triggers.txt 35 KB

123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361362363364365366367368369370371372373374375376377378379380381382383384385386387388389390391392393394395396397398399400401402403404405406407408409410411412413414415416417418419420421422423424425426427428429430431432433434435436437438439440441442443444445446447448449450451452453454455456457458459460461462463464465466467468469470471472473474475476477478479480481482483484485486487488489490491492493494495496497498499500501502503504505506507508509510511512513514515516517518519520521522523524525526527528529530531532533534535536537538539540541542543544545546547548549550551552553554555556557558559560561562563564565566567568569570571572573574575576577578579580581582583584585586587588589590591592593594595596597598599600601602603604605606607608609610611612613614615616617618619620621622623624625626627628629630631632633634635636637638639640641642643644645646647648649650651652653654655656657658659660661662663664665666667668669670671672673674675676677678679680681682683684685686687688689690691692693694695696697698699700701702703704705706707708709710711712713714715716717718719720721722723724725726727728729730731732733734735736737738739740741742743744745746747748749750751752753754755756757758759760761762763764765766767768769770771772773774775776777778779780781782783784785786787788789790791792793794795796797798799800801802803804805806807808809810811812813814
  1. TRIGGERS
  2. ========
  3. Introduction
  4. ------------
  5. A dpkg trigger is a facility that allows events caused by one package
  6. but of interest to another package to be recorded and aggregated, and
  7. processed later by the interested package. This feature simplifies
  8. various registration and system-update tasks and reduces duplication
  9. of processing.
  10. (NB: Triggers are intended for events that occur during package
  11. installation, not events that occur in general operation.)
  12. Concepts
  13. --------
  14. Each trigger is named, and at any time zero or more packages may be
  15. interested in it.
  16. We currently envisage three kinds of triggers:
  17. * Explicit triggers. These can be activated by any program
  18. by running dpkg-trigger (at any time, but ideally from a maintainer
  19. script).
  20. * File triggers. These are activated automatically by dpkg
  21. when a matching file is installed, upgraded or removed as part
  22. of a package. They may also be explicitly activated by running
  23. dpkg-trigger.
  24. * Future kinds of special triggers, which are activated by magic code
  25. in dpkg itself. Currently none are defined besides file triggers.
  26. A trigger is always activated by a particular package.
  27. Trigger names contain only printing 7-bit ascii characters (no
  28. whitespace). Each trigger kind has a distinct subset of the trigger
  29. name space so that the kind can be determined from the name. After we
  30. run out of straightforward syntaxes, we will use <kind>:<details>.
  31. When a trigger is activated, it becomes pending for every package
  32. which is interested in the trigger at that time. Each package has a
  33. list of zero or more pending triggers. Repeated activation of the
  34. same trigger has no additional effect. Note that in general a trigger
  35. will not be processed immediately when it is activated; processing is
  36. deferred until it is convenient (as described below).
  37. At a trigger activation, the interested packages(s) are added to the
  38. triggering package's list of triggers-awaited packages (unless the
  39. trigger has been configured to not require it); the triggering
  40. package is said to await the trigger processing.
  41. A package which has pending triggers, or which awaits triggers, is not
  42. considered properly installed. There are two new dpkg status values,
  43. ‘triggers-pending’ and ‘triggers-awaited’, which lie between
  44. ‘config-failed’ and ‘installed’.
  45. Details - Overview table
  46. ------------------------
  47. Status Pending Awaited Satisfies Remedy
  48. triggers triggers Depends
  49. unpacked never maybe No postinst configure
  50. c.-failed never maybe No postinst configure (when requested)
  51. t.-awaited yes always No postinst triggered + fix awaited pkg(s)
  52. t.-awaited no always No fix awaited package(s)
  53. t.-pending always never Yes postinst triggered
  54. installed never never Yes n/a
  55. Packages in t-awaited and t-pending demand satisfaction of their
  56. dependencies just like packages in installed.
  57. Details - triggering package
  58. ----------------------------
  59. When a package T activates a trigger in which a package I is
  60. interested, I is added to the list of packages whose trigger
  61. processing is awaited by T. Zero or more packages I may be added as a
  62. result of any particular trigger activation, depending on how many
  63. packages were interested. (If T chooses, explicit trigger activation
  64. using dpkg-trigger of I by T need not make T become triggers-awaited
  65. in this way..)
  66. A package which awaits trigger processing but would otherwise be
  67. ‘installed’ or ‘triggers-pending’ is considered to be in state
  68. ‘triggers-awaited’. Packages in ‘triggers-awaited’ do not satisfy
  69. Depends dependencies.
  70. Every triggered package I in T's list of awaited packages either has a
  71. nonempty list of pending triggers, or is in ‘config-failed’ or worse.
  72. When I enters ‘installed’ (or ‘config-files’ or ‘not-installed’), the
  73. entry in T's list of awaited packages is removed so that T may, if it
  74. no longer awaits any packages, become ‘installed’ or ‘triggers-pending’.
  75. Packages in ‘config-files’ or ‘not-installed’ do not await triggers.
  76. Details - triggered package
  77. ---------------------------
  78. When one of the triggers in which a package is interested is
  79. activated, the triggered package has the trigger added to its list of
  80. pending triggers. Packages with a nonempty list of pending triggers
  81. which would otherwise be in state ‘installed’ are in state
  82. ‘triggers-pending’ instead, so if the package was previously
  83. ‘installed’ it becomes ‘triggers-pending’.
  84. If a package has nonempty lists both of pending and awaited triggers,
  85. then it is in ‘triggers-awaited’. Nevertheless efforts will still be
  86. made to process its triggers so as to make the list of pending
  87. triggers empty.
  88. To restore a package in state ‘triggers-pending’ to ‘installed’, or to
  89. process pending triggers of a package with both pending and awaited
  90. triggers, dpkg will run the postinst script:
  91. postinst triggered "<trigger-name> <trigger-name> ..."
  92. This will be attempted for each relevant package at the end of each
  93. dpkg run; so, normally, in the same dpkg run as the event which made
  94. the package go to ‘triggers-pending’. This leaves packages in
  95. reasonable states by default.
  96. If the “postinst triggered” run fails the package goes to
  97. ‘config-failed’, so that the trigger processing will not be attempted
  98. again until explicitly requested.
  99. |
  100. V
  101. ,------------.
  102. | unpacked |
  103. `------------'
  104. |
  105. |
  106. (automatic)| ,----------.
  107. | | config- |
  108. | | failed |
  109. | `----------'
  110. | | ^
  111. | | |
  112. |,---<--' | ,------------------------------.
  113. | (user | | triggers-pending |
  114. postinst | request) | | or |
  115. "configure" | | | t.-awaited with some pending |
  116. | | `------------------------------'
  117. | | | ^
  118. |`----->------'| | |
  119. | error | postinst | |
  120. | | "triggered" | | trigger(s)
  121. | | (automatic) | | activated
  122. | | | |
  123. | `-----<-----------'| |
  124. | error | |
  125. | | |
  126. V V |
  127. ,--------------------------------------------------.
  128. | installed or t.-awaited with none pending |
  129. `--------------------------------------------------'
  130. Packages in ‘config-failed’ or worse are never considered to have
  131. lists of pending triggers. A package whose postinst is being run
  132. can however acquire pending triggers during that run (ie, a package
  133. can trigger itself).
  134. This means that if a triggering package T awaits trigger processing by
  135. an interested package I, and I goes to ‘config-failed’ or worse (eg,
  136. during unpack for upgrade), then when I is reconfigured (goes to
  137. ‘installed’) or removed, T will no longer await processing by I, so
  138. that T may automatically go from ‘triggers-awaited’ to ‘installed’.
  139. Or to put it another way, triggered actions are considered irrelevant
  140. if the interested package I is not configured. When I's postinst is
  141. called with ‘configure’, it must do whatever actions are necessary to
  142. deal with any trigger activations which might have occurred while it
  143. was not configured, just as if the package was being configured for
  144. the first time.
  145. Trigger processing should be idempotent. The list of triggers being
  146. processed is provided to the postinst only so that it can optimise
  147. away redundant processing.
  148. In that case, where an interested package has more than one trigger
  149. and wants to process them differently, the list of triggers can be can
  150. be examined in a shell script like this:
  151. case " $2 " in
  152. *" trigger-name-a "*) process-trigger-a ;;
  153. esac
  154. Generally each trigger name should be tested for separately, as the
  155. postinst will often be called for several triggers at once.
  156. Note that if a package both activates triggers in other packages, and
  157. is interested in triggers of its own, its postinst may run for trigger
  158. processing before the postinst(s) of the package(s) it has triggered.
  159. Timing guarantees, races, etc.
  160. ------------------------------
  161. Activating a trigger will not have any immediate effect, although
  162. putative resulting status changes will show up in dpkg --status etc.
  163. (Putative because the actual status changes may depend on the state of
  164. trigger interests when dpkg processes the trigger activation into
  165. the status database, rather than that when dpkg --status is run.)
  166. A package is only guaranteed to become notified of a trigger
  167. activation if it is continuously interested in the trigger, and never
  168. in ‘config-failed’ or worse, during the period from when the trigger
  169. is activated until dpkg runs the package postinst (either due to
  170. --configure --pending, or at the end of the relevant run, as described
  171. above). Subsequent to activation and before notification, the
  172. interested package will not be considered in state ‘installed’, so
  173. long as the package remains interested, and the triggering package
  174. will not be considered ‘installed’.
  175. If the package is not in state ‘installed’, ‘triggers-pending’ or
  176. ‘triggers-awaited’ then pending triggers are not accumulated.
  177. However, if such a package (between ‘half-installed’ and
  178. ‘config-failed’ inclusive) declares some trigger interests then the
  179. triggering packages *will* await their configuration (which implies
  180. completion of any necessary trigger processing) or removal.
  181. It is not defined in what order triggers will run. dpkg will make
  182. some effort to minimise redundant work in the case where many packages
  183. have postinst trigger processing activating another package's triggers
  184. (for example, by processing triggers in fifo order during a single
  185. dpkg run). Cycles in the triggering graph are prohibited and will
  186. eventually, perhaps after some looping, be detected by dpkg and cause
  187. trigger processing to fail; when this happens one of the packages
  188. involved will be put in state ‘config-failed’ so that the trigger loop
  189. will not be reattempted. See “Cycle detection” below.
  190. Explicit triggers
  191. -----------------
  192. Explicit triggers have names with the same syntax as package names,
  193. *but* should *not* normally be named identically to a package.
  194. When choosing an explicit trigger name it is usually good to include a
  195. relevant package name or some other useful identifier to help make the
  196. trigger name unique. On the other hand, explicit triggers should
  197. generally not be renamed just because the interested or triggering
  198. packages' names change.
  199. Explicit trigger names form part of the interface between packages.
  200. Therefore in case of wider use of any trigger the name and purpose
  201. should be discussed in the usual way and documented in the appropriate
  202. packaging guidelines (eg, in policy).
  203. File triggers
  204. -------------
  205. File triggers have names of the form
  206. /path/to/directory/or/file
  207. and are activated when the specified filesystem object, or any object
  208. under the specified subdirectory, is created, updated or deleted by
  209. dpkg during package unpack or removal. The pathname must be absolute.
  210. File triggers should not generally be used without mutual consent.
  211. The use of a file trigger, and the name of the trigger used, should be
  212. stated in policy, so that a package which creates a relevant file in a
  213. maintainer script can activate the trigger explicitly.
  214. File triggers must definitely not be used as an escalation tool in
  215. disagreements between different packages as to the desired contents of
  216. the filesystem. Trigger activation due to a particular file should
  217. not generally modify that file again.
  218. Configuration files (whether dpkg-handled conffiles or not), or any
  219. other files which are modified at times other than package management,
  220. should not rely on file triggers detecting all modifications; dpkg
  221. triggers are not a general mechanism for filesystem monitoring.
  222. If there are or might be directory symlinks which result in packages
  223. referring to files by different names, then to be sure of activation
  224. all of the paths which might be included in packages should be listed.
  225. The path specified by the interested package is matched against the
  226. path included in the triggering package, not against the truename of
  227. the file as installed. Only textually identical filenames (or
  228. filenames where the interest is a directory prefix of the installed
  229. file) are guaranteed to match.
  230. A file trigger is guaranteed to be activated before the file in
  231. question is modified by dpkg; on the other hand, a file trigger might
  232. be activated even though no file was actually modified. Changes made
  233. by dpkg to the link count of a file, or to solely the inode number
  234. (ie, if dpkg atomically replaces it with another identical file), are
  235. not guaranteed to cause trigger activation.
  236. Because of the restriction on trigger names, it is not possible to
  237. declare a file trigger for a directory whose name contains whitespace,
  238. i18n characters, etc. Such a trigger should not be necessary.
  239. Package declarations regarding triggers
  240. ---------------------------------------
  241. See deb-triggers(5).
  242. Support future extension of the trigger name syntax with additional
  243. dpkg-generated triggers is as follows: a package which is interested
  244. in any unsupported trigger kinds cannot be configured (since such a
  245. package cannot be guaranteed to have these triggers properly activated
  246. by dpkg). Therefore no package can be interested in any unsupported
  247. trigger kinds and they can be freely activated (both by ‘activate’ and
  248. by dpkg-trigger). dpkg-deb will be changed to warn about unrecognised
  249. trigger names syntaxes and unrecognised trigger control directives.
  250. New command line interfaces to dpkg tools
  251. -----------------------------------------
  252. See dpkg(1).
  253. Here is a summary of the behaviours:
  254. Command line Trigproc Trigproc Configure
  255. these any triggered
  256. ----------------------+---------------+---------------+-----------------
  257. --unpack no usually[1] none
  258. --remove n/a usually[1] none
  259. --install n/a usually[1] these
  260. --configure -a any needed usually[1] any needed
  261. --configure <some> if needed usually[1] must, or trigproc
  262. --triggers-only -a any needed usually[1] none
  263. --triggers-only <some> must usually not[1] none
  264. [1] can be specified explicitly by --triggers or --no-triggers
  265. See dpkg-trigger(1).
  266. A trigger may be activated explicitly with:
  267. dpkg-trigger [--by-package <package>] <name-of-trigger>
  268. dpkg-trigger --no-await <name-of-trigger>
  269. There will be no output to stdout, and none to stderr unless
  270. dpkg-trigger is unable to make a record of the trigger activation.
  271. NB that in the case of a file trigger the name of the trigger is
  272. needed, not the name of a file which would match the trigger.
  273. apt and aptitude
  274. ----------------
  275. These must be taught about the new ‘triggers-awaited’ and
  276. ‘triggers-pending’ states. Packages in these states should be treated
  277. roughly like those in ‘unpacked’: the remedy is to run dpkg
  278. --configure.
  279. Normally apt and aptitude will not see packages in ‘triggers-pending’
  280. since dpkg will generally attempt to run the triggers thus leaving the
  281. package in ‘config-failed’ or ‘installed’.
  282. Note that automatic package management tools which call dpkg (like apt
  283. and aptitude) should not attempt to configure individual packages in
  284. state ‘triggers-pending’ (or indeed ‘triggers-awaited’) with dpkg
  285. --triggers-only <package>... or dpkg --no-triggers --configure <package>...,
  286. or similar approaches. This might defeat dpkg's trigger cycle detection.
  287. A package management tool which will run dpkg --configure --pending at
  288. the end may use --no-triggers on its other dpkg runs. This would be
  289. more efficient as it allows more aggressive deferral (and hence more
  290. unification) of trigger processing.
  291. Error handling
  292. --------------
  293. Packages should be written so that they DO NOT BREAK just because
  294. their pending triggers have not yet been run. It is allowed for the
  295. functionality relating to the unprocessed trigger to fail (ie, the
  296. package which is awaiting the trigger processing may be broken), but
  297. the remainder of the interested package must work normally.
  298. For example, a package which uses file triggers to register addons
  299. must cope with (a) an addon being dropped into the filesystem but not
  300. yet registered and (b) an addon being removed but not yet
  301. deregistered. In both of these cases the package's main functionality
  302. must continue to work normally; failure of the addon in question is
  303. expected, warning messages are tolerable, but complete failure of the
  304. whole package, or failures of other addons, are not acceptable.
  305. dpkg cannot ensure that triggers are run in a timely enough manner for
  306. pathological error behaviours to be tolerable.
  307. Where a trigger script finds bad data provided by a triggering
  308. package, it should generally report to stderr the problem with the bad
  309. data and exit nonzero, leaving the interested package in config-failed
  310. and the triggering package in triggers-awaited and thus signalling the
  311. problem to the user.
  312. Alternatively, in some situations it may be more desirable to allow
  313. the interested package to be configured even though it can only
  314. provide partial service. In this case clear information will have to
  315. be given in appropriate places about the missing functionality, and a
  316. record should be made of the cause of the errors. This option is
  317. recommended for situations where the coupling between the interested
  318. and triggering package is particularly loose; an example of such a
  319. loose coupling would be Python modules.
  320. WORKED EXAMPLE - SCROLLKEEPER
  321. =============================
  322. Currently, every Gnome program which comes with some help installs the
  323. help files in /usr/share/gnome/help and then in the postinst runs
  324. scrollkeeper-update. scrollkeeper-update reads, parses and rewrites
  325. some large xml files in /var/lib/scrollkeeper; currently this
  326. occurs at every relevant package installation, upgrade or removal.
  327. When triggers are available, this will work as follows:
  328. * gnome-foobar will ship its «omf» file in /usr/share/omf as
  329. normal, but will not contain any special machinery to invoke
  330. scrollkeeper.
  331. * scrollkeeper will in its triggers control file say:
  332. interest /usr/share/omf
  333. and in its postinst say:
  334. scrollkeeper-update-now -q
  335. dpkg will arrange that this is run once at the end of each run
  336. where any documentation was updated.
  337. Note that it is not necessary to execute this only on particular
  338. postinst "$1" values; however, at the time of writing, scrollkeeper
  339. does this:
  340. if [ "$1" = "configure" ]; then
  341. printf "Rebuilding the database. This may take some time.\n"
  342. scrollkeeper-rebuilddb -q
  343. fi
  344. and to retain this behaviour, something along the following lines
  345. would be sensible:
  346. if [ "$1" = "configure" ]; then
  347. printf "Rebuilding the database. This may take some time.\n"
  348. scrollkeeper-rebuilddb -q
  349. else
  350. printf "Updating GNOME help database.\n"
  351. scrollkeeper-update-now -q
  352. fi
  353. * dh_scrollkeeper will only adjust the DTD declarations and no longer
  354. edit maintainer scripts.
  355. Full implementation of the transition plan defined below, for
  356. scrollkeeper, goes like this:
  357. 1. Update scrollkeeper:
  358. - Add a ‘triggers’ control archive file containing
  359. interest /usr/share/omf
  360. - Make the postinst modifications as described above.
  361. - Rename scrollkeeper-update to scrollkeeper-update-now
  362. - Provide a new wrapper script as scrollkeeper-update:
  363. #!/bin/sh -e
  364. if type dpkg-trigger >/dev/null 2>&1 && \
  365. dpkg-trigger /usr/share/omf; then
  366. exit 0
  367. fi
  368. exec scrollkeeper-update-now "$@"
  369. 2. In gnome-policy chapter 2, “Use of scrollkeeper”,
  370. - delete the requirement that the package must depend on
  371. scrollkeeper
  372. - delete the requirement that the package must invoke
  373. scrollkeeper in the postinst and postrm
  374. - instead say:
  375. OMF files should be installed under /usr/share/omf in the
  376. usual way. A dpkg trigger is used to arrange to update the
  377. scrollkeeper documentation index automatically and no special
  378. care need be taken in packages which supply OMFs.
  379. If an OMF file is placed, modified or removed other than as
  380. an file installed in the ordinary way by dpkg, the dpkg file
  381. trigger «/usr/share/omf» should be activated; see the dpkg
  382. triggers specification for details.
  383. Existing packages which Depend on scrollkeeper (>= 3.8)
  384. because of dh_scrollkeeper or explicit calls to
  385. scrollkeeper-update should be modified not to Depend on
  386. scrollkeeper.
  387. 3. Update debhelper's dh_scrollkeeper not to edit maintainer
  388. scripts. One of dh_scrollkeeper or lintian should be changed to
  389. issue a warning for packages with scrollkeeper (>= 3.8) in the
  390. Depends control file line.
  391. 4. Remove the spurious dependencies on scrollkeeper, at our leisure.
  392. As a bonus, after this is complete it will be possible to remove
  393. scrollkeeper while keeping all of the documentation-supplying
  394. gnome packages installed.
  395. 5. If there are any packages which do by hand what dh_scrollkeeper
  396. does, change them not to call scrollkeeper-update and drop
  397. their dependency on scrollkeeper.
  398. This is not 100% in keeping with the full transition plan defined
  399. below: if a new gnome package is used with an old scrollkeeper, there
  400. is some possibility that the help will not properly be available.
  401. Unfortunately, dh_scrollkeeper doesn't generate the scrollkeeper
  402. dependency in the control file, which makes it excessively hard to get
  403. the dependency up to date. The bad consequences of the inaccurate
  404. dependencies are less severe than the contortions which would be
  405. required to deal with the problem.
  406. TRANSITION PLAN
  407. ===============
  408. Old dpkg to new dpkg
  409. --------------------
  410. The first time a trigger-supporting dpkg is run on any system, it will
  411. activate all triggers in which anyone is interested, immediately.
  412. These trigger activations will not be processed in the same dpkg run,
  413. to avoid unexpectedly processing triggers while attempting an
  414. unrelated operation. dpkg --configure --pending (and not other dpkg
  415. operations) will run the triggers, and the dpkg postinst will warn the
  416. user about the need to run it (if this deferred triggers condition
  417. exists). (Any triggers activated or reactivated *after* this
  418. mass-activation will be processed in the normal way.)
  419. To use this correctly:
  420. * Packages which are interested in triggers, or which want to
  421. explicitly activate triggers, should Depend on the
  422. triggers-supporting version of dpkg.
  423. * Update instructions and tools should arrange to run
  424. dpkg --configure --pending
  425. after the install; this will process the pending triggers.
  426. dpkg's prerm will check for attempts to downgrade while triggers are
  427. pending and refuse. (Since the new dpkg would be installed but then
  428. refuse to read the status file.) In case this is necessary a separate
  429. tool will be provided which will:
  430. * Put all packages with any pending triggers into state
  431. ‘config-failed’ and remove the list of pending triggers.
  432. * Remove the list of awaited triggers from every package. This
  433. may cause packages to go from ‘triggers-awaited’ to ‘installed’
  434. which is not 100% accurate but the best that can be done.
  435. * Remove /var/lib/dpkg/triggers (to put the situation to that which
  436. we would have seen if the trigger-supporting dpkg had never been
  437. installed).
  438. Higher-level programs
  439. ---------------------
  440. The new dpkg will declare versioned Conflicts against apt and aptitude
  441. and other critical package management tools which will be broken by
  442. the new Status field values. Therefore, the new higher-level tools
  443. will have to be deployed first.
  444. The new dpkg will declare versioned Breaks against any known
  445. noncritical package management tools which will be broken by the new
  446. Status field value.
  447. Transition hints for existing packages
  448. --------------------------------------
  449. When a central (consumer) package defines a directory where other leaf
  450. (producer) packages may place files and/or directories, and currently
  451. the producer packages are required to run an «update-consumer» script
  452. in their postinst:
  453. 1. In the relevant policy, define a trigger name which is the name of
  454. the directory where the individual files are placed by producer
  455. packages.
  456. 2. Update the consumer package:
  457. * Declare an interest in the trigger.
  458. * Edit «update-consumer» so that if it is called without --real
  459. it does the following:
  460. if type dpkg-trigger >/dev/null 2>&1 && \
  461. dpkg-trigger name-of-trigger; then
  462. exit 0
  463. fi
  464. If this fails to cause «update-consumer» to exit, it should do
  465. its normal update processing. Alternatively, if it is more
  466. convenient, «update-consumer» could be renamed and supplanted with
  467. a wrapper script which conditionally runs the real
  468. «update-consumer».
  469. * In the postinst, arrange for the new ‘triggered’ invocation to
  470. run «update-consumer --real». The consumer package's postinst
  471. will already run «update-consumer» during configuration, and this
  472. should be retained and supplemented with the --real option (or
  473. changed to call the real script rather than the wrapper).
  474. 3. Update the producer packages:
  475. * In the postinst, remove the call to «update-consumer».
  476. * Change the dependency on consumer to be versioned, specifying a
  477. trigger-interested consumer.
  478. This can be done at our leisure. Ideally for loosely coupled
  479. packages this would be done only in the release after the one
  480. containing the triggers-interested consumer, to facilitate partial
  481. upgrades and backports.
  482. 4. After all producer packages have been updated according to step 3,
  483. «update-consumer» has become an interface internal to the consumer
  484. and need no longer be kept stable. If un-updated producers are
  485. still of interest, incompatible changes to «update-consumer» imply
  486. a versioned Breaks against the old producers.
  487. (See also “Transition plan”, below.)
  488. If there are several consumer packages all of which are interested in
  489. the features provided by producer packages, the current arrangements
  490. usually involve an additional central switchboard package (eg,
  491. emacsen-common). In this case:
  492. -- NOTE - this part of the transition plan is still a proof of
  493. concept and we might yet improve on it
  494. 1. Define the trigger name.
  495. 2. Update the switchboard to have any new functionality needed by the
  496. consumers in step 3 (2nd bullet).
  497. 3. Update the consumer packages:
  498. * Declare an interest in the trigger.
  499. * In the postinst, arrange for the new ‘trigger’ invocation to run
  500. the compilation/registration process. This may involve scanning
  501. for new or removed producers, and may involve new common
  502. functionality from the switchboard (in which case a versioned
  503. Depends is needed).
  504. * The old interface allowing the switchboard to run
  505. compilation/registration should be preserved, including
  506. calls to the switchboard to register this consumer.
  507. 4. When all consumers have been updated, update the switchboard:
  508. * Make the registration scripts called by producers try to
  509. activate the trigger and if that succeeds quit without
  510. doing any work (as for bullet 2 in the simple case above).
  511. * Versioned Breaks, against the old (pre-step-3) consumers.
  512. 5. After the switchboard has been updated, producers can be updated:
  513. * Remove the calls to the switchboard registration/compilation
  514. functions.
  515. * Change the dependency on the switchboard to a versioned one,
  516. specifying the one which Breaks old consumers. Alternatively,
  517. it may be the case that the switchboard is no longer needed (or
  518. not needed for this producer), in which case the dependency on
  519. the switchboard can be removed in favour of an appropriate
  520. versioned Breaks (probably, identical to that in the new
  521. switchboard).
  522. 6. After all the producers have been updated, the cruft in the
  523. consumers can go away:
  524. * Remove the calls to the switchboard's registration system.
  525. * Versioned Breaks against old switchboards, or versioned Depends
  526. on new switchboards, depending on whether the switchboard is
  527. still needed for other common functionality.
  528. 7. After all of the producers and consumers have been updated, the
  529. cruft in the switchboard can go away:
  530. * Remove the switchboard's registration system (but not obviously
  531. the common functionality from step 3, discussed above).
  532. * Versioned Breaks against pre-step-6 consumers and pre-step-5
  533. producers.
  534. DISCUSSION
  535. ==========
  536. The activation of a trigger does not record details of the activating
  537. event. For example, file triggers do not inform the package of the
  538. filename. In the future this might be added as an additional feature,
  539. but there are some problems with this.
  540. Broken producer packages, and error reporting
  541. ---------------------------------------------
  542. Often trigger processing will involve a central package registering,
  543. compiling or generally parsing some data provided by a leaf package.
  544. If the central package finds problems with the leaf package data it is
  545. usually more correct for only the individual leaf package to be
  546. recorded as not properly installed. There is not currently any way to
  547. do this and there are no plans to provide one.
  548. The naive approach of giving the postinst a list of the triggering
  549. packages does not work because this information is not recorded in the
  550. right way (it might suffer from lacunae); enhancing the bookkeeping
  551. for this to work would be possible but it is far better simply to make
  552. the system more idempotent. See above for the recommended approach.
  553. INTERNALS
  554. =========
  555. On-disk state
  556. -------------
  557. A single file /var/lib/dpkg/triggers/File lists all of the filename
  558. trigger interests in the form
  559. /path/to/directory/or/file package
  560. For each explicit trigger in which any package is interested,
  561. a file /var/lib/dpkg/triggers/<name-of-trigger> is a list of
  562. the interested packages, one per line.
  563. These interest files are not updated to remove a package just because
  564. a state change causes it not to be interested in any triggers any more
  565. - they are updated when we remove or unpack.
  566. For each package which has pending triggers, the status file contains
  567. a Triggers-Pending field which contains the space-separated names of
  568. the pending triggers. For each package which awaits triggers the
  569. status file contains a Triggers-Awaited field which contains the
  570. *package* names of the packages whose trigger processing is awaited.
  571. See “Details - Overview table” above for the invariants which relate
  572. Triggers-Pending, Triggers-Awaited, and Status.
  573. During dpkg's execution, /var/lib/dpkg/triggers/Unincorp is a list of
  574. the triggers which have been requested by dpkg-trigger but not yet
  575. incorporated in the status file. Each line is a trigger name followed
  576. by one or more triggering package names. The triggering package name
  577. "-" is used to indicate one or more package(s) which did not need to
  578. await the trigger.
  579. /var/lib/dpkg/triggers/Lock is the fcntl lockfile for the trigger
  580. system. Processes hang onto this lock only briefly: dpkg-trigger
  581. to add new activations, or dpkg to incorporate activations (and
  582. perhaps when it updates interests). Therefore this lock is always
  583. acquired with F_GETLKW so as to serialise rather than fail on
  584. contention.
  585. Processing
  586. ----------
  587. dpkg-trigger updates triggers/Unincorp, and does not read or write the
  588. status file or take out the dpkg status lock. dpkg (and dpkg-query)
  589. reads triggers/Unincorp after reading /var/lib/dpkg/status, and after
  590. running a maintainer script. If the status database is opened for
  591. writing then the data from Unincorp is moved to updates as
  592. Triggers-Pending and Triggers-Awaited entries and corresponding Status
  593. changes.
  594. This means that dpkg is guaranteed to reincorporate pending trigger
  595. information into the status file only 1. when a maintainer script has
  596. finished, or 2. when dpkg starts up with a view to performing some
  597. operation.
  598. When a package is unpacked or removed, its triggers control file will
  599. be parsed and /var/lib/dpkg/triggers/* updated accordingly.
  600. Triggers are run as part of configuration. dpkg will try to first
  601. configure all packages which do not depend on packages which are
  602. awaiting triggers, and then run triggers one package at a time in the
  603. hope of making useful progress. (This will involve a new ‘dependtry’
  604. level in configure.c's algorithm.) The only constraint on the
  605. ordering of postinsts is only the normal Depends constraint, so the
  606. usual Depends cycle breaking will function properly. See “Cycle
  607. detection” below regarding cycles in the “A triggers B” relation.
  608. Processing - Transitional
  609. -------------------------
  610. The case where a triggers-supporting dpkg is run for the first time is
  611. detected by the absence of /var/lib/dpkg/triggers/Unincorp. When the
  612. triggers-supporting dpkg starts up without this it will set each
  613. package's list of pending triggers equal to its interests (obviously
  614. only for packages which are in ‘installed’ or ‘triggers-pending’).
  615. This may result in a package going from ‘installed’ to
  616. ‘triggers-pending’ but it will not create the directory at this time.
  617. Packages marked as triggers-pending in this way will not be scheduled
  618. for trigger processing in this dpkg run.
  619. dpkg will also at this time create /var/lib/dpkg/triggers if
  620. necessary, triggers/File, triggers/Unincorp, and the per-trigger
  621. package lists in /var/lib/dpkg/triggers/<trigger-name>, so that future
  622. trigger activations will be processed properly.
  623. Only dpkg may create /var/lib/dpkg/triggers and only when it is
  624. holding the overall dpkg status lock.
  625. dpkg and/or dpkg-deb will be made to reject packages containing
  626. Triggers-Pending and Triggers-Awaited control file fields, to prevent
  627. accidents.
  628. Cycle detection
  629. ---------------
  630. In addition to dependency cycles, triggers raise the possibility of
  631. mutually triggering packages - a cycle detectable only dynamically,
  632. which we will call a “trigger cycle”.
  633. Trigger cycles are detected using the usual hare-and-tortoise
  634. approach. Each time after dpkg runs a postinst for triggers, dpkg
  635. records the set of pending triggers (ie, the set of activated <pending
  636. package, trigger name> tuples). If the hare set is a superset of the
  637. tortoise set, a cycle has been found.
  638. For guaranteed termination, it would be sufficient to declare a cycle
  639. only when the two sets are identical, but because of the requirement
  640. to make progress we can cut this short. Formally, there is supposed
  641. to be a complete ordering of pending trigger sets satisfying the
  642. condition that any set of pending triggers is (strictly) greater than
  643. all its (strict) subsets. Trigger processing is supposed to
  644. monotonically decrease the set in this ordering. (The set elements
  645. are <package, trigger name> tuples.)
  646. (See “Processing” above for discussion of dependency cycles.)