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File mutils/mutils.scm artifact 9fa9e34972 part of check-in 8cb9718987


;; Copyright 2006-2011, Matthew Welland.
;; 
;;  This program is made available under the GNU GPL version 2.0 or
;;  greater. See the accompanying file COPYING for details.
;; 
;;  This program is distributed WITHOUT ANY WARRANTY; without even the
;;  implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
;;  PURPOSE.

;; This is from the perl world, a hash of hashes is a super easy way to keep a handle on
;; lots of disparate data
;;

(module mutils
    *

  (import chicken scheme
	  ;; data-structures posix
	  srfi-1
	  ;; srfi-13
	  srfi-69
	  ports
	  extras
	  regex
	  posix
	  data-structures
	  matchable
	  )

(define (mutils:hierhash-ref hh . keys)
  (if (null? keys)
      #f
      (let loop ((ht   hh)
		 (key  (car keys))
		 (tail (cdr keys)))
	(if (null? tail)
	    (if (hash-table? ht)
		(hash-table-ref/default ht key #f)
		#f)
	    (if (hash-table? ht)
		(loop (hash-table-ref/default ht key #f)
		      (car tail)
		      (cdr tail))
		#f)))))

;; WATCH THE NON-INTUITIVE INTERFACE HERE!!!!
;; val comes first!
;;
(define (mutils:hierhash-set! hh val . keys)
  (if (null? keys)
      #f
      (let loop ((ht    hh)
		 (key  (car keys))
		 (tail (cdr keys)))
	(if (null? tail) ;; last one!
	    (hash-table-set! ht key val)
	    (let ((nh (hash-table-ref/default ht key #f)))
	      (if (not nh)(set! nh (make-hash-table)))
	      (hash-table-set! ht key nh)
	      (loop nh
		    (car tail)
		    (cdr tail)))))))

;; nice little routine to add an item to a list in a hashtable 
;;
(define (mutils:hash-table-add-to-list htbl key item)
  (let ((l (hash-table-ref/default htbl key #f)))
    (if l
	(hash-table-set! htbl key (cons item l))
	(hash-table-set! htbl key (list item)))))

(define (mutils:hash-table-append-to-list htbl key lst)
  (let ((l (hash-table-ref/default htbl key #f)))
    (if l
	(hash-table-set! htbl key (append lst l))
        (hash-table-set! htbl key lst))))

;;======================================================================
;; Utils
;;======================================================================

(define (mutils:file->list fname)
  (let ((fh (open-input-file fname))
	(comment (regexp "^\\s*#"))
	(blank   (regexp "^\\s*$")))
    (let loop ((l   (read-line fh))
	       (res '()))
      (if (eof-object? l)
	  (reverse res)
	  (if (or (string-match comment l)
		  (string-match blank l))
	      (loop (read-line fh) res)
	      (loop (read-line fh) (cons l res)))))))

(use sparse-vectors)

;; this is a simple two dimensional sparse array

;; ONLY TWO DIMENSIONS!!! SEE ARRAY-LIB IF YOUR NEEDS ARE GREATER!!
;;
(define (mutils:make-sparse-array)
  (let ((a (make-sparse-vector)))
    (sparse-vector-set! a 0 (make-sparse-vector))
    a))

(define (mutils:sparse-array? a)
  (and (sparse-vector? a)
       (sparse-vector? (sparse-vector-ref a 0))))

(define (mutils:sparse-array-ref a x y)
  (let ((row (sparse-vector-ref a x)))
    (if row
	(sparse-vector-ref row y)
	#f)))

(define (mutils:sparse-array-set! a x y val)
  (let ((row (sparse-vector-ref a x)))
    (if row
	(sparse-vector-set! row y val)
	(let ((new-row (make-sparse-vector)))
	  (sparse-vector-set! a x new-row)
	  (sparse-vector-set! new-row y val)))))

;; some routines for treating assoc lists a bit like hash tables

(define (mutils:assoc-get/default alist key default)
  (let ((res (assoc key alist)))
    (if (and res (list? res)(> (length res) 1))
	(cadr res)
	default)))

(define (mutils:assoc-get alist key)
  (cadr (assoc key alist)))

(define (mutils:hier-list? @hierlist)
  (and (list? @hierlist)
       (> (length @hierlist) 0)
       (list? (car @hierlist))
       (> (length (car @hierlist)) 1)))

(define (mutils:hier-list-get @hierlist . @path)
  (if (list? @hierlist)
      (let* (($path (car @path))
	     (@rempath (cdr @path))
	     (@match (assoc $path @hierlist)))
	(if @match
	    (if (or (not (list? @rempath))(null? @rempath))
		(cadr @match)
		(apply mutils:hier-list-get (cadr @match) @rempath))
	    #f))
      #f))

(define (mutils:hier-list-put! @hierlist . @path)
  (let* (($path (car @path))
	 (@rempath (cdr @path))
	 ($value   (cadr @path))
	 (@match (assoc $path @hierlist))
	 (@remhierlist (remove (lambda (a)
                                 (equal? a @match))
                               @hierlist))
         (@old-pair (let (($value (mutils:hier-list-get @hierlist $path))) (if $value $value '())))
	 (@new-pair (list $path (if (eq? (length @rempath) 1) 
				    (car @rempath)
				    (apply mutils:hier-list-put! @old-pair @rempath)))))
    (cons @new-pair @remhierlist)))

(define (mutils:hier-list-remove! @hierlist . @path)
  (let (($path (car @path)))
    (if (eq? (length @path) 1)
	(remove (lambda (a)
                  (equal? a (assoc $path @hierlist)))
                @hierlist)
	(let* ((@rempath (cdr @path))
	       (@match (assoc $path @hierlist))
	       (@remhierlist (remove (lambda (a) 
                                       (equal? @match a))
                                     @hierlist))
	       (@old-pair (let (($value (mutils:hier-list-get @hierlist $path))) (if $value $value '())))
	       (@new-pair (list $path (apply mutils:hier-list-remove! @old-pair @rempath))))
	  (cons @new-pair @remhierlist)))))

(define (mutils:keys @hierlist . @path)
  (map (lambda (@l)
	 (if (and (list? @l)(not (null? @l))) 
	     (car @l))) 
       (if (null? @path) @hierlist
	   (apply mutils:hier-list-get @hierlist @path))))

;;======================================================================
;; Other utils
;;======================================================================

(define (check-write-create fpath)
  (and (file-write-access? fpath)
       (let ((fname (conc fpath "/.junk-" (current-seconds) "-" (random 10000))))
	 ;;(print "trying to create/remove " fname)
	 (handle-exceptions
	  exn
	  #f
	  (begin
	    (with-output-to-file fname
	      (lambda ()
		(print "You can delete this file")))
	    (delete-file fname)
	    #t)))))

(define (run-and-return-output cmd . params)
  (let-values (((inp oup pid)
		(process cmd params)))
    (let ((res (with-input-from-port inp read-lines)))
      (let-values (((pidres status estatus)
		    (process-wait pid)))
	(and status (eq? estatus 0) res)))))

(define (confirm-ssh-access-to-host hostname)
  (run-and-return-output "ssh" hostname "uptime"))

(define (check-display dsp)
  (run-and-return-output "xdpyinfo" "-display" dsp))

#;(define (check-display dsp)
  (let-values (((inp oup pid)
		(process "xdpyinfo" `("-display" ,dsp))))
    (let ((res (with-input-from-port inp read-lines)))
      (let-values (((pidres status estatus)
		    (process-wait pid)))
	(and status (eq? estatus 0) res)))))

;; do some sanity checks on the system
;;
(define (mutils:syscheck common:raw-get-remote-host-load
			 server:get-best-guess-address
			 read-config)
  ;; current dir writeable and do megatest.config, runconfigs.config files exist/readable
  (print "Current directory " (current-directory) " writeable: " 
	 (if (check-write-create ".") "yes" "NO"))
  ;; home dir writeable
  (print "Home directory " (get-environment-variable "HOME") " writeable: "
	 (if (check-write-create (get-environment-variable "HOME")) "yes" "NO"))
  ;; /tmp writeable
  (print "/tmp directory writeable: " (if (check-write-create "/tmp") "yes" "NO"))
  ;; load configs
  (print "$DISPLAY set: " (if (get-environment-variable "DISPLAY")
			      (conc  (get-environment-variable "DISPLAY") " yes")
			      "NO"))

  (print "$DISPLAY accessible? "
	  ;; (eq? (system "xdpyinfo -display $DISPLAY &>/dev/null") 0)
	 (if (check-display (get-environment-variable "DISPLAY"))
	     "yes" "NO"))

  (print "Password-less ssh access to localhost: "
	 (if  (confirm-ssh-access-to-host "localhost")
	      "yes"
	      "NO"))

  ;; if I'm in a Megatest area do some checks
  (print "Have megatest.config: "
	 (if (file-exists? "megatest.config")
	     "yes"
	     "NO"))

  (print "Have runconfigs.config: "
	 (if (file-exists? "runconfigs.config")
	     "yes"
	     "NO"))

  (if (file-exists? ".homehost")
      (let* ((homehost (with-input-from-file ".homehost"
			 read-line))
	     (currhost (get-host-name))
	     (bestadrs (server:get-best-guess-address currhost)))
	(print "Have .homehost and it is the localhost: "
	       (if (equal? homehost bestadrs)
		   "yes"
		   (conc ".homehost=" homehost ", localhost=" bestadrs ", NO")))
	(print "Have .homehost and it is reachable via ssh: "
	       (if (confirm-ssh-access-to-host homehost)
		   "yes"
		   "NO"))
	))

  (if (file-exists? "megatest.config")
      (let* ((cdat (read-config "megatest.config" #f #f)))
	(print "Have [disks] section: "
	       (if (hash-table-ref/default cdat "disks" #f)
		   (conc (hash-table-ref cdat "disks") " yes")
		   "NO"))
	(for-each
	 (lambda (entry)
	   (match
	    entry
	    ((dname path)
	     (print "Disk " dname " at " path " writeable: "
		    (if (check-write-create path) "yes" "NO")))
	    (else (print "bad entry: " entry))))
	 (hash-table-ref/default cdat "disks" '()))))

  (print "Have link tree and it is writable: "
	 (if (and (file-exists? "lt")
		  (check-write-create "lt"))
	     "yes"
	     "NO"))
  ;;    check load on homehost
  )

;; Develop stuff here - then move to where it belongs.


)