1. Create kernel
2. Create initrd
4. Create system image
	a. Create apps
	b. Tar up

#! /usr/bin/env tclsh

set domain "appbox.rkeene.org"
set packages $argv

lappend auto_path [file join [file dirname [info script]] .. lib]

package require tax
package require csv
package require sha1
package require md5

namespace eval ::cael::build {
	variable pkgmap_fields [list name type owner group mode mtime size sha1 linkdest]
	variable pkginfodir [file join [file dirname [info script]] .. pkginfo]
	variable buildonlyvars [list destroot buildroot metadataroot extraroot]
	variable have_tclx 0
	variable default_scripts {
		compile {
			/bin/sh {
				./configure "--prefix=${_APPBOX_PREFIX}" "--sysconfdir=${_APPBOX_SYSCONFDIR}"  || exit 1

				make || exit 1

				exit 0
			}
		}
		install {
			/bin/sh {
				make "DESTDIR=${destroot}" install || exit 1

				exit 0
			}
		}
	}
}

catch {
	package require Tclx
	set ::cael::build::have_tclx 1
}

if {!$::cael::build::have_tclx} {
	proc recursive_glob {dirlist globlist} {
		set result {}
		set recurse {}

		foreach dir $dirlist {
			if ![file isdirectory $dir] {
				error "\"$dir\" is not a directory"
			}

			foreach pattern $globlist {
				set result [concat $result  [glob -nocomplain -- [file join $dir $pattern]]]
			}

			foreach file [glob -nocomplain -tails -directory $dir * .*] {
				set file [file join $dir $file]
				if [file isdirectory $file] {
					set fileTail [file tail $file]
					if {$fileTail != "." && $fileTail != ".."} {
						lappend recurse $file
					}
				}
			}
		}

		if {[llength $recurse] != 0} {
			set result [concat $result [recursive_glob $recurse $globlist]]
		}

		return $result
	}
}

proc ::cael::build::_parse_pkgXML {tag isClosing isSelfClosing props_list body} {
	if {[string match "!--*" $tag]} {
		return
	}

	if {$isClosing} {
		set lastOpened [lindex $::cael::build::_xml_stack end]

		if {$tag != $lastOpened} {
			return -code error "XML Parsing Error: Got close for tag \"${tag}\", but last opened was \"${lastOpened}\""
		}

		set fulltag [join $::cael::build::_xml_stack .]

		switch -- $fulltag {
			root.package.releases.release {
				unset -nocomplain currversioninfo

				# Convert array-like list into an array
				foreach {var val} $::cael::build::_currversion {
					switch -- $var {
						"urls" - "sigs" - "alt" {
							# These elements form lists
							lappend currversioninfo($var) $val
						}
						default {
							# All other elements form strings
							set currversioninfo($var) $val
						}
					}
				}

				lappend ::cael::build::_parse_array(versions) [array get currversioninfo]

				unset ::cael::build::_currversion
			}
			root.package.variants.variant {
				set ::cael::build::_ignoreTags_until_variant 0
			}
			root.package.releases {
				# If a default URL was specified, go back through every release and add an "urls" list if none are present 
				if {[info exists ::cael::build::_parse_array(urls)] && [info exists ::cael::build::_parse_array(versions)]} {
					set newversions [list]
					foreach version_ent_list $::cael::build::_parse_array(versions) {
						array set tmpversinfo $version_ent_list

						if {![info exists tmpversinfo(urls)]} {
							set tmpversinfo(urls) $::cael::build::_parse_array(urls)
						}

						lappend newversions [array get tmpversinfo]
					}

					set ::cael::build::_parse_array(versions) $newversions
				}
			}
			root.package {
				foreach {scriptname} [lsort -dictionary [array name ::cael::build::_script_array]] {
					set script_frags $::cael::build::_script_array($scriptname)
					set interp $::cael::build::_script_info($scriptname)

					set script_list [list]
					foreach script_frag $script_frags {
						foreach line [split $script_frag "\n"] {
							lappend script_list $line
						}
					}
					set script [join $script_list "\n"]

					lappend ::cael::build::_parse_array(scripts) $scriptname [list $interp $script]
				}
			}
		}

		set ::cael::build::_xml_stack [lrange $::cael::build::_xml_stack 0 end-1]

		return
	}

	regsub -all {\&ob;} $body \{ body
	regsub -all {\&cb;} $body \} body

	lappend ::cael::build::_xml_stack $tag

	set fulltag [join $::cael::build::_xml_stack .]
	array set props $props_list

	if {$::cael::build::_ignoreTags_until_variant} {
		set fulltag "__IGNORED__"
	}

	switch -- $fulltag {
		__IGNORED__ {}
		root.package {
			set pkgname $props(name)

			set pkgname [string trim $pkgname]

			set ::cael::build::_parse_array(name) $pkgname
		}
		root.package.description {
			set short_desc $props(short)
			set long_desc $body

			set short_desc [string trim $short_desc]
			set long_desc [string trim $long_desc]

			set ::cael::build::_parse_array(short_desc) $short_desc
			set ::cael::build::_parse_array(long_desc) $long_desc
		}
		root.package.releases.release {
			set ::cael::build::_currversion [list version $props(version)]
		}
		root.package.releases.release.alt {
			lappend ::cael::build::_currversion alt $body
		}
		root.package.releases.release.source.url {
			lappend ::cael::build::_currversion urls $body
		}
		root.package.releases.release.source.sig {
			lappend ::cael::build::_currversion sigs $body
		}
		root.package.releases.release.sha1 {
			lappend ::cael::build::_currversion sha1 [string trim $body]
		}
		root.package.releases.source.url {
			lappend ::cael::build::_parse_array(urls) $body
		}
		root.package.releases.source.sig {
			lappend ::cael::build::_parse_array(sigs) $body
		}
		root.package.variants.variant {
			lappend ::cael::build::_parse_array(variants) $props(name)

			if {$props(name) != $::cael::build::_variant} {
				set ::cael::build::_ignoreTags_until_variant 1
			} else {
				set ::cael::build::_parse_array(variant) $props(name)
			}
		}
		root.package.var - root.package.variants.variant.var {
			lappend ::cael::build::_parse_array(env_vars) $props(name) $props(value)
		}
		root.package.script - root.package.variants.variant.script {
			if {![info exists props(name)] && ![info exists props(names)]} {
				set props(name) "immediate-$::cael::build::_script_num"
				incr ::cael::build::_script_num
			}

			if {[info exists props(names)]} {
				if {[info exists props(name)]} {
					return -code error "May not specify both the \"name\" and \"names\" properties for a script"
				}
				set script_names [split $props(names) ","]
			} else {
				set script_names [list $props(name)]
			}

			foreach script_name $script_names {
				set script_name [string trim $script_name]

				if {[info exists props(interp)]} {
					set ::cael::build::_script_info($script_name) $props(interp)
				} else {
					if {![info exists ::cael::build::_script_info($script_name)]} {
						# The first reference to a script must include the interp
						return -code error "Script \"$script_name\" has no interpreter (first reference must include an \"interp\" property to specify the interpreter)"
					}
				}

				lappend ::cael::build::_script_array($script_name) $body
			}
		}
		root.package.files.default {
			set permslist [list]
			foreach prop [list owner group filemode dirmode] {
				lappend permslist $prop $props($prop)
			}
			set ::cael::build::_parse_array(default-file) $permslist
		}
		root.package.files.file {
			set permslist [list]
			foreach prop [list owner group mode] {
				lappend permslist $prop $props($prop)
			}
			lappend ::cael::build::_parse_array(files) $props(name) $permslist
		}
		root.package.buildflags.static - root.package.variants.variant.buildflags.static {
			lappend ::cael::build::_parse_array(buildflags) "static"
		}
		root - \
		  root.package.releases - \
		  root.package.releases.release.source - \
		  root.package.releases.source - \
		  root.package.variants - \
		  root.package.buildflags - \
		  root.package.variants.variant.buildflags - \
		  root.package.files {
			# We don't handle these tags
		}
		default {
			puts stderr "Unhandled Tag: <${fulltag} props=$props_list, body=[string trim $body]>"
		}
	}

	if {$isSelfClosing} {
		set ::cael::build::_xml_stack [lrange $::cael::build::_xml_stack 0 end-1]
	}

	return
}

proc ::cael::build::_parse_pkgXML_init {variant} {
	set ::cael::build::_script_num 0
	set ::cael::build::_xml_stack ""
	set ::cael::build::_variant $variant
	set ::cael::build::_ignoreTags_until_variant 0

	unset -nocomplain ::cael::build::_parse_array ::cael::build::_currversion
	set ::cael::build::_parse_array(variant) default
}

proc ::cael::build::_version_sort {a b} {
	set foundval [lindex [lsort -dictionary [list $a $b]] 0]

	if {$foundval == "$a"} {
		return -1
	}

	return 1
}

proc ::cael::build::_parse_pkg {pkgname {version "latest"} {variant "default"}} {
	set file [file join $::cael::build::pkginfodir "${pkgname}.xml"]

	# Read in XML document
	set fd [open $file r]
	set document [read $fd]
	close $fd

	# Cleanup internal XML structures
	::cael::build::_parse_pkgXML_init $variant

	# Parse XML Document
	::tax::parse ::cael::build::_parse_pkgXML $document root

	# Populate version information
	## Determine the latest version if it is requested
	set versions [list]
	array set allversinfo [list]
	foreach versinfo_list $::cael::build::_parse_array(versions) {
		unset -nocomplain versinfo
		array set versinfo $versinfo_list

		set item_version $versinfo(version)

		lappend versions $item_version
		set allversinfo($item_version) $versinfo_list
	}
	if {$version == "latest"} {
		set version [lindex [lsort -decreasing -command ::cael::build::_version_sort $versions] 0]
	}
	set ::cael::build::_parse_array(versinfo) $allversinfo($version)

	# Generate return value
	set retval [array get ::cael::build::_parse_array]

	# Cleanup
	unset ::cael::build::_parse_array

	return $retval
}

proc ::cael::build::_url_subst {url env version} {
	# Create a safe interp to run the substitutions in

	set interp [interp create -safe]

	foreach {var val} $env {
		$interp eval [list set $var $val]
	}

	set retval [$interp eval [list subst $url]]

	interp delete $interp

	return $retval
}

proc ::cael::build::script_gen_execute {shell args} {
	# Determine the properties of this shell
	switch -glob -- $shell {
		"*/csh" {
			lappend escapeMapping {'} {'"'"'}
			set quoteOpen "'"
			set quoteClose "'"

			set abortSuffix " || exit 1"

			set commentChar "#"
			set execCmd ""
		}
		"*/tclsh" {
			lappend escapeMapping "\\" "\\\\" "\"" "\\\"" "{" "\\\{" "}" "\\\}" "\$" "\\\$" "\[" "\\\[" "\]" "\\\]"
			set quoteOpen "\""
			set quoteClose "\""

			set abortSuffix ""

			set commentChar "#"
			set execCmd "exec "
		}
		default {
			# Bourne-like shells
			lappend escapeMapping {'} {'"'"'}
			set quoteOpen "'"
			set quoteClose "'"

			set abortSuffix " || exit 1"

			set commentChar "#"
			set execCmd ""
		}
	}

	# Set a default value if we are unable to emit usable actions
	set ret "echo \"Unable to determine how to \\\"[join $args " "]\\\"\"\nexit 1"

	# Determine output
	set cmd [lindex $args 0]
	switch -- $cmd {
		"set" {
			set var [lindex $args 1]
			set val [string map $escapeMapping [lindex $args 2]]

			switch -glob -- $shell {
				"*/csh" {
					set ret "setenv $var='$val'"
				}
				"*/tclsh" {
					set ret "set $var \"$val\""
				}
				default {
					set ret "$var='$val'; export $var"
				}
			}
		}
		"mkdir" {
			set dir [string map $escapeMapping [lindex $args 1]]

			switch -glob -- $shell {
				"*/tclsh" {
					set ret "file mkdir -- \"$dir\""
				}
				default {
					set ret "mkdir -p '$dir' || exit 1"
				}
			}
		}
		"mv" {
			set src [string map $escapeMapping [lindex $args 1]]
			set dst [string map $escapeMapping [lindex $args 2]]

			switch -glob -- $shell {
				"*/tclsh" {
					set ret "file rename -- \"$src\" \"$dst\""
				}
				default {
					set ret "mv '$src' '$dst' || exit 1"
				}
			}
		}
		"cd_one_dir" {
			switch -glob -- $shell {
				"*/csh" {
					# XXX: TODO
				}
				"*/tclsh" {
					# XXX: TODO
				}
				default {
					set ret "_tmp_build_num_dirs=\"\`ls -1a | wc -l`\"\n"
					append ret "if \[ \"x\${_tmp_build_num_dirs}\" = \"x3\" ]; then\n"
					append ret "\tcd *\n"
					append ret "fi\n"
					append ret "unset _tmp_build_num_dirs\n"
				}
			}
		}
		"sha1check" {
			set file [string map $escapeMapping [lindex $args 1]]
			set sha1 [string map $escapeMapping [lindex $args 2]]

			switch -glob -- $shell {
				"*/csh" {
					# XXX: TODO
				}
				"*/tclsh" {
					# XXX: TODO
				}
				default {
					set ret "_tmp_sha1sum=\"`sha1sum '${file}' | awk '{ print \$1 }'`\"\n"
					append ret "if \[ \"x\${_tmp_sha1sum}\" != 'x${sha1}' \]; then\n"
					append ret "\techo 'Checksum of \"${file}\" failed.  Aborting.\'\n"
					append ret "\texit 1\n"
					append ret "fi\n"
					append ret "unset _tmp_sha1sum\n"
				}
			}
		}
		"wget" {
			set file [string map $escapeMapping [lindex $args 1]]
			set urls [lindex $args 2]

			switch -glob -- $shell {
				"*/tclsh" {
					# XXX: TODO
				}
				default {
					set ret "wget -O '${file}' '[string map $escapeMapping [lindex $urls 0]]' || \\\n"
					foreach url [lrange $urls 1 end] {
						append ret "\twget -O '${file}' '[string map $escapeMapping $url]' || \\\n"
					}
					append ret "\texit 1\n"
				}
			}
		}
		"extract" {
			set file [string map $escapeMapping [lindex $args 1]]

			switch -glob -- $shell {
				"*/tclsh" {
					# XXX: TODO
				}
				default {
					set ret "${execCmd}tar -xf ${quoteOpen}${file}${quoteClose} || \\\n"
					append ret "\t${execCmd}xz -dc ${quoteOpen}${file}${quoteClose} | tar -xf - || \\\n"
					append ret "\t${execCmd}unzip ${quoteOpen}${file}${quoteClose}${abortSuffix}"
				}
			}
		}
		"cd" {
			set dir [string map $escapeMapping [lindex $args 1]]

			set ret "cd ${quoteOpen}${dir}${quoteClose}${abortSuffix}"
		}
	}

	return $ret
}

proc ::cael::build::gen_scripts {pkgname version variant workdir instrootdir versinfo_list pkginfo_list scripts_list} {
	array set versinfo $versinfo_list
	array set pkginfo $pkginfo_list

	set ret [list]

	set scriptdir [file join $workdir build-scripts]
	set builddir [file join $workdir build]
	set srcdir [file join $workdir src]

	file mkdir $scriptdir
	file mkdir $srcdir

	foreach {script scriptval} $scripts_list {
		# Sanitize script name to create script name
		set script [file tail $script]

		# Determine script file name
		set file [file join $scriptdir "${script}"]

		# Record script name and file for later use
		lappend ret $script $file

		set init 0
		if {![file exists $file]} {
			set init 1
		}

		set fd [open $file a+]

		if {$init} {
			set shell [lindex $scriptval 0]

			# Create generic preamble
			puts $fd "#!${shell}"
			puts $fd ""
			set export_vars [list]
			foreach {var val} $pkginfo(env_vars) {
				# Exclude build-related variables from
				# non-build-related scripts
				switch -- $script {
					"compile" - "install" {
					}
					default {
						if {[lsearch -exact $::cael::build::buildonlyvars $var] != -1} {
							continue
						}
					}
				}

				puts $fd [script_gen_execute $shell set $var $val]
			}

			# Do script-specific preamble
			switch -- $script {
				"compile" - "install" {
					puts $fd [script_gen_execute $shell mkdir $workdir]
					puts $fd [script_gen_execute $shell cd $workdir]
					puts $fd ""
				}
			}

			# Do script-specific stuff
			switch -- $script {
				"compile" {
					puts $fd [script_gen_execute $shell mkdir $srcdir]
					puts $fd ""

					set outfile [file join $srcdir "${pkgname}-$versinfo(version).src"]

					# Download archive
					set urls [list]
					foreach url $versinfo(urls) {
						lappend urls [_url_subst $url $pkginfo(env_vars) $versinfo(version)]
					}
					puts $fd [script_gen_execute $shell wget "${outfile}.new" $urls]
					puts $fd [script_gen_execute $shell sha1check "${outfile}.new" $versinfo(sha1)]
					puts $fd "mv '${outfile}.new' '${outfile}'"
					puts $fd ""

					# Extract archive
					puts $fd [script_gen_execute $shell mkdir $builddir]
					puts $fd [script_gen_execute $shell cd $builddir]
					puts $fd [script_gen_execute $shell extract $outfile]
					puts $fd ""

					# Change to working directory within archive, if available
					puts $fd [script_gen_execute $shell cd_one_dir]
				}
				"install" {
					# Change to working directory within archive
					puts $fd [script_gen_execute $shell cd $builddir]
					puts $fd [script_gen_execute $shell cd_one_dir]
					puts $fd ""

					# Create the installation root directory
					puts $fd [script_gen_execute $shell mkdir $instrootdir]
					puts $fd ""
				}
			}
		}

		foreach part [lrange $scriptval 1 end] {
			puts $fd $part
		}

		close $fd
	}

	return $ret
}

proc ::cael::build::gen_meta {pkgname pkgdomain version variant workdir instrootdir instmetadir versinfo_list pkginfo_list scripts_list} {
	array set versinfo $versinfo_list
	array set pkginfo $pkginfo_list

	array set fileinfo [list]
	if {[info exists pkginfo_list(files)]} {
		array set fileinfo $pkginfo_list(files)
	}

	## Create meta directory
	file mkdir $instmetadir

	## Create Description file
	set pkgdescfile [file join $instmetadir desc]
	set fd [open $pkgdescfile w]
	puts $fd "[join [split $pkginfo(short_desc) "\n"] " "]"
	puts $fd "$pkginfo(long_desc)"
	close $fd

	## Create Package Map file
	### Generate list of all files
	set filelist [recursive_glob [list $instrootdir] [list *]]

	### Determine how to modify the file name to be what is available
	### to the system
	set strip_file_names [string length $instrootdir]

	### Create default file information if it was not provided
	if {![info exists pkginfo(default-file)]} {
		set pkginfo(default-file) [list]
	}

	### Create mapping
	set pkgmapfile [file join $instmetadir map]
	set fd [open $pkgmapfile w]
	foreach file $filelist {
		#### Ensure that we do not get data from another file if we fail
		#### to create a field
		unset -nocomplain destfile

		#### Get current file information
		file lstat $file srcfile

		#### Set reasonable defaults
		set destfile(owner) 0
		set destfile(group) 0
		set destfile(mode) [expr {$srcfile(mode) & 0777}]

		#### Set derived parameters
		set destfile(name) [string range $file $strip_file_names end]
		set destfile(type) $srcfile(type)
		set destfile(mtime) $srcfile(mtime)

		if {$destfile(type) == "file"} {
			set destfile(size) $srcfile(size)
			set destfile(sha1) [sha1::sha1 -hex -file $file]
		}

		if {$destfile(type) == "link"} {
			set linkdest [file link $file]
			##### If the link points inside the package directory,
			##### rewrite it
			if {[string range $linkdest 0 [expr {$strip_file_names - 1}]] == [string range $file 0 [expr {$strip_file_names - 1}]]} {
				set linkdest [string range $linkdest $strip_file_names end]
			}

			set destfile(linkdest) $linkdest
		}

		#### Set the default values
		foreach {var val} $pkginfo(default-file) {
			switch -- $var {
				"owner" - "group" {
					set destfile($var) $val
				}
				"filemode" {
					if {$destfile(type) != "directory"} {
						set destfile(mode) $val
					}
				}
				"dirmode" {
					if {$destfile(type) == "directory"} {
						set destfile(mode) $val
					}
				}
			}
		}

		#### Set the values specified for this specific file
		if {[info exists fileinfo($destfile(name))]} {
			array set destfile $fileinfo($destfile(name))
		}

		#### Take the data and format it into a list in the order specified
		set destline_data [list]
		foreach field $::cael::build::pkgmap_fields {
			if {![info exists destfile($field)]} {
				lappend destline_data ""

				continue
			}

			lappend destline_data $destfile($field)
		}

		set destline [csv::join $destline_data]

		puts $fd $destline
	}
	close $fd

	## Create package information file
	### XXX: TODO
	set pkginfofile [file join $instmetadir info]
	set fd [open $pkginfofile w]

	### Domain
	puts $fd "domain: $pkgdomain"

	### Name
	puts $fd "name: $pkgname"

	### Version
	puts $fd "version: $version"

	### Variant
	puts $fd "variant: $variant"

	### Arch
	#### XXX: TODO: Figure this out somehow
	puts $fd "arch: ..."

	### Release
	#### XXX: TODO: Need to pull this from the build database
	puts $fd "release: ..."

	### Flags
	#### XXX: TODO: Figure out how this will be formatted
	puts $fd "flags: ..."

	### Compiler (if not static)
	#### XXX: TODO: Needed ?  Could this be a flag (.e.g, compiler=blah) ?
	close $fd

	## Create Dependencies list file
	### XXX: TODO

	## Create Conflict list file
	### XXX: TODO
}

proc ::cael::build::build {pkgname pkgdomain {version "latest"} {variant "default"}} {
	# Parse package data
	array set pkginfo [_parse_pkg $pkgname $version $variant]

	if {[info exists pkginfo(scripts)]} {
		array set scripts $pkginfo(scripts)
	} else {
		array set scripts [list]
	}

	array set versinfo $pkginfo(versinfo)

	# Add missing values
	if {![info exists pkginfo(env_vars)]} {
		set pkginfo(env_vars) ""
	}

	# Create working directory
	set tmpdir "/tmp"
	if {[info exists ::env(TMPDIR)]} {
		set tmpdir $::env(TMPDIR)
	}

	set random [string map [list "." ""] [expr {rand() * 10.0}][expr {rand() * 10.0}]]
	set workdir [file join $tmpdir "build-${random}"]
	set extradir [file join $workdir "extra"]
	set pkgdir [file join $workdir "pkgroot"]
	set instrootdir [file join $pkgdir "root"]
	set instmetadir [file join $pkgdir "install"]
	set instlogdir [file join $instmetadir "logs"]

	# Create extra data, if any
	set extradir_src [file join  $::cael::build::pkginfodir $pkgname]
	if {[file isdirectory $extradir_src]} {
		file mkdir $extradir

		foreach copyfile [glob -directory $extradir_src *] {
			file copy -force -- $copyfile $extradir
		}

		lappend pkginfo(env_vars) extraroot $extradir
	}

	# Update package data
	lappend pkginfo(env_vars) version $versinfo(version) destroot $instrootdir buildroot $workdir metadataroot $instmetadir

	# Update with paths to installation
	lappend pkginfo(env_vars) _APPBOX_PREFIX /apps/${pkgname}/$versinfo(version) _APPBOX_SYSCONFDIR /system/config/apps/$pkgname

	# Include default scripts if needed
	foreach {default_script_name default_script} $::cael::build::default_scripts {
		if {![info exists scripts($default_script_name)]} {
			set scripts($default_script_name) $default_script
		}
	}

	# Create build scripts
	set scripts_files_list [gen_scripts $pkgname $version $variant $workdir $instrootdir [array get versinfo] [array get pkginfo] [array get scripts]]
	array set scripts_files $scripts_files_list

	# Execute build scripts
	## Execute immediate scripts
	### XXX: TODO

	## Execute scripts related to building and installing
	foreach script [list compile install] {
		if {![info exists scripts_files($script)]} {
			continue
		}

		file attributes $scripts_files($script) -permissions +x
		set compile_ret [exec $scripts_files($script) 2>@1]

		### Log script outputs
		set logfile "$scripts_files($script).log"
		set fd [open $logfile w]
		puts $fd $compile_ret
		close $fd
	}

	# Create package metadata
	gen_meta $pkgname $pkgdomain $version $variant $workdir $instrootdir $instmetadir [array get versinfo] [array get pkginfo] [array get scripts]

	# Put package scripts in package meta-data directory
	foreach script [list post-install post-remove pre-install pre-remove] {
		if {![info exists scripts_files($script)]} {
			continue
		}

		file attributes $scripts_files($script) -permissions +x
		file copy $scripts_files($script) $instmetadir
	}

	# Put package log files in package meta-data directory
	file mkdir $instlogdir
	foreach {script script_file} [array get scripts_files] {
		set log_file "${script_file}.log"

		if {![file exists $log_file]} {
			continue
		}

		file copy -- $log_file $instlogdir
	}

	# Create package file
	## Create tarball
	set pkgfilename "${pkgname}-$versinfo(version).tgz"
	exec tar -C $pkgdir -zcf $pkgfilename .

	# Cleanup
	file delete -force -- $workdir
}

foreach package $packages {
	::cael::build::build $package $domain
}

# ACTIVESTATE TEAPOT-PKG BEGIN TM -*- tcl -*-
# -- Tcl Module

# @@ Meta Begin
# Package csv 0.7.2
# Meta as::build::date 2010-12-10
# Meta as::origin      http://sourceforge.net/projects/tcllib
# Meta category        CSV processing
# Meta description     Procedures to handle CSV data.
# Meta license         BSD
# Meta platform        tcl
# Meta require         {Tcl 8.3}
# Meta subject         package csv queue matrix tcllib
# Meta summary         csv
# @@ Meta End


# ACTIVESTATE TEAPOT-PKG BEGIN REQUIREMENTS

package require Tcl 8.3

# ACTIVESTATE TEAPOT-PKG END REQUIREMENTS

# ACTIVESTATE TEAPOT-PKG BEGIN DECLARE

package provide csv 0.7.2

# ACTIVESTATE TEAPOT-PKG END DECLARE
# ACTIVESTATE TEAPOT-PKG END TM
# csv.tcl --
#
#	Tcl implementations of CSV reader and writer
#
# Copyright (c) 2001      by Jeffrey Hobbs
# Copyright (c) 2001-2008 by Andreas Kupries <andreas_kupries@users.sourceforge.net>
#
# See the file "license.terms" for information on usage and redistribution
# of this file, and for a DISCLAIMER OF ALL WARRANTIES.
# 
# RCS: @(#) $Id: csv.tcl,v 1.27 2010/01/19 20:21:57 andreas_kupries Exp $

package require Tcl 8.3
package provide csv 0.7.2

namespace eval ::csv {
    namespace export join joinlist read2matrix read2queue report 
    namespace export split split2matrix split2queue writematrix writequeue
}

# ::csv::join --
#
#	Takes a list of values and generates a string in CSV format.
#
# Arguments:
#	values		A list of the values to join
#	sepChar		The separator character, defaults to comma
#
# Results:
#	A string containing the values in CSV format.

proc ::csv::join {values {sepChar ,} {delChar \"}} {
    set out ""
    set sep {}
    foreach val $values {
	if {[string match "*\[${delChar}$sepChar\]*" $val]} {
	    append out $sep${delChar}[string map [list $delChar ${delChar}${delChar}] $val]${delChar}
	} else {
	    append out $sep${val}
	}
	set sep $sepChar
    }
    return $out
}

# ::csv::joinlist --
#
#	Takes a list of lists of values and generates a string in CSV
#	format. Each item in the list is made into a single CSV
#	formatted record in the final string, the records being
#	separated by newlines.
#
# Arguments:
#	values		A list of the lists of the values to join
#	sepChar		The separator character, defaults to comma
#
# Results:
#	A string containing the values in CSV format, the records
#	separated by newlines.

proc ::csv::joinlist {values {sepChar ,} {delChar \"}} {
    set out ""
    foreach record $values {
	# note that this is ::csv::join
	append out "[join $record $sepChar $delChar]\n"
    }
    return $out
}

# ::csv::joinmatrix --
#
#	Takes a matrix object following the API specified for the
#	struct::matrix package. Each row of the matrix is converted
#	into a single CSV formatted record in the final string, the
#	records being separated by newlines.
#
# Arguments:
#	matrix		Matrix object command.
#	sepChar		The separator character, defaults to comma
#
# Results:
#	A string containing the values in CSV format, the records
#	separated by newlines.

proc ::csv::joinmatrix {matrix {sepChar ,} {delChar \"}} {
    return [joinlist [$matrix get rect 0 0 end end] $sepChar $delChar]
}

# ::csv::iscomplete --
#
#	A predicate checking if the argument is a complete csv record.
#
# Arguments
#	data	The (partial) csv record to check.
#
# Results:
#	A boolean flag indicating the completeness of the data. The
#	result is true if the data is complete.

proc ::csv::iscomplete {data} {
    expr {1 - [regexp -all \" $data] % 2}
}

# ::csv::read2matrix --
#
#	A wrapper around "Split2matrix" reading CSV formatted
#	lines from the specified channel and adding it to the given
#	matrix.
#
# Arguments:
#	m		The matrix to add the read data too.
#	chan		The channel to read from.
#	sepChar		The separator character, defaults to comma
#	expand		The expansion mode. The default is none
#
# Results:
#	A list of the values in 'line'.

proc ::csv::read2matrix {args} {
    # FR #481023
    # See 'split2matrix' for the available expansion modes.

    # Argument syntax:
    #
    #2)            chan m
    #3)            chan m sepChar
    #3) -alternate chan m
    #4) -alternate chan m sepChar
    #4)            chan m sepChar expand
    #5) -alternate chan m sepChar expand

    set alternate 0
    set sepChar   ,
    set expand    none

    switch -exact -- [llength $args] {
	2 {
	    foreach {chan m} $args break
	}
	3 {
	    foreach {a b c} $args break
	    if {[string equal $a "-alternate"]} {
		set alternate 1
		set chan      $b
		set m         $c
	    } else {
		set chan    $a
		set m       $b
		set sepChar $c
	    }
	}
	4 {
	    foreach {a b c d} $args break
	    if {[string equal $a "-alternate"]} {
		set alternate 1
		set chan      $b
		set m         $c
		set sepChar   $d
	    } else {
		set chan    $a
		set m       $b
		set sepChar $c
		set expand  $d
	    }
	}
	5 {
	    foreach {a b c d e} $args break
	    if {![string equal $a "-alternate"]} {
		return -code error "wrong#args: Should be ?-alternate? chan m ?separator? ?expand?"
	    }
	    set alternate 1

	    set chan    $b
	    set m       $c
	    set sepChar $d
	    set expand  $e
	}
	0 - 1 -
	default {
	    return -code error "wrong#args: Should be ?-alternate? chan m ?separator? ?expand?"
	}
    }

    if {[string length $sepChar] < 1} {
	return -code error "illegal separator character \"$sepChar\", is empty"
    } elseif {[string length $sepChar] > 1} {
	return -code error "illegal separator character \"$sepChar\", is a string"
    }

    set data ""
    while {![eof $chan]} {
	if {[gets $chan line] < 0} {continue}

	# Why skip empty lines? They may be in data. Except if the
	# buffer is empty, i.e. we are between records.
	if {$line == {} && $data == {}} {continue}

       append data $line
       if {![iscomplete $data]} {
           # Odd number of quotes - must have embedded newline
           append data \n
           continue
       }

       Split2matrix $alternate $m $data $sepChar $expand
       set data ""
    }
    return
}

# ::csv::read2queue --
#
#	A wrapper around "::csv::split2queue" reading CSV formatted
#	lines from the specified channel and adding it to the given
#	queue.
#
# Arguments:
#	q		The queue to add the read data too.
#	chan		The channel to read from.
#	sepChar		The separator character, defaults to comma
#
# Results:
#	A list of the values in 'line'.

proc ::csv::read2queue {args} {
    # Argument syntax:
    #
    #2)            chan q
    #3)            chan q sepChar
    #3) -alternate chan q
    #4) -alternate chan q sepChar

    set alternate 0
    set sepChar   ,

    switch -exact -- [llength $args] {
	2 {
	    foreach {chan q} $args break
	}
	3 {
	    foreach {a b c} $args break
	    if {[string equal $a "-alternate"]} {
		set alternate 1
		set chan      $b
		set q         $c
	    } else {
		set chan    $a
		set q       $b
		set sepChar $c
	    }
	}
	4 {
	    foreach {a b c d} $args break
	    if {![string equal $a "-alternate"]} {
		return -code error "wrong#args: Should be ?-alternate? chan q ?separator?"
	    }
	    set alternate 1
	    set chan    $b
	    set q       $c
	    set sepChar $d
	}
	0 - 1 -
	default {
	    return -code error "wrong#args: Should be ?-alternate? chan q ?separator?"
	}
    }

    if {[string length $sepChar] < 1} {
	return -code error "illegal separator character \"$sepChar\", is empty"
    } elseif {[string length $sepChar] > 1} {
	return -code error "illegal separator character \"$sepChar\", is a string"
    }

    set data ""
    while {![eof $chan]} {
	if {[gets $chan line] < 0} {continue}

	# Why skip empty lines? They may be in data. Except if the
	# buffer is empty, i.e. we are between records.
	if {$line == {} && $data == {}} {continue}

	append data $line
	if {![iscomplete $data]} {
	    # Odd number of quotes - must have embedded newline
	    append data \n
	    continue
	}

	$q put [Split $alternate $data $sepChar]
	set data ""
    }
    return
}

# ::csv::report --
#
#	A report command which can be used by the matrix methods
#	"format-via" and "format2chan-via". For the latter this
#	command delegates the work to "::csv::writematrix". "cmd" is
#	expected to be either "printmatrix" or
#	"printmatrix2channel". The channel argument, "chan", has to
#	be present for the latter and must not be present for the first.
#
# Arguments:
#	cmd		Either 'printmatrix' or 'printmatrix2channel'
#	matrix		The matrix to format.
#	args		0 (chan): The channel to write to
#
# Results:
#	None for 'printmatrix2channel', else the CSV formatted string.

proc ::csv::report {cmd matrix args} {
    switch -exact -- $cmd {
	printmatrix {
	    if {[llength $args] > 0} {
		return -code error "wrong # args:\
			::csv::report printmatrix matrix"
	    }
	    return [joinlist [$matrix get rect 0 0 end end]]
	}
	printmatrix2channel {
	    if {[llength $args] != 1} {
		return -code error "wrong # args:\
			::csv::report printmatrix2channel matrix chan"
	    }
	    writematrix $matrix [lindex $args 0]
	    return ""
	}
	default {
	    return -code error "Unknown method $cmd"
	}
    }
}

# ::csv::split --
#
#	Split a string according to the rules for CSV processing.
#	This assumes that the string contains a single line of CSVs
#
# Arguments:
#	line		The string to split
#	sepChar		The separator character, defaults to comma
#
# Results:
#	A list of the values in 'line'.

proc ::csv::split {args} {
    # Argument syntax:
    #
    # (1)            line
    # (2)            line sepChar
    # (2) -alternate line
    # (3) -alternate line sepChar

    # (3)            line sepChar delChar
    # (4) -alternate line sepChar delChar

    set alternate 0
    set sepChar   ,
    set delChar   \"

    switch -exact -- [llength $args] {
	1 {
	    set line [lindex $args 0]
	}
	2 {
	    foreach {a b} $args break
	    if {[string equal $a "-alternate"]} {
		set alternate 1
		set line     $b
	    } else {
		set line    $a
		set sepChar $b
	    }
	}
	3 {
	    foreach {a b c} $args break
	    if {[string equal $a "-alternate"]} {
	        set alternate 1
		set line    $b
		set sepChar $c
	    } else {
		set line    $a
		set sepChar $b
		set delChar $c
            }
	}
	4 {
	    foreach {a b c d} $args break
	    if {![string equal $a "-alternate"]} {
		return -code error "wrong#args: Should be ?-alternate? line ?separator? ?delimiter?"
	    }
	    set alternate 1
	    set line    $b
	    set sepChar $c
	    set delChar $d
	}
	0 -
	default {
	    return -code error "wrong#args: Should be ?-alternate? line ?separator? ?delimiter?"
	}
    }

    if {[string length $sepChar] < 1} {
	return -code error "illegal separator character ${delChar}$sepChar${delChar}, is empty"
    } elseif {[string length $sepChar] > 1} {
	return -code error "illegal separator character ${delChar}$sepChar${delChar}, is a string"
    }

    if {[string length $delChar] < 1} {
	return -code error "illegal separator character \"$delChar\", is empty"
    } elseif {[string length $delChar] > 1} {
	return -code error "illegal separator character \"$delChar\", is a string"
    }

    return [Split $alternate $line $sepChar $delChar]
}

proc ::csv::Split {alternate line sepChar {delChar \"}} {
    # Protect the sepchar from special interpretation by
    # the regex calls below.

    set sepRE \\$sepChar
    set delRE \\$delChar

    if {$alternate} {
	# The alternate syntax requires a different parser.
	# A variation of the string map / regsub parser for the
	# regular syntax was tried but does not handle embedded
	# doubled " well (testcase csv-91.3 was 'knownBug', sole
	# one, still a bug). Now we just tokenize the input into
	# the primary parts (sep char, "'s and the rest) and then
	# use an explicitly coded state machine (DFA) to parse
	# and convert token sequences.

	## puts 1->>$line<<
	set line [string map [list \
		$sepChar \0$sepChar\0 \
		$delChar \0${delChar}\0 \
		] $line]

	## puts 2->>$line<<
	set line [string map [list \0\0 \0] $line]
	regsub "^\0" $line {} line
	regsub "\0$" $line {} line

	## puts 3->>$line<<

	set val ""
	set res ""
	set state base

	## puts 4->>[::split $line \0]
	foreach token [::split $line \0] {

	    ## puts "\t*= $state\t>>$token<<"
	    switch -exact -- $state {
		base {
		    if {[string equal $token "${delChar}"]} {
			set state qvalue
			continue
		    }
		    if {[string equal $token $sepChar]} {
			lappend res $val
			set val ""
			continue
		    }
		    append val $token
		}
		qvalue {
		    if {[string equal $token "${delChar}"]} {
			# May end value, may be a doubled "
			set state endordouble
			continue
		    }
		    append val $token
		}
		endordouble {
		    if {[string equal $token "${delChar}"]} {
			# Doubled ", append to current value
			append val ${delChar} 
			set state qvalue
			continue
		    }
		    # Last " was end of quoted value. Close it.
		    # We expect current as $sepChar

		    lappend res $val
		    set          val ""
		    set state base

		    if {[string equal $token $sepChar]} {continue}

		    # Undoubled " in middle of text. Just assume that
		    # remainder is another qvalue.
		    set state qvalue
		}
		default {
		    return -code error "Internal error, illegal parsing state"
		}
	    }
	}

	## puts "/= $state\t>>$val<<"

	lappend res $val

	## puts 5->>$res<<
	return $res
    } else {
	regsub -- "$sepRE${delRE}${delRE}$" $line $sepChar\0${delChar}${delChar}\0 line
	regsub -- "^${delRE}${delRE}$sepRE" $line \0${delChar}${delChar}\0$sepChar line
	regsub -all -- {(^${delChar}|${delChar}$)} $line \0 line

	set line [string map [list \
		$sepChar${delChar}${delChar}${delChar} $sepChar\0${delChar} \
		${delChar}${delChar}${delChar}$sepChar ${delChar}\0$sepChar \
		${delChar}${delChar}           ${delChar} \
		${delChar}             \0 \
		] $line]

	set end 0
	while {[regexp -indices -start $end -- {(\0)[^\0]*(\0)} $line \
		-> start end]} {
	    set start [lindex $start 0]
	    set end   [lindex $end 0]
	    set range [string range $line $start $end]
	    if {[string first $sepChar $range] >= 0} {
		set line [string replace $line $start $end \
			[string map [list $sepChar \1] $range]]
	    }
	    incr end
	}
	set line [string map [list $sepChar \0 \1 $sepChar \0 {} ] $line]
	return [::split $line \0]

    }
}

# ::csv::split2matrix --
#
#	Split a string according to the rules for CSV processing.
#	This assumes that the string contains a single line of CSVs.
#	The resulting list of values is appended to the specified
#	matrix, as a new row. The code assumes that the matrix provides
#	the same interface as the queue provided by the 'struct'
#	module of tcllib, "add row" in particular.
#
# Arguments:
#	m		The matrix to write the resulting list to.
#	line		The string to split
#	sepChar		The separator character, defaults to comma
#	expand		The expansion mode. The default is none
#
# Results:
#	A list of the values in 'line', written to 'q'.

proc ::csv::split2matrix {args} {
    # FR #481023

    # Argument syntax:
    #
    #2)            m line
    #3)            m line sepChar
    #3) -alternate m line
    #4) -alternate m line sepChar
    #4)            m line sepChar expand
    #5) -alternate m line sepChar expand

    set alternate 0
    set sepChar   ,
    set expand    none

    switch -exact -- [llength $args] {
	2 {
	    foreach {m line} $args break
	}
	3 {
	    foreach {a b c} $args break
	    if {[string equal $a "-alternate"]} {
		set alternate 1
		set m         $b
		set line      $c
	    } else {
		set m       $a
		set line    $b
		set sepChar $c
	    }
	}
	4 {
	    foreach {a b c d} $args break
	    if {[string equal $a "-alternate"]} {
		set alternate 1
		set m         $b
		set line      $c
		set sepChar   $d
	    } else {
		set m       $a
		set line    $b
		set sepChar $c
		set expand  $d
	    }
	}
	4 {
	    foreach {a b c d e} $args break
	    if {![string equal $a "-alternate"]} {
		return -code error "wrong#args: Should be ?-alternate? m line ?separator? ?expand?"
	    }
	    set alternate 1

	    set m       $b
	    set line    $c
	    set sepChar $d
	    set expand  $e
	}
	0 - 1 -
	default {
	    return -code error "wrong#args: Should be ?-alternate? m line ?separator? ?expand?"
	}
    }

    if {[string length $sepChar] < 1} {
	return -code error "illegal separator character \"$sepChar\", is empty"
    } elseif {[string length $sepChar] > 1} {
	return -code error "illegal separator character \"$sepChar\", is a string"
    }

    Split2matrix $alternate $m $line $sepChar $expand
    return
}

proc ::csv::Split2matrix {alternate m line sepChar expand} {
    set csv [Split $alternate $line $sepChar]

    # Expansion modes
    # - none  : default, behaviour of original implementation.
    #           no expansion is done, lines are silently truncated
    #           to the number of columns in the matrix.
    #
    # - empty : A matrix without columns is expanded to the number
    #           of columns in the first line added to it. All
    #           following lines are handled as if "mode == none"
    #           was set.
    #
    # - auto  : Full auto-mode. The matrix is expanded as needed to
    #           hold all columns of all lines.

    switch -exact -- $expand {
	none {}
	empty {
	    if {[$m columns] == 0} {
		$m add columns [llength $csv]
	    }
	}
	auto {
	    if {[$m columns] < [llength $csv]} {
		$m add columns [expr {[llength $csv] - [$m columns]}]
	    }
	}
    }
    $m add row $csv
    return
}

# ::csv::split2queue --
#
#	Split a string according to the rules for CSV processing.
#	This assumes that the string contains a single line of CSVs.
#	The resulting list of values is appended to the specified
#	queue, as a single item. IOW each item in the queue represents
#	a single CSV record. The code assumes that the queue provides
#	the same interface as the queue provided by the 'struct'
#	module of tcllib, "put" in particular.
#
# Arguments:
#	q		The queue to write the resulting list to.
#	line		The string to split
#	sepChar		The separator character, defaults to comma
#
# Results:
#	A list of the values in 'line', written to 'q'.

proc ::csv::split2queue {args} {
    # Argument syntax:
    #
    #2)            q line
    #3)            q line sepChar
    #3) -alternate q line
    #4) -alternate q line sepChar

    set alternate 0
    set sepChar   ,

    switch -exact -- [llength $args] {
	2 {
	    foreach {q line} $args break
	}
	3 {
	    foreach {a b c} $args break
	    if {[string equal $a "-alternate"]} {
		set alternate 1
		set q         $b
		set line      $c
	    } else {
		set q       $a
		set line    $b
		set sepChar $c
	    }
	}
	4 {
	    foreach {a b c d} $args break
	    if {![string equal $a "-alternate"]} {
		return -code error "wrong#args: Should be ?-alternate? q line ?separator?"
	    }
	    set alternate 1

	    set q       $b
	    set line    $c
	    set sepChar $d
	}
	0 - 1 -
	default {
	    return -code error "wrong#args: Should be ?-alternate? q line ?separator?"
	}
    }

    if {[string length $sepChar] < 1} {
	return -code error "illegal separator character \"$sepChar\", is empty"
    } elseif {[string length $sepChar] > 1} {
	return -code error "illegal separator character \"$sepChar\", is a string"
    }

    $q put [Split $alternate $line $sepChar]
    return
}

# ::csv::writematrix --
#
#	A wrapper around "::csv::join" taking the rows in a matrix and
#	writing them as CSV formatted lines into the channel.
#
# Arguments:
#	m		The matrix to take the data to write from.
#	chan		The channel to write into.
#	sepChar		The separator character, defaults to comma
#
# Results:
#	None.

proc ::csv::writematrix {m chan {sepChar ,} {delChar \"}} {
    set n [$m rows]
    for {set r 0} {$r < $n} {incr r} {
	puts $chan [join [$m get row $r] $sepChar $delChar]
    }

    # Memory intensive alternative:
    # puts $chan [joinlist [m get rect 0 0 end end] $sepChar $delChar]
    return
}

# ::csv::writequeue --
#
#	A wrapper around "::csv::join" taking the rows in a queue and
#	writing them as CSV formatted lines into the channel.
#
# Arguments:
#	q		The queue to take the data to write from.
#	chan		The channel to write into.
#	sepChar		The separator character, defaults to comma
#
# Results:
#	None.

proc ::csv::writequeue {q chan {sepChar ,} {delChar \"}} {
    while {[$q size] > 0} {
	puts $chan [join [$q get] $sepChar $delChar]
    }

    # Memory intensive alternative:
    # puts $chan [joinlist [$q get [$q size]] $sepChar $delChar]
    return
}

package ifneeded csv 0.7.2 [list source [file join $dir csv.tcl]]