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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 <array>
25 #include <algorithm>
26 #include <iomanip>
27 #include <locale>
28 #include <sstream>
29 #include <string>
30 #include <vector>
31
32 #include <stddef.h>
33 #include <stdlib.h>
34 #include <time.h>
35 #include <ctype.h>
36 #include <string.h>
37 #include <stdio.h>
38 #include <unistd.h>
39 #include <regex.h>
40 #include <errno.h>
41 #include <stdarg.h>
42 #include <iconv.h>
43
44 #include <apti18n.h>
45 /*}}}*/
46 using namespace std;
47
48 // Strip - Remove white space from the front and back of a string /*{{{*/
49 // ---------------------------------------------------------------------
50 namespace APT {
51 namespace String {
52 std::string Strip(const std::string &str)
53 {
54 // ensure we have at least one character
55 if (str.empty() == true)
56 return str;
57
58 char const * const s = str.c_str();
59 size_t start = 0;
60 for (; isspace(s[start]) != 0; ++start)
61 ; // find the first not-space
62
63 // string contains only whitespaces
64 if (s[start] == '\0')
65 return "";
66
67 size_t end = str.length() - 1;
68 for (; isspace(s[end]) != 0; --end)
69 ; // find the last not-space
70
71 return str.substr(start, end - start + 1);
72 }
73
74 bool Endswith(const std::string &s, const std::string &end)
75 {
76 if (end.size() > s.size())
77 return false;
78 return (s.compare(s.size() - end.size(), end.size(), end) == 0);
79 }
80
81 bool Startswith(const std::string &s, const std::string &start)
82 {
83 if (start.size() > s.size())
84 return false;
85 return (s.compare(0, start.size(), start) == 0);
86 }
87
88 }
89 }
90 /*}}}*/
91 // UTF8ToCodeset - Convert some UTF-8 string for some codeset /*{{{*/
92 // ---------------------------------------------------------------------
93 /* This is handy to use before display some information for enduser */
94 bool UTF8ToCodeset(const char *codeset, const string &orig, string *dest)
95 {
96 iconv_t cd;
97 const char *inbuf;
98 char *inptr, *outbuf;
99 size_t insize, bufsize;
100 dest->clear();
101
102 cd = iconv_open(codeset, "UTF-8");
103 if (cd == (iconv_t)(-1)) {
104 // Something went wrong
105 if (errno == EINVAL)
106 _error->Error("conversion from 'UTF-8' to '%s' not available",
107 codeset);
108 else
109 perror("iconv_open");
110
111 return false;
112 }
113
114 insize = bufsize = orig.size();
115 inbuf = orig.data();
116 inptr = (char *)inbuf;
117 outbuf = new char[bufsize];
118 size_t lastError = -1;
119
120 while (insize != 0)
121 {
122 char *outptr = outbuf;
123 size_t outsize = bufsize;
124 size_t const err = iconv(cd, &inptr, &insize, &outptr, &outsize);
125 dest->append(outbuf, outptr - outbuf);
126 if (err == (size_t)(-1))
127 {
128 switch (errno)
129 {
130 case EILSEQ:
131 insize--;
132 inptr++;
133 // replace a series of unknown multibytes with a single "?"
134 if (lastError != insize) {
135 lastError = insize - 1;
136 dest->append("?");
137 }
138 break;
139 case EINVAL:
140 insize = 0;
141 break;
142 case E2BIG:
143 if (outptr == outbuf)
144 {
145 bufsize *= 2;
146 delete[] outbuf;
147 outbuf = new char[bufsize];
148 }
149 break;
150 }
151 }
152 }
153
154 delete[] outbuf;
155
156 iconv_close(cd);
157
158 return true;
159 }
160 /*}}}*/
161 // strstrip - Remove white space from the front and back of a string /*{{{*/
162 // ---------------------------------------------------------------------
163 /* This is handy to use when parsing a file. It also removes \n's left
164 over from fgets and company */
165 char *_strstrip(char *String)
166 {
167 for (;*String != 0 && (*String == ' ' || *String == '\t'); String++);
168
169 if (*String == 0)
170 return String;
171 return _strrstrip(String);
172 }
173 /*}}}*/
174 // strrstrip - Remove white space from the back of a string /*{{{*/
175 // ---------------------------------------------------------------------
176 char *_strrstrip(char *String)
177 {
178 char *End = String + strlen(String) - 1;
179 for (;End != String - 1 && (*End == ' ' || *End == '\t' || *End == '\n' ||
180 *End == '\r'); End--);
181 End++;
182 *End = 0;
183 return String;
184 }
185 /*}}}*/
186 // strtabexpand - Converts tabs into 8 spaces /*{{{*/
187 // ---------------------------------------------------------------------
188 /* */
189 char *_strtabexpand(char *String,size_t Len)
190 {
191 for (char *I = String; I != I + Len && *I != 0; I++)
192 {
193 if (*I != '\t')
194 continue;
195 if (I + 8 > String + Len)
196 {
197 *I = 0;
198 return String;
199 }
200
201 /* Assume the start of the string is 0 and find the next 8 char
202 division */
203 int Len;
204 if (String == I)
205 Len = 1;
206 else
207 Len = 8 - ((String - I) % 8);
208 Len -= 2;
209 if (Len <= 0)
210 {
211 *I = ' ';
212 continue;
213 }
214
215 memmove(I + Len,I + 1,strlen(I) + 1);
216 for (char *J = I; J + Len != I; *I = ' ', I++);
217 }
218 return String;
219 }
220 /*}}}*/
221 // ParseQuoteWord - Parse a single word out of a string /*{{{*/
222 // ---------------------------------------------------------------------
223 /* This grabs a single word, converts any % escaped characters to their
224 proper values and advances the pointer. Double quotes are understood
225 and striped out as well. This is for URI/URL parsing. It also can
226 understand [] brackets.*/
227 bool ParseQuoteWord(const char *&String,string &Res)
228 {
229 // Skip leading whitespace
230 const char *C = String;
231 for (;*C != 0 && *C == ' '; C++);
232 if (*C == 0)
233 return false;
234
235 // Jump to the next word
236 for (;*C != 0 && isspace(*C) == 0; C++)
237 {
238 if (*C == '"')
239 {
240 C = strchr(C + 1, '"');
241 if (C == NULL)
242 return false;
243 }
244 if (*C == '[')
245 {
246 C = strchr(C + 1, ']');
247 if (C == NULL)
248 return false;
249 }
250 }
251
252 // Now de-quote characters
253 char Buffer[1024];
254 char Tmp[3];
255 const char *Start = String;
256 char *I;
257 for (I = Buffer; I < Buffer + sizeof(Buffer) && Start != C; I++)
258 {
259 if (*Start == '%' && Start + 2 < C &&
260 isxdigit(Start[1]) && isxdigit(Start[2]))
261 {
262 Tmp[0] = Start[1];
263 Tmp[1] = Start[2];
264 Tmp[2] = 0;
265 *I = (char)strtol(Tmp,0,16);
266 Start += 3;
267 continue;
268 }
269 if (*Start != '"')
270 *I = *Start;
271 else
272 I--;
273 Start++;
274 }
275 *I = 0;
276 Res = Buffer;
277
278 // Skip ending white space
279 for (;*C != 0 && isspace(*C) != 0; C++);
280 String = C;
281 return true;
282 }
283 /*}}}*/
284 // ParseCWord - Parses a string like a C "" expression /*{{{*/
285 // ---------------------------------------------------------------------
286 /* This expects a series of space separated strings enclosed in ""'s.
287 It concatenates the ""'s into a single string. */
288 bool ParseCWord(const char *&String,string &Res)
289 {
290 // Skip leading whitespace
291 const char *C = String;
292 for (;*C != 0 && *C == ' '; C++);
293 if (*C == 0)
294 return false;
295
296 char Buffer[1024];
297 char *Buf = Buffer;
298 if (strlen(String) >= sizeof(Buffer))
299 return false;
300
301 for (; *C != 0; C++)
302 {
303 if (*C == '"')
304 {
305 for (C++; *C != 0 && *C != '"'; C++)
306 *Buf++ = *C;
307
308 if (*C == 0)
309 return false;
310
311 continue;
312 }
313
314 if (C != String && isspace(*C) != 0 && isspace(C[-1]) != 0)
315 continue;
316 if (isspace(*C) == 0)
317 return false;
318 *Buf++ = ' ';
319 }
320 *Buf = 0;
321 Res = Buffer;
322 String = C;
323 return true;
324 }
325 /*}}}*/
326 // QuoteString - Convert a string into quoted from /*{{{*/
327 // ---------------------------------------------------------------------
328 /* */
329 string QuoteString(const string &Str, const char *Bad)
330 {
331 std::stringstream Res;
332 for (string::const_iterator I = Str.begin(); I != Str.end(); ++I)
333 {
334 if (strchr(Bad,*I) != 0 || isprint(*I) == 0 ||
335 *I == 0x25 || // percent '%' char
336 *I <= 0x20 || *I >= 0x7F) // control chars
337 {
338 ioprintf(Res, "%%%02hhx", *I);
339 }
340 else
341 Res << *I;
342 }
343 return Res.str();
344 }
345 /*}}}*/
346 // DeQuoteString - Convert a string from quoted from /*{{{*/
347 // ---------------------------------------------------------------------
348 /* This undoes QuoteString */
349 string DeQuoteString(const string &Str)
350 {
351 return DeQuoteString(Str.begin(),Str.end());
352 }
353 string DeQuoteString(string::const_iterator const &begin,
354 string::const_iterator const &end)
355 {
356 string Res;
357 for (string::const_iterator I = begin; I != end; ++I)
358 {
359 if (*I == '%' && I + 2 < end &&
360 isxdigit(I[1]) && isxdigit(I[2]))
361 {
362 char Tmp[3];
363 Tmp[0] = I[1];
364 Tmp[1] = I[2];
365 Tmp[2] = 0;
366 Res += (char)strtol(Tmp,0,16);
367 I += 2;
368 continue;
369 }
370 else
371 Res += *I;
372 }
373 return Res;
374 }
375
376 /*}}}*/
377 // SizeToStr - Convert a long into a human readable size /*{{{*/
378 // ---------------------------------------------------------------------
379 /* A max of 4 digits are shown before conversion to the next highest unit.
380 The max length of the string will be 5 chars unless the size is > 10
381 YottaBytes (E24) */
382 string SizeToStr(double Size)
383 {
384 double ASize;
385 if (Size >= 0)
386 ASize = Size;
387 else
388 ASize = -1*Size;
389
390 /* bytes, KiloBytes, MegaBytes, GigaBytes, TeraBytes, PetaBytes,
391 ExaBytes, ZettaBytes, YottaBytes */
392 char Ext[] = {'\0','k','M','G','T','P','E','Z','Y'};
393 int I = 0;
394 while (I <= 8)
395 {
396 if (ASize < 100 && I != 0)
397 {
398 std::string S;
399 strprintf(S, "%'.1f %c", ASize, Ext[I]);
400 return S;
401 }
402
403 if (ASize < 10000)
404 {
405 std::string S;
406 strprintf(S, "%'.0f %c", ASize, Ext[I]);
407 return S;
408 }
409 ASize /= 1000.0;
410 I++;
411 }
412 return "";
413 }
414 /*}}}*/
415 // TimeToStr - Convert the time into a string /*{{{*/
416 // ---------------------------------------------------------------------
417 /* Converts a number of seconds to a hms format */
418 string TimeToStr(unsigned long Sec)
419 {
420 std::string S;
421 if (Sec > 60*60*24)
422 {
423 //TRANSLATOR: d means days, h means hours, min means minutes, s means seconds
424 strprintf(S,_("%lid %lih %limin %lis"),Sec/60/60/24,(Sec/60/60) % 24,(Sec/60) % 60,Sec % 60);
425 }
426 else if (Sec > 60*60)
427 {
428 //TRANSLATOR: h means hours, min means minutes, s means seconds
429 strprintf(S,_("%lih %limin %lis"),Sec/60/60,(Sec/60) % 60,Sec % 60);
430 }
431 else if (Sec > 60)
432 {
433 //TRANSLATOR: min means minutes, s means seconds
434 strprintf(S,_("%limin %lis"),Sec/60,Sec % 60);
435 }
436 else
437 {
438 //TRANSLATOR: s means seconds
439 strprintf(S,_("%lis"),Sec);
440 }
441 return S;
442 }
443 /*}}}*/
444 // SubstVar - Substitute a string for another string /*{{{*/
445 // ---------------------------------------------------------------------
446 /* This replaces all occurrences of Subst with Contents in Str. */
447 string SubstVar(const string &Str,const string &Subst,const string &Contents)
448 {
449 if (Subst.empty() == true)
450 return Str;
451
452 string::size_type Pos = 0;
453 string::size_type OldPos = 0;
454 string Temp;
455
456 while (OldPos < Str.length() &&
457 (Pos = Str.find(Subst,OldPos)) != string::npos)
458 {
459 if (OldPos != Pos)
460 Temp.append(Str, OldPos, Pos - OldPos);
461 if (Contents.empty() == false)
462 Temp.append(Contents);
463 OldPos = Pos + Subst.length();
464 }
465
466 if (OldPos == 0)
467 return Str;
468
469 if (OldPos >= Str.length())
470 return Temp;
471
472 Temp.append(Str, OldPos, string::npos);
473 return Temp;
474 }
475 string SubstVar(string Str,const struct SubstVar *Vars)
476 {
477 for (; Vars->Subst != 0; Vars++)
478 Str = SubstVar(Str,Vars->Subst,*Vars->Contents);
479 return Str;
480 }
481 /*}}}*/
482 // OutputInDepth - return a string with separator multiplied with depth /*{{{*/
483 // ---------------------------------------------------------------------
484 /* Returns a string with the supplied separator depth + 1 times in it */
485 std::string OutputInDepth(const unsigned long Depth, const char* Separator)
486 {
487 std::string output = "";
488 for(unsigned long d=Depth+1; d > 0; d--)
489 output.append(Separator);
490 return output;
491 }
492 /*}}}*/
493 // URItoFileName - Convert the uri into a unique file name /*{{{*/
494 // ---------------------------------------------------------------------
495 /* This converts a URI into a safe filename. It quotes all unsafe characters
496 and converts / to _ and removes the scheme identifier. The resulting
497 file name should be unique and never occur again for a different file */
498 string URItoFileName(const string &URI)
499 {
500 // Nuke 'sensitive' items
501 ::URI U(URI);
502 U.User.clear();
503 U.Password.clear();
504 U.Access.clear();
505
506 // "\x00-\x20{}|\\\\^\\[\\]<>\"\x7F-\xFF";
507 string NewURI = QuoteString(U,"\\|{}[]<>\"^~_=!@#$%^&*");
508 replace(NewURI.begin(),NewURI.end(),'/','_');
509 return NewURI;
510 }
511 /*}}}*/
512 // Base64Encode - Base64 Encoding routine for short strings /*{{{*/
513 // ---------------------------------------------------------------------
514 /* This routine performs a base64 transformation on a string. It was ripped
515 from wget and then patched and bug fixed.
516
517 This spec can be found in rfc2045 */
518 string Base64Encode(const string &S)
519 {
520 // Conversion table.
521 static char tbl[64] = {'A','B','C','D','E','F','G','H',
522 'I','J','K','L','M','N','O','P',
523 'Q','R','S','T','U','V','W','X',
524 'Y','Z','a','b','c','d','e','f',
525 'g','h','i','j','k','l','m','n',
526 'o','p','q','r','s','t','u','v',
527 'w','x','y','z','0','1','2','3',
528 '4','5','6','7','8','9','+','/'};
529
530 // Pre-allocate some space
531 string Final;
532 Final.reserve((4*S.length() + 2)/3 + 2);
533
534 /* Transform the 3x8 bits to 4x6 bits, as required by
535 base64. */
536 for (string::const_iterator I = S.begin(); I < S.end(); I += 3)
537 {
538 char Bits[3] = {0,0,0};
539 Bits[0] = I[0];
540 if (I + 1 < S.end())
541 Bits[1] = I[1];
542 if (I + 2 < S.end())
543 Bits[2] = I[2];
544
545 Final += tbl[Bits[0] >> 2];
546 Final += tbl[((Bits[0] & 3) << 4) + (Bits[1] >> 4)];
547
548 if (I + 1 >= S.end())
549 break;
550
551 Final += tbl[((Bits[1] & 0xf) << 2) + (Bits[2] >> 6)];
552
553 if (I + 2 >= S.end())
554 break;
555
556 Final += tbl[Bits[2] & 0x3f];
557 }
558
559 /* Apply the padding elements, this tells how many bytes the remote
560 end should discard */
561 if (S.length() % 3 == 2)
562 Final += '=';
563 if (S.length() % 3 == 1)
564 Final += "==";
565
566 return Final;
567 }
568 /*}}}*/
569 // stringcmp - Arbitrary string compare /*{{{*/
570 // ---------------------------------------------------------------------
571 /* This safely compares two non-null terminated strings of arbitrary
572 length */
573 int stringcmp(const char *A,const char *AEnd,const char *B,const char *BEnd)
574 {
575 for (; A != AEnd && B != BEnd; A++, B++)
576 if (*A != *B)
577 break;
578
579 if (A == AEnd && B == BEnd)
580 return 0;
581 if (A == AEnd)
582 return 1;
583 if (B == BEnd)
584 return -1;
585 if (*A < *B)
586 return -1;
587 return 1;
588 }
589
590 #if __GNUC__ >= 3
591 int stringcmp(string::const_iterator A,string::const_iterator AEnd,
592 const char *B,const char *BEnd)
593 {
594 for (; A != AEnd && B != BEnd; A++, B++)
595 if (*A != *B)
596 break;
597
598 if (A == AEnd && B == BEnd)
599 return 0;
600 if (A == AEnd)
601 return 1;
602 if (B == BEnd)
603 return -1;
604 if (*A < *B)
605 return -1;
606 return 1;
607 }
608 int stringcmp(string::const_iterator A,string::const_iterator AEnd,
609 string::const_iterator B,string::const_iterator BEnd)
610 {
611 for (; A != AEnd && B != BEnd; A++, B++)
612 if (*A != *B)
613 break;
614
615 if (A == AEnd && B == BEnd)
616 return 0;
617 if (A == AEnd)
618 return 1;
619 if (B == BEnd)
620 return -1;
621 if (*A < *B)
622 return -1;
623 return 1;
624 }
625 #endif
626 /*}}}*/
627 // stringcasecmp - Arbitrary case insensitive string compare /*{{{*/
628 // ---------------------------------------------------------------------
629 /* */
630 int stringcasecmp(const char *A,const char *AEnd,const char *B,const char *BEnd)
631 {
632 for (; A != AEnd && B != BEnd; A++, B++)
633 if (tolower_ascii(*A) != tolower_ascii(*B))
634 break;
635
636 if (A == AEnd && B == BEnd)
637 return 0;
638 if (A == AEnd)
639 return 1;
640 if (B == BEnd)
641 return -1;
642 if (tolower_ascii(*A) < tolower_ascii(*B))
643 return -1;
644 return 1;
645 }
646 #if __GNUC__ >= 3
647 int stringcasecmp(string::const_iterator A,string::const_iterator AEnd,
648 const char *B,const char *BEnd)
649 {
650 for (; A != AEnd && B != BEnd; A++, B++)
651 if (tolower_ascii(*A) != tolower_ascii(*B))
652 break;
653
654 if (A == AEnd && B == BEnd)
655 return 0;
656 if (A == AEnd)
657 return 1;
658 if (B == BEnd)
659 return -1;
660 if (tolower_ascii(*A) < tolower_ascii(*B))
661 return -1;
662 return 1;
663 }
664 int stringcasecmp(string::const_iterator A,string::const_iterator AEnd,
665 string::const_iterator B,string::const_iterator BEnd)
666 {
667 for (; A != AEnd && B != BEnd; A++, B++)
668 if (tolower_ascii(*A) != tolower_ascii(*B))
669 break;
670
671 if (A == AEnd && B == BEnd)
672 return 0;
673 if (A == AEnd)
674 return 1;
675 if (B == BEnd)
676 return -1;
677 if (tolower_ascii(*A) < tolower_ascii(*B))
678 return -1;
679 return 1;
680 }
681 #endif
682 /*}}}*/
683 // LookupTag - Lookup the value of a tag in a taged string /*{{{*/
684 // ---------------------------------------------------------------------
685 /* The format is like those used in package files and the method
686 communication system */
687 string LookupTag(const string &Message,const char *Tag,const char *Default)
688 {
689 // Look for a matching tag.
690 int Length = strlen(Tag);
691 for (string::const_iterator I = Message.begin(); I + Length < Message.end(); ++I)
692 {
693 // Found the tag
694 if (I[Length] == ':' && stringcasecmp(I,I+Length,Tag) == 0)
695 {
696 // Find the end of line and strip the leading/trailing spaces
697 string::const_iterator J;
698 I += Length + 1;
699 for (; isspace_ascii(*I) != 0 && I < Message.end(); ++I);
700 for (J = I; *J != '\n' && J < Message.end(); ++J);
701 for (; J > I && isspace_ascii(J[-1]) != 0; --J);
702
703 return string(I,J);
704 }
705
706 for (; *I != '\n' && I < Message.end(); ++I);
707 }
708
709 // Failed to find a match
710 if (Default == 0)
711 return string();
712 return Default;
713 }
714 /*}}}*/
715 // StringToBool - Converts a string into a boolean /*{{{*/
716 // ---------------------------------------------------------------------
717 /* This inspects the string to see if it is true or if it is false and
718 then returns the result. Several varients on true/false are checked. */
719 int StringToBool(const string &Text,int Default)
720 {
721 char *ParseEnd;
722 int Res = strtol(Text.c_str(),&ParseEnd,0);
723 // ensure that the entire string was converted by strtol to avoid
724 // failures on "apt-cache show -a 0ad" where the "0" is converted
725 const char *TextEnd = Text.c_str()+Text.size();
726 if (ParseEnd == TextEnd && Res >= 0 && Res <= 1)
727 return Res;
728
729 // Check for positives
730 if (strcasecmp(Text.c_str(),"no") == 0 ||
731 strcasecmp(Text.c_str(),"false") == 0 ||
732 strcasecmp(Text.c_str(),"without") == 0 ||
733 strcasecmp(Text.c_str(),"off") == 0 ||
734 strcasecmp(Text.c_str(),"disable") == 0)
735 return 0;
736
737 // Check for negatives
738 if (strcasecmp(Text.c_str(),"yes") == 0 ||
739 strcasecmp(Text.c_str(),"true") == 0 ||
740 strcasecmp(Text.c_str(),"with") == 0 ||
741 strcasecmp(Text.c_str(),"on") == 0 ||
742 strcasecmp(Text.c_str(),"enable") == 0)
743 return 1;
744
745 return Default;
746 }
747 /*}}}*/
748 // TimeRFC1123 - Convert a time_t into RFC1123 format /*{{{*/
749 // ---------------------------------------------------------------------
750 /* This converts a time_t into a string time representation that is
751 year 2000 complient and timezone neutral */
752 string TimeRFC1123(time_t Date)
753 {
754 return TimeRFC1123(Date, false);
755 }
756 string TimeRFC1123(time_t Date, bool const NumericTimezone)
757 {
758 struct tm Conv;
759 if (gmtime_r(&Date, &Conv) == NULL)
760 return "";
761
762 auto const posix = std::locale::classic();
763 std::ostringstream datestr;
764 datestr.imbue(posix);
765 APT::StringView const fmt("%a, %d %b %Y %H:%M:%S");
766 std::use_facet<std::time_put<char>>(posix).put(
767 std::ostreambuf_iterator<char>(datestr),
768 datestr, ' ', &Conv, fmt.data(), fmt.data() + fmt.size());
769 if (NumericTimezone)
770 datestr << " +0000";
771 else
772 datestr << " GMT";
773 return datestr.str();
774 }
775 /*}}}*/
776 // ReadMessages - Read messages from the FD /*{{{*/
777 // ---------------------------------------------------------------------
778 /* This pulls full messages from the input FD into the message buffer.
779 It assumes that messages will not pause during transit so no
780 fancy buffering is used.
781
782 In particular: this reads blocks from the input until it believes
783 that it's run out of input text. Each block is terminated by a
784 double newline ('\n' followed by '\n').
785 */
786 bool ReadMessages(int Fd, vector<string> &List)
787 {
788 char Buffer[64000];
789 // Represents any left-over from the previous iteration of the
790 // parse loop. (i.e., if a message is split across the end
791 // of the buffer, it goes here)
792 string PartialMessage;
793
794 do {
795 int const Res = read(Fd, Buffer, sizeof(Buffer));
796 if (Res < 0 && errno == EINTR)
797 continue;
798
799 // process we read from has died
800 if (Res == 0)
801 return false;
802
803 // No data
804 #if EAGAIN != EWOULDBLOCK
805 if (Res < 0 && (errno == EAGAIN || errno == EWOULDBLOCK))
806 #else
807 if (Res < 0 && errno == EAGAIN)
808 #endif
809 return true;
810 if (Res < 0)
811 return false;
812
813 // extract the message(s) from the buffer
814 char const *Start = Buffer;
815 char const * const End = Buffer + Res;
816
817 char const * NL = (char const *) memchr(Start, '\n', End - Start);
818 if (NL == NULL)
819 {
820 // end of buffer: store what we have so far and read new data in
821 PartialMessage.append(Start, End - Start);
822 Start = End;
823 }
824 else
825 ++NL;
826
827 if (PartialMessage.empty() == false && Start < End)
828 {
829 // if we start with a new line, see if the partial message we have ended with one
830 // so that we properly detect records ending between two read() runs
831 // cases are: \n|\n , \r\n|\r\n and \r\n\r|\n
832 // the case \r|\n\r\n is handled by the usual double-newline handling
833 if ((NL - Start) == 1 || ((NL - Start) == 2 && *Start == '\r'))
834 {
835 if (APT::String::Endswith(PartialMessage, "\n") || APT::String::Endswith(PartialMessage, "\r\n\r"))
836 {
837 PartialMessage.erase(PartialMessage.find_last_not_of("\r\n") + 1);
838 List.push_back(PartialMessage);
839 PartialMessage.clear();
840 while (NL < End && (*NL == '\n' || *NL == '\r')) ++NL;
841 Start = NL;
842 }
843 }
844 }
845
846 while (Start < End) {
847 char const * NL2 = (char const *) memchr(NL, '\n', End - NL);
848 if (NL2 == NULL)
849 {
850 // end of buffer: store what we have so far and read new data in
851 PartialMessage.append(Start, End - Start);
852 break;
853 }
854 ++NL2;
855
856 // did we find a double newline?
857 if ((NL2 - NL) == 1 || ((NL2 - NL) == 2 && *NL == '\r'))
858 {
859 PartialMessage.append(Start, NL2 - Start);
860 PartialMessage.erase(PartialMessage.find_last_not_of("\r\n") + 1);
861 List.push_back(PartialMessage);
862 PartialMessage.clear();
863 while (NL2 < End && (*NL2 == '\n' || *NL2 == '\r')) ++NL2;
864 Start = NL2;
865 }
866 NL = NL2;
867 }
868
869 // we have read at least one complete message and nothing left
870 if (PartialMessage.empty() == true)
871 return true;
872
873 if (WaitFd(Fd) == false)
874 return false;
875 } while (true);
876 }
877 /*}}}*/
878 // MonthConv - Converts a month string into a number /*{{{*/
879 // ---------------------------------------------------------------------
880 /* This was lifted from the boa webserver which lifted it from 'wn-v1.07'
881 Made it a bit more robust with a few tolower_ascii though. */
882 static int MonthConv(char const * const Month)
883 {
884 switch (tolower_ascii(*Month))
885 {
886 case 'a':
887 return tolower_ascii(Month[1]) == 'p'?3:7;
888 case 'd':
889 return 11;
890 case 'f':
891 return 1;
892 case 'j':
893 if (tolower_ascii(Month[1]) == 'a')
894 return 0;
895 return tolower_ascii(Month[2]) == 'n'?5:6;
896 case 'm':
897 return tolower_ascii(Month[2]) == 'r'?2:4;
898 case 'n':
899 return 10;
900 case 'o':
901 return 9;
902 case 's':
903 return 8;
904
905 // Pretend it is January..
906 default:
907 return 0;
908 }
909 }
910 /*}}}*/
911 // timegm - Internal timegm if the gnu version is not available /*{{{*/
912 // ---------------------------------------------------------------------
913 /* Converts struct tm to time_t, assuming the data in tm is UTC rather
914 than local timezone (mktime assumes the latter).
915
916 This function is a nonstandard GNU extension that is also present on
917 the BSDs and maybe other systems. For others we follow the advice of
918 the manpage of timegm and use his portable replacement. */
919 #ifndef HAVE_TIMEGM
920 static time_t timegm(struct tm *t)
921 {
922 char *tz = getenv("TZ");
923 setenv("TZ", "", 1);
924 tzset();
925 time_t ret = mktime(t);
926 if (tz)
927 setenv("TZ", tz, 1);
928 else
929 unsetenv("TZ");
930 tzset();
931 return ret;
932 }
933 #endif
934 /*}}}*/
935 // RFC1123StrToTime - Converts a HTTP1.1 full date strings into a time_t /*{{{*/
936 // ---------------------------------------------------------------------
937 /* tries to parses a full date as specified in RFC7231 §7.1.1.1
938 with one exception: HTTP/1.1 valid dates need to have GMT as timezone.
939 As we encounter dates from UTC or with a numeric timezone in other places,
940 we allow them here to to be able to reuse the method. Either way, a date
941 must be in UTC or parsing will fail. Previous implementations of this
942 method used to ignore the timezone and assume always UTC. */
943 bool RFC1123StrToTime(const char* const str,time_t &time)
944 {
945 unsigned short day = 0;
946 signed int year = 0; // yes, Y23K problem – we gonna worry then…
947 std::string weekday, month, datespec, timespec, zone;
948 std::istringstream ss(str);
949 auto const &posix = std::locale::classic();
950 ss.imbue(posix);
951 ss >> weekday;
952 // we only superficially check weekday, mostly to avoid accepting localized
953 // weekdays here and take only its length to decide which datetime format we
954 // encounter here. The date isn't stored.
955 std::transform(weekday.begin(), weekday.end(), weekday.begin(), ::tolower);
956 std::array<char const * const, 7> c_weekdays = {{ "sun", "mon", "tue", "wed", "thu", "fri", "sat" }};
957 if (std::find(c_weekdays.begin(), c_weekdays.end(), weekday.substr(0,3)) == c_weekdays.end())
958 return false;
959
960 switch (weekday.length())
961 {
962 case 4:
963 // Sun, 06 Nov 1994 08:49:37 GMT ; RFC 822, updated by RFC 1123
964 if (weekday[3] != ',')
965 return false;
966 ss >> day >> month >> year >> timespec >> zone;
967 break;
968 case 3:
969 // Sun Nov 6 08:49:37 1994 ; ANSI C's asctime() format
970 ss >> month >> day >> timespec >> year;
971 zone = "UTC";
972 break;
973 case 0:
974 case 1:
975 case 2:
976 return false;
977 default:
978 // Sunday, 06-Nov-94 08:49:37 GMT ; RFC 850, obsoleted by RFC 1036
979 if (weekday[weekday.length() - 1] != ',')
980 return false;
981 ss >> datespec >> timespec >> zone;
982 auto const expldate = VectorizeString(datespec, '-');
983 if (expldate.size() != 3)
984 return false;
985 try {
986 size_t pos;
987 day = std::stoi(expldate[0], &pos);
988 if (pos != expldate[0].length())
989 return false;
990 year = 1900 + std::stoi(expldate[2], &pos);
991 if (pos != expldate[2].length())
992 return false;
993 strprintf(datespec, "%.4d-%.2d-%.2d", year, MonthConv(expldate[1].c_str()) + 1, day);
994 } catch (...) {
995 return false;
996 }
997 break;
998 }
999
1000 if (ss.fail() || ss.bad() || !ss.eof())
1001 return false;
1002
1003 if (zone != "GMT" && zone != "UTC" && zone != "Z") // RFC 822
1004 {
1005 // numeric timezones as a should of RFC 1123 and generally preferred
1006 try {
1007 size_t pos;
1008 auto const z = std::stoi(zone, &pos);
1009 if (z != 0 || pos != zone.length())
1010 return false;
1011 } catch (...) {
1012 return false;
1013 }
1014 }
1015
1016 if (datespec.empty())
1017 {
1018 if (month.empty())
1019 return false;
1020 strprintf(datespec, "%.4d-%.2d-%.2d", year, MonthConv(month.c_str()) + 1, day);
1021 }
1022
1023 std::string const datetime = datespec + ' ' + timespec;
1024 struct tm Tm;
1025 if (strptime(datetime.c_str(), "%Y-%m-%d %H:%M:%S", &Tm) == nullptr)
1026 return false;
1027 time = timegm(&Tm);
1028 return true;
1029 }
1030 /*}}}*/
1031 // FTPMDTMStrToTime - Converts a ftp modification date into a time_t /*{{{*/
1032 // ---------------------------------------------------------------------
1033 /* */
1034 bool FTPMDTMStrToTime(const char* const str,time_t &time)
1035 {
1036 struct tm Tm;
1037 // MDTM includes no whitespaces but recommend and ignored by strptime
1038 if (strptime(str, "%Y %m %d %H %M %S", &Tm) == NULL)
1039 return false;
1040
1041 time = timegm(&Tm);
1042 return true;
1043 }
1044 /*}}}*/
1045 // StrToTime - Converts a string into a time_t /*{{{*/
1046 // ---------------------------------------------------------------------
1047 /* This handles all 3 popular time formats including RFC 1123, RFC 1036
1048 and the C library asctime format. It requires the GNU library function
1049 'timegm' to convert a struct tm in UTC to a time_t. For some bizzar
1050 reason the C library does not provide any such function :< This also
1051 handles the weird, but unambiguous FTP time format*/
1052 bool StrToTime(const string &Val,time_t &Result)
1053 {
1054 struct tm Tm;
1055 char Month[10];
1056
1057 // Skip the day of the week
1058 const char *I = strchr(Val.c_str(), ' ');
1059
1060 // Handle RFC 1123 time
1061 Month[0] = 0;
1062 if (sscanf(I," %2d %3s %4d %2d:%2d:%2d GMT",&Tm.tm_mday,Month,&Tm.tm_year,
1063 &Tm.tm_hour,&Tm.tm_min,&Tm.tm_sec) != 6)
1064 {
1065 // Handle RFC 1036 time
1066 if (sscanf(I," %2d-%3s-%3d %2d:%2d:%2d GMT",&Tm.tm_mday,Month,
1067 &Tm.tm_year,&Tm.tm_hour,&Tm.tm_min,&Tm.tm_sec) == 6)
1068 Tm.tm_year += 1900;
1069 else
1070 {
1071 // asctime format
1072 if (sscanf(I," %3s %2d %2d:%2d:%2d %4d",Month,&Tm.tm_mday,
1073 &Tm.tm_hour,&Tm.tm_min,&Tm.tm_sec,&Tm.tm_year) != 6)
1074 {
1075 // 'ftp' time
1076 if (sscanf(Val.c_str(),"%4d%2d%2d%2d%2d%2d",&Tm.tm_year,&Tm.tm_mon,
1077 &Tm.tm_mday,&Tm.tm_hour,&Tm.tm_min,&Tm.tm_sec) != 6)
1078 return false;
1079 Tm.tm_mon--;
1080 }
1081 }
1082 }
1083
1084 Tm.tm_isdst = 0;
1085 if (Month[0] != 0)
1086 Tm.tm_mon = MonthConv(Month);
1087 else
1088 Tm.tm_mon = 0; // we don't have a month, so pick something
1089 Tm.tm_year -= 1900;
1090
1091 // Convert to local time and then to GMT
1092 Result = timegm(&Tm);
1093 return true;
1094 }
1095 /*}}}*/
1096 // StrToNum - Convert a fixed length string to a number /*{{{*/
1097 // ---------------------------------------------------------------------
1098 /* This is used in decoding the crazy fixed length string headers in
1099 tar and ar files. */
1100 bool StrToNum(const char *Str,unsigned long &Res,unsigned Len,unsigned Base)
1101 {
1102 char S[30];
1103 if (Len >= sizeof(S))
1104 return false;
1105 memcpy(S,Str,Len);
1106 S[Len] = 0;
1107
1108 // All spaces is a zero
1109 Res = 0;
1110 unsigned I;
1111 for (I = 0; S[I] == ' '; I++);
1112 if (S[I] == 0)
1113 return true;
1114
1115 char *End;
1116 Res = strtoul(S,&End,Base);
1117 if (End == S)
1118 return false;
1119
1120 return true;
1121 }
1122 /*}}}*/
1123 // StrToNum - Convert a fixed length string to a number /*{{{*/
1124 // ---------------------------------------------------------------------
1125 /* This is used in decoding the crazy fixed length string headers in
1126 tar and ar files. */
1127 bool StrToNum(const char *Str,unsigned long long &Res,unsigned Len,unsigned Base)
1128 {
1129 char S[30];
1130 if (Len >= sizeof(S))
1131 return false;
1132 memcpy(S,Str,Len);
1133 S[Len] = 0;
1134
1135 // All spaces is a zero
1136 Res = 0;
1137 unsigned I;
1138 for (I = 0; S[I] == ' '; I++);
1139 if (S[I] == 0)
1140 return true;
1141
1142 char *End;
1143 Res = strtoull(S,&End,Base);
1144 if (End == S)
1145 return false;
1146
1147 return true;
1148 }
1149 /*}}}*/
1150
1151 // Base256ToNum - Convert a fixed length binary to a number /*{{{*/
1152 // ---------------------------------------------------------------------
1153 /* This is used in decoding the 256bit encoded fixed length fields in
1154 tar files */
1155 bool Base256ToNum(const char *Str,unsigned long long &Res,unsigned int Len)
1156 {
1157 if ((Str[0] & 0x80) == 0)
1158 return false;
1159 else
1160 {
1161 Res = Str[0] & 0x7F;
1162 for(unsigned int i = 1; i < Len; ++i)
1163 Res = (Res<<8) + Str[i];
1164 return true;
1165 }
1166 }
1167 /*}}}*/
1168 // Base256ToNum - Convert a fixed length binary to a number /*{{{*/
1169 // ---------------------------------------------------------------------
1170 /* This is used in decoding the 256bit encoded fixed length fields in
1171 tar files */
1172 bool Base256ToNum(const char *Str,unsigned long &Res,unsigned int Len)
1173 {
1174 unsigned long long Num = 0;
1175 bool rc;
1176
1177 rc = Base256ToNum(Str, Num, Len);
1178 // rudimentary check for overflow (Res = ulong, Num = ulonglong)
1179 Res = Num;
1180 if (Res != Num)
1181 return false;
1182
1183 return rc;
1184 }
1185 /*}}}*/
1186 // HexDigit - Convert a hex character into an integer /*{{{*/
1187 // ---------------------------------------------------------------------
1188 /* Helper for Hex2Num */
1189 static int HexDigit(int c)
1190 {
1191 if (c >= '0' && c <= '9')
1192 return c - '0';
1193 if (c >= 'a' && c <= 'f')
1194 return c - 'a' + 10;
1195 if (c >= 'A' && c <= 'F')
1196 return c - 'A' + 10;
1197 return -1;
1198 }
1199 /*}}}*/
1200 // Hex2Num - Convert a long hex number into a buffer /*{{{*/
1201 // ---------------------------------------------------------------------
1202 /* The length of the buffer must be exactly 1/2 the length of the string. */
1203 bool Hex2Num(const string &Str,unsigned char *Num,unsigned int Length)
1204 {
1205 return Hex2Num(APT::StringView(Str), Num, Length);
1206 }
1207
1208 bool Hex2Num(const APT::StringView Str,unsigned char *Num,unsigned int Length)
1209 {
1210 if (Str.length() != Length*2)
1211 return false;
1212
1213 // Convert each digit. We store it in the same order as the string
1214 int J = 0;
1215 for (auto I = Str.begin(); I != Str.end();J++, I += 2)
1216 {
1217 int first_half = HexDigit(I[0]);
1218 int second_half;
1219 if (first_half < 0)
1220 return false;
1221
1222 second_half = HexDigit(I[1]);
1223 if (second_half < 0)
1224 return false;
1225 Num[J] = first_half << 4;
1226 Num[J] += second_half;
1227 }
1228
1229 return true;
1230 }
1231 /*}}}*/
1232 // TokSplitString - Split a string up by a given token /*{{{*/
1233 // ---------------------------------------------------------------------
1234 /* This is intended to be a faster splitter, it does not use dynamic
1235 memories. Input is changed to insert nulls at each token location. */
1236 bool TokSplitString(char Tok,char *Input,char **List,
1237 unsigned long ListMax)
1238 {
1239 // Strip any leading spaces
1240 char *Start = Input;
1241 char *Stop = Start + strlen(Start);
1242 for (; *Start != 0 && isspace(*Start) != 0; Start++);
1243
1244 unsigned long Count = 0;
1245 char *Pos = Start;
1246 while (Pos != Stop)
1247 {
1248 // Skip to the next Token
1249 for (; Pos != Stop && *Pos != Tok; Pos++);
1250
1251 // Back remove spaces
1252 char *End = Pos;
1253 for (; End > Start && (End[-1] == Tok || isspace(End[-1]) != 0); End--);
1254 *End = 0;
1255
1256 List[Count++] = Start;
1257 if (Count >= ListMax)
1258 {
1259 List[Count-1] = 0;
1260 return false;
1261 }
1262
1263 // Advance pos
1264 for (; Pos != Stop && (*Pos == Tok || isspace(*Pos) != 0 || *Pos == 0); Pos++);
1265 Start = Pos;
1266 }
1267
1268 List[Count] = 0;
1269 return true;
1270 }
1271 /*}}}*/
1272 // VectorizeString - Split a string up into a vector of strings /*{{{*/
1273 // ---------------------------------------------------------------------
1274 /* This can be used to split a given string up into a vector, so the
1275 propose is the same as in the method above and this one is a bit slower
1276 also, but the advantage is that we have an iteratable vector */
1277 vector<string> VectorizeString(string const &haystack, char const &split)
1278 {
1279 vector<string> exploded;
1280 if (haystack.empty() == true)
1281 return exploded;
1282 string::const_iterator start = haystack.begin();
1283 string::const_iterator end = start;
1284 do {
1285 for (; end != haystack.end() && *end != split; ++end);
1286 exploded.push_back(string(start, end));
1287 start = end + 1;
1288 } while (end != haystack.end() && (++end) != haystack.end());
1289 return exploded;
1290 }
1291 /*}}}*/
1292 // StringSplit - split a string into a string vector by token /*{{{*/
1293 // ---------------------------------------------------------------------
1294 /* See header for details.
1295 */
1296 vector<string> StringSplit(std::string const &s, std::string const &sep,
1297 unsigned int maxsplit)
1298 {
1299 vector<string> split;
1300 size_t start, pos;
1301
1302 // no separator given, this is bogus
1303 if(sep.size() == 0)
1304 return split;
1305
1306 start = pos = 0;
1307 while (pos != string::npos)
1308 {
1309 pos = s.find(sep, start);
1310 split.push_back(s.substr(start, pos-start));
1311
1312 // if maxsplit is reached, the remaining string is the last item
1313 if(split.size() >= maxsplit)
1314 {
1315 split[split.size()-1] = s.substr(start);
1316 break;
1317 }
1318 start = pos+sep.size();
1319 }
1320 return split;
1321 }
1322 /*}}}*/
1323 // RegexChoice - Simple regex list/list matcher /*{{{*/
1324 // ---------------------------------------------------------------------
1325 /* */
1326 unsigned long RegexChoice(RxChoiceList *Rxs,const char **ListBegin,
1327 const char **ListEnd)
1328 {
1329 for (RxChoiceList *R = Rxs; R->Str != 0; R++)
1330 R->Hit = false;
1331
1332 unsigned long Hits = 0;
1333 for (; ListBegin < ListEnd; ++ListBegin)
1334 {
1335 // Check if the name is a regex
1336 const char *I;
1337 bool Regex = true;
1338 for (I = *ListBegin; *I != 0; I++)
1339 if (*I == '.' || *I == '?' || *I == '*' || *I == '|')
1340 break;
1341 if (*I == 0)
1342 Regex = false;
1343
1344 // Compile the regex pattern
1345 regex_t Pattern;
1346 if (Regex == true)
1347 if (regcomp(&Pattern,*ListBegin,REG_EXTENDED | REG_ICASE |
1348 REG_NOSUB) != 0)
1349 Regex = false;
1350
1351 // Search the list
1352 bool Done = false;
1353 for (RxChoiceList *R = Rxs; R->Str != 0; R++)
1354 {
1355 if (R->Str[0] == 0)
1356 continue;
1357
1358 if (strcasecmp(R->Str,*ListBegin) != 0)
1359 {
1360 if (Regex == false)
1361 continue;
1362 if (regexec(&Pattern,R->Str,0,0,0) != 0)
1363 continue;
1364 }
1365 Done = true;
1366
1367 if (R->Hit == false)
1368 Hits++;
1369
1370 R->Hit = true;
1371 }
1372
1373 if (Regex == true)
1374 regfree(&Pattern);
1375
1376 if (Done == false)
1377 _error->Warning(_("Selection %s not found"),*ListBegin);
1378 }
1379
1380 return Hits;
1381 }
1382 /*}}}*/
1383 // {str,io}printf - C format string outputter to C++ strings/iostreams /*{{{*/
1384 // ---------------------------------------------------------------------
1385 /* This is used to make the internationalization strings easier to translate
1386 and to allow reordering of parameters */
1387 static bool iovprintf(ostream &out, const char *format,
1388 va_list &args, ssize_t &size) {
1389 char *S = (char*)malloc(size);
1390 ssize_t const n = vsnprintf(S, size, format, args);
1391 if (n > -1 && n < size) {
1392 out << S;
1393 free(S);
1394 return true;
1395 } else {
1396 if (n > -1)
1397 size = n + 1;
1398 else
1399 size *= 2;
1400 }
1401 free(S);
1402 return false;
1403 }
1404 void ioprintf(ostream &out,const char *format,...)
1405 {
1406 va_list args;
1407 ssize_t size = 400;
1408 while (true) {
1409 bool ret;
1410 va_start(args,format);
1411 ret = iovprintf(out, format, args, size);
1412 va_end(args);
1413 if (ret == true)
1414 return;
1415 }
1416 }
1417 void strprintf(string &out,const char *format,...)
1418 {
1419 va_list args;
1420 ssize_t size = 400;
1421 std::ostringstream outstr;
1422 while (true) {
1423 bool ret;
1424 va_start(args,format);
1425 ret = iovprintf(outstr, format, args, size);
1426 va_end(args);
1427 if (ret == true)
1428 break;
1429 }
1430 out = outstr.str();
1431 }
1432 /*}}}*/
1433 // safe_snprintf - Safer snprintf /*{{{*/
1434 // ---------------------------------------------------------------------
1435 /* This is a snprintf that will never (ever) go past 'End' and returns a
1436 pointer to the end of the new string. The returned string is always null
1437 terminated unless Buffer == end. This is a better alterantive to using
1438 consecutive snprintfs. */
1439 char *safe_snprintf(char *Buffer,char *End,const char *Format,...)
1440 {
1441 va_list args;
1442 int Did;
1443
1444 if (End <= Buffer)
1445 return End;
1446 va_start(args,Format);
1447 Did = vsnprintf(Buffer,End - Buffer,Format,args);
1448 va_end(args);
1449
1450 if (Did < 0 || Buffer + Did > End)
1451 return End;
1452 return Buffer + Did;
1453 }
1454 /*}}}*/
1455 // StripEpoch - Remove the version "epoch" from a version string /*{{{*/
1456 // ---------------------------------------------------------------------
1457 string StripEpoch(const string &VerStr)
1458 {
1459 size_t i = VerStr.find(":");
1460 if (i == string::npos)
1461 return VerStr;
1462 return VerStr.substr(i+1);
1463 }
1464 /*}}}*/
1465
1466 // tolower_ascii - tolower() function that ignores the locale /*{{{*/
1467 // ---------------------------------------------------------------------
1468 /* This little function is the most called method we have and tries
1469 therefore to do the absolut minimum - and is notable faster than
1470 standard tolower/toupper and as a bonus avoids problems with different
1471 locales - we only operate on ascii chars anyway. */
1472 #undef tolower_ascii
1473 int tolower_ascii(int const c) APT_CONST APT_COLD;
1474 int tolower_ascii(int const c)
1475 {
1476 return tolower_ascii_inline(c);
1477 }
1478 /*}}}*/
1479
1480 // isspace_ascii - isspace() function that ignores the locale /*{{{*/
1481 // ---------------------------------------------------------------------
1482 /* This little function is one of the most called methods we have and tries
1483 therefore to do the absolut minimum - and is notable faster than
1484 standard isspace() and as a bonus avoids problems with different
1485 locales - we only operate on ascii chars anyway. */
1486 #undef isspace_ascii
1487 int isspace_ascii(int const c) APT_CONST APT_COLD;
1488 int isspace_ascii(int const c)
1489 {
1490 return isspace_ascii_inline(c);
1491 }
1492 /*}}}*/
1493
1494 // CheckDomainList - See if Host is in a , separate list /*{{{*/
1495 // ---------------------------------------------------------------------
1496 /* The domain list is a comma separate list of domains that are suffix
1497 matched against the argument */
1498 bool CheckDomainList(const string &Host,const string &List)
1499 {
1500 string::const_iterator Start = List.begin();
1501 for (string::const_iterator Cur = List.begin(); Cur <= List.end(); ++Cur)
1502 {
1503 if (Cur < List.end() && *Cur != ',')
1504 continue;
1505
1506 // Match the end of the string..
1507 if ((Host.size() >= (unsigned)(Cur - Start)) &&
1508 Cur - Start != 0 &&
1509 stringcasecmp(Host.end() - (Cur - Start),Host.end(),Start,Cur) == 0)
1510 return true;
1511
1512 Start = Cur + 1;
1513 }
1514 return false;
1515 }
1516 /*}}}*/
1517 // strv_length - Return the length of a NULL-terminated string array /*{{{*/
1518 // ---------------------------------------------------------------------
1519 /* */
1520 size_t strv_length(const char **str_array)
1521 {
1522 size_t i;
1523 for (i=0; str_array[i] != NULL; i++)
1524 /* nothing */
1525 ;
1526 return i;
1527 }
1528 /*}}}*/
1529 // DeEscapeString - unescape (\0XX and \xXX) from a string /*{{{*/
1530 // ---------------------------------------------------------------------
1531 /* */
1532 string DeEscapeString(const string &input)
1533 {
1534 char tmp[3];
1535 string::const_iterator it;
1536 string output;
1537 for (it = input.begin(); it != input.end(); ++it)
1538 {
1539 // just copy non-escape chars
1540 if (*it != '\\')
1541 {
1542 output += *it;
1543 continue;
1544 }
1545
1546 // deal with double escape
1547 if (*it == '\\' &&
1548 (it + 1 < input.end()) && it[1] == '\\')
1549 {
1550 // copy
1551 output += *it;
1552 // advance iterator one step further
1553 ++it;
1554 continue;
1555 }
1556
1557 // ensure we have a char to read
1558 if (it + 1 == input.end())
1559 continue;
1560
1561 // read it
1562 ++it;
1563 switch (*it)
1564 {
1565 case '0':
1566 if (it + 2 <= input.end()) {
1567 tmp[0] = it[1];
1568 tmp[1] = it[2];
1569 tmp[2] = 0;
1570 output += (char)strtol(tmp, 0, 8);
1571 it += 2;
1572 }
1573 break;
1574 case 'x':
1575 if (it + 2 <= input.end()) {
1576 tmp[0] = it[1];
1577 tmp[1] = it[2];
1578 tmp[2] = 0;
1579 output += (char)strtol(tmp, 0, 16);
1580 it += 2;
1581 }
1582 break;
1583 default:
1584 // FIXME: raise exception here?
1585 break;
1586 }
1587 }
1588 return output;
1589 }
1590 /*}}}*/
1591 // URI::CopyFrom - Copy from an object /*{{{*/
1592 // ---------------------------------------------------------------------
1593 /* This parses the URI into all of its components */
1594 void URI::CopyFrom(const string &U)
1595 {
1596 string::const_iterator I = U.begin();
1597
1598 // Locate the first colon, this separates the scheme
1599 for (; I < U.end() && *I != ':' ; ++I);
1600 string::const_iterator FirstColon = I;
1601
1602 /* Determine if this is a host type URI with a leading double //
1603 and then search for the first single / */
1604 string::const_iterator SingleSlash = I;
1605 if (I + 3 < U.end() && I[1] == '/' && I[2] == '/')
1606 SingleSlash += 3;
1607
1608 /* Find the / indicating the end of the hostname, ignoring /'s in the
1609 square brackets */
1610 bool InBracket = false;
1611 for (; SingleSlash < U.end() && (*SingleSlash != '/' || InBracket == true); ++SingleSlash)
1612 {
1613 if (*SingleSlash == '[')
1614 InBracket = true;
1615 if (InBracket == true && *SingleSlash == ']')
1616 InBracket = false;
1617 }
1618
1619 if (SingleSlash > U.end())
1620 SingleSlash = U.end();
1621
1622 // We can now write the access and path specifiers
1623 Access.assign(U.begin(),FirstColon);
1624 if (SingleSlash != U.end())
1625 Path.assign(SingleSlash,U.end());
1626 if (Path.empty() == true)
1627 Path = "/";
1628
1629 // Now we attempt to locate a user:pass@host fragment
1630 if (FirstColon + 2 <= U.end() && FirstColon[1] == '/' && FirstColon[2] == '/')
1631 FirstColon += 3;
1632 else
1633 FirstColon += 1;
1634 if (FirstColon >= U.end())
1635 return;
1636
1637 if (FirstColon > SingleSlash)
1638 FirstColon = SingleSlash;
1639
1640 // Find the colon...
1641 I = FirstColon + 1;
1642 if (I > SingleSlash)
1643 I = SingleSlash;
1644
1645 // Search for the @ separating user:pass from host
1646 auto const RevAt = std::find(
1647 std::string::const_reverse_iterator(SingleSlash),
1648 std::string::const_reverse_iterator(I), '@');
1649 string::const_iterator const At = RevAt.base() == I ? SingleSlash : std::prev(RevAt.base());
1650 // and then look for the colon between user and pass
1651 string::const_iterator const SecondColon = std::find(I, At, ':');
1652
1653 // Now write the host and user/pass
1654 if (At == SingleSlash)
1655 {
1656 if (FirstColon < SingleSlash)
1657 Host.assign(FirstColon,SingleSlash);
1658 }
1659 else
1660 {
1661 Host.assign(At+1,SingleSlash);
1662 // username and password must be encoded (RFC 3986)
1663 User.assign(DeQuoteString(FirstColon,SecondColon));
1664 if (SecondColon < At)
1665 Password.assign(DeQuoteString(SecondColon+1,At));
1666 }
1667
1668 // Now we parse the RFC 2732 [] hostnames.
1669 unsigned long PortEnd = 0;
1670 InBracket = false;
1671 for (unsigned I = 0; I != Host.length();)
1672 {
1673 if (Host[I] == '[')
1674 {
1675 InBracket = true;
1676 Host.erase(I,1);
1677 continue;
1678 }
1679
1680 if (InBracket == true && Host[I] == ']')
1681 {
1682 InBracket = false;
1683 Host.erase(I,1);
1684 PortEnd = I;
1685 continue;
1686 }
1687 I++;
1688 }
1689
1690 // Tsk, weird.
1691 if (InBracket == true)
1692 {
1693 Host.clear();
1694 return;
1695 }
1696
1697 // Now we parse off a port number from the hostname
1698 Port = 0;
1699 string::size_type Pos = Host.rfind(':');
1700 if (Pos == string::npos || Pos < PortEnd)
1701 return;
1702
1703 Port = atoi(string(Host,Pos+1).c_str());
1704 Host.assign(Host,0,Pos);
1705 }
1706 /*}}}*/
1707 // URI::operator string - Convert the URI to a string /*{{{*/
1708 // ---------------------------------------------------------------------
1709 /* */
1710 URI::operator string()
1711 {
1712 std::stringstream Res;
1713
1714 if (Access.empty() == false)
1715 Res << Access << ':';
1716
1717 if (Host.empty() == false)
1718 {
1719 if (Access.empty() == false)
1720 Res << "//";
1721
1722 if (User.empty() == false)
1723 {
1724 // FIXME: Technically userinfo is permitted even less
1725 // characters than these, but this is not conveniently
1726 // expressed with a blacklist.
1727 Res << QuoteString(User, ":/?#[]@");
1728 if (Password.empty() == false)
1729 Res << ":" << QuoteString(Password, ":/?#[]@");
1730 Res << "@";
1731 }
1732
1733 // Add RFC 2732 escaping characters
1734 if (Access.empty() == false && Host.find_first_of("/:") != string::npos)
1735 Res << '[' << Host << ']';
1736 else
1737 Res << Host;
1738
1739 if (Port != 0)
1740 Res << ':' << std::to_string(Port);
1741 }
1742
1743 if (Path.empty() == false)
1744 {
1745 if (Path[0] != '/')
1746 Res << "/" << Path;
1747 else
1748 Res << Path;
1749 }
1750
1751 return Res.str();
1752 }
1753 /*}}}*/
1754 // URI::SiteOnly - Return the schema and site for the URI /*{{{*/
1755 string URI::SiteOnly(const string &URI)
1756 {
1757 ::URI U(URI);
1758 U.User.clear();
1759 U.Password.clear();
1760 U.Path.clear();
1761 return U;
1762 }
1763 /*}}}*/
1764 // URI::ArchiveOnly - Return the schema, site and cleaned path for the URI /*{{{*/
1765 string URI::ArchiveOnly(const string &URI)
1766 {
1767 ::URI U(URI);
1768 U.User.clear();
1769 U.Password.clear();
1770 if (U.Path.empty() == false && U.Path[U.Path.length() - 1] == '/')
1771 U.Path.erase(U.Path.length() - 1);
1772 return U;
1773 }
1774 /*}}}*/
1775 // URI::NoUserPassword - Return the schema, site and path for the URI /*{{{*/
1776 string URI::NoUserPassword(const string &URI)
1777 {
1778 ::URI U(URI);
1779 U.User.clear();
1780 U.Password.clear();
1781 return U;
1782 }
1783 /*}}}*/