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1 // -*- mode: cpp; mode: fold -*-
2 // Description /*{{{*/
3 // $Id: strutl.cc,v 1.48 2003/07/18 14:15:11 mdz Exp $
4 /* ######################################################################
5
6 String Util - Some useful string functions.
7
8 These have been collected from here and there to do all sorts of useful
9 things to strings. They are useful in file parsers, URI handlers and
10 especially in APT methods.
11
12 This source is placed in the Public Domain, do with it what you will
13 It was originally written by Jason Gunthorpe <jgg@gpu.srv.ualberta.ca>
14
15 ##################################################################### */
16 /*}}}*/
17 // Includes /*{{{*/
18 #include <config.h>
19
20 #include <apt-pkg/strutl.h>
21 #include <apt-pkg/fileutl.h>
22 #include <apt-pkg/error.h>
23
24 #include <ctype.h>
25 #include <string.h>
26 #include <sstream>
27 #include <stdio.h>
28 #include <algorithm>
29 #include <unistd.h>
30 #include <regex.h>
31 #include <errno.h>
32 #include <stdarg.h>
33 #include <iconv.h>
34
35 #include <apti18n.h>
36
37 using namespace std;
38 /*}}}*/
39
40 // UTF8ToCodeset - Convert some UTF-8 string for some codeset /*{{{*/
41 // ---------------------------------------------------------------------
42 /* This is handy to use before display some information for enduser */
43 bool UTF8ToCodeset(const char *codeset, const string &orig, string *dest)
44 {
45 iconv_t cd;
46 const char *inbuf;
47 char *inptr, *outbuf;
48 size_t insize, bufsize;
49 dest->clear();
50
51 cd = iconv_open(codeset, "UTF-8");
52 if (cd == (iconv_t)(-1)) {
53 // Something went wrong
54 if (errno == EINVAL)
55 _error->Error("conversion from 'UTF-8' to '%s' not available",
56 codeset);
57 else
58 perror("iconv_open");
59
60 return false;
61 }
62
63 insize = bufsize = orig.size();
64 inbuf = orig.data();
65 inptr = (char *)inbuf;
66 outbuf = new char[bufsize];
67 size_t lastError = -1;
68
69 while (insize != 0)
70 {
71 char *outptr = outbuf;
72 size_t outsize = bufsize;
73 size_t const err = iconv(cd, &inptr, &insize, &outptr, &outsize);
74 dest->append(outbuf, outptr - outbuf);
75 if (err == (size_t)(-1))
76 {
77 switch (errno)
78 {
79 case EILSEQ:
80 insize--;
81 inptr++;
82 // replace a series of unknown multibytes with a single "?"
83 if (lastError != insize) {
84 lastError = insize - 1;
85 dest->append("?");
86 }
87 break;
88 case EINVAL:
89 insize = 0;
90 break;
91 case E2BIG:
92 if (outptr == outbuf)
93 {
94 bufsize *= 2;
95 delete[] outbuf;
96 outbuf = new char[bufsize];
97 }
98 break;
99 }
100 }
101 }
102
103 delete[] outbuf;
104
105 iconv_close(cd);
106
107 return true;
108 }
109 /*}}}*/
110 // strstrip - Remove white space from the front and back of a string /*{{{*/
111 // ---------------------------------------------------------------------
112 /* This is handy to use when parsing a file. It also removes \n's left
113 over from fgets and company */
114 char *_strstrip(char *String)
115 {
116 for (;*String != 0 && (*String == ' ' || *String == '\t'); String++);
117
118 if (*String == 0)
119 return String;
120 return _strrstrip(String);
121 }
122 /*}}}*/
123 // strrstrip - Remove white space from the back of a string /*{{{*/
124 // ---------------------------------------------------------------------
125 char *_strrstrip(char *String)
126 {
127 char *End = String + strlen(String) - 1;
128 for (;End != String - 1 && (*End == ' ' || *End == '\t' || *End == '\n' ||
129 *End == '\r'); End--);
130 End++;
131 *End = 0;
132 return String;
133 };
134 /*}}}*/
135 // strtabexpand - Converts tabs into 8 spaces /*{{{*/
136 // ---------------------------------------------------------------------
137 /* */
138 char *_strtabexpand(char *String,size_t Len)
139 {
140 for (char *I = String; I != I + Len && *I != 0; I++)
141 {
142 if (*I != '\t')
143 continue;
144 if (I + 8 > String + Len)
145 {
146 *I = 0;
147 return String;
148 }
149
150 /* Assume the start of the string is 0 and find the next 8 char
151 division */
152 int Len;
153 if (String == I)
154 Len = 1;
155 else
156 Len = 8 - ((String - I) % 8);
157 Len -= 2;
158 if (Len <= 0)
159 {
160 *I = ' ';
161 continue;
162 }
163
164 memmove(I + Len,I + 1,strlen(I) + 1);
165 for (char *J = I; J + Len != I; *I = ' ', I++);
166 }
167 return String;
168 }
169 /*}}}*/
170 // ParseQuoteWord - Parse a single word out of a string /*{{{*/
171 // ---------------------------------------------------------------------
172 /* This grabs a single word, converts any % escaped characters to their
173 proper values and advances the pointer. Double quotes are understood
174 and striped out as well. This is for URI/URL parsing. It also can
175 understand [] brackets.*/
176 bool ParseQuoteWord(const char *&String,string &Res)
177 {
178 // Skip leading whitespace
179 const char *C = String;
180 for (;*C != 0 && *C == ' '; C++);
181 if (*C == 0)
182 return false;
183
184 // Jump to the next word
185 for (;*C != 0 && isspace(*C) == 0; C++)
186 {
187 if (*C == '"')
188 {
189 C = strchr(C + 1, '"');
190 if (C == NULL)
191 return false;
192 }
193 if (*C == '[')
194 {
195 C = strchr(C + 1, ']');
196 if (C == NULL)
197 return false;
198 }
199 }
200
201 // Now de-quote characters
202 char Buffer[1024];
203 char Tmp[3];
204 const char *Start = String;
205 char *I;
206 for (I = Buffer; I < Buffer + sizeof(Buffer) && Start != C; I++)
207 {
208 if (*Start == '%' && Start + 2 < C &&
209 isxdigit(Start[1]) && isxdigit(Start[2]))
210 {
211 Tmp[0] = Start[1];
212 Tmp[1] = Start[2];
213 Tmp[2] = 0;
214 *I = (char)strtol(Tmp,0,16);
215 Start += 3;
216 continue;
217 }
218 if (*Start != '"')
219 *I = *Start;
220 else
221 I--;
222 Start++;
223 }
224 *I = 0;
225 Res = Buffer;
226
227 // Skip ending white space
228 for (;*C != 0 && isspace(*C) != 0; C++);
229 String = C;
230 return true;
231 }
232 /*}}}*/
233 // ParseCWord - Parses a string like a C "" expression /*{{{*/
234 // ---------------------------------------------------------------------
235 /* This expects a series of space separated strings enclosed in ""'s.
236 It concatenates the ""'s into a single string. */
237 bool ParseCWord(const char *&String,string &Res)
238 {
239 // Skip leading whitespace
240 const char *C = String;
241 for (;*C != 0 && *C == ' '; C++);
242 if (*C == 0)
243 return false;
244
245 char Buffer[1024];
246 char *Buf = Buffer;
247 if (strlen(String) >= sizeof(Buffer))
248 return false;
249
250 for (; *C != 0; C++)
251 {
252 if (*C == '"')
253 {
254 for (C++; *C != 0 && *C != '"'; C++)
255 *Buf++ = *C;
256
257 if (*C == 0)
258 return false;
259
260 continue;
261 }
262
263 if (C != String && isspace(*C) != 0 && isspace(C[-1]) != 0)
264 continue;
265 if (isspace(*C) == 0)
266 return false;
267 *Buf++ = ' ';
268 }
269 *Buf = 0;
270 Res = Buffer;
271 String = C;
272 return true;
273 }
274 /*}}}*/
275 // QuoteString - Convert a string into quoted from /*{{{*/
276 // ---------------------------------------------------------------------
277 /* */
278 string QuoteString(const string &Str, const char *Bad)
279 {
280 string Res;
281 for (string::const_iterator I = Str.begin(); I != Str.end(); ++I)
282 {
283 if (strchr(Bad,*I) != 0 || isprint(*I) == 0 ||
284 *I == 0x25 || // percent '%' char
285 *I <= 0x20 || *I >= 0x7F) // control chars
286 {
287 char Buf[10];
288 sprintf(Buf,"%%%02x",(int)*I);
289 Res += Buf;
290 }
291 else
292 Res += *I;
293 }
294 return Res;
295 }
296 /*}}}*/
297 // DeQuoteString - Convert a string from quoted from /*{{{*/
298 // ---------------------------------------------------------------------
299 /* This undoes QuoteString */
300 string DeQuoteString(const string &Str)
301 {
302 return DeQuoteString(Str.begin(),Str.end());
303 }
304 string DeQuoteString(string::const_iterator const &begin,
305 string::const_iterator const &end)
306 {
307 string Res;
308 for (string::const_iterator I = begin; I != end; ++I)
309 {
310 if (*I == '%' && I + 2 < end &&
311 isxdigit(I[1]) && isxdigit(I[2]))
312 {
313 char Tmp[3];
314 Tmp[0] = I[1];
315 Tmp[1] = I[2];
316 Tmp[2] = 0;
317 Res += (char)strtol(Tmp,0,16);
318 I += 2;
319 continue;
320 }
321 else
322 Res += *I;
323 }
324 return Res;
325 }
326
327 /*}}}*/
328 // SizeToStr - Convert a long into a human readable size /*{{{*/
329 // ---------------------------------------------------------------------
330 /* A max of 4 digits are shown before conversion to the next highest unit.
331 The max length of the string will be 5 chars unless the size is > 10
332 YottaBytes (E24) */
333 string SizeToStr(double Size)
334 {
335 char S[300];
336 double ASize;
337 if (Size >= 0)
338 ASize = Size;
339 else
340 ASize = -1*Size;
341
342 /* bytes, KiloBytes, MegaBytes, GigaBytes, TeraBytes, PetaBytes,
343 ExaBytes, ZettaBytes, YottaBytes */
344 char Ext[] = {'\0','k','M','G','T','P','E','Z','Y'};
345 int I = 0;
346 while (I <= 8)
347 {
348 if (ASize < 100 && I != 0)
349 {
350 sprintf(S,"%'.1f %c",ASize,Ext[I]);
351 break;
352 }
353
354 if (ASize < 10000)
355 {
356 sprintf(S,"%'.0f %c",ASize,Ext[I]);
357 break;
358 }
359 ASize /= 1000.0;
360 I++;
361 }
362
363 return S;
364 }
365 /*}}}*/
366 // TimeToStr - Convert the time into a string /*{{{*/
367 // ---------------------------------------------------------------------
368 /* Converts a number of seconds to a hms format */
369 string TimeToStr(unsigned long Sec)
370 {
371 char S[300];
372
373 while (1)
374 {
375 if (Sec > 60*60*24)
376 {
377 //d means days, h means hours, min means minutes, s means seconds
378 sprintf(S,_("%lid %lih %limin %lis"),Sec/60/60/24,(Sec/60/60) % 24,(Sec/60) % 60,Sec % 60);
379 break;
380 }
381
382 if (Sec > 60*60)
383 {
384 //h means hours, min means minutes, s means seconds
385 sprintf(S,_("%lih %limin %lis"),Sec/60/60,(Sec/60) % 60,Sec % 60);
386 break;
387 }
388
389 if (Sec > 60)
390 {
391 //min means minutes, s means seconds
392 sprintf(S,_("%limin %lis"),Sec/60,Sec % 60);
393 break;
394 }
395
396 //s means seconds
397 sprintf(S,_("%lis"),Sec);
398 break;
399 }
400
401 return S;
402 }
403 /*}}}*/
404 // SubstVar - Substitute a string for another string /*{{{*/
405 // ---------------------------------------------------------------------
406 /* This replaces all occurances of Subst with Contents in Str. */
407 string SubstVar(const string &Str,const string &Subst,const string &Contents)
408 {
409 string::size_type Pos = 0;
410 string::size_type OldPos = 0;
411 string Temp;
412
413 while (OldPos < Str.length() &&
414 (Pos = Str.find(Subst,OldPos)) != string::npos)
415 {
416 Temp += string(Str,OldPos,Pos) + Contents;
417 OldPos = Pos + Subst.length();
418 }
419
420 if (OldPos == 0)
421 return Str;
422
423 return Temp + string(Str,OldPos);
424 }
425
426 string SubstVar(string Str,const struct SubstVar *Vars)
427 {
428 for (; Vars->Subst != 0; Vars++)
429 Str = SubstVar(Str,Vars->Subst,*Vars->Contents);
430 return Str;
431 }
432 /*}}}*/
433 // OutputInDepth - return a string with separator multiplied with depth /*{{{*/
434 // ---------------------------------------------------------------------
435 /* Returns a string with the supplied separator depth + 1 times in it */
436 std::string OutputInDepth(const unsigned long Depth, const char* Separator)
437 {
438 std::string output = "";
439 for(unsigned long d=Depth+1; d > 0; d--)
440 output.append(Separator);
441 return output;
442 }
443 /*}}}*/
444 // URItoFileName - Convert the uri into a unique file name /*{{{*/
445 // ---------------------------------------------------------------------
446 /* This converts a URI into a safe filename. It quotes all unsafe characters
447 and converts / to _ and removes the scheme identifier. The resulting
448 file name should be unique and never occur again for a different file */
449 string URItoFileName(const string &URI)
450 {
451 // Nuke 'sensitive' items
452 ::URI U(URI);
453 U.User.clear();
454 U.Password.clear();
455 U.Access.clear();
456
457 // "\x00-\x20{}|\\\\^\\[\\]<>\"\x7F-\xFF";
458 string NewURI = QuoteString(U,"\\|{}[]<>\"^~_=!@#$%^&*");
459 replace(NewURI.begin(),NewURI.end(),'/','_');
460 return NewURI;
461 }
462 /*}}}*/
463 // Base64Encode - Base64 Encoding routine for short strings /*{{{*/
464 // ---------------------------------------------------------------------
465 /* This routine performs a base64 transformation on a string. It was ripped
466 from wget and then patched and bug fixed.
467
468 This spec can be found in rfc2045 */
469 string Base64Encode(const string &S)
470 {
471 // Conversion table.
472 static char tbl[64] = {'A','B','C','D','E','F','G','H',
473 'I','J','K','L','M','N','O','P',
474 'Q','R','S','T','U','V','W','X',
475 'Y','Z','a','b','c','d','e','f',
476 'g','h','i','j','k','l','m','n',
477 'o','p','q','r','s','t','u','v',
478 'w','x','y','z','0','1','2','3',
479 '4','5','6','7','8','9','+','/'};
480
481 // Pre-allocate some space
482 string Final;
483 Final.reserve((4*S.length() + 2)/3 + 2);
484
485 /* Transform the 3x8 bits to 4x6 bits, as required by
486 base64. */
487 for (string::const_iterator I = S.begin(); I < S.end(); I += 3)
488 {
489 char Bits[3] = {0,0,0};
490 Bits[0] = I[0];
491 if (I + 1 < S.end())
492 Bits[1] = I[1];
493 if (I + 2 < S.end())
494 Bits[2] = I[2];
495
496 Final += tbl[Bits[0] >> 2];
497 Final += tbl[((Bits[0] & 3) << 4) + (Bits[1] >> 4)];
498
499 if (I + 1 >= S.end())
500 break;
501
502 Final += tbl[((Bits[1] & 0xf) << 2) + (Bits[2] >> 6)];
503
504 if (I + 2 >= S.end())
505 break;
506
507 Final += tbl[Bits[2] & 0x3f];
508 }
509
510 /* Apply the padding elements, this tells how many bytes the remote
511 end should discard */
512 if (S.length() % 3 == 2)
513 Final += '=';
514 if (S.length() % 3 == 1)
515 Final += "==";
516
517 return Final;
518 }
519 /*}}}*/
520 // stringcmp - Arbitrary string compare /*{{{*/
521 // ---------------------------------------------------------------------
522 /* This safely compares two non-null terminated strings of arbitrary
523 length */
524 int stringcmp(const char *A,const char *AEnd,const char *B,const char *BEnd)
525 {
526 for (; A != AEnd && B != BEnd; A++, B++)
527 if (*A != *B)
528 break;
529
530 if (A == AEnd && B == BEnd)
531 return 0;
532 if (A == AEnd)
533 return 1;
534 if (B == BEnd)
535 return -1;
536 if (*A < *B)
537 return -1;
538 return 1;
539 }
540
541 #if __GNUC__ >= 3
542 int stringcmp(string::const_iterator A,string::const_iterator AEnd,
543 const char *B,const char *BEnd)
544 {
545 for (; A != AEnd && B != BEnd; A++, B++)
546 if (*A != *B)
547 break;
548
549 if (A == AEnd && B == BEnd)
550 return 0;
551 if (A == AEnd)
552 return 1;
553 if (B == BEnd)
554 return -1;
555 if (*A < *B)
556 return -1;
557 return 1;
558 }
559 int stringcmp(string::const_iterator A,string::const_iterator AEnd,
560 string::const_iterator B,string::const_iterator BEnd)
561 {
562 for (; A != AEnd && B != BEnd; A++, B++)
563 if (*A != *B)
564 break;
565
566 if (A == AEnd && B == BEnd)
567 return 0;
568 if (A == AEnd)
569 return 1;
570 if (B == BEnd)
571 return -1;
572 if (*A < *B)
573 return -1;
574 return 1;
575 }
576 #endif
577 /*}}}*/
578 // stringcasecmp - Arbitrary case insensitive string compare /*{{{*/
579 // ---------------------------------------------------------------------
580 /* */
581 int stringcasecmp(const char *A,const char *AEnd,const char *B,const char *BEnd)
582 {
583 for (; A != AEnd && B != BEnd; A++, B++)
584 if (tolower_ascii(*A) != tolower_ascii(*B))
585 break;
586
587 if (A == AEnd && B == BEnd)
588 return 0;
589 if (A == AEnd)
590 return 1;
591 if (B == BEnd)
592 return -1;
593 if (tolower_ascii(*A) < tolower_ascii(*B))
594 return -1;
595 return 1;
596 }
597 #if __GNUC__ >= 3
598 int stringcasecmp(string::const_iterator A,string::const_iterator AEnd,
599 const char *B,const char *BEnd)
600 {
601 for (; A != AEnd && B != BEnd; A++, B++)
602 if (tolower_ascii(*A) != tolower_ascii(*B))
603 break;
604
605 if (A == AEnd && B == BEnd)
606 return 0;
607 if (A == AEnd)
608 return 1;
609 if (B == BEnd)
610 return -1;
611 if (tolower_ascii(*A) < tolower_ascii(*B))
612 return -1;
613 return 1;
614 }
615 int stringcasecmp(string::const_iterator A,string::const_iterator AEnd,
616 string::const_iterator B,string::const_iterator BEnd)
617 {
618 for (; A != AEnd && B != BEnd; A++, B++)
619 if (tolower_ascii(*A) != tolower_ascii(*B))
620 break;
621
622 if (A == AEnd && B == BEnd)
623 return 0;
624 if (A == AEnd)
625 return 1;
626 if (B == BEnd)
627 return -1;
628 if (tolower_ascii(*A) < tolower_ascii(*B))
629 return -1;
630 return 1;
631 }
632 #endif
633 /*}}}*/
634 // LookupTag - Lookup the value of a tag in a taged string /*{{{*/
635 // ---------------------------------------------------------------------
636 /* The format is like those used in package files and the method
637 communication system */
638 string LookupTag(const string &Message,const char *Tag,const char *Default)
639 {
640 // Look for a matching tag.
641 int Length = strlen(Tag);
642 for (string::const_iterator I = Message.begin(); I + Length < Message.end(); ++I)
643 {
644 // Found the tag
645 if (I[Length] == ':' && stringcasecmp(I,I+Length,Tag) == 0)
646 {
647 // Find the end of line and strip the leading/trailing spaces
648 string::const_iterator J;
649 I += Length + 1;
650 for (; isspace(*I) != 0 && I < Message.end(); ++I);
651 for (J = I; *J != '\n' && J < Message.end(); ++J);
652 for (; J > I && isspace(J[-1]) != 0; --J);
653
654 return string(I,J);
655 }
656
657 for (; *I != '\n' && I < Message.end(); ++I);
658 }
659
660 // Failed to find a match
661 if (Default == 0)
662 return string();
663 return Default;
664 }
665 /*}}}*/
666 // StringToBool - Converts a string into a boolean /*{{{*/
667 // ---------------------------------------------------------------------
668 /* This inspects the string to see if it is true or if it is false and
669 then returns the result. Several varients on true/false are checked. */
670 int StringToBool(const string &Text,int Default)
671 {
672 char *End;
673 int Res = strtol(Text.c_str(),&End,0);
674 if (End != Text.c_str() && Res >= 0 && Res <= 1)
675 return Res;
676
677 // Check for positives
678 if (strcasecmp(Text.c_str(),"no") == 0 ||
679 strcasecmp(Text.c_str(),"false") == 0 ||
680 strcasecmp(Text.c_str(),"without") == 0 ||
681 strcasecmp(Text.c_str(),"off") == 0 ||
682 strcasecmp(Text.c_str(),"disable") == 0)
683 return 0;
684
685 // Check for negatives
686 if (strcasecmp(Text.c_str(),"yes") == 0 ||
687 strcasecmp(Text.c_str(),"true") == 0 ||
688 strcasecmp(Text.c_str(),"with") == 0 ||
689 strcasecmp(Text.c_str(),"on") == 0 ||
690 strcasecmp(Text.c_str(),"enable") == 0)
691 return 1;
692
693 return Default;
694 }
695 /*}}}*/
696 // TimeRFC1123 - Convert a time_t into RFC1123 format /*{{{*/
697 // ---------------------------------------------------------------------
698 /* This converts a time_t into a string time representation that is
699 year 2000 complient and timezone neutral */
700 string TimeRFC1123(time_t Date)
701 {
702 struct tm Conv;
703 if (gmtime_r(&Date, &Conv) == NULL)
704 return "";
705
706 char Buf[300];
707 const char *Day[] = {"Sun","Mon","Tue","Wed","Thu","Fri","Sat"};
708 const char *Month[] = {"Jan","Feb","Mar","Apr","May","Jun","Jul",
709 "Aug","Sep","Oct","Nov","Dec"};
710
711 snprintf(Buf, sizeof(Buf), "%s, %02i %s %i %02i:%02i:%02i GMT",Day[Conv.tm_wday],
712 Conv.tm_mday,Month[Conv.tm_mon],Conv.tm_year+1900,Conv.tm_hour,
713 Conv.tm_min,Conv.tm_sec);
714 return Buf;
715 }
716 /*}}}*/
717 // ReadMessages - Read messages from the FD /*{{{*/
718 // ---------------------------------------------------------------------
719 /* This pulls full messages from the input FD into the message buffer.
720 It assumes that messages will not pause during transit so no
721 fancy buffering is used.
722
723 In particular: this reads blocks from the input until it believes
724 that it's run out of input text. Each block is terminated by a
725 double newline ('\n' followed by '\n'). As noted below, there is a
726 bug in this code: it assumes that all the blocks have been read if
727 it doesn't see additional text in the buffer after the last one is
728 parsed, which will cause it to lose blocks if the last block
729 coincides with the end of the buffer.
730 */
731 bool ReadMessages(int Fd, vector<string> &List)
732 {
733 char Buffer[64000];
734 char *End = Buffer;
735 // Represents any left-over from the previous iteration of the
736 // parse loop. (i.e., if a message is split across the end
737 // of the buffer, it goes here)
738 string PartialMessage;
739
740 while (1)
741 {
742 int Res = read(Fd,End,sizeof(Buffer) - (End-Buffer));
743 if (Res < 0 && errno == EINTR)
744 continue;
745
746 // Process is dead, this is kind of bad..
747 if (Res == 0)
748 return false;
749
750 // No data
751 if (Res < 0 && errno == EAGAIN)
752 return true;
753 if (Res < 0)
754 return false;
755
756 End += Res;
757
758 // Look for the end of the message
759 for (char *I = Buffer; I + 1 < End; I++)
760 {
761 if (I[1] != '\n' ||
762 (I[0] != '\n' && strncmp(I, "\r\n\r\n", 4) != 0))
763 continue;
764
765 // Pull the message out
766 string Message(Buffer,I-Buffer);
767 PartialMessage += Message;
768
769 // Fix up the buffer
770 for (; I < End && (*I == '\n' || *I == '\r'); ++I);
771 End -= I-Buffer;
772 memmove(Buffer,I,End-Buffer);
773 I = Buffer;
774
775 List.push_back(PartialMessage);
776 PartialMessage.clear();
777 }
778 if (End != Buffer)
779 {
780 // If there's text left in the buffer, store it
781 // in PartialMessage and throw the rest of the buffer
782 // away. This allows us to handle messages that
783 // are longer than the static buffer size.
784 PartialMessage += string(Buffer, End);
785 End = Buffer;
786 }
787 else
788 {
789 // BUG ALERT: if a message block happens to end at a
790 // multiple of 64000 characters, this will cause it to
791 // terminate early, leading to a badly formed block and
792 // probably crashing the method. However, this is the only
793 // way we have to find the end of the message block. I have
794 // an idea of how to fix this, but it will require changes
795 // to the protocol (essentially to mark the beginning and
796 // end of the block).
797 //
798 // -- dburrows 2008-04-02
799 return true;
800 }
801
802 if (WaitFd(Fd) == false)
803 return false;
804 }
805 }
806 /*}}}*/
807 // MonthConv - Converts a month string into a number /*{{{*/
808 // ---------------------------------------------------------------------
809 /* This was lifted from the boa webserver which lifted it from 'wn-v1.07'
810 Made it a bit more robust with a few tolower_ascii though. */
811 static int MonthConv(char *Month)
812 {
813 switch (tolower_ascii(*Month))
814 {
815 case 'a':
816 return tolower_ascii(Month[1]) == 'p'?3:7;
817 case 'd':
818 return 11;
819 case 'f':
820 return 1;
821 case 'j':
822 if (tolower_ascii(Month[1]) == 'a')
823 return 0;
824 return tolower_ascii(Month[2]) == 'n'?5:6;
825 case 'm':
826 return tolower_ascii(Month[2]) == 'r'?2:4;
827 case 'n':
828 return 10;
829 case 'o':
830 return 9;
831 case 's':
832 return 8;
833
834 // Pretend it is January..
835 default:
836 return 0;
837 }
838 }
839 /*}}}*/
840 // timegm - Internal timegm if the gnu version is not available /*{{{*/
841 // ---------------------------------------------------------------------
842 /* Converts struct tm to time_t, assuming the data in tm is UTC rather
843 than local timezone (mktime assumes the latter).
844
845 This function is a nonstandard GNU extension that is also present on
846 the BSDs and maybe other systems. For others we follow the advice of
847 the manpage of timegm and use his portable replacement. */
848 #ifndef HAVE_TIMEGM
849 static time_t timegm(struct tm *t)
850 {
851 char *tz = getenv("TZ");
852 setenv("TZ", "", 1);
853 tzset();
854 time_t ret = mktime(t);
855 if (tz)
856 setenv("TZ", tz, 1);
857 else
858 unsetenv("TZ");
859 tzset();
860 return ret;
861 }
862 #endif
863 /*}}}*/
864 // FullDateToTime - Converts a HTTP1.1 full date strings into a time_t /*{{{*/
865 // ---------------------------------------------------------------------
866 /* tries to parses a full date as specified in RFC2616 Section 3.3.1
867 with one exception: All timezones (%Z) are accepted but the protocol
868 says that it MUST be GMT, but this one is equal to UTC which we will
869 encounter from time to time (e.g. in Release files) so we accept all
870 here and just assume it is GMT (or UTC) later on */
871 bool RFC1123StrToTime(const char* const str,time_t &time)
872 {
873 struct tm Tm;
874 setlocale (LC_ALL,"C");
875 bool const invalid =
876 // Sun, 06 Nov 1994 08:49:37 GMT ; RFC 822, updated by RFC 1123
877 (strptime(str, "%a, %d %b %Y %H:%M:%S %Z", &Tm) == NULL &&
878 // Sunday, 06-Nov-94 08:49:37 GMT ; RFC 850, obsoleted by RFC 1036
879 strptime(str, "%A, %d-%b-%y %H:%M:%S %Z", &Tm) == NULL &&
880 // Sun Nov 6 08:49:37 1994 ; ANSI C's asctime() format
881 strptime(str, "%a %b %d %H:%M:%S %Y", &Tm) == NULL);
882 setlocale (LC_ALL,"");
883 if (invalid == true)
884 return false;
885
886 time = timegm(&Tm);
887 return true;
888 }
889 /*}}}*/
890 // FTPMDTMStrToTime - Converts a ftp modification date into a time_t /*{{{*/
891 // ---------------------------------------------------------------------
892 /* */
893 bool FTPMDTMStrToTime(const char* const str,time_t &time)
894 {
895 struct tm Tm;
896 // MDTM includes no whitespaces but recommend and ignored by strptime
897 if (strptime(str, "%Y %m %d %H %M %S", &Tm) == NULL)
898 return false;
899
900 time = timegm(&Tm);
901 return true;
902 }
903 /*}}}*/
904 // StrToTime - Converts a string into a time_t /*{{{*/
905 // ---------------------------------------------------------------------
906 /* This handles all 3 populare time formats including RFC 1123, RFC 1036
907 and the C library asctime format. It requires the GNU library function
908 'timegm' to convert a struct tm in UTC to a time_t. For some bizzar
909 reason the C library does not provide any such function :< This also
910 handles the weird, but unambiguous FTP time format*/
911 bool StrToTime(const string &Val,time_t &Result)
912 {
913 struct tm Tm;
914 char Month[10];
915
916 // Skip the day of the week
917 const char *I = strchr(Val.c_str(), ' ');
918
919 // Handle RFC 1123 time
920 Month[0] = 0;
921 if (sscanf(I," %2d %3s %4d %2d:%2d:%2d GMT",&Tm.tm_mday,Month,&Tm.tm_year,
922 &Tm.tm_hour,&Tm.tm_min,&Tm.tm_sec) != 6)
923 {
924 // Handle RFC 1036 time
925 if (sscanf(I," %2d-%3s-%3d %2d:%2d:%2d GMT",&Tm.tm_mday,Month,
926 &Tm.tm_year,&Tm.tm_hour,&Tm.tm_min,&Tm.tm_sec) == 6)
927 Tm.tm_year += 1900;
928 else
929 {
930 // asctime format
931 if (sscanf(I," %3s %2d %2d:%2d:%2d %4d",Month,&Tm.tm_mday,
932 &Tm.tm_hour,&Tm.tm_min,&Tm.tm_sec,&Tm.tm_year) != 6)
933 {
934 // 'ftp' time
935 if (sscanf(Val.c_str(),"%4d%2d%2d%2d%2d%2d",&Tm.tm_year,&Tm.tm_mon,
936 &Tm.tm_mday,&Tm.tm_hour,&Tm.tm_min,&Tm.tm_sec) != 6)
937 return false;
938 Tm.tm_mon--;
939 }
940 }
941 }
942
943 Tm.tm_isdst = 0;
944 if (Month[0] != 0)
945 Tm.tm_mon = MonthConv(Month);
946 else
947 Tm.tm_mon = 0; // we don't have a month, so pick something
948 Tm.tm_year -= 1900;
949
950 // Convert to local time and then to GMT
951 Result = timegm(&Tm);
952 return true;
953 }
954 /*}}}*/
955 // StrToNum - Convert a fixed length string to a number /*{{{*/
956 // ---------------------------------------------------------------------
957 /* This is used in decoding the crazy fixed length string headers in
958 tar and ar files. */
959 bool StrToNum(const char *Str,unsigned long &Res,unsigned Len,unsigned Base)
960 {
961 char S[30];
962 if (Len >= sizeof(S))
963 return false;
964 memcpy(S,Str,Len);
965 S[Len] = 0;
966
967 // All spaces is a zero
968 Res = 0;
969 unsigned I;
970 for (I = 0; S[I] == ' '; I++);
971 if (S[I] == 0)
972 return true;
973
974 char *End;
975 Res = strtoul(S,&End,Base);
976 if (End == S)
977 return false;
978
979 return true;
980 }
981 /*}}}*/
982 // StrToNum - Convert a fixed length string to a number /*{{{*/
983 // ---------------------------------------------------------------------
984 /* This is used in decoding the crazy fixed length string headers in
985 tar and ar files. */
986 bool StrToNum(const char *Str,unsigned long long &Res,unsigned Len,unsigned Base)
987 {
988 char S[30];
989 if (Len >= sizeof(S))
990 return false;
991 memcpy(S,Str,Len);
992 S[Len] = 0;
993
994 // All spaces is a zero
995 Res = 0;
996 unsigned I;
997 for (I = 0; S[I] == ' '; I++);
998 if (S[I] == 0)
999 return true;
1000
1001 char *End;
1002 Res = strtoull(S,&End,Base);
1003 if (End == S)
1004 return false;
1005
1006 return true;
1007 }
1008 /*}}}*/
1009
1010 // Base256ToNum - Convert a fixed length binary to a number /*{{{*/
1011 // ---------------------------------------------------------------------
1012 /* This is used in decoding the 256bit encoded fixed length fields in
1013 tar files */
1014 bool Base256ToNum(const char *Str,unsigned long &Res,unsigned int Len)
1015 {
1016 if ((Str[0] & 0x80) == 0)
1017 return false;
1018 else
1019 {
1020 Res = Str[0] & 0x7F;
1021 for(unsigned int i = 1; i < Len; ++i)
1022 Res = (Res<<8) + Str[i];
1023 return true;
1024 }
1025 }
1026 /*}}}*/
1027 // HexDigit - Convert a hex character into an integer /*{{{*/
1028 // ---------------------------------------------------------------------
1029 /* Helper for Hex2Num */
1030 static int HexDigit(int c)
1031 {
1032 if (c >= '0' && c <= '9')
1033 return c - '0';
1034 if (c >= 'a' && c <= 'f')
1035 return c - 'a' + 10;
1036 if (c >= 'A' && c <= 'F')
1037 return c - 'A' + 10;
1038 return 0;
1039 }
1040 /*}}}*/
1041 // Hex2Num - Convert a long hex number into a buffer /*{{{*/
1042 // ---------------------------------------------------------------------
1043 /* The length of the buffer must be exactly 1/2 the length of the string. */
1044 bool Hex2Num(const string &Str,unsigned char *Num,unsigned int Length)
1045 {
1046 if (Str.length() != Length*2)
1047 return false;
1048
1049 // Convert each digit. We store it in the same order as the string
1050 int J = 0;
1051 for (string::const_iterator I = Str.begin(); I != Str.end();J++, I += 2)
1052 {
1053 if (isxdigit(*I) == 0 || isxdigit(I[1]) == 0)
1054 return false;
1055
1056 Num[J] = HexDigit(I[0]) << 4;
1057 Num[J] += HexDigit(I[1]);
1058 }
1059
1060 return true;
1061 }
1062 /*}}}*/
1063 // TokSplitString - Split a string up by a given token /*{{{*/
1064 // ---------------------------------------------------------------------
1065 /* This is intended to be a faster splitter, it does not use dynamic
1066 memories. Input is changed to insert nulls at each token location. */
1067 bool TokSplitString(char Tok,char *Input,char **List,
1068 unsigned long ListMax)
1069 {
1070 // Strip any leading spaces
1071 char *Start = Input;
1072 char *Stop = Start + strlen(Start);
1073 for (; *Start != 0 && isspace(*Start) != 0; Start++);
1074
1075 unsigned long Count = 0;
1076 char *Pos = Start;
1077 while (Pos != Stop)
1078 {
1079 // Skip to the next Token
1080 for (; Pos != Stop && *Pos != Tok; Pos++);
1081
1082 // Back remove spaces
1083 char *End = Pos;
1084 for (; End > Start && (End[-1] == Tok || isspace(End[-1]) != 0); End--);
1085 *End = 0;
1086
1087 List[Count++] = Start;
1088 if (Count >= ListMax)
1089 {
1090 List[Count-1] = 0;
1091 return false;
1092 }
1093
1094 // Advance pos
1095 for (; Pos != Stop && (*Pos == Tok || isspace(*Pos) != 0 || *Pos == 0); Pos++);
1096 Start = Pos;
1097 }
1098
1099 List[Count] = 0;
1100 return true;
1101 }
1102 /*}}}*/
1103 // VectorizeString - Split a string up into a vector of strings /*{{{*/
1104 // ---------------------------------------------------------------------
1105 /* This can be used to split a given string up into a vector, so the
1106 propose is the same as in the method above and this one is a bit slower
1107 also, but the advantage is that we have an iteratable vector */
1108 vector<string> VectorizeString(string const &haystack, char const &split)
1109 {
1110 string::const_iterator start = haystack.begin();
1111 string::const_iterator end = start;
1112 vector<string> exploded;
1113 do {
1114 for (; end != haystack.end() && *end != split; ++end);
1115 exploded.push_back(string(start, end));
1116 start = end + 1;
1117 } while (end != haystack.end() && (++end) != haystack.end());
1118 return exploded;
1119 }
1120 /*}}}*/
1121 // StringSplit - split a string into a string vector by token /*{{{*/
1122 // ---------------------------------------------------------------------
1123 /* See header for details.
1124 */
1125 vector<string> StringSplit(std::string const &s, std::string const &sep,
1126 unsigned int maxsplit)
1127 {
1128 vector<string> split;
1129 size_t start, pos;
1130
1131 // no seperator given, this is bogus
1132 if(sep.size() == 0)
1133 return split;
1134
1135 start = pos = 0;
1136 while (pos != string::npos)
1137 {
1138 pos = s.find(sep, start);
1139 split.push_back(s.substr(start, pos-start));
1140
1141 // if maxsplit is reached, the remaining string is the last item
1142 if(split.size() >= maxsplit)
1143 {
1144 split[split.size()-1] = s.substr(start);
1145 break;
1146 }
1147 start = pos+sep.size();
1148 }
1149 return split;
1150 }
1151 /*}}}*/
1152 // RegexChoice - Simple regex list/list matcher /*{{{*/
1153 // ---------------------------------------------------------------------
1154 /* */
1155 unsigned long RegexChoice(RxChoiceList *Rxs,const char **ListBegin,
1156 const char **ListEnd)
1157 {
1158 for (RxChoiceList *R = Rxs; R->Str != 0; R++)
1159 R->Hit = false;
1160
1161 unsigned long Hits = 0;
1162 for (; ListBegin != ListEnd; ListBegin++)
1163 {
1164 // Check if the name is a regex
1165 const char *I;
1166 bool Regex = true;
1167 for (I = *ListBegin; *I != 0; I++)
1168 if (*I == '.' || *I == '?' || *I == '*' || *I == '|')
1169 break;
1170 if (*I == 0)
1171 Regex = false;
1172
1173 // Compile the regex pattern
1174 regex_t Pattern;
1175 if (Regex == true)
1176 if (regcomp(&Pattern,*ListBegin,REG_EXTENDED | REG_ICASE |
1177 REG_NOSUB) != 0)
1178 Regex = false;
1179
1180 // Search the list
1181 bool Done = false;
1182 for (RxChoiceList *R = Rxs; R->Str != 0; R++)
1183 {
1184 if (R->Str[0] == 0)
1185 continue;
1186
1187 if (strcasecmp(R->Str,*ListBegin) != 0)
1188 {
1189 if (Regex == false)
1190 continue;
1191 if (regexec(&Pattern,R->Str,0,0,0) != 0)
1192 continue;
1193 }
1194 Done = true;
1195
1196 if (R->Hit == false)
1197 Hits++;
1198
1199 R->Hit = true;
1200 }
1201
1202 if (Regex == true)
1203 regfree(&Pattern);
1204
1205 if (Done == false)
1206 _error->Warning(_("Selection %s not found"),*ListBegin);
1207 }
1208
1209 return Hits;
1210 }
1211 /*}}}*/
1212 // {str,io}printf - C format string outputter to C++ strings/iostreams /*{{{*/
1213 // ---------------------------------------------------------------------
1214 /* This is used to make the internationalization strings easier to translate
1215 and to allow reordering of parameters */
1216 static bool iovprintf(ostream &out, const char *format,
1217 va_list &args, ssize_t &size) {
1218 char *S = (char*)malloc(size);
1219 ssize_t const n = vsnprintf(S, size, format, args);
1220 if (n > -1 && n < size) {
1221 out << S;
1222 free(S);
1223 return true;
1224 } else {
1225 if (n > -1)
1226 size = n + 1;
1227 else
1228 size *= 2;
1229 }
1230 free(S);
1231 return false;
1232 }
1233 void ioprintf(ostream &out,const char *format,...)
1234 {
1235 va_list args;
1236 ssize_t size = 400;
1237 while (true) {
1238 va_start(args,format);
1239 if (iovprintf(out, format, args, size) == true)
1240 return;
1241 va_end(args);
1242 }
1243 }
1244 void strprintf(string &out,const char *format,...)
1245 {
1246 va_list args;
1247 ssize_t size = 400;
1248 std::ostringstream outstr;
1249 while (true) {
1250 va_start(args,format);
1251 if (iovprintf(outstr, format, args, size) == true)
1252 break;
1253 va_end(args);
1254 }
1255 out = outstr.str();
1256 }
1257 /*}}}*/
1258 // safe_snprintf - Safer snprintf /*{{{*/
1259 // ---------------------------------------------------------------------
1260 /* This is a snprintf that will never (ever) go past 'End' and returns a
1261 pointer to the end of the new string. The returned string is always null
1262 terminated unless Buffer == end. This is a better alterantive to using
1263 consecutive snprintfs. */
1264 char *safe_snprintf(char *Buffer,char *End,const char *Format,...)
1265 {
1266 va_list args;
1267 int Did;
1268
1269 if (End <= Buffer)
1270 return End;
1271 va_start(args,Format);
1272 Did = vsnprintf(Buffer,End - Buffer,Format,args);
1273 va_end(args);
1274
1275 if (Did < 0 || Buffer + Did > End)
1276 return End;
1277 return Buffer + Did;
1278 }
1279 /*}}}*/
1280 // StripEpoch - Remove the version "epoch" from a version string /*{{{*/
1281 // ---------------------------------------------------------------------
1282 string StripEpoch(const string &VerStr)
1283 {
1284 size_t i = VerStr.find(":");
1285 if (i == string::npos)
1286 return VerStr;
1287 return VerStr.substr(i+1);
1288 }
1289 /*}}}*/
1290 // tolower_ascii - tolower() function that ignores the locale /*{{{*/
1291 // ---------------------------------------------------------------------
1292 /* This little function is the most called method we have and tries
1293 therefore to do the absolut minimum - and is noteable faster than
1294 standard tolower/toupper and as a bonus avoids problems with different
1295 locales - we only operate on ascii chars anyway. */
1296 int tolower_ascii(int const c)
1297 {
1298 if (c >= 'A' && c <= 'Z')
1299 return c + 32;
1300 return c;
1301 }
1302 /*}}}*/
1303
1304 // CheckDomainList - See if Host is in a , seperate list /*{{{*/
1305 // ---------------------------------------------------------------------
1306 /* The domain list is a comma seperate list of domains that are suffix
1307 matched against the argument */
1308 bool CheckDomainList(const string &Host,const string &List)
1309 {
1310 string::const_iterator Start = List.begin();
1311 for (string::const_iterator Cur = List.begin(); Cur <= List.end(); ++Cur)
1312 {
1313 if (Cur < List.end() && *Cur != ',')
1314 continue;
1315
1316 // Match the end of the string..
1317 if ((Host.size() >= (unsigned)(Cur - Start)) &&
1318 Cur - Start != 0 &&
1319 stringcasecmp(Host.end() - (Cur - Start),Host.end(),Start,Cur) == 0)
1320 return true;
1321
1322 Start = Cur + 1;
1323 }
1324 return false;
1325 }
1326 /*}}}*/
1327 // strv_length - Return the length of a NULL-terminated string array /*{{{*/
1328 // ---------------------------------------------------------------------
1329 /* */
1330 size_t strv_length(const char **str_array)
1331 {
1332 size_t i;
1333 for (i=0; str_array[i] != NULL; i++)
1334 /* nothing */
1335 ;
1336 return i;
1337 }
1338
1339 // DeEscapeString - unescape (\0XX and \xXX) from a string /*{{{*/
1340 // ---------------------------------------------------------------------
1341 /* */
1342 string DeEscapeString(const string &input)
1343 {
1344 char tmp[3];
1345 string::const_iterator it;
1346 string output;
1347 for (it = input.begin(); it != input.end(); ++it)
1348 {
1349 // just copy non-escape chars
1350 if (*it != '\\')
1351 {
1352 output += *it;
1353 continue;
1354 }
1355
1356 // deal with double escape
1357 if (*it == '\\' &&
1358 (it + 1 < input.end()) && it[1] == '\\')
1359 {
1360 // copy
1361 output += *it;
1362 // advance iterator one step further
1363 ++it;
1364 continue;
1365 }
1366
1367 // ensure we have a char to read
1368 if (it + 1 == input.end())
1369 continue;
1370
1371 // read it
1372 ++it;
1373 switch (*it)
1374 {
1375 case '0':
1376 if (it + 2 <= input.end()) {
1377 tmp[0] = it[1];
1378 tmp[1] = it[2];
1379 tmp[2] = 0;
1380 output += (char)strtol(tmp, 0, 8);
1381 it += 2;
1382 }
1383 break;
1384 case 'x':
1385 if (it + 2 <= input.end()) {
1386 tmp[0] = it[1];
1387 tmp[1] = it[2];
1388 tmp[2] = 0;
1389 output += (char)strtol(tmp, 0, 16);
1390 it += 2;
1391 }
1392 break;
1393 default:
1394 // FIXME: raise exception here?
1395 break;
1396 }
1397 }
1398 return output;
1399 }
1400 /*}}}*/
1401 // URI::CopyFrom - Copy from an object /*{{{*/
1402 // ---------------------------------------------------------------------
1403 /* This parses the URI into all of its components */
1404 void URI::CopyFrom(const string &U)
1405 {
1406 string::const_iterator I = U.begin();
1407
1408 // Locate the first colon, this separates the scheme
1409 for (; I < U.end() && *I != ':' ; ++I);
1410 string::const_iterator FirstColon = I;
1411
1412 /* Determine if this is a host type URI with a leading double //
1413 and then search for the first single / */
1414 string::const_iterator SingleSlash = I;
1415 if (I + 3 < U.end() && I[1] == '/' && I[2] == '/')
1416 SingleSlash += 3;
1417
1418 /* Find the / indicating the end of the hostname, ignoring /'s in the
1419 square brackets */
1420 bool InBracket = false;
1421 for (; SingleSlash < U.end() && (*SingleSlash != '/' || InBracket == true); ++SingleSlash)
1422 {
1423 if (*SingleSlash == '[')
1424 InBracket = true;
1425 if (InBracket == true && *SingleSlash == ']')
1426 InBracket = false;
1427 }
1428
1429 if (SingleSlash > U.end())
1430 SingleSlash = U.end();
1431
1432 // We can now write the access and path specifiers
1433 Access.assign(U.begin(),FirstColon);
1434 if (SingleSlash != U.end())
1435 Path.assign(SingleSlash,U.end());
1436 if (Path.empty() == true)
1437 Path = "/";
1438
1439 // Now we attempt to locate a user:pass@host fragment
1440 if (FirstColon + 2 <= U.end() && FirstColon[1] == '/' && FirstColon[2] == '/')
1441 FirstColon += 3;
1442 else
1443 FirstColon += 1;
1444 if (FirstColon >= U.end())
1445 return;
1446
1447 if (FirstColon > SingleSlash)
1448 FirstColon = SingleSlash;
1449
1450 // Find the colon...
1451 I = FirstColon + 1;
1452 if (I > SingleSlash)
1453 I = SingleSlash;
1454 for (; I < SingleSlash && *I != ':'; ++I);
1455 string::const_iterator SecondColon = I;
1456
1457 // Search for the @ after the colon
1458 for (; I < SingleSlash && *I != '@'; ++I);
1459 string::const_iterator At = I;
1460
1461 // Now write the host and user/pass
1462 if (At == SingleSlash)
1463 {
1464 if (FirstColon < SingleSlash)
1465 Host.assign(FirstColon,SingleSlash);
1466 }
1467 else
1468 {
1469 Host.assign(At+1,SingleSlash);
1470 // username and password must be encoded (RFC 3986)
1471 User.assign(DeQuoteString(FirstColon,SecondColon));
1472 if (SecondColon < At)
1473 Password.assign(DeQuoteString(SecondColon+1,At));
1474 }
1475
1476 // Now we parse the RFC 2732 [] hostnames.
1477 unsigned long PortEnd = 0;
1478 InBracket = false;
1479 for (unsigned I = 0; I != Host.length();)
1480 {
1481 if (Host[I] == '[')
1482 {
1483 InBracket = true;
1484 Host.erase(I,1);
1485 continue;
1486 }
1487
1488 if (InBracket == true && Host[I] == ']')
1489 {
1490 InBracket = false;
1491 Host.erase(I,1);
1492 PortEnd = I;
1493 continue;
1494 }
1495 I++;
1496 }
1497
1498 // Tsk, weird.
1499 if (InBracket == true)
1500 {
1501 Host.clear();
1502 return;
1503 }
1504
1505 // Now we parse off a port number from the hostname
1506 Port = 0;
1507 string::size_type Pos = Host.rfind(':');
1508 if (Pos == string::npos || Pos < PortEnd)
1509 return;
1510
1511 Port = atoi(string(Host,Pos+1).c_str());
1512 Host.assign(Host,0,Pos);
1513 }
1514 /*}}}*/
1515 // URI::operator string - Convert the URI to a string /*{{{*/
1516 // ---------------------------------------------------------------------
1517 /* */
1518 URI::operator string()
1519 {
1520 string Res;
1521
1522 if (Access.empty() == false)
1523 Res = Access + ':';
1524
1525 if (Host.empty() == false)
1526 {
1527 if (Access.empty() == false)
1528 Res += "//";
1529
1530 if (User.empty() == false)
1531 {
1532 // FIXME: Technically userinfo is permitted even less
1533 // characters than these, but this is not conveniently
1534 // expressed with a blacklist.
1535 Res += QuoteString(User, ":/?#[]@");
1536 if (Password.empty() == false)
1537 Res += ":" + QuoteString(Password, ":/?#[]@");
1538 Res += "@";
1539 }
1540
1541 // Add RFC 2732 escaping characters
1542 if (Access.empty() == false &&
1543 (Host.find('/') != string::npos || Host.find(':') != string::npos))
1544 Res += '[' + Host + ']';
1545 else
1546 Res += Host;
1547
1548 if (Port != 0)
1549 {
1550 char S[30];
1551 sprintf(S,":%u",Port);
1552 Res += S;
1553 }
1554 }
1555
1556 if (Path.empty() == false)
1557 {
1558 if (Path[0] != '/')
1559 Res += "/" + Path;
1560 else
1561 Res += Path;
1562 }
1563
1564 return Res;
1565 }
1566 /*}}}*/
1567 // URI::SiteOnly - Return the schema and site for the URI /*{{{*/
1568 // ---------------------------------------------------------------------
1569 /* */
1570 string URI::SiteOnly(const string &URI)
1571 {
1572 ::URI U(URI);
1573 U.User.clear();
1574 U.Password.clear();
1575 U.Path.clear();
1576 return U;
1577 }
1578 /*}}}*/
1579 // URI::NoUserPassword - Return the schema, site and path for the URI /*{{{*/
1580 // ---------------------------------------------------------------------
1581 /* */
1582 string URI::NoUserPassword(const string &URI)
1583 {
1584 ::URI U(URI);
1585 U.User.clear();
1586 U.Password.clear();
1587 return U;
1588 }
1589 /*}}}*/