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quicklisp.lisp
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quicklisp.lisp
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;;;;
;;;; This is quicklisp.lisp, the quickstart file for Quicklisp. To use
;;;; it, start Lisp, then (load "quicklisp.lisp")
;;;;
;;;; Quicklisp is beta software and comes with no warranty of any kind.
;;;;
;;;; For more information about the Quicklisp beta, see:
;;;;
;;;; http://www.quicklisp.org/beta/
;;;;
;;;; If you have any questions or comments about Quicklisp, please
;;;; contact:
;;;;
;;;; Zach Beane <[email protected]>
;;;;
(cl:in-package #:cl-user)
(cl:defpackage #:qlqs-user
(:use #:cl))
(cl:in-package #:qlqs-user)
(defpackage #:qlqs-info
(:export #:*version*))
(defvar qlqs-info:*version* "2015-01-28")
(defpackage #:qlqs-impl
(:use #:cl)
(:export #:*implementation*)
(:export #:definterface
#:defimplementation)
(:export #:lisp
#:abcl
#:allegro
#:ccl
#:clasp
#:clisp
#:cmucl
#:cormanlisp
#:ecl
#:gcl
#:lispworks
#:mkcl
#:scl
#:sbcl))
(defpackage #:qlqs-impl-util
(:use #:cl #:qlqs-impl)
(:export #:call-with-quiet-compilation))
(defpackage #:qlqs-network
(:use #:cl #:qlqs-impl)
(:export #:open-connection
#:write-octets
#:read-octets
#:close-connection
#:with-connection))
(defpackage #:qlqs-progress
(:use #:cl)
(:export #:make-progress-bar
#:start-display
#:update-progress
#:finish-display))
(defpackage #:qlqs-http
(:use #:cl #:qlqs-network #:qlqs-progress)
(:export #:fetch
#:*proxy-url*
#:*maximum-redirects*
#:*default-url-defaults*))
(defpackage #:qlqs-minitar
(:use #:cl)
(:export #:unpack-tarball))
(defpackage #:quicklisp-quickstart
(:use #:cl #:qlqs-impl #:qlqs-impl-util #:qlqs-http #:qlqs-minitar)
(:export #:install
#:help
#:*proxy-url*
#:*asdf-url*
#:*quicklisp-tar-url*
#:*setup-url*
#:*help-message*
#:*after-load-message*
#:*after-initial-setup-message*))
;;;
;;; Defining implementation-specific packages and functionality
;;;
(in-package #:qlqs-impl)
(eval-when (:compile-toplevel :load-toplevel :execute)
(defun error-unimplemented (&rest args)
(declare (ignore args))
(error "Not implemented")))
(defmacro neuter-package (name)
`(eval-when (:compile-toplevel :load-toplevel :execute)
(let ((definition (fdefinition 'error-unimplemented)))
(do-external-symbols (symbol ,(string name))
(unless (fboundp symbol)
(setf (fdefinition symbol) definition))))))
(eval-when (:compile-toplevel :load-toplevel :execute)
(defun feature-expression-passes-p (expression)
(cond ((keywordp expression)
(member expression *features*))
((consp expression)
(case (first expression)
(or
(some 'feature-expression-passes-p (rest expression)))
(and
(every 'feature-expression-passes-p (rest expression)))))
(t (error "Unrecognized feature expression -- ~S" expression)))))
(defmacro define-implementation-package (feature package-name &rest options)
(let* ((output-options '((:use)
(:export #:lisp)))
(prep (cdr (assoc :prep options)))
(class-option (cdr (assoc :class options)))
(class (first class-option))
(superclasses (rest class-option))
(import-options '())
(effectivep (feature-expression-passes-p feature)))
(dolist (option options)
(ecase (first option)
((:prep :class))
((:import-from
:import)
(push option import-options))
((:export
:shadow
:intern
:documentation)
(push option output-options))
((:reexport-from)
(push (cons :export (cddr option)) output-options)
(push (cons :import-from (cdr option)) import-options))))
`(eval-when (:compile-toplevel :load-toplevel :execute)
,@(when effectivep
prep)
(defclass ,class ,superclasses ())
(defpackage ,package-name ,@output-options
,@(when effectivep
import-options))
,@(when effectivep
`((setf *implementation* (make-instance ',class))))
,@(unless effectivep
`((neuter-package ,package-name))))))
(defmacro definterface (name lambda-list &body options)
(let* ((forbidden (intersection lambda-list lambda-list-keywords))
(gf-options (remove :implementation options :key #'first))
(implementations (set-difference options gf-options)))
(when forbidden
(error "~S not allowed in definterface lambda list" forbidden))
(flet ((method-option (class body)
`(:method ((*implementation* ,class) ,@lambda-list)
,@body)))
(let ((generic-name (intern (format nil "%~A" name))))
`(eval-when (:compile-toplevel :load-toplevel :execute)
(defgeneric ,generic-name (lisp ,@lambda-list)
,@gf-options
,@(mapcar (lambda (implementation)
(destructuring-bind (class &rest body)
(rest implementation)
(method-option class body)))
implementations))
(defun ,name ,lambda-list
(,generic-name *implementation* ,@lambda-list)))))))
(defmacro defimplementation (name-and-options
lambda-list &body body)
(destructuring-bind (name &key (for t) qualifier)
(if (consp name-and-options)
name-and-options
(list name-and-options))
(unless for
(error "You must specify an implementation name."))
(let ((generic-name (find-symbol (format nil "%~A" name))))
(unless (and generic-name
(fboundp generic-name))
(error "~S does not name an implementation function" name))
`(defmethod ,generic-name
,@(when qualifier (list qualifier))
,(list* `(*implementation* ,for) lambda-list) ,@body))))
;;; Bootstrap implementations
(defvar *implementation* nil)
(defclass lisp () ())
;;; Allegro Common Lisp
(define-implementation-package :allegro #:qlqs-allegro
(:documentation
"Allegro Common Lisp - http://www.franz.com/products/allegrocl/")
(:class allegro)
(:reexport-from #:socket
#:make-socket)
(:reexport-from #:excl
#:read-vector))
;;; Armed Bear Common Lisp
(define-implementation-package :abcl #:qlqs-abcl
(:documentation
"Armed Bear Common Lisp - http://common-lisp.net/project/armedbear/")
(:class abcl)
(:reexport-from #:system
#:make-socket
#:get-socket-stream))
;;; Clozure CL
(define-implementation-package :ccl #:qlqs-ccl
(:documentation
"Clozure Common Lisp - http://www.clozure.com/clozurecl.html")
(:class ccl)
(:reexport-from #:ccl
#:make-socket))
;;; CLASP
(define-implementation-package :clasp #:qlqs-clasp
(:documentation "CLASP - http://github.com/drmeister/clasp")
(:class clasp)
(:prep
(require 'sockets))
(:intern #:host-network-address)
(:reexport-from #:sb-bsd-sockets
#:get-host-by-name
#:host-ent-address
#:socket-connect
#:socket-make-stream
#:inet-socket))
;;; GNU CLISP
(define-implementation-package :clisp #:qlqs-clisp
(:documentation "GNU CLISP - http://clisp.cons.org/")
(:class clisp)
(:reexport-from #:socket
#:socket-connect)
(:reexport-from #:ext
#:read-byte-sequence))
;;; CMUCL
(define-implementation-package :cmu #:qlqs-cmucl
(:documentation "CMU Common Lisp - http://www.cons.org/cmucl/")
(:class cmucl)
(:reexport-from #:ext
#:*gc-verbose*)
(:reexport-from #:system
#:make-fd-stream)
(:reexport-from #:extensions
#:connect-to-inet-socket))
(defvar qlqs-cmucl:*gc-verbose* nil)
;;; Scieneer CL
(define-implementation-package :scl #:qlqs-scl
(:documentation "Scieneer Common Lisp - http://www.scieneer.com/scl/")
(:class scl)
(:reexport-from #:system
#:make-fd-stream)
(:reexport-from #:extensions
#:connect-to-inet-socket))
;;; ECL
(define-implementation-package :ecl #:qlqs-ecl
(:documentation "ECL - http://ecls.sourceforge.net/")
(:class ecl)
(:prep
(require 'sockets))
(:intern #:host-network-address)
(:reexport-from #:sb-bsd-sockets
#:get-host-by-name
#:host-ent-address
#:socket-connect
#:socket-make-stream
#:inet-socket))
;;; LispWorks
(define-implementation-package :lispworks #:qlqs-lispworks
(:documentation "LispWorks - http://www.lispworks.com/")
(:class lispworks)
(:prep
(require "comm"))
(:reexport-from #:comm
#:open-tcp-stream
#:get-host-entry))
;;; SBCL
(define-implementation-package :sbcl #:qlqs-sbcl
(:class sbcl)
(:documentation
"Steel Bank Common Lisp - http://www.sbcl.org/")
(:prep
(require 'sb-bsd-sockets))
(:intern #:host-network-address)
(:reexport-from #:sb-ext
#:compiler-note)
(:reexport-from #:sb-bsd-sockets
#:get-host-by-name
#:inet-socket
#:host-ent-address
#:socket-connect
#:socket-make-stream))
;;; MKCL
(define-implementation-package :mkcl #:qlqs-mkcl
(:class mkcl)
(:documentation
"ManKai Common Lisp - http://common-lisp.net/project/mkcl/")
(:prep
(require 'sockets))
(:intern #:host-network-address)
(:reexport-from #:sb-bsd-sockets
#:get-host-by-name
#:inet-socket
#:host-ent-address
#:socket-connect
#:socket-make-stream))
;;;
;;; Utility function
;;;
(in-package #:qlqs-impl-util)
(definterface call-with-quiet-compilation (fun)
(:implementation t
(let ((*load-verbose* nil)
(*compile-verbose* nil)
(*load-print* nil)
(*compile-print* nil))
(handler-bind ((warning #'muffle-warning))
(funcall fun)))))
(defimplementation (call-with-quiet-compilation :for sbcl :qualifier :around)
(fun)
(declare (ignorable fun))
(handler-bind ((qlqs-sbcl:compiler-note #'muffle-warning))
(call-next-method)))
(defimplementation (call-with-quiet-compilation :for cmucl :qualifier :around)
(fun)
(declare (ignorable fun))
(let ((qlqs-cmucl:*gc-verbose* nil))
(call-next-method)))
;;;
;;; Low-level networking implementations
;;;
(in-package #:qlqs-network)
(definterface host-address (host)
(:implementation t
host)
(:implementation mkcl
(qlqs-mkcl:host-ent-address (qlqs-mkcl:get-host-by-name host)))
(:implementation sbcl
(qlqs-sbcl:host-ent-address (qlqs-sbcl:get-host-by-name host))))
(definterface open-connection (host port)
(:implementation t
(declare (ignorable host port))
(error "Sorry, quicklisp in implementation ~S is not supported yet."
(lisp-implementation-type)))
(:implementation allegro
(qlqs-allegro:make-socket :remote-host host
:remote-port port))
(:implementation abcl
(let ((socket (qlqs-abcl:make-socket host port)))
(qlqs-abcl:get-socket-stream socket :element-type '(unsigned-byte 8))))
(:implementation ccl
(qlqs-ccl:make-socket :remote-host host
:remote-port port))
(:implementation clasp
(let* ((endpoint (qlqs-clasp:host-ent-address
(qlqs-clasp:get-host-by-name host)))
(socket (make-instance 'qlqs-clasp:inet-socket
:protocol :tcp
:type :stream)))
(qlqs-clasp:socket-connect socket endpoint port)
(qlqs-clasp:socket-make-stream socket
:element-type '(unsigned-byte 8)
:input t
:output t
:buffering :full)))
(:implementation clisp
(qlqs-clisp:socket-connect port host :element-type '(unsigned-byte 8)))
(:implementation cmucl
(let ((fd (qlqs-cmucl:connect-to-inet-socket host port)))
(qlqs-cmucl:make-fd-stream fd
:element-type '(unsigned-byte 8)
:binary-stream-p t
:input t
:output t)))
(:implementation scl
(let ((fd (qlqs-scl:connect-to-inet-socket host port)))
(qlqs-scl:make-fd-stream fd
:element-type '(unsigned-byte 8)
:input t
:output t)))
(:implementation ecl
(let* ((endpoint (qlqs-ecl:host-ent-address
(qlqs-ecl:get-host-by-name host)))
(socket (make-instance 'qlqs-ecl:inet-socket
:protocol :tcp
:type :stream)))
(qlqs-ecl:socket-connect socket endpoint port)
(qlqs-ecl:socket-make-stream socket
:element-type '(unsigned-byte 8)
:input t
:output t
:buffering :full)))
(:implementation lispworks
(qlqs-lispworks:open-tcp-stream host port
:direction :io
:errorp t
:read-timeout nil
:element-type '(unsigned-byte 8)
:timeout 5))
(:implementation mkcl
(let* ((endpoint (qlqs-mkcl:host-ent-address
(qlqs-mkcl:get-host-by-name host)))
(socket (make-instance 'qlqs-mkcl:inet-socket
:protocol :tcp
:type :stream)))
(qlqs-mkcl:socket-connect socket endpoint port)
(qlqs-mkcl:socket-make-stream socket
:element-type '(unsigned-byte 8)
:input t
:output t
:buffering :full)))
(:implementation sbcl
(let* ((endpoint (qlqs-sbcl:host-ent-address
(qlqs-sbcl:get-host-by-name host)))
(socket (make-instance 'qlqs-sbcl:inet-socket
:protocol :tcp
:type :stream)))
(qlqs-sbcl:socket-connect socket endpoint port)
(qlqs-sbcl:socket-make-stream socket
:element-type '(unsigned-byte 8)
:input t
:output t
:buffering :full))))
(definterface read-octets (buffer connection)
(:implementation t
(read-sequence buffer connection))
(:implementation allegro
(qlqs-allegro:read-vector buffer connection))
(:implementation clisp
(qlqs-clisp:read-byte-sequence buffer connection
:no-hang nil
:interactive t)))
(definterface write-octets (buffer connection)
(:implementation t
(write-sequence buffer connection)
(finish-output connection)))
(definterface close-connection (connection)
(:implementation t
(ignore-errors (close connection))))
(definterface call-with-connection (host port fun)
(:implementation t
(let (connection)
(unwind-protect
(progn
(setf connection (open-connection host port))
(funcall fun connection))
(when connection
(close connection))))))
(defmacro with-connection ((connection host port) &body body)
`(call-with-connection ,host ,port (lambda (,connection) ,@body)))
;;;
;;; A text progress bar
;;;
(in-package #:qlqs-progress)
(defclass progress-bar ()
((start-time
:initarg :start-time
:accessor start-time)
(end-time
:initarg :end-time
:accessor end-time)
(progress-character
:initarg :progress-character
:accessor progress-character)
(character-count
:initarg :character-count
:accessor character-count
:documentation "How many characters wide is the progress bar?")
(characters-so-far
:initarg :characters-so-far
:accessor characters-so-far)
(update-interval
:initarg :update-interval
:accessor update-interval
:documentation "Update the progress bar display after this many
internal-time units.")
(last-update-time
:initarg :last-update-time
:accessor last-update-time
:documentation "The display was last updated at this time.")
(total
:initarg :total
:accessor total
:documentation "The total number of units tracked by this progress bar.")
(progress
:initarg :progress
:accessor progress
:documentation "How far in the progress are we?")
(pending
:initarg :pending
:accessor pending
:documentation "How many raw units should be tracked in the next
display update?"))
(:default-initargs
:progress-character #\=
:character-count 50
:characters-so-far 0
:update-interval (floor internal-time-units-per-second 4)
:last-update-time 0
:total 0
:progress 0
:pending 0))
(defgeneric start-display (progress-bar))
(defgeneric update-progress (progress-bar unit-count))
(defgeneric update-display (progress-bar))
(defgeneric finish-display (progress-bar))
(defgeneric elapsed-time (progress-bar))
(defgeneric units-per-second (progress-bar))
(defmethod start-display (progress-bar)
(setf (last-update-time progress-bar) (get-internal-real-time))
(setf (start-time progress-bar) (get-internal-real-time))
(fresh-line)
(finish-output))
(defmethod update-display (progress-bar)
(incf (progress progress-bar) (pending progress-bar))
(setf (pending progress-bar) 0)
(setf (last-update-time progress-bar) (get-internal-real-time))
(let* ((showable (floor (character-count progress-bar)
(/ (total progress-bar) (progress progress-bar))))
(needed (- showable (characters-so-far progress-bar))))
(setf (characters-so-far progress-bar) showable)
(dotimes (i needed)
(write-char (progress-character progress-bar)))
(finish-output)))
(defmethod update-progress (progress-bar unit-count)
(incf (pending progress-bar) unit-count)
(let ((now (get-internal-real-time)))
(when (< (update-interval progress-bar)
(- now (last-update-time progress-bar)))
(update-display progress-bar))))
(defmethod finish-display (progress-bar)
(update-display progress-bar)
(setf (end-time progress-bar) (get-internal-real-time))
(terpri)
(format t "~:D bytes in ~$ seconds (~$KB/sec)"
(total progress-bar)
(elapsed-time progress-bar)
(/ (units-per-second progress-bar) 1024))
(finish-output))
(defmethod elapsed-time (progress-bar)
(/ (- (end-time progress-bar) (start-time progress-bar))
internal-time-units-per-second))
(defmethod units-per-second (progress-bar)
(if (plusp (elapsed-time progress-bar))
(/ (total progress-bar) (elapsed-time progress-bar))
0))
(defun kb/sec (progress-bar)
(/ (units-per-second progress-bar) 1024))
(defparameter *uncertain-progress-chars* "?")
(defclass uncertain-size-progress-bar (progress-bar)
((progress-char-index
:initarg :progress-char-index
:accessor progress-char-index)
(units-per-char
:initarg :units-per-char
:accessor units-per-char))
(:default-initargs
:total 0
:progress-char-index 0
:units-per-char (floor (expt 1024 2) 50)))
(defmethod update-progress :after ((progress-bar uncertain-size-progress-bar)
unit-count)
(incf (total progress-bar) unit-count))
(defmethod progress-character ((progress-bar uncertain-size-progress-bar))
(let ((index (progress-char-index progress-bar)))
(prog1
(char *uncertain-progress-chars* index)
(setf (progress-char-index progress-bar)
(mod (1+ index) (length *uncertain-progress-chars*))))))
(defmethod update-display ((progress-bar uncertain-size-progress-bar))
(setf (last-update-time progress-bar) (get-internal-real-time))
(multiple-value-bind (chars pend)
(floor (pending progress-bar) (units-per-char progress-bar))
(setf (pending progress-bar) pend)
(dotimes (i chars)
(write-char (progress-character progress-bar))
(incf (characters-so-far progress-bar))
(when (<= (character-count progress-bar)
(characters-so-far progress-bar))
(terpri)
(setf (characters-so-far progress-bar) 0)
(finish-output)))
(finish-output)))
(defun make-progress-bar (total)
(if (or (not total) (zerop total))
(make-instance 'uncertain-size-progress-bar)
(make-instance 'progress-bar :total total)))
;;;
;;; A simple HTTP client
;;;
(in-package #:qlqs-http)
;;; Octet data
(deftype octet ()
'(unsigned-byte 8))
(defun make-octet-vector (size)
(make-array size :element-type 'octet
:initial-element 0))
(defun octet-vector (&rest octets)
(make-array (length octets) :element-type 'octet
:initial-contents octets))
;;; ASCII characters as integers
(defun acode (char)
(cond ((eql char :cr)
13)
((eql char :lf)
10)
(t
(let ((code (char-code char)))
(if (<= 0 code 127)
code
(error "Character ~S is not in the ASCII character set"
char))))))
(defvar *whitespace*
(list (acode #\Space) (acode #\Tab) (acode :cr) (acode :lf)))
(defun whitep (code)
(member code *whitespace*))
(defun ascii-vector (string)
(let ((vector (make-octet-vector (length string))))
(loop for char across string
for code = (char-code char)
for i from 0
if (< 127 code) do
(error "Invalid character for ASCII -- ~A" char)
else
do (setf (aref vector i) code))
vector))
(defun ascii-subseq (vector start end)
"Return a subseq of octet-specialized VECTOR as a string."
(let ((string (make-string (- end start))))
(loop for i from 0
for j from start below end
do (setf (char string i) (code-char (aref vector j))))
string))
(defun ascii-downcase (code)
(if (<= 65 code 90)
(+ code 32)
code))
(defun ascii-equal (a b)
(eql (ascii-downcase a) (ascii-downcase b)))
(defmacro acase (value &body cases)
(flet ((convert-case-keys (keys)
(mapcar (lambda (key)
(etypecase key
(integer key)
(character (char-code key))
(symbol
(ecase key
(:cr 13)
(:lf 10)
((t) t)))))
(if (consp keys) keys (list keys)))))
`(case ,value
,@(mapcar (lambda (case)
(destructuring-bind (keys &rest body)
case
`(,(if (eql keys t)
t
(convert-case-keys keys))
,@body)))
cases))))
;;; Pattern matching (for finding headers)
(defclass matcher ()
((pattern
:initarg :pattern
:reader pattern)
(pos
:initform 0
:accessor match-pos)
(matchedp
:initform nil
:accessor matchedp)))
(defun reset-match (matcher)
(setf (match-pos matcher) 0
(matchedp matcher) nil))
(define-condition match-failure (error) ())
(defun match (matcher input &key (start 0) end error)
(let ((i start)
(end (or end (length input)))
(match-end (length (pattern matcher))))
(with-slots (pattern pos)
matcher
(loop
(cond ((= pos match-end)
(let ((match-start (- i pos)))
(setf pos 0)
(setf (matchedp matcher) t)
(return (values match-start (+ match-start match-end)))))
((= i end)
(return nil))
((= (aref pattern pos)
(aref input i))
(incf i)
(incf pos))
(t
(if error
(error 'match-failure)
(if (zerop pos)
(incf i)
(setf pos 0)))))))))
(defun ascii-matcher (string)
(make-instance 'matcher
:pattern (ascii-vector string)))
(defun octet-matcher (&rest octets)
(make-instance 'matcher
:pattern (apply 'octet-vector octets)))
(defun acode-matcher (&rest codes)
(make-instance 'matcher
:pattern (make-array (length codes)
:element-type 'octet
:initial-contents
(mapcar 'acode codes))))
;;; "Connection Buffers" are a kind of callback-driven,
;;; pattern-matching chunky stream. Callbacks can be called for a
;;; certain number of octets or until one or more patterns are seen in
;;; the input. cbufs automatically refill themselves from a
;;; connection as needed.
(defvar *cbuf-buffer-size* 8192)
(define-condition end-of-data (error) ())
(defclass cbuf ()
((data
:initarg :data
:accessor data)
(connection
:initarg :connection
:accessor connection)
(start
:initarg :start
:accessor start)
(end
:initarg :end
:accessor end)
(eofp
:initarg :eofp
:accessor eofp))
(:default-initargs
:data (make-octet-vector *cbuf-buffer-size*)
:connection nil
:start 0
:end 0
:eofp nil)
(:documentation "A CBUF is a connection buffer that keeps track of
incoming data from a connection. Several functions make it easy to
treat a CBUF as a kind of chunky, callback-driven stream."))
(define-condition cbuf-progress ()
((size
:initarg :size
:accessor cbuf-progress-size
:initform 0)))
(defun call-processor (fun cbuf start end)
(signal 'cbuf-progress :size (- end start))
(funcall fun (data cbuf) start end))
(defun make-cbuf (connection)
(make-instance 'cbuf :connection connection))
(defun make-stream-writer (stream)
"Create a callback for writing data to STREAM."
(lambda (data start end)
(write-sequence data stream :start start :end end)))
(defgeneric size (cbuf)
(:method ((cbuf cbuf))
(- (end cbuf) (start cbuf))))
(defgeneric emptyp (cbuf)
(:method ((cbuf cbuf))
(zerop (size cbuf))))
(defgeneric refill (cbuf)
(:method ((cbuf cbuf))
(when (eofp cbuf)
(error 'end-of-data))
(setf (start cbuf) 0)
(setf (end cbuf)
(read-octets (data cbuf)
(connection cbuf)))
(cond ((emptyp cbuf)
(setf (eofp cbuf) t)
(error 'end-of-data))
(t (size cbuf)))))
(defun process-all (fun cbuf)
(unless (emptyp cbuf)
(call-processor fun cbuf (start cbuf) (end cbuf))))
(defun multi-cmatch (matchers cbuf)
(let (start end)
(dolist (matcher matchers (values start end))
(multiple-value-bind (s e)
(match matcher (data cbuf)
:start (start cbuf)
:end (end cbuf))
(when (and s (or (null start) (< s start)))
(setf start s
end e))))))
(defun cmatch (matcher cbuf)
(if (consp matcher)
(multi-cmatch matcher cbuf)
(match matcher (data cbuf) :start (start cbuf) :end (end cbuf))))
(defun call-until-end (fun cbuf)
(handler-case
(loop
(process-all fun cbuf)
(refill cbuf))
(end-of-data ()
(return-from call-until-end))))
(defun show-cbuf (context cbuf)
(format t "cbuf: ~A ~D - ~D~%" context (start cbuf) (end cbuf)))
(defun call-for-n-octets (n fun cbuf)
(let ((remaining n))
(loop
(when (<= remaining (size cbuf))
(let ((end (+ (start cbuf) remaining)))
(call-processor fun cbuf (start cbuf) end)
(setf (start cbuf) end)
(return)))
(process-all fun cbuf)
(decf remaining (size cbuf))
(refill cbuf))))
(defun call-until-matching (matcher fun cbuf)
(loop
(multiple-value-bind (start end)
(cmatch matcher cbuf)
(when start
(call-processor fun cbuf (start cbuf) end)
(setf (start cbuf) end)
(return)))
(process-all fun cbuf)
(refill cbuf)))
(defun ignore-data (data start end)
(declare (ignore data start end)))
(defun skip-until-matching (matcher cbuf)
(call-until-matching matcher 'ignore-data cbuf))
;;; Creating HTTP requests as octet buffers
(defclass octet-sink ()
((storage
:initarg :storage
:accessor storage))
(:default-initargs
:storage (make-array 1024 :element-type 'octet
:fill-pointer 0
:adjustable t))
(:documentation "A simple stream-like target for collecting
octets."))
(defun add-octet (octet sink)
(vector-push-extend octet (storage sink)))
(defun add-octets (octets sink &key (start 0) end)
(setf end (or end (length octets)))
(loop for i from start below end
do (add-octet (aref octets i) sink)))
(defun add-string (string sink)
(loop for char across string
for code = (char-code char)
do (add-octet code sink)))
(defun add-strings (sink &rest strings)
(mapc (lambda (string) (add-string string sink)) strings))
(defun add-newline (sink)
(add-octet 13 sink)
(add-octet 10 sink))
(defun sink-buffer (sink)
(subseq (storage sink) 0))
(defvar *proxy-url* nil)
(defun full-proxy-path (host port path)
(format nil "~:[http~;https~]://~A~:[:~D~;~*~]~A"
(= port 443)
host
(or (= port 80)
(= port 443))
port
path))
(defun make-request-buffer (host port path &key (method "GET"))
(setf method (string method))
(when *proxy-url*
(setf path (full-proxy-path host port path)))
(let ((sink (make-instance 'octet-sink)))
(flet ((add-line (&rest strings)
(apply #'add-strings sink strings)
(add-newline sink)))