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1 // -*- mode: cpp; mode: fold -*-
2 // Description /*{{{*/
3 // $Id: orderlist.cc,v 1.14 2001/05/07 05:49:43 jgg Exp $
4 /* ######################################################################
5
6 Order List - Represents and Manipulates an ordered list of packages.
7
8 A list of packages can be ordered by a number of conflicting criteria
9 each given a specific priority. Each package also has a set of flags
10 indicating some useful things about it that are derived in the
11 course of sorting. The pkgPackageManager class uses this class for
12 all of it's installation ordering needs.
13
14 This is a modified version of Manoj's Routine B. It consists of four
15 independent ordering algorithms that can be applied at for different
16 points in the ordering. By appling progressivly fewer ordering
17 operations it is possible to give each consideration it's own
18 priority and create an order that satisfies the lowest applicable
19 consideration.
20
21 The rules for unpacking ordering are:
22 1) Unpacking ignores Depends: on all packages
23 2) Unpacking requires Conflicts: on -ALL- packages to be satisfied
24 3) Unpacking requires PreDepends: on this package only to be satisfied
25 4) Removing requires that no packages depend on the package to be
26 removed.
27
28 And the rule for configuration ordering is:
29 1) Configuring requires that the Depends: of the package be satisfied
30 Conflicts+PreDepends are ignored because unpacking says they are
31 already correct [exageration, it does check but we need not be
32 concerned]
33
34 And some features that are valuable for unpacking ordering.
35 f1) Unpacking a new package should advoid breaking dependencies of
36 configured packages
37 f2) Removal should not require a force, corrolory of f1
38 f3) Unpacking should order by depends rather than fall back to random
39 ordering.
40
41 Each of the features can be enabled in the sorting routine at an
42 arbitrary priority to give quite abit of control over the final unpacking
43 order.
44
45 The rules listed above may never be violated and are called Critical.
46 When a critical rule is violated then a loop condition is recorded
47 and will have to be delt with in the caller.
48
49 The ordering keeps two lists, the main list and the 'After List'. The
50 purpose of the after list is to allow packages to be delayed. This is done
51 by setting the after flag on the package. Any package which requires this
52 package to be ordered before will inherit the after flag and so on. This
53 is used for CD swap ordering where all packages on a second CD have the
54 after flag set. This forces them and all their dependents to be ordered
55 toward the end.
56
57 There are complications in this algorithm when presented with cycles.
58 For all known practical cases it works, all cases where it doesn't work
59 is fixable by tweaking the package descriptions. However, it should be
60 possible to impove this further to make some better choices when
61 presented with cycles.
62
63 ##################################################################### */
64 /*}}}*/
65 // Include Files /*{{{*/
66 #include <apt-pkg/orderlist.h>
67 #include <apt-pkg/depcache.h>
68 #include <apt-pkg/error.h>
69 #include <apt-pkg/version.h>
70 #include <apt-pkg/sptr.h>
71 #include <apt-pkg/configuration.h>
72
73 #include <iostream>
74 /*}}}*/
75
76 using namespace std;
77
78 pkgOrderList *pkgOrderList::Me = 0;
79
80 // OrderList::pkgOrderList - Constructor /*{{{*/
81 // ---------------------------------------------------------------------
82 /* */
83 pkgOrderList::pkgOrderList(pkgDepCache *pCache) : Cache(*pCache)
84 {
85 FileList = 0;
86 Primary = 0;
87 Secondary = 0;
88 RevDepends = 0;
89 Remove = 0;
90 LoopCount = -1;
91 Debug = _config->FindB("Debug::pkgOrderList",false);
92
93 /* Construct the arrays, egcs 1.0.1 bug requires the package count
94 hack */
95 unsigned long Size = Cache.Head().PackageCount;
96 Flags = new unsigned short[Size];
97 End = List = new Package *[Size];
98 memset(Flags,0,sizeof(*Flags)*Size);
99 }
100 /*}}}*/
101 // OrderList::~pkgOrderList - Destructor /*{{{*/
102 // ---------------------------------------------------------------------
103 /* */
104 pkgOrderList::~pkgOrderList()
105 {
106 delete [] List;
107 delete [] Flags;
108 }
109 /*}}}*/
110 // OrderList::IsMissing - Check if a file is missing /*{{{*/
111 // ---------------------------------------------------------------------
112 /* */
113 bool pkgOrderList::IsMissing(PkgIterator Pkg)
114 {
115 // Skip packages to erase
116 if (Cache[Pkg].Delete() == true)
117 return false;
118
119 // Skip Packages that need configure only.
120 if (Pkg.State() == pkgCache::PkgIterator::NeedsConfigure &&
121 Cache[Pkg].Keep() == true)
122 return false;
123
124 if (FileList == 0)
125 return false;
126
127 if (FileList[Pkg->ID].empty() == false)
128 return false;
129
130 if (pkgCache::VerIterator(Cache, Cache[Pkg].CandidateVer).Pseudo() == true)
131 return false;
132
133 return true;
134 }
135 /*}}}*/
136 // OrderList::DoRun - Does an order run /*{{{*/
137 // ---------------------------------------------------------------------
138 /* The caller is expeted to have setup the desired probe state */
139 bool pkgOrderList::DoRun()
140 {
141 // Temp list
142 unsigned long Size = Cache.Head().PackageCount;
143 SPtrArray<Package *> NList = new Package *[Size];
144 SPtrArray<Package *> AfterList = new Package *[Size];
145 AfterEnd = AfterList;
146
147 Depth = 0;
148 WipeFlags(Added | AddPending | Loop | InList);
149
150 for (iterator I = List; I != End; I++)
151 Flag(*I,InList);
152
153 // Rebuild the main list into the temp list.
154 iterator OldEnd = End;
155 End = NList;
156 for (iterator I = List; I != OldEnd; I++)
157 if (VisitNode(PkgIterator(Cache,*I)) == false)
158 {
159 End = OldEnd;
160 return false;
161 }
162
163 // Copy the after list to the end of the main list
164 for (Package **I = AfterList; I != AfterEnd; I++)
165 *End++ = *I;
166
167 // Swap the main list to the new list
168 delete [] List;
169 List = NList.UnGuard();
170 return true;
171 }
172 /*}}}*/
173 // OrderList::OrderCritical - Perform critical unpacking ordering /*{{{*/
174 // ---------------------------------------------------------------------
175 /* This performs predepends and immediate configuration ordering only.
176 This is termed critical unpacking ordering. Any loops that form are
177 fatal and indicate that the packages cannot be installed. */
178 bool pkgOrderList::OrderCritical()
179 {
180 FileList = 0;
181
182 Primary = &pkgOrderList::DepUnPackPreD;
183 Secondary = 0;
184 RevDepends = 0;
185 Remove = 0;
186 LoopCount = 0;
187
188 // Sort
189 Me = this;
190 qsort(List,End - List,sizeof(*List),&OrderCompareB);
191
192 if (DoRun() == false)
193 return false;
194
195 if (LoopCount != 0)
196 return _error->Error("Fatal, predepends looping detected");
197
198 if (Debug == true)
199 {
200 clog << "** Critical Unpack ordering done" << endl;
201
202 for (iterator I = List; I != End; I++)
203 {
204 PkgIterator P(Cache,*I);
205 if (IsNow(P) == true)
206 clog << " " << P.Name() << ' ' << IsMissing(P) << ',' << IsFlag(P,After) << endl;
207 }
208 }
209
210 return true;
211 }
212 /*}}}*/
213 // OrderList::OrderUnpack - Perform complete unpacking ordering /*{{{*/
214 // ---------------------------------------------------------------------
215 /* This performs complete unpacking ordering and creates an order that is
216 suitable for unpacking */
217 bool pkgOrderList::OrderUnpack(string *FileList)
218 {
219 this->FileList = FileList;
220
221 // Setup the after flags
222 if (FileList != 0)
223 {
224 WipeFlags(After);
225
226 // Set the inlist flag
227 for (iterator I = List; I != End; I++)
228 {
229 PkgIterator P(Cache,*I);
230 if (IsMissing(P) == true && IsNow(P) == true)
231 Flag(*I,After);
232 }
233 }
234
235 Primary = &pkgOrderList::DepUnPackCrit;
236 Secondary = &pkgOrderList::DepConfigure;
237 RevDepends = &pkgOrderList::DepUnPackDep;
238 Remove = &pkgOrderList::DepRemove;
239 LoopCount = -1;
240
241 // Sort
242 Me = this;
243 qsort(List,End - List,sizeof(*List),&OrderCompareA);
244
245 if (Debug == true)
246 clog << "** Pass A" << endl;
247 if (DoRun() == false)
248 return false;
249
250 if (Debug == true)
251 clog << "** Pass B" << endl;
252 Secondary = 0;
253 if (DoRun() == false)
254 return false;
255
256 if (Debug == true)
257 clog << "** Pass C" << endl;
258 LoopCount = 0;
259 RevDepends = 0;
260 Remove = 0; // Otherwise the libreadline remove problem occures
261 if (DoRun() == false)
262 return false;
263
264 if (Debug == true)
265 clog << "** Pass D" << endl;
266 LoopCount = 0;
267 Primary = &pkgOrderList::DepUnPackPre;
268 if (DoRun() == false)
269 return false;
270
271 if (Debug == true)
272 {
273 clog << "** Unpack ordering done" << endl;
274
275 for (iterator I = List; I != End; I++)
276 {
277 PkgIterator P(Cache,*I);
278 if (IsNow(P) == true)
279 clog << " " << P.Name() << ' ' << IsMissing(P) << ',' << IsFlag(P,After) << endl;
280 }
281 }
282
283 return true;
284 }
285 /*}}}*/
286 // OrderList::OrderConfigure - Perform configuration ordering /*{{{*/
287 // ---------------------------------------------------------------------
288 /* This orders by depends only and produces an order which is suitable
289 for configuration */
290 bool pkgOrderList::OrderConfigure()
291 {
292 FileList = 0;
293 Primary = &pkgOrderList::DepConfigure;
294 Secondary = 0;
295 RevDepends = 0;
296 Remove = 0;
297 LoopCount = -1;
298 return DoRun();
299 }
300 /*}}}*/
301 // OrderList::Score - Score the package for sorting /*{{{*/
302 // ---------------------------------------------------------------------
303 /* Higher scores order earlier */
304 int pkgOrderList::Score(PkgIterator Pkg)
305 {
306 static int const ScoreDelete = _config->FindI("OrderList::Score::Delete", 500);
307
308 // Removal is always done first
309 if (Cache[Pkg].Delete() == true)
310 return ScoreDelete;
311
312 // This should never happen..
313 if (Cache[Pkg].InstVerIter(Cache).end() == true)
314 return -1;
315
316 static int const ScoreEssential = _config->FindI("OrderList::Score::Essential", 200);
317 static int const ScoreImmediate = _config->FindI("OrderList::Score::Immediate", 10);
318 static int const ScorePreDepends = _config->FindI("OrderList::Score::PreDepends", 50);
319
320 int Score = 0;
321 if ((Pkg->Flags & pkgCache::Flag::Essential) == pkgCache::Flag::Essential)
322 Score += ScoreEssential;
323
324 if (IsFlag(Pkg,Immediate) == true)
325 Score += ScoreImmediate;
326
327 for (DepIterator D = Cache[Pkg].InstVerIter(Cache).DependsList();
328 D.end() == false; D++)
329 if (D->Type == pkgCache::Dep::PreDepends)
330 {
331 Score += ScorePreDepends;
332 break;
333 }
334
335 // Important Required Standard Optional Extra
336 signed short PrioMap[] = {0,5,4,3,1,0};
337 if (Cache[Pkg].InstVerIter(Cache)->Priority <= 5)
338 Score += PrioMap[Cache[Pkg].InstVerIter(Cache)->Priority];
339 return Score;
340 }
341 /*}}}*/
342 // OrderList::FileCmp - Compare by package file /*{{{*/
343 // ---------------------------------------------------------------------
344 /* This compares by the package file that the install version is in. */
345 int pkgOrderList::FileCmp(PkgIterator A,PkgIterator B)
346 {
347 if (Cache[A].Delete() == true && Cache[B].Delete() == true)
348 return 0;
349 if (Cache[A].Delete() == true)
350 return -1;
351 if (Cache[B].Delete() == true)
352 return 1;
353
354 if (Cache[A].InstVerIter(Cache).FileList().end() == true)
355 return -1;
356 if (Cache[B].InstVerIter(Cache).FileList().end() == true)
357 return 1;
358
359 pkgCache::PackageFile *FA = Cache[A].InstVerIter(Cache).FileList().File();
360 pkgCache::PackageFile *FB = Cache[B].InstVerIter(Cache).FileList().File();
361 if (FA < FB)
362 return -1;
363 if (FA > FB)
364 return 1;
365 return 0;
366 }
367 /*}}}*/
368 // BoolCompare - Comparison function for two booleans /*{{{*/
369 // ---------------------------------------------------------------------
370 /* */
371 static int BoolCompare(bool A,bool B)
372 {
373 if (A == B)
374 return 0;
375 if (A == false)
376 return -1;
377 return 1;
378 }
379 /*}}}*/
380 // OrderList::OrderCompareA - Order the installation by op /*{{{*/
381 // ---------------------------------------------------------------------
382 /* This provides a first-pass sort of the list and gives a decent starting
383 point for further complete ordering. It is used by OrderUnpack only */
384 int pkgOrderList::OrderCompareA(const void *a, const void *b)
385 {
386 PkgIterator A(Me->Cache,*(Package **)a);
387 PkgIterator B(Me->Cache,*(Package **)b);
388
389 // We order packages with a set state toward the front
390 int Res;
391 if ((Res = BoolCompare(Me->IsNow(A),Me->IsNow(B))) != 0)
392 return -1*Res;
393
394 // We order missing files to toward the end
395 /* if (Me->FileList != 0)
396 {
397 if ((Res = BoolCompare(Me->IsMissing(A),
398 Me->IsMissing(B))) != 0)
399 return Res;
400 }*/
401
402 if (A.State() != pkgCache::PkgIterator::NeedsNothing &&
403 B.State() == pkgCache::PkgIterator::NeedsNothing)
404 return -1;
405
406 if (A.State() == pkgCache::PkgIterator::NeedsNothing &&
407 B.State() != pkgCache::PkgIterator::NeedsNothing)
408 return 1;
409
410 int ScoreA = Me->Score(A);
411 int ScoreB = Me->Score(B);
412
413 if (ScoreA > ScoreB)
414 return -1;
415
416 if (ScoreA < ScoreB)
417 return 1;
418
419 return strcmp(A.Name(),B.Name());
420 }
421 /*}}}*/
422 // OrderList::OrderCompareB - Order the installation by source /*{{{*/
423 // ---------------------------------------------------------------------
424 /* This orders by installation source. This is useful to handle
425 inter-source breaks */
426 int pkgOrderList::OrderCompareB(const void *a, const void *b)
427 {
428 PkgIterator A(Me->Cache,*(Package **)a);
429 PkgIterator B(Me->Cache,*(Package **)b);
430
431 if (A.State() != pkgCache::PkgIterator::NeedsNothing &&
432 B.State() == pkgCache::PkgIterator::NeedsNothing)
433 return -1;
434
435 if (A.State() == pkgCache::PkgIterator::NeedsNothing &&
436 B.State() != pkgCache::PkgIterator::NeedsNothing)
437 return 1;
438
439 int F = Me->FileCmp(A,B);
440 if (F != 0)
441 {
442 if (F > 0)
443 return -1;
444 return 1;
445 }
446
447 int ScoreA = Me->Score(A);
448 int ScoreB = Me->Score(B);
449
450 if (ScoreA > ScoreB)
451 return -1;
452
453 if (ScoreA < ScoreB)
454 return 1;
455
456 return strcmp(A.Name(),B.Name());
457 }
458 /*}}}*/
459 // OrderList::VisitDeps - Visit forward install dependencies /*{{{*/
460 // ---------------------------------------------------------------------
461 /* This calls the dependency function for the normal forwards dependencies
462 of the package */
463 bool pkgOrderList::VisitDeps(DepFunc F,PkgIterator Pkg)
464 {
465 if (F == 0 || Pkg.end() == true || Cache[Pkg].InstallVer == 0)
466 return true;
467
468 return (this->*F)(Cache[Pkg].InstVerIter(Cache).DependsList());
469 }
470 /*}}}*/
471 // OrderList::VisitRDeps - Visit reverse dependencies /*{{{*/
472 // ---------------------------------------------------------------------
473 /* This calls the dependency function for all of the normal reverse depends
474 of the package */
475 bool pkgOrderList::VisitRDeps(DepFunc F,PkgIterator Pkg)
476 {
477 if (F == 0 || Pkg.end() == true)
478 return true;
479
480 return (this->*F)(Pkg.RevDependsList());
481 }
482 /*}}}*/
483 // OrderList::VisitRProvides - Visit provides reverse dependencies /*{{{*/
484 // ---------------------------------------------------------------------
485 /* This calls the dependency function for all reverse dependencies
486 generated by the provides line on the package. */
487 bool pkgOrderList::VisitRProvides(DepFunc F,VerIterator Ver)
488 {
489 if (F == 0 || Ver.end() == true)
490 return true;
491
492 bool Res = true;
493 for (PrvIterator P = Ver.ProvidesList(); P.end() == false; P++)
494 Res &= (this->*F)(P.ParentPkg().RevDependsList());
495 return true;
496 }
497 /*}}}*/
498 // OrderList::VisitProvides - Visit all of the providing packages /*{{{*/
499 // ---------------------------------------------------------------------
500 /* This routine calls visit on all providing packages. */
501 bool pkgOrderList::VisitProvides(DepIterator D,bool Critical)
502 {
503 SPtrArray<Version *> List = D.AllTargets();
504 for (Version **I = List; *I != 0; I++)
505 {
506 VerIterator Ver(Cache,*I);
507 PkgIterator Pkg = Ver.ParentPkg();
508
509 if (Cache[Pkg].Keep() == true && Pkg.State() == PkgIterator::NeedsNothing)
510 continue;
511
512 if (D->Type != pkgCache::Dep::Conflicts &&
513 D->Type != pkgCache::Dep::DpkgBreaks &&
514 D->Type != pkgCache::Dep::Obsoletes &&
515 Cache[Pkg].InstallVer != *I)
516 continue;
517
518 if ((D->Type == pkgCache::Dep::Conflicts ||
519 D->Type == pkgCache::Dep::DpkgBreaks ||
520 D->Type == pkgCache::Dep::Obsoletes) &&
521 (Version *)Pkg.CurrentVer() != *I)
522 continue;
523
524 // Skip over missing files
525 if (Critical == false && IsMissing(D.ParentPkg()) == true)
526 continue;
527
528 if (VisitNode(Pkg) == false)
529 return false;
530 }
531 return true;
532 }
533 /*}}}*/
534 // OrderList::VisitNode - Recursive ordering director /*{{{*/
535 // ---------------------------------------------------------------------
536 /* This is the core ordering routine. It calls the set dependency
537 consideration functions which then potentialy call this again. Finite
538 depth is achived through the colouring mechinism. */
539 bool pkgOrderList::VisitNode(PkgIterator Pkg)
540 {
541 // Looping or irrelevent.
542 // This should probably trancend not installed packages
543 if (Pkg.end() == true || IsFlag(Pkg,Added) == true ||
544 IsFlag(Pkg,AddPending) == true || IsFlag(Pkg,InList) == false)
545 return true;
546
547 if (Debug == true)
548 {
549 for (int j = 0; j != Depth; j++) clog << ' ';
550 clog << "Visit " << Pkg.Name() << endl;
551 }
552
553 Depth++;
554
555 // Color grey
556 Flag(Pkg,AddPending);
557
558 DepFunc Old = Primary;
559
560 // Perform immedate configuration of the package if so flagged.
561 if (IsFlag(Pkg,Immediate) == true && Primary != &pkgOrderList::DepUnPackPre)
562 Primary = &pkgOrderList::DepUnPackPreD;
563
564 if (IsNow(Pkg) == true)
565 {
566 bool Res = true;
567 if (Cache[Pkg].Delete() == false)
568 {
569 // Primary
570 Res &= Res && VisitDeps(Primary,Pkg);
571 Res &= Res && VisitRDeps(Primary,Pkg);
572 Res &= Res && VisitRProvides(Primary,Pkg.CurrentVer());
573 Res &= Res && VisitRProvides(Primary,Cache[Pkg].InstVerIter(Cache));
574
575 // RevDep
576 Res &= Res && VisitRDeps(RevDepends,Pkg);
577 Res &= Res && VisitRProvides(RevDepends,Pkg.CurrentVer());
578 Res &= Res && VisitRProvides(RevDepends,Cache[Pkg].InstVerIter(Cache));
579
580 // Secondary
581 Res &= Res && VisitDeps(Secondary,Pkg);
582 Res &= Res && VisitRDeps(Secondary,Pkg);
583 Res &= Res && VisitRProvides(Secondary,Pkg.CurrentVer());
584 Res &= Res && VisitRProvides(Secondary,Cache[Pkg].InstVerIter(Cache));
585 }
586 else
587 {
588 // RevDep
589 Res &= Res && VisitRDeps(Remove,Pkg);
590 Res &= Res && VisitRProvides(Remove,Pkg.CurrentVer());
591 }
592 }
593
594 if (IsFlag(Pkg,Added) == false)
595 {
596 Flag(Pkg,Added,Added | AddPending);
597 if (IsFlag(Pkg,After) == true)
598 *AfterEnd++ = Pkg;
599 else
600 *End++ = Pkg;
601 }
602
603 Primary = Old;
604 Depth--;
605
606 if (Debug == true)
607 {
608 for (int j = 0; j != Depth; j++) clog << ' ';
609 clog << "Leave " << Pkg.Name() << ' ' << IsFlag(Pkg,Added) << ',' << IsFlag(Pkg,AddPending) << endl;
610 }
611
612 return true;
613 }
614 /*}}}*/
615 // OrderList::DepUnPackCrit - Critical UnPacking ordering /*{{{*/
616 // ---------------------------------------------------------------------
617 /* Critical unpacking ordering strives to satisfy Conflicts: and
618 PreDepends: only. When a prdepends is encountered the Primary
619 DepFunc is changed to be DepUnPackPreD.
620
621 Loops are preprocessed and logged. */
622 bool pkgOrderList::DepUnPackCrit(DepIterator D)
623 {
624 for (; D.end() == false; D++)
625 {
626 if (D.Reverse() == true)
627 {
628 /* Reverse depenanices are only interested in conflicts,
629 predepend breakage is ignored here */
630 if (D->Type != pkgCache::Dep::Conflicts &&
631 D->Type != pkgCache::Dep::Obsoletes)
632 continue;
633
634 // Duplication elimination, consider only the current version
635 if (D.ParentPkg().CurrentVer() != D.ParentVer())
636 continue;
637
638 /* For reverse dependencies we wish to check if the
639 dependency is satisifed in the install state. The
640 target package (caller) is going to be in the installed
641 state. */
642 if (CheckDep(D) == true)
643 continue;
644
645 if (VisitNode(D.ParentPkg()) == false)
646 return false;
647 }
648 else
649 {
650 /* Forward critical dependencies MUST be correct before the
651 package can be unpacked. */
652 if (D->Type != pkgCache::Dep::Conflicts &&
653 D->Type != pkgCache::Dep::DpkgBreaks &&
654 D->Type != pkgCache::Dep::Obsoletes &&
655 D->Type != pkgCache::Dep::PreDepends)
656 continue;
657
658 /* We wish to check if the dep is okay in the now state of the
659 target package against the install state of this package. */
660 if (CheckDep(D) == true)
661 {
662 /* We want to catch predepends loops with the code below.
663 Conflicts loops that are Dep OK are ignored */
664 if (IsFlag(D.TargetPkg(),AddPending) == false ||
665 D->Type != pkgCache::Dep::PreDepends)
666 continue;
667 }
668
669 // This is the loop detection
670 if (IsFlag(D.TargetPkg(),Added) == true ||
671 IsFlag(D.TargetPkg(),AddPending) == true)
672 {
673 if (IsFlag(D.TargetPkg(),AddPending) == true)
674 AddLoop(D);
675 continue;
676 }
677
678 /* Predepends require a special ordering stage, they must have
679 all dependents installed as well */
680 DepFunc Old = Primary;
681 bool Res = false;
682 if (D->Type == pkgCache::Dep::PreDepends)
683 Primary = &pkgOrderList::DepUnPackPreD;
684 Res = VisitProvides(D,true);
685 Primary = Old;
686 if (Res == false)
687 return false;
688 }
689 }
690 return true;
691 }
692 /*}}}*/
693 // OrderList::DepUnPackPreD - Critical UnPacking ordering with depends /*{{{*/
694 // ---------------------------------------------------------------------
695 /* Critical PreDepends (also configure immediate and essential) strives to
696 ensure not only that all conflicts+predepends are met but that this
697 package will be immediately configurable when it is unpacked.
698 Loops are preprocessed and logged. */
699 bool pkgOrderList::DepUnPackPreD(DepIterator D)
700 {
701 if (D.Reverse() == true)
702 return DepUnPackCrit(D);
703
704 for (; D.end() == false; D++)
705 {
706 if (D.IsCritical() == false)
707 continue;
708
709 /* We wish to check if the dep is okay in the now state of the
710 target package against the install state of this package. */
711 if (CheckDep(D) == true)
712 {
713 /* We want to catch predepends loops with the code below.
714 Conflicts loops that are Dep OK are ignored */
715 if (IsFlag(D.TargetPkg(),AddPending) == false ||
716 D->Type != pkgCache::Dep::PreDepends)
717 continue;
718 }
719
720 // This is the loop detection
721 if (IsFlag(D.TargetPkg(),Added) == true ||
722 IsFlag(D.TargetPkg(),AddPending) == true)
723 {
724 if (IsFlag(D.TargetPkg(),AddPending) == true)
725 AddLoop(D);
726 continue;
727 }
728
729 if (VisitProvides(D,true) == false)
730 return false;
731 }
732 return true;
733 }
734 /*}}}*/
735 // OrderList::DepUnPackPre - Critical Predepends ordering /*{{{*/
736 // ---------------------------------------------------------------------
737 /* Critical PreDepends (also configure immediate and essential) strives to
738 ensure not only that all conflicts+predepends are met but that this
739 package will be immediately configurable when it is unpacked.
740
741 Loops are preprocessed and logged. All loops will be fatal. */
742 bool pkgOrderList::DepUnPackPre(DepIterator D)
743 {
744 if (D.Reverse() == true)
745 return true;
746
747 for (; D.end() == false; D++)
748 {
749 /* Only consider the PreDepends or Depends. Depends are only
750 considered at the lowest depth or in the case of immediate
751 configure */
752 if (D->Type != pkgCache::Dep::PreDepends)
753 {
754 if (D->Type == pkgCache::Dep::Depends)
755 {
756 if (Depth == 1 && IsFlag(D.ParentPkg(),Immediate) == false)
757 continue;
758 }
759 else
760 continue;
761 }
762
763 /* We wish to check if the dep is okay in the now state of the
764 target package against the install state of this package. */
765 if (CheckDep(D) == true)
766 {
767 /* We want to catch predepends loops with the code below.
768 Conflicts loops that are Dep OK are ignored */
769 if (IsFlag(D.TargetPkg(),AddPending) == false)
770 continue;
771 }
772
773 // This is the loop detection
774 if (IsFlag(D.TargetPkg(),Added) == true ||
775 IsFlag(D.TargetPkg(),AddPending) == true)
776 {
777 if (IsFlag(D.TargetPkg(),AddPending) == true)
778 AddLoop(D);
779 continue;
780 }
781
782 if (VisitProvides(D,true) == false)
783 return false;
784 }
785 return true;
786 }
787 /*}}}*/
788 // OrderList::DepUnPackDep - Reverse dependency considerations /*{{{*/
789 // ---------------------------------------------------------------------
790 /* Reverse dependencies are considered to determine if unpacking this
791 package will break any existing dependencies. If so then those
792 packages are ordered before this one so that they are in the
793 UnPacked state.
794
795 The forwards depends loop is designed to bring the packages dependents
796 close to the package. This helps reduce deconfigure time.
797
798 Loops are irrelevent to this. */
799 bool pkgOrderList::DepUnPackDep(DepIterator D)
800 {
801
802 for (; D.end() == false; D++)
803 if (D.IsCritical() == true)
804 {
805 if (D.Reverse() == true)
806 {
807 /* Duplication prevention. We consider rev deps only on
808 the current version, a not installed package
809 cannot break */
810 if (D.ParentPkg()->CurrentVer == 0 ||
811 D.ParentPkg().CurrentVer() != D.ParentVer())
812 continue;
813
814 // The dep will not break so it is irrelevent.
815 if (CheckDep(D) == true)
816 continue;
817
818 // Skip over missing files
819 if (IsMissing(D.ParentPkg()) == true)
820 continue;
821
822 if (VisitNode(D.ParentPkg()) == false)
823 return false;
824 }
825 else
826 {
827 if (D->Type == pkgCache::Dep::Depends)
828 if (VisitProvides(D,false) == false)
829 return false;
830
831 if (D->Type == pkgCache::Dep::DpkgBreaks)
832 {
833 if (CheckDep(D) == true)
834 continue;
835
836 if (VisitNode(D.TargetPkg()) == false)
837 return false;
838 }
839 }
840 }
841 return true;
842 }
843 /*}}}*/
844 // OrderList::DepConfigure - Configuration ordering /*{{{*/
845 // ---------------------------------------------------------------------
846 /* Configuration only ordering orders by the Depends: line only. It
847 orders configuration so that when a package comes to be configured it's
848 dependents are configured.
849
850 Loops are ingored. Depends loop entry points are chaotic. */
851 bool pkgOrderList::DepConfigure(DepIterator D)
852 {
853 // Never consider reverse configuration dependencies.
854 if (D.Reverse() == true)
855 return true;
856
857 for (; D.end() == false; D++)
858 if (D->Type == pkgCache::Dep::Depends)
859 if (VisitProvides(D,false) == false)
860 return false;
861 return true;
862 }
863 /*}}}*/
864 // OrderList::DepRemove - Removal ordering /*{{{*/
865 // ---------------------------------------------------------------------
866 /* Removal visits all reverse depends. It considers if the dependency
867 of the Now state version to see if it is okay with removing this
868 package. This check should always fail, but is provided for symetery
869 with the other critical handlers.
870
871 Loops are preprocessed and logged. Removal loops can also be
872 detected in the critical handler. They are characterized by an
873 old version of A depending on B but the new version of A conflicting
874 with B, thus either A or B must break to install. */
875 bool pkgOrderList::DepRemove(DepIterator D)
876 {
877 if (D.Reverse() == false)
878 return true;
879 for (; D.end() == false; D++)
880 if (D->Type == pkgCache::Dep::Depends || D->Type == pkgCache::Dep::PreDepends)
881 {
882 // Duplication elimination, consider the current version only
883 if (D.ParentPkg().CurrentVer() != D.ParentVer())
884 continue;
885
886 /* We wish to see if the dep on the parent package is okay
887 in the removed (install) state of the target pkg. */
888 if (CheckDep(D) == true)
889 {
890 // We want to catch loops with the code below.
891 if (IsFlag(D.ParentPkg(),AddPending) == false)
892 continue;
893 }
894
895 // This is the loop detection
896 if (IsFlag(D.ParentPkg(),Added) == true ||
897 IsFlag(D.ParentPkg(),AddPending) == true)
898 {
899 if (IsFlag(D.ParentPkg(),AddPending) == true)
900 AddLoop(D);
901 continue;
902 }
903
904 // Skip over missing files
905 if (IsMissing(D.ParentPkg()) == true)
906 continue;
907
908 if (VisitNode(D.ParentPkg()) == false)
909 return false;
910 }
911
912 return true;
913 }
914 /*}}}*/
915 // OrderList::AddLoop - Add a loop to the loop list /*{{{*/
916 // ---------------------------------------------------------------------
917 /* We record the loops. This is a relic since loop breaking is done
918 genericaly as part of the safety routines. */
919 bool pkgOrderList::AddLoop(DepIterator D)
920 {
921 if (LoopCount < 0 || LoopCount >= 20)
922 return false;
923
924 // Skip dups
925 if (LoopCount != 0)
926 {
927 if (Loops[LoopCount - 1].ParentPkg() == D.ParentPkg() ||
928 Loops[LoopCount - 1].TargetPkg() == D.ParentPkg())
929 return true;
930 }
931
932 Loops[LoopCount++] = D;
933
934 // Mark the packages as being part of a loop.
935 Flag(D.TargetPkg(),Loop);
936 Flag(D.ParentPkg(),Loop);
937 return true;
938 }
939 /*}}}*/
940 // OrderList::WipeFlags - Unset the given flags from all packages /*{{{*/
941 // ---------------------------------------------------------------------
942 /* */
943 void pkgOrderList::WipeFlags(unsigned long F)
944 {
945 unsigned long Size = Cache.Head().PackageCount;
946 for (unsigned long I = 0; I != Size; I++)
947 Flags[I] &= ~F;
948 }
949 /*}}}*/
950 // OrderList::CheckDep - Check a dependency for truth /*{{{*/
951 // ---------------------------------------------------------------------
952 /* This performs a complete analysis of the dependency wrt to the
953 current add list. It returns true if after all events are
954 performed it is still true. This sort of routine can be approximated
955 by examining the DepCache, however in convoluted cases of provides
956 this fails to produce a suitable result. */
957 bool pkgOrderList::CheckDep(DepIterator D)
958 {
959 SPtrArray<Version *> List = D.AllTargets();
960 bool Hit = false;
961 for (Version **I = List; *I != 0; I++)
962 {
963 VerIterator Ver(Cache,*I);
964 PkgIterator Pkg = Ver.ParentPkg();
965
966 /* The meaning of Added and AddPending is subtle. AddPending is
967 an indication that the package is looping. Because of the
968 way ordering works Added means the package will be unpacked
969 before this one and AddPending means after. It is therefore
970 correct to ignore AddPending in all cases, but that exposes
971 reverse-ordering loops which should be ignored. */
972 if (IsFlag(Pkg,Added) == true ||
973 (IsFlag(Pkg,AddPending) == true && D.Reverse() == true))
974 {
975 if (Cache[Pkg].InstallVer != *I)
976 continue;
977 }
978 else
979 if ((Version *)Pkg.CurrentVer() != *I ||
980 Pkg.State() != PkgIterator::NeedsNothing)
981 continue;
982
983 /* Conflicts requires that all versions are not present, depends
984 just needs one */
985 if (D->Type != pkgCache::Dep::Conflicts &&
986 D->Type != pkgCache::Dep::DpkgBreaks &&
987 D->Type != pkgCache::Dep::Obsoletes)
988 {
989 /* Try to find something that does not have the after flag set
990 if at all possible */
991 if (IsFlag(Pkg,After) == true)
992 {
993 Hit = true;
994 continue;
995 }
996
997 return true;
998 }
999 else
1000 {
1001 if (IsFlag(Pkg,After) == true)
1002 Flag(D.ParentPkg(),After);
1003
1004 return false;
1005 }
1006 }
1007
1008 // We found a hit, but it had the after flag set
1009 if (Hit == true && D->Type == pkgCache::Dep::PreDepends)
1010 {
1011 Flag(D.ParentPkg(),After);
1012 return true;
1013 }
1014
1015 /* Conflicts requires that all versions are not present, depends
1016 just needs one */
1017 if (D->Type == pkgCache::Dep::Conflicts ||
1018 D->Type == pkgCache::Dep::Obsoletes)
1019 return true;
1020 return false;
1021 }
1022 /*}}}*/