VirtualBox

source: vbox/trunk/src/VBox/Runtime/common/string/strformatrt.cpp@ 14786

Last change on this file since 14786 was 13837, checked in by vboxsync, 16 years ago

s/%Vr\([acfs]\)/%Rr\1/g - since I'm upsetting everyone anyway, better make the most of it...

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1/* $Id: strformatrt.cpp 13837 2008-11-05 02:54:02Z vboxsync $ */
2/** @file
3 * IPRT - IPRT String Formatter Extensions.
4 */
5
6/*
7 * Copyright (C) 2006-2007 Sun Microsystems, Inc.
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 * The contents of this file may alternatively be used under the terms
18 * of the Common Development and Distribution License Version 1.0
19 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
20 * VirtualBox OSE distribution, in which case the provisions of the
21 * CDDL are applicable instead of those of the GPL.
22 *
23 * You may elect to license modified versions of this file under the
24 * terms and conditions of either the GPL or the CDDL or both.
25 *
26 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa
27 * Clara, CA 95054 USA or visit http://www.sun.com if you need
28 * additional information or have any questions.
29 */
30
31/** @page pg_rt_str_format_rt The IPRT String Format Extensions
32 *
33 * The string formatter supports most of the non-float format types and flags.
34 * See RTStrFormatV() for the full tail there. In addition we've added a number
35 * of iprt specific format types for the iprt typedefs and other useful stuff.
36 * Note that several of these are similar to \%p and doesn't care much if you try
37 * add formating flags/width/precision.
38 *
39 *
40 * Group 1, the basic runtime typedefs (excluding those which obviously are pointer).
41 * - \%RTbool - Takes a bool value and prints 'true', 'false', or '!%d!'.
42 * - \%RTfile - Takes a #RTFILE value.
43 * - \%RTfmode - Takes a #RTFMODE value.
44 * - \%RTfoff - Takes a #RTFOFF value.
45 * - \%RTfp16 - Takes a #RTFAR16 value.
46 * - \%RTfp32 - Takes a #RTFAR32 value.
47 * - \%RTfp64 - Takes a #RTFAR64 value.
48 * - \%RTgid - Takes a #RTGID value.
49 * - \%RTino - Takes a #RTINODE value.
50 * - \%RTint - Takes a #RTINT value.
51 * - \%RTiop - Takes a #RTIOPORT value.
52 * - \%RTldrm - Takes a #RTLDRMOD value.
53 * - \%RTnthrd - Takes a #RTNATIVETHREAD value.
54 * - \%RTproc - Takes a #RTPROCESS value.
55 * - \%RTptr - Takes a #RTINTPTR or #RTUINTPTR value (but not void *).
56 * - \%RTreg - Takes a #RTCCUINTREG value.
57 * - \%RTsel - Takes a #RTSEL value.
58 * - \%RTsem - Takes a #RTSEMEVENT, #RTSEMEVENTMULTI, #RTSEMMUTEX, #RTSEMFASTMUTEX, or #RTSEMRW value.
59 * - \%RTsock - Takes a #RTSOCKET value.
60 * - \%RTthrd - Takes a #RTTHREAD value.
61 * - \%RTuid - Takes a #RTUID value.
62 * - \%RTuint - Takes a #RTUINT value.
63 * - \%RTunicp - Takes a #RTUNICP value.
64 * - \%RTutf16 - Takes a #RTUTF16 value.
65 * - \%RTuuid - Takes a #PCRTUUID and will print the UUID as a string.
66 * - \%RTxuint - Takes a #RTUINT or #RTINT value, formatting it as hex.
67 * - \%RGi - Takes a #RTGCINT value.
68 * - \%RGp - Takes a #RTGCPHYS value.
69 * - \%RGr - Takes a #RTGCUINTREG value.
70 * - \%RGu - Takes a #RTGCUINT value.
71 * - \%RGv - Takes a #RTGCPTR, #RTGCINTPTR or #RTGCUINTPTR value.
72 * - \%RGx - Takes a #RTGCUINT or #RTGCINT value, formatting it as hex.
73 * - \%RHi - Takes a #RTHCINT value.
74 * - \%RHp - Takes a #RTHCPHYS value.
75 * - \%RHr - Takes a #RTHCUINTREG value.
76 * - \%RHu - Takes a #RTHCUINT value.
77 * - \%RHv - Takes a #RTHCPTR, #RTHCINTPTR or #RTHCUINTPTR value.
78 * - \%RHx - Takes a #RTHCUINT or #RTHCINT value, formatting it as hex.
79 * - \%RRv - Takes a #RTRCPTR, #RTRCINTPTR or #RTRCUINTPTR value.
80 * - \%RCi - Takes a #RTCCINT value.
81 * - \%RCp - Takes a #RTCCPHYS value.
82 * - \%RCr - Takes a #RTCCUINTREG value.
83 * - \%RCu - Takes a #RTUINT value.
84 * - \%RCv - Takes a #uintptr_t, #intptr_t, void * value.
85 * - \%RCx - Takes a #RTUINT or #RTINT value, formatting it as hex.
86 *
87 *
88 * Group 2, the generic integer types which are prefered over relying on what
89 * bit-count a 'long', 'short', or 'long long' has on a platform. This are
90 * highly prefered for the [u]intXX_t kind of types.
91 * - \%RI[8|16|32|64] - Signed integer value of the specifed bit count.
92 * - \%RU[8|16|32|64] - Unsigned integer value of the specifed bit count.
93 * - \%RX[8|16|32|64] - Hexadecimal integer value of the specifed bit count.
94 *
95 *
96 * Group 3, hex dumpers and other complex stuff which requires more than simple formatting.
97 * - \%Rhxd - Takes a pointer to the memory which is to be dumped in typical
98 * hex format. Use the width to specify the length, and the precision to
99 * set the number of bytes per line. Default width and precision is 16.
100 * - \%Rhxs - Takes a pointer to the memory to be displayed as a hex string,
101 * i.e. a series of space separated bytes formatted as two digit hex value.
102 * Use the width to specify the length. Default length is 16 bytes.
103 * - \%Rrc - Takes an integer iprt status code as argument. Will insert the
104 * status code define corresponding to the iprt status code.
105 * - \%Rrs - Takes an integer iprt status code as argument. Will insert the
106 * short description of the specified status code.
107 * - \%Rrf - Takes an integer iprt status code as argument. Will insert the
108 * full description of the specified status code.
109 * - \%Rra - Takes an integer iprt status code as argument. Will insert the
110 * status code define + full description.
111 * - \%Rt - Current thread (RTThreadSelf()), no arguments.
112 *
113 * - \%Rwc - Takes a long Windows error code as argument. Will insert the status
114 * code define corresponding to the Windows error code.
115 * - \%Rwf - Takes a long Windows error code as argument. Will insert the
116 * full description of the specified status code.
117 * - \%Rwa - Takes a long Windows error code as argument. Will insert the
118 * error code define + full description.
119 *
120 * - \%Rhrc - Takes a COM/XPCOM status code as argument. Will insert the status
121 * code define corresponding to the Windows error code.
122 * - \%Rhrf - Takes a COM/XPCOM status code as argument. Will insert the
123 * full description of the specified status code.
124 * - \%Rhra - Takes a COM/XPCOM error code as argument. Will insert the
125 * error code define + full description.
126 *
127 * - \%Rfn - Pretty printing of a function or method. It drops the
128 * return code and parameter list.
129 *
130 * On other platforms, \%Rw? simply prints the argument in a form of 0xXXXXXXXX.
131 *
132 *
133 * Group 4, structure dumpers.
134 *
135 * - \%RDtimespec - Takes a PCRTTIMESPEC.
136 *
137 *
138 */
139
140/*******************************************************************************
141* Header Files *
142*******************************************************************************/
143#define LOG_GROUP RTLOGGROUP_STRING
144#include <iprt/log.h>
145#include <iprt/string.h>
146#include <iprt/assert.h>
147#include <iprt/string.h>
148#include <iprt/stdarg.h>
149#ifdef IN_RING3
150# include <iprt/thread.h>
151# include <iprt/err.h>
152#endif
153#include <iprt/time.h>
154#include <iprt/ctype.h>
155#include "internal/string.h"
156
157
158
159/**
160 * Callback to format iprt formatting extentions.
161 * See @ref pg_rt_str_format_rt for a reference on the format types.
162 *
163 * @returns The number of bytes formatted.
164 * @param pfnOutput Pointer to output function.
165 * @param pvArgOutput Argument for the output function.
166 * @param ppszFormat Pointer to the format string pointer. Advance this till the char
167 * after the format specifier.
168 * @param pArgs Pointer to the argument list. Use this to fetch the arguments.
169 * @param cchWidth Format Width. -1 if not specified.
170 * @param cchPrecision Format Precision. -1 if not specified.
171 * @param fFlags Flags (RTSTR_NTFS_*).
172 * @param chArgSize The argument size specifier, 'l' or 'L'.
173 */
174size_t rtstrFormatRt(PFNRTSTROUTPUT pfnOutput, void *pvArgOutput, const char **ppszFormat, va_list *pArgs, int cchWidth, int cchPrecision, unsigned fFlags, char chArgSize)
175{
176 const char *pszFormatOrg = *ppszFormat;
177 char ch = *(*ppszFormat)++;
178 if (ch == 'R')
179 {
180 ch = *(*ppszFormat)++;
181 switch (ch)
182 {
183 /*
184 * Groups 1 and 2.
185 */
186 case 'T':
187 case 'G':
188 case 'H':
189 case 'R':
190 case 'C':
191 case 'I':
192 case 'X':
193 case 'U':
194 {
195 /*
196 * Interpret the type.
197 */
198 typedef enum { RTSF_INT, RTSF_INTW, RTSF_FP16, RTSF_FP32, RTSF_FP64, RTSF_UUID, RTSF_BOOL } RTSF;
199 static const struct
200 {
201 uint8_t cch; /**< the length of the string. */
202 char sz[10]; /**< the part following 'R'. */
203 uint8_t cb; /**< the size of the type. */
204 uint8_t u8Base; /**< the size of the type. */
205 RTSF enmFormat; /**< The way to format it. */
206 uint16_t fFlags; /**< additional RTSTR_F_* flags. */
207 }
208 /** Sorted array of types, looked up using binary search! */
209 s_aTypes[] =
210 {
211#define STRMEM(str) sizeof(str) - 1, str
212 { STRMEM("Ci"), sizeof(RTINT), 10, RTSF_INT, RTSTR_F_VALSIGNED },
213 { STRMEM("Cp"), sizeof(RTGCPHYS), 16, RTSF_INTW, 0 },
214 { STRMEM("Cr"), sizeof(RTCCUINTREG), 16, RTSF_INTW, 0 },
215 { STRMEM("Cu"), sizeof(RTUINT), 10, RTSF_INT, 0 },
216 { STRMEM("Cv"), sizeof(void *), 16, RTSF_INTW, 0 },
217 { STRMEM("Cx"), sizeof(RTUINT), 16, RTSF_INT, 0 },
218 { STRMEM("Gi"), sizeof(RTGCINT), 10, RTSF_INT, RTSTR_F_VALSIGNED },
219 { STRMEM("Gp"), sizeof(RTGCPHYS), 16, RTSF_INTW, 0 },
220 { STRMEM("Gr"), sizeof(RTGCUINTREG), 16, RTSF_INTW, 0 },
221 { STRMEM("Gu"), sizeof(RTGCUINT), 10, RTSF_INT, 0 },
222 { STRMEM("Gv"), sizeof(RTGCPTR), 16, RTSF_INTW, 0 },
223 { STRMEM("Gx"), sizeof(RTGCUINT), 16, RTSF_INT, 0 },
224 { STRMEM("Hi"), sizeof(RTHCINT), 10, RTSF_INT, RTSTR_F_VALSIGNED },
225 { STRMEM("Hp"), sizeof(RTHCPHYS), 16, RTSF_INTW, 0 },
226 { STRMEM("Hr"), sizeof(RTGCUINTREG), 16, RTSF_INTW, 0 },
227 { STRMEM("Hu"), sizeof(RTHCUINT), 10, RTSF_INT, 0 },
228 { STRMEM("Hv"), sizeof(RTHCPTR), 16, RTSF_INTW, 0 },
229 { STRMEM("Hx"), sizeof(RTHCUINT), 16, RTSF_INT, 0 },
230 { STRMEM("I16"), sizeof(int16_t), 10, RTSF_INT, RTSTR_F_VALSIGNED },
231 { STRMEM("I32"), sizeof(int32_t), 10, RTSF_INT, RTSTR_F_VALSIGNED },
232 { STRMEM("I64"), sizeof(int64_t), 10, RTSF_INT, RTSTR_F_VALSIGNED },
233 { STRMEM("I8"), sizeof(int8_t), 10, RTSF_INT, RTSTR_F_VALSIGNED },
234 { STRMEM("Rv"), sizeof(RTRCPTR), 16, RTSF_INTW, 0 },
235 { STRMEM("Tbool"), sizeof(bool), 10, RTSF_BOOL, 0 },
236 { STRMEM("Tfile"), sizeof(RTFILE), 10, RTSF_INT, 0 },
237 { STRMEM("Tfmode"), sizeof(RTFMODE), 16, RTSF_INTW, 0 },
238 { STRMEM("Tfoff"), sizeof(RTFOFF), 10, RTSF_INT, RTSTR_F_VALSIGNED },
239 { STRMEM("Tfp16"), sizeof(RTFAR16), 16, RTSF_FP16, RTSTR_F_ZEROPAD },
240 { STRMEM("Tfp32"), sizeof(RTFAR32), 16, RTSF_FP32, RTSTR_F_ZEROPAD },
241 { STRMEM("Tfp64"), sizeof(RTFAR64), 16, RTSF_FP64, RTSTR_F_ZEROPAD },
242 { STRMEM("Tgid"), sizeof(RTGID), 10, RTSF_INT, RTSTR_F_VALSIGNED },
243 { STRMEM("Tino"), sizeof(RTINODE), 16, RTSF_INTW, 0 },
244 { STRMEM("Tint"), sizeof(RTINT), 10, RTSF_INT, RTSTR_F_VALSIGNED },
245 { STRMEM("Tiop"), sizeof(RTIOPORT), 16, RTSF_INTW, 0 },
246 { STRMEM("Tldrm"), sizeof(RTLDRMOD), 16, RTSF_INTW, 0 },
247 { STRMEM("Tnthrd"), sizeof(RTNATIVETHREAD), 16, RTSF_INTW, 0 },
248 { STRMEM("Tproc"), sizeof(RTPROCESS), 16, RTSF_INTW, 0 },
249 { STRMEM("Tptr"), sizeof(RTUINTPTR), 16, RTSF_INTW, 0 },
250 { STRMEM("Treg"), sizeof(RTCCUINTREG), 16, RTSF_INTW, 0 },
251 { STRMEM("Tsel"), sizeof(RTSEL), 16, RTSF_INTW, 0 },
252 { STRMEM("Tsem"), sizeof(RTSEMEVENT), 16, RTSF_INTW, 0 },
253 { STRMEM("Tsock"), sizeof(RTSOCKET), 10, RTSF_INT, 0 },
254 { STRMEM("Tthrd"), sizeof(RTTHREAD), 16, RTSF_INTW, 0 },
255 { STRMEM("Tuid"), sizeof(RTUID), 10, RTSF_INT, RTSTR_F_VALSIGNED },
256 { STRMEM("Tuint"), sizeof(RTUINT), 10, RTSF_INT, 0 },
257 { STRMEM("Tunicp"), sizeof(RTUNICP), 16, RTSF_INTW, RTSTR_F_ZEROPAD },
258 { STRMEM("Tutf16"), sizeof(RTUTF16), 16, RTSF_INTW, RTSTR_F_ZEROPAD },
259 { STRMEM("Tuuid"), sizeof(PCRTUUID), 16, RTSF_UUID, 0 },
260 { STRMEM("Txint"), sizeof(RTUINT), 16, RTSF_INT, 0 },
261 { STRMEM("U16"), sizeof(uint16_t), 10, RTSF_INT, 0 },
262 { STRMEM("U32"), sizeof(uint32_t), 10, RTSF_INT, 0 },
263 { STRMEM("U64"), sizeof(uint64_t), 10, RTSF_INT, 0 },
264 { STRMEM("U8"), sizeof(uint8_t), 10, RTSF_INT, 0 },
265 { STRMEM("X16"), sizeof(uint16_t), 16, RTSF_INT, 0 },
266 { STRMEM("X32"), sizeof(uint32_t), 16, RTSF_INT, 0 },
267 { STRMEM("X64"), sizeof(uint64_t), 16, RTSF_INT, 0 },
268 { STRMEM("X8"), sizeof(uint8_t), 16, RTSF_INT, 0 },
269#undef STRMEM
270 };
271 const char *pszType = *ppszFormat - 1;
272 int iStart = 0;
273 int iEnd = RT_ELEMENTS(s_aTypes) - 1;
274 int i = RT_ELEMENTS(s_aTypes) / 2;
275
276 union
277 {
278 uint8_t u8;
279 uint16_t u16;
280 uint32_t u32;
281 uint64_t u64;
282 int8_t i8;
283 int16_t i16;
284 int32_t i32;
285 int64_t i64;
286 RTFAR16 fp16;
287 RTFAR32 fp32;
288 RTFAR64 fp64;
289 bool fBool;
290 PCRTUUID pUuid;
291 } u;
292 char szBuf[80];
293 unsigned cch;
294
295 AssertMsg(!chArgSize, ("Not argument size '%c' for RT types! '%.10s'\n", chArgSize, pszFormatOrg));
296
297 /*
298 * Lookup the type - binary search.
299 */
300 for (;;)
301 {
302 int iDiff = strncmp(pszType, s_aTypes[i].sz, s_aTypes[i].cch);
303 if (!iDiff)
304 break;
305 if (iEnd == iStart)
306 {
307 AssertMsgFailed(("Invalid format type '%.10s'!\n", pszFormatOrg));
308 return 0;
309 }
310 if (iDiff < 0)
311 iEnd = i - 1;
312 else
313 iStart = i + 1;
314 if (iEnd < iStart)
315 {
316 AssertMsgFailed(("Invalid format type '%.10s'!\n", pszFormatOrg));
317 return 0;
318 }
319 i = iStart + (iEnd - iStart) / 2;
320 }
321
322 /*
323 * Advance the format string and merge flags.
324 */
325 *ppszFormat += s_aTypes[i].cch - 1;
326 fFlags |= s_aTypes[i].fFlags;
327
328 /*
329 * Fetch the argument.
330 * It's important that a signed value gets sign-extended up to 64-bit.
331 */
332 u.u64 = 0;
333 if (fFlags & RTSTR_F_VALSIGNED)
334 {
335 switch (s_aTypes[i].cb)
336 {
337 case sizeof(int8_t):
338 u.i64 = va_arg(*pArgs, /*int8_t*/int);
339 fFlags |= RTSTR_F_8BIT;
340 break;
341 case sizeof(int16_t):
342 u.i64 = va_arg(*pArgs, /*int16_t*/int);
343 fFlags |= RTSTR_F_16BIT;
344 break;
345 case sizeof(int32_t):
346 u.i64 = va_arg(*pArgs, int32_t);
347 fFlags |= RTSTR_F_32BIT;
348 break;
349 case sizeof(int64_t):
350 u.i64 = va_arg(*pArgs, int64_t);
351 fFlags |= RTSTR_F_64BIT;
352 break;
353 default:
354 AssertMsgFailed(("Invalid format error, size %d'!\n", s_aTypes[i].cb));
355 break;
356 }
357 }
358 else
359 {
360 switch (s_aTypes[i].cb)
361 {
362 case sizeof(uint8_t):
363 u.u8 = va_arg(*pArgs, /*uint8_t*/unsigned);
364 fFlags |= RTSTR_F_8BIT;
365 break;
366 case sizeof(uint16_t):
367 u.u16 = va_arg(*pArgs, /*uint16_t*/unsigned);
368 fFlags |= RTSTR_F_16BIT;
369 break;
370 case sizeof(uint32_t):
371 u.u32 = va_arg(*pArgs, uint32_t);
372 fFlags |= RTSTR_F_32BIT;
373 break;
374 case sizeof(uint64_t):
375 u.u64 = va_arg(*pArgs, uint64_t);
376 fFlags |= RTSTR_F_64BIT;
377 break;
378 case sizeof(RTFAR32):
379 u.fp32 = va_arg(*pArgs, RTFAR32);
380 break;
381 case sizeof(RTFAR64):
382 u.fp64 = va_arg(*pArgs, RTFAR64);
383 break;
384 default:
385 AssertMsgFailed(("Invalid format error, size %d'!\n", s_aTypes[i].cb));
386 break;
387 }
388 }
389
390 /*
391 * Format the output.
392 */
393 switch (s_aTypes[i].enmFormat)
394 {
395 case RTSF_INT:
396 {
397 cch = RTStrFormatNumber(szBuf, u.u64, s_aTypes[i].u8Base, cchWidth, cchPrecision, fFlags);
398 break;
399 }
400
401 /* hex which defaults to max width. */
402 case RTSF_INTW:
403 {
404 Assert(s_aTypes[i].u8Base == 16);
405 if (cchWidth < 0)
406 {
407 cchWidth = s_aTypes[i].cb * 2 + (fFlags & RTSTR_F_SPECIAL ? 2 : 0);
408 fFlags |= RTSTR_F_ZEROPAD;
409 }
410 cch = RTStrFormatNumber(szBuf, u.u64, s_aTypes[i].u8Base, cchWidth, cchPrecision, fFlags);
411 break;
412 }
413
414 case RTSF_FP16:
415 {
416 fFlags &= ~(RTSTR_F_VALSIGNED | RTSTR_F_BIT_MASK | RTSTR_F_WIDTH | RTSTR_F_PRECISION);
417 cch = RTStrFormatNumber(&szBuf[0], u.fp16.sel, 16, 4, -1, fFlags | RTSTR_F_16BIT);
418 Assert(cch == 4);
419 szBuf[4] = ':';
420 cch = RTStrFormatNumber(&szBuf[5], u.fp16.off, 16, 4, -1, fFlags | RTSTR_F_16BIT);
421 Assert(cch == 4);
422 cch = 4 + 1 + 4;
423 break;
424 }
425 case RTSF_FP32:
426 {
427 fFlags &= ~(RTSTR_F_VALSIGNED | RTSTR_F_BIT_MASK | RTSTR_F_WIDTH | RTSTR_F_PRECISION);
428 cch = RTStrFormatNumber(&szBuf[0], u.fp32.sel, 16, 4, -1, fFlags | RTSTR_F_16BIT);
429 Assert(cch == 4);
430 szBuf[4] = ':';
431 cch = RTStrFormatNumber(&szBuf[5], u.fp32.off, 16, 8, -1, fFlags | RTSTR_F_32BIT);
432 Assert(cch == 8);
433 cch = 4 + 1 + 8;
434 break;
435 }
436 case RTSF_FP64:
437 {
438 fFlags &= ~(RTSTR_F_VALSIGNED | RTSTR_F_BIT_MASK | RTSTR_F_WIDTH | RTSTR_F_PRECISION);
439 cch = RTStrFormatNumber(&szBuf[0], u.fp64.sel, 16, 4, -1, fFlags | RTSTR_F_16BIT);
440 Assert(cch == 4);
441 szBuf[4] = ':';
442 cch = RTStrFormatNumber(&szBuf[5], u.fp64.off, 16, 16, -1, fFlags | RTSTR_F_64BIT);
443 Assert(cch == 16);
444 cch = 4 + 1 + 16;
445 break;
446 }
447
448 case RTSF_UUID:
449 {
450 static const char szNull[] = "<NULL>";
451
452 if (VALID_PTR(u.pUuid))
453 {
454 /* cannot call RTUuidToStr because of GC/R0. */
455 return RTStrFormat(pfnOutput, pvArgOutput, NULL, 0,
456 "%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x",
457 u.pUuid->Gen.u32TimeLow,
458 u.pUuid->Gen.u16TimeMid,
459 u.pUuid->Gen.u16TimeHiAndVersion,
460 u.pUuid->Gen.u8ClockSeqHiAndReserved,
461 u.pUuid->Gen.u8ClockSeqLow,
462 u.pUuid->Gen.au8Node[0],
463 u.pUuid->Gen.au8Node[1],
464 u.pUuid->Gen.au8Node[2],
465 u.pUuid->Gen.au8Node[3],
466 u.pUuid->Gen.au8Node[4],
467 u.pUuid->Gen.au8Node[5]);
468 }
469 return pfnOutput(pvArgOutput, szNull, sizeof(szNull) - 1);
470 }
471
472 case RTSF_BOOL:
473 {
474 static const char szTrue[] = "true ";
475 static const char szFalse[] = "false";
476 if (u.u64 == 1)
477 return pfnOutput(pvArgOutput, szTrue, sizeof(szTrue) - 1);
478 if (u.u64 == 0)
479 return pfnOutput(pvArgOutput, szFalse, sizeof(szFalse) - 1);
480 /* invalid boolean value */
481 return RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "!%lld!", u.u64);
482 }
483
484 default:
485 AssertMsgFailed(("Internal error %d\n", s_aTypes[i].enmFormat));
486 return 0;
487 }
488
489 /*
490 * Finally, output the formatted string and return.
491 */
492 return pfnOutput(pvArgOutput, szBuf, cch);
493 }
494
495
496 /* Group 3 */
497
498 /*
499 * Pretty function / method name printing.
500 */
501 case 'f':
502 {
503 char ch = *(*ppszFormat)++;
504 switch (ch)
505 {
506 /*
507 * Pretty function / method name printing.
508 * This isn't 100% right (see classic signal prototype) and it assumes
509 * standardized names, but it'll do for today.
510 */
511 case 'n':
512 {
513 const char *pszStart;
514 const char *psz = pszStart = va_arg(*pArgs, const char *);
515 if (!VALID_PTR(psz))
516 return pfnOutput(pvArgOutput, "<null>", sizeof("<null>") - 1);
517
518 while ((ch = *psz) != '\0' && ch != '(')
519 {
520 if (RT_C_IS_BLANK(ch))
521 {
522 psz++;
523 while ((ch = *psz) != '\0' && (RT_C_IS_BLANK(ch) || ch == '('))
524 psz++;
525 if (ch)
526 pszStart = psz;
527 }
528 else if (ch == '(')
529 break;
530 else
531 psz++;
532 }
533
534 return pfnOutput(pvArgOutput, pszStart, psz - pszStart);
535 }
536
537 default:
538 AssertMsgFailed(("Invalid status code format type '%.10s'!\n", ch, pszFormatOrg));
539 break;
540 }
541 break;
542 }
543
544
545 /*
546 * hex dumping and COM/XPCOM.
547 */
548 case 'h':
549 {
550 char ch = *(*ppszFormat)++;
551 switch (ch)
552 {
553 /*
554 * Hex stuff.
555 */
556 case 'x':
557 {
558 uint8_t *pu8 = va_arg(*pArgs, uint8_t *);
559 if (cchWidth <= 0)
560 cchWidth = 16;
561 if (pu8)
562 {
563 ch = *(*ppszFormat)++;
564 switch (ch)
565 {
566 /*
567 * Regular hex dump.
568 */
569 case 'd':
570 {
571 size_t cch = 0;
572 int off = 0;
573
574 if (cchPrecision <= 0)
575 cchPrecision = 16;
576
577 while (off < cchWidth)
578 {
579 int i;
580 cch += RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "%s%0*x %04x:", off ? "\n" : "", sizeof(pu8) * 2, (uintptr_t)pu8, off);
581 for (i = 0; i < cchPrecision && off + i < cchWidth ; i++)
582 cch += RTStrFormat(pfnOutput, pvArgOutput, NULL, 0,
583 off + i < cchWidth ? !(i & 7) && i ? "-%02x" : " %02x" : " ", pu8[i]);
584 while (i++ < cchPrecision)
585 cch += pfnOutput(pvArgOutput, " ", 3);
586
587 cch += pfnOutput(pvArgOutput, " ", 1);
588
589 for (i = 0; i < cchPrecision && off + i < cchWidth; i++)
590 {
591 uint8_t u8 = pu8[i];
592 cch += pfnOutput(pvArgOutput, u8 < 127 && u8 >= 32 ? (const char *)&u8 : ".", 1);
593 }
594
595 /* next */
596 pu8 += cchPrecision;
597 off += cchPrecision;
598 }
599 return cch;
600 }
601
602 /*
603 * Hex string.
604 */
605 case 's':
606 {
607 if (cchWidth-- > 0)
608 {
609 size_t cch = RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "%02x", *pu8++);
610 for (; cchWidth > 0; cchWidth--, pu8++)
611 cch += RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, " %02x", *pu8);
612 return cch;
613 }
614 break;
615 }
616
617 default:
618 AssertMsgFailed(("Invalid status code format type '%.10s'!\n", ch, pszFormatOrg));
619 break;
620 }
621 }
622 else
623 return pfnOutput(pvArgOutput, "<null>", sizeof("<null>") - 1);
624 break;
625 }
626
627
628#ifdef IN_RING3
629 /*
630 * XPCOM / COM status code: %Rhrc, %Rhrf, %Rhra
631 * ASSUMES: If Windows Then COM else XPCOM.
632 */
633 case 'r':
634 {
635
636 char ch = *(*ppszFormat)++;
637 uint32_t hrc = va_arg(*pArgs, uint32_t);
638 PCRTCOMERRMSG pMsg = RTErrCOMGet(hrc);
639 switch (ch)
640 {
641 case 'c':
642 return pfnOutput(pvArgOutput, pMsg->pszDefine, strlen(pMsg->pszDefine));
643 case 'f':
644 return pfnOutput(pvArgOutput, pMsg->pszMsgFull,strlen(pMsg->pszMsgFull));
645 case 'a':
646 return RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "%s (0x%08X) - %s", pMsg->pszDefine, hrc, pMsg->pszMsgFull);
647 default:
648 AssertMsgFailed(("Invalid status code format type '%.10s'!\n", pszFormatOrg));
649 return 0;
650 }
651 break;
652 }
653#endif /* IN_RING3 */
654
655 default:
656 AssertMsgFailed(("Invalid status code format type '%.10s'!\n", ch, pszFormatOrg));
657 return 0;
658
659 }
660 break;
661 }
662
663 /*
664 * iprt status code: %Rrc, %Rrs, %Rrf, %Rra.
665 */
666 case 'r':
667 {
668 int rc = va_arg(*pArgs, int);
669 char ch = *(*ppszFormat)++;
670#ifdef IN_RING3 /* we don't want this anywhere else yet. */
671 PCRTSTATUSMSG pMsg = RTErrGet(rc);
672 switch (ch)
673 {
674 case 'c':
675 return pfnOutput(pvArgOutput, pMsg->pszDefine, strlen(pMsg->pszDefine));
676 case 's':
677 return pfnOutput(pvArgOutput, pMsg->pszMsgShort, strlen(pMsg->pszMsgShort));
678 case 'f':
679 return pfnOutput(pvArgOutput, pMsg->pszMsgFull, strlen(pMsg->pszMsgFull));
680 case 'a':
681 return RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "%s (%d) - %s", pMsg->pszDefine, rc, pMsg->pszMsgFull);
682 default:
683 AssertMsgFailed(("Invalid status code format type '%.10s'!\n", pszFormatOrg));
684 return 0;
685 }
686#else /* !IN_RING3 */
687 switch (ch)
688 {
689 case 'c':
690 case 's':
691 case 'f':
692 case 'a':
693 return RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "%d", rc);
694 default:
695 AssertMsgFailed(("Invalid status code format type '%.10s'!\n", pszFormatOrg));
696 return 0;
697 }
698#endif /* !IN_RING3 */
699 break;
700 }
701
702#if defined(IN_RING3)
703 /*
704 * Windows status code: %Rwc, %Rwf, %Rwa
705 */
706 case 'w':
707 {
708 long rc = va_arg(*pArgs, long);
709 char ch = *(*ppszFormat)++;
710# if defined(RT_OS_WINDOWS)
711 PCRTWINERRMSG pMsg = RTErrWinGet(rc);
712# endif
713 switch (ch)
714 {
715# if defined(RT_OS_WINDOWS)
716 case 'c':
717 return pfnOutput(pvArgOutput, pMsg->pszDefine, strlen(pMsg->pszDefine));
718 case 'f':
719 return pfnOutput(pvArgOutput, pMsg->pszMsgFull,strlen(pMsg->pszMsgFull));
720 case 'a':
721 return RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "%s (0x%08X) - %s", pMsg->pszDefine, rc, pMsg->pszMsgFull);
722# else
723 case 'c':
724 case 'f':
725 case 'a':
726 return RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "0x%08X", rc);
727# endif
728 default:
729 AssertMsgFailed(("Invalid status code format type '%.10s'!\n", pszFormatOrg));
730 return 0;
731 }
732 break;
733 }
734#endif /* IN_RING3 */
735
736 /*
737 * Group 4, structure dumpers.
738 */
739 case 'D':
740 {
741 /*
742 * Interpret the type.
743 */
744 typedef enum
745 {
746 RTST_TIMESPEC
747 } RTST;
748/** Set if it's a pointer */
749#define RTST_FLAGS_POINTER RT_BIT(0)
750 static const struct
751 {
752 uint8_t cch; /**< the length of the string. */
753 char sz[16-2]; /**< the part following 'R'. */
754 uint8_t cb; /**< the size of the argument. */
755 uint8_t fFlags; /**< RTST_FLAGS_* */
756 RTST enmType; /**< The structure type. */
757 }
758 /** Sorted array of types, looked up using binary search! */
759 s_aTypes[] =
760 {
761#define STRMEM(str) sizeof(str) - 1, str
762 { STRMEM("Dtimespec"), sizeof(PCRTTIMESPEC), RTST_FLAGS_POINTER, RTST_TIMESPEC},
763#undef STRMEM
764 };
765 const char *pszType = *ppszFormat - 1;
766 int iStart = 0;
767 int iEnd = RT_ELEMENTS(s_aTypes) - 1;
768 int i = RT_ELEMENTS(s_aTypes) / 2;
769
770 union
771 {
772 const void *pv;
773 uint64_t u64;
774 PCRTTIMESPEC pTimeSpec;
775 } u;
776
777 AssertMsg(!chArgSize, ("Not argument size '%c' for RT types! '%.10s'\n", chArgSize, pszFormatOrg));
778
779 /*
780 * Lookup the type - binary search.
781 */
782 for (;;)
783 {
784 int iDiff = strncmp(pszType, s_aTypes[i].sz, s_aTypes[i].cch);
785 if (!iDiff)
786 break;
787 if (iEnd == iStart)
788 {
789 AssertMsgFailed(("Invalid format type '%.10s'!\n", pszFormatOrg));
790 return 0;
791 }
792 if (iDiff < 0)
793 iEnd = i - 1;
794 else
795 iStart = i + 1;
796 if (iEnd < iStart)
797 {
798 AssertMsgFailed(("Invalid format type '%.10s'!\n", pszFormatOrg));
799 return 0;
800 }
801 i = iStart + (iEnd - iStart) / 2;
802 }
803 *ppszFormat += s_aTypes[i].cch - 1;
804
805 /*
806 * Fetch the argument.
807 */
808 u.u64 = 0;
809 switch (s_aTypes[i].cb)
810 {
811 case sizeof(const void *):
812 u.pv = va_arg(*pArgs, const void *);
813 break;
814 default:
815 AssertMsgFailed(("Invalid format error, size %d'!\n", s_aTypes[i].cb));
816 break;
817 }
818
819 /*
820 * If it's a pointer, we'll check if it's valid before going on.
821 */
822 if ((s_aTypes[i].fFlags & RTST_FLAGS_POINTER) && !VALID_PTR(u.pv))
823 return pfnOutput(pvArgOutput, "<null>", sizeof("<null>") - 1);
824
825 /*
826 * Format the output.
827 */
828 switch (s_aTypes[i].enmType)
829 {
830 case RTST_TIMESPEC:
831 return RTStrFormat(pfnOutput, pvArgOutput, NULL, NULL, "%lld ns", RTTimeSpecGetNano(u.pTimeSpec));
832
833 default:
834 AssertMsgFailed(("Invalid/unhandled enmType=%d\n", s_aTypes[i].enmType));
835 break;
836 }
837 break;
838 }
839
840 /*
841 * Invalid/Unknown. Bitch about it.
842 */
843 default:
844 AssertMsgFailed(("Invalid VBox format type '%.10s'!\n", pszFormatOrg));
845 break;
846 }
847 }
848 else
849 AssertMsgFailed(("Invalid VBox format type '%.10s'!\n", pszFormatOrg));
850
851 NOREF(pszFormatOrg);
852 return 0;
853}
854
855
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