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/*
* dpkg - main program for package management
* trigproc.c - trigger processing
*
* Copyright © 2007 Canonical Ltd
* written by Ian Jackson <ian@chiark.greenend.org.uk>
*
* This is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <config.h>
#include <compat.h>
#include <sys/fcntl.h>
#include <sys/stat.h>
#include <assert.h>
#include <stdlib.h>
#include <dpkg/i18n.h>
#include <dpkg/dpkg.h>
#include <dpkg/dpkg-db.h>
#include <dpkg/pkg-queue.h>
#include <dpkg/triglib.h>
#include "main.h"
#include "filesdb.h"
/*
* Trigger processing algorithms:
*
*
* There is a separate queue (‘deferred trigproc list’) for triggers
* ‘relevant’ to what we just did; when we find something triggered ‘now’
* we add it to that queue (unless --no-triggers).
*
*
* We want to prefer configuring packages where possible to doing
* trigger processing, but we want to prefer trigger processing to
* cycle-breaking and dependency forcing. This is achieved as
* follows:
*
* Each time during configure processing where a package D is blocked by
* only (ie Depends unsatisfied but would be satisfied by) a t-awaiter W
* we make a note of (one of) W's t-pending, T. (Only the last such T.)
* (If --no-triggers and nonempty argument list and package isn't in
* argument list then we don't do this.)
*
* Each time in packages.c where we increment dependtry, we instead see
* if we have encountered such a t-pending T. If we do, we trigproc T
* instead of incrementing dependtry and this counts as having done
* something so we reset sincenothing.
*
*
* For --triggers-only and --configure, we go through each thing in the
* argument queue (the add_to_queue queue) and check what its state is
* and if appropriate we trigproc it. If we didn't have a queue (or had
* just --pending) we search all triggers-pending packages and add them
* to the deferred trigproc list.
*
*
* Before quitting from most operations, we trigproc each package in the
* deferred trigproc list. This may (if not --no-triggers) of course add
* new things to the deferred trigproc list.
*
*
* Note that ‘we trigproc T’ must involve trigger cycle detection and
* also automatic setting of t-awaiters to t-pending or installed. In
* particular, we do cycle detection even for trigger processing in the
* configure dependtry loop (and it is OK to do it for explicitly
* specified packages from the command line arguments; duplicates are
* removed by packages.c:process_queue).
*/
/*========== Deferred trigger queue. ==========*/
static struct pkg_queue deferred = PKG_QUEUE_INIT;
static void
trigproc_enqueue_deferred(struct pkginfo *pend)
{
if (f_triggers < 0)
return;
ensure_package_clientdata(pend);
if (pend->clientdata->trigprocdeferred)
return;
pend->clientdata->trigprocdeferred = pkg_queue_push(&deferred, pend);
debug(dbg_triggers, "trigproc_enqueue_deferred pend=%s", pend->name);
}
void
trigproc_run_deferred(void)
{
jmp_buf ejbuf;
debug(dbg_triggers, "trigproc_run_deferred");
while (!pkg_queue_is_empty(&deferred)) {
struct pkginfo *pkg;
pkg = pkg_queue_pop(&deferred);
if (!pkg)
continue;
if (setjmp(ejbuf)) {
pop_error_context(ehflag_bombout);
continue;
}
push_error_context_jump(&ejbuf, print_error_perpackage,
pkg->name);
pkg->clientdata->trigprocdeferred = NULL;
trigproc(pkg);
pop_error_context(ehflag_normaltidy);
}
}
/*
* Called by modstatdb_note.
*/
void
trig_activate_packageprocessing(struct pkginfo *pkg)
{
debug(dbg_triggersdetail, "trigproc_activate_packageprocessing pkg=%s",
pkg->name);
trig_parse_ci(pkgadminfile(pkg, TRIGGERSCIFILE), NULL,
trig_cicb_statuschange_activate, pkg);
}
/*========== Actual trigger processing. ==========*/
struct trigcyclenode {
struct trigcyclenode *next;
struct trigcycleperpkg *pkgs;
struct pkginfo *then_processed;
};
struct trigcycleperpkg {
struct trigcycleperpkg *next;
struct pkginfo *pkg;
struct trigpend *then_trigs;
};
static bool tortoise_advance;
static struct trigcyclenode *tortoise, *hare;
void
trigproc_reset_cycle(void)
{
tortoise_advance = false;
tortoise = hare = NULL;
}
/*
* Returns package we're to give up on.
*/
static struct pkginfo *
check_trigger_cycle(struct pkginfo *processing_now)
{
struct trigcyclenode *tcn;
struct trigcycleperpkg *tcpp, *tortoise_pkg;
struct trigpend *hare_trig, *tortoise_trig;
struct pkgiterator *it;
struct pkginfo *pkg, *giveup;
const char *sep;
debug(dbg_triggers, "check_triggers_cycle pnow=%s", processing_now->name);
tcn = nfmalloc(sizeof(*tcn));
tcn->pkgs = NULL;
tcn->then_processed = processing_now;
it = pkg_db_iter_new();
while ((pkg = pkg_db_iter_next(it))) {
if (!pkg->trigpend_head)
continue;
tcpp = nfmalloc(sizeof(*tcpp));
tcpp->pkg = pkg;
tcpp->then_trigs = pkg->trigpend_head;
tcpp->next = tcn->pkgs;
tcn->pkgs = tcpp;
}
pkg_db_iter_free(it);
if (!hare) {
debug(dbg_triggersdetail, "check_triggers_cycle pnow=%s first",
processing_now->name);
tcn->next = NULL;
hare = tortoise = tcn;
return NULL;
}
tcn->next = NULL;
hare->next = tcn;
hare = tcn;
if (tortoise_advance)
tortoise = tortoise->next;
tortoise_advance = !tortoise_advance;
/* Now we compare hare to tortoise.
* We want to find a trigger pending in tortoise which is not in hare
* if we find such a thing we have proved that hare isn't a superset
* of tortoise and so that we haven't found a loop (yet). */
for (tortoise_pkg = tortoise->pkgs;
tortoise_pkg;
tortoise_pkg = tortoise_pkg->next) {
debug(dbg_triggersdetail, "check_triggers_cycle pnow=%s tortoise=%s",
processing_now->name, tortoise_pkg->pkg->name);
for (tortoise_trig = tortoise_pkg->then_trigs;
tortoise_trig;
tortoise_trig = tortoise_trig->next) {
debug(dbg_triggersdetail,
"check_triggers_cycle pnow=%s tortoise=%s"
" tortoisetrig=%s", processing_now->name,
tortoise_pkg->pkg->name, tortoise_trig->name);
/* hare is now so we can just look up in the actual
* data. */
for (hare_trig = tortoise_pkg->pkg->trigpend_head;
hare_trig;
hare_trig = hare_trig->next) {
debug(dbg_triggersstupid,
"check_triggers_cycle pnow=%s tortoise=%s"
" tortoisetrig=%s haretrig=%s",
processing_now->name, tortoise_pkg->pkg->name,
tortoise_trig->name, hare_trig->name);
if (!strcmp(hare_trig->name, tortoise_trig->name))
goto found_in_hare;
}
/* Not found in hare, yay! */
debug(dbg_triggersdetail,
"check_triggers_cycle pnow=%s tortoise=%s OK",
processing_now->name, tortoise_pkg->pkg->name);
return NULL;
found_in_hare:;
}
}
/* Oh dear. hare is a superset of tortoise. We are making no
* progress. */
fprintf(stderr, _("%s: cycle found while processing triggers:\n chain of"
" packages whose triggers are or may be responsible:\n"),
thisname);
sep = " ";
for (tcn = tortoise; tcn; tcn = tcn->next) {
fprintf(stderr, "%s%s", sep, tcn->then_processed->name);
sep = " -> ";
}
fprintf(stderr, _("\n" " packages' pending triggers which are"
" or may be unresolvable:\n"));
for (tortoise_pkg = tortoise->pkgs;
tortoise_pkg;
tortoise_pkg = tortoise_pkg->next) {
fprintf(stderr, " %s", tortoise_pkg->pkg->name);
sep = ": ";
for (tortoise_trig = tortoise_pkg->then_trigs;
tortoise_trig;
tortoise_trig = tortoise_trig->next) {
fprintf(stderr, "%s%s", sep, tortoise_trig->name);
}
fprintf(stderr, "\n");
}
/* We give up on the _earliest_ package involved. */
giveup = tortoise->pkgs->pkg;
debug(dbg_triggers, "check_triggers_cycle pnow=%s giveup=%p",
processing_now->name, giveup->name);
assert(giveup->status == stat_triggersawaited ||
giveup->status == stat_triggerspending);
giveup->status = stat_halfconfigured;
modstatdb_note(giveup);
print_error_perpackage(_("triggers looping, abandoned"), giveup->name);
return giveup;
}
/*
* Does cycle checking. Doesn't mind if pkg has no triggers pending - in
* that case does nothing but fix up any stale awaiters.
*/
void
trigproc(struct pkginfo *pkg)
{
static struct varbuf namesarg;
struct trigpend *tp;
struct pkginfo *gaveup;
debug(dbg_triggers, "trigproc %s", pkg->name);
if (pkg->clientdata->trigprocdeferred)
pkg->clientdata->trigprocdeferred->pkg = NULL;
pkg->clientdata->trigprocdeferred = NULL;
if (pkg->trigpend_head) {
assert(pkg->status == stat_triggerspending ||
pkg->status == stat_triggersawaited);
gaveup = check_trigger_cycle(pkg);
if (gaveup == pkg)
return;
printf(_("Processing triggers for %s ...\n"), pkg->name);
log_action("trigproc", pkg);
varbuf_reset(&namesarg);
for (tp = pkg->trigpend_head; tp; tp = tp->next) {
varbuf_add_char(&namesarg, ' ');
varbuf_add_str(&namesarg, tp->name);
}
varbuf_end_str(&namesarg);
/* Setting the status to half-configured
* causes modstatdb_note to clear pending triggers. */
pkg->status = stat_halfconfigured;
modstatdb_note(pkg);
if (!f_noact) {
sincenothing = 0;
maintainer_script_postinst(pkg, "triggered",
namesarg.buf + 1, NULL);
}
/* This is to cope if the package triggers itself: */
pkg->status = pkg->trigaw.head ? stat_triggersawaited :
pkg->trigpend_head ? stat_triggerspending :
stat_installed;
post_postinst_tasks_core(pkg);
} else {
/* In other branch is done by modstatdb_note. */
trig_clear_awaiters(pkg);
}
}
/*========== Transitional global activation. ==========*/
static void
transitional_interest_callback_ro(const char *trig, void *user)
{
struct pkginfo *pend = user;
debug(dbg_triggersdetail,
"trig_transitional_interest_callback trig=%s pend=%s",
trig, pend->name);
if (pend->status >= stat_triggersawaited)
trig_note_pend(pend, nfstrsave(trig));
}
static void
transitional_interest_callback(const char *trig, void *user)
{
struct pkginfo *pend = user;
trig_cicb_interest_add(trig, pend);
transitional_interest_callback_ro(trig, user);
}
/*
* cstatus might be msdbrw_readonly if we're in --no-act mode, in which
* case we don't write out all of the interest files etc. but we do
* invent all of the activations for our own benefit.
*/
static void
trig_transitional_activate(enum modstatdb_rw cstatus)
{
struct pkgiterator *it;
struct pkginfo *pkg;
it = pkg_db_iter_new();
while ((pkg = pkg_db_iter_next(it))) {
if (pkg->status <= stat_halfinstalled)
continue;
debug(dbg_triggersdetail, "trig_transitional_activate %s %s",
pkg->name, statusinfos[pkg->status].name);
pkg->trigpend_head = NULL;
trig_parse_ci(pkgadminfile(pkg, TRIGGERSCIFILE),
cstatus >= msdbrw_write ?
transitional_interest_callback :
transitional_interest_callback_ro, NULL, pkg);
/* Ensure we're not creating incoherent data that can't
* be written down. This should never happen in theory but
* can happen if you restore an old status file that is
* not in sync with the infodb files. */
pkg->status = pkg->trigaw.head ? stat_triggersawaited :
pkg->trigpend_head ? stat_triggerspending :
stat_installed;
}
pkg_db_iter_free(it);
if (cstatus >= msdbrw_write) {
modstatdb_checkpoint();
trig_file_interests_save();
}
}
/*========== Hook setup. ==========*/
static struct filenamenode *
th_proper_nn_find(const char *name, bool nonew)
{
return findnamenode(name, nonew ? fnn_nonew : 0);
}
TRIGHOOKS_DEFINE_NAMENODE_ACCESSORS
static const struct trig_hooks trig_our_hooks = {
.enqueue_deferred = trigproc_enqueue_deferred,
.transitional_activate = trig_transitional_activate,
.namenode_find = th_proper_nn_find,
.namenode_interested = th_nn_interested,
.namenode_name = th_nn_name,
};
void
trigproc_install_hooks(void)
{
trig_override_hooks(&trig_our_hooks);
}
|