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331 lines
12 KiB
331 lines
12 KiB
/*++
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Copyright (c) 1998-1999 Microsoft Corporation
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Module Name:
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dbg.h
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Abstract:
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Debug-related definitions for ARP1394
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Author:
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Revision History:
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Who When What
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-------- -------- ----
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josephj 11-20-98 created, adapted from L2TP.
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--*/
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//-----------------------------------------------------------------------------
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// Debug constants
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//-----------------------------------------------------------------------------
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// Memory tags used with NdisAllocateMemoryWithTag to identify allocations
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// made by the L2TP driver. Also, several context blocks define a first field
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// of 'ulTag' set to these values for ASSERT sanity checking and eased memory
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// dump browsing. Such tags are set to MTAG_FREED just before NdisFreeMemory
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// is called.
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//
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// Rm/generic tags
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//
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#define MTAG_DBGINFO 'd31A'
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#define MTAG_TASK 't31A'
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#define MTAG_STRING 's31A'
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#define MTAG_FREED 'z31A'
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#define MTAG_RMINTERNAL 'r31A'
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// Arp-sepcific
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//
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#define MTAG_ADAPTER 'A31A'
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#define MTAG_INTERFACE 'I31A'
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#define MTAG_LOCAL_IP 'L31A'
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#define MTAG_REMOTE_IP 'R31A'
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#define MTAG_REMOTE_ETH 'E31A'
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#define MTAG_DEST 'D31A'
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#define MTAG_PKT 'P31A'
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#define MTAG_MCAP_GD 'G31A'
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#define MTAG_ICS_BUF 'i31A'
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#define MTAG_ARP_GENERIC 'g31A'
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// Trace levels.
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//
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#define TL_FATAL 0x0 // Fatal errors -- always printed in checked build.
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#define TL_WARN 0x1 // Warnings
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#define TL_INFO 0x2 // Informational (highest level workable for general use)
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#define TL_VERB 0x3 // VERBOSE
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// Trace mask bits.
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//
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#define TM_MISC (0x1<<0) // Misc.
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#define TM_NT (0x1<<1) // Driver entry, dispatch, ioctl handling (nt.c)
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#define TM_ND (0x1<<2) // Ndis handlers except connection-oriented (nd.c)
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#define TM_CO (0x1<<3) // Connection-oriented handlers (co.c)
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#define TM_IP (0x1<<4) // Interface to IP (ip.c)
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#define TM_WMI (0x1<<5) // WMI (wmi.c)
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#define TM_CFG (0x1<<6) // Configuration (cfg.c)
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#define TM_RM (0x1<<7) // RM APIs (rm.c)
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#define TM_UT (0x1<<8) // UTIL APIs (util.c)
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#define TM_BUF (0x1<<9) // Buffer management (buf.c)
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#define TM_FAKE (0x1<<10) // FAKE ndis and ip entrypoints (fake.c)
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#define TM_ARP (0x1<<11) // ARP request/response handling code (arp.c)
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#define TM_PKT (0x1<<12) // ARP control packet management (pkt.c)
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#define TM_MCAP (0x1<<13) // MCAP protocol (mcap.c)
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#define TM_ETH (0x1<<14) // Ethernet-emulation (eth.c)
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// Bytes to appear on each line of dump output.
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//
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#define DUMP_BytesPerLine 16
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//-----------------------------------------------------------------------------
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// Debug global declarations (defined in debug.c)
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//-----------------------------------------------------------------------------
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// Active debug trace level and active trace set mask. Set these variables
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// with the debugger at startup to enable and filter the debug output. All
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// messages with (TL_*) level less than or equal to 'g_ulTraceLevel' and from
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// any (TM_*) set(s) present in 'g_ulTraceMask' are displayed.
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//
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extern INT g_ulTraceLevel;
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extern ULONG g_ulTraceMask;
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extern INT g_SkipAll;
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extern INT g_DiscardNonUnicastPackets;
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//-----------------------------------------------------------------------------
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// Debug macros
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//-----------------------------------------------------------------------------
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#if DBG
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// TRACE sends printf style output to the kernel debugger. Caller indicates a
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// "verbosity" level with the 'ulLevel' argument and associates the trace with
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// one or more trace sets with the 'ulMask' bit mask argument. Notice that
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// the variable count printf arguments 'Args' must be parenthesized.
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//
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#define TRACE(ulLevel, Args) \
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{ \
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if (ulLevel <= g_ulTraceLevel && (g_ulTraceMask & TM_CURRENT)) \
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{ \
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DbgPrint( "A13: %s:", dbg_func_name); \
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DbgPrint Args; \
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DbgPrint ("\n"); \
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} \
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}
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// TRACE0 is like TRACE, except that it doesn't print the prefix.
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//
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#define TRACE0(ulLevel, Args) \
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{ \
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if (ulLevel <= g_ulTraceLevel && (g_ulTraceMask & TM_CURRENT)) \
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{ \
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DbgPrint Args; \
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} \
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}
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#define TR_FATAL(Args) \
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TRACE(TL_FATAL, Args)
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#define TR_INFO(Args) \
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TRACE(TL_INFO, Args)
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#define TR_WARN(Args) \
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TRACE(TL_WARN, Args)
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#define TR_VERB(Args) \
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TRACE(TL_VERB, Args)
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#define ENTER(_Name, _locid) \
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char *dbg_func_name = (_Name); \
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UINT dbg_func_locid = (_locid);
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#define EXIT()
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// ASSERT checks caller's assertion expression and if false, prints a kernel
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// debugger message and breaks.
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//
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#undef ASSERT
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#define ASSERT(x) \
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{ \
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if (!(x)) \
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{ \
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DbgPrint( "A13: !ASSERT( %s ) L:%d,F:%s\n", \
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#x, __LINE__, __FILE__ ); \
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DbgBreakPoint(); \
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} \
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}
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#define ASSERTEX(x, ctxt) \
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{ \
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if (!(x)) \
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{ \
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DbgPrint( "A13: !ASSERT( %s ) C:0x%p L:%d,F:%s\n", \
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#x, (ctxt), __LINE__, __FILE__ ); \
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DbgBreakPoint(); \
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} \
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}
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// DUMP prints to the kernel debugger a hex dump of 'cb' bytes starting at 'p'
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// in groups of 'ul'. If 'f' is set the address of each line in shown before
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// the dump. DUMPB, DUMPW, and DUMPDW are BYTE, WORD, and DWORD dumps
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// respectively. Note that the multi-byte dumps do not reflect little-endian
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// (Intel) byte order. The 'ulLevel' and 'ulMask' are described for TRACE.
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//
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#define DUMP(ulLevel,ulMask,p,cb,f,ul) \
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{ \
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if (ulLevel <= g_ulTraceLevel && (g_ulTraceMask & ulMask)) \
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{ \
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Dump( (CHAR* )p, cb, f, ul ); \
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} \
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}
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#define DUMPB(ulLevel,ulMask,p,cb) \
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{ \
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if (ulLevel <= g_ulTraceLevel && (g_ulTraceMask & ulMask)) \
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{ \
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Dump( (CHAR* )p, cb, 0, 1 ); \
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} \
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}
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#define DUMPW(ulLevel,ulMask,p,cb) \
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{ \
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if (ulLevel <= g_ulTraceLevel && (g_ulTraceMask & ulMask)) \
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{ \
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Dump( (CHAR* )p, cb, 0, 2 ); \
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} \
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}
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#define DUMPDW(ulLevel,ulMask,p,cb) \
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{ \
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if (ulLevel <= g_ulTraceLevel && (g_ulTraceMask & ulMask)) \
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{ \
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Dump( (CHAR* )p, cb, 0, 4 ); \
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} \
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}
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// DbgMark does nothing useful. But it is convenient to insert DBGMARK in
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// places in your code while debugging, and set a breakpoint on DbgMark, so that
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// the debugger will stop at the places you inserted DBGMARK. It's a bit more
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// flexible than inserting a hardcoded DbgBreakPoint.
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//
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void DbgMark(UINT Luid);
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#define DBGMARK(_Luid) DbgMark(_Luid)
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#define DBGSTMT(_stmt) _stmt
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#define RETAILASSERTEX ASSERTEX
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#define RETAILASSERT ASSERT
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#define ARP_INIT_REENTRANCY_COUNT() \
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static LONG ReentrancyCount=1;
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#define ARP_INC_REENTRANCY() \
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arpDbgIncrementReentrancy(&ReentrancyCount)
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#define ARP_DEC_REENTRANCY() \
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arpDbgDecrementReentrancy(&ReentrancyCount)
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#else // !DBG
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// Debug macros compile out of non-DBG builds.
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//
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#define TRACE(ulLevel,ulMask,Args)
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#define TR_FATAL(Args)
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#define TR_INFO(Args)
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#define TR_WARN(Args)
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#define TR_VERB(Args)
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#undef ASSERT
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#define ASSERT(x)
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#define ASSERTEX(x, ctxt)
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#define DUMP(ulLevel,ulMask,p,cb,f,dw)
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#define DUMPB(ulLevel,ulMask,p,cb)
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#define DUMPW(ulLevel,ulMask,p,cb)
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#define DUMPDW(ulLevel,ulMask,p,cb)
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#define ENTER(_Name, _locid)
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#define EXIT()
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#define DBGMARK(_Luid) (0)
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#define DBGSTMT(_stmt)
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#if 1
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#define ARP_INIT_REENTRANCY_COUNT()
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#define ARP_INC_REENTRANCY() 0
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#define ARP_DEC_REENTRANCY() 0
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#else // !0
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#define ARP_INIT_REENTRANCY_COUNT() \
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static LONG ReentrancyCount=1;
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#define ARP_INC_REENTRANCY() \
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arpDbgIncrementReentrancy(&ReentrancyCount)
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#define ARP_DEC_REENTRANCY() \
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arpDbgDecrementReentrancy(&ReentrancyCount)
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#endif // 0
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#define RETAILASSERT(x) \
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{ \
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if (!(x)) \
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{ \
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DbgPrint( "A13: !RETAILASSERT( %s ) L:%d,F:%s\n", \
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#x, __LINE__, __FILE__ ); \
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DbgBreakPoint(); \
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} \
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}
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#define RETAILASSERTEX(x, ctxt) \
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{ \
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if (!(x)) \
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{ \
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DbgPrint( "A13: !RETAILASSERT( %s ) C:0x%p L:%d,F:%s\n",\
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#x, (ctxt), __LINE__, __FILE__ ); \
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DbgBreakPoint(); \
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} \
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}
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#endif
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#if BINARY_COMPATIBLE
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#define ASSERT_PASSIVE() (0)
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#else // !BINARY_COMPATIBLE
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#define ASSERT_PASSIVE() \
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ASSERT(KeGetCurrentIrql() < DISPATCH_LEVEL)
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#endif // !BINARY_COMPATIBLE
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//-----------------------------------------------------------------------------
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// Prototypes
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//-----------------------------------------------------------------------------
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VOID
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CheckList(
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IN LIST_ENTRY* pList,
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IN BOOLEAN fShowLinks );
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VOID
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Dump(
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CHAR* p,
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ULONG cb,
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BOOLEAN fAddress,
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ULONG ulGroup );
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VOID
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DumpLine(
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CHAR* p,
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ULONG cb,
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BOOLEAN fAddress,
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ULONG ulGroup );
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