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#============================================================= -*-Perl-*- # # Template::Provider # # DESCRIPTION # This module implements a class which handles the loading, compiling # and caching of templates. Multiple Template::Provider objects can # be stacked and queried in turn to effect a Chain-of-Command between # them. A provider will attempt to return the requested template, # an error (STATUS_ERROR) or decline to provide the template # (STATUS_DECLINE), allowing subsequent providers to attempt to # deliver it. See 'Design Patterns' for further details. # # AUTHORS # Andy Wardley <abw@wardley.org> # # Refactored by Bill Moseley for v2.19 to add negative caching (i.e. # tracking templates that are NOTFOUND so that we can decline quickly) # and to provide better support for subclassing the provider. # # COPYRIGHT # Copyright (C) 1996-2022 Andy Wardley. All Rights Reserved. # # This module is free software; you can redistribute it and/or # modify it under the same terms as Perl itself. # # WARNING: # This code is ugly and contorted and is being totally re-written for TT3. # In particular, we'll be throwing errors rather than messing around # returning (value, status) pairs. With the benefit of hindsight, that # was a really bad design decision on my part. I deserve to be knocked # to the ground and kicked around a bit by hoards of angry TT developers # for that one. Bill's refactoring has made the module easier to subclass, # (so you can ease off the kicking now), but it really needs to be totally # redesigned and rebuilt from the ground up along with the bits of TT that # use it. -- abw 2007/04/27 #============================================================================ package Template::Provider; use strict; use warnings; use base 'Template::Base'; use Template::Config; use Template::Constants; use Template::Document; use File::Basename; use File::Spec; use constant PREV => 0; use constant NAME => 1; # template name -- indexed by this name in LOOKUP use constant DATA => 2; # Compiled template use constant LOAD => 3; # mtime of template use constant NEXT => 4; # link to next item in cache linked list use constant STAT => 5; # Time last stat()ed use constant MSWin32 => $^O eq 'MSWin32'; our $VERSION = '3.100'; our $DEBUG = 0 unless defined $DEBUG; our $ERROR = ''; # name of document class our $DOCUMENT = 'Template::Document' unless defined $DOCUMENT; # maximum time between performing stat() on file to check staleness our $STAT_TTL = 1 unless defined $STAT_TTL; # maximum number of directories in an INCLUDE_PATH, to prevent runaways our $MAX_DIRS = 64 unless defined $MAX_DIRS; # UNICODE is supported in versions of Perl from 5.007 onwards our $UNICODE = $] > 5.007 ? 1 : 0; my $boms = [ 'UTF-8' => "\x{ef}\x{bb}\x{bf}", 'UTF-32BE' => "\x{0}\x{0}\x{fe}\x{ff}", 'UTF-32LE' => "\x{ff}\x{fe}\x{0}\x{0}", 'UTF-16BE' => "\x{fe}\x{ff}", 'UTF-16LE' => "\x{ff}\x{fe}", ]; # regex to match relative paths our $RELATIVE_PATH = qr[(?:^|/)\.+/]; #======================================================================== # -- PUBLIC METHODS -- #======================================================================== #------------------------------------------------------------------------ # fetch($name) # # Returns a compiled template for the name specified by parameter. # The template is returned from the internal cache if it exists, or # loaded and then subsequently cached. The ABSOLUTE and RELATIVE # configuration flags determine if absolute (e.g. '/something...') # and/or relative (e.g. './something') paths should be honoured. The # INCLUDE_PATH is otherwise used to find the named file. $name may # also be a reference to a text string containing the template text, # or a file handle from which the content is read. The compiled # template is not cached in these latter cases given that there is no # filename to cache under. A subsequent call to store($name, # $compiled) can be made to cache the compiled template for future # fetch() calls, if necessary. # # Returns a compiled template or (undef, STATUS_DECLINED) if the # template could not be found. On error (e.g. the file was found # but couldn't be read or parsed), the pair ($error, STATUS_ERROR) # is returned. The TOLERANT configuration option can be set to # downgrade any errors to STATUS_DECLINE. #------------------------------------------------------------------------ sub fetch { my ($self, $name) = @_; my ($data, $error); if (ref $name) { # $name can be a reference to a scalar, GLOB or file handle ($data, $error) = $self->_load($name); ($data, $error) = $self->_compile($data) unless $error; $data = $data->{ data } unless $error; } elsif (File::Spec->file_name_is_absolute($name)) { # absolute paths (starting '/') allowed if ABSOLUTE set ($data, $error) = $self->{ ABSOLUTE } ? $self->_fetch($name) : $self->{ TOLERANT } ? (undef, Template::Constants::STATUS_DECLINED) : ("$name: absolute paths are not allowed (set ABSOLUTE option)", Template::Constants::STATUS_ERROR); } elsif ($name =~ m/$RELATIVE_PATH/o) { # anything starting "./" is relative to cwd, allowed if RELATIVE set ($data, $error) = $self->{ RELATIVE } ? $self->_fetch($name) : $self->{ TOLERANT } ? (undef, Template::Constants::STATUS_DECLINED) : ("$name: relative paths are not allowed (set RELATIVE option)", Template::Constants::STATUS_ERROR); } else { # otherwise, it's a file name relative to INCLUDE_PATH ($data, $error) = $self->{ INCLUDE_PATH } ? $self->_fetch_path($name) : (undef, Template::Constants::STATUS_DECLINED); } return ($data, $error); } #------------------------------------------------------------------------ # store($name, $data) # # Store a compiled template ($data) in the cached as $name. # Returns compiled template #------------------------------------------------------------------------ sub store { my ($self, $name, $data, $mtime) = @_; $self->_store($name, { data => $data, load => 0, mtime => $mtime }); } #------------------------------------------------------------------------ # load($name) # # Load a template without parsing/compiling it, suitable for use with # the INSERT directive. There's some duplication with fetch() and at # some point this could be reworked to integrate them a little closer. #------------------------------------------------------------------------ sub load { my ($self, $name) = @_; my ($data, $error); my $path = $name; if (File::Spec->file_name_is_absolute($name)) { # absolute paths (starting '/') allowed if ABSOLUTE set $error = "$name: absolute paths are not allowed (set ABSOLUTE option)" unless $self->{ ABSOLUTE }; } elsif ($name =~ m[$RELATIVE_PATH]o) { # anything starting "./" is relative to cwd, allowed if RELATIVE set $error = "$name: relative paths are not allowed (set RELATIVE option)" unless $self->{ RELATIVE }; } else { INCPATH: { # otherwise, it's a file name relative to INCLUDE_PATH my $paths = $self->paths() || return ($self->error(), Template::Constants::STATUS_ERROR); foreach my $dir (@$paths) { $path = File::Spec->catfile($dir, $name); last INCPATH if defined $self->_template_modified($path); } undef $path; # not found } } # Now fetch the content ($data, $error) = $self->_template_content($path) if defined $path && !$error; if ($error) { return $self->{ TOLERANT } ? (undef, Template::Constants::STATUS_DECLINED) : ($error, Template::Constants::STATUS_ERROR); } elsif (! defined $path) { return (undef, Template::Constants::STATUS_DECLINED); } else { return ($data, Template::Constants::STATUS_OK); } } #------------------------------------------------------------------------ # include_path(\@newpath) # # Accessor method for the INCLUDE_PATH setting. If called with an # argument, this method will replace the existing INCLUDE_PATH with # the new value. #------------------------------------------------------------------------ sub include_path { my ($self, $path) = @_; $self->{ INCLUDE_PATH } = $path if $path; return $self->{ INCLUDE_PATH }; } #------------------------------------------------------------------------ # paths() # # Evaluates the INCLUDE_PATH list, ignoring any blank entries, and # calling and subroutine or object references to return dynamically # generated path lists. Returns a reference to a new list of paths # or undef on error. #------------------------------------------------------------------------ sub paths { my $self = shift; my @ipaths = @{ $self->{ INCLUDE_PATH } }; my (@opaths, $dpaths, $dir); my $count = $MAX_DIRS; while (@ipaths && --$count) { $dir = shift @ipaths || next; # $dir can be a sub or object ref which returns a reference # to a dynamically generated list of search paths. if (ref $dir eq 'CODE') { eval { $dpaths = &$dir() }; if ($@) { chomp $@; return $self->error($@); } unshift(@ipaths, @$dpaths); next; } elsif (ref($dir) && UNIVERSAL::can($dir, 'paths')) { $dpaths = $dir->paths() || return $self->error($dir->error()); unshift(@ipaths, @$dpaths); next; } else { push(@opaths, $dir); } } return $self->error("INCLUDE_PATH exceeds $MAX_DIRS directories") if @ipaths; return \@opaths; } #------------------------------------------------------------------------ # DESTROY # # The provider cache is implemented as a doubly linked list which Perl # cannot free by itself due to the circular references between NEXT <=> # PREV items. This cleanup method walks the list deleting all the NEXT/PREV # references, allowing the proper cleanup to occur and memory to be # repooled. #------------------------------------------------------------------------ sub DESTROY { my $self = shift; my ($slot, $next); $slot = $self->{ HEAD }; while ($slot) { $next = $slot->[ NEXT ]; undef $slot->[ PREV ]; undef $slot->[ NEXT ]; $slot = $next; } undef $self->{ HEAD }; undef $self->{ TAIL }; } #======================================================================== # -- PRIVATE METHODS -- #======================================================================== #------------------------------------------------------------------------ # _init() # # Initialise the cache. #------------------------------------------------------------------------ sub _init { my ($self, $params) = @_; my $size = $params->{ CACHE_SIZE }; my $path = $params->{ INCLUDE_PATH } || '.'; my $cdir = $params->{ COMPILE_DIR } || ''; my $dlim = $params->{ DELIMITER }; my $debug; # tweak delim to ignore C:/ unless (defined $dlim) { $dlim = MSWin32 ? qr/:(?!\\|\/)/ : qr/:/; } # coerce INCLUDE_PATH to an array ref, if not already so $path = [ split(/$dlim/, $path) ] unless ref $path eq 'ARRAY'; # don't allow a CACHE_SIZE 1 because it breaks things and the # additional checking isn't worth it $size = 2 if defined $size && ($size == 1 || $size < 0); if (defined ($debug = $params->{ DEBUG })) { $self->{ DEBUG } = $debug & ( Template::Constants::DEBUG_PROVIDER | Template::Constants::DEBUG_FLAGS ); } else { $self->{ DEBUG } = $DEBUG; } if ($self->{ DEBUG }) { local $" = ', '; $self->debug( "creating cache of ", defined $size ? $size : 'unlimited', " slots for [ @$path ]" ); } # create COMPILE_DIR and sub-directories representing each INCLUDE_PATH # element in which to store compiled files if ($cdir) { require File::Path; foreach my $dir (@$path) { next if ref $dir; my $wdir = $dir; $wdir =~ tr[:][]d if MSWin32; { no warnings 'syntax'; $wdir = each %{ { $wdir => undef } } if ${^TAINT}; #untaint } $wdir = File::Spec->catfile($cdir, $wdir); File::Path::mkpath($wdir) unless -d $wdir; } } $self->{ LOOKUP } = { }; $self->{ NOTFOUND } = { }; # Tracks templates *not* found. $self->{ SLOTS } = 0; $self->{ SIZE } = $size; $self->{ INCLUDE_PATH } = $path; $self->{ DELIMITER } = $dlim; $self->{ COMPILE_DIR } = $cdir; $self->{ COMPILE_EXT } = $params->{ COMPILE_EXT } || ''; $self->{ ABSOLUTE } = $params->{ ABSOLUTE } || 0; $self->{ RELATIVE } = $params->{ RELATIVE } || 0; $self->{ TOLERANT } = $params->{ TOLERANT } || 0; $self->{ DOCUMENT } = $params->{ DOCUMENT } || $DOCUMENT; $self->{ PARSER } = $params->{ PARSER }; $self->{ DEFAULT } = $params->{ DEFAULT }; $self->{ ENCODING } = $params->{ ENCODING }; # $self->{ PREFIX } = $params->{ PREFIX }; $self->{ STAT_TTL } = $params->{ STAT_TTL } || $STAT_TTL; $self->{ PARAMS } = $params; # look for user-provided UNICODE parameter or use default from package var $self->{ UNICODE } = defined $params->{ UNICODE } ? $params->{ UNICODE } : $UNICODE; return $self; } #------------------------------------------------------------------------ # _fetch($name, $t_name) # # Fetch a file from cache or disk by specification of an absolute or # relative filename. No search of the INCLUDE_PATH is made. If the # file is found and loaded, it is compiled and cached. # Call with: # $name = path to search (possible prefixed by INCLUDE_PATH) # $t_name = template name #------------------------------------------------------------------------ sub _fetch { my ($self, $name, $t_name) = @_; my $stat_ttl = $self->{ STAT_TTL }; $self->debug("_fetch($name)") if $self->{ DEBUG }; # First see if the named template is in the memory cache if ((my $slot = $self->{ LOOKUP }->{ $name })) { # Test if cache is fresh, and reload/compile if not. my ($data, $error) = $self->_refresh($slot); return $error ? ( $data, $error ) # $data may contain error text : $slot->[ DATA ]; # returned document object } # Otherwise, see if we already know the template is not found if (my $last_stat_time = $self->{ NOTFOUND }->{ $name }) { my $expires_in = $last_stat_time + $stat_ttl - time; if ($expires_in > 0) { $self->debug(" file [$name] in negative cache. Expires in $expires_in seconds") if $self->{ DEBUG }; return (undef, Template::Constants::STATUS_DECLINED); } else { delete $self->{ NOTFOUND }->{ $name }; } } my($template,$error); my $uncompiled_template_mtime = $self->_template_modified( $name ); # does template exist? # some templates like Provider::FromDATA does not provide mtime information $uncompiled_template_mtime = 0 unless defined $uncompiled_template_mtime; # Is there an up-to-date compiled version on disk? if (my $template_mtime = $self->_compiled_is_current($name, $uncompiled_template_mtime)) { # require() the compiled template. my $compiled_template = $self->_load_compiled( $self->_compiled_filename($name) ); # Store and return the compiled template return $self->store( $name, $compiled_template, $template_mtime ) if $compiled_template; # Problem loading compiled template: # warn and continue to fetch source template warn($self->error(), "\n"); } # load template from source ($template, $error) = $self->_load($name, $t_name); if ($error) { # Template could not be fetched. Add to the negative/notfound cache. $self->{ NOTFOUND }->{ $name } = time; return ( $template, $error ); } # compile template source ($template, $error) = $self->_compile($template, $self->_compiled_filename($name) ); if ($error) { # return any compile time error return ($template, $error); } else { # Store compiled template and return it return $self->store($name, $template->{data}) ; } } #------------------------------------------------------------------------ # _fetch_path($name) # # Fetch a file from cache or disk by specification of an absolute cache # name (e.g. 'header') or filename relative to one of the INCLUDE_PATH # directories. If the file isn't already cached and can be found and # loaded, it is compiled and cached under the full filename. #------------------------------------------------------------------------ sub _fetch_path { my ($self, $name) = @_; $self->debug("_fetch_path($name)") if $self->{ DEBUG }; # the template may have been stored using a non-filename name # so look for the plain name in the cache first if ((my $slot = $self->{ LOOKUP }->{ $name })) { # cached entry exists, so refresh slot and extract data my ($data, $error) = $self->_refresh($slot); return $error ? ($data, $error) : ($slot->[ DATA ], $error ); } my $paths = $self->paths || return ( $self->error, Template::Constants::STATUS_ERROR ); # search the INCLUDE_PATH for the file, in cache or on disk foreach my $dir (@$paths) { my $path = File::Spec->catfile($dir, $name); $self->debug("searching path: $path\n") if $self->{ DEBUG }; my ($data, $error) = $self->_fetch( $path, $name ); # Return if no error or if a serious error. return ( $data, $error ) if !$error || $error == Template::Constants::STATUS_ERROR; } # not found in INCLUDE_PATH, now try DEFAULT return $self->_fetch_path( $self->{DEFAULT} ) if defined $self->{DEFAULT} && $name ne $self->{DEFAULT}; # We could not handle this template name return (undef, Template::Constants::STATUS_DECLINED); } sub _compiled_filename { my ($self, $file) = @_; return $self->{ COMPILEDPATH }{$file} if $self->{ COMPILEDPATH }{$file}; my ($compext, $compdir) = @$self{ qw( COMPILE_EXT COMPILE_DIR ) }; my ($path, $compiled); return undef unless $compext || $compdir; $path = $file; $path or die "invalid filename: $path"; $path =~ tr[:][]d if MSWin32; $compiled = "$path$compext"; $self->{ COMPILEDPATH }{$file} = $compiled = File::Spec->catfile($compdir, $compiled) if length $compdir; return $compiled; } sub _load_compiled { my ($self, $file) = @_; # Implicitly Relative paths are not supported # by "require" and invoke @INC traversal, where relative # paths only traditionally worked prior to Perl 5.26 # due to the presence of '.' in @INC # # Given load_compiled never wants to traverse @INC, forcing # an absolute path for the loaded file and the INC key is # sensible. # # NB: %INC Keys are always identical to their respective # "require" invocations regardless of OS, and the only time # one needs to care about slash direction is when dealing # with Module::Name -> Module/Name.pm translation. my $fpath = File::Spec->rel2abs( $file ); return $self->error("compiled template missing path") unless defined $fpath; ($fpath) = $fpath =~ /^(.*)$/s; my $compiled; # load compiled template via require(); we zap any # %INC entry to ensure it is reloaded (we don't # want 1 returned by require() to say it's in memory) delete $INC{ $fpath }; eval { $compiled = require $fpath; }; return $@ ? $self->error("compiled template $compiled: $@") : $compiled; } #------------------------------------------------------------------------ # _load($name, $alias) # # Load template text from a string ($name = scalar ref), GLOB or file # handle ($name = ref), or from an absolute filename ($name = scalar). # Returns a hash array containing the following items: # name filename or $alias, if provided, or 'input text', etc. # text template text # time modification time of file, or current time for handles/strings # load time file was loaded (now!) # # On error, returns ($error, STATUS_ERROR), or (undef, STATUS_DECLINED) # if TOLERANT is set. #------------------------------------------------------------------------ sub _load { my ($self, $name, $alias) = @_; my ($data, $error); my $tolerant = $self->{ TOLERANT }; my $now = time; $alias = $name unless defined $alias or ref $name; $self->debug("_load($name, ", defined $alias ? $alias : '<no alias>', ')') if $self->{ DEBUG }; # SCALAR ref is the template text if (ref $name eq 'SCALAR') { # $name can be a SCALAR reference to the input text... return { name => defined $alias ? $alias : 'input text', path => defined $alias ? $alias : 'input text', text => $$name, time => $now, load => 0, }; } # Otherwise, assume GLOB as a file handle if (ref $name) { local $/; my $text = <$name>; $text = $self->_decode_unicode($text) if $self->{ UNICODE }; return { name => defined $alias ? $alias : 'input file handle', path => defined $alias ? $alias : 'input file handle', text => $text, time => $now, load => 0, }; } # Otherwise, it's the name of the template if ( defined $self->_template_modified( $name ) ) { # does template exist? my ($text, $error, $mtime ) = $self->_template_content( $name ); unless ( $error ) { $text = $self->_decode_unicode($text) if $self->{ UNICODE }; return { name => $alias, path => $name, text => $text, time => $mtime, load => $now, }; } return ( $error, Template::Constants::STATUS_ERROR ) unless $tolerant; } # Unable to process template, pass onto the next Provider. return (undef, Template::Constants::STATUS_DECLINED); } #------------------------------------------------------------------------ # _refresh(\@slot) # # Private method called to mark a cache slot as most recently used. # A reference to the slot array should be passed by parameter. The # slot is relocated to the head of the linked list. If the file from # which the data was loaded has been updated since it was compiled, then # it is re-loaded from disk and re-compiled. #------------------------------------------------------------------------ sub _refresh { my ($self, $slot) = @_; my $stat_ttl = $self->{ STAT_TTL }; my ($head, $file, $data, $error); $self->debug( "_refresh([ ", join(', ', map { defined $_ ? $_ : '<undef>' } @$slot), '])' ) if $self->{ DEBUG }; # if it's more than $STAT_TTL seconds since we last performed a # stat() on the file then we need to do it again and see if the file # time has changed my $now = time; my $expires_in_sec = $slot->[ STAT ] + $stat_ttl - $now; if ( $expires_in_sec <= 0 ) { # Time to check! $slot->[ STAT ] = $now; # Grab mtime of template. # Seems like this should be abstracted to compare to # just ask for a newer compiled template (if it's newer) # and let that check for a newer template source. my $template_mtime = $self->_template_modified( $slot->[ NAME ] ); if ( ! defined $template_mtime || ( $template_mtime != $slot->[ LOAD ] )) { $self->debug("refreshing cache file ", $slot->[ NAME ]) if $self->{ DEBUG }; ($data, $error) = $self->_load($slot->[ NAME ], $slot->[ DATA ]->{ name }); ($data, $error) = $self->_compile($data) unless $error; if ($error) { # if the template failed to load/compile then we wipe out the # STAT entry. This forces the provider to try and reload it # each time instead of using the previously cached version # until $STAT_TTL is next up $slot->[ STAT ] = 0; } else { $slot->[ DATA ] = $data->{ data }; $slot->[ LOAD ] = $data->{ time }; } } } elsif ( $self->{ DEBUG } ) { $self->debug( sprintf('STAT_TTL not met for file [%s]. Expires in %d seconds', $slot->[ NAME ], $expires_in_sec ) ); } # Move this slot to the head of the list unless( $self->{ HEAD } == $slot ) { # remove existing slot from usage chain... if ($slot->[ PREV ]) { $slot->[ PREV ]->[ NEXT ] = $slot->[ NEXT ]; } else { $self->{ HEAD } = $slot->[ NEXT ]; } if ($slot->[ NEXT ]) { $slot->[ NEXT ]->[ PREV ] = $slot->[ PREV ]; } else { $self->{ TAIL } = $slot->[ PREV ]; } # ..and add to start of list $head = $self->{ HEAD }; $head->[ PREV ] = $slot if $head; $slot->[ PREV ] = undef; $slot->[ NEXT ] = $head; $self->{ HEAD } = $slot; } return ($data, $error); } #------------------------------------------------------------------------ # _store($name, $data) # # Private method called to add a data item to the cache. If the cache # size limit has been reached then the oldest entry at the tail of the # list is removed and its slot relocated to the head of the list and # reused for the new data item. If the cache is under the size limit, # or if no size limit is defined, then the item is added to the head # of the list. # Returns compiled template #------------------------------------------------------------------------ sub _store { my ($self, $name, $data, $compfile) = @_; my $size = $self->{ SIZE }; my ($slot, $head); # Return if memory cache disabled. (overriding code should also check) # $$$ What's the expected behaviour of store()? Can't tell from the # docs if you can call store() when SIZE = 0. return $data->{data} if defined $size and !$size; # check the modification time -- extra stat here my $load = $data->{ mtime } || $self->_modified($name); # extract the compiled template from the data hash $data = $data->{ data }; $self->debug("_store($name, $data)") if $self->{ DEBUG }; if (defined $size && $self->{ SLOTS } >= $size) { # cache has reached size limit, so reuse oldest entry $self->debug("reusing oldest cache entry (size limit reached: $size)\nslots: $self->{ SLOTS }") if $self->{ DEBUG }; # remove entry from tail of list $slot = $self->{ TAIL }; $slot->[ PREV ]->[ NEXT ] = undef; $self->{ TAIL } = $slot->[ PREV ]; # remove name lookup for old node delete $self->{ LOOKUP }->{ $slot->[ NAME ] }; # add modified node to head of list $head = $self->{ HEAD }; $head->[ PREV ] = $slot if $head; @$slot = ( undef, $name, $data, $load, $head, time ); $self->{ HEAD } = $slot; # add name lookup for new node $self->{ LOOKUP }->{ $name } = $slot; } else { # cache is under size limit, or none is defined $self->debug("adding new cache entry") if $self->{ DEBUG }; # add new node to head of list $head = $self->{ HEAD }; $slot = [ undef, $name, $data, $load, $head, time ]; $head->[ PREV ] = $slot if $head; $self->{ HEAD } = $slot; $self->{ TAIL } = $slot unless $self->{ TAIL }; # add lookup from name to slot and increment nslots $self->{ LOOKUP }->{ $name } = $slot; $self->{ SLOTS }++; } return $data; } #------------------------------------------------------------------------ # _compile($data) # # Private method called to parse the template text and compile it into # a runtime form. Creates and delegates a Template::Parser object to # handle the compilation, or uses a reference passed in PARSER. On # success, the compiled template is stored in the 'data' item of the # $data hash and returned. On error, ($error, STATUS_ERROR) is returned, # or (undef, STATUS_DECLINED) if the TOLERANT flag is set. # The optional $compiled parameter may be passed to specify # the name of a compiled template file to which the generated Perl # code should be written. Errors are (for now...) silently # ignored, assuming that failures to open a file for writing are # intentional (e.g directory write permission). #------------------------------------------------------------------------ sub _compile { my ($self, $data, $compfile) = @_; my $text = $data->{ text }; my ($parsedoc, $error); $self->debug("_compile($data, ", defined $compfile ? $compfile : '<no compfile>', ')') if $self->{ DEBUG }; my $parser = $self->{ PARSER } ||= Template::Config->parser($self->{ PARAMS }) || return (Template::Config->error(), Template::Constants::STATUS_ERROR); # discard the template text - we don't need it any more delete $data->{ text }; # call parser to compile template into Perl code if ($parsedoc = $parser->parse($text, $data)) { $parsedoc->{ METADATA } = { 'name' => $data->{ name }, 'modtime' => $data->{ 'time' }, %{ $parsedoc->{ METADATA } }, }; # write the Perl code to the file $compfile, if defined if ($compfile) { my $basedir = &File::Basename::dirname($compfile); { no warnings 'syntax'; $basedir = each %{ { $basedir => undef } } if ${^TAINT}; #untaint } unless (-d $basedir) { eval { File::Path::mkpath($basedir) }; $error = "failed to create compiled templates directory: $basedir ($@)" if ($@); } unless ($error) { my $docclass = $self->{ DOCUMENT }; $error = 'cache failed to write ' . &File::Basename::basename($compfile) . ': ' . $docclass->error() unless $docclass->write_perl_file($compfile, $parsedoc); } # set atime and mtime of newly compiled file, don't bother # if time is undef if (!defined($error) && defined $data->{ 'time' }) { my $cfile = do { no warnings 'syntax'; each %{ { $compfile => undef } }; }; if (!length $cfile) { return( "invalid filename: $compfile", Template::Constants::STATUS_ERROR ); }; my $ctime = $data->{ time }; if (!length $ctime || $ctime =~ tr{0-9}{}c) { return( "invalid time: $ctime", Template::Constants::STATUS_ERROR ); } utime($ctime, $ctime, $cfile); $self->debug(" cached compiled template to file [$compfile]") if $self->{ DEBUG }; } } unless ($error) { return $data ## RETURN ## if $data->{ data } = $DOCUMENT->new($parsedoc); $error = $Template::Document::ERROR; } } else { $error = Template::Exception->new( 'parse', "$data->{ name } " . $parser->error() ); } # return STATUS_ERROR, or STATUS_DECLINED if we're being tolerant return $self->{ TOLERANT } ? (undef, Template::Constants::STATUS_DECLINED) : ($error, Template::Constants::STATUS_ERROR) } #------------------------------------------------------------------------ # _compiled_is_current( $template_name ) # # Returns true if $template_name and its compiled name # exist and they have the same mtime. #------------------------------------------------------------------------ sub _compiled_is_current { my ( $self, $template_name, $uncompiled_template_mtime ) = @_; my $compiled_name = $self->_compiled_filename($template_name); return unless defined $compiled_name; my $compiled_mtime = (stat($compiled_name))[9]; return unless defined $compiled_mtime; my $template_mtime = $uncompiled_template_mtime || $self->_template_modified( $template_name ) or return; return unless defined $template_mtime; # This was >= in the 2.15, but meant that downgrading # a source template would not get picked up. return $compiled_mtime == $template_mtime ? $template_mtime : 0; } #------------------------------------------------------------------------ # _template_modified($path) # # Returns the last modified time of the $path. # Returns undef if the path does not exist. # Override if templates are not on disk, for example #------------------------------------------------------------------------ sub _template_modified { my $self = shift; my $template = shift || return; return (stat( $template ))[9]; } #------------------------------------------------------------------------ # _template_content($path) # # Fetches content pointed to by $path. # Returns the content in scalar context. # Returns ($data, $error, $mtime) in list context where # $data - content # $error - error string if there was an error, otherwise undef # $mtime - last modified time from calling stat() on the path #------------------------------------------------------------------------ sub _template_content { my ($self, $path) = @_; return (undef, "No path specified to fetch content from ") unless $path; my $data; my $mod_date; my $error; local *FH; if(-d $path) { $error = "$path: not a file"; } elsif (open(FH, "<", $path)) { local $/; binmode(FH); $data = <FH>; $mod_date = (stat($path))[9]; close(FH); } else { $error = "$path: $!"; } return wantarray ? ( $data, $error, $mod_date ) : $data; } #------------------------------------------------------------------------ # _modified($name) # _modified($name, $time) # # When called with a single argument, it returns the modification time # of the named template. When called with a second argument it returns # true if $name has been modified since $time. #------------------------------------------------------------------------ sub _modified { my ($self, $name, $time) = @_; my $load = $self->_template_modified($name); return $time ? 1 : 0 unless defined $load; return $time ? $load > $time : $load; } #------------------------------------------------------------------------ # _decode_unicode # # Decodes encoded unicode text that starts with a BOM and # turns it into perl's internal representation #------------------------------------------------------------------------ sub _decode_unicode { my $self = shift; my $string = shift; return undef unless defined $string; use bytes; require Encode; return $string if Encode::is_utf8( $string ); # try all the BOMs in order looking for one (order is important # 32bit BOMs look like 16bit BOMs) my $count = 0; while ($count < @{ $boms }) { my $enc = $boms->[$count++]; my $bom = $boms->[$count++]; # does the string start with the bom? if ($bom eq substr($string, 0, length($bom))) { # decode it and hand it back return Encode::decode($enc, substr($string, length($bom)), 1); } } return $self->{ ENCODING } ? Encode::decode( $self->{ ENCODING }, $string ) : $string; } 1; __END__ =head1 NAME Template::Provider - Provider module for loading/compiling templates =head1 SYNOPSIS $provider = Template::Provider->new(\%options); ($template, $error) = $provider->fetch($name); =head1 DESCRIPTION The L<Template::Provider> is used to load, parse, compile and cache template documents. This object may be sub-classed to provide more specific facilities for loading, or otherwise providing access to templates. The L<Template::Context> objects maintain a list of L<Template::Provider> objects which are polled in turn (via L<fetch()|Template::Context#fetch()>) to return a requested template. Each may return a compiled template, raise an error, or decline to serve the request, giving subsequent providers a chance to do so. The L<Template::Provider> can also be subclassed to provide templates from a different source, e.g. a database. See L<SUBCLASSING> below. This documentation needs work. =head1 PUBLIC METHODS =head2 new(\%options) Constructor method which instantiates and returns a new C<Template::Provider> object. A reference to a hash array of configuration options may be passed. See L<CONFIGURATION OPTIONS> below for a summary of configuration options and L<Template::Manual::Config> for full details. =head2 fetch($name) Returns a compiled template for the name specified. If the template cannot be found then C<(undef, STATUS_DECLINED)> is returned. If an error occurs (e.g. read error, parse error) then C<($error, STATUS_ERROR)> is returned, where C<$error> is the error message generated. If the L<TOLERANT> option is set the the method returns C<(undef, STATUS_DECLINED)> instead of returning an error. =head2 load($name) Loads a template without parsing or compiling it. This is used by the the L<INSERT|Template::Manual::Directives#INSERT> directive. =head2 store($name, $template) Stores the compiled template, C<$template>, in the cache under the name, C<$name>. Susbequent calls to C<fetch($name)> will return this template in preference to any disk-based file. =head2 include_path(\@newpath) Accessor method for the C<INCLUDE_PATH> setting. If called with an argument, this method will replace the existing C<INCLUDE_PATH> with the new value. =head2 paths() This method generates a copy of the C<INCLUDE_PATH> list. Any elements in the list which are dynamic generators (e.g. references to subroutines or objects implementing a C<paths()> method) will be called and the list of directories returned merged into the output list. It is possible to provide a generator which returns itself, thus sending this method into an infinite loop. To detect and prevent this from happening, the C<$MAX_DIRS> package variable, set to C<64> by default, limits the maximum number of paths that can be added to, or generated for the output list. If this number is exceeded then the method will immediately return an error reporting as much. =head1 CONFIGURATION OPTIONS The following list summarises the configuration options that can be provided to the C<Template::Provider> L<new()> constructor. Please consult L<Template::Manual::Config> for further details and examples of each configuration option in use. =head2 INCLUDE_PATH The L<INCLUDE_PATH|Template::Manual::Config#INCLUDE_PATH> option is used to specify one or more directories in which template files are located. # single path my $provider = Template::Provider->new({ INCLUDE_PATH => '/usr/local/templates', }); # multiple paths my $provider = Template::Provider->new({ INCLUDE_PATH => [ '/usr/local/templates', '/tmp/my/templates' ], }); =head2 ABSOLUTE The L<ABSOLUTE|Template::Manual::Config#ABSOLUTE> flag is used to indicate if templates specified with absolute filenames (e.g. 'C</foo/bar>') should be processed. It is disabled by default and any attempt to load a template by such a name will cause a 'C<file>' exception to be raised. my $provider = Template::Provider->new({ ABSOLUTE => 1, }); =head2 RELATIVE The L<RELATIVE|Template::Manual::Config#RELATIVE> flag is used to indicate if templates specified with filenames relative to the current directory (e.g. C<./foo/bar> or C<../../some/where/else>) should be loaded. It is also disabled by default, and will raise a C<file> error if such template names are encountered. my $provider = Template::Provider->new({ RELATIVE => 1, }); =head2 DEFAULT The L<DEFAULT|Template::Manual::Config#DEFAULT> option can be used to specify a default template which should be used whenever a specified template can't be found in the L<INCLUDE_PATH>. my $provider = Template::Provider->new({ DEFAULT => 'notfound.html', }); If a non-existant template is requested through the L<Template> L<process()|Template#process()> method, or by an C<INCLUDE>, C<PROCESS> or C<WRAPPER> directive, then the C<DEFAULT> template will instead be processed, if defined. Note that the C<DEFAULT> template is not used when templates are specified with absolute or relative filenames, or as a reference to a input file handle or text string. =head2 ENCODING The Template Toolkit will automatically decode Unicode templates that have a Byte Order Marker (BOM) at the start of the file. This option can be used to set the default encoding for templates that don't define a BOM. my $provider = Template::Provider->new({ ENCODING => 'utf8', }); See L<Encode> for further information. =head2 CACHE_SIZE The L<CACHE_SIZE|Template::Manual::Config#CACHE_SIZE> option can be used to limit the number of compiled templates that the module should cache. By default, the L<CACHE_SIZE|Template::Manual::Config#CACHE_SIZE> is undefined and all compiled templates are cached. my $provider = Template::Provider->new({ CACHE_SIZE => 64, # only cache 64 compiled templates }); =head2 STAT_TTL The L<STAT_TTL|Template::Manual::Config#STAT_TTL> value can be set to control how long the C<Template::Provider> will keep a template cached in memory before checking to see if the source template has changed. my $provider = Template::Provider->new({ STAT_TTL => 60, # one minute }); =head2 COMPILE_EXT The L<COMPILE_EXT|Template::Manual::Config#COMPILE_EXT> option can be provided to specify a filename extension for compiled template files. It is undefined by default and no attempt will be made to read or write any compiled template files. my $provider = Template::Provider->new({ COMPILE_EXT => '.ttc', }); =head2 COMPILE_DIR The L<COMPILE_DIR|Template::Manual::Config#COMPILE_DIR> option is used to specify an alternate directory root under which compiled template files should be saved. my $provider = Template::Provider->new({ COMPILE_DIR => '/tmp/ttc', }); =head2 TOLERANT The L<TOLERANT|Template::Manual::Config#TOLERANT> flag can be set to indicate that the C<Template::Provider> module should ignore any errors encountered while loading a template and instead return C<STATUS_DECLINED>. =head2 PARSER The L<PARSER|Template::Manual::Config#PARSER> option can be used to define a parser module other than the default of L<Template::Parser>. my $provider = Template::Provider->new({ PARSER => MyOrg::Template::Parser->new({ ... }), }); =head2 DEBUG The L<DEBUG|Template::Manual::Config#DEBUG> option can be used to enable debugging messages from the L<Template::Provider> module by setting it to include the C<DEBUG_PROVIDER> value. use Template::Constants qw( :debug ); my $template = Template->new({ DEBUG => DEBUG_PROVIDER, }); =head1 SUBCLASSING The C<Template::Provider> module can be subclassed to provide templates from a different source (e.g. a database). In most cases you'll just need to provide custom implementations of the C<_template_modified()> and C<_template_content()> methods. If your provider requires and custom initialisation then you'll also need to implement a new C<_init()> method. Caching in memory and on disk will still be applied (if enabled) when overriding these methods. =head2 _template_modified($path) Returns a timestamp of the C<$path> passed in by calling C<stat()>. This can be overridden, for example, to return a last modified value from a database. The value returned should be a timestamp value (as returned by C<time()>, although a sequence number should work as well. =head2 _template_content($path) This method returns the content of the template for all C<INCLUDE>, C<PROCESS>, and C<INSERT> directives. When called in scalar context, the method returns the content of the template located at C<$path>, or C<undef> if C<$path> is not found. When called in list context it returns C<($content, $error, $mtime)>, where C<$content> is the template content, C<$error> is an error string (e.g. "C<$path: File not found>"), and C<$mtime> is the template modification time. =head1 AUTHOR Andy Wardley E<lt>abw@wardley.orgE<gt> L<http://wardley.org/> =head1 COPYRIGHT Copyright (C) 1996-2022 Andy Wardley. All Rights Reserved. This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 SEE ALSO L<Template>, L<Template::Parser>, L<Template::Context> =cut # Local Variables: # mode: perl # perl-indent-level: 4 # indent-tabs-mode: nil # End: # # vim: expandtab shiftwidth=4: