Ejemplo n.º 1
0
static void assignment (LexState *ls, struct LHS_assign *lh, int nvars) {
  expdesc e;
  check_condition(ls, VLOCAL <= lh->v.k && lh->v.k <= VINDEXED,
                      "syntax error");
  if (testnext(ls, ',')) {  /* assignment -> `,' primaryexp assignment */
    struct LHS_assign nv;
    nv.prev = lh;
    primaryexp(ls, &nv.v);
    if (nv.v.k == VLOCAL)
      check_conflict(ls, lh, &nv.v);
    luaY_checklimit(ls->fs, nvars, LUAI_MAXCCALLS - ls->L->nCcalls,
                    "variables in assignment");
    assignment(ls, &nv, nvars+1);
  }
  else {  /* assignment -> `=' explist1 */
    int nexps;
      
      /* hook for inc_assignment */
      if(nvars==1) {
          switch(ls->t.token) {
              case '+': case '-': case '*': case '/': case TK_CONCAT:
                  inc_assignment(ls,lh);
                  /* If you're using Shook's table unpack patch, return 0 here.*/
                  return;
          }
      }
      
    checknext(ls, '=');
    nexps = explist1(ls, &e);
    if (nexps != nvars) {
      adjust_assign(ls, nvars, nexps, &e);
      if (nexps > nvars)
        ls->fs->freereg -= nexps - nvars;  /* remove extra values */
    }
    else {
      luaK_setoneret(ls->fs, &e);  /* close last expression */
      luaK_storevar(ls->fs, &lh->v, &e);
      return;  /* avoid default */
    }
  }
  init_exp(&e, VNONRELOC, ls->fs->freereg-1);  /* default assignment */
  luaK_storevar(ls->fs, &lh->v, &e);
}
Ejemplo n.º 2
0
void gen_chdr(FILE *fd,char *name)
  {
  struct rtype *r;
  struct regs *i;
  if(regs)
    close_reg();
  reduce_names(regs);
  simp_names(regs);
  fix_names(regs);
  fix_names1(regs);

  // Cheating here
  reduce_names((struct regs *)rtypes);
  simp_names((struct regs *)rtypes);
  fix_names((struct regs *)rtypes);
  fix_names1((struct regs *)rtypes);

  // Check for conflicting addresses
  check_conflict();

  fprintf(fd,"/* This file utomatically generated by vcsr */\n");
  fprintf(fd,"/* Do not edit: instead modify Verilog RTL */\n\n");
  fprintf(fd,"#include \"csrdef.h\"\n\n");

  for(r=rtypes;r;r=r->next)
    {
    struct field *f;
    fprintf(fd,"struct %s {\n",r->name);
    for(f=r->fields;f;f=f->next)
        if(f->iz_flag)
          fprintf(fd,"  %sInit(%s, %d, %d, 0x%x);\n",f->type,f->name,f->size,f->start,f->iz);
        else
          fprintf(fd,"  %s(%s, %d, %d);\n",f->type,f->name,f->size,f->start);
    fprintf(fd,"};\n\n");
    }
  fprintf(fd,"struct %s_t CHIP_COLLECTION {\n",name);
  for(i=regs;i;i=i->next)
    if(i->word_size)
      fprintf(fd,"  %s(%s[%d:%d], %s, 0x%x);\n",i->type,i->name,i->no_words,i->word_size,i->rtype ? i->rtype->name : "(undefined)",i->addr);
    else
      fprintf(fd,"  %s(%s, %s, 0x%x);\n",i->type,i->name,i->rtype ? i->rtype->name : "(undefined)",i->addr);
  fprintf(fd,"} %s;\n",name);
  }
Ejemplo n.º 3
0
void
total_store_order_test<store_order, load_order>::thread2fn(void)
{
	for (;;) {
		b_.store(1, store_order);
		int b = b_.load(load_order);
		int a = a_.load(load_order);
		
		barrier_.wait();
		
		vrfya2_ = a;
		vrfyb2_ = b;
		
		barrier_.wait();
		
		check_conflict();
		
		/* both threads synchronize via barriers, so either
		both threads must exit here, or they must both do
		another round, otherwise one of them will wait forever */
		if (terminate_threads_.load(boost::memory_order_relaxed)) for (;;) {
			int tmp = termination_consensus_.fetch_or(2, boost::memory_order_relaxed);
			
			if (tmp == 3)
				return;
			if (tmp & 4)
				break;
		}
		
		termination_consensus_.fetch_xor(4, boost::memory_order_relaxed);
		
		
		unsigned int delay = rand() % 10000;
		b_.store(0, boost::memory_order_relaxed);
		
		barrier_.wait();
		
		volatile int tmp;
		while(delay--) { tmp = delay; }
	}
}
Ejemplo n.º 4
0
int solve_sudoku(int sudoku[9][9], const int guess_in_progress) {
    int i, j, guess, solution[9][9], temp_sudoku[9][9];
    int success_status = 0;

    copy_sudoku(solution, sudoku);
    do {
        copy_sudoku(temp_sudoku, solution);
        for(i = 0; i < 9; ++i) {
            for(j = 0; j < 9; ++j) {
                if(solution[i][j] == 0) {
                    solution[i][j] = solve_at_xy(solution, i, j);
                }
            }
        }
    } while (match_sudoku(solution, temp_sudoku) != 0);

    for(i = 0; i < 9; ++i) {
        for(j = 0; j < 9; ++j) {
            if(solution[i][j] == 0) {
                if(guess_in_progress == TRUE) {
                    return ERROR;
                }
                success_status = 1;
                for(guess = 1; guess <= 9; ++guess) {
                    if (check_conflict(solution, guess, i, j)) {
                        continue;
                    }
                    copy_sudoku(temp_sudoku, solution);
                    temp_sudoku[i][j] = guess;
                    if (solve_sudoku(temp_sudoku, TRUE) != 0) {
                        continue;
                    }
                    copy_sudoku(solution, temp_sudoku);
                    success_status = 0;
                }
            }
        }
    }
    copy_sudoku(sudoku, solution);
    return success_status;
}
Ejemplo n.º 5
0
static void assignment(LexState* ls, struct LHS_assign* lh, int nvars)
{
	expdesc e;
	check_condition(ls, VLOCAL <= lh->v.k && lh->v.k <= VINDEXED,
			"syntax error");
	if (testnext(ls, ','))	  /* assignment -> `,' primaryexp assignment */
	{
		struct LHS_assign nv;
		nv.prev = lh;
		primaryexp(ls, &nv.v);
		if (nv.v.k == VLOCAL)
			check_conflict(ls, lh, &nv.v);
		luaY_checklimit(ls->fs, nvars, LUAI_MAXCCALLS - ls->L->nCcalls,
				"variables in assignment");
		assignment(ls, &nv, nvars + 1);
	}
	else	/* assignment -> `=' explist1 */
	{
		int nexps;
		checknext(ls, '=');
		nexps = explist1(ls, &e);
		if (nexps != nvars)
		{
			adjust_assign(ls, nvars, nexps, &e);
			if (nexps > nvars)
				ls->fs->freereg -= nexps - nvars;  /* remove extra values */
		}
		else
		{
			luaK_setoneret(ls->fs, &e);  /* close last expression */
			luaK_storevar(ls->fs, &lh->v, &e);
			return;	 /* avoid default */
		}
	}
	init_exp(&e, VNONRELOC, ls->fs->freereg - 1); /* default assignment */
	luaK_storevar(ls->fs, &lh->v, &e);
}
Ejemplo n.º 6
0
void process_archive(const char *filename) {
  static const struct TarFunctions tf = {
    tarfileread,
    tarobject, tarobject, tarobject, tarobject, tarobject
  };

  /* These need to be static so that we can pass their addresses to
   * push_cleanup as arguments to the cu_xxx routines; if an error occurs
   * we unwind the stack before processing the cleanup list, and these
   * variables had better still exist ...
   */
  static int p1[2];
  static char cidirtmpnambuf[L_tmpnam+100];
  static char *cidirbuf = NULL, *reasmbuf = NULL;
  static struct fileinlist *newconffiles, *newfileslist;
  static enum pkgstatus oldversionstatus;
  static struct varbuf infofnvb, fnvb, depprobwhy;
  static struct tarcontext tc;
  
  int c1, r, admindirlen, i, infodirlen, infodirbaseused, status;
  struct pkgiterator *it;
  struct pkginfo *pkg, *otherpkg, *divpkg;
  char *cidir, *cidirrest, *p;
  char *pfilenamebuf, conffilenamebuf[MAXCONFFILENAME];
  char *psize;
  const char *pfilename, *newinfofilename;
  struct fileinlist *newconff, **newconffileslastp;
  struct fileinlist *cfile;
  struct reversefilelistiter rlistit;
  struct conffile *searchconff, **iconffileslastp, *newiconff;
  struct filepackages *packageslump;
  struct dependency *dsearch, *newdeplist, **newdeplistlastp;
  struct dependency *newdep, *dep, *providecheck;
  struct deppossi *psearch, **newpossilastp, *possi, *newpossi, *pdep;
  FILE *conff;
  DIR *dsd;
  struct filenamenode *namenode;
  struct dirent *de;
  struct stat stab, oldfs;
  struct pkg_deconf_list *deconpil, *deconpiltemp;
  
  cleanup_pkg_failed= cleanup_conflictor_failed= 0;
  admindirlen= strlen(admindir);

  for (pfilename= filename ; pfilename && strlen(pfilename) > 30 &&
      strchr(pfilename,'/') != NULL ; pfilename++ )
    pfilename= strchr(pfilename,'/');
  if (pfilename && pfilename != filename) {
    pfilenamebuf= (char *)nfmalloc(strlen(pfilename)+5);
    strcpy(pfilenamebuf,".../");
    strcat(pfilenamebuf,pfilename);
    pfilename= pfilenamebuf;
  } else {
    pfilename= filename;
  }

  if (stat(filename,&stab)) ohshite(_("cannot access archive"));

  if (!f_noact) {
    /* We can't `tentatively-reassemble' packages. */
    if (!reasmbuf) {
      reasmbuf= m_malloc(admindirlen+sizeof(REASSEMBLETMP)+5);
      strcpy(reasmbuf,admindir);
      strcat(reasmbuf,"/" REASSEMBLETMP);
    }
    if (unlink(reasmbuf) && errno != ENOENT)
      ohshite(_("error ensuring `%.250s' doesn't exist"),reasmbuf);
    push_cleanup(cu_pathname, ~0, NULL, 0, 1, (void *)reasmbuf);
    c1= m_fork();
    if (!c1) {
      execlp(SPLITTER, SPLITTER, "-Qao", reasmbuf, filename, NULL);
      ohshite(_("failed to exec dpkg-split to see if it's part of a multiparter"));
    }
    while ((r= waitpid(c1,&status,0)) == -1 && errno == EINTR);
    if (r != c1) { onerr_abort++; ohshite(_("wait for dpkg-split failed")); }
    switch (WIFEXITED(status) ? WEXITSTATUS(status) : -1) {
    case 0:
      /* It was a part - is it complete ? */
      if (!stat(reasmbuf,&stab)) { /* Yes. */
        filename= reasmbuf;
        pfilename= _("reassembled package file");
        break;
      } else if (errno == ENOENT) { /* No.  That's it, we skip it. */
        return;
      }
    case 1:
      /* No, it wasn't a part. */
      break;
    default:
      checksubprocerr(status,SPLITTER,0);
    }
  }
  
  /* Verify the package. */
  if (!f_nodebsig && (stat(DEBSIGVERIFY, &stab)==0)) {
    printf(_("Authenticating %s ...\n"), filename);
    fflush(stdout);
    c1 = m_fork();
    if (!c1) {
      execl(DEBSIGVERIFY, DEBSIGVERIFY, "-q", filename, NULL);
      ohshite(_("failed to execl debsig-verify"));
    } else {
      int status;
      waitpid(c1, &status, 0);
      if (!(WIFEXITED(status) && WEXITSTATUS(status) == 0)) {
	if (! fc_badverify) {
	  ohshit(_("Verification on package %s failed!"), filename);
	} else {
	  fprintf(stderr, _("Verification on package %s failed,\nbut installing anyway as you requested.\n"), filename);
	}
      } else {
	printf(_("passed\n"));
      }
    }
  }
    

  if (f_noact) {
    cidir= cidirtmpnambuf;
    /* We use tmpnam here, not to get a unique filename, but to get a unique directory. */
    if (!tmpnam(cidir)) ohshite(_("unable to get unique filename for control info"));
    strcat(cidir,"/");
  } else {
    /* We want it to be on the same filesystem so that we can
     * use rename(2) to install the postinst &c.
     */
    if (!cidirbuf)
      cidirbuf= m_malloc(admindirlen+sizeof(CONTROLDIRTMP)+MAXCONTROLFILENAME+10);
    cidir= cidirbuf;
    strcpy(cidir,admindir);
    strcat(cidir, "/" CONTROLDIRTMP);
  }
  cidirrest= cidir + strlen(cidir);

  assert(*cidir && cidirrest[-1] == '/');
  cidirrest[-1] = '\0';
  ensure_pathname_nonexisting(cidir); cidirrest[-1]= '/';
  
  push_cleanup(cu_cidir, ~0, NULL, 0, 2, (void *)cidir, (void *)cidirrest);
  c1= m_fork();
  if (!c1) {
    cidirrest[-1] = '\0';
    execlp(BACKEND, BACKEND, "--control", filename, cidir, NULL);
    ohshite(_("failed to exec dpkg-deb to extract control information"));
  }
  waitsubproc(c1,BACKEND " --control",0);
  strcpy(cidirrest,CONTROLFILE);

  parsedb(cidir, pdb_recordavailable | pdb_rejectstatus | pdb_ignorefiles,
          &pkg,NULL,NULL);
  if (!pkg->files) {
    pkg->files= nfmalloc(sizeof(struct filedetails));
    pkg->files->next = NULL;
    pkg->files->name = pkg->files->msdosname = pkg->files->md5sum = NULL;
  }
  /* Always nfmalloc.  Otherwise, we may overwrite some other field(like md5sum). */
  psize = nfmalloc(30);
  sprintf(psize, "%lu", (unsigned long)stab.st_size);
  pkg->files->size = psize;

  if (cipaction->arg == act_avail) {
    printf(_("Recorded info about %s from %s.\n"),pkg->name,pfilename);
    pop_cleanup(ehflag_normaltidy);
    return;
  }

  if (pkg->available.architecture && *pkg->available.architecture &&
      strcmp(pkg->available.architecture,"all") &&
      strcmp(pkg->available.architecture,architecture))
    forcibleerr(fc_architecture,
                _("package architecture (%s) does not match system (%s)"),
                pkg->available.architecture,architecture);
    
  if (!pkg->installed.valid) blankpackageperfile(&pkg->installed);
  assert(pkg->available.valid);

  for (deconpil= deconfigure;
       deconpil;
       deconpil= deconpiltemp) {
    deconpiltemp= deconpil->next;
    free(deconpil);
  }
  deconfigure = NULL;
  clear_istobes();

  if (!wanttoinstall(pkg,&pkg->available.version,1)) {
      pop_cleanup(ehflag_normaltidy);
      return;
  }

  /* Check if anything is installed that we conflict with, or not installed
   * that we need */
  pkg->clientdata->istobe= itb_installnew;

  for (dsearch= pkg->available.depends; dsearch; dsearch= dsearch->next) {
    switch (dsearch->type) {
    case dep_conflicts:
      /* Look for things we conflict with. */
      check_conflict(dsearch, pkg, pfilename);
      break;
    case dep_breaks:
      /* Look for things we break. */
      check_breaks(dsearch, pkg, pfilename);
      break;
    case dep_provides:
      /* Look for things that conflict with what we provide. */
      if (dsearch->list->ed->installed.valid) {
        for (psearch= dsearch->list->ed->installed.depended;
             psearch;
             psearch= psearch->nextrev) {
          if (psearch->up->type != dep_conflicts) continue;
          check_conflict(psearch->up, pkg, pfilename);
        }
      }
      break;
    case dep_suggests:
    case dep_recommends:
    case dep_depends:
    case dep_replaces:
    case dep_enhances:
      /* Ignore these here. */
      break;
    case dep_predepends:
      if (!depisok(dsearch, &depprobwhy, NULL, 1)) {
        varbufaddc(&depprobwhy,0);
        fprintf(stderr, _("dpkg: regarding %s containing %s, pre-dependency problem:\n%s"),
                pfilename, pkg->name, depprobwhy.buf);
        if (!force_depends(dsearch->list))
          ohshit(_("pre-dependency problem - not installing %.250s"),pkg->name);
        warning(_("ignoring pre-dependency problem!"));
      }
    }
  }
  /* Look for things that conflict with us. */
  for (psearch= pkg->installed.depended; psearch; psearch= psearch->nextrev) {
    if (psearch->up->type != dep_conflicts) continue;
    check_conflict(psearch->up, pkg, pfilename);
  }
  
  ensure_allinstfiles_available();
  filesdbinit();
  trig_file_interests_ensure();

  if (pkg->status != stat_notinstalled && pkg->status != stat_configfiles) {
    printf(_("Preparing to replace %s %s (using %s) ...\n"),
           pkg->name,
           versiondescribe(&pkg->installed.version,vdew_nonambig),
           pfilename);
    log_action("upgrade", pkg);
  } else {
    printf(_("Unpacking %s (from %s) ...\n"),pkg->name,pfilename);
    log_action("install", pkg);
  }

  if (f_noact) {
    pop_cleanup(ehflag_normaltidy);
    return;
  }

  /*
   * OK, we're going ahead.
   */

  trig_activate_packageprocessing(pkg);
  strcpy(cidirrest, TRIGGERSCIFILE);
  trig_parse_ci(cidir, NULL, trig_cicb_statuschange_activate, pkg);

  /* Read the conffiles, and copy the hashes across. */
  newconffiles = NULL;
  newconffileslastp = &newconffiles;
  push_cleanup(cu_fileslist, ~0, NULL, 0, 0);
  strcpy(cidirrest,CONFFILESFILE);
  conff= fopen(cidir,"r");
  if (conff) {
    push_cleanup(cu_closefile, ehflag_bombout, NULL, 0, 1, (void *)conff);
    while (fgets(conffilenamebuf,MAXCONFFILENAME-2,conff)) {
      p= conffilenamebuf + strlen(conffilenamebuf);
      assert(p != conffilenamebuf);
      if (p[-1] != '\n')
        ohshit(_("name of conffile (starting `%.250s') is too long (>%d characters)"),
               conffilenamebuf, MAXCONFFILENAME);
      while (p > conffilenamebuf && isspace(p[-1])) --p;
      if (p == conffilenamebuf) continue;
      *p = '\0';
      namenode= findnamenode(conffilenamebuf, 0);
      namenode->oldhash= NEWCONFFILEFLAG;
      newconff= newconff_append(&newconffileslastp, namenode);
      
      /* Let's see if any packages have this file.  If they do we
       * check to see if they listed it as a conffile, and if they did
       * we copy the hash across.  Since (for plain file conffiles,
       * which is the only kind we are supposed to have) there will
       * only be one package which `has' the file, this will usually
       * mean we only look in the package which we're installing now.
       * The `conffiles' data in the status file is ignored when a
       * package isn't also listed in the file ownership database as
       * having that file.  If several packages are listed as owning
       * the file we pick one at random.
       */
      searchconff = NULL;
      for (packageslump= newconff->namenode->packages;
           packageslump;
           packageslump= packageslump->more) {
        for (i=0; i < PERFILEPACKAGESLUMP && packageslump->pkgs[i]; i++) {
          otherpkg= packageslump->pkgs[i];
          debug(dbg_conffdetail,"process_archive conffile `%s' in package %s - conff ?",
                newconff->namenode->name,otherpkg->name);
          for (searchconff= otherpkg->installed.conffiles;
               searchconff && strcmp(newconff->namenode->name,searchconff->name);
               searchconff= searchconff->next)
            debug(dbg_conffdetail,
                  "process_archive conffile `%s' in package %s - conff ? not `%s'",
                  newconff->namenode->name,otherpkg->name,searchconff->name);
          if (searchconff) {
            debug(dbg_conff,"process_archive conffile `%s' package=%s %s hash=%s",
                  newconff->namenode->name,otherpkg->name,
                  otherpkg == pkg ? "same" : "different!",
                  searchconff->hash);
            if (otherpkg == pkg) goto xit_conff_hashcopy_srch;
          }
        }
      }
    xit_conff_hashcopy_srch:
      if (searchconff) {
        newconff->namenode->oldhash= searchconff->hash;
	/* we don't copy `obsolete'; it's not obsolete in the new package */
      } else {
        debug(dbg_conff,"process_archive conffile `%s' no package, no hash",
              newconff->namenode->name);
      }
      newconff->namenode->flags |= fnnf_new_conff;
    }
    if (ferror(conff)) ohshite(_("read error in %.250s"),cidir);
    pop_cleanup(ehflag_normaltidy); /* conff= fopen() */
    if (fclose(conff)) ohshite(_("error closing %.250s"),cidir);
  } else {
    if (errno != ENOENT) ohshite(_("error trying to open %.250s"),cidir);
  }

  /* All the old conffiles are marked with a flag, so that we don't delete
   * them if they seem to disappear completely.
   */
  oldconffsetflags(pkg->installed.conffiles);
  for (i = 0 ; i < cflict_index ; i++) {
    oldconffsetflags(conflictor[i]->installed.conffiles);
  }
  
  oldversionstatus= pkg->status;

  assert(oldversionstatus <= stat_installed);
  debug(dbg_general,"process_archive oldversionstatus=%s",
        statusstrings[oldversionstatus]);
  
  if (oldversionstatus == stat_halfconfigured ||
      oldversionstatus == stat_triggersawaited ||
      oldversionstatus == stat_triggerspending ||
      oldversionstatus == stat_installed) {
    pkg->eflag |= eflag_reinstreq;
    pkg->status= stat_halfconfigured;
    modstatdb_note(pkg);
    push_cleanup(cu_prermupgrade, ~ehflag_normaltidy, NULL, 0, 1, (void *)pkg);
    maintainer_script_alternative(pkg, PRERMFILE, "pre-removal", cidir, cidirrest,
                                  "upgrade", "failed-upgrade");
    pkg->status= stat_unpacked;
    oldversionstatus= stat_unpacked;
    modstatdb_note(pkg);
  }

  for (deconpil= deconfigure; deconpil; deconpil= deconpil->next) {
    struct pkginfo *removing = deconpil->pkg_removal;

    if (removing)
      printf(_("De-configuring %s, to allow removal of %s ...\n"),
             deconpil->pkg->name, removing->name);
    else
      printf(_("De-configuring %s ...\n"), deconpil->pkg->name);

    trig_activate_packageprocessing(deconpil->pkg);
    deconpil->pkg->status= stat_halfconfigured;
    modstatdb_note(deconpil->pkg);

    /* This means that we *either* go and run postinst abort-deconfigure,
     * *or* queue the package for later configure processing, depending
     * on which error cleanup route gets taken.
     */
    push_cleanup(cu_prermdeconfigure, ~ehflag_normaltidy,
                 ok_prermdeconfigure, ehflag_normaltidy,
                 3, (void*)deconpil->pkg, (void*)removing, (void*)pkg);

    if (removing) {
      maintainer_script_installed(deconpil->pkg, PRERMFILE, "pre-removal",
                                  "deconfigure", "in-favour", pkg->name,
                                  versiondescribe(&pkg->available.version,
                                                  vdew_nonambig),
                                  "removing", removing->name,
                                  versiondescribe(&removing->installed.version,
                                                  vdew_nonambig),
                                  NULL);
    } else {
      maintainer_script_installed(deconpil->pkg, PRERMFILE, "pre-removal",
                                  "deconfigure", "in-favour", pkg->name,
                                  versiondescribe(&pkg->available.version,
                                                  vdew_nonambig),
                                  NULL);
    }
  }

  for (i = 0 ; i < cflict_index; i++) {
    if (!(conflictor[i]->status == stat_halfconfigured ||
          conflictor[i]->status == stat_triggersawaited ||
          conflictor[i]->status == stat_triggerspending ||
          conflictor[i]->status == stat_installed)) continue;
    trig_activate_packageprocessing(conflictor[i]);
    conflictor[i]->status= stat_halfconfigured;
    modstatdb_note(conflictor[i]);
    push_cleanup(cu_prerminfavour, ~ehflag_normaltidy, NULL, 0,
                 2,(void*)conflictor[i],(void*)pkg);
    maintainer_script_installed(conflictor[i], PRERMFILE, "pre-removal",
                                "remove", "in-favour", pkg->name,
                                versiondescribe(&pkg->available.version,
                                                vdew_nonambig),
                                NULL);
    conflictor[i]->status= stat_halfinstalled;
    modstatdb_note(conflictor[i]);
  }

  pkg->eflag |= eflag_reinstreq;
  if (pkg->status == stat_notinstalled)
    pkg->installed.version= pkg->available.version;
  pkg->status= stat_halfinstalled;
  modstatdb_note(pkg);
  if (oldversionstatus == stat_notinstalled) {
    push_cleanup(cu_preinstverynew, ~ehflag_normaltidy, NULL, 0,
                 3,(void*)pkg,(void*)cidir,(void*)cidirrest);
    maintainer_script_new(pkg, PREINSTFILE, "pre-installation", cidir, cidirrest,
                          "install", NULL);
  } else if (oldversionstatus == stat_configfiles) {
    push_cleanup(cu_preinstnew, ~ehflag_normaltidy, NULL, 0,
                 3,(void*)pkg,(void*)cidir,(void*)cidirrest);
    maintainer_script_new(pkg, PREINSTFILE, "pre-installation", cidir, cidirrest,
                          "install", versiondescribe(&pkg->installed.version,
                                                     vdew_nonambig),
                          NULL);
  } else {
    push_cleanup(cu_preinstupgrade, ~ehflag_normaltidy, NULL, 0,
                 4,(void*)pkg,(void*)cidir,(void*)cidirrest,(void*)&oldversionstatus);
    maintainer_script_new(pkg, PREINSTFILE, "pre-installation", cidir, cidirrest,
                          "upgrade", versiondescribe(&pkg->installed.version,
                                                     vdew_nonambig),
                          NULL);
    printf(_("Unpacking replacement %.250s ...\n"),pkg->name);
  }
  
  /*
   * Now we unpack the archive, backing things up as we go.
   * For each file, we check to see if it already exists.
   * There are several possibilities:
   * + We are trying to install a non-directory ...
   *  - It doesn't exist.  In this case we simply extract it.
   *  - It is a plain file, device, symlink, &c.  We do an `atomic
   *    overwrite' using link() and rename(), but leave a backup copy.
   *    Later, when we delete the backup, we remove it from any other
   *    packages' lists.
   * -  It is a directory.  In this case it depends on whether we're
   *    trying to install a symlink or something else.
   *   = If we're not trying to install a symlink we move the directory
   *     aside and extract the node.  Later, when we recursively remove
   *     the backed-up directory, we remove it from any other packages'
   *     lists.
   *   = If we are trying to install a symlink we do nothing - ie,
   *     dpkg will never replace a directory tree with a symlink.  This
   *     is to avoid embarrassing effects such as replacing a directory
   *     tree with a link to a link to the original directory tree.
   * + We are trying to install a directory ...
   *  - It doesn't exist.  We create it with the appropriate modes.
   *  - It exists as a directory or a symlink to one.  We do nothing.
   *  - It is a plain file or a symlink (other than to a directory).
   *    We move it aside and create the directory.  Later, when we
   *    delete the backup, we remove it from any other packages' lists.
   *
   *                   Install non-dir   Install symlink   Install dir
   *  Exists not               X               X                X
   *  File/node/symlink       LXR             LXR              BXR
   *  Directory               BXR              -                -
   *
   *    X: extract file/node/link/directory
   *   LX: atomic overwrite leaving backup
   *    B: ordinary backup
   *    R: later remove from other packages' lists
   *    -: do nothing
   * 
   * After we've done this we go through the remaining things in the
   * lists of packages we're trying to remove (including the old
   * version of the current package).  This happens in reverse order,
   * so that we process files before the directories (or symlinks-to-
   * directories) containing them.
   * + If the thing is a conffile then we leave it alone for the purge
   *   operation.
   * + Otherwise, there are several possibilities too:
   *  - The listed thing does not exist.  We ignore it.
   *  - The listed thing is a directory or a symlink to a directory.
   *    We delete it only if it isn't listed in any other package.
   *  - The listed thing is not a directory, but was part of the package
   *    that was upgraded, we check to make sure the files aren't the
   *    same ones from the old package by checking dev/inode
   *  - The listed thing is not a directory or a symlink to one (ie,
   *    it's a plain file, device, pipe, &c, or a symlink to one, or a
   *    dangling symlink).  We delete it.
   * The removed packages' list becomes empty (of course, the new
   * version of the package we're installing will have a new list,
   * which replaces the old version's list).
   *
   * If at any stage we remove a file from a package's list, and the
   * package isn't one we're already processing, and the package's
   * list becomes empty as a result, we `vanish' the package.  This
   * means that we run its postrm with the `disappear' argument, and
   * put the package in the `not-installed' state.  If it had any
   * conffiles, their hashes and ownership will have been transferred
   * already, so we just ignore those and forget about them from the
   * point of view of the disappearing package.
   *
   * NOTE THAT THE OLD POSTRM IS RUN AFTER THE NEW PREINST, since the
   * files get replaced `as we go'.
   */

  m_pipe(p1);
  push_cleanup(cu_closepipe, ehflag_bombout, NULL, 0, 1, (void *)&p1[0]);
  c1= m_fork();
  if (!c1) {
    m_dup2(p1[1],1); close(p1[0]); close(p1[1]);
    execlp(BACKEND, BACKEND, "--fsys-tarfile", filename, NULL);
    ohshite(_("unable to exec dpkg-deb to get filesystem archive"));
  }
  close(p1[1]);
  p1[1] = -1;

  newfileslist = NULL;
  tc.newfilesp = &newfileslist;
  push_cleanup(cu_fileslist, ~0, NULL, 0, 0);
  tc.pkg= pkg;
  tc.backendpipe= p1[0];

  r= TarExtractor((void*)&tc, &tf);
  if (r) {
    if (errno) {
      ohshite(_("error reading dpkg-deb tar output"));
    } else {
      ohshit(_("corrupted filesystem tarfile - corrupted package archive"));
    }
  }
  fd_null_copy(p1[0], -1, _("dpkg-deb: zap possible trailing zeros"));
  close(p1[0]);
  p1[0] = -1;
  waitsubproc(c1,BACKEND " --fsys-tarfile",PROCPIPE);

  if (oldversionstatus == stat_halfinstalled || oldversionstatus == stat_unpacked) {
    /* Packages that were in `installed' and `postinstfailed' have been reduced
     * to `unpacked' by now, by the running of the prerm script.
     */
    pkg->status= stat_halfinstalled;
    modstatdb_note(pkg);
    push_cleanup(cu_postrmupgrade, ~ehflag_normaltidy, NULL, 0, 1, (void *)pkg);
    maintainer_script_alternative(pkg, POSTRMFILE, "post-removal", cidir, cidirrest,
                                  "upgrade", "failed-upgrade");
  }

  /* If anything goes wrong while tidying up it's a bit late to do
   * anything about it.  However, we don't install the new status
   * info yet, so that a future dpkg installation will put everything
   * right (we hope).
   *
   * If something does go wrong later the `conflictor' package will be
   * left in the `removal_failed' state.  Removing or installing it
   * will be impossible if it was required because of the conflict with
   * the package we're installing now and (presumably) the dependency
   * by other packages.  This means that the files it contains in
   * common with this package will hang around until we successfully
   * get this package installed, after which point we can trust the
   * conflicting package's file list, which will have been updated to
   * remove any files in this package.
   */
  push_checkpoint(~ehflag_bombout, ehflag_normaltidy);
  
  /* Now we delete all the files that were in the old version of
   * the package only, except (old or new) conffiles, which we leave
   * alone.
   */
  reversefilelist_init(&rlistit,pkg->clientdata->files);
  while ((namenode= reversefilelist_next(&rlistit))) {
    struct filenamenode *usenode;

    if ((namenode->flags & fnnf_new_conff) ||
        (namenode->flags & fnnf_new_inarchive))
      continue;

    usenode = namenodetouse(namenode, pkg);
    trig_file_activate(usenode, pkg);

    fnamevb.used= fnameidlu;
    varbufaddstr(&fnamevb, usenode->name);
    varbufaddc(&fnamevb,0);

    if (!stat(namenode->name,&stab) && S_ISDIR(stab.st_mode)) {
      debug(dbg_eachfiledetail, "process_archive: %s is a directory",
	    namenode->name);
      if (isdirectoryinuse(namenode,pkg)) continue;
    }

    if (lstat(fnamevb.buf, &oldfs)) {
      if (!(errno == ENOENT || errno == ELOOP || errno == ENOTDIR))
	warning(_("could not stat old file '%.250s' so not deleting it: %s"),
	        fnamevb.buf, strerror(errno));
      continue;
    }
    if (S_ISDIR(oldfs.st_mode)) {
      if (rmdir(fnamevb.buf)) {
	warning(_("unable to delete old directory '%.250s': %s"),
	        namenode->name, strerror(errno));
      } else if ((namenode->flags & fnnf_old_conff)) {
	warning(_("old conffile '%.250s' was an empty directory "
	          "(and has now been deleted)"), namenode->name);
      }
    } else {
      /* Ok, it's an old file, but is it really not in the new package?
       * It might be known by a different name because of symlinks.
       *
       * We need to check to make sure, so we stat the file, then compare
       * it to the new list. If we find a dev/inode match, we assume they
       * are the same file, and leave it alone. NOTE: we don't check in
       * other packages for sanity reasons (we don't want to stat _all_
       * the files on the system).
       *
       * We run down the list of _new_ files in this package. This keeps
       * the process a little leaner. We are only worried about new ones
       * since ones that stayed the same don't really apply here.
       */
      struct fileinlist *sameas = NULL;
      static struct stat empty_stat;
      struct varbuf cfilename = VARBUF_INIT;

      /* If we can't stat the old or new file, or it's a directory,
       * we leave it up to the normal code
       */
      debug(dbg_eachfile, "process_archive: checking %s for same files on "
	    "upgrade/downgrade", fnamevb.buf);

      for (cfile= newfileslist; cfile; cfile= cfile->next) {
	if (!cfile->namenode->filestat) {
	  struct stat tmp_stat;

	  varbufreset(&cfilename);
	  varbufaddstr(&cfilename, instdir);
	  varbufaddc(&cfilename, '/');
	  varbufaddstr(&cfilename, cfile->namenode->name);
	  varbufaddc(&cfilename, '\0');

	  if (lstat(cfilename.buf, &tmp_stat) == 0) {
	    cfile->namenode->filestat = nfmalloc(sizeof(struct stat));
	    memcpy(cfile->namenode->filestat, &tmp_stat, sizeof(struct stat));
	  } else {
	    if (!(errno == ENOENT || errno == ELOOP || errno == ENOTDIR))
	      ohshite(_("unable to stat other new file `%.250s'"),
		      cfile->namenode->name);
	    cfile->namenode->filestat = &empty_stat;
	    continue;
	  }
	}
	if (cfile->namenode->filestat == &empty_stat)
	  continue;
	if (oldfs.st_dev == cfile->namenode->filestat->st_dev &&
	    oldfs.st_ino == cfile->namenode->filestat->st_ino) {
	  if (sameas)
	    warning(_("old file '%.250s' is the same as several new files! "
	              "(both '%.250s' and '%.250s')"), fnamevb.buf,
		    sameas->namenode->name, cfile->namenode->name);
	  sameas= cfile;
	  debug(dbg_eachfile, "process_archive: not removing %s,"
		" since it matches %s", fnamevb.buf, cfile->namenode->name);
	}
      }

      varbuffree(&cfilename);

      if ((namenode->flags & fnnf_old_conff)) {
	if (sameas) {
	  if (sameas->namenode->flags & fnnf_new_conff) {
	    if (!strcmp(sameas->namenode->oldhash, NEWCONFFILEFLAG)) {
	      sameas->namenode->oldhash= namenode->oldhash;
	      debug(dbg_eachfile, "process_archive: old conff %s"
		    " is same as new conff %s, copying hash",
		    namenode->name, sameas->namenode->name);
	    } else {
	      debug(dbg_eachfile, "process_archive: old conff %s"
		    " is same as new conff %s but latter already has hash",
		    namenode->name, sameas->namenode->name);
	    }
	  }
	} else {
	  debug(dbg_eachfile, "process_archive: old conff %s"
		" is disappearing", namenode->name);
	  namenode->flags |= fnnf_obs_conff;
	  newconff_append(&newconffileslastp, namenode);
	  addfiletolist(&tc, namenode);
	}
	continue;
      }
      
      if (sameas)
	continue;

      if (secure_unlink_statted(fnamevb.buf, &oldfs)) {
        warning(_("unable to securely remove old file '%.250s': %s"),
                namenode->name, strerror(errno));
      }

    } /* !S_ISDIR */
  }

  /* OK, now we can write the updated files-in-this package list,
   * since we've done away (hopefully) with all the old junk.
   */
  write_filelist_except(pkg,newfileslist,0);

  /* Trigger interests may have changed.
   * Firstly we go through the old list of interests deleting them.
   * Then we go through the new list adding them.
   */
  strcpy(cidirrest, TRIGGERSCIFILE);
  trig_parse_ci(pkgadminfile(pkg, TRIGGERSCIFILE),
                trig_cicb_interest_delete, NULL, pkg);
  trig_parse_ci(cidir, trig_cicb_interest_add, NULL, pkg);
  trig_file_interests_save();

  /* We also install the new maintainer scripts, and any other
   * cruft that may have come along with the package.  First
   * we go through the existing scripts replacing or removing
   * them as appropriate; then we go through the new scripts
   * (any that are left) and install them.
   */
  debug(dbg_general, "process_archive updating info directory");
  varbufreset(&infofnvb);
  varbufaddstr(&infofnvb,admindir);
  varbufaddstr(&infofnvb, "/" INFODIR);
  infodirlen= infofnvb.used;
  varbufaddc(&infofnvb,0);
  dsd= opendir(infofnvb.buf);
  if (!dsd) ohshite(_("cannot read info directory"));
  push_cleanup(cu_closedir, ~0, NULL, 0, 1, (void *)dsd);
  while ((de = readdir(dsd)) != NULL) {
    debug(dbg_veryverbose, "process_archive info file `%s'", de->d_name);
    if (de->d_name[0] == '.') continue; /* ignore dotfiles, including `.' and `..' */
    p= strrchr(de->d_name,'.'); if (!p) continue; /* ignore anything odd */
    if (strlen(pkg->name) != (size_t)(p-de->d_name) ||
        strncmp(de->d_name,pkg->name,p-de->d_name)) continue;
    debug(dbg_stupidlyverbose, "process_archive info this pkg");
    /* Right do we have one ? */
    p++; /* skip past the full stop */
    if (!strcmp(p,LISTFILE)) continue; /* We do the list separately */
    if (strlen(p) > MAXCONTROLFILENAME)
      ohshit(_("old version of package has overly-long info file name starting `%.250s'"),
             de->d_name);
    infofnvb.used= infodirlen;
    varbufaddstr(&infofnvb,de->d_name);
    varbufaddc(&infofnvb,0);
    strcpy(cidirrest,p);
    if (!rename(cidir,infofnvb.buf)) {
      debug(dbg_scripts, "process_archive info installed %s as %s",
            cidir, infofnvb.buf);
    } else if (errno == ENOENT) {
      /* Right, no new version. */
      if (unlink(infofnvb.buf))
        ohshite(_("unable to remove obsolete info file `%.250s'"),infofnvb.buf);
      debug(dbg_scripts, "process_archive info unlinked %s",infofnvb.buf);
    } else {
      ohshite(_("unable to install (supposed) new info file `%.250s'"),cidir);
    }
  }
  pop_cleanup(ehflag_normaltidy); /* closedir */
  
  *cidirrest = '\0'; /* the directory itself */
  dsd= opendir(cidir);
  if (!dsd) ohshite(_("unable to open temp control directory"));
  push_cleanup(cu_closedir, ~0, NULL, 0, 1, (void *)dsd);
  while ((de= readdir(dsd))) {
    if (strchr(de->d_name,'.')) {
      debug(dbg_scripts,"process_archive tmp.ci script/file `%s' contains dot",
            de->d_name);
      continue;
    }
    if (strlen(de->d_name) > MAXCONTROLFILENAME)
      ohshit(_("package contains overly-long control info file name (starting `%.50s')"),
             de->d_name);
    strcpy(cidirrest,de->d_name);
    /* First we check it's not a directory. */
    if (!rmdir(cidir))
      ohshit(_("package control info contained directory `%.250s'"),cidir);
    else if (errno != ENOTDIR)
      ohshite(_("package control info rmdir of `%.250s' didn't say not a dir"),de->d_name);
    if (!strcmp(de->d_name,CONTROLFILE)) {
      debug(dbg_scripts,"process_archive tmp.ci script/file `%s' is control",cidir);
      continue; /* ignore the control file */
    }
    if (!strcmp(de->d_name,LISTFILE)) {
      warning(_("package %s contained list as info file"), pkg->name);
      continue;
    }
    /* Right, install it */
    newinfofilename= pkgadminfile(pkg,de->d_name);
    if (rename(cidir,newinfofilename))
      ohshite(_("unable to install new info file `%.250s' as `%.250s'"),
              cidir,newinfofilename);
    debug(dbg_scripts,"process_archive tmp.ci script/file `%s' installed as `%s'",
          cidir, newinfofilename);
  }
  pop_cleanup(ehflag_normaltidy); /* closedir */

  /* Update the status database.
   * This involves copying each field across from the `available'
   * to the `installed' half of the pkg structure.
   * For some of the fields we have to do a complicated construction
   * operation; for others we can just copy the value.
   * We tackle the fields in the order they appear, so that
   * we don't miss any out :-).
   * At least we don't have to copy any strings that are referred
   * to, because these are never modified and never freed.
   */

  /* The dependencies are the most difficult.  We have to build
   * a whole new forward dependency tree.  At least the reverse
   * links (linking our deppossi's into the reverse chains)
   * can be done by copy_dependency_links.
   */
  newdeplist = NULL;
  newdeplistlastp = &newdeplist;
  for (dep= pkg->available.depends; dep; dep= dep->next) {
    newdep= nfmalloc(sizeof(struct dependency));
    newdep->up= pkg;
    newdep->next = NULL;
    newdep->list = NULL;
    newpossilastp = &newdep->list;
    for (possi= dep->list; possi; possi= possi->next) {
      newpossi= nfmalloc(sizeof(struct deppossi));
      newpossi->up= newdep;
      newpossi->ed= possi->ed;
      newpossi->next = NULL;
      newpossi->nextrev = newpossi->backrev = NULL;
      newpossi->verrel= possi->verrel;
      if (possi->verrel != dvr_none)
        newpossi->version= possi->version;
      else
        blankversion(&newpossi->version);
      newpossi->cyclebreak= 0;
      *newpossilastp= newpossi;
      newpossilastp= &newpossi->next;
    }
    newdep->type= dep->type;
    *newdeplistlastp= newdep;
    newdeplistlastp= &newdep->next;
  }
  /* Right, now we've replicated the forward tree, we
   * get copy_dependency_links to remove all the old dependency
   * structures from the reverse links and add the new dependency
   * structures in instead.  It also copies the new dependency
   * structure pointer for this package into the right field.
   */
  copy_dependency_links(pkg,&pkg->installed.depends,newdeplist,0);

  /* The `depended' pointer in the structure doesn't represent anything
   * that is actually specified by this package - it's there so we
   * can find out what other packages refer to this one.  So,
   * we don't copy it.  We go straight on to copy the text fields.
   */
  pkg->installed.essential= pkg->available.essential;
  pkg->installed.description= pkg->available.description;
  pkg->installed.maintainer= pkg->available.maintainer;
  pkg->installed.source= pkg->available.source;
  pkg->installed.architecture= pkg->available.architecture;
  pkg->installed.installedsize= pkg->available.installedsize;
  pkg->installed.version= pkg->available.version;
  pkg->installed.origin = pkg->available.origin;                               
  pkg->installed.bugs = pkg->available.bugs;                                   

  /* We have to generate our own conffiles structure. */
  pkg->installed.conffiles = NULL;
  iconffileslastp = &pkg->installed.conffiles;
  for (cfile= newconffiles; cfile; cfile= cfile->next) {
    newiconff= nfmalloc(sizeof(struct conffile));
    newiconff->next = NULL;
    newiconff->name= nfstrsave(cfile->namenode->name);
    newiconff->hash= nfstrsave(cfile->namenode->oldhash);
    newiconff->obsolete= !!(cfile->namenode->flags & fnnf_obs_conff);
    *iconffileslastp= newiconff;
    iconffileslastp= &newiconff->next;
  }

  /* We can just copy the arbitrary fields list, because it is
   * never even rearranged. Phew!
   */
  pkg->installed.arbs= pkg->available.arbs;

  /* Check for disappearing packages:
   * We go through all the packages on the system looking for ones
   * whose files are entirely part of the one we've just unpacked
   * (and which actually *have* some files!).
   *
   * Any that we find are removed - we run the postrm with `disappear'
   * as an argument, and remove their info/... files and status info.
   * Conffiles are ignored (the new package had better do something
   * with them !).
   */
  it= iterpkgstart();
  while ((otherpkg = iterpkgnext(it)) != NULL) {
    ensure_package_clientdata(otherpkg);
    if (otherpkg == pkg ||
        otherpkg->status == stat_notinstalled ||
        otherpkg->status == stat_configfiles ||
	otherpkg->clientdata->istobe == itb_remove ||
        !otherpkg->clientdata->files) continue;
    debug(dbg_veryverbose, "process_archive checking disappearance %s",otherpkg->name);
    assert(otherpkg->clientdata->istobe == itb_normal ||
           otherpkg->clientdata->istobe == itb_deconfigure);
    for (cfile= otherpkg->clientdata->files;
         cfile && !strcmp(cfile->namenode->name,"/.");
         cfile= cfile->next);
    if (!cfile) {
      debug(dbg_stupidlyverbose, "process_archive no non-root, no disappear");
      continue;
    }
    for (cfile= otherpkg->clientdata->files;
         cfile && !filesavespackage(cfile,otherpkg,pkg);
         cfile= cfile->next);
    if (cfile) continue;

    /* So dependency things will give right answers ... */
    otherpkg->clientdata->istobe= itb_remove; 
    debug(dbg_veryverbose, "process_archive disappear checking dependencies");
    for (pdep= otherpkg->installed.depended;
         pdep;
         pdep= pdep->nextrev) {
      if (pdep->up->type != dep_depends && pdep->up->type != dep_predepends &&
          pdep->up->type != dep_recommends) continue;
      if (depisok(pdep->up, &depprobwhy, NULL, 0))
        continue;
      varbufaddc(&depprobwhy,0);
      debug(dbg_veryverbose,"process_archive cannot disappear: %s",depprobwhy.buf);
      break;
    }
    if (!pdep) {
      /* If we haven't found a reason not to yet, let's look some more. */
      for (providecheck= otherpkg->installed.depends;
           providecheck;
           providecheck= providecheck->next) {
        if (providecheck->type != dep_provides) continue;
        for (pdep= providecheck->list->ed->installed.depended;
             pdep;
             pdep= pdep->nextrev) {
          if (pdep->up->type != dep_depends && pdep->up->type != dep_predepends &&
              pdep->up->type != dep_recommends)
            continue;
          if (depisok(pdep->up, &depprobwhy, NULL, 0))
            continue;
          varbufaddc(&depprobwhy,0);
          debug(dbg_veryverbose,"process_archive cannot disappear (provides %s): %s",
                providecheck->list->ed->name, depprobwhy.buf);
          goto break_from_both_loops_at_once;
        }
      }
    break_from_both_loops_at_once:;
    }
    otherpkg->clientdata->istobe= itb_normal;
    if (pdep) continue;

    printf(_("(Noting disappearance of %s, which has been completely replaced.)\n"),
           otherpkg->name);
    debug(dbg_general, "process_archive disappearing %s",otherpkg->name);
    /* No, we're disappearing it.  This is the wrong time to go and
     * run maintainer scripts and things, as we can't back out.  But
     * what can we do ?  It has to be run this late.
     */
    trig_activate_packageprocessing(otherpkg);
    maintainer_script_installed(otherpkg, POSTRMFILE,
                                "post-removal script (for disappearance)",
                                "disappear", pkg->name, 
                                versiondescribe(&pkg->available.version,
                                                vdew_nonambig),
                                NULL);

    /* OK, now we delete all the stuff in the `info' directory .. */
    varbufreset(&fnvb);
    varbufaddstr(&fnvb,admindir);
    varbufaddstr(&fnvb,"/" INFODIR);
    infodirbaseused= fnvb.used;
    varbufaddc(&fnvb,0);
    dsd= opendir(fnvb.buf); if (!dsd) ohshite(_("cannot read info directory"));
    push_cleanup(cu_closedir, ~0, NULL, 0, 1, (void *)dsd);

    debug(dbg_general, "process_archive disappear cleaning info directory");
      
    while ((de = readdir(dsd)) != NULL) {
      debug(dbg_veryverbose, "process_archive info file `%s'", de->d_name);
      if (de->d_name[0] == '.') continue;
      p= strrchr(de->d_name,'.'); if (!p) continue;
      if (strlen(otherpkg->name) != (size_t)(p-de->d_name) ||
          strncmp(de->d_name,otherpkg->name,p-de->d_name)) continue;
      debug(dbg_stupidlyverbose, "process_archive info this pkg");
      fnvb.used= infodirbaseused;
      varbufaddstr(&fnvb,de->d_name);
      varbufaddc(&fnvb,0);
      if (unlink(fnvb.buf))
        ohshite(_("unable to delete disappearing control info file `%.250s'"),fnvb.buf);
      debug(dbg_scripts, "process_archive info unlinked %s",fnvb.buf);
    }
    pop_cleanup(ehflag_normaltidy); /* closedir */
    
    otherpkg->status= stat_notinstalled;
    otherpkg->want = want_unknown;
    otherpkg->eflag = eflag_ok;

    blankversion(&otherpkg->configversion);
    blankpackageperfile(&otherpkg->installed);

    otherpkg->clientdata->fileslistvalid= 0;

    modstatdb_note(otherpkg);

  } /* while (otherpkg= ... */
  iterpkgend(it);
  
  /* Delete files from any other packages' lists.
   * We have to do this before we claim this package is in any
   * sane kind of state, as otherwise we might delete by mistake
   * a file that we overwrote, when we remove the package which
   * had the version we overwrote.  To prevent this we make
   * sure that we don't claim this package is OK until we
   * have claimed `ownership' of all its files.
   */
  for (cfile= newfileslist; cfile; cfile= cfile->next) {
    if (!(cfile->namenode->flags & fnnf_elide_other_lists)) continue;
    if (cfile->namenode->divert && cfile->namenode->divert->useinstead) {
      divpkg= cfile->namenode->divert->pkg;
      if (divpkg == pkg) {
        debug(dbg_eachfile,
              "process_archive not overwriting any `%s' (overriding, `%s')",
              cfile->namenode->name, cfile->namenode->divert->useinstead->name);
        continue;
      } else {
        debug(dbg_eachfile,
              "process_archive looking for overwriting `%s' (overridden by %s)",
              cfile->namenode->name, divpkg ? divpkg->name : "<local>");
      }        
    } else {
      divpkg = NULL;
      debug(dbg_eachfile, "process_archive looking for overwriting `%s'",
            cfile->namenode->name);
    }
    for (packageslump= cfile->namenode->packages;
         packageslump;
         packageslump= packageslump->more) {
      for (i=0; i < PERFILEPACKAGESLUMP && packageslump->pkgs[i]; i++) {
        otherpkg= packageslump->pkgs[i];
        debug(dbg_eachfiledetail, "process_archive ... found in %s\n",otherpkg->name);
        /* If !fileslistvalid then it's one of the disappeared packages above
         * and we don't bother with it here, clearly.
         */
        if (otherpkg == pkg || !otherpkg->clientdata->fileslistvalid) continue;
        if (otherpkg == divpkg) {
          debug(dbg_eachfiledetail, "process_archive ... diverted, skipping\n");
          continue;
        }

        /* Found one.  We delete remove the list entry for this file,
         * (and any others in the same package) and then mark the package
         * as requiring a reread.
         */
        write_filelist_except(otherpkg, otherpkg->clientdata->files, 1);
        ensure_package_clientdata(otherpkg);
        debug(dbg_veryverbose, "process_archive overwrote from %s",otherpkg->name);
      }
    }
  }

  /* Right, the package we've unpacked is now in a reasonable state.
   * The only thing that we have left to do with it is remove
   * backup files, and we can leave the user to fix that if and when
   * it happens (we leave the reinstall required flag, of course).
   */
  pkg->status= stat_unpacked;
  modstatdb_note(pkg);
  
  /* Now we delete all the backup files that we made when
   * extracting the archive - except for files listed as conffiles
   * in the new package.
   * This time we count it as an error if something goes wrong.
   *
   * Note that we don't ever delete things that were in the old
   * package as a conffile and don't appear at all in the new.
   * They stay recorded as obsolete conffiles and will eventually
   * (if not taken over by another package) be forgotten.
   */
  for (cfile= newfileslist; cfile; cfile= cfile->next) {
    if (cfile->namenode->flags & fnnf_new_conff) continue;
    fnametmpvb.used= fnameidlu;
    varbufaddstr(&fnametmpvb,namenodetouse(cfile->namenode,pkg)->name);
    varbufaddstr(&fnametmpvb,DPKGTEMPEXT);
    varbufaddc(&fnametmpvb,0);
    ensure_pathname_nonexisting(fnametmpvb.buf);
  }

  /* OK, we're now fully done with the main package.
   * This is quite a nice state, so we don't unwind past here.
   */
  pkg->eflag = eflag_ok;
  modstatdb_note(pkg);
  push_checkpoint(~ehflag_bombout, ehflag_normaltidy);

  /* Only the removal of the conflictor left to do.
   * The files list for the conflictor is still a little inconsistent in-core,
   * as we have not yet updated the filename->packages mappings; however,
   * the package->filenames mapping is 
   */
  for (i = 0 ; i < cflict_index ; i++) {
    /* We need to have the most up-to-date info about which files are what ... */
    ensure_allinstfiles_available();
    removal_bulk(conflictor[i]);
  }

  if (cipaction->arg == act_install) add_to_queue(pkg);
}
  // run the coloring procedure
  void try_coloring() {
    if (_num_of_colors != 0) {
      if (check()) {
        std::cout << "Duplicated call of try_coloring()?" << std::endl;
      } else {
        std::cout << "Check() failed. Something is wrong. :(" << std::endl;
      }
      return;
    }
    int v = -1;
    int* valid_colors = new int[v_colors.size()];
    while ((v = get_next_v()) != -1) {
//    std::cout << "trying to color vertex : " << v
//              << "    current num_of_colors : " << _num_of_colors << std::endl;

      for (int i = 0; i < _num_of_colors; i++) {
        valid_colors[i] = 0;
      }
      for (int c = 0; c < _num_of_colors; c++) {
        //std::cout << "checking color : " << c;
        _alternative_edge_set.clear();
        for (HyperEdge<DEGREE>* edge : _adjacent_edges[v]) {
          //std::cout << "checking edge : ";
          //edge->dump();
          //std::cout << std::endl;
          // first check if color v as c will cause conflict;
          if (!check_conflict(edge, v, c)) {
            valid_colors[c] = -1;
            //std::cout << " invalid" << std::endl;
            break;
          }
          if (_unrecovered_edges.find(edge) != _unrecovered_edges.end()) {
            // edge is still unrecoverable, check if it's recoverable under v#c
            if (!check_recoverable(edge, v, c)) {
              valid_colors[c] = -1;
              //std::cout << " invalid" << std::endl;
              break;
            }
          }
        }
        if (valid_colors[c] != -1) {
          break;
        }
      }
      int c = 0;
      // c will be a valid color or curr #colors if none is valid
      while (c < _num_of_colors && valid_colors[c] == -1) {c++;}
      if (c == _num_of_colors) { _num_of_colors++;}
      // v has color c;
//    std::cout << "vertex " << v << " have color " << c << std::endl;
      v_colors[v] = c;
      // update unrecovered/recovered edges AND compressed/recover index set
      for (HyperEdge<DEGREE>* edge : _adjacent_edges[v]) {
        MultiIndexSet<DEGREE-1> e_index_set = edge->get_v_index_set().remove(v);
        _compressed_index_set[c].insert(e_index_set);
        if (_unrecovered_edges.find(edge) != _unrecovered_edges.end()) {
          _unrecovered_edges.erase(edge);
          _recover_index_set[c].insert(std::make_pair(e_index_set, edge));
          _recovery_index.insert(std::make_pair(edge, v));
        }
      }
    }
    delete[] valid_colors;
  }
Ejemplo n.º 8
0
static void prepare_read_write (RandomIO * r)
{
    /* Do a READ or WRITE? */
    if (random () % 2) {
        r->type = OP_READ;
    } else {
        r->type = OP_WRITE;
    }

    /* Find the next region to perform io. */
    do {
        if (parallel <= 1 || (random () % 2 == 0)) {
            /* Perform a random I/O. */
            r->sector_num = rand64 () % total_sectors;
        } else {
            /* Perform an I/O next to a currently ongoing I/O. */
            int id;
            do {
                id = random () % parallel;
            } while (id == r->tester);

            RandomIO *p = &testers[id];
            r->sector_num =
                p->sector_num + 2 * io_size - rand64 () % (4 * io_size);
            if (r->sector_num < 0) {
                r->sector_num = 0;
            } else if (r->sector_num >= total_sectors) {
                r->sector_num = total_sectors - 1;
            }
        }

        r->nb_sectors = 1 + rand64 () % io_size;
        if (r->sector_num + r->nb_sectors > total_sectors) {
            r->nb_sectors = total_sectors - r->sector_num;
        }
    } while (check_conflict (r));

    if (r->type == OP_WRITE) {
        /* Fill test_buf with random data. */
        int i, j;
        for (i = 0; i < r->nb_sectors; i++) {
            const uint64_t TEST_MAGIC = 0x0123456789ABCDEFULL;
            /* This first 8 bytes of the sector stores the current testing
             * round. The next 8 bytes store a magic number.  This info helps
             * debugging. */
            uint64_t *p = (uint64_t *) & r->test_buf[i * 512];
            *p = r->uuid;
            cpu_to_be64s (p);
            p++;
            *p = TEST_MAGIC;
            cpu_to_be64s (p);

            /* The rest of the sector are filled with random data. */
            uint32_t *q = (uint32_t *) (p + 1);
            int n = (512 - 2 * sizeof (uint64_t)) / sizeof (uint32_t);
            for (j = 0; j < n; j++) {
                *q++ = random ();
            }
        }
    }

    /* Determine the number of iov. */
    int niov = 0;
    uint8_t *p = r->test_buf;
    int left = r->nb_sectors;
    do {
        if (niov == max_iov - 1) {
            r->qiov.iov[niov].iov_len = left * 512;
            r->qiov.iov[niov].iov_base = p;
            niov++;
            break;
        }

        int nb = 1 + random () % left;
        r->qiov.iov[niov].iov_len = nb * 512;
        r->qiov.iov[niov].iov_base = p;
        p += r->qiov.iov[niov].iov_len;
        left -= nb;
        niov++;
    } while (left > 0);

    qemu_iovec_init_external (&r->qiov, r->qiov.iov, niov);
}
Ejemplo n.º 9
0
void process_archive(const char *filename) {
  static const struct tar_operations tf = {
    .read = tarfileread,
    .extract_file = tarobject,
    .link = tarobject,
    .symlink = tarobject,
    .mkdir = tarobject,
    .mknod = tarobject,
  };

  /* These need to be static so that we can pass their addresses to
   * push_cleanup as arguments to the cu_xxx routines; if an error occurs
   * we unwind the stack before processing the cleanup list, and these
   * variables had better still exist ... */
  static int p1[2];
  static char *cidir = NULL;
  static struct fileinlist *newconffiles, *newfileslist;
  static enum pkgstatus oldversionstatus;
  static struct varbuf depprobwhy;
  static struct tarcontext tc;

  int r, i;
  pid_t pid;
  struct pkgiterator *it;
  struct pkginfo *pkg, *otherpkg;
  char *cidirrest, *p;
  char conffilenamebuf[MAXCONFFILENAME];
  char *psize;
  const char *pfilename;
  struct fileinlist *newconff, **newconffileslastp;
  struct fileinlist *cfile;
  struct reversefilelistiter rlistit;
  struct conffile *searchconff, **iconffileslastp, *newiconff;
  struct dependency *dsearch, *newdeplist, **newdeplistlastp;
  struct dependency *newdep, *dep, *providecheck;
  struct deppossi *psearch, **newpossilastp, *possi, *newpossi, *pdep;
  FILE *conff;
  struct filenamenode *namenode;
  struct stat stab, oldfs;
  struct pkg_deconf_list *deconpil, *deconpiltemp;
  struct pkginfo *fixbytrigaw;

  cleanup_pkg_failed= cleanup_conflictor_failed= 0;

  pfilename = summarize_filename(filename);

  if (stat(filename,&stab)) ohshite(_("cannot access archive"));

  /* We can't ‘tentatively-reassemble’ packages. */
  if (!f_noact) {
    if (!deb_reassemble(&filename, &pfilename))
      return;
  }

  /* Verify the package. */
  if (!f_nodebsig)
    deb_verify(filename);

  /* Get the control information directory. */
  cidir = get_control_dir(cidir);
  cidirrest = cidir + strlen(cidir);
  push_cleanup(cu_cidir, ~0, NULL, 0, 2, (void *)cidir, (void *)cidirrest);

  pid = subproc_fork();
  if (pid == 0) {
    cidirrest[-1] = '\0';
    execlp(BACKEND, BACKEND, "--control", filename, cidir, NULL);
    ohshite(_("unable to execute %s (%s)"),
            _("package control information extraction"), BACKEND);
  }
  subproc_wait_check(pid, BACKEND " --control", 0);

  /* We want to guarantee the extracted files are on the disk, so that the
   * subsequent renames to the info database do not end up with old or zero
   * length files in case of a system crash. As neither dpkg-deb nor tar do
   * explicit fsync()s, we have to do them here.
   * XXX: This could be avoided by switching to an internal tar extractor. */
  dir_sync_contents(cidir);

  strcpy(cidirrest,CONTROLFILE);

  parsedb(cidir, pdb_parse_binary | pdb_ignorefiles | parsedb_force_flags(),
          &pkg);
  if (!pkg->files) {
    pkg->files= nfmalloc(sizeof(struct filedetails));
    pkg->files->next = NULL;
    pkg->files->name = pkg->files->msdosname = pkg->files->md5sum = NULL;
  }
  /* Always nfmalloc. Otherwise, we may overwrite some other field (like
   * md5sum). */
  psize = nfmalloc(30);
  sprintf(psize, "%jd", (intmax_t)stab.st_size);
  pkg->files->size = psize;

  if (cipaction->arg_int == act_avail) {
    printf(_("Recorded info about %s from %s.\n"),
           pkgbin_name(pkg, &pkg->available, pnaw_nonambig), pfilename);
    pop_cleanup(ehflag_normaltidy);
    return;
  }

  if (pkg->available.arch->type != arch_all &&
      pkg->available.arch->type != arch_native)
    forcibleerr(fc_architecture,
                _("package architecture (%s) does not match system (%s)"),
                pkg->available.arch->name, dpkg_arch_get(arch_native)->name);

  for (deconpil= deconfigure;
       deconpil;
       deconpil= deconpiltemp) {
    deconpiltemp= deconpil->next;
    free(deconpil);
  }
  deconfigure = NULL;
  clear_istobes();

  if (!wanttoinstall(pkg)) {
      pop_cleanup(ehflag_normaltidy);
      return;
  }

  /* Check if anything is installed that we conflict with, or not installed
   * that we need. */
  pkg->clientdata->istobe= itb_installnew;

  for (dsearch= pkg->available.depends; dsearch; dsearch= dsearch->next) {
    switch (dsearch->type) {
    case dep_conflicts:
      /* Look for things we conflict with. */
      check_conflict(dsearch, pkg, pfilename);
      break;
    case dep_breaks:
      /* Look for things we break. */
      check_breaks(dsearch, pkg, pfilename);
      break;
    case dep_provides:
      /* Look for things that conflict with what we provide. */
      for (psearch = dsearch->list->ed->depended.installed;
           psearch;
           psearch = psearch->rev_next) {
        if (psearch->up->type != dep_conflicts)
          continue;
        check_conflict(psearch->up, pkg, pfilename);
      }
      break;
    case dep_suggests:
    case dep_recommends:
    case dep_depends:
    case dep_replaces:
    case dep_enhances:
      /* Ignore these here. */
      break;
    case dep_predepends:
      if (!depisok(dsearch, &depprobwhy, NULL, &fixbytrigaw, true)) {
        if (fixbytrigaw) {
          while (fixbytrigaw->trigaw.head)
            trigproc(fixbytrigaw->trigaw.head->pend);
        } else {
          varbuf_end_str(&depprobwhy);
          fprintf(stderr, _("dpkg: regarding %s containing %s, pre-dependency problem:\n%s"),
                  pfilename, pkgbin_name(pkg, &pkg->available, pnaw_nonambig),
                  depprobwhy.buf);
          if (!force_depends(dsearch->list))
            ohshit(_("pre-dependency problem - not installing %.250s"),
                   pkgbin_name(pkg, &pkg->available, pnaw_nonambig));
          warning(_("ignoring pre-dependency problem!"));
        }
      }
    }
  }
  /* Look for things that conflict with us. */
  for (psearch = pkg->set->depended.installed; psearch; psearch = psearch->rev_next) {
    if (psearch->up->type != dep_conflicts) continue;
    check_conflict(psearch->up, pkg, pfilename);
  }

  ensure_allinstfiles_available();
  filesdbinit();
  trig_file_interests_ensure();

  if (pkg->status != stat_notinstalled && pkg->status != stat_configfiles) {
    printf(_("Preparing to replace %s %s (using %s) ...\n"),
           pkg_name(pkg, pnaw_nonambig),
           versiondescribe(&pkg->installed.version,vdew_nonambig),
           pfilename);
    log_action("upgrade", pkg, &pkg->installed);
  } else {
    printf(_("Unpacking %s (from %s) ...\n"),
           pkgbin_name(pkg, &pkg->available, pnaw_nonambig), pfilename);
    log_action("install", pkg, &pkg->available);
  }

  if (f_noact) {
    pop_cleanup(ehflag_normaltidy);
    return;
  }

  /*
   * OK, we're going ahead.
   */

  trig_activate_packageprocessing(pkg);
  strcpy(cidirrest, TRIGGERSCIFILE);
  trig_parse_ci(cidir, NULL, trig_cicb_statuschange_activate, pkg, &pkg->available);

  /* Read the conffiles, and copy the hashes across. */
  newconffiles = NULL;
  newconffileslastp = &newconffiles;
  push_cleanup(cu_fileslist, ~0, NULL, 0, 0);
  strcpy(cidirrest,CONFFILESFILE);
  conff= fopen(cidir,"r");
  if (conff) {
    push_cleanup(cu_closestream, ehflag_bombout, NULL, 0, 1, (void *)conff);
    while (fgets(conffilenamebuf,MAXCONFFILENAME-2,conff)) {
      struct filepackages_iterator *iter;

      p= conffilenamebuf + strlen(conffilenamebuf);
      assert(p != conffilenamebuf);
      if (p[-1] != '\n')
        ohshit(_("name of conffile (starting `%.250s') is too long (>%d characters)"),
               conffilenamebuf, MAXCONFFILENAME);
      while (p > conffilenamebuf && isspace(p[-1])) --p;
      if (p == conffilenamebuf) continue;
      *p = '\0';
      namenode= findnamenode(conffilenamebuf, 0);
      namenode->oldhash= NEWCONFFILEFLAG;
      newconff= newconff_append(&newconffileslastp, namenode);

      /* Let's see if any packages have this file. If they do we
       * check to see if they listed it as a conffile, and if they did
       * we copy the hash across. Since (for plain file conffiles,
       * which is the only kind we are supposed to have) there will
       * only be one package which ‘has’ the file, this will usually
       * mean we only look in the package which we're installing now.
       * The ‘conffiles’ data in the status file is ignored when a
       * package isn't also listed in the file ownership database as
       * having that file. If several packages are listed as owning
       * the file we pick one at random. */
      searchconff = NULL;

      iter = filepackages_iter_new(newconff->namenode);
      while ((otherpkg = filepackages_iter_next(iter))) {
        debug(dbg_conffdetail,
              "process_archive conffile `%s' in package %s - conff ?",
              newconff->namenode->name, pkg_name(otherpkg, pnaw_nonambig));
        for (searchconff = otherpkg->installed.conffiles;
             searchconff && strcmp(newconff->namenode->name, searchconff->name);
             searchconff = searchconff->next)
          debug(dbg_conffdetail,
                "process_archive conffile `%s' in package %s - conff ? not `%s'",
                newconff->namenode->name, pkg_name(otherpkg, pnaw_nonambig),
                searchconff->name);
        if (searchconff) {
          debug(dbg_conff,
                "process_archive conffile `%s' package=%s %s hash=%s",
                newconff->namenode->name, pkg_name(otherpkg, pnaw_nonambig),
                otherpkg == pkg ? "same" : "different!",
                searchconff->hash);
          if (otherpkg == pkg)
            break;
        }
      }
      filepackages_iter_free(iter);

      if (searchconff) {
        newconff->namenode->oldhash= searchconff->hash;
	/* We don't copy ‘obsolete’; it's not obsolete in the new package. */
      } else {
        debug(dbg_conff,"process_archive conffile `%s' no package, no hash",
              newconff->namenode->name);
      }
      newconff->namenode->flags |= fnnf_new_conff;
    }
    if (ferror(conff)) ohshite(_("read error in %.250s"),cidir);
    pop_cleanup(ehflag_normaltidy); /* conff = fopen() */
    if (fclose(conff)) ohshite(_("error closing %.250s"),cidir);
  } else {
    if (errno != ENOENT) ohshite(_("error trying to open %.250s"),cidir);
  }

  /* All the old conffiles are marked with a flag, so that we don't delete
   * them if they seem to disappear completely. */
  oldconffsetflags(pkg->installed.conffiles);
  for (i = 0 ; i < cflict_index ; i++) {
    oldconffsetflags(conflictor[i]->installed.conffiles);
  }

  oldversionstatus= pkg->status;

  assert(oldversionstatus <= stat_installed);
  debug(dbg_general,"process_archive oldversionstatus=%s",
        statusstrings[oldversionstatus]);

  if (oldversionstatus == stat_halfconfigured ||
      oldversionstatus == stat_triggersawaited ||
      oldversionstatus == stat_triggerspending ||
      oldversionstatus == stat_installed) {
    pkg_set_eflags(pkg, eflag_reinstreq);
    pkg_set_status(pkg, stat_halfconfigured);
    modstatdb_note(pkg);
    push_cleanup(cu_prermupgrade, ~ehflag_normaltidy, NULL, 0, 1, (void *)pkg);
    if (versioncompare(&pkg->available.version,
                       &pkg->installed.version) >= 0) /* Upgrade or reinstall */
      maintainer_script_alternative(pkg, PRERMFILE, "pre-removal", cidir, cidirrest,
                                    "upgrade", "failed-upgrade");
    else /* Downgrade => no fallback */
      maintainer_script_installed(pkg, PRERMFILE, "pre-removal", "upgrade",
                                  versiondescribe(&pkg->available.version,
                                                  vdew_nonambig), NULL);
    pkg_set_status(pkg, stat_unpacked);
    oldversionstatus= stat_unpacked;
    modstatdb_note(pkg);
  }

  for (deconpil= deconfigure; deconpil; deconpil= deconpil->next) {
    struct pkginfo *removing = deconpil->pkg_removal;

    if (removing)
      printf(_("De-configuring %s, to allow removal of %s ...\n"),
             pkg_name(deconpil->pkg, pnaw_nonambig),
             pkg_name(removing, pnaw_nonambig));
    else
      printf(_("De-configuring %s ...\n"),
             pkg_name(deconpil->pkg, pnaw_nonambig));

    trig_activate_packageprocessing(deconpil->pkg);
    pkg_set_status(deconpil->pkg, stat_halfconfigured);
    modstatdb_note(deconpil->pkg);

    /* This means that we *either* go and run postinst abort-deconfigure,
     * *or* queue the package for later configure processing, depending
     * on which error cleanup route gets taken. */
    push_cleanup(cu_prermdeconfigure, ~ehflag_normaltidy,
                 ok_prermdeconfigure, ehflag_normaltidy,
                 3, (void*)deconpil->pkg, (void*)removing, (void*)pkg);

    if (removing) {
      maintainer_script_installed(deconpil->pkg, PRERMFILE, "pre-removal",
                                  "deconfigure", "in-favour", pkg->set->name,
                                  versiondescribe(&pkg->available.version,
                                                  vdew_nonambig),
                                  "removing", removing->set->name,
                                  versiondescribe(&removing->installed.version,
                                                  vdew_nonambig),
                                  NULL);
    } else {
      maintainer_script_installed(deconpil->pkg, PRERMFILE, "pre-removal",
                                  "deconfigure", "in-favour", pkg->set->name,
                                  versiondescribe(&pkg->available.version,
                                                  vdew_nonambig),
                                  NULL);
    }
  }

  for (i = 0 ; i < cflict_index; i++) {
    if (!(conflictor[i]->status == stat_halfconfigured ||
          conflictor[i]->status == stat_triggersawaited ||
          conflictor[i]->status == stat_triggerspending ||
          conflictor[i]->status == stat_installed)) continue;
    trig_activate_packageprocessing(conflictor[i]);
    pkg_set_status(conflictor[i], stat_halfconfigured);
    modstatdb_note(conflictor[i]);
    push_cleanup(cu_prerminfavour, ~ehflag_normaltidy, NULL, 0,
                 2,(void*)conflictor[i],(void*)pkg);
    maintainer_script_installed(conflictor[i], PRERMFILE, "pre-removal",
                                "remove", "in-favour", pkg->set->name,
                                versiondescribe(&pkg->available.version,
                                                vdew_nonambig),
                                NULL);
    pkg_set_status(conflictor[i], stat_halfinstalled);
    modstatdb_note(conflictor[i]);
  }

  pkg_set_eflags(pkg, eflag_reinstreq);
  if (pkg->status == stat_notinstalled)
    pkg->installed.version= pkg->available.version;
  pkg_set_status(pkg, stat_halfinstalled);
  modstatdb_note(pkg);
  if (oldversionstatus == stat_notinstalled) {
    push_cleanup(cu_preinstverynew, ~ehflag_normaltidy, NULL, 0,
                 3,(void*)pkg,(void*)cidir,(void*)cidirrest);
    maintainer_script_new(pkg, PREINSTFILE, "pre-installation", cidir, cidirrest,
                          "install", NULL);
  } else if (oldversionstatus == stat_configfiles) {
    push_cleanup(cu_preinstnew, ~ehflag_normaltidy, NULL, 0,
                 3,(void*)pkg,(void*)cidir,(void*)cidirrest);
    maintainer_script_new(pkg, PREINSTFILE, "pre-installation", cidir, cidirrest,
                          "install", versiondescribe(&pkg->installed.version,
                                                     vdew_nonambig),
                          NULL);
  } else {
    push_cleanup(cu_preinstupgrade, ~ehflag_normaltidy, NULL, 0,
                 4,(void*)pkg,(void*)cidir,(void*)cidirrest,(void*)&oldversionstatus);
    maintainer_script_new(pkg, PREINSTFILE, "pre-installation", cidir, cidirrest,
                          "upgrade", versiondescribe(&pkg->installed.version,
                                                     vdew_nonambig),
                          NULL);
    printf(_("Unpacking replacement %.250s ...\n"),
           pkgbin_name(pkg, &pkg->available, pnaw_nonambig));
  }

  /*
   * Now we unpack the archive, backing things up as we go.
   * For each file, we check to see if it already exists.
   * There are several possibilities:
   *
   * + We are trying to install a non-directory ...
   *  - It doesn't exist. In this case we simply extract it.
   *  - It is a plain file, device, symlink, &c. We do an ‘atomic
   *    overwrite’ using link() and rename(), but leave a backup copy.
   *    Later, when we delete the backup, we remove it from any other
   *    packages' lists.
   *  - It is a directory. In this case it depends on whether we're
   *    trying to install a symlink or something else.
   *   = If we're not trying to install a symlink we move the directory
   *     aside and extract the node. Later, when we recursively remove
   *     the backed-up directory, we remove it from any other packages'
   *     lists.
   *   = If we are trying to install a symlink we do nothing - ie,
   *     dpkg will never replace a directory tree with a symlink. This
   *     is to avoid embarrassing effects such as replacing a directory
   *     tree with a link to a link to the original directory tree.
   * + We are trying to install a directory ...
   *  - It doesn't exist. We create it with the appropriate modes.
   *  - It exists as a directory or a symlink to one. We do nothing.
   *  - It is a plain file or a symlink (other than to a directory).
   *    We move it aside and create the directory. Later, when we
   *    delete the backup, we remove it from any other packages' lists.
   *
   *                   Install non-dir   Install symlink   Install dir
   *  Exists not               X               X                X
   *  File/node/symlink       LXR             LXR              BXR
   *  Directory               BXR              -                -
   *
   *    X: extract file/node/link/directory
   *   LX: atomic overwrite leaving backup
   *    B: ordinary backup
   *    R: later remove from other packages' lists
   *    -: do nothing
   *
   * After we've done this we go through the remaining things in the
   * lists of packages we're trying to remove (including the old
   * version of the current package). This happens in reverse order,
   * so that we process files before the directories (or symlinks-to-
   * directories) containing them.
   *
   * + If the thing is a conffile then we leave it alone for the purge
   *   operation.
   * + Otherwise, there are several possibilities too:
   *  - The listed thing does not exist. We ignore it.
   *  - The listed thing is a directory or a symlink to a directory.
   *    We delete it only if it isn't listed in any other package.
   *  - The listed thing is not a directory, but was part of the package
   *    that was upgraded, we check to make sure the files aren't the
   *    same ones from the old package by checking dev/inode
   *  - The listed thing is not a directory or a symlink to one (ie,
   *    it's a plain file, device, pipe, &c, or a symlink to one, or a
   *    dangling symlink). We delete it.
   *
   * The removed packages' list becomes empty (of course, the new
   * version of the package we're installing will have a new list,
   * which replaces the old version's list).
   *
   * If at any stage we remove a file from a package's list, and the
   * package isn't one we're already processing, and the package's
   * list becomes empty as a result, we ‘vanish’ the package. This
   * means that we run its postrm with the ‘disappear’ argument, and
   * put the package in the ‘not-installed’ state. If it had any
   * conffiles, their hashes and ownership will have been transferred
   * already, so we just ignore those and forget about them from the
   * point of view of the disappearing package.
   *
   * NOTE THAT THE OLD POSTRM IS RUN AFTER THE NEW PREINST, since the
   * files get replaced ‘as we go’.
   */

  m_pipe(p1);
  push_cleanup(cu_closepipe, ehflag_bombout, NULL, 0, 1, (void *)&p1[0]);
  pid = subproc_fork();
  if (pid == 0) {
    m_dup2(p1[1],1); close(p1[0]); close(p1[1]);
    execlp(BACKEND, BACKEND, "--fsys-tarfile", filename, NULL);
    ohshite(_("unable to execute %s (%s)"),
            _("package filesystem archive extraction"), BACKEND);
  }
  close(p1[1]);
  p1[1] = -1;

  newfileslist = NULL;
  tc.newfilesp = &newfileslist;
  push_cleanup(cu_fileslist, ~0, NULL, 0, 0);
  tc.pkg= pkg;
  tc.backendpipe= p1[0];

  r = tar_extractor(&tc, &tf);
  if (r) {
    if (errno) {
      ohshite(_("error reading dpkg-deb tar output"));
    } else {
      ohshit(_("corrupted filesystem tarfile - corrupted package archive"));
    }
  }
  fd_skip(p1[0], -1, _("dpkg-deb: zap possible trailing zeros"));
  close(p1[0]);
  p1[0] = -1;
  subproc_wait_check(pid, BACKEND " --fsys-tarfile", PROCPIPE);

  tar_deferred_extract(newfileslist, pkg);

  if (oldversionstatus == stat_halfinstalled || oldversionstatus == stat_unpacked) {
    /* Packages that were in ‘installed’ and ‘postinstfailed’ have been
     * reduced to ‘unpacked’ by now, by the running of the prerm script. */
    pkg_set_status(pkg, stat_halfinstalled);
    modstatdb_note(pkg);
    push_cleanup(cu_postrmupgrade, ~ehflag_normaltidy, NULL, 0, 1, (void *)pkg);
    maintainer_script_alternative(pkg, POSTRMFILE, "post-removal", cidir, cidirrest,
                                  "upgrade", "failed-upgrade");
  }

  /* If anything goes wrong while tidying up it's a bit late to do
   * anything about it. However, we don't install the new status
   * info yet, so that a future dpkg installation will put everything
   * right (we hope).
   *
   * If something does go wrong later the ‘conflictor’ package will be
   * left in the ‘removal_failed’ state. Removing or installing it
   * will be impossible if it was required because of the conflict with
   * the package we're installing now and (presumably) the dependency
   * by other packages. This means that the files it contains in
   * common with this package will hang around until we successfully
   * get this package installed, after which point we can trust the
   * conflicting package's file list, which will have been updated to
   * remove any files in this package. */
  push_checkpoint(~ehflag_bombout, ehflag_normaltidy);

  /* Now we delete all the files that were in the old version of
   * the package only, except (old or new) conffiles, which we leave
   * alone. */
  reversefilelist_init(&rlistit,pkg->clientdata->files);
  while ((namenode= reversefilelist_next(&rlistit))) {
    struct filenamenode *usenode;

    if ((namenode->flags & fnnf_new_conff) ||
        (namenode->flags & fnnf_new_inarchive))
      continue;

    usenode = namenodetouse(namenode, pkg, &pkg->installed);
    trig_file_activate(usenode, pkg);

    varbuf_trunc(&fnamevb, fnameidlu);
    varbuf_add_str(&fnamevb, usenode->name);
    varbuf_end_str(&fnamevb);

    if (!stat(namenode->name,&stab) && S_ISDIR(stab.st_mode)) {
      debug(dbg_eachfiledetail, "process_archive: %s is a directory",
	    namenode->name);
      if (dir_is_used_by_others(namenode, pkg))
        continue;
    }

    if (lstat(fnamevb.buf, &oldfs)) {
      if (!(errno == ENOENT || errno == ELOOP || errno == ENOTDIR))
	warning(_("could not stat old file '%.250s' so not deleting it: %s"),
	        fnamevb.buf, strerror(errno));
      continue;
    }
    if (S_ISDIR(oldfs.st_mode)) {
      if (rmdir(fnamevb.buf)) {
	warning(_("unable to delete old directory '%.250s': %s"),
	        namenode->name, strerror(errno));
      } else if ((namenode->flags & fnnf_old_conff)) {
	warning(_("old conffile '%.250s' was an empty directory "
	          "(and has now been deleted)"), namenode->name);
      }
    } else {
      struct fileinlist *sameas = NULL;
      static struct stat empty_stat;
      struct varbuf cfilename = VARBUF_INIT;

      /*
       * Ok, it's an old file, but is it really not in the new package?
       * It might be known by a different name because of symlinks.
       *
       * We need to check to make sure, so we stat the file, then compare
       * it to the new list. If we find a dev/inode match, we assume they
       * are the same file, and leave it alone. NOTE: we don't check in
       * other packages for sanity reasons (we don't want to stat _all_
       * the files on the system).
       *
       * We run down the list of _new_ files in this package. This keeps
       * the process a little leaner. We are only worried about new ones
       * since ones that stayed the same don't really apply here.
       */

      /* If we can't stat the old or new file, or it's a directory,
       * we leave it up to the normal code. */
      debug(dbg_eachfile, "process_archive: checking %s for same files on "
	    "upgrade/downgrade", fnamevb.buf);

      for (cfile= newfileslist; cfile; cfile= cfile->next) {
	/* If the file has been filtered then treat it as if it didn't exist
	 * on the file system. */
	if (cfile->namenode->flags & fnnf_filtered)
	  continue;
	if (!cfile->namenode->filestat) {
	  struct stat tmp_stat;

	  varbuf_reset(&cfilename);
	  varbuf_add_str(&cfilename, instdir);
	  varbuf_add_char(&cfilename, '/');
	  varbuf_add_str(&cfilename, cfile->namenode->name);
	  varbuf_end_str(&cfilename);

	  if (lstat(cfilename.buf, &tmp_stat) == 0) {
	    cfile->namenode->filestat = nfmalloc(sizeof(struct stat));
	    memcpy(cfile->namenode->filestat, &tmp_stat, sizeof(struct stat));
	  } else {
	    if (!(errno == ENOENT || errno == ELOOP || errno == ENOTDIR))
	      ohshite(_("unable to stat other new file `%.250s'"),
		      cfile->namenode->name);
	    cfile->namenode->filestat = &empty_stat;
	    continue;
	  }
	}
	if (cfile->namenode->filestat == &empty_stat)
	  continue;
	if (oldfs.st_dev == cfile->namenode->filestat->st_dev &&
	    oldfs.st_ino == cfile->namenode->filestat->st_ino) {
	  if (sameas)
	    warning(_("old file '%.250s' is the same as several new files! "
	              "(both '%.250s' and '%.250s')"), fnamevb.buf,
		    sameas->namenode->name, cfile->namenode->name);
	  sameas= cfile;
	  debug(dbg_eachfile, "process_archive: not removing %s,"
		" since it matches %s", fnamevb.buf, cfile->namenode->name);
	}
      }

      varbuf_destroy(&cfilename);

      if ((namenode->flags & fnnf_old_conff)) {
	if (sameas) {
	  if (sameas->namenode->flags & fnnf_new_conff) {
	    if (!strcmp(sameas->namenode->oldhash, NEWCONFFILEFLAG)) {
	      sameas->namenode->oldhash= namenode->oldhash;
	      debug(dbg_eachfile, "process_archive: old conff %s"
		    " is same as new conff %s, copying hash",
		    namenode->name, sameas->namenode->name);
	    } else {
	      debug(dbg_eachfile, "process_archive: old conff %s"
		    " is same as new conff %s but latter already has hash",
		    namenode->name, sameas->namenode->name);
	    }
	  }
	} else {
	  debug(dbg_eachfile, "process_archive: old conff %s"
		" is disappearing", namenode->name);
	  namenode->flags |= fnnf_obs_conff;
	  newconff_append(&newconffileslastp, namenode);
	  addfiletolist(&tc, namenode);
	}
	continue;
      }

      if (sameas)
	continue;

      if (secure_unlink_statted(fnamevb.buf, &oldfs)) {
        warning(_("unable to securely remove old file '%.250s': %s"),
                namenode->name, strerror(errno));
      }

    } /* !S_ISDIR */
  }

  /* OK, now we can write the updated files-in-this package list,
   * since we've done away (hopefully) with all the old junk. */
  write_filelist_except(pkg, &pkg->available, newfileslist, 0);

  /* Trigger interests may have changed.
   * Firstly we go through the old list of interests deleting them.
   * Then we go through the new list adding them. */
  strcpy(cidirrest, TRIGGERSCIFILE);
  trig_parse_ci(pkgadminfile(pkg, &pkg->installed, TRIGGERSCIFILE),
                trig_cicb_interest_delete, NULL, pkg, &pkg->installed);
  trig_parse_ci(cidir, trig_cicb_interest_add, NULL, pkg, &pkg->available);
  trig_file_interests_save();

  /* We also install the new maintainer scripts, and any other
   * cruft that may have come along with the package. First
   * we go through the existing scripts replacing or removing
   * them as appropriate; then we go through the new scripts
   * (any that are left) and install them. */
  debug(dbg_general, "process_archive updating info directory");
  pkg_infodb_update(pkg, cidir, cidirrest);

  /*
   * Update the status database.
   *
   * This involves copying each field across from the ‘available’
   * to the ‘installed’ half of the pkg structure.
   * For some of the fields we have to do a complicated construction
   * operation; for others we can just copy the value.
   * We tackle the fields in the order they appear, so that
   * we don't miss any out :-).
   * At least we don't have to copy any strings that are referred
   * to, because these are never modified and never freed.
   */

  /* The dependencies are the most difficult. We have to build
   * a whole new forward dependency tree. At least the reverse
   * links (linking our deppossi's into the reverse chains)
   * can be done by copy_dependency_links. */
  newdeplist = NULL;
  newdeplistlastp = &newdeplist;
  for (dep= pkg->available.depends; dep; dep= dep->next) {
    newdep= nfmalloc(sizeof(struct dependency));
    newdep->up= pkg;
    newdep->next = NULL;
    newdep->list = NULL;
    newpossilastp = &newdep->list;
    for (possi= dep->list; possi; possi= possi->next) {
      newpossi= nfmalloc(sizeof(struct deppossi));
      newpossi->up= newdep;
      newpossi->ed= possi->ed;
      newpossi->next = NULL;
      newpossi->rev_next = newpossi->rev_prev = NULL;
      newpossi->arch_is_implicit = possi->arch_is_implicit;
      newpossi->arch = possi->arch;
      newpossi->verrel= possi->verrel;
      if (possi->verrel != dvr_none)
        newpossi->version= possi->version;
      else
        blankversion(&newpossi->version);
      newpossi->cyclebreak = false;
      *newpossilastp= newpossi;
      newpossilastp= &newpossi->next;
    }
    newdep->type= dep->type;
    *newdeplistlastp= newdep;
    newdeplistlastp= &newdep->next;
  }
  /* Right, now we've replicated the forward tree, we
   * get copy_dependency_links to remove all the old dependency
   * structures from the reverse links and add the new dependency
   * structures in instead. It also copies the new dependency
   * structure pointer for this package into the right field. */
  copy_dependency_links(pkg,&pkg->installed.depends,newdeplist,0);

  /* We copy the text fields. */
  pkg->installed.essential= pkg->available.essential;
  pkg->installed.multiarch = pkg->available.multiarch;
  pkg->installed.description= pkg->available.description;
  pkg->installed.maintainer= pkg->available.maintainer;
  pkg->installed.source= pkg->available.source;
  pkg->installed.arch = pkg->available.arch;
  pkg->installed.installedsize= pkg->available.installedsize;
  pkg->installed.version= pkg->available.version;
  pkg->installed.origin = pkg->available.origin;
  pkg->installed.bugs = pkg->available.bugs;

  /* We have to generate our own conffiles structure. */
  pkg->installed.conffiles = NULL;
  iconffileslastp = &pkg->installed.conffiles;
  for (cfile= newconffiles; cfile; cfile= cfile->next) {
    newiconff= nfmalloc(sizeof(struct conffile));
    newiconff->next = NULL;
    newiconff->name= nfstrsave(cfile->namenode->name);
    newiconff->hash= nfstrsave(cfile->namenode->oldhash);
    newiconff->obsolete= !!(cfile->namenode->flags & fnnf_obs_conff);
    *iconffileslastp= newiconff;
    iconffileslastp= &newiconff->next;
  }

  /* We can just copy the arbitrary fields list, because it is
   * never even rearranged. Phew! */
  pkg->installed.arbs= pkg->available.arbs;

  /* Check for disappearing packages:
   * We go through all the packages on the system looking for ones
   * whose files are entirely part of the one we've just unpacked
   * (and which actually *have* some files!).
   *
   * Any that we find are removed - we run the postrm with ‘disappear’
   * as an argument, and remove their info/... files and status info.
   * Conffiles are ignored (the new package had better do something
   * with them!). */
  it = pkg_db_iter_new();
  while ((otherpkg = pkg_db_iter_next_pkg(it)) != NULL) {
    ensure_package_clientdata(otherpkg);
    if (otherpkg == pkg ||
        otherpkg->status == stat_notinstalled ||
        otherpkg->status == stat_configfiles ||
	otherpkg->clientdata->istobe == itb_remove ||
        !otherpkg->clientdata->files) continue;
    debug(dbg_veryverbose, "process_archive checking disappearance %s",
          pkg_name(otherpkg, pnaw_nonambig));
    assert(otherpkg->clientdata->istobe == itb_normal ||
           otherpkg->clientdata->istobe == itb_deconfigure);
    for (cfile= otherpkg->clientdata->files;
         cfile && !strcmp(cfile->namenode->name,"/.");
         cfile= cfile->next);
    if (!cfile) {
      debug(dbg_stupidlyverbose, "process_archive no non-root, no disappear");
      continue;
    }
    for (cfile= otherpkg->clientdata->files;
         cfile && !filesavespackage(cfile,otherpkg,pkg);
         cfile= cfile->next);
    if (cfile) continue;

    /* So dependency things will give right answers ... */
    otherpkg->clientdata->istobe= itb_remove;
    debug(dbg_veryverbose, "process_archive disappear checking dependencies");
    for (pdep = otherpkg->set->depended.installed;
         pdep;
         pdep = pdep->rev_next) {
      if (pdep->up->type != dep_depends && pdep->up->type != dep_predepends &&
          pdep->up->type != dep_recommends) continue;
      if (depisok(pdep->up, &depprobwhy, NULL, NULL, false))
        continue;
      varbuf_end_str(&depprobwhy);
      debug(dbg_veryverbose,"process_archive cannot disappear: %s",depprobwhy.buf);
      break;
    }
    if (!pdep) {
      /* If we haven't found a reason not to yet, let's look some more. */
      for (providecheck= otherpkg->installed.depends;
           providecheck;
           providecheck= providecheck->next) {
        if (providecheck->type != dep_provides) continue;
        for (pdep = providecheck->list->ed->depended.installed;
             pdep;
             pdep = pdep->rev_next) {
          if (pdep->up->type != dep_depends && pdep->up->type != dep_predepends &&
              pdep->up->type != dep_recommends)
            continue;
          if (depisok(pdep->up, &depprobwhy, NULL, NULL, false))
            continue;
          varbuf_end_str(&depprobwhy);
          debug(dbg_veryverbose,"process_archive cannot disappear (provides %s): %s",
                providecheck->list->ed->name, depprobwhy.buf);
          goto break_from_both_loops_at_once;
        }
      }
    break_from_both_loops_at_once:;
    }
    otherpkg->clientdata->istobe= itb_normal;
    if (pdep) continue;

    /* No, we're disappearing it. This is the wrong time to go and
     * run maintainer scripts and things, as we can't back out. But
     * what can we do ?  It has to be run this late. */
    pkg_disappear(otherpkg, pkg);
  } /* while (otherpkg= ... */
  pkg_db_iter_free(it);

  /* Delete files from any other packages' lists.
   * We have to do this before we claim this package is in any
   * sane kind of state, as otherwise we might delete by mistake
   * a file that we overwrote, when we remove the package which
   * had the version we overwrote. To prevent this we make
   * sure that we don't claim this package is OK until we
   * have claimed ‘ownership’ of all its files. */
  for (cfile= newfileslist; cfile; cfile= cfile->next) {
    struct filepackages_iterator *iter;
    struct pkgset *divpkgset;

    if (!(cfile->namenode->flags & fnnf_elide_other_lists)) continue;
    if (cfile->namenode->divert && cfile->namenode->divert->useinstead) {
      divpkgset = cfile->namenode->divert->pkgset;
      if (divpkgset == pkg->set) {
        debug(dbg_eachfile,
              "process_archive not overwriting any `%s' (overriding, `%s')",
              cfile->namenode->name, cfile->namenode->divert->useinstead->name);
        continue;
      } else {
        debug(dbg_eachfile,
              "process_archive looking for overwriting `%s' (overridden by %s)",
              cfile->namenode->name, divpkgset ? divpkgset->name : "<local>");
      }
    } else {
      divpkgset = NULL;
      debug(dbg_eachfile, "process_archive looking for overwriting `%s'",
            cfile->namenode->name);
    }
    iter = filepackages_iter_new(cfile->namenode);
    while ((otherpkg = filepackages_iter_next(iter))) {
      debug(dbg_eachfiledetail, "process_archive ... found in %s",
            pkg_name(otherpkg, pnaw_nonambig));
      /* If !fileslistvalid then it's one of the disappeared packages above
       * and we don't bother with it here, clearly. */
      if (otherpkg == pkg || !otherpkg->clientdata->fileslistvalid)
        continue;
      if (otherpkg->set == divpkgset) {
        debug(dbg_eachfiledetail, "process_archive ... diverted, skipping");
        continue;
      }

      /* Found one. We delete remove the list entry for this file,
       * (and any others in the same package) and then mark the package
       * as requiring a reread. */
      write_filelist_except(otherpkg, &otherpkg->installed,
                            otherpkg->clientdata->files, fnnf_elide_other_lists);
      ensure_package_clientdata(otherpkg);
      debug(dbg_veryverbose, "process_archive overwrote from %s",
            pkg_name(otherpkg, pnaw_nonambig));
    }
    filepackages_iter_free(iter);
  }

  /* Right, the package we've unpacked is now in a reasonable state.
   * The only thing that we have left to do with it is remove
   * backup files, and we can leave the user to fix that if and when
   * it happens (we leave the reinstall required flag, of course). */
  pkg_set_status(pkg, stat_unpacked);
  modstatdb_note(pkg);

  /* Now we delete all the backup files that we made when
   * extracting the archive - except for files listed as conffiles
   * in the new package.
   * This time we count it as an error if something goes wrong.
   *
   * Note that we don't ever delete things that were in the old
   * package as a conffile and don't appear at all in the new.
   * They stay recorded as obsolete conffiles and will eventually
   * (if not taken over by another package) be forgotten. */
  for (cfile= newfileslist; cfile; cfile= cfile->next) {
    if (cfile->namenode->flags & fnnf_new_conff) continue;
    varbuf_trunc(&fnametmpvb, fnameidlu);
    varbuf_add_str(&fnametmpvb,
                   namenodetouse(cfile->namenode, pkg, &pkg->installed)->name);
    varbuf_add_str(&fnametmpvb, DPKGTEMPEXT);
    varbuf_end_str(&fnametmpvb);
    ensure_pathname_nonexisting(fnametmpvb.buf);
  }

  /* OK, we're now fully done with the main package.
   * This is quite a nice state, so we don't unwind past here. */
  pkg_reset_eflags(pkg);
  modstatdb_note(pkg);
  push_checkpoint(~ehflag_bombout, ehflag_normaltidy);

  /* Only the removal of the conflictor left to do.
   * The files list for the conflictor is still a little inconsistent in-core,
   * as we have not yet updated the filename->packages mappings; however,
   * the package->filenames mapping is. */
  for (i = 0 ; i < cflict_index ; i++) {
    /* We need to have the most up-to-date info about which files are
     * what ... */
    ensure_allinstfiles_available();
    removal_bulk(conflictor[i]);
  }

  if (cipaction->arg_int == act_install)
    add_to_queue(pkg);
}
Ejemplo n.º 10
0
int
main(int argc, char *argv[])
{
	struct ifreq ifr;
	struct ipsectunnelconf shc;
	int s;
	int c;
	int argcount = argc;
	int createdelete = 0;
	char virtname[64];
        struct stat sts;
     
	memset(&ifr, 0, sizeof(ifr));
	memset(&shc, 0, sizeof(shc));
	virtname[0]='\0';
	progname = argv[0];

	tool_init_log();

	while((c = getopt_long_only(argc, argv, ""/*"adchvV:P:l:+:"*/, longopts, 0)) != EOF) {
		switch(c) {
		case 'g':
			debug = 1;
			argcount--;
			break;
		case 'a':
			check_conflict(shc.cf_cmd, createdelete);
			shc.cf_cmd = IPSEC_SET_DEV;
			break;
		case 'd':
			check_conflict(shc.cf_cmd, createdelete);
			shc.cf_cmd = IPSEC_DEL_DEV;
			break;
		case 'c':
			check_conflict(shc.cf_cmd, createdelete);
			shc.cf_cmd = IPSEC_CLR_DEV;
			break;
		case 'h':
			usage(progname);
			break;
		case 'v':
			if(optarg) {
				fprintf(stderr, "%s: warning; '-v' and '--version' options don't expect arguments, arg '%s' found, perhaps unintended.\n",
					progname, optarg);
			}
			fprintf(stdout, "%s, use ipsec --version instead\n", progname);
			exit(1);
			break;

		case 'C':
			check_conflict(shc.cf_cmd, createdelete);
			createdelete = SADB_X_PLUMBIF;
			strncat(virtname, optarg, sizeof(virtname)-1);
			break;
		case 'D':
			check_conflict(shc.cf_cmd, createdelete);
			createdelete = SADB_X_UNPLUMBIF;
			strncat(virtname, optarg, sizeof(virtname)-1);
			break;

		case 'V':
			strncpy(ifr.ifr_name, optarg, sizeof(ifr.ifr_name));
			break;
		case 'P':
			strncpy(shc.cf_name, optarg, sizeof(shc.cf_name));
			break;
		case 'l':
			progname = malloc(strlen(argv[0])
					      + 10 /* update this when changing the sprintf() */
					      + strlen(optarg));
			sprintf(progname, "%s --label %s",
				argv[0],
				optarg);
			argcount -= 2;
			break;
		case '+': /* optionsfrom */
			optionsfrom(optarg, &argc, &argv, optind, stderr);
			/* no return on error */
			break;
		default:
			usage(progname);
			break;
		}
	}

        if ( ((stat ("/proc/net/pfkey", &sts)) == 0) )  {
                fprintf(stderr, "%s: NETKEY does not support virtual interfaces.\n",progname);
                exit(1);
        }

        if(argcount == 1) {
                int ret = 1;
                if ((stat ("/proc/net/ipsec_tncfg", &sts)) != 0)  {
                        fprintf(stderr, "%s: No tncfg - no IPsec support in kernel (are the modules loaded?)\n", progname);
                } else {
                        ret = system("cat /proc/net/ipsec_tncfg");
                        ret = ret != -1 && WIFEXITED(ret) ? WEXITSTATUS(ret) : 1;
                }
                exit(ret);
        }

	/* overlay our struct ipsectunnel onto ifr.ifr_ifru union (hope it fits!) */
	if (sizeof(ifr.ifr_ifru) < sizeof(shc)) {
	    fprintf(stderr, "%s: Internal error: struct ipsectunnelconf won't fit inside struct ifreq\n",
		progname);
	    exit(1);
	}
	memcpy(&ifr.ifr_ifru.ifru_newname, &shc, sizeof(shc));

	/* are we creating/deleting a virtual (mastXXX/ipsecXXX) interface? */
	if(createdelete) {
		exit(createdelete_virtual(createdelete, virtname));
	}

	switch(shc.cf_cmd) {
	case IPSEC_SET_DEV:
		if(!shc.cf_name[0]) {
			fprintf(stderr, "%s: physical I/F parameter missing.\n",
				progname);
			exit(1);
		}
	case IPSEC_DEL_DEV:
		if(!ifr.ifr_name[0]) {
			fprintf(stderr, "%s: virtual I/F parameter missing.\n",
				progname);
			exit(1);
		}
		break;
	case IPSEC_CLR_DEV:
		strncpy(ifr.ifr_name, "ipsec0", sizeof(ifr.ifr_name));
		break;
	default:
		fprintf(stderr, "%s: exactly one of '--attach', '--detach' or '--clear' options must be specified.\n"
			"Try %s --help' for usage information.\n",
			progname, progname);
		exit(1);
	}

	s=safe_socket(AF_INET, SOCK_DGRAM,0);
	if(s==-1)
	{
		fprintf(stderr, "%s: Socket creation failed -- ", progname);
		switch(errno)
		{
		case EACCES:
			if(getuid()==0)
				fprintf(stderr, "Root denied permission!?!\n");
			else
				fprintf(stderr, "Run as root user.\n");
			break;
		case EPROTONOSUPPORT:
			fprintf(stderr, "Internet Protocol not enabled");
			break;
		case EMFILE:
		case ENFILE:
		case ENOBUFS:
			fprintf(stderr, "Insufficient system resources.\n");
			break;
		case ENODEV:
			fprintf(stderr, "No such device.  Is the virtual device valid?  Is the ipsec module linked into the kernel or loaded as a module?\n");
			break;
		default:
			fprintf(stderr, "Unknown socket error %d.\n", errno);
		}
		exit(1);
	}
	if(ioctl(s, shc.cf_cmd, &ifr)==-1)
	{
		switch (shc.cf_cmd)
		{
		case IPSEC_SET_DEV:
			fprintf(stderr, "%s: Socket ioctl failed on attach -- ", progname);
			switch(errno)
			{
			case EINVAL:
				fprintf(stderr, "Invalid argument, check kernel log messages for specifics.\n");
				break;
			case ENODEV:
				fprintf(stderr, "No such device.  Is the virtual device valid?  Is the ipsec module linked into the kernel or loaded as a module?\n");
				break;
			case ENXIO:
				fprintf(stderr, "No such device.  Is the physical device valid?\n");
				break;
			case EBUSY:
				fprintf(stderr, "Device busy.  Virtual device %s is already attached to a physical device -- Use detach first.\n",
				       ifr.ifr_name);
				break;
			default:
				fprintf(stderr, "Unknown socket error %d.\n", errno);
			}
			exit(1);

		case IPSEC_DEL_DEV:
			fprintf(stderr, "%s: Socket ioctl failed on detach -- ", progname);
			switch(errno)
			{
			case EINVAL:
				fprintf(stderr, "Invalid argument, check kernel log messages for specifics.\n");
				break;
			case ENODEV:
				fprintf(stderr, "No such device.  Is the virtual device valid?  The ipsec module may not be linked into the kernel or loaded as a module.\n");
				break;
			case ENXIO:
				fprintf(stderr, "Device requested is not linked to any physical device.\n");
				break;
			default:
				fprintf(stderr, "Unknown socket error %d.\n", errno);
			}
			exit(1);

		case IPSEC_CLR_DEV:
			fprintf(stderr, "%s: Socket ioctl failed on clear -- ", progname);
			switch(errno)
			{
			case EINVAL:
				fprintf(stderr, "Invalid argument, check kernel log messages for specifics.\n");
				break;
			case ENODEV:
				fprintf(stderr, "Failed.  Is the ipsec module linked into the kernel or loaded as a module?.\n");
				break;
			default:
				fprintf(stderr, "Unknown socket error %d.\n", errno);
			}
			exit(1);
		default:
			fprintf(stderr, "%s: Socket ioctl failed on unknown operation %u -- %s", progname, (unsigned) shc.cf_cmd, strerror(errno));
			exit(1);
		}
	}
	exit(0);
}
Ejemplo n.º 11
0
/****************MAIN************/ 
int main(int argc, char **argv){ 
  clock_t start,end; 
  int row;
  char line[100],filename[100];
  int s_time;
  srand(time(NULL));
  start=clock();
  
  /* get the puzzle*/
  if(argc<2){
    printf("Input a file name.\n");
    fgets(line,sizeof(line),stdin);
    sscanf(line,"%s",filename);
  }
  else
    strcpy(filename,argv[1]);
    
  fp=fopen(filename,"r");
  if(!fp){
    printf("File not found.\n");
    exit(1);
  }
  get_sudoku(fp); 
  fclose(fp); 
  printf("The given solution:\n"); 
  print_table(sudoku,stdout); // print the sudoku puzzle
  
  /* Check if there is any conflict in the input puzzle.*/
  if(check_conflict())
    return 0;
  
  if(argc>2){
    limit_empty=atoi(argv[2]);
  }
  else{
    printf("Please Enter number of empty grids you want.\n(MAXIMUM=%d)\n",LIMIT_EMPTY);
    fgets(line,sizeof(line),stdin);
    limit_empty=atoi(line);
  }
  
  while(limit_empty>LIMIT_EMPTY){
    printf("Too large number.Input again!\n");
    fgets(line,sizeof(line),stdin);
    limit_empty=atoi(line);
  }
 
  if(limit_empty>=55){
    norm=limit_empty-50;
  }
  else
    norm=4;
  max_empty=limit_empty-norm;

  if(limit_empty>=55){
    if(limit_empty==58){
      printf("Please wait. Depend on the puzzle, this process may take up to several ten minutes.\n");
      printf("Press Crl+C to terminate the process\n");
    }
    else
      printf("Please wait a minute or less.\n");
  }
  
  create();
  if(max_empty>=limit_empty){
    printf("SUCCESS.\n");
    printf("\nThe sudoku puzzle.\nNumber of empty grids=%d\n",max_empty);
    print_table(result,stdout);
    printf("Result is saved in result.txt.\n");
  }
  else
    printf("FAILURE.\n");
  
  if(max_empty==LIMIT_EMPTY){
    system("cat result.txt best.txt>new_best.txt");
    system("mv new_best.txt best.txt");
  }
  
  end=clock();
  printf("Time elapsed: %e(s)\n",(double)(end-start)/CLOCKS_PER_SEC);
  return 0; 
}