/* * dselect - Debian package maintenance user interface * pkglist.cc - package list administration * * Copyright © 1995 Ian Jackson * Copyright © 2001 Wichert Akkerman * Copyright © 2008-2014 Guillem Jover * * This is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include "dselect.h" #include "bindings.h" int packagelist::compareentries(const struct perpackagestate *a, const struct perpackagestate *b) { switch (statsortorder) { case sso_avail: if (a->ssavail != b->ssavail) return a->ssavail - b->ssavail; break; case sso_state: if (a->ssstate != b->ssstate) return a->ssstate - b->ssstate; break; case sso_unsorted: break; default: internerr("unknown statsortorder %d", statsortorder); } const char *asection= a->pkg->section; if (!asection && a->pkg->set->name) asection = ""; const char *bsection= b->pkg->section; if (!bsection && b->pkg->set->name) bsection = ""; int c_section= !asection || !bsection ? (!bsection) - (!asection) : !*asection || !*bsection ? (!*asection) - (!*bsection) : strcasecmp(asection,bsection); int c_priority= a->pkg->priority - b->pkg->priority; if (!c_priority && a->pkg->priority == PKG_PRIO_OTHER) c_priority= strcasecmp(a->pkg->otherpriority, b->pkg->otherpriority); int c_name= a->pkg->set->name && b->pkg->set->name ? strcasecmp(a->pkg->set->name, b->pkg->set->name) : (!b->pkg->set->name) - (!a->pkg->set->name); switch (sortorder) { case so_section: return c_section ? c_section : c_priority ? c_priority : c_name; case so_priority: return c_priority ? c_priority : c_section ? c_section : c_name; case so_alpha: return c_name; case so_unsorted: default: internerr("unsorted or unknown sort %d", sortorder); } /* never reached, make gcc happy */ return 1; } void packagelist::discardheadings() { int a,b; for (a=0, b=0; apkg->set->name) { table[b++]= table[a]; } } nitems= b; struct perpackagestate *head, *next; head= headings; while (head) { next= head->uprec; delete head->pkg->set; delete head; head= next; } headings = nullptr; } void packagelist::addheading(enum ssavailval ssavail, enum ssstateval ssstate, pkgpriority priority, const char *otherpriority, const char *section) { assert(nitems <= nallocated); if (nitems == nallocated) { nallocated += nallocated+50; struct perpackagestate **newtable= new struct perpackagestate*[nallocated]; memcpy(newtable, table, nallocated * sizeof(struct perpackagestate *)); delete[] table; table= newtable; } debug(dbg_general, "packagelist[%p]::addheading(%d,%d,%d,%s,%s)", this, ssavail, ssstate, priority, otherpriority ? otherpriority : "", section ? section : ""); struct pkgset *newset = new pkgset; newset->name = nullptr; struct pkginfo *newhead = &newset->pkg; newhead->set = newset; newhead->priority= priority; newhead->otherpriority= otherpriority; newhead->section= section; struct perpackagestate *newstate= new perpackagestate; newstate->pkg= newhead; newstate->uprec= headings; headings= newstate; newstate->ssavail= ssavail; newstate->ssstate= ssstate; newhead->clientdata= newstate; table[nitems++]= newstate; } static packagelist *sortpackagelist; int qsort_compareentries(const void *a, const void *b) { return sortpackagelist->compareentries(*(const struct perpackagestate **)a, *(const struct perpackagestate **)b); } void packagelist::sortinplace() { sortpackagelist= this; debug(dbg_general, "packagelist[%p]::sortinplace()", this); qsort(table, nitems, sizeof(struct pkgbin *), qsort_compareentries); } void packagelist::ensurestatsortinfo() { const struct dpkg_version *veri; const struct dpkg_version *vera; struct pkginfo *pkg; int index; debug(dbg_general, "packagelist[%p]::ensurestatsortinfos() sortorder=%d nitems=%d", this, statsortorder, nitems); switch (statsortorder) { case sso_unsorted: debug(dbg_general, "packagelist[%p]::ensurestatsortinfos() unsorted", this); return; case sso_avail: debug(dbg_general, "packagelist[%p]::ensurestatsortinfos() calcssadone=%d", this, calcssadone); if (calcssadone) return; for (index=0; index < nitems; index++) { debug(dbg_general, "packagelist[%p]::ensurestatsortinfos() i=%d pkg=%s", this, index, pkg_name(table[index]->pkg, pnaw_always)); pkg= table[index]->pkg; switch (pkg->status) { case PKG_STAT_UNPACKED: case PKG_STAT_HALFCONFIGURED: case PKG_STAT_HALFINSTALLED: case PKG_STAT_TRIGGERSAWAITED: case PKG_STAT_TRIGGERSPENDING: table[index]->ssavail= ssa_broken; break; case PKG_STAT_NOTINSTALLED: case PKG_STAT_CONFIGFILES: if (!dpkg_version_is_informative(&pkg->available.version)) { table[index]->ssavail= ssa_notinst_gone; // FIXME: Disable for now as a workaround, until dselect knows how to properly // store seen packages. #if 0 } else if (table[index]->original == PKG_WANT_UNKNOWN) { table[index]->ssavail= ssa_notinst_unseen; #endif } else { table[index]->ssavail= ssa_notinst_seen; } break; case PKG_STAT_INSTALLED: veri= &table[index]->pkg->installed.version; vera= &table[index]->pkg->available.version; if (!dpkg_version_is_informative(vera)) { table[index]->ssavail= ssa_installed_gone; } else if (dpkg_version_compare(vera, veri) > 0) { table[index]->ssavail= ssa_installed_newer; } else { table[index]->ssavail= ssa_installed_sameold; } break; default: internerr("unknown status %d on sso_avail", pkg->status); } debug(dbg_general, "packagelist[%p]::ensurestatsortinfos() i=%d ssavail=%d", this, index, table[index]->ssavail); } calcssadone = true; break; case sso_state: debug(dbg_general, "packagelist[%p]::ensurestatsortinfos() calcsssdone=%d", this, calcsssdone); if (calcsssdone) return; for (index=0; index < nitems; index++) { debug(dbg_general, "packagelist[%p]::ensurestatsortinfos() i=%d pkg=%s", this, index, pkg_name(table[index]->pkg, pnaw_always)); switch (table[index]->pkg->status) { case PKG_STAT_UNPACKED: case PKG_STAT_HALFCONFIGURED: case PKG_STAT_HALFINSTALLED: case PKG_STAT_TRIGGERSAWAITED: case PKG_STAT_TRIGGERSPENDING: table[index]->ssstate= sss_broken; break; case PKG_STAT_NOTINSTALLED: table[index]->ssstate= sss_notinstalled; break; case PKG_STAT_CONFIGFILES: table[index]->ssstate= sss_configfiles; break; case PKG_STAT_INSTALLED: table[index]->ssstate= sss_installed; break; default: internerr("unknown status %d on sso_state", table[index]->pkg->status); } debug(dbg_general, "packagelist[%p]::ensurestatsortinfos() i=%d ssstate=%d", this, index, table[index]->ssstate); } calcsssdone = true; break; default: internerr("unknown statsortorder %d", statsortorder); } } void packagelist::sortmakeheads() { discardheadings(); ensurestatsortinfo(); sortinplace(); assert(nitems); debug(dbg_general, "packagelist[%p]::sortmakeheads() sortorder=%d statsortorder=%d", this, sortorder, statsortorder); int nrealitems= nitems; addheading(ssa_none, sss_none, PKG_PRIO_UNSET, nullptr, nullptr); assert(sortorder != so_unsorted); if (sortorder == so_alpha && statsortorder == sso_unsorted) { sortinplace(); return; } // Important: do not save pointers into table in this function, because // addheading may need to reallocate table to make it larger ! struct pkginfo *lastpkg; struct pkginfo *thispkg; lastpkg = nullptr; int a; for (a=0; apkg; assert(thispkg->set->name); int ssdiff= 0; ssavailval ssavail= ssa_none; ssstateval ssstate= sss_none; switch (statsortorder) { case sso_avail: ssavail= thispkg->clientdata->ssavail; ssdiff= (!lastpkg || ssavail != lastpkg->clientdata->ssavail); break; case sso_state: ssstate= thispkg->clientdata->ssstate; ssdiff= (!lastpkg || ssstate != lastpkg->clientdata->ssstate); break; case sso_unsorted: break; default: internerr("unknown statsortorder %d", statsortorder); } int prioritydiff= (!lastpkg || thispkg->priority != lastpkg->priority || (thispkg->priority == PKG_PRIO_OTHER && strcasecmp(thispkg->otherpriority,lastpkg->otherpriority))); int sectiondiff= (!lastpkg || strcasecmp(thispkg->section ? thispkg->section : "", lastpkg->section ? lastpkg->section : "")); debug(dbg_general, "packagelist[%p]::sortmakeheads() pkg=%s state=%d avail=%d %s " "priority=%d otherpriority=%s %s section=%s %s", this, pkg_name(thispkg, pnaw_always), thispkg->clientdata->ssavail, thispkg->clientdata->ssstate, ssdiff ? "*diff" : "same", thispkg->priority, thispkg->priority != PKG_PRIO_OTHER ? "" : thispkg->otherpriority ? thispkg->otherpriority : "", prioritydiff ? "*diff*" : "same", thispkg->section ? thispkg->section : "", sectiondiff ? "*diff*" : "same"); if (ssdiff) addheading(ssavail,ssstate, PKG_PRIO_UNSET, nullptr, nullptr); if (sortorder == so_section && sectiondiff) addheading(ssavail,ssstate, PKG_PRIO_UNSET, nullptr, thispkg->section ? thispkg->section : ""); if (sortorder == so_priority && prioritydiff) addheading(ssavail,ssstate, thispkg->priority, thispkg->otherpriority, nullptr); if (sortorder != so_alpha && (prioritydiff || sectiondiff)) addheading(ssavail,ssstate, thispkg->priority,thispkg->otherpriority, thispkg->section ? thispkg->section : ""); lastpkg= thispkg; } if (listpad) { werase(listpad); } sortinplace(); } void packagelist::initialsetup() { debug(dbg_general, "packagelist[%p]::initialsetup()", this); int allpackages = pkg_db_count_pkg(); datatable= new struct perpackagestate[allpackages]; nallocated= allpackages+150; // will realloc if necessary, so 150 not critical table= new struct perpackagestate*[nallocated]; depsdone = nullptr; unavdone = nullptr; currentinfo = nullptr; headings = nullptr; verbose = false; calcssadone = calcsssdone = false; searchdescr = false; } void packagelist::finalsetup() { setcursor(0); debug(dbg_general, "packagelist[%p]::finalsetup done; recursive=%d nitems=%d", this, recursive, nitems); } packagelist::packagelist(keybindings *kb) : baselist(kb) { // nonrecursive initialsetup(); struct pkgiterator *iter; struct pkginfo *pkg; nitems = 0; iter = pkg_db_iter_new(); while ((pkg = pkg_db_iter_next_pkg(iter))) { struct perpackagestate *state= &datatable[nitems]; state->pkg= pkg; if (pkg->status == PKG_STAT_NOTINSTALLED && !pkg->files && pkg->want != PKG_WANT_INSTALL) { pkg->clientdata = nullptr; continue; } // treat all unknown packages as already seen state->direct = state->original = (pkg->want == PKG_WANT_UNKNOWN ? PKG_WANT_PURGE : pkg->want); if (modstatdb_get_status() == msdbrw_write && state->original == PKG_WANT_UNKNOWN) { state->suggested= pkg->status == PKG_STAT_INSTALLED || pkg->priority <= PKG_PRIO_STANDARD /* FIXME: configurable */ ? PKG_WANT_INSTALL : PKG_WANT_PURGE; state->spriority= sp_inherit; } else { state->suggested= state->original; state->spriority= sp_fixed; } state->dpriority= dp_must; state->selected= state->suggested; state->uprec = nullptr; state->relations.init(); pkg->clientdata= state; table[nitems]= state; nitems++; } pkg_db_iter_free(iter); if (!nitems) ohshit(_("there are no packages")); recursive = false; sortorder= so_priority; statsortorder= sso_avail; archdisplayopt = ado_both; versiondisplayopt= vdo_both; sortmakeheads(); finalsetup(); } packagelist::packagelist(keybindings *kb, pkginfo **pkgltab) : baselist(kb) { // takes over responsibility for pkgltab (recursive) initialsetup(); recursive = true; nitems= 0; if (pkgltab) { add(pkgltab); delete[] pkgltab; } sortorder= so_unsorted; statsortorder= sso_unsorted; archdisplayopt = ado_none; versiondisplayopt= vdo_none; finalsetup(); } void perpackagestate::free(bool recursive) { if (pkg->set->name) { if (modstatdb_get_status() == msdbrw_write) { if (uprec) { assert(recursive); uprec->selected= selected; pkg->clientdata= uprec; } else { assert(!recursive); if (pkg->want != selected && !(pkg->want == PKG_WANT_UNKNOWN && selected == PKG_WANT_PURGE)) { pkg->want= selected; } pkg->clientdata = nullptr; } } relations.destroy(); } } packagelist::~packagelist() { debug(dbg_general, "packagelist[%p]::~packagelist()", this); if (searchstring[0]) regfree(&searchfsm); discardheadings(); int index; for (index=0; indexfree(recursive); delete[] table; delete[] datatable; debug(dbg_general, "packagelist[%p]::~packagelist() tables freed", this); doneent *search, *next; for (search=depsdone; search; search=next) { next= search->next; delete search; } debug(dbg_general, "packagelist[%p]::~packagelist() done", this); } bool packagelist::checksearch(char *rx) { int rc, opt = REG_NOSUB; int pos; if (str_is_unset(rx)) return false; searchdescr = false; if (searchstring[0]) { regfree(&searchfsm); searchstring[0]=0; } /* look for search options */ for (pos = strlen(rx) - 1; pos >= 0; pos--) if ((rx[pos] == '/') && ((pos == 0) || (rx[pos - 1] != '\\'))) break; if (pos >= 0) { rx[pos++] = '\0'; if (strcspn(rx + pos, "di") != 0) { displayerror(_("invalid search option given")); return false; } while (rx[pos]) { if (rx[pos] == 'i') opt|=REG_ICASE; else if (rx[pos] == 'd') searchdescr = true; pos++; } } rc = regcomp(&searchfsm, rx, opt); if (rc != 0) { displayerror(_("error in regular expression")); return false; } return true; } bool packagelist::matchsearch(int index) { const char *name; name = itemname(index); if (!name) return false; /* Skip things without a name (seperators) */ if (regexec(&searchfsm, name, 0, nullptr, 0) == 0) return true; if (searchdescr) { const char *descr = table[index]->pkg->available.description; if (str_is_unset(descr)) return false; if (regexec(&searchfsm, descr, 0, nullptr, 0) == 0) return true; } return false; } pkginfo **packagelist::display() { // returns list of packages as null-terminated array, which becomes owned // by the caller, if a recursive check is desired. // returns 0 if no recursive check is desired. int response, index; const keybindings::interpretation *interp; pkginfo **retl; debug(dbg_general, "packagelist[%p]::display()", this); setupsigwinch(); startdisplay(); if (!expertmode) displayhelp(helpmenulist(),'i'); debug(dbg_general, "packagelist[%p]::display() entering loop", this); for (;;) { if (whatinfo_height) wcursyncup(whatinfowin); if (doupdate() == ERR) ohshite(_("doupdate failed")); signallist= this; sigwinch_mask(SIG_UNBLOCK); do response= getch(); while (response == ERR && errno == EINTR); sigwinch_mask(SIG_BLOCK); if (response == ERR) ohshite(_("getch failed")); interp= (*bindings)(response); debug(dbg_general, "packagelist[%p]::display() response=%d interp=%s", this, response, interp ? interp->action : "[none]"); if (!interp) { beep(); continue; } (this->*(interp->pfn))(); if (interp->qa != qa_noquit) break; } pop_cleanup(ehflag_normaltidy); // unset the SIGWINCH handler enddisplay(); if (interp->qa == qa_quitnochecksave || modstatdb_get_status() == msdbrw_readonly) { debug(dbg_general, "packagelist[%p]::display() done - quitNOcheck", this); return nullptr; } if (recursive) { retl= new pkginfo*[nitems+1]; for (index=0; indexpkg; retl[nitems] = nullptr; debug(dbg_general, "packagelist[%p]::display() done, retl=%p", this, retl); return retl; } else { packagelist *sub = new packagelist(bindings, nullptr); for (index=0; index < nitems; index++) if (table[index]->pkg->set->name) sub->add(table[index]->pkg); repeatedlydisplay(sub,dp_must); debug(dbg_general, "packagelist[%p]::display() done, not recursive no retl", this); return nullptr; } }