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find-system.lisp
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find-system.lisp
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;;;; -------------------------------------------------------------------------
;;;; Finding systems
(uiop/package:define-package :asdf/find-system
(:recycle :asdf/find-system :asdf)
(:use :uiop/common-lisp :uiop :asdf/upgrade
:asdf/session :asdf/component :asdf/system :asdf/operation :asdf/action :asdf/lisp-action
:asdf/find-component :asdf/system-registry :asdf/plan :asdf/operate)
(:import-from #:asdf/component #:%additional-input-files)
(:export
#:find-system #:locate-system #:load-asd #:define-op
#:load-system-definition-error #:error-name #:error-pathname #:error-condition))
(in-package :asdf/find-system)
(with-upgradability ()
(define-condition load-system-definition-error (system-definition-error)
((name :initarg :name :reader error-name)
(pathname :initarg :pathname :reader error-pathname)
(condition :initarg :condition :reader error-condition))
(:report (lambda (c s)
(format s (compatfmt "~@<Error while trying to load definition for system ~A from pathname ~A: ~3i~_~A~@:>")
(error-name c) (error-pathname c) (error-condition c)))))
;;; Methods for find-system
;; Reject NIL as a system designator.
(defmethod find-system ((name null) &optional (error-p t))
(when error-p
(sysdef-error (compatfmt "~@<NIL is not a valid system name~@:>"))))
;; Default method for find-system: resolve the argument using COERCE-NAME.
(defmethod find-system (name &optional (error-p t))
(find-system (coerce-name name) error-p))
(defun find-system-if-being-defined (name)
;; This function finds systems being defined *in the current ASDF session*, as embodied by
;; its session cache, even before they are fully defined and registered in *registered-systems*.
;; The purpose of this function is to prevent races between two files that might otherwise
;; try overwrite each other's system objects, resulting in infinite loops and stack overflow.
;; This function explicitly MUST NOT find definitions merely registered in previous sessions.
;; NB: this function depends on a corresponding side-effect in parse-defsystem;
;; the precise protocol between the two functions may change in the future (or not).
(first (gethash `(find-system ,(coerce-name name)) (asdf-cache))))
(defclass define-op (non-propagating-operation) ()
(:documentation "An operation to record dependencies on loading a .asd file."))
(defmethod record-dependency ((plan null) (operation t) (component t))
(unless (or (typep operation 'define-op)
(and (typep operation 'load-op)
(typep component 'system)
(equal "asdf" (coerce-name component))))
(if-let ((action (first (visiting-action-list *asdf-session*))))
(let ((parent-operation (action-operation action))
(parent-component (action-component action)))
(cond
((and (typep parent-operation 'define-op)
(typep parent-component 'system))
(let ((action (cons operation component)))
(unless (gethash action (definition-dependency-set parent-component))
(push (cons operation component) (definition-dependency-list parent-component))
(setf (gethash action (definition-dependency-set parent-component)) t))))
(t
(warn 'recursive-operate
:operation operation :component component :action action)))))))
(defmethod component-depends-on ((o define-op) (s system))
`(;;NB: 1- ,@(system-defsystem-depends-on s)) ; Should be already included in the below.
;; 2- We don't call-next-method to avoid other methods
,@(loop :for (o . c) :in (definition-dependency-list s) :collect (list o c))))
(defmethod component-depends-on ((o operation) (s system))
`(,@(when (and (not (typep o 'define-op))
(or (system-source-file s) (definition-dependency-list s)))
`((define-op ,(primary-system-name s))))
,@(call-next-method)))
(defmethod perform ((o operation) (c undefined-system))
(sysdef-error "Trying to use undefined or incompletely defined system ~A" (coerce-name c)))
;; TODO: could this file be refactored so that locate-system is merely
;; the cache-priming call to input-files here?
(defmethod input-files ((o define-op) (s system))
(if-let ((asd (system-source-file s))) (list asd)))
(defmethod perform ((o define-op) (s system))
(nest
(if-let ((pathname (first (input-files o s)))))
(let ((readtable *readtable*) ;; save outer syntax tables. TODO: proper syntax-control
(print-pprint-dispatch *print-pprint-dispatch*)))
(with-standard-io-syntax)
(let ((*print-readably* nil)
;; Note that our backward-compatible *readtable* is
;; a global readtable that gets globally side-effected. Ouch.
;; Same for the *print-pprint-dispatch* table.
;; We should do something about that for ASDF3 if possible, or else ASDF4.
(*readtable* readtable) ;; restore inside syntax table
(*print-pprint-dispatch* print-pprint-dispatch)
(*package* (find-package :asdf-user))
(*default-pathname-defaults*
;; resolve logical-pathnames so they won't wreak havoc in parsing namestrings.
(pathname-directory-pathname (physicalize-pathname pathname)))))
(handler-bind
(((and error (not missing-component))
#'(lambda (condition)
(error 'load-system-definition-error
:name (coerce-name s) :pathname pathname :condition condition))))
(asdf-message (compatfmt "~&~@<; ~@;Loading system definition~@[ for ~A~] from ~A~@:>~%")
(coerce-name s) pathname)
;; dependencies will depend on what's loaded via definition-dependency-list
(unset-asdf-cache-entry `(component-depends-on ,o ,s))
(unset-asdf-cache-entry `(input-files ,o ,s)))
(load* pathname :external-format (encoding-external-format (detect-encoding pathname)))))
(defun load-asd (pathname &key name)
"Load system definitions from PATHNAME.
NAME if supplied is the name of a system expected to be defined in that file.
Do NOT try to load a .asd file directly with CL:LOAD. Always use ASDF:LOAD-ASD."
(with-asdf-session ()
;; TODO: use OPERATE, so we consult the cache and only load once per session.
(flet ((do-it (o c) (operate o c)))
(let ((primary-name (primary-system-name (or name (pathname-name pathname))))
(operation (make-operation 'define-op)))
(if-let (system (registered-system primary-name))
(progn
;; We already determine this to be obsolete ---
;; or should we move some tests from find-system to check for up-to-date-ness here?
(setf (component-operation-time operation system) t
(definition-dependency-list system) nil
(definition-dependency-set system) (list-to-hash-set nil))
(do-it operation system))
(let ((system (make-instance 'undefined-system
:name primary-name :source-file pathname)))
(register-system system)
(unwind-protect (do-it operation system)
(when (typep system 'undefined-system)
(clear-system system)))))))))
(defvar *old-asdf-systems* (make-hash-table :test 'equal))
;; (Private) function to check that a system that was found isn't an asdf downgrade.
;; Returns T if everything went right, NIL if the system was an ASDF at an older version,
;; or UIOP of the same or older version, that shall not be loaded.
;; Also issue a warning if it was a strictly older version of ASDF.
(defun check-not-old-asdf-system (name pathname)
(or (not (member name '("asdf" "uiop") :test 'equal))
(null pathname)
(let* ((asdfp (equal name "asdf")) ;; otherwise, it's uiop
(version-pathname
(subpathname pathname "version" :type (if asdfp "lisp-expr" "lisp")))
(version (and (probe-file* version-pathname :truename nil)
(read-file-form version-pathname :at (if asdfp '(0) '(2 2 2)))))
(old-version (asdf-version)))
(cond
;; Same version is OK for ASDF, to allow loading from modified source.
;; However, do *not* load UIOP of the exact same version:
;; it was already loaded it as part of ASDF and would only be double-loading.
;; Be quiet about it, though, since it's a normal situation.
((equal old-version version) asdfp)
((version< old-version version) t) ;; newer version: Good!
(t ;; old version: bad
(ensure-gethash
(list (namestring pathname) version) *old-asdf-systems*
#'(lambda ()
(let ((old-pathname (system-source-file (registered-system "asdf"))))
(if asdfp
(warn "~@<~
You are using ASDF version ~A ~:[(probably from (require \"asdf\") ~
or loaded by quicklisp)~;from ~:*~S~] and have an older version of ASDF ~
~:[(and older than 2.27 at that)~;~:*~A~] registered at ~S. ~
Having an ASDF installed and registered is the normal way of configuring ASDF to upgrade itself, ~
and having an old version registered is a configuration error. ~
ASDF will ignore this configured system rather than downgrade itself. ~
In the future, you may want to either: ~
(a) upgrade this configured ASDF to a newer version, ~
(b) install a newer ASDF and register it in front of the former in your configuration, or ~
(c) uninstall or unregister this and any other old version of ASDF from your configuration. ~
Note that the older ASDF might be registered implicitly through configuration inherited ~
from your system installation, in which case you might have to specify ~
:ignore-inherited-configuration in your in your ~~/.config/common-lisp/source-registry.conf ~
or other source-registry configuration file, environment variable or lisp parameter. ~
Indeed, a likely offender is an obsolete version of the cl-asdf debian or ubuntu package, ~
that you might want to upgrade (if a recent enough version is available) ~
or else remove altogether (since most implementations ship with a recent asdf); ~
if you lack the system administration rights to upgrade or remove this package, ~
then you might indeed want to either install and register a more recent version, ~
or use :ignore-inherited-configuration to avoid registering the old one. ~
Please consult ASDF documentation and/or experts.~@:>~%"
old-version old-pathname version pathname)
;; NB: for UIOP, don't warn, just ignore.
(warn "ASDF ~A (from ~A), UIOP ~A (from ~A)"
old-version old-pathname version pathname)
))))
nil))))) ;; only issue the warning the first time, but always return nil
(defun locate-system (name)
"Given a system NAME designator, try to locate where to load the system from.
Returns six values: FOUNDP FOUND-SYSTEM PATHNAME PREVIOUS PREVIOUS-TIME PREVIOUS-PRIMARY
FOUNDP is true when a system was found,
either a new unregistered one or a previously registered one.
FOUND-SYSTEM when not null is a SYSTEM object that may be REGISTER-SYSTEM'ed.
PATHNAME when not null is a path from which to load the system,
either associated with FOUND-SYSTEM, or with the PREVIOUS system.
PREVIOUS when not null is a previously loaded SYSTEM object of same name.
PREVIOUS-TIME when not null is the time at which the PREVIOUS system was loaded.
PREVIOUS-PRIMARY when not null is the primary system for the PREVIOUS system."
(with-asdf-session () ;; NB: We don't cache the results. We once used to, but it wasn't useful,
;; and keeping a negative cache was a bug (see lp#1335323), which required
;; explicit invalidation in clear-system and find-system (when unsucccessful).
(let* ((name (coerce-name name))
(previous (registered-system name)) ; load from disk if absent or newer on disk
(previous-primary-name (and previous (primary-system-name previous)))
(previous-primary-system (and previous-primary-name
(registered-system previous-primary-name)))
(previous-time (and previous-primary-system
(component-operation-time 'define-op previous-primary-system)))
(found (search-for-system-definition name))
(found-system (and (typep found 'system) found))
(pathname (ensure-pathname
(or (and (typep found '(or pathname string)) (pathname found))
(system-source-file found-system)
(system-source-file previous))
:want-absolute t :resolve-symlinks *resolve-symlinks*))
(foundp (and (or found-system pathname previous) t)))
(check-type found (or null pathname system))
(unless (check-not-old-asdf-system name pathname)
(check-type previous system) ;; asdf is preloaded, so there should be a previous one.
(setf found-system nil pathname nil))
(values foundp found-system pathname previous previous-time previous-primary-system))))
;; TODO: make a prepare-define-op node for this
;; so we can properly cache the answer rather than recompute it.
(defun definition-dependencies-up-to-date-p (system)
(check-type system system)
(or (not (primary-system-p system))
(handler-case
(loop :with plan = (make-instance *plan-class*)
:for action :in (definition-dependency-list system)
:always (action-up-to-date-p
plan (action-operation action) (action-component action))
:finally
(let ((o (make-operation 'define-op)))
(multiple-value-bind (stamp done-p)
(compute-action-stamp plan o system)
(return (and (timestamp<= stamp (component-operation-time o system))
done-p)))))
(system-out-of-date () nil))))
;; Main method for find-system: first, make sure the computation is memoized in a session cache.
;; Unless the system is immutable, use locate-system to find the primary system;
;; reconcile the finding (if any) with any previous definition (in a previous session,
;; preloaded, with a previous configuration, or before filesystem changes), and
;; load a found .asd if appropriate. Finally, update registration table and return results.
(defmethod find-system ((name string) &optional (error-p t))
(nest
(with-asdf-session (:key `(find-system ,name)))
(let ((name-primary-p (primary-system-p name)))
(unless name-primary-p (find-system (primary-system-name name) nil)))
(or (and *immutable-systems* (gethash name *immutable-systems*) (registered-system name)))
(multiple-value-bind (foundp found-system pathname previous previous-time previous-primary)
(locate-system name)
(assert (eq foundp (and (or found-system pathname previous) t))))
(let ((previous-pathname (system-source-file previous))
(system (or previous found-system)))
(when (and found-system (not previous))
(register-system found-system))
(when (and system pathname)
(setf (system-source-file system) pathname))
(if-let ((stamp (get-file-stamp pathname)))
(let ((up-to-date-p
(and previous previous-primary
(or (pathname-equal pathname previous-pathname)
(and pathname previous-pathname
(pathname-equal
(physicalize-pathname pathname)
(physicalize-pathname previous-pathname))))
(timestamp<= stamp previous-time)
;; Check that all previous definition-dependencies are up-to-date,
;; traversing them without triggering the adding of nodes to the plan.
;; TODO: actually have a prepare-define-op, extract its timestamp,
;; and check that it is less than the stamp of the previous define-op ?
(definition-dependencies-up-to-date-p previous-primary))))
(unless up-to-date-p
(restart-case
(signal 'system-out-of-date :name name)
(continue () :report "continue"))
(load-asd pathname :name name)))))
;; Try again after having loaded from disk if needed
(or (registered-system name)
(when error-p (error 'missing-component :requires name)))))
;; Resolved forward reference for asdf/system-registry.
(defun mark-component-preloaded (component)
"Mark a component as preloaded."
(let ((component (find-component component nil :registered t)))
;; Recurse to children, so asdf/plan will hopefully be happy.
(map () 'mark-component-preloaded (component-children component))
;; Mark the timestamps of the common lisp-action operations as 0.
(let ((cot (component-operation-times component)))
(dolist (o `(,@(when (primary-system-p component) '(define-op))
prepare-op compile-op load-op))
(setf (gethash (make-operation o) cot) 0))))))