VBoxTpG.cpp@ 58997

Last change on this file since 58997 was 58997, checked in by vboxsync, 9 years ago
VBoxTpG: Add stub macros for the two new ones. Make the indicator variables 'const volatile' as they can be changed by dtrace at any time but should never be changed by the application.
Property svn:eol-style set to `native` Property svn:keywords set to `Author Date Id Revision`
File size: 97.9 KB

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1	/* $Id: VBoxTpG.cpp 58997 2015-12-04 17:06:57Z vboxsync $ */
2	/** @file
3	* VBox Build Tool - VBox Tracepoint Generator.
4	*/
5
6	/*
7	* Copyright (C) 2012-2015 Oracle Corporation
8	*
9	* This file is part of VirtualBox Open Source Edition (OSE), as
10	* available from http://www.virtualbox.org. This file is free software;
11	* you can redistribute it and/or modify it under the terms of the GNU
12	* General Public License (GPL) as published by the Free Software
13	* Foundation, in version 2 as it comes in the "COPYING" file of the
14	* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15	* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16	*/
17
18
19	/*********************************************************************************************************************************
20	* Header Files *
21	*********************************************************************************************************************************/
22	#include <VBox/VBoxTpG.h>
23
24	#include <iprt/alloca.h>
25	#include <iprt/assert.h>
26	#include <iprt/ctype.h>
27	#include <iprt/env.h>
28	#include <iprt/err.h>
29	#include <iprt/file.h>
30	#include <iprt/getopt.h>
31	#include <iprt/initterm.h>
32	#include <iprt/list.h>
33	#include <iprt/mem.h>
34	#include <iprt/message.h>
35	#include <iprt/path.h>
36	#include <iprt/process.h>
37	#include <iprt/stream.h>
38	#include <iprt/string.h>
39	#include <iprt/uuid.h>
40
41	#include "scmstream.h"
42
43
44	/*********************************************************************************************************************************
45	* Structures and Typedefs *
46	*********************************************************************************************************************************/
47
48	typedef struct VTGATTRS
49	{
50	kVTGStability enmCode;
51	kVTGStability enmData;
52	kVTGClass enmDataDep;
53	} VTGATTRS;
54	typedef VTGATTRS *PVTGATTRS;
55
56
57	typedef struct VTGARG
58	{
59	RTLISTNODE ListEntry;
60	/** The argument name. (heap) */
61	char *pszName;
62	/** The type presented to the tracer (in string table). */
63	const char *pszTracerType;
64	/** The argument type used in the probe method in that context. (heap) */
65	char *pszCtxType;
66	/** Argument passing format string. First and only argument is the name.
67	* (const string) */
68	const char *pszArgPassingFmt;
69	/** The type flags. */
70	uint32_t fType;
71	} VTGARG;
72	typedef VTGARG *PVTGARG;
73
74	typedef struct VTGPROBE
75	{
76	RTLISTNODE ListEntry;
77	char *pszMangledName;
78	const char *pszUnmangledName;
79	RTLISTANCHOR ArgHead;
80	uint32_t cArgs;
81	bool fHaveLargeArgs;
82	uint32_t offArgList;
83	uint32_t iProbe;
84	} VTGPROBE;
85	typedef VTGPROBE *PVTGPROBE;
86
87	typedef struct VTGPROVIDER
88	{
89	RTLISTNODE ListEntry;
90	const char *pszName;
91
92	uint16_t iFirstProbe;
93	uint16_t cProbes;
94
95	VTGATTRS AttrSelf;
96	VTGATTRS AttrModules;
97	VTGATTRS AttrFunctions;
98	VTGATTRS AttrName;
99	VTGATTRS AttrArguments;
100
101	RTLISTANCHOR ProbeHead;
102	} VTGPROVIDER;
103	typedef VTGPROVIDER *PVTGPROVIDER;
104
105	/**
106	* A string table string.
107	*/
108	typedef struct VTGSTRING
109	{
110	/** The string space core. */
111	RTSTRSPACECORE Core;
112	/** The string table offset. */
113	uint32_t offStrTab;
114	/** The actual string. */
115	char szString[1];
116	} VTGSTRING;
117	typedef VTGSTRING *PVTGSTRING;
118
119
120	/*********************************************************************************************************************************
121	* Global Variables *
122	*********************************************************************************************************************************/
123	/** The string space organizing the string table strings. Each node is a VTGSTRING. */
124	static RTSTRSPACE g_StrSpace = NULL;
125	/** Used by the string table enumerator to set VTGSTRING::offStrTab. */
126	static uint32_t g_offStrTab;
127	/** List of providers created by the parser. */
128	static RTLISTANCHOR g_ProviderHead;
129	/** The number of type errors. */
130	static uint32_t g_cTypeErrors = 0;
131
132
133	/** @name Options
134	* @{ */
135	static enum
136	{
137	kVBoxTpGAction_Nothing,
138	kVBoxTpGAction_GenerateHeader,
139	kVBoxTpGAction_GenerateWrapperHeader,
140	kVBoxTpGAction_GenerateObject
141	} g_enmAction = kVBoxTpGAction_Nothing;
142	static uint32_t g_cBits = HC_ARCH_BITS;
143	static uint32_t g_cHostBits = HC_ARCH_BITS;
144	static uint32_t g_fTypeContext = VTG_TYPE_CTX_R0;
145	static const char *g_pszContextDefine = "IN_RING0";
146	static const char *g_pszContextDefine2 = NULL;
147	static bool g_fApplyCpp = false;
148	static uint32_t g_cVerbosity = 0;
149	static const char *g_pszOutput = NULL;
150	static const char *g_pszScript = NULL;
151	static const char *g_pszTempAsm = NULL;
152	#ifdef RT_OS_DARWIN
153	static const char *g_pszAssembler = "yasm";
154	static const char *g_pszAssemblerFmtOpt = "-f";
155	static const char g_szAssemblerFmtVal32[] = "macho32";
156	static const char g_szAssemblerFmtVal64[] = "macho64";
157	static const char g_szAssemblerOsDef[] = "RT_OS_DARWIN";
158	#elif defined(RT_OS_OS2)
159	static const char *pszAssembler = "nasm.exe";
160	static const char *pszAssemblerFmtOpt = "-f";
161	static const char g_szAssemblerFmtVal32[] = "obj";
162	static const char g_szAssemblerFmtVal64[] = "elf64";
163	static const char g_szAssemblerOsDef[] = "RT_OS_OS2";
164	#elif defined(RT_OS_WINDOWS)
165	static const char *g_pszAssembler = "yasm.exe";
166	static const char *g_pszAssemblerFmtOpt = "-f";
167	static const char g_szAssemblerFmtVal32[] = "win32";
168	static const char g_szAssemblerFmtVal64[] = "win64";
169	static const char g_szAssemblerOsDef[] = "RT_OS_WINDOWS";
170	#else
171	static const char *g_pszAssembler = "yasm";
172	static const char *g_pszAssemblerFmtOpt = "-f";
173	static const char g_szAssemblerFmtVal32[] = "elf32";
174	static const char g_szAssemblerFmtVal64[] = "elf64";
175	# ifdef RT_OS_FREEBSD
176	static const char g_szAssemblerOsDef[] = "RT_OS_FREEBSD";
177	# elif defined(RT_OS_NETBSD)
178	static const char g_szAssemblerOsDef[] = "RT_OS_NETBSD";
179	# elif defined(RT_OS_OPENBSD)
180	static const char g_szAssemblerOsDef[] = "RT_OS_OPENBSD";
181	# elif defined(RT_OS_LINUX)
182	static const char g_szAssemblerOsDef[] = "RT_OS_LINUX";
183	# elif defined(RT_OS_SOLARIS)
184	static const char g_szAssemblerOsDef[] = "RT_OS_SOLARIS";
185	# else
186	# error "Port me!"
187	# endif
188	#endif
189	static const char *g_pszAssemblerFmtVal = RT_CONCAT(g_szAssemblerFmtVal, HC_ARCH_BITS);
190	static const char *g_pszAssemblerDefOpt = "-D";
191	static const char *g_pszAssemblerIncOpt = "-I";
192	static char g_szAssemblerIncVal[RTPATH_MAX];
193	static const char *g_pszAssemblerIncVal = __FILE__ "/../../../include/";
194	static const char *g_pszAssemblerOutputOpt = "-o";
195	static unsigned g_cAssemblerOptions = 0;
196	static const char *g_apszAssemblerOptions[32];
197	static const char *g_pszProbeFnName = "SUPR0TracerFireProbe";
198	static bool g_fProbeFnImported = true;
199	static bool g_fPic = false;
200	/** @} */
201
202
203
204
205	/**
206	* Inserts a string into the string table, reusing any matching existing string
207	* if possible.
208	*
209	* @returns Read only string.
210	* @param pch The string to insert (need not be terminated).
211	* @param cch The length of the string.
212	*/
213	static const char strtabInsertN(const char pch, size_t cch)
214	{
215	PVTGSTRING pStr = (PVTGSTRING)RTStrSpaceGetN(&g_StrSpace, pch, cch);
216	if (pStr)
217	return pStr->szString;
218
219	/*
220	* Create a new entry.
221	*/
222	pStr = (PVTGSTRING)RTMemAlloc(RT_OFFSETOF(VTGSTRING, szString[cch + 1]));
223	if (!pStr)
224	return NULL;
225
226	pStr->Core.pszString = pStr->szString;
227	memcpy(pStr->szString, pch, cch);
228	pStr->szString[cch] = '\0';
229	pStr->offStrTab = UINT32_MAX;
230
231	bool fRc = RTStrSpaceInsert(&g_StrSpace, &pStr->Core);
232	Assert(fRc); NOREF(fRc);
233	return pStr->szString;
234	}
235
236
237	/**
238	* Retrieves the string table offset of the given string table string.
239	*
240	* @returns String table offset.
241	* @param pszStrTabString The string table string.
242	*/
243	static uint32_t strtabGetOff(const char *pszStrTabString)
244	{
245	PVTGSTRING pStr = RT_FROM_MEMBER(pszStrTabString, VTGSTRING, szString[0]);
246	Assert(pStr->Core.pszString == pszStrTabString);
247	return pStr->offStrTab;
248	}
249
250
251	/**
252	* Invokes the assembler.
253	*
254	* @returns Exit code.
255	* @param pszOutput The output file.
256	* @param pszTempAsm The source file.
257	*/
258	static RTEXITCODE generateInvokeAssembler(const char pszOutput, const char pszTempAsm)
259	{
260	const char *apszArgs[64];
261	unsigned iArg = 0;
262
263	apszArgs[iArg++] = g_pszAssembler;
264	apszArgs[iArg++] = g_pszAssemblerFmtOpt;
265	apszArgs[iArg++] = g_pszAssemblerFmtVal;
266	apszArgs[iArg++] = g_pszAssemblerDefOpt;
267	if (!strcmp(g_pszAssemblerFmtVal, "macho32") \|\| !strcmp(g_pszAssemblerFmtVal, "macho64"))
268	apszArgs[iArg++] = "ASM_FORMAT_MACHO";
269	else if (!strcmp(g_pszAssemblerFmtVal, "obj") \|\| !strcmp(g_pszAssemblerFmtVal, "omf"))
270	apszArgs[iArg++] = "ASM_FORMAT_OMF";
271	else if ( !strcmp(g_pszAssemblerFmtVal, "win32")
272	\|\| !strcmp(g_pszAssemblerFmtVal, "win64")
273	\|\| !strcmp(g_pszAssemblerFmtVal, "pe32")
274	\|\| !strcmp(g_pszAssemblerFmtVal, "pe64")
275	\|\| !strcmp(g_pszAssemblerFmtVal, "pe") )
276	apszArgs[iArg++] = "ASM_FORMAT_PE";
277	else if ( !strcmp(g_pszAssemblerFmtVal, "elf32")
278	\|\| !strcmp(g_pszAssemblerFmtVal, "elf64")
279	\|\| !strcmp(g_pszAssemblerFmtVal, "elf"))
280	apszArgs[iArg++] = "ASM_FORMAT_ELF";
281	else
282	return RTMsgErrorExit(RTEXITCODE_FAILURE, "Unknown assembler format '%s'", g_pszAssemblerFmtVal);
283	apszArgs[iArg++] = g_pszAssemblerDefOpt;
284	if (g_cBits == 32)
285	apszArgs[iArg++] = "ARCH_BITS=32";
286	else
287	apszArgs[iArg++] = "ARCH_BITS=64";
288	apszArgs[iArg++] = g_pszAssemblerDefOpt;
289	if (g_cHostBits == 32)
290	apszArgs[iArg++] = "HC_ARCH_BITS=32";
291	else
292	apszArgs[iArg++] = "HC_ARCH_BITS=64";
293	apszArgs[iArg++] = g_pszAssemblerDefOpt;
294	if (g_cBits == 32)
295	apszArgs[iArg++] = "RT_ARCH_X86";
296	else
297	apszArgs[iArg++] = "RT_ARCH_AMD64";
298	apszArgs[iArg++] = g_pszAssemblerDefOpt;
299	apszArgs[iArg++] = g_pszContextDefine;
300	if (g_pszContextDefine2)
301	{
302	apszArgs[iArg++] = g_pszAssemblerDefOpt;
303	apszArgs[iArg++] = g_pszContextDefine2;
304	}
305	if (g_szAssemblerOsDef[0])
306	{
307	apszArgs[iArg++] = g_pszAssemblerDefOpt;
308	apszArgs[iArg++] = g_szAssemblerOsDef;
309	}
310	apszArgs[iArg++] = g_pszAssemblerIncOpt;
311	apszArgs[iArg++] = g_pszAssemblerIncVal;
312	apszArgs[iArg++] = g_pszAssemblerOutputOpt;
313	apszArgs[iArg++] = pszOutput;
314	for (unsigned i = 0; i < g_cAssemblerOptions; i++)
315	apszArgs[iArg++] = g_apszAssemblerOptions[i];
316	apszArgs[iArg++] = pszTempAsm;
317	apszArgs[iArg] = NULL;
318	Assert(iArg <= RT_ELEMENTS(apszArgs));
319
320	if (g_cVerbosity > 1)
321	{
322	RTMsgInfo("Starting assmbler '%s' with arguments:\n", g_pszAssembler);
323	for (unsigned i = 0; i < iArg; i++)
324	RTMsgInfo(" #%02u: '%s'\n", i, apszArgs[i]);
325	}
326
327	RTPROCESS hProc;
328	int rc = RTProcCreate(apszArgs[0], apszArgs, RTENV_DEFAULT, RTPROC_FLAGS_SEARCH_PATH, &hProc);
329	if (RT_FAILURE(rc))
330	return RTMsgErrorExit(RTEXITCODE_FAILURE, "Failed to start '%s' (assembler): %Rrc", apszArgs[0], rc);
331
332	RTPROCSTATUS Status;
333	rc = RTProcWait(hProc, RTPROCWAIT_FLAGS_BLOCK, &Status);
334	if (RT_FAILURE(rc))
335	{
336	RTProcTerminate(hProc);
337	return RTMsgErrorExit(RTEXITCODE_FAILURE, "RTProcWait failed: %Rrc", rc);
338	}
339	if (Status.enmReason == RTPROCEXITREASON_SIGNAL)
340	return RTMsgErrorExit(RTEXITCODE_FAILURE, "The assembler failed: signal %d", Status.iStatus);
341	if (Status.enmReason != RTPROCEXITREASON_NORMAL)
342	return RTMsgErrorExit(RTEXITCODE_FAILURE, "The assembler failed: abend");
343	if (Status.iStatus != 0)
344	return RTMsgErrorExit((RTEXITCODE)Status.iStatus, "The assembler failed: exit code %d", Status.iStatus);
345
346	return RTEXITCODE_SUCCESS;
347	}
348
349
350	/**
351	* Worker that does the boring bits when generating a file.
352	*
353	* @returns Exit code.
354	* @param pszOutput The name of the output file.
355	* @param pszWhat What kind of file it is.
356	* @param pfnGenerator The callback function that provides the contents
357	* of the file.
358	*/
359	static RTEXITCODE generateFile(const char pszOutput, const char pszWhat,
360	RTEXITCODE (*pfnGenerator)(PSCMSTREAM))
361	{
362	SCMSTREAM Strm;
363	int rc = ScmStreamInitForWriting(&Strm, NULL);
364	if (RT_FAILURE(rc))
365	return RTMsgErrorExit(RTEXITCODE_FAILURE, "ScmStreamInitForWriting returned %Rrc when generating the %s file",
366	rc, pszWhat);
367
368	RTEXITCODE rcExit = pfnGenerator(&Strm);
369	if (RT_FAILURE(ScmStreamGetStatus(&Strm)))
370	rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "Stream error %Rrc generating the %s file",
371	ScmStreamGetStatus(&Strm), pszWhat);
372	if (rcExit == RTEXITCODE_SUCCESS)
373	{
374	rc = ScmStreamWriteToFile(&Strm, "%s", pszOutput);
375	if (RT_FAILURE(rc))
376	rcExit = RTMsgErrorExit(RTEXITCODE_FAILURE, "ScmStreamWriteToFile returned %Rrc when writing '%s' (%s)",
377	rc, pszOutput, pszWhat);
378	if (rcExit == RTEXITCODE_SUCCESS)
379	{
380	if (g_cVerbosity > 0)
381	RTMsgInfo("Successfully generated '%s'.", pszOutput);
382	if (g_cVerbosity > 1)
383	{
384	RTMsgInfo("================ %s - start ================", pszWhat);
385	ScmStreamRewindForReading(&Strm);
386	const char *pszLine;
387	size_t cchLine;
388	SCMEOL enmEol;
389	while ((pszLine = ScmStreamGetLine(&Strm, &cchLine, &enmEol)) != NULL)
390	RTPrintf("%.*s\n", cchLine, pszLine);
391	RTMsgInfo("================ %s - end ================", pszWhat);
392	}
393	}
394	}
395	ScmStreamDelete(&Strm);
396	return rcExit;
397	}
398
399
400	/**
401	* @callback_method_impl{FNRTSTRSPACECALLBACK, Writes the string table strings.}
402	*/
403	static DECLCALLBACK(int) generateAssemblyStrTabCallback(PRTSTRSPACECORE pStr, void *pvUser)
404	{
405	PVTGSTRING pVtgStr = (PVTGSTRING)pStr;
406	PSCMSTREAM pStrm = (PSCMSTREAM)pvUser;
407
408	pVtgStr->offStrTab = g_offStrTab;
409	g_offStrTab += (uint32_t)pVtgStr->Core.cchString + 1;
410
411	ScmStreamPrintf(pStrm,
412	" db '%s', 0 ; off=%u len=%zu\n",
413	pVtgStr->szString, pVtgStr->offStrTab, pVtgStr->Core.cchString);
414	return VINF_SUCCESS;
415	}
416
417
418	/**
419	* Generate assembly source that can be turned into an object file.
420	*
421	* (This is a generateFile callback.)
422	*
423	* @returns Exit code.
424	* @param pStrm The output stream.
425	*/
426	static RTEXITCODE generateAssembly(PSCMSTREAM pStrm)
427	{
428	PVTGPROVIDER pProvider;
429	PVTGPROBE pProbe;
430	PVTGARG pArg;
431
432
433	if (g_cVerbosity > 0)
434	RTMsgInfo("Generating assembly code...");
435
436	/*
437	* Write the file header.
438	*/
439	ScmStreamPrintf(pStrm,
440	"; $Id: VBoxTpG.cpp 58997 2015-12-04 17:06:57Z vboxsync $ \n"
441	";; @file\n"
442	"; Automatically generated from %s. Do NOT edit!\n"
443	";\n"
444	"\n"
445	"%%include \"iprt/asmdefs.mac\"\n"
446	"\n"
447	"\n"
448	";"
449	"; We put all the data in a dedicated section / segment.\n"
450	";\n"
451	"; In order to find the probe location specifiers, we do the necessary\n"
452	"; trickery here, ASSUMING that this object comes in first in the link\n"
453	"; editing process.\n"
454	";\n"
455	"%%ifdef ASM_FORMAT_OMF\n"
456	" %%macro VTG_GLOBAL 2\n"
457	" global NAME(%%1)\n"
458	" NAME(%%1):\n"
459	" %%endmacro\n"
460	" segment VTG.Obj public CLASS=VTG align=4096 use32\n"
461	"\n"
462	"%%elifdef ASM_FORMAT_MACHO\n"
463	" %%macro VTG_GLOBAL 2\n"
464	" global NAME(%%1)\n"
465	" NAME(%%1):\n"
466	" %%endmacro\n"
467	" %%ifdef IN_RING3\n"
468	" %%define VTG_NEW_MACHO_LINKER\n"
469	" %%elif ARCH_BITS == 64\n"
470	" %%define VTG_NEW_MACHO_LINKER\n"
471	" %%elifdef IN_RING0_AGNOSTIC\n"
472	" %%define VTG_NEW_MACHO_LINKER\n"
473	" %%endif\n"
474	" %%ifdef VTG_NEW_MACHO_LINKER\n"
475	" ; Section order hack!\n"
476	" ; With the ld64-97.17 linker there was a problem with it determining the section\n"
477	" ; order based on symbol references. The references to the start and end of the\n"
478	" ; __VTGPrLc section forced it in front of __VTGObj, we want __VTGObj first.\n"
479	" extern section$start$__VTG$__VTGObj\n"
480	" extern section$end$__VTG$__VTGObj\n"
481	" %%else\n"
482	" ; Creating 32-bit kext of the type MH_OBJECT. No fancy section end/start symbols handy.\n"
483	" [section __VTG __VTGObj align=16]\n"
484	"VTG_GLOBAL g_aVTGObj_LinkerPleaseNoticeMe, data\n"
485	" [section __VTG __VTGPrLc.Begin align=16]\n"
486	" dq 0, 0 ; Paranoia, related to the fudge below.\n"
487	"VTG_GLOBAL g_aVTGPrLc, data\n"
488	" [section __VTG __VTGPrLc align=16]\n"
489	"VTG_GLOBAL g_aVTGPrLc_LinkerPleaseNoticeMe, data\n"
490	" [section __VTG __VTGPrLc.End align=16]\n"
491	"VTG_GLOBAL g_aVTGPrLc_End, data\n"
492	" dq 0, 0 ; Fudge to work around unidentified linker where it would otherwise generate\n"
493	" ; a fix up of the first dword in __VTGPrLc.Begin despite the fact that it were\n"
494	" ; an empty section with nothing whatsoever to fix up.\n"
495	" %%endif\n"
496	" [section __VTG __VTGObj]\n"
497	"\n"
498	"%%elifdef ASM_FORMAT_PE\n"
499	" %%macro VTG_GLOBAL 2\n"
500	" global NAME(%%1)\n"
501	" NAME(%%1):\n"
502	" %%endmacro\n"
503	" [section VTGPrLc.Begin data align=64]\n"
504	/" times 16 db 0xcc\n"/
505	"VTG_GLOBAL g_aVTGPrLc, data\n"
506	" [section VTGPrLc.Data data align=4]\n"
507	" [section VTGPrLc.End data align=4]\n"
508	"VTG_GLOBAL g_aVTGPrLc_End, data\n"
509	/" times 16 db 0xcc\n"/
510	" [section VTGObj data align=32]\n"
511	"\n"
512	"%%elifdef ASM_FORMAT_ELF\n"
513	" %%macro VTG_GLOBAL 2\n"
514	" global NAME(%%1):%%2 hidden\n"
515	" NAME(%%1):\n"
516	" %%endmacro\n"
517	" [section .VTGData progbits alloc noexec write align=4096]\n"
518	" [section .VTGPrLc.Begin progbits alloc noexec write align=32]\n"
519	" dd 0,0,0,0, 0,0,0,0\n"
520	"VTG_GLOBAL g_aVTGPrLc, data\n"
521	" [section .VTGPrLc progbits alloc noexec write align=1]\n"
522	" [section .VTGPrLc.End progbits alloc noexec write align=1]\n"
523	"VTG_GLOBAL g_aVTGPrLc_End, data\n"
524	" dd 0,0,0,0, 0,0,0,0\n"
525	" [section .VTGData]\n"
526	"\n"
527	"%%else\n"
528	" %%error \"ASM_FORMAT_XXX is not defined\"\n"
529	"%%endif\n"
530	"\n"
531	"\n"
532	"VTG_GLOBAL g_VTGObjHeader, data\n"
533	" ;0 1 2 3\n"
534	" ;012345678901234567890123456789012\n"
535	" db 'VTG Object Header v1.7', 0, 0\n"
536	" dd %u\n"
537	" dd NAME(g_acVTGProbeEnabled_End) - NAME(g_VTGObjHeader)\n"
538	" dd NAME(g_achVTGStringTable) - NAME(g_VTGObjHeader)\n"
539	" dd NAME(g_achVTGStringTable_End) - NAME(g_achVTGStringTable)\n"
540	" dd NAME(g_aVTGArgLists) - NAME(g_VTGObjHeader)\n"
541	" dd NAME(g_aVTGArgLists_End) - NAME(g_aVTGArgLists)\n"
542	" dd NAME(g_aVTGProbes) - NAME(g_VTGObjHeader)\n"
543	" dd NAME(g_aVTGProbes_End) - NAME(g_aVTGProbes)\n"
544	" dd NAME(g_aVTGProviders) - NAME(g_VTGObjHeader)\n"
545	" dd NAME(g_aVTGProviders_End) - NAME(g_aVTGProviders)\n"
546	" dd NAME(g_acVTGProbeEnabled) - NAME(g_VTGObjHeader)\n"
547	" dd NAME(g_acVTGProbeEnabled_End) - NAME(g_acVTGProbeEnabled)\n"
548	" dd 0\n"
549	" dd 0\n"
550	"%%ifdef VTG_NEW_MACHO_LINKER\n"
551	" extern section$start$__VTG$__VTGPrLc\n"
552	" RTCCPTR_DEF section$start$__VTG$__VTGPrLc\n"
553	" %%if ARCH_BITS == 32\n"
554	" dd 0\n"
555	" %%endif\n"
556	" extern section$end$__VTG$__VTGPrLc\n"
557	" RTCCPTR_DEF section$end$__VTG$__VTGPrLc\n"
558	" %%if ARCH_BITS == 32\n"
559	" dd 0\n"
560	" %%endif\n"
561	"%%else\n"
562	" RTCCPTR_DEF NAME(g_aVTGPrLc)\n"
563	" %%if ARCH_BITS == 32\n"
564	" dd 0\n"
565	" %%endif\n"
566	" RTCCPTR_DEF NAME(g_aVTGPrLc_End)\n"
567	" %%if ARCH_BITS == 32\n"
568	" dd 0\n"
569	" %%endif\n"
570	"%%endif\n"
571	,
572	g_pszScript, g_cBits);
573	RTUUID Uuid;
574	int rc = RTUuidCreate(&Uuid);
575	if (RT_FAILURE(rc))
576	return RTMsgErrorExit(RTEXITCODE_FAILURE, "RTUuidCreate failed: %Rrc", rc);
577	ScmStreamPrintf(pStrm,
578	" dd 0%08xh, 0%08xh, 0%08xh, 0%08xh\n"
579	"%%ifdef VTG_NEW_MACHO_LINKER\n"
580	" RTCCPTR_DEF section$start$__VTG$__VTGObj\n"
581	" %%if ARCH_BITS == 32\n"
582	" dd 0\n"
583	" %%endif\n"
584	"%%else\n"
585	" dd 0, 0\n"
586	"%%endif\n"
587	" dd 0, 0\n"
588	, Uuid.au32[0], Uuid.au32[1], Uuid.au32[2], Uuid.au32[3]);
589
590	/*
591	* Dump the string table before we start using the strings.
592	*/
593	ScmStreamPrintf(pStrm,
594	"\n"
595	";\n"
596	"; The string table.\n"
597	";\n"
598	"VTG_GLOBAL g_achVTGStringTable, data\n");
599	g_offStrTab = 0;
600	RTStrSpaceEnumerate(&g_StrSpace, generateAssemblyStrTabCallback, pStrm);
601	ScmStreamPrintf(pStrm,
602	"VTG_GLOBAL g_achVTGStringTable_End, data\n");
603
604	/*
605	* Write out the argument lists before we use them.
606	*/
607	ScmStreamPrintf(pStrm,
608	"\n"
609	";\n"
610	"; The argument lists.\n"
611	";\n"
612	"ALIGNDATA(16)\n"
613	"VTG_GLOBAL g_aVTGArgLists, data\n");
614	uint32_t off = 0;
615	RTListForEach(&g_ProviderHead, pProvider, VTGPROVIDER, ListEntry)
616	{
617	RTListForEach(&pProvider->ProbeHead, pProbe, VTGPROBE, ListEntry)
618	{
619	if (pProbe->offArgList != UINT32_MAX)
620	continue;
621
622	/* Write it. */
623	pProbe->offArgList = off;
624	ScmStreamPrintf(pStrm,
625	" ; off=%u\n"
626	" db %2u ; Argument count\n"
627	" db %u ; fHaveLargeArgs\n"
628	" db 0, 0 ; Reserved\n"
629	, off, pProbe->cArgs, (int)pProbe->fHaveLargeArgs);
630	off += 4;
631	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
632	{
633	ScmStreamPrintf(pStrm,
634	" dd %8u ; type '%s' (name '%s')\n"
635	" dd 0%08xh ; type flags\n",
636	strtabGetOff(pArg->pszTracerType), pArg->pszTracerType, pArg->pszName,
637	pArg->fType);
638	off += 8;
639	}
640
641	/* Look for matching argument lists (lazy bird walks the whole list). */
642	PVTGPROVIDER pProv2;
643	RTListForEach(&g_ProviderHead, pProv2, VTGPROVIDER, ListEntry)
644	{
645	PVTGPROBE pProbe2;
646	RTListForEach(&pProvider->ProbeHead, pProbe2, VTGPROBE, ListEntry)
647	{
648	if (pProbe2->offArgList != UINT32_MAX)
649	continue;
650	if (pProbe2->cArgs != pProbe->cArgs)
651	continue;
652
653	PVTGARG pArg2;
654	pArg = RTListNodeGetNext(&pProbe->ArgHead, VTGARG, ListEntry);
655	pArg2 = RTListNodeGetNext(&pProbe2->ArgHead, VTGARG, ListEntry);
656	int32_t cArgs = pProbe->cArgs;
657	while ( cArgs-- > 0
658	&& pArg2->pszTracerType == pArg->pszTracerType
659	&& pArg2->fType == pArg->fType)
660	{
661	pArg = RTListNodeGetNext(&pArg->ListEntry, VTGARG, ListEntry);
662	pArg2 = RTListNodeGetNext(&pArg2->ListEntry, VTGARG, ListEntry);
663	}
664	if (cArgs >= 0)
665	continue;
666	pProbe2->offArgList = pProbe->offArgList;
667	}
668	}
669	}
670	}
671	ScmStreamPrintf(pStrm,
672	"VTG_GLOBAL g_aVTGArgLists_End, data\n");
673
674
675	/*
676	* Probe definitions.
677	*/
678	ScmStreamPrintf(pStrm,
679	"\n"
680	";\n"
681	"; Prob definitions.\n"
682	";\n"
683	"ALIGNDATA(16)\n"
684	"VTG_GLOBAL g_aVTGProbes, data\n"
685	"\n");
686	uint32_t iProvider = 0;
687	uint32_t iProbe = 0;
688	RTListForEach(&g_ProviderHead, pProvider, VTGPROVIDER, ListEntry)
689	{
690	pProvider->iFirstProbe = iProbe;
691	RTListForEach(&pProvider->ProbeHead, pProbe, VTGPROBE, ListEntry)
692	{
693	ScmStreamPrintf(pStrm,
694	"VTG_GLOBAL g_VTGProbeData_%s_%s, data ; idx=#%4u\n"
695	" dd %6u ; offName\n"
696	" dd %6u ; offArgList\n"
697	" dw (NAME(g_cVTGProbeEnabled_%s_%s) - NAME(g_acVTGProbeEnabled)) / 4 ; idxEnabled\n"
698	" dw %6u ; idxProvider\n"
699	" dd NAME(g_VTGObjHeader) - NAME(g_VTGProbeData_%s_%s) ; offObjHdr\n"
700	,
701	pProvider->pszName, pProbe->pszMangledName, iProbe,
702	strtabGetOff(pProbe->pszUnmangledName),
703	pProbe->offArgList,
704	pProvider->pszName, pProbe->pszMangledName,
705	iProvider,
706	pProvider->pszName, pProbe->pszMangledName
707	);
708	pProbe->iProbe = iProbe;
709	iProbe++;
710	}
711	pProvider->cProbes = iProbe - pProvider->iFirstProbe;
712	iProvider++;
713	}
714	ScmStreamPrintf(pStrm, "VTG_GLOBAL g_aVTGProbes_End, data\n");
715
716	/*
717	* The provider data.
718	*/
719	ScmStreamPrintf(pStrm,
720	"\n"
721	";\n"
722	"; Provider data.\n"
723	";\n"
724	"ALIGNDATA(16)\n"
725	"VTG_GLOBAL g_aVTGProviders, data\n");
726	iProvider = 0;
727	RTListForEach(&g_ProviderHead, pProvider, VTGPROVIDER, ListEntry)
728	{
729	ScmStreamPrintf(pStrm,
730	" ; idx=#%4u - %s\n"
731	" dd %6u ; name\n"
732	" dw %6u ; index of first probe\n"
733	" dw %6u ; count of probes\n"
734	" db %d, %d, %d ; AttrSelf\n"
735	" db %d, %d, %d ; AttrModules\n"
736	" db %d, %d, %d ; AttrFunctions\n"
737	" db %d, %d, %d ; AttrName\n"
738	" db %d, %d, %d ; AttrArguments\n"
739	" db 0 ; reserved\n"
740	"VTG_GLOBAL g_cVTGProviderProbesEnabled_%s, data\n"
741	" dd 0\n"
742	"VTG_GLOBAL g_cVTGProviderSettingsSeqNo_%s, data\n"
743	" dd 0\n"
744	,
745	iProvider, pProvider->pszName,
746	strtabGetOff(pProvider->pszName),
747	pProvider->iFirstProbe,
748	pProvider->cProbes,
749	pProvider->AttrSelf.enmCode, pProvider->AttrSelf.enmData, pProvider->AttrSelf.enmDataDep,
750	pProvider->AttrModules.enmCode, pProvider->AttrModules.enmData, pProvider->AttrModules.enmDataDep,
751	pProvider->AttrFunctions.enmCode, pProvider->AttrFunctions.enmData, pProvider->AttrFunctions.enmDataDep,
752	pProvider->AttrName.enmCode, pProvider->AttrName.enmData, pProvider->AttrName.enmDataDep,
753	pProvider->AttrArguments.enmCode, pProvider->AttrArguments.enmData, pProvider->AttrArguments.enmDataDep,
754	pProvider->pszName,
755	pProvider->pszName);
756	iProvider++;
757	}
758	ScmStreamPrintf(pStrm, "VTG_GLOBAL g_aVTGProviders_End, data\n");
759
760	/*
761	* Declare the probe enable flags.
762	*
763	* These must be placed at the end so they'll end up adjacent to the probe
764	* locations. This is important for reducing the amount of memory we need
765	* to lock down for user mode modules.
766	*/
767	ScmStreamPrintf(pStrm,
768	";\n"
769	"; Probe enabled flags.\n"
770	";\n"
771	"ALIGNDATA(16)\n"
772	"VTG_GLOBAL g_acVTGProbeEnabled, data\n"
773	);
774	uint32_t cProbes = 0;
775	RTListForEach(&g_ProviderHead, pProvider, VTGPROVIDER, ListEntry)
776	{
777	RTListForEach(&pProvider->ProbeHead, pProbe, VTGPROBE, ListEntry)
778	{
779	ScmStreamPrintf(pStrm,
780	"VTG_GLOBAL g_cVTGProbeEnabled_%s_%s, data\n"
781	" dd 0\n",
782	pProvider->pszName, pProbe->pszMangledName);
783	cProbes++;
784	}
785	}
786	ScmStreamPrintf(pStrm, "VTG_GLOBAL g_acVTGProbeEnabled_End, data\n");
787	if (cProbes >= _32K)
788	return RTMsgErrorExit(RTEXITCODE_FAILURE, "Too many probes: %u (max %u)", cProbes, _32K - 1);
789
790
791	/*
792	* Emit code for the stub functions.
793	*/
794	bool const fWin64 = g_cBits == 64 && (!strcmp(g_pszAssemblerFmtVal, "win64") \|\| !strcmp(g_pszAssemblerFmtVal, "pe64"));
795	bool const fElf = !strcmp(g_pszAssemblerFmtVal, "elf32") \|\| !strcmp(g_pszAssemblerFmtVal, "elf64");
796	ScmStreamPrintf(pStrm,
797	"\n"
798	";\n"
799	"; Prob stubs.\n"
800	";\n"
801	"BEGINCODE\n"
802	);
803	if (g_fProbeFnImported)
804	ScmStreamPrintf(pStrm,
805	"EXTERN_IMP2 %s\n"
806	"BEGINCODE ; EXTERN_IMP2 changes section\n",
807	g_pszProbeFnName);
808	else
809	ScmStreamPrintf(pStrm, "extern NAME(%s)\n", g_pszProbeFnName);
810
811	RTListForEach(&g_ProviderHead, pProvider, VTGPROVIDER, ListEntry)
812	{
813	RTListForEach(&pProvider->ProbeHead, pProbe, VTGPROBE, ListEntry)
814	{
815	ScmStreamPrintf(pStrm,
816	"\n"
817	"VTG_GLOBAL VTGProbeStub_%s_%s, function; (VBOXTPGPROBELOC pVTGProbeLoc",
818	pProvider->pszName, pProbe->pszMangledName);
819	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
820	{
821	ScmStreamPrintf(pStrm, ", %s %s", pArg->pszTracerType, pArg->pszName);
822	}
823	ScmStreamPrintf(pStrm,
824	");\n");
825
826	/*
827	* Check if the probe in question is enabled.
828	*/
829	if (g_cBits == 32)
830	ScmStreamPrintf(pStrm,
831	" mov eax, [esp + 4]\n"
832	" test byte [eax+3], 0x80 ; fEnabled == true?\n"
833	" jz .return ; jump on false\n");
834	else if (fWin64)
835	ScmStreamPrintf(pStrm,
836	" test byte [rcx+3], 0x80 ; fEnabled == true?\n"
837	" jz .return ; jump on false\n");
838	else
839	ScmStreamPrintf(pStrm,
840	" test byte [rdi+3], 0x80 ; fEnabled == true?\n"
841	" jz .return ; jump on false\n");
842
843	/*
844	* Jump to the fire-probe function.
845	*/
846	if (g_cBits == 32)
847	ScmStreamPrintf(pStrm, g_fPic && fElf ?
848	" jmp %s wrt ..plt\n"
849	: g_fProbeFnImported ?
850	" mov ecx, IMP2(%s)\n"
851	" jmp ecx\n"
852	:
853	" jmp NAME(%s)\n"
854	, g_pszProbeFnName);
855	else
856	ScmStreamPrintf(pStrm, g_fPic && fElf ?
857	" jmp [rel %s wrt ..got]\n"
858	: g_fProbeFnImported ?
859	" jmp IMP2(%s)\n"
860	:
861	" jmp NAME(%s)\n"
862	, g_pszProbeFnName);
863
864	ScmStreamPrintf(pStrm,
865	".return:\n"
866	" ret ; The probe was disabled, return\n"
867	"\n");
868	}
869	}
870
871	return RTEXITCODE_SUCCESS;
872	}
873
874
875	static RTEXITCODE generateObject(const char pszOutput, const char pszTempAsm)
876	{
877	if (!pszTempAsm)
878	{
879	size_t cch = strlen(pszOutput);
880	char psz = (char )alloca(cch + sizeof(".asm"));
881	memcpy(psz, pszOutput, cch);
882	memcpy(psz + cch, ".asm", sizeof(".asm"));
883	pszTempAsm = psz;
884	}
885
886	RTEXITCODE rcExit = generateFile(pszTempAsm, "assembly", generateAssembly);
887	if (rcExit == RTEXITCODE_SUCCESS)
888	rcExit = generateInvokeAssembler(pszOutput, pszTempAsm);
889	RTFileDelete(pszTempAsm);
890	return rcExit;
891	}
892
893
894	static RTEXITCODE generateProbeDefineName(char pszBuf, size_t cbBuf, const char pszProvider, const char *pszProbe)
895	{
896	size_t cbMax = strlen(pszProvider) + 1 + strlen(pszProbe) + 1;
897	if (cbMax > cbBuf \|\| cbMax > 80)
898	return RTMsgErrorExit(RTEXITCODE_FAILURE, "Probe '%s' in provider '%s' ends up with a too long defined\n", pszProbe, pszProvider);
899
900	while (*pszProvider)
901	pszBuf++ = RT_C_TO_UPPER(pszProvider++);
902
903	*pszBuf++ = '_';
904
905	while (*pszProbe)
906	{
907	if (pszProbe[0] == '_' && pszProbe[1] == '_')
908	pszProbe++;
909	pszBuf++ = RT_C_TO_UPPER(pszProbe++);
910	}
911
912	*pszBuf = '\0';
913	return RTEXITCODE_SUCCESS;
914	}
915
916
917	static RTEXITCODE generateProviderDefineName(char pszBuf, size_t cbBuf, const char pszProvider)
918	{
919	size_t cbMax = strlen(pszProvider) + 1;
920	if (cbMax > cbBuf \|\| cbMax > 80)
921	return RTMsgErrorExit(RTEXITCODE_FAILURE, "Provider '%s' ends up with a too long defined\n", pszProvider);
922
923	while (*pszProvider)
924	pszBuf++ = RT_C_TO_UPPER(pszProvider++);
925
926	*pszBuf = '\0';
927	return RTEXITCODE_SUCCESS;
928	}
929
930
931	/**
932	* Called via generateFile to generate the header file.
933	*
934	* @returns Exit code status.
935	* @param pStrm The output stream.
936	*/
937	static RTEXITCODE generateHeader(PSCMSTREAM pStrm)
938	{
939	/*
940	* Calc the double inclusion blocker define and then write the file header.
941	*/
942	char szTmp[4096];
943	const char *pszName = RTPathFilename(g_pszScript);
944	size_t cchName = strlen(pszName);
945	if (cchName >= sizeof(szTmp) - 64)
946	return RTMsgErrorExit(RTEXITCODE_FAILURE, "File name is too long '%s'", pszName);
947	szTmp[0] = '_';
948	szTmp[1] = '_';
949	szTmp[2] = '_';
950	memcpy(&szTmp[3], pszName, cchName);
951	szTmp[3 + cchName + 0] = '_';
952	szTmp[3 + cchName + 1] = '_';
953	szTmp[3 + cchName + 2] = '_';
954	szTmp[3 + cchName + 3] = '\0';
955	char *psz = &szTmp[3];
956	while (*psz)
957	{
958	if (!RT_C_IS_ALNUM(psz) && psz != '_')
959	*psz = '_';
960	psz++;
961	}
962
963	ScmStreamPrintf(pStrm,
964	"/* $Id: VBoxTpG.cpp 58997 2015-12-04 17:06:57Z vboxsync $ */\n"
965	"/** @file\n"
966	" * Automatically generated from %s. Do NOT edit!\n"
967	" */\n"
968	"\n"
969	"#ifndef %s\n"
970	"#define %s\n"
971	"\n"
972	"#include <VBox/VBoxTpG.h>\n"
973	"\n"
974	"#ifndef %s\n"
975	"# error \"Expected '%s' to be defined\"\n"
976	"#endif\n"
977	"\n"
978	"RT_C_DECLS_BEGIN\n"
979	"\n"
980	"#ifdef VBOX_WITH_DTRACE\n"
981	"\n"
982	"# ifdef _MSC_VER\n"
983	"# pragma data_seg(VTG_LOC_SECT)\n"
984	"# pragma data_seg()\n"
985	"# endif\n"
986	"\n"
987	,
988	g_pszScript,
989	szTmp,
990	szTmp,
991	g_pszContextDefine,
992	g_pszContextDefine);
993
994	/*
995	* Declare data, code and macros for each probe.
996	*/
997	PVTGPROVIDER pProv;
998	PVTGPROBE pProbe;
999	PVTGARG pArg;
1000	RTListForEach(&g_ProviderHead, pProv, VTGPROVIDER, ListEntry)
1001	{
1002	/* This macro is not available in ring-3 because we don't have
1003	anything similar available for native dtrace. */
1004	ScmStreamPrintf(pStrm, "\n\n");
1005	if (g_fTypeContext != VTG_TYPE_CTX_R3)
1006	{
1007	generateProviderDefineName(szTmp, sizeof(szTmp), pProv->pszName);
1008	ScmStreamPrintf(pStrm,
1009	"extern uint32_t const volatile g_cVTGProviderProbesEnabled_%s;\n"
1010	"# define %s_ANY_PROBES_ENABLED() \\\n"
1011	" (RT_UNLIKELY(g_cVTGProviderProbesEnabled_%s != 0))\n"
1012	"extern uint32_t const volatile g_cVTGProviderSettingsSeqNo_%s;\n"
1013	"# define %s_GET_SETTINGS_SEQ_NO() (g_cVTGProviderSettingsSeqNo_%s)\n"
1014	"\n",
1015	pProv->pszName,
1016	szTmp, pProv->pszName,
1017	pProv->pszName,
1018	szTmp, pProv->pszName);
1019	}
1020
1021	RTListForEach(&pProv->ProbeHead, pProbe, VTGPROBE, ListEntry)
1022	{
1023	PVTGARG const pFirstArg = RTListGetFirst(&pProbe->ArgHead, VTGARG, ListEntry);
1024
1025	ScmStreamPrintf(pStrm,
1026	"extern uint32_t const volatile g_cVTGProbeEnabled_%s_%s;\n"
1027	"extern VTGDESCPROBE g_VTGProbeData_%s_%s;\n"
1028	"DECLASM(void) VTGProbeStub_%s_%s(PVTGPROBELOC",
1029	pProv->pszName, pProbe->pszMangledName,
1030	pProv->pszName, pProbe->pszMangledName,
1031	pProv->pszName, pProbe->pszMangledName);
1032	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
1033	{
1034	ScmStreamPrintf(pStrm, ", %s", pArg->pszCtxType);
1035	}
1036	generateProbeDefineName(szTmp, sizeof(szTmp), pProv->pszName, pProbe->pszMangledName);
1037	ScmStreamPrintf(pStrm,
1038	");\n"
1039	"# define %s_ENABLED() (RT_UNLIKELY(g_cVTGProbeEnabled_%s_%s != 0))\n"
1040	"# define %s_ENABLED_RAW() (g_cVTGProbeEnabled_%s_%s)\n"
1041	"# define %s("
1042	,
1043	szTmp, pProv->pszName, pProbe->pszMangledName,
1044	szTmp, pProv->pszName, pProbe->pszMangledName,
1045	szTmp);
1046	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
1047	{
1048	if (RTListNodeIsFirst(&pProbe->ArgHead, &pArg->ListEntry))
1049	ScmStreamPrintf(pStrm, "%s", pArg->pszName);
1050	else
1051	ScmStreamPrintf(pStrm, ", %s", pArg->pszName);
1052	}
1053	ScmStreamPrintf(pStrm,
1054	") \\\n"
1055	" do { \\\n"
1056	" if (RT_UNLIKELY(g_cVTGProbeEnabled_%s_%s)) \\\n"
1057	" { \\\n"
1058	" VTG_DECL_VTGPROBELOC(s_VTGProbeLoc) = \\\n"
1059	" { __LINE__, 0, 0, __FUNCTION__, &g_VTGProbeData_%s_%s }; \\\n"
1060	" VTGProbeStub_%s_%s(&s_VTGProbeLoc",
1061	pProv->pszName, pProbe->pszMangledName,
1062	pProv->pszName, pProbe->pszMangledName,
1063	pProv->pszName, pProbe->pszMangledName);
1064	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
1065	{
1066	ScmStreamPrintf(pStrm, pArg->pszArgPassingFmt, pArg->pszName);
1067	}
1068	ScmStreamPrintf(pStrm,
1069	"); \\\n"
1070	" } \\\n"
1071	" { \\\n" );
1072	uint32_t iArg = 0;
1073	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
1074	{
1075	if ((pArg->fType & (VTG_TYPE_FIXED_SIZED \| VTG_TYPE_AUTO_CONV_PTR)) == VTG_TYPE_FIXED_SIZED)
1076	ScmStreamPrintf(pStrm,
1077	" AssertCompile(sizeof(%s) == %u); \\\n"
1078	" AssertCompile(sizeof(%s) <= %u); \\\n",
1079	pArg->pszTracerType, pArg->fType & VTG_TYPE_SIZE_MASK,
1080	pArg->pszName, pArg->fType & VTG_TYPE_SIZE_MASK);
1081	else if (pArg->fType & (VTG_TYPE_POINTER \| VTG_TYPE_HC_ARCH_SIZED))
1082	ScmStreamPrintf(pStrm,
1083	" AssertCompile(sizeof(%s) <= sizeof(uintptr_t)); \\\n"
1084	" AssertCompile(sizeof(%s) <= sizeof(uintptr_t)); \\\n",
1085	pArg->pszName,
1086	pArg->pszTracerType);
1087	iArg++;
1088	}
1089	ScmStreamPrintf(pStrm,
1090	" } \\\n"
1091	" } while (0)\n"
1092	"\n");
1093	}
1094	}
1095
1096	ScmStreamPrintf(pStrm,
1097	"\n"
1098	"#else\n"
1099	"\n");
1100	RTListForEach(&g_ProviderHead, pProv, VTGPROVIDER, ListEntry)
1101	{
1102	if (g_fTypeContext != VTG_TYPE_CTX_R3)
1103	{
1104	generateProviderDefineName(szTmp, sizeof(szTmp), pProv->pszName);
1105	ScmStreamPrintf(pStrm,
1106	"# define %s_ANY_PROBES_ENABLED() (false)\n"
1107	"# define %s_GET_SETTINGS_SEQ_NO() UINT32_C(0)\n"
1108	"\n",
1109	szTmp, szTmp);
1110	}
1111
1112	RTListForEach(&pProv->ProbeHead, pProbe, VTGPROBE, ListEntry)
1113	{
1114	generateProbeDefineName(szTmp, sizeof(szTmp), pProv->pszName, pProbe->pszMangledName);
1115	ScmStreamPrintf(pStrm,
1116	"# define %s_ENABLED() (false)\n"
1117	"# define %s_ENABLED_RAW() UINT32_C(0)\n"
1118	"# define %s("
1119	, szTmp, szTmp, szTmp);
1120	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
1121	{
1122	if (RTListNodeIsFirst(&pProbe->ArgHead, &pArg->ListEntry))
1123	ScmStreamPrintf(pStrm, "%s", pArg->pszName);
1124	else
1125	ScmStreamPrintf(pStrm, ", %s", pArg->pszName);
1126	}
1127	ScmStreamPrintf(pStrm,
1128	") do { } while (0)\n");
1129	}
1130	}
1131
1132	ScmStreamWrite(pStrm, RT_STR_TUPLE("\n"
1133	"#endif\n"
1134	"\n"
1135	"RT_C_DECLS_END\n"
1136	"#endif\n"));
1137	return RTEXITCODE_SUCCESS;
1138	}
1139
1140
1141	/**
1142	* Called via generateFile to generate the wrapper header file.
1143	*
1144	* @returns Exit code status.
1145	* @param pStrm The output stream.
1146	*/
1147	static RTEXITCODE generateWrapperHeader(PSCMSTREAM pStrm)
1148	{
1149	/*
1150	* Calc the double inclusion blocker define and then write the file header.
1151	*/
1152	char szTmp[4096];
1153	const char *pszName = RTPathFilename(g_pszScript);
1154	size_t cchName = strlen(pszName);
1155	if (cchName >= sizeof(szTmp) - 64)
1156	return RTMsgErrorExit(RTEXITCODE_FAILURE, "File name is too long '%s'", pszName);
1157	szTmp[0] = '_';
1158	szTmp[1] = '_';
1159	szTmp[2] = '_';
1160	memcpy(&szTmp[3], pszName, cchName);
1161	strcpy(&szTmp[3 + cchName ], "___WRAPPER___");
1162	char *psz = &szTmp[3];
1163	while (*psz)
1164	{
1165	if (!RT_C_IS_ALNUM(psz) && psz != '_')
1166	*psz = '_';
1167	psz++;
1168	}
1169
1170	ScmStreamPrintf(pStrm,
1171	"/* $Id: VBoxTpG.cpp 58997 2015-12-04 17:06:57Z vboxsync $ */\n"
1172	"/** @file\n"
1173	" * Automatically generated from %s. Do NOT edit!\n"
1174	" */\n"
1175	"\n"
1176	"#ifndef %s\n"
1177	"#define %s\n"
1178	"\n"
1179	"#include <VBox/VBoxTpG.h>\n"
1180	"\n"
1181	"#ifndef %s\n"
1182	"# error \"Expected '%s' to be defined\"\n"
1183	"#endif\n"
1184	"\n"
1185	"#ifdef VBOX_WITH_DTRACE\n"
1186	"\n"
1187	,
1188	g_pszScript,
1189	szTmp,
1190	szTmp,
1191	g_pszContextDefine,
1192	g_pszContextDefine);
1193
1194	/*
1195	* Declare macros for each probe.
1196	*/
1197	PVTGPROVIDER pProv;
1198	PVTGPROBE pProbe;
1199	PVTGARG pArg;
1200	RTListForEach(&g_ProviderHead, pProv, VTGPROVIDER, ListEntry)
1201	{
1202	RTListForEach(&pProv->ProbeHead, pProbe, VTGPROBE, ListEntry)
1203	{
1204	PVTGARG const pFirstArg = RTListGetFirst(&pProbe->ArgHead, VTGARG, ListEntry);
1205
1206	generateProbeDefineName(szTmp, sizeof(szTmp), pProv->pszName, pProbe->pszMangledName);
1207	ScmStreamPrintf(pStrm,
1208	"# define %s("
1209	, szTmp);
1210	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
1211	{
1212	if (RTListNodeIsFirst(&pProbe->ArgHead, &pArg->ListEntry))
1213	ScmStreamPrintf(pStrm, "%s", pArg->pszName);
1214	else
1215	ScmStreamPrintf(pStrm, ", %s", pArg->pszName);
1216	}
1217	ScmStreamPrintf(pStrm,
1218	") \\\n"
1219	" do { \\\n"
1220	" if (RT_UNLIKELY(%s_ENABLED())) \\\n"
1221	" { \\\n"
1222	" %s_ORIGINAL("
1223	, szTmp, szTmp);
1224	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
1225	{
1226	const char *pszFmt = pArg->pszArgPassingFmt;
1227	if (pArg->fType & VTG_TYPE_AUTO_CONV_PTR)
1228	{
1229	/* Casting is required. ASSUMES sizeof(RTR0PTR) == sizeof(RTR3PTR) - safe! */
1230	pszFmt += sizeof(", ") - 1;
1231	if (RTListNodeIsFirst(&pProbe->ArgHead, &pArg->ListEntry))
1232	ScmStreamPrintf(pStrm, "(%s)%M", pArg->pszTracerType, pszFmt, pArg->pszName);
1233	else
1234	ScmStreamPrintf(pStrm, ", (%s)%M", pArg->pszTracerType, pszFmt, pArg->pszName);
1235	}
1236	else if (pArg->fType & VTG_TYPE_CONST_CHAR_PTR)
1237	{
1238	/* Casting from 'const char ' (probe) to 'char ' (dtrace) is required to shut up warnings. */
1239	pszFmt += sizeof(", ") - 1;
1240	if (RTListNodeIsFirst(&pProbe->ArgHead, &pArg->ListEntry))
1241	ScmStreamPrintf(pStrm, "(char *)%M", pszFmt, pArg->pszName);
1242	else
1243	ScmStreamPrintf(pStrm, ", (char *)%M", pszFmt, pArg->pszName);
1244	}
1245	else
1246	{
1247	if (RTListNodeIsFirst(&pProbe->ArgHead, &pArg->ListEntry))
1248	ScmStreamPrintf(pStrm, pArg->pszArgPassingFmt + sizeof(", ") - 1, pArg->pszName);
1249	else
1250	ScmStreamPrintf(pStrm, pArg->pszArgPassingFmt, pArg->pszName);
1251	}
1252	}
1253	ScmStreamPrintf(pStrm,
1254	"); \\\n"
1255	" } \\\n"
1256	" } while (0)\n"
1257	"\n");
1258	}
1259	}
1260
1261	ScmStreamPrintf(pStrm,
1262	"\n"
1263	"#else\n"
1264	"\n");
1265	RTListForEach(&g_ProviderHead, pProv, VTGPROVIDER, ListEntry)
1266	{
1267	RTListForEach(&pProv->ProbeHead, pProbe, VTGPROBE, ListEntry)
1268	{
1269	generateProbeDefineName(szTmp, sizeof(szTmp), pProv->pszName, pProbe->pszMangledName);
1270	ScmStreamPrintf(pStrm,
1271	"# define %s("
1272	, szTmp);
1273	RTListForEach(&pProbe->ArgHead, pArg, VTGARG, ListEntry)
1274	{
1275	if (RTListNodeIsFirst(&pProbe->ArgHead, &pArg->ListEntry))
1276	ScmStreamPrintf(pStrm, "%s", pArg->pszName);
1277	else
1278	ScmStreamPrintf(pStrm, ", %s", pArg->pszName);
1279	}
1280	ScmStreamPrintf(pStrm,
1281	") do { } while (0)\n");
1282	}
1283	}
1284
1285	ScmStreamWrite(pStrm, RT_STR_TUPLE("\n"
1286	"#endif\n"
1287	"\n"
1288	"#endif\n"));
1289	return RTEXITCODE_SUCCESS;
1290	}
1291
1292
1293	/**
1294	* Parser error with line and position.
1295	*
1296	* @returns RTEXITCODE_FAILURE.
1297	* @param pStrm The stream.
1298	* @param cb The offset from the current position to the
1299	* point of failure.
1300	* @param pszMsg The message to display.
1301	*/
1302	static RTEXITCODE parseError(PSCMSTREAM pStrm, size_t cb, const char *pszMsg)
1303	{
1304	if (cb)
1305	ScmStreamSeekRelative(pStrm, -(ssize_t)cb);
1306	size_t const off = ScmStreamTell(pStrm);
1307	size_t const iLine = ScmStreamTellLine(pStrm);
1308	ScmStreamSeekByLine(pStrm, iLine);
1309	size_t const offLine = ScmStreamTell(pStrm);
1310
1311	RTPrintf("%s:%d:%zd: error: %s.\n", g_pszScript, iLine + 1, off - offLine + 1, pszMsg);
1312
1313	size_t cchLine;
1314	SCMEOL enmEof;
1315	const char *pszLine = ScmStreamGetLineByNo(pStrm, iLine, &cchLine, &enmEof);
1316	if (pszLine)
1317	RTPrintf(" %.*s\n"
1318	" %*s^\n",
1319	cchLine, pszLine, off - offLine, "");
1320	return RTEXITCODE_FAILURE;
1321	}
1322
1323
1324	/**
1325	* Parser error with line and position.
1326	*
1327	* @returns RTEXITCODE_FAILURE.
1328	* @param pStrm The stream.
1329	* @param cb The offset from the current position to the
1330	* point of failure.
1331	* @param pszMsg The message to display.
1332	*/
1333	static RTEXITCODE parseErrorAbs(PSCMSTREAM pStrm, size_t off, const char *pszMsg)
1334	{
1335	ScmStreamSeekAbsolute(pStrm, off);
1336	return parseError(pStrm, 0, pszMsg);
1337	}
1338
1339
1340	/**
1341	* Handles a C++ one line comment.
1342	*
1343	* @returns Exit code.
1344	* @param pStrm The stream.
1345	*/
1346	static RTEXITCODE parseOneLineComment(PSCMSTREAM pStrm)
1347	{
1348	ScmStreamSeekByLine(pStrm, ScmStreamTellLine(pStrm) + 1);
1349	return RTEXITCODE_SUCCESS;
1350	}
1351
1352
1353	/**
1354	* Handles a multi-line C/C++ comment.
1355	*
1356	* @returns Exit code.
1357	* @param pStrm The stream.
1358	*/
1359	static RTEXITCODE parseMultiLineComment(PSCMSTREAM pStrm)
1360	{
1361	unsigned ch;
1362	while ((ch = ScmStreamGetCh(pStrm)) != ~(unsigned)0)
1363	{
1364	if (ch == '*')
1365	{
1366	do
1367	ch = ScmStreamGetCh(pStrm);
1368	while (ch == '*');
1369	if (ch == '/')
1370	return RTEXITCODE_SUCCESS;
1371	}
1372	}
1373
1374	parseError(pStrm, 1, "Expected end of comment, got end of file");
1375	return RTEXITCODE_FAILURE;
1376	}
1377
1378
1379	/**
1380	* Skips spaces and comments.
1381	*
1382	* @returns RTEXITCODE_SUCCESS or RTEXITCODE_FAILURE.
1383	* @param pStrm The stream..
1384	*/
1385	static RTEXITCODE parseSkipSpacesAndComments(PSCMSTREAM pStrm)
1386	{
1387	unsigned ch;
1388	while ((ch = ScmStreamPeekCh(pStrm)) != ~(unsigned)0)
1389	{
1390	if (!RT_C_IS_SPACE(ch) && ch != '/')
1391	return RTEXITCODE_SUCCESS;
1392	unsigned ch2 = ScmStreamGetCh(pStrm); AssertBreak(ch == ch2); NOREF(ch2);
1393	if (ch == '/')
1394	{
1395	ch = ScmStreamGetCh(pStrm);
1396	RTEXITCODE rcExit;
1397	if (ch == '*')
1398	rcExit = parseMultiLineComment(pStrm);
1399	else if (ch == '/')
1400	rcExit = parseOneLineComment(pStrm);
1401	else
1402	rcExit = parseError(pStrm, 2, "Unexpected character");
1403	if (rcExit != RTEXITCODE_SUCCESS)
1404	return rcExit;
1405	}
1406	}
1407
1408	return parseError(pStrm, 0, "Unexpected end of file");
1409	}
1410
1411
1412	/**
1413	* Skips spaces and comments, returning the next character.
1414	*
1415	* @returns Next non-space-non-comment character. ~(unsigned)0 on EOF or
1416	* failure.
1417	* @param pStrm The stream.
1418	*/
1419	static unsigned parseGetNextNonSpaceNonCommentCh(PSCMSTREAM pStrm)
1420	{
1421	unsigned ch;
1422	while ((ch = ScmStreamGetCh(pStrm)) != ~(unsigned)0)
1423	{
1424	if (!RT_C_IS_SPACE(ch) && ch != '/')
1425	return ch;
1426	if (ch == '/')
1427	{
1428	ch = ScmStreamGetCh(pStrm);
1429	RTEXITCODE rcExit;
1430	if (ch == '*')
1431	rcExit = parseMultiLineComment(pStrm);
1432	else if (ch == '/')
1433	rcExit = parseOneLineComment(pStrm);
1434	else
1435	rcExit = parseError(pStrm, 2, "Unexpected character");
1436	if (rcExit != RTEXITCODE_SUCCESS)
1437	return ~(unsigned)0;
1438	}
1439	}
1440
1441	parseError(pStrm, 0, "Unexpected end of file");
1442	return ~(unsigned)0;
1443	}
1444
1445
1446	/**
1447	* Get the next non-space-non-comment character on a preprocessor line.
1448	*
1449	* @returns The next character. On error message and ~(unsigned)0.
1450	* @param pStrm The stream.
1451	*/
1452	static unsigned parseGetNextNonSpaceNonCommentChOnPpLine(PSCMSTREAM pStrm)
1453	{
1454	size_t off = ScmStreamTell(pStrm) - 1;
1455	unsigned ch;
1456	while ((ch = ScmStreamGetCh(pStrm)) != ~(unsigned)0)
1457	{
1458	if (RT_C_IS_SPACE(ch))
1459	{
1460	if (ch == '\n' \|\| ch == '\r')
1461	{
1462	parseErrorAbs(pStrm, off, "Invalid preprocessor statement");
1463	break;
1464	}
1465	}
1466	else if (ch == '\\')
1467	{
1468	size_t off2 = ScmStreamTell(pStrm) - 1;
1469	ch = ScmStreamGetCh(pStrm);
1470	if (ch == '\r')
1471	ch = ScmStreamGetCh(pStrm);
1472	if (ch != '\n')
1473	{
1474	parseErrorAbs(pStrm, off2, "Expected new line");
1475	break;
1476	}
1477	}
1478	else
1479	return ch;
1480	}
1481	return ~(unsigned)0;
1482	}
1483
1484
1485
1486	/**
1487	* Skips spaces and comments.
1488	*
1489	* @returns Same as ScmStreamCGetWord
1490	* @param pStrm The stream..
1491	* @param pcchWord Where to return the length.
1492	*/
1493	static const char parseGetNextCWord(PSCMSTREAM pStrm, size_t pcchWord)
1494	{
1495	if (parseSkipSpacesAndComments(pStrm) != RTEXITCODE_SUCCESS)
1496	return NULL;
1497	return ScmStreamCGetWord(pStrm, pcchWord);
1498	}
1499
1500
1501
1502	/**
1503	* Parses interface stability.
1504	*
1505	* @returns Interface stability if parsed correctly, otherwise error message and
1506	* kVTGStability_Invalid.
1507	* @param pStrm The stream.
1508	* @param ch The first character in the stability spec.
1509	*/
1510	static kVTGStability parseStability(PSCMSTREAM pStrm, unsigned ch)
1511	{
1512	switch (ch)
1513	{
1514	case 'E':
1515	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("External")))
1516	return kVTGStability_External;
1517	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Evolving")))
1518	return kVTGStability_Evolving;
1519	break;
1520	case 'I':
1521	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Internal")))
1522	return kVTGStability_Internal;
1523	break;
1524	case 'O':
1525	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Obsolete")))
1526	return kVTGStability_Obsolete;
1527	break;
1528	case 'P':
1529	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Private")))
1530	return kVTGStability_Private;
1531	break;
1532	case 'S':
1533	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Stable")))
1534	return kVTGStability_Stable;
1535	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Standard")))
1536	return kVTGStability_Standard;
1537	break;
1538	case 'U':
1539	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Unstable")))
1540	return kVTGStability_Unstable;
1541	break;
1542	}
1543	parseError(pStrm, 1, "Unknown stability specifier");
1544	return kVTGStability_Invalid;
1545	}
1546
1547
1548	/**
1549	* Parses data depndency class.
1550	*
1551	* @returns Data dependency class if parsed correctly, otherwise error message
1552	* and kVTGClass_Invalid.
1553	* @param pStrm The stream.
1554	* @param ch The first character in the stability spec.
1555	*/
1556	static kVTGClass parseDataDepClass(PSCMSTREAM pStrm, unsigned ch)
1557	{
1558	switch (ch)
1559	{
1560	case 'C':
1561	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Common")))
1562	return kVTGClass_Common;
1563	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Cpu")))
1564	return kVTGClass_Cpu;
1565	break;
1566	case 'G':
1567	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Group")))
1568	return kVTGClass_Group;
1569	break;
1570	case 'I':
1571	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Isa")))
1572	return kVTGClass_Isa;
1573	break;
1574	case 'P':
1575	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Platform")))
1576	return kVTGClass_Platform;
1577	break;
1578	case 'U':
1579	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("Unknown")))
1580	return kVTGClass_Unknown;
1581	break;
1582	}
1583	parseError(pStrm, 1, "Unknown data dependency class specifier");
1584	return kVTGClass_Invalid;
1585	}
1586
1587	/**
1588	* Parses a pragma D attributes statement.
1589	*
1590	* @returns Suitable exit code, errors message already written on failure.
1591	* @param pStrm The stream.
1592	*/
1593	static RTEXITCODE parsePragmaDAttributes(PSCMSTREAM pStrm)
1594	{
1595	/*
1596	* "CodeStability/DataStability/DataDepClass" - no spaces allowed.
1597	*/
1598	unsigned ch = parseGetNextNonSpaceNonCommentChOnPpLine(pStrm);
1599	if (ch == ~(unsigned)0)
1600	return RTEXITCODE_FAILURE;
1601
1602	kVTGStability enmCode = parseStability(pStrm, ch);
1603	if (enmCode == kVTGStability_Invalid)
1604	return RTEXITCODE_FAILURE;
1605	ch = ScmStreamGetCh(pStrm);
1606	if (ch != '/')
1607	return parseError(pStrm, 1, "Expected '/' following the code stability specifier");
1608
1609	kVTGStability enmData = parseStability(pStrm, ScmStreamGetCh(pStrm));
1610	if (enmData == kVTGStability_Invalid)
1611	return RTEXITCODE_FAILURE;
1612	ch = ScmStreamGetCh(pStrm);
1613	if (ch != '/')
1614	return parseError(pStrm, 1, "Expected '/' following the data stability specifier");
1615
1616	kVTGClass enmDataDep = parseDataDepClass(pStrm, ScmStreamGetCh(pStrm));
1617	if (enmDataDep == kVTGClass_Invalid)
1618	return RTEXITCODE_FAILURE;
1619
1620	/*
1621	* Expecting 'provider' followed by the name of an provider defined earlier.
1622	*/
1623	ch = parseGetNextNonSpaceNonCommentChOnPpLine(pStrm);
1624	if (ch == ~(unsigned)0)
1625	return RTEXITCODE_FAILURE;
1626	if (ch != 'p' \|\| !ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("provider")))
1627	return parseError(pStrm, 1, "Expected 'provider'");
1628
1629	size_t cchName;
1630	const char *pszName = parseGetNextCWord(pStrm, &cchName);
1631	if (!pszName)
1632	return parseError(pStrm, 1, "Expected provider name");
1633
1634	PVTGPROVIDER pProv;
1635	RTListForEach(&g_ProviderHead, pProv, VTGPROVIDER, ListEntry)
1636	{
1637	if ( !strncmp(pProv->pszName, pszName, cchName)
1638	&& pProv->pszName[cchName] == '\0')
1639	break;
1640	}
1641	if (RTListNodeIsDummy(&g_ProviderHead, pProv, VTGPROVIDER, ListEntry))
1642	return parseError(pStrm, cchName, "Provider not found");
1643
1644	/*
1645	* Which aspect of the provider?
1646	*/
1647	size_t cchAspect;
1648	const char *pszAspect = parseGetNextCWord(pStrm, &cchAspect);
1649	if (!pszAspect)
1650	return parseError(pStrm, 1, "Expected provider aspect");
1651
1652	PVTGATTRS pAttrs;
1653	if (cchAspect == 8 && !memcmp(pszAspect, "provider", 8))
1654	pAttrs = &pProv->AttrSelf;
1655	else if (cchAspect == 8 && !memcmp(pszAspect, "function", 8))
1656	pAttrs = &pProv->AttrFunctions;
1657	else if (cchAspect == 6 && !memcmp(pszAspect, "module", 6))
1658	pAttrs = &pProv->AttrModules;
1659	else if (cchAspect == 4 && !memcmp(pszAspect, "name", 4))
1660	pAttrs = &pProv->AttrName;
1661	else if (cchAspect == 4 && !memcmp(pszAspect, "args", 4))
1662	pAttrs = &pProv->AttrArguments;
1663	else
1664	return parseError(pStrm, cchAspect, "Unknown aspect");
1665
1666	if (pAttrs->enmCode != kVTGStability_Invalid)
1667	return parseError(pStrm, cchAspect, "You have already specified these attributes");
1668
1669	pAttrs->enmCode = enmCode;
1670	pAttrs->enmData = enmData;
1671	pAttrs->enmDataDep = enmDataDep;
1672	return RTEXITCODE_SUCCESS;
1673	}
1674
1675	/**
1676	* Parses a D pragma statement.
1677	*
1678	* @returns Suitable exit code, errors message already written on failure.
1679	* @param pStrm The stream.
1680	*/
1681	static RTEXITCODE parsePragma(PSCMSTREAM pStrm)
1682	{
1683	RTEXITCODE rcExit;
1684	unsigned ch = parseGetNextNonSpaceNonCommentChOnPpLine(pStrm);
1685	if (ch == ~(unsigned)0)
1686	rcExit = RTEXITCODE_FAILURE;
1687	else if (ch == 'D' && ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("D")))
1688	{
1689	ch = parseGetNextNonSpaceNonCommentChOnPpLine(pStrm);
1690	if (ch == ~(unsigned)0)
1691	rcExit = RTEXITCODE_FAILURE;
1692	else if (ch == 'a' && ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("attributes")))
1693	rcExit = parsePragmaDAttributes(pStrm);
1694	else
1695	rcExit = parseError(pStrm, 1, "Unknown pragma D");
1696	}
1697	else
1698	rcExit = parseError(pStrm, 1, "Unknown pragma");
1699	return rcExit;
1700	}
1701
1702
1703	/**
1704	* Classifies the given type expression.
1705	*
1706	* @return Type flags.
1707	* @param pszType The type expression.
1708	*/
1709	static uint32_t parseTypeExpression(const char *pszType)
1710	{
1711	size_t cchType = strlen(pszType);
1712	#define MY_STRMATCH(a_sz) (cchType == sizeof(a_sz) - 1 && !memcmp(a_sz, pszType, sizeof(a_sz) - 1))
1713
1714	/*
1715	* Try detect pointers.
1716	*/
1717	if (pszType[cchType - 1] == '*')
1718	{
1719	if (MY_STRMATCH("const char *")) return VTG_TYPE_POINTER \| VTG_TYPE_CONST_CHAR_PTR;
1720	return VTG_TYPE_POINTER;
1721	}
1722	if (pszType[cchType - 1] == '&')
1723	{
1724	RTMsgWarning("Please avoid using references like '%s' for probe arguments!", pszType);
1725	return VTG_TYPE_POINTER;
1726	}
1727
1728	/*
1729	* Standard integer types and IPRT variants.
1730	* It's important that we catch all types larger than 32-bit here or we'll
1731	* screw up the probe argument handling.
1732	*/
1733	if (MY_STRMATCH("int")) return VTG_TYPE_FIXED_SIZED \| sizeof(int) \| VTG_TYPE_SIGNED;
1734	if (MY_STRMATCH("uintptr_t")) return VTG_TYPE_HC_ARCH_SIZED \| VTG_TYPE_UNSIGNED;
1735	if (MY_STRMATCH("intptr_t")) return VTG_TYPE_HC_ARCH_SIZED \| VTG_TYPE_SIGNED;
1736
1737	//if (MY_STRMATCH("uint128_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(uint128_t) \| VTG_TYPE_UNSIGNED;
1738	if (MY_STRMATCH("uint64_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(uint64_t) \| VTG_TYPE_UNSIGNED;
1739	if (MY_STRMATCH("uint32_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(uint32_t) \| VTG_TYPE_UNSIGNED;
1740	if (MY_STRMATCH("uint16_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(uint16_t) \| VTG_TYPE_UNSIGNED;
1741	if (MY_STRMATCH("uint8_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(uint8_t) \| VTG_TYPE_UNSIGNED;
1742
1743	//if (MY_STRMATCH("int128_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(int128_t) \| VTG_TYPE_SIGNED;
1744	if (MY_STRMATCH("int64_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(int64_t) \| VTG_TYPE_SIGNED;
1745	if (MY_STRMATCH("int32_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(int32_t) \| VTG_TYPE_SIGNED;
1746	if (MY_STRMATCH("int16_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(int16_t) \| VTG_TYPE_SIGNED;
1747	if (MY_STRMATCH("int8_t")) return VTG_TYPE_FIXED_SIZED \| sizeof(int8_t) \| VTG_TYPE_SIGNED;
1748
1749	if (MY_STRMATCH("RTUINT64U")) return VTG_TYPE_FIXED_SIZED \| sizeof(uint64_t) \| VTG_TYPE_UNSIGNED;
1750	if (MY_STRMATCH("RTUINT32U")) return VTG_TYPE_FIXED_SIZED \| sizeof(uint32_t) \| VTG_TYPE_UNSIGNED;
1751	if (MY_STRMATCH("RTUINT16U")) return VTG_TYPE_FIXED_SIZED \| sizeof(uint16_t) \| VTG_TYPE_UNSIGNED;
1752
1753	if (MY_STRMATCH("RTMSINTERVAL")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTMSINTERVAL) \| VTG_TYPE_UNSIGNED;
1754	if (MY_STRMATCH("RTTIMESPEC")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTTIMESPEC) \| VTG_TYPE_SIGNED;
1755	if (MY_STRMATCH("RTPROCESS")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTPROCESS) \| VTG_TYPE_UNSIGNED;
1756	if (MY_STRMATCH("RTHCPHYS")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTHCPHYS) \| VTG_TYPE_UNSIGNED \| VTG_TYPE_PHYS;
1757
1758	if (MY_STRMATCH("RTR3PTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R3;
1759	if (MY_STRMATCH("RTR0PTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R0;
1760	if (MY_STRMATCH("RTRCPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_RC;
1761	if (MY_STRMATCH("RTHCPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R3 \| VTG_TYPE_CTX_R0;
1762
1763	if (MY_STRMATCH("RTR3UINTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R3 \| VTG_TYPE_UNSIGNED;
1764	if (MY_STRMATCH("RTR0UINTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R0 \| VTG_TYPE_UNSIGNED;
1765	if (MY_STRMATCH("RTRCUINTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_RC \| VTG_TYPE_UNSIGNED;
1766	if (MY_STRMATCH("RTHCUINTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R3 \| VTG_TYPE_CTX_R0 \| VTG_TYPE_UNSIGNED;
1767
1768	if (MY_STRMATCH("RTR3INTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R3 \| VTG_TYPE_SIGNED;
1769	if (MY_STRMATCH("RTR0INTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R0 \| VTG_TYPE_SIGNED;
1770	if (MY_STRMATCH("RTRCINTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_RC \| VTG_TYPE_SIGNED;
1771	if (MY_STRMATCH("RTHCINTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R3 \| VTG_TYPE_CTX_R0 \| VTG_TYPE_SIGNED;
1772
1773	if (MY_STRMATCH("RTUINTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R3 \| VTG_TYPE_CTX_R0 \| VTG_TYPE_CTX_RC \| VTG_TYPE_UNSIGNED;
1774	if (MY_STRMATCH("RTINTPTR")) return VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R3 \| VTG_TYPE_CTX_R0 \| VTG_TYPE_CTX_RC \| VTG_TYPE_SIGNED;
1775
1776	if (MY_STRMATCH("RTHCUINTREG")) return VTG_TYPE_HC_ARCH_SIZED \| VTG_TYPE_CTX_R3 \| VTG_TYPE_CTX_R0 \| VTG_TYPE_UNSIGNED;
1777	if (MY_STRMATCH("RTR3UINTREG")) return VTG_TYPE_HC_ARCH_SIZED \| VTG_TYPE_CTX_R3 \| VTG_TYPE_UNSIGNED;
1778	if (MY_STRMATCH("RTR0UINTREG")) return VTG_TYPE_HC_ARCH_SIZED \| VTG_TYPE_CTX_R3 \| VTG_TYPE_UNSIGNED;
1779
1780	if (MY_STRMATCH("RTGCUINTREG")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTGCUINTREG) \| VTG_TYPE_UNSIGNED \| VTG_TYPE_CTX_GST;
1781	if (MY_STRMATCH("RTGCPTR")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTGCPTR) \| VTG_TYPE_UNSIGNED \| VTG_TYPE_CTX_GST;
1782	if (MY_STRMATCH("RTGCINTPTR")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTGCUINTPTR) \| VTG_TYPE_SIGNED \| VTG_TYPE_CTX_GST;
1783	if (MY_STRMATCH("RTGCPTR32")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTGCPTR32) \| VTG_TYPE_SIGNED \| VTG_TYPE_CTX_GST;
1784	if (MY_STRMATCH("RTGCPTR64")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTGCPTR64) \| VTG_TYPE_SIGNED \| VTG_TYPE_CTX_GST;
1785	if (MY_STRMATCH("RTGCPHYS")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTGCPHYS) \| VTG_TYPE_UNSIGNED \| VTG_TYPE_PHYS \| VTG_TYPE_CTX_GST;
1786	if (MY_STRMATCH("RTGCPHYS32")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTGCPHYS32) \| VTG_TYPE_UNSIGNED \| VTG_TYPE_PHYS \| VTG_TYPE_CTX_GST;
1787	if (MY_STRMATCH("RTGCPHYS64")) return VTG_TYPE_FIXED_SIZED \| sizeof(RTGCPHYS64) \| VTG_TYPE_UNSIGNED \| VTG_TYPE_PHYS \| VTG_TYPE_CTX_GST;
1788
1789	/*
1790	* The special VBox types.
1791	*/
1792	if (MY_STRMATCH("PVM")) return VTG_TYPE_POINTER;
1793	if (MY_STRMATCH("PVMCPU")) return VTG_TYPE_POINTER;
1794	if (MY_STRMATCH("PCPUMCTX")) return VTG_TYPE_POINTER;
1795
1796	/*
1797	* Preaching time.
1798	*/
1799	if ( MY_STRMATCH("unsigned long")
1800	\|\| MY_STRMATCH("unsigned long long")
1801	\|\| MY_STRMATCH("signed long")
1802	\|\| MY_STRMATCH("signed long long")
1803	\|\| MY_STRMATCH("long")
1804	\|\| MY_STRMATCH("long long")
1805	\|\| MY_STRMATCH("char")
1806	\|\| MY_STRMATCH("signed char")
1807	\|\| MY_STRMATCH("unsigned char")
1808	\|\| MY_STRMATCH("double")
1809	\|\| MY_STRMATCH("long double")
1810	\|\| MY_STRMATCH("float")
1811	)
1812	{
1813	RTMsgError("Please do NOT use the type '%s' for probe arguments!", pszType);
1814	g_cTypeErrors++;
1815	return 0;
1816	}
1817
1818	if ( MY_STRMATCH("unsigned")
1819	\|\| MY_STRMATCH("signed")
1820	\|\| MY_STRMATCH("signed int")
1821	\|\| MY_STRMATCH("unsigned int")
1822	\|\| MY_STRMATCH("short")
1823	\|\| MY_STRMATCH("signed short")
1824	\|\| MY_STRMATCH("unsigned short")
1825	)
1826	RTMsgWarning("Please avoid using the type '%s' for probe arguments!", pszType);
1827	if (MY_STRMATCH("unsigned")) return VTG_TYPE_FIXED_SIZED \| sizeof(int) \| VTG_TYPE_UNSIGNED;
1828	if (MY_STRMATCH("unsigned int")) return VTG_TYPE_FIXED_SIZED \| sizeof(int) \| VTG_TYPE_UNSIGNED;
1829	if (MY_STRMATCH("signed")) return VTG_TYPE_FIXED_SIZED \| sizeof(int) \| VTG_TYPE_SIGNED;
1830	if (MY_STRMATCH("signed int")) return VTG_TYPE_FIXED_SIZED \| sizeof(int) \| VTG_TYPE_SIGNED;
1831	if (MY_STRMATCH("short")) return VTG_TYPE_FIXED_SIZED \| sizeof(short) \| VTG_TYPE_SIGNED;
1832	if (MY_STRMATCH("signed short")) return VTG_TYPE_FIXED_SIZED \| sizeof(short) \| VTG_TYPE_SIGNED;
1833	if (MY_STRMATCH("unsigned short")) return VTG_TYPE_FIXED_SIZED \| sizeof(short) \| VTG_TYPE_UNSIGNED;
1834
1835	/*
1836	* What we haven't caught by now is either unknown to us or wrong.
1837	*/
1838	if (pszType[0] == 'P')
1839	{
1840	RTMsgError("Type '%s' looks like a pointer typedef, please do NOT use those "
1841	"but rather the non-pointer typedef or struct with '*'",
1842	pszType);
1843	g_cTypeErrors++;
1844	return VTG_TYPE_POINTER;
1845	}
1846
1847	RTMsgError("Don't know '%s' - please change or fix VBoxTpG", pszType);
1848	g_cTypeErrors++;
1849
1850	#undef MY_STRCMP
1851	return 0;
1852	}
1853
1854
1855	/**
1856	* Initializes the members of an argument.
1857	*
1858	* @returns RTEXITCODE_SUCCESS or RTEXITCODE_FAILURE+msg.
1859	* @param pProbe The probe.
1860	* @param pArg The argument.
1861	* @param pStrm The input stream (for errors).
1862	* @param pchType The type.
1863	* @param cchType The type length.
1864	* @param pchName The name.
1865	* @param cchName The name length.
1866	*/
1867	static RTEXITCODE parseInitArgument(PVTGPROBE pProbe, PVTGARG pArg, PSCMSTREAM pStrm,
1868	char pchType, size_t cchType, char pchName, size_t cchName)
1869	{
1870	Assert(!pArg->pszName); Assert(!pArg->pszTracerType); Assert(!pArg->pszCtxType); Assert(!pArg->fType);
1871
1872	pArg->pszArgPassingFmt = ", %s";
1873	pArg->pszName = RTStrDupN(pchName, cchName);
1874	pArg->pszTracerType = strtabInsertN(pchType, cchType);
1875	if (!pArg->pszTracerType \|\| !pArg->pszName)
1876	return parseError(pStrm, 1, "Out of memory");
1877	pArg->fType = parseTypeExpression(pArg->pszTracerType);
1878
1879	if ( (pArg->fType & VTG_TYPE_POINTER)
1880	&& !(g_fTypeContext & VTG_TYPE_CTX_R0) )
1881	{
1882	pArg->fType &= ~VTG_TYPE_POINTER;
1883	if ( !strcmp(pArg->pszTracerType, "struct VM *") \|\| !strcmp(pArg->pszTracerType, "PVM")
1884	\|\| !strcmp(pArg->pszTracerType, "struct VMCPU *") \|\| !strcmp(pArg->pszTracerType, "PVMCPU")
1885	\|\| !strcmp(pArg->pszTracerType, "struct CPUMCTX *") \|\| !strcmp(pArg->pszTracerType, "PCPUMCTX")
1886	)
1887	{
1888	pArg->fType \|= VTG_TYPE_CTX_POINTER \| VTG_TYPE_CTX_R0
1889	\| VTG_TYPE_FIXED_SIZED \| (g_cHostBits / 8)
1890	\| VTG_TYPE_AUTO_CONV_PTR;
1891	pArg->pszCtxType = RTStrDup("RTR0PTR");
1892
1893	if (!strcmp(pArg->pszTracerType, "struct VM *") \|\| !strcmp(pArg->pszTracerType, "PVM"))
1894	pArg->pszArgPassingFmt = ", VTG_VM_TO_R0(%s)";
1895	else if (!strcmp(pArg->pszTracerType, "struct VMCPU *") \|\| !strcmp(pArg->pszTracerType, "PVMCPU"))
1896	pArg->pszArgPassingFmt = ", VTG_VMCPU_TO_R0(%s)";
1897	else
1898	{
1899	PVTGARG pFirstArg = RTListGetFirst(&pProbe->ArgHead, VTGARG, ListEntry);
1900	if ( !pFirstArg
1901	\|\| pFirstArg == pArg
1902	\|\| strcmp(pFirstArg->pszName, "a_pVCpu")
1903	\|\| ( strcmp(pFirstArg->pszTracerType, "struct VMCPU *")
1904	&& strcmp(pFirstArg->pszTracerType, "PVMCPU *")) )
1905	return parseError(pStrm, 1, "The automatic ring-0 pointer conversion requires 'a_pVCpu' with type 'struct VMCPU *' as the first argument");
1906
1907	if (!strcmp(pArg->pszTracerType, "struct CPUMCTX *")\|\| !strcmp(pArg->pszTracerType, "PCPUMCTX"))
1908	pArg->pszArgPassingFmt = ", VTG_CPUMCTX_TO_R0(a_pVCpu, %s)";
1909	else
1910	pArg->pszArgPassingFmt = ", VBoxTpG-Is-Buggy!!";
1911	}
1912	}
1913	else
1914	{
1915	pArg->fType \|= VTG_TYPE_CTX_POINTER \| g_fTypeContext \| VTG_TYPE_FIXED_SIZED \| (g_cBits / 8);
1916	pArg->pszCtxType = RTStrDupN(pchType, cchType);
1917	}
1918	}
1919	else
1920	pArg->pszCtxType = RTStrDupN(pchType, cchType);
1921	if (!pArg->pszCtxType)
1922	return parseError(pStrm, 1, "Out of memory");
1923
1924	return RTEXITCODE_SUCCESS;
1925	}
1926
1927
1928	/**
1929	* Unmangles the probe name.
1930	*
1931	* This involves translating double underscore to dash.
1932	*
1933	* @returns Pointer to the unmangled name in the string table.
1934	* @param pszMangled The mangled name.
1935	*/
1936	static const char parseUnmangleProbeName(const char pszMangled)
1937	{
1938	size_t cchMangled = strlen(pszMangled);
1939	char pszTmp = (char )alloca(cchMangled + 2);
1940	const char *pszSrc = pszMangled;
1941	char *pszDst = pszTmp;
1942
1943	while (*pszSrc)
1944	{
1945	if (pszSrc[0] == '_' && pszSrc[1] == '_' && pszSrc[2] != '_')
1946	{
1947	*pszDst++ = '-';
1948	pszSrc += 2;
1949	}
1950	else
1951	pszDst++ = pszSrc++;
1952	}
1953	*pszDst = '\0';
1954
1955	return strtabInsertN(pszTmp, pszDst - pszTmp);
1956	}
1957
1958
1959	/**
1960	* Parses a D probe statement.
1961	*
1962	* @returns Suitable exit code, errors message already written on failure.
1963	* @param pStrm The stream.
1964	* @param pProv The provider being parsed.
1965	*/
1966	static RTEXITCODE parseProbe(PSCMSTREAM pStrm, PVTGPROVIDER pProv)
1967	{
1968	/*
1969	* Next up is a name followed by an opening parenthesis.
1970	*/
1971	size_t cchProbe;
1972	const char *pszProbe = parseGetNextCWord(pStrm, &cchProbe);
1973	if (!pszProbe)
1974	return parseError(pStrm, 1, "Expected a probe name starting with an alphabetical character");
1975	unsigned ch = parseGetNextNonSpaceNonCommentCh(pStrm);
1976	if (ch != '(')
1977	return parseError(pStrm, 1, "Expected '(' after the probe name");
1978
1979	/*
1980	* Create a probe instance.
1981	*/
1982	PVTGPROBE pProbe = (PVTGPROBE)RTMemAllocZ(sizeof(*pProbe));
1983	if (!pProbe)
1984	return parseError(pStrm, 0, "Out of memory");
1985	RTListInit(&pProbe->ArgHead);
1986	RTListAppend(&pProv->ProbeHead, &pProbe->ListEntry);
1987	pProbe->offArgList = UINT32_MAX;
1988	pProbe->pszMangledName = RTStrDupN(pszProbe, cchProbe);
1989	if (!pProbe->pszMangledName)
1990	return parseError(pStrm, 0, "Out of memory");
1991	pProbe->pszUnmangledName = parseUnmangleProbeName(pProbe->pszMangledName);
1992	if (!pProbe->pszUnmangledName)
1993	return parseError(pStrm, 0, "Out of memory");
1994
1995	/*
1996	* Parse loop for the argument.
1997	*/
1998	PVTGARG pArg = NULL;
1999	size_t cchName = 0;
2000	size_t cchArg = 0;
2001	char szArg[4096];
2002	for (;;)
2003	{
2004	ch = parseGetNextNonSpaceNonCommentCh(pStrm);
2005	switch (ch)
2006	{
2007	case ')':
2008	case ',':
2009	{
2010	/* commit the argument */
2011	if (pArg)
2012	{
2013	if (!cchName)
2014	return parseError(pStrm, 1, "Argument has no name");
2015	if (cchArg - cchName - 1 >= 128)
2016	return parseError(pStrm, 1, "Argument type too long");
2017	RTEXITCODE rcExit = parseInitArgument(pProbe, pArg, pStrm,
2018	szArg, cchArg - cchName - 1,
2019	&szArg[cchArg - cchName], cchName);
2020	if (rcExit != RTEXITCODE_SUCCESS)
2021	return rcExit;
2022	if (VTG_TYPE_IS_LARGE(pArg->fType))
2023	pProbe->fHaveLargeArgs = true;
2024	pArg = NULL;
2025	cchName = cchArg = 0;
2026	}
2027	if (ch == ')')
2028	{
2029	size_t off = ScmStreamTell(pStrm);
2030	ch = parseGetNextNonSpaceNonCommentCh(pStrm);
2031	if (ch != ';')
2032	return parseErrorAbs(pStrm, off, "Expected ';'");
2033	return RTEXITCODE_SUCCESS;
2034	}
2035	break;
2036	}
2037
2038	default:
2039	{
2040	size_t cchWord;
2041	const char *pszWord = ScmStreamCGetWordM1(pStrm, &cchWord);
2042	if (!pszWord)
2043	return parseError(pStrm, 0, "Expected argument");
2044	if (!pArg)
2045	{
2046	pArg = (PVTGARG)RTMemAllocZ(sizeof(*pArg));
2047	if (!pArg)
2048	return parseError(pStrm, 1, "Out of memory");
2049	RTListAppend(&pProbe->ArgHead, &pArg->ListEntry);
2050	pProbe->cArgs++;
2051
2052	if (cchWord + 1 > sizeof(szArg))
2053	return parseError(pStrm, 1, "Too long parameter declaration");
2054	memcpy(szArg, pszWord, cchWord);
2055	szArg[cchWord] = '\0';
2056	cchArg = cchWord;
2057	cchName = 0;
2058	}
2059	else
2060	{
2061	if (cchArg + 1 + cchWord + 1 > sizeof(szArg))
2062	return parseError(pStrm, 1, "Too long parameter declaration");
2063
2064	szArg[cchArg++] = ' ';
2065	memcpy(&szArg[cchArg], pszWord, cchWord);
2066	cchArg += cchWord;
2067	szArg[cchArg] = '\0';
2068	cchName = cchWord;
2069	}
2070	break;
2071	}
2072
2073	case '*':
2074	{
2075	if (!pArg)
2076	return parseError(pStrm, 1, "A parameter type does not start with an asterix");
2077	if (cchArg + sizeof(" *") >= sizeof(szArg))
2078	return parseError(pStrm, 1, "Too long parameter declaration");
2079	szArg[cchArg++] = ' ';
2080	szArg[cchArg++] = '*';
2081	szArg[cchArg ] = '\0';
2082	cchName = 0;
2083	break;
2084	}
2085
2086	case ~(unsigned)0:
2087	return parseError(pStrm, 0, "Missing closing ')' on probe");
2088	}
2089	}
2090	}
2091
2092	/**
2093	* Parses a D provider statement.
2094	*
2095	* @returns Suitable exit code, errors message already written on failure.
2096	* @param pStrm The stream.
2097	*/
2098	static RTEXITCODE parseProvider(PSCMSTREAM pStrm)
2099	{
2100	/*
2101	* Next up is a name followed by a curly bracket. Ignore comments.
2102	*/
2103	RTEXITCODE rcExit = parseSkipSpacesAndComments(pStrm);
2104	if (rcExit != RTEXITCODE_SUCCESS)
2105	return parseError(pStrm, 1, "Expected a provider name starting with an alphabetical character");
2106	size_t cchName;
2107	const char *pszName = ScmStreamCGetWord(pStrm, &cchName);
2108	if (!pszName)
2109	return parseError(pStrm, 0, "Bad provider name");
2110	if (RT_C_IS_DIGIT(pszName[cchName - 1]))
2111	return parseError(pStrm, 1, "A provider name cannot end with digit");
2112
2113	unsigned ch = parseGetNextNonSpaceNonCommentCh(pStrm);
2114	if (ch != '{')
2115	return parseError(pStrm, 1, "Expected '{' after the provider name");
2116
2117	/*
2118	* Create a provider instance.
2119	*/
2120	PVTGPROVIDER pProv = (PVTGPROVIDER)RTMemAllocZ(sizeof(*pProv));
2121	if (!pProv)
2122	return parseError(pStrm, 0, "Out of memory");
2123	RTListInit(&pProv->ProbeHead);
2124	RTListAppend(&g_ProviderHead, &pProv->ListEntry);
2125	pProv->pszName = strtabInsertN(pszName, cchName);
2126	if (!pProv->pszName)
2127	return parseError(pStrm, 0, "Out of memory");
2128
2129	/*
2130	* Parse loop.
2131	*/
2132	for (;;)
2133	{
2134	ch = parseGetNextNonSpaceNonCommentCh(pStrm);
2135	switch (ch)
2136	{
2137	case 'p':
2138	if (ScmStreamCMatchingWordM1(pStrm, RT_STR_TUPLE("probe")))
2139	rcExit = parseProbe(pStrm, pProv);
2140	else
2141	rcExit = parseError(pStrm, 1, "Unexpected character");
2142	break;
2143
2144	case '}':
2145	{
2146	size_t off = ScmStreamTell(pStrm);
2147	ch = parseGetNextNonSpaceNonCommentCh(pStrm);
2148	if (ch == ';')
2149	return RTEXITCODE_SUCCESS;
2150	rcExit = parseErrorAbs(pStrm, off, "Expected ';'");
2151	break;
2152	}
2153
2154	case ~(unsigned)0:
2155	rcExit = parseError(pStrm, 0, "Missing closing '}' on provider");
2156	break;
2157
2158	default:
2159	rcExit = parseError(pStrm, 1, "Unexpected character");
2160	break;
2161	}
2162	if (rcExit != RTEXITCODE_SUCCESS)
2163	return rcExit;
2164	}
2165	}
2166
2167
2168	static RTEXITCODE parseScript(const char *pszScript)
2169	{
2170	SCMSTREAM Strm;
2171	int rc = ScmStreamInitForReading(&Strm, pszScript);
2172	if (RT_FAILURE(rc))
2173	return RTMsgErrorExit(RTEXITCODE_FAILURE, "Failed to open & read '%s' into memory: %Rrc", pszScript, rc);
2174	if (g_cVerbosity > 0)
2175	RTMsgInfo("Parsing '%s'...", pszScript);
2176
2177	RTEXITCODE rcExit = RTEXITCODE_SUCCESS;
2178	unsigned ch;
2179	while ((ch = ScmStreamGetCh(&Strm)) != ~(unsigned)0)
2180	{
2181	if (RT_C_IS_SPACE(ch))
2182	continue;
2183	switch (ch)
2184	{
2185	case '/':
2186	ch = ScmStreamGetCh(&Strm);
2187	if (ch == '*')
2188	rcExit = parseMultiLineComment(&Strm);
2189	else if (ch == '/')
2190	rcExit = parseOneLineComment(&Strm);
2191	else
2192	rcExit = parseError(&Strm, 2, "Unexpected character");
2193	break;
2194
2195	case 'p':
2196	if (ScmStreamCMatchingWordM1(&Strm, RT_STR_TUPLE("provider")))
2197	rcExit = parseProvider(&Strm);
2198	else
2199	rcExit = parseError(&Strm, 1, "Unexpected character");
2200	break;
2201
2202	case '#':
2203	{
2204	ch = parseGetNextNonSpaceNonCommentChOnPpLine(&Strm);
2205	if (ch == ~(unsigned)0)
2206	rcExit = RTEXITCODE_FAILURE;
2207	else if (ch == 'p' && ScmStreamCMatchingWordM1(&Strm, RT_STR_TUPLE("pragma")))
2208	rcExit = parsePragma(&Strm);
2209	else
2210	rcExit = parseError(&Strm, 1, "Unsupported preprocessor directive");
2211	break;
2212	}
2213
2214	default:
2215	rcExit = parseError(&Strm, 1, "Unexpected character");
2216	break;
2217	}
2218	if (rcExit != RTEXITCODE_SUCCESS)
2219	return rcExit;
2220	}
2221
2222	ScmStreamDelete(&Strm);
2223	if (g_cVerbosity > 0 && rcExit == RTEXITCODE_SUCCESS)
2224	RTMsgInfo("Successfully parsed '%s'.", pszScript);
2225	return rcExit;
2226	}
2227
2228
2229	/**
2230	* Parses the arguments.
2231	*/
2232	static RTEXITCODE parseArguments(int argc, char **argv)
2233	{
2234	/*
2235	* Set / Adjust defaults.
2236	*/
2237	int rc = RTPathAbs(g_pszAssemblerIncVal, g_szAssemblerIncVal, sizeof(g_szAssemblerIncVal) - 1);
2238	if (RT_FAILURE(rc))
2239	return RTMsgErrorExit(RTEXITCODE_FAILURE, "RTPathAbs failed: %Rrc", rc);
2240	strcat(g_szAssemblerIncVal, "/");
2241	g_pszAssemblerIncVal = g_szAssemblerIncVal;
2242
2243	/*
2244	* Option config.
2245	*/
2246	enum
2247	{
2248	kVBoxTpGOpt_32Bit = 1000,
2249	kVBoxTpGOpt_64Bit,
2250	kVBoxTpGOpt_GenerateWrapperHeader,
2251	kVBoxTpGOpt_Assembler,
2252	kVBoxTpGOpt_AssemblerFmtOpt,
2253	kVBoxTpGOpt_AssemblerFmtVal,
2254	kVBoxTpGOpt_AssemblerOutputOpt,
2255	kVBoxTpGOpt_AssemblerOption,
2256	kVBoxTpGOpt_Pic,
2257	kVBoxTpGOpt_ProbeFnName,
2258	kVBoxTpGOpt_ProbeFnImported,
2259	kVBoxTpGOpt_ProbeFnNotImported,
2260	kVBoxTpGOpt_Host32Bit,
2261	kVBoxTpGOpt_Host64Bit,
2262	kVBoxTpGOpt_RawModeContext,
2263	kVBoxTpGOpt_Ring0Context,
2264	kVBoxTpGOpt_Ring0ContextAgnostic,
2265	kVBoxTpGOpt_Ring3Context,
2266	kVBoxTpGOpt_End
2267	};
2268
2269	static RTGETOPTDEF const s_aOpts[] =
2270	{
2271	/* dtrace w/ long options */
2272	{ "-32", kVBoxTpGOpt_32Bit, RTGETOPT_REQ_NOTHING },
2273	{ "-64", kVBoxTpGOpt_64Bit, RTGETOPT_REQ_NOTHING },
2274	{ "--apply-cpp", 'C', RTGETOPT_REQ_NOTHING },
2275	{ "--generate-obj", 'G', RTGETOPT_REQ_NOTHING },
2276	{ "--generate-header", 'h', RTGETOPT_REQ_NOTHING },
2277	{ "--output", 'o', RTGETOPT_REQ_STRING },
2278	{ "--script", 's', RTGETOPT_REQ_STRING },
2279	{ "--verbose", 'v', RTGETOPT_REQ_NOTHING },
2280	/* our stuff */
2281	{ "--generate-wrapper-header", kVBoxTpGOpt_GenerateWrapperHeader, RTGETOPT_REQ_NOTHING },
2282	{ "--assembler", kVBoxTpGOpt_Assembler, RTGETOPT_REQ_STRING },
2283	{ "--assembler-fmt-opt", kVBoxTpGOpt_AssemblerFmtOpt, RTGETOPT_REQ_STRING },
2284	{ "--assembler-fmt-val", kVBoxTpGOpt_AssemblerFmtVal, RTGETOPT_REQ_STRING },
2285	{ "--assembler-output-opt", kVBoxTpGOpt_AssemblerOutputOpt, RTGETOPT_REQ_STRING },
2286	{ "--assembler-option", kVBoxTpGOpt_AssemblerOption, RTGETOPT_REQ_STRING },
2287	{ "--pic", kVBoxTpGOpt_Pic, RTGETOPT_REQ_NOTHING },
2288	{ "--probe-fn-name", kVBoxTpGOpt_ProbeFnName, RTGETOPT_REQ_STRING },
2289	{ "--probe-fn-imported", kVBoxTpGOpt_ProbeFnImported, RTGETOPT_REQ_NOTHING },
2290	{ "--probe-fn-not-imported", kVBoxTpGOpt_ProbeFnNotImported, RTGETOPT_REQ_NOTHING },
2291	{ "--host-32-bit", kVBoxTpGOpt_Host32Bit, RTGETOPT_REQ_NOTHING },
2292	{ "--host-64-bit", kVBoxTpGOpt_Host64Bit, RTGETOPT_REQ_NOTHING },
2293	{ "--raw-mode-context", kVBoxTpGOpt_RawModeContext, RTGETOPT_REQ_NOTHING },
2294	{ "--ring-0-context", kVBoxTpGOpt_Ring0Context, RTGETOPT_REQ_NOTHING },
2295	{ "--ring-0-context-agnostic", kVBoxTpGOpt_Ring0ContextAgnostic, RTGETOPT_REQ_NOTHING },
2296	{ "--ring-3-context", kVBoxTpGOpt_Ring3Context, RTGETOPT_REQ_NOTHING },
2297	/** @todo We're missing a bunch of assembler options! */
2298	};
2299
2300	RTGETOPTUNION ValueUnion;
2301	RTGETOPTSTATE GetOptState;
2302	rc = RTGetOptInit(&GetOptState, argc, argv, &s_aOpts[0], RT_ELEMENTS(s_aOpts), 1, RTGETOPTINIT_FLAGS_OPTS_FIRST);
2303	AssertReleaseRCReturn(rc, RTEXITCODE_FAILURE);
2304
2305	/*
2306	* Process the options.
2307	*/
2308	while ((rc = RTGetOpt(&GetOptState, &ValueUnion)) != 0)
2309	{
2310	switch (rc)
2311	{
2312	/*
2313	* DTrace compatible options.
2314	*/
2315	case kVBoxTpGOpt_32Bit:
2316	g_cHostBits = g_cBits = 32;
2317	g_pszAssemblerFmtVal = g_szAssemblerFmtVal32;
2318	break;
2319
2320	case kVBoxTpGOpt_64Bit:
2321	g_cHostBits = g_cBits = 64;
2322	g_pszAssemblerFmtVal = g_szAssemblerFmtVal64;
2323	break;
2324
2325	case 'C':
2326	g_fApplyCpp = true;
2327	RTMsgWarning("Ignoring the -C option - no preprocessing of the D script will be performed");
2328	break;
2329
2330	case 'G':
2331	if ( g_enmAction != kVBoxTpGAction_Nothing
2332	&& g_enmAction != kVBoxTpGAction_GenerateObject)
2333	return RTMsgErrorExit(RTEXITCODE_SYNTAX, "-G does not mix with -h or --generate-wrapper-header");
2334	g_enmAction = kVBoxTpGAction_GenerateObject;
2335	break;
2336
2337	case 'h':
2338	if (!strcmp(GetOptState.pDef->pszLong, "--generate-header"))
2339	{
2340	if ( g_enmAction != kVBoxTpGAction_Nothing
2341	&& g_enmAction != kVBoxTpGAction_GenerateHeader)
2342	return RTMsgErrorExit(RTEXITCODE_SYNTAX, "-h does not mix with -G or --generate-wrapper-header");
2343	g_enmAction = kVBoxTpGAction_GenerateHeader;
2344	}
2345	else
2346	{
2347	/* --help or similar */
2348	RTPrintf("VirtualBox Tracepoint Generator\n"
2349	"\n"
2350	"Usage: %s [options]\n"
2351	"\n"
2352	"Options:\n", RTProcShortName());
2353	for (size_t i = 0; i < RT_ELEMENTS(s_aOpts); i++)
2354	if ((unsigned)s_aOpts[i].iShort < 128)
2355	RTPrintf(" -%c,%s\n", s_aOpts[i].iShort, s_aOpts[i].pszLong);
2356	else
2357	RTPrintf(" %s\n", s_aOpts[i].pszLong);
2358	return RTEXITCODE_SUCCESS;
2359	}
2360	break;
2361
2362	case 'o':
2363	if (g_pszOutput)
2364	return RTMsgErrorExit(RTEXITCODE_SYNTAX, "Output file is already set to '%s'", g_pszOutput);
2365	g_pszOutput = ValueUnion.psz;
2366	break;
2367
2368	case 's':
2369	if (g_pszScript)
2370	return RTMsgErrorExit(RTEXITCODE_SYNTAX, "Script file is already set to '%s'", g_pszScript);
2371	g_pszScript = ValueUnion.psz;
2372	break;
2373
2374	case 'v':
2375	g_cVerbosity++;
2376	break;
2377
2378	case 'V':
2379	{
2380	/* The following is assuming that svn does it's job here. */
2381	static const char s_szRev[] = "$Revision: 58997 $";
2382	const char *psz = RTStrStripL(strchr(s_szRev, ' '));
2383	RTPrintf("r%.*s\n", strchr(psz, ' ') - psz, psz);
2384	return RTEXITCODE_SUCCESS;
2385	}
2386
2387	case VINF_GETOPT_NOT_OPTION:
2388	if (g_enmAction == kVBoxTpGAction_GenerateObject)
2389	break; /* object files, ignore them. */
2390	return RTGetOptPrintError(rc, &ValueUnion);
2391
2392
2393	/*
2394	* Our options.
2395	*/
2396	case kVBoxTpGOpt_GenerateWrapperHeader:
2397	if ( g_enmAction != kVBoxTpGAction_Nothing
2398	&& g_enmAction != kVBoxTpGAction_GenerateWrapperHeader)
2399	return RTMsgErrorExit(RTEXITCODE_SYNTAX, "--generate-wrapper-header does not mix with -h or -G");
2400	g_enmAction = kVBoxTpGAction_GenerateWrapperHeader;
2401	break;
2402
2403	case kVBoxTpGOpt_Assembler:
2404	g_pszAssembler = ValueUnion.psz;
2405	break;
2406
2407	case kVBoxTpGOpt_AssemblerFmtOpt:
2408	g_pszAssemblerFmtOpt = ValueUnion.psz;
2409	break;
2410
2411	case kVBoxTpGOpt_AssemblerFmtVal:
2412	g_pszAssemblerFmtVal = ValueUnion.psz;
2413	break;
2414
2415	case kVBoxTpGOpt_AssemblerOutputOpt:
2416	g_pszAssemblerOutputOpt = ValueUnion.psz;
2417	break;
2418
2419	case kVBoxTpGOpt_AssemblerOption:
2420	if (g_cAssemblerOptions >= RT_ELEMENTS(g_apszAssemblerOptions))
2421	return RTMsgErrorExit(RTEXITCODE_SYNTAX, "Too many assembly options (max %u)", RT_ELEMENTS(g_apszAssemblerOptions));
2422	g_apszAssemblerOptions[g_cAssemblerOptions] = ValueUnion.psz;
2423	g_cAssemblerOptions++;
2424	break;
2425
2426	case kVBoxTpGOpt_Pic:
2427	g_fPic = true;
2428	break;
2429
2430	case kVBoxTpGOpt_ProbeFnName:
2431	g_pszProbeFnName = ValueUnion.psz;
2432	break;
2433
2434	case kVBoxTpGOpt_ProbeFnImported:
2435	g_fProbeFnImported = true;
2436	break;
2437
2438	case kVBoxTpGOpt_ProbeFnNotImported:
2439	g_fProbeFnImported = false;
2440	break;
2441
2442	case kVBoxTpGOpt_Host32Bit:
2443	g_cHostBits = 32;
2444	break;
2445
2446	case kVBoxTpGOpt_Host64Bit:
2447	g_cHostBits = 64;
2448	break;
2449
2450	case kVBoxTpGOpt_RawModeContext:
2451	g_fTypeContext = VTG_TYPE_CTX_RC;
2452	g_pszContextDefine = "IN_RC";
2453	g_pszContextDefine2 = NULL;
2454	break;
2455
2456	case kVBoxTpGOpt_Ring0Context:
2457	g_fTypeContext = VTG_TYPE_CTX_R0;
2458	g_pszContextDefine = "IN_RING0";
2459	g_pszContextDefine2 = NULL;
2460	break;
2461
2462	case kVBoxTpGOpt_Ring0ContextAgnostic:
2463	g_fTypeContext = VTG_TYPE_CTX_R0;
2464	g_pszContextDefine = "IN_RING0_AGNOSTIC";
2465	g_pszContextDefine2 = "IN_RING0";
2466	break;
2467
2468	case kVBoxTpGOpt_Ring3Context:
2469	g_fTypeContext = VTG_TYPE_CTX_R3;
2470	g_pszContextDefine = "IN_RING3";
2471	g_pszContextDefine2 = NULL;
2472	break;
2473
2474
2475	/*
2476	* Errors and bugs.
2477	*/
2478	default:
2479	return RTGetOptPrintError(rc, &ValueUnion);
2480	}
2481	}
2482
2483	/*
2484	* Check that we've got all we need.
2485	*/
2486	if (g_enmAction == kVBoxTpGAction_Nothing)
2487	return RTMsgErrorExit(RTEXITCODE_SYNTAX, "No action specified (-h, -G or --generate-wrapper-header)");
2488	if (!g_pszScript)
2489	return RTMsgErrorExit(RTEXITCODE_SYNTAX, "No script file specified (-s)");
2490	if (!g_pszOutput)
2491	return RTMsgErrorExit(RTEXITCODE_SYNTAX, "No output file specified (-o)");
2492
2493	return RTEXITCODE_SUCCESS;
2494	}
2495
2496
2497	int main(int argc, char **argv)
2498	{
2499	int rc = RTR3InitExe(argc, &argv, 0);
2500	if (RT_FAILURE(rc))
2501	return 1;
2502
2503	RTEXITCODE rcExit = parseArguments(argc, argv);
2504	if (rcExit == RTEXITCODE_SUCCESS)
2505	{
2506	/*
2507	* Parse the script.
2508	*/
2509	RTListInit(&g_ProviderHead);
2510	rcExit = parseScript(g_pszScript);
2511	if (rcExit == RTEXITCODE_SUCCESS)
2512	{
2513	/*
2514	* Take action.
2515	*/
2516	if (g_enmAction == kVBoxTpGAction_GenerateHeader)
2517	rcExit = generateFile(g_pszOutput, "header", generateHeader);
2518	else if (g_enmAction == kVBoxTpGAction_GenerateWrapperHeader)
2519	rcExit = generateFile(g_pszOutput, "wrapper header", generateWrapperHeader);
2520	else
2521	rcExit = generateObject(g_pszOutput, g_pszTempAsm);
2522	}
2523	}
2524
2525	if (rcExit == RTEXITCODE_SUCCESS && g_cTypeErrors > 0)
2526	rcExit = RTEXITCODE_FAILURE;
2527	return rcExit;
2528	}
2529

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source: vbox/trunk/src/bldprogs/VBoxTpG.cpp@ 58997

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