO_SILENT; SetWinDebugInfo(&debuginfo); #endif // _DEBUG
// must make alloc of 0 mean alloc something; LocalAlloc fails on cb == 0
if (0==cb) cb = 2;
_asm push DS; _asm mov DS, sab; void NEAR *npv = (void NEAR*)LocalAlloc(LMEM_FIXED, cb); _asm pop DS;
#ifdef _DEBUG
//restore Debug state
SetWinDebugInfo(&Olddebuginfo); #endif // _DEBUG
if (npv == NULL) // npv is near pointer
return NULL; // returned value is far pointer
return (void FAR*)MAKELONG(npv, sab); }
INTERNAL_(SAB) CStdMalloc::AllocNewBlock(UINT cb) { if (cb > cbMaxSAB) // overflow
return NULLSAB;
if (cb < 4096 - cbTotalOH) // minimum is 4k global block
cb = 4096; else // size will be larger than 4K; must include total overhead
cb += cbTotalOH;
// allocate block and get segment value
HGLOBAL h; if ((h = GlobalAlloc(m_flags, cb)) == NULL) return NULLSAB;
UINT segment; segment = HIWORD(GlobalHandle(h));
// init windows local heap
if (!LocalInit(segment, cbWinRes + sizeof(StdAllocHdr), cb)) { GlobalFree(h); return NULLSAB; }
// init block and put it on front of list
StdAllocHdr FAR* pSA; pSA = MapBlockToSA((SAB)segment); pSA->m_Signature = STDALLOC_SIG; pSA->m_hTask = (m_flags & GMEM_SHARE) != 0 ? NULL : GetCurrentTask(); pSA->m_pStdAllocNext = m_pStdAllocHead; m_pStdAllocHead = pSA;
return (SAB)segment; }
INTERNAL_(SAB) CStdMalloc::MapPtrToBlock(void FAR* pv) { if (pv == NULL) return NULLSAB;
StdAllocHdr FAR* pSA; pSA = MapBlockToSA((SAB)pv); if (pSA->m_Signature != STDALLOC_SIG) return NULLSAB; if (m_flags & GMEM_SHARE) { if (pSA->m_hTask != NULL) // owned by task; not shared memory
return NULLSAB; } else { if (pSA->m_hTask != GetCurrentTask()) { // if not same task, not this allocator; if different task,
// something is wrong.
AssertSz(pSA->m_hTask == NULL, "pointer used in wrong task"); return NULLSAB; } }
return MapSAToBlock(pSA); }
STDMETHODIMP_(void FAR*) CStdMalloc::Alloc(ULONG cb) { if (cb > cbMaxSAB) // can't deal with objects larger than 64k
return NULL;
// try all sab in order (newest allocated sab on front)
StdAllocHdr FAR* pSA = m_pStdAllocHead; while (pSA != NULL) { // try allocating the memory; if successful, return
void FAR* pv; if ((pv = AllocInBlock(MapSAToBlock(pSA), (UINT)cb)) != NULL) return pv;
pSA = pSA->m_pStdAllocNext; }
SAB sab; if ((sab = AllocNewBlock((UINT)cb)) == NULLSAB) return NULL;
// this should really succeed (i.e., an assert would be better)
return AllocInBlock(sab, (UINT)cb); }
STDMETHODIMP_(void FAR*) CStdMalloc::Realloc(void FAR* pv, ULONG cb) {
if (cb > cbMaxSAB) // can't deal with objects larger than 64k
return NULL;
SAB sab; if (pv == NULL) // same as allocating a new pointer
return Alloc(cb); //VDATEPTRIN rejects NULL (changed by alexgo 8/3/93)
GEN_VDATEPTRIN( pv, int, (LPVOID)NULL ); if ((sab = MapPtrToBlock(pv)) == NULLSAB) // attempt to realloc a pointer from some other allocator
return NULL; else if (cb == 0) { // Realloc(pv, 0) -> frees and returns NULL; this is C library behavior
Free(pv); return NULL; }
void NEAR* npv; npv = (void NEAR*)(ULONG)pv;
// first try realloc within same sab
Assert(sab != NULLSAB); { void NEAR* npvT;
_asm push DS; _asm mov DS, sab; npvT = (void NEAR*)LocalReAlloc((HLOCAL)npv, (UINT)cb, LMEM_MOVEABLE); _asm pop DS;
if (npvT != NULL) return (void FAR*)MAKELONG(npvT, sab); }
// now try allocating new sab and copying
void FAR* pvT; if ((pvT = Alloc(cb)) == NULL) return NULL;
// only copy the smaller of the old and new size
_asm push ds; _asm mov ds,sab; UINT cbCopy = LocalSize((HLOCAL)npv); _asm pop ds;
if ((UINT)cb < cbCopy) // new size smaller
cbCopy = (UINT)cb;
_fmemcpy(pvT, pv, cbCopy);
Free(pv);
return pvT; }
STDMETHODIMP_(void) CStdMalloc::Free(void FAR* pv) { SAB sab;
if (pv == NULL) return;
//VDATEPTRIN rejects NULL (changed by alexgo 8/3/93)
VOID_VDATEPTRIN( pv, int ); if ((sab = MapPtrToBlock(pv)) == NULLSAB) { #ifdef _DEBUG
AssertSz(FALSE, "Pointer freed by wrong allocator; filling with 0xcc");
// we don't own block; this is an error; fill it with 0xcccc anyway
UINT cb = (UINT)GlobalSize((HGLOBAL)GlobalHandle((__segment)pv)); cb -= (UINT)(ULONG)pv;
_fmemset(pv, 0xcc, (size_t)cb); #endif
} else { #ifdef _DEBUG
// we own block; fill it with 0xcccc
_fmemset(pv, 0xcc, (size_t)GetSize(pv)); #endif
_asm push ds; _asm mov ds,sab; LocalFree((HLOCAL)(void NEAR*)(ULONG)pv); _asm pop ds; } }
STDMETHODIMP_(ULONG) CStdMalloc::GetSize(void FAR* pv) { ULONG size = 0; SAB sab;
//VDATEPTRIN rejects NULL (added by alexgo 8/3/93)
if( pv == NULL ) return -1; GEN_VDATEPTRIN( pv , int, 0 );
if ((sab = MapPtrToBlock(pv)) != NULLSAB) { _asm push ds; _asm mov ds,sab; size = LocalSize((HLOCAL)(void NEAR*)(ULONG)pv); _asm pop ds; }
return size; }
STDMETHODIMP_(int) CStdMalloc::DidAlloc(void FAR* pv) {
if (pv == NULL) return -1;
//VDATEPTRIN rejects NULL (added by alexgo 8/3/93)
GEN_VDATEPTRIN( pv , int, 0 ); // returns 1 if we allocated, 0 if not; this impl never returns -1.
return MapPtrToBlock(pv) != NULLSAB; }
STDMETHODIMP_(void) CStdMalloc::HeapMinimize() { // LATER : could do local compact here
}
// move this instance of stdmalloc to lpv (which must be large enough)
INTERNAL_(CStdMalloc FAR*) CStdMalloc::MoveSelf(LPVOID lpv) { _fmemcpy(lpv, this, sizeof(*this)); m_pStdAllocHead = NULL; return (CStdMalloc FAR*)lpv; }
INTERNAL_(void) CStdMalloc::FreeAllMem(void) { // get/null out head of list; null now in case we are freeing self.
StdAllocHdr FAR* pSA = m_pStdAllocHead; m_pStdAllocHead = NULL;
// free all blocks
while (pSA != NULL) { StdAllocHdr FAR* pSANext = pSA->m_pStdAllocNext; pSA->m_pStdAllocNext = NULL; // to prevent incorrect compiler opt
GlobalFree(LOWORD(GlobalHandle((UINT)MapSAToBlock(pSA))));
pSA = pSANext; } }
/****** Global API for creating *****************************************/
// create and return an impl of IMalloc of given memctx
//+---------------------------------------------------------------------------
//
// Function: CoCreateStandardMalloc, Local
//
// Synopsis:
//
// Effects:
//
// Arguments: [memctx] --
// [ppMalloc] --
//
// Requires:
//
// Returns:
//
// Signals:
//
// Modifies:
//
// Algorithm:
//
// History: 2-28-94 kevinro Created
//
// Notes:
//
//----------------------------------------------------------------------------
STDAPI CoCreateStandardMalloc(DWORD memctx, IMalloc FAR* FAR* ppMalloc) { thkDebugOut((DEB_ITRACE, " CoCreateStandardMalloc\n")); *ppMalloc = NULL;
switch (memctx) {
case MEMCTX_TASK: case MEMCTX_SHARED: { CStdMalloc sm(memctx); // local one
void FAR* lpv; if ((lpv = sm.Alloc(sizeof(CStdMalloc))) == NULL) return ResultFromScode(E_OUTOFMEMORY);
*ppMalloc = sm.MoveSelf(lpv); // move to newly allocated memory
return NOERROR; } default: return ResultFromScode(E_INVALIDARG); } }
|