package C4::Context; # Copyright 2002 Katipo Communications # # This file is part of Koha. # # Koha is free software; you can redistribute it and/or modify it under the # terms of the GNU General Public License as published by the Free Software # Foundation; either version 2 of the License, or (at your option) any later # version. # # Koha is distributed in the hope that it will be useful, but WITHOUT ANY # WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR # A PARTICULAR PURPOSE. See the GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with Koha; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. use strict; use warnings; use vars qw($VERSION $AUTOLOAD $context @context_stack $servers $memcached $ismemcached); BEGIN { if ($ENV{'HTTP_USER_AGENT'}) { require CGI::Carp; # FIXME for future reference, CGI::Carp doc says # "Note that fatalsToBrowser does not work with mod_perl version 2.0 and higher." import CGI::Carp qw(fatalsToBrowser); sub handle_errors { my $msg = shift; my $debug_level; eval {C4::Context->dbh();}; if ($@){ $debug_level = 1; } else { $debug_level = C4::Context->preference("DebugLevel"); } print q( Koha Error ); if ($debug_level eq "2"){ # debug 2 , print extra info too. my %versions = get_versions(); # a little example table with various version info"; print "

Koha error

The following fatal error has occurred:

$msg
Apache $versions{apacheVersion}
Koha $versions{kohaVersion}
Koha DB $versions{kohaDbVersion}
MySQL $versions{mysqlVersion}
OS $versions{osVersion}
Perl $versions{perlVersion}
"; } elsif ($debug_level eq "1"){ print "

Koha error

The following fatal error has occurred:

$msg
"; } else { print "

production mode - trapped fatal error

"; } print ""; } #CGI::Carp::set_message(\&handle_errors); ## give a stack backtrace if KOHA_BACKTRACES is set ## can't rely on DebugLevel for this, as we're not yet connected if ($ENV{KOHA_BACKTRACES}) { $main::SIG{__DIE__} = \&CGI::Carp::confess; } } # else there is no browser to send fatals to! # Check if there are memcached servers set $servers = $ENV{'MEMCACHED_SERVERS'}; if ($servers) { # Load required libraries and create the memcached object require Cache::Memcached; $memcached = Cache::Memcached->new({ servers => [ $servers ], debug => 0, compress_threshold => 10_000, expire_time => 600, namespace => $ENV{'MEMCACHED_NAMESPACE'} || 'koha' }); # Verify memcached available (set a variable and test the output) $ismemcached = $memcached->set('ismemcached','1'); } $VERSION = '3.07.00.049'; } use DBI; use ZOOM; use XML::Simple; use C4::Boolean; use C4::Debug; use POSIX (); use DateTime::TimeZone; use Module::Load::Conditional qw(can_load); use Carp; =head1 NAME C4::Context - Maintain and manipulate the context of a Koha script =head1 SYNOPSIS use C4::Context; use C4::Context("/path/to/koha-conf.xml"); $config_value = C4::Context->config("config_variable"); $koha_preference = C4::Context->preference("preference"); $db_handle = C4::Context->dbh; $Zconn = C4::Context->Zconn; $stopwordhash = C4::Context->stopwords; =head1 DESCRIPTION When a Koha script runs, it makes use of a certain number of things: configuration settings in F, a connection to the Koha databases, and so forth. These things make up the I in which the script runs. This module takes care of setting up the context for a script: figuring out which configuration file to load, and loading it, opening a connection to the right database, and so forth. Most scripts will only use one context. They can simply have use C4::Context; at the top. Other scripts may need to use several contexts. For instance, if a library has two databases, one for a certain collection, and the other for everything else, it might be necessary for a script to use two different contexts to search both databases. Such scripts should use the C<&set_context> and C<&restore_context> functions, below. By default, C4::Context reads the configuration from F. This may be overridden by setting the C<$KOHA_CONF> environment variable to the pathname of a configuration file to use. =head1 METHODS =cut #' # In addition to what is said in the POD above, a Context object is a # reference-to-hash with the following fields: # # config # A reference-to-hash whose keys and values are the # configuration variables and values specified in the config # file (/etc/koha/koha-conf.xml). # dbh # A handle to the appropriate database for this context. # dbh_stack # Used by &set_dbh and &restore_dbh to hold other database # handles for this context. # Zconn # A connection object for the Zebra server # Koha's main configuration file koha-conf.xml # is searched for according to this priority list: # # 1. Path supplied via use C4::Context '/path/to/koha-conf.xml' # 2. Path supplied in KOHA_CONF environment variable. # 3. Path supplied in INSTALLED_CONFIG_FNAME, as long # as value has changed from its default of # '__KOHA_CONF_DIR__/koha-conf.xml', as happens # when Koha is installed in 'standard' or 'single' # mode. # 4. Path supplied in CONFIG_FNAME. # # The first entry that refers to a readable file is used. use constant CONFIG_FNAME => "/etc/koha/koha-conf.xml"; # Default config file, if none is specified my $INSTALLED_CONFIG_FNAME = '__KOHA_CONF_DIR__/koha-conf.xml'; # path to config file set by installer # __KOHA_CONF_DIR__ is set by rewrite-confg.PL # when Koha is installed in 'standard' or 'single' # mode. If Koha was installed in 'dev' mode, # __KOHA_CONF_DIR__ is *not* rewritten; instead # developers should set the KOHA_CONF environment variable $context = undef; # Initially, no context is set @context_stack = (); # Initially, no saved contexts =head2 KOHAVERSION returns the kohaversion stored in kohaversion.pl file =cut sub KOHAVERSION { my $cgidir = C4::Context->intranetdir; # Apparently the GIT code does not run out of a CGI-BIN subdirectory # but distribution code does? (Stan, 1jan08) if(-d $cgidir . "/cgi-bin"){ my $cgidir .= "/cgi-bin"; } do $cgidir."/kohaversion.pl" || die "NO $cgidir/kohaversion.pl"; return kohaversion(); } =head2 final_linear_version Returns the version number of the final update to run in updatedatabase.pl. This number is equal to the version in kohaversion.pl =cut sub final_linear_version { return KOHAVERSION; } =head2 read_config_file Reads the specified Koha config file. Returns an object containing the configuration variables. The object's structure is a bit complex to the uninitiated ... take a look at the koha-conf.xml file as well as the XML::Simple documentation for details. Or, here are a few examples that may give you what you need: The simple elements nested within the element: my $pass = $koha->{'config'}->{'pass'}; The elements: my $listen = $koha->{'listen'}->{'biblioserver'}->{'content'}; The elements nested within the element: my $ccl2rpn = $koha->{'server'}->{'biblioserver'}->{'cql2rpn'}; Returns undef in case of error. =cut sub read_config_file { # Pass argument naming config file to read my $koha = XMLin(shift, keyattr => ['id'], forcearray => ['listen', 'server', 'serverinfo'], suppressempty => ''); if ($ismemcached) { $memcached->set('kohaconf',$koha); } return $koha; # Return value: ref-to-hash holding the configuration } =head2 ismemcached Returns the value of the $ismemcached variable (0/1) =cut sub ismemcached { return $ismemcached; } =head2 memcached If $ismemcached is true, returns the $memcache variable. Returns undef otherwise =cut sub memcached { if ($ismemcached) { return $memcached; } else { return; } } =head2 db_scheme2dbi my $dbd_driver_name = C4::Context::db_schema2dbi($scheme); This routines translates a database type to part of the name of the appropriate DBD driver to use when establishing a new database connection. It recognizes 'mysql' and 'Pg'; if any other scheme is supplied it defaults to 'mysql'. =cut sub db_scheme2dbi { my $scheme = shift // ''; return $scheme eq 'Pg' ? $scheme : 'mysql'; } sub import { # Create the default context ($C4::Context::Context) # the first time the module is called # (a config file can be optionaly passed) # default context allready exists? return if $context; # no ? so load it! my ($pkg,$config_file) = @_ ; my $new_ctx = __PACKAGE__->new($config_file); return unless $new_ctx; # if successfully loaded, use it by default $new_ctx->set_context; 1; } =head2 new $context = new C4::Context; $context = new C4::Context("/path/to/koha-conf.xml"); Allocates a new context. Initializes the context from the specified file, which defaults to either the file given by the C<$KOHA_CONF> environment variable, or F. It saves the koha-conf.xml values in the declared memcached server(s) if currently available and uses those values until them expire and re-reads them. C<&new> does not set this context as the new default context; for that, use C<&set_context>. =cut #' # Revision History: # 2004-08-10 A. Tarallo: Added check if the conf file is not empty sub new { my $class = shift; my $conf_fname = shift; # Config file to load my $self = {}; # check that the specified config file exists and is not empty undef $conf_fname unless (defined $conf_fname && -s $conf_fname); # Figure out a good config file to load if none was specified. if (!defined($conf_fname)) { # If the $KOHA_CONF environment variable is set, use # that. Otherwise, use the built-in default. if (exists $ENV{"KOHA_CONF"} and $ENV{'KOHA_CONF'} and -s $ENV{"KOHA_CONF"}) { $conf_fname = $ENV{"KOHA_CONF"}; } elsif ($INSTALLED_CONFIG_FNAME !~ /__KOHA_CONF_DIR/ and -s $INSTALLED_CONFIG_FNAME) { # NOTE: be careful -- don't change __KOHA_CONF_DIR in the above # regex to anything else -- don't want installer to rewrite it $conf_fname = $INSTALLED_CONFIG_FNAME; } elsif (-s CONFIG_FNAME) { $conf_fname = CONFIG_FNAME; } else { warn "unable to locate Koha configuration file koha-conf.xml"; return; } } if ($ismemcached) { # retreive from memcached $self = $memcached->get('kohaconf'); if (not defined $self) { # not in memcached yet $self = read_config_file($conf_fname); } } else { # non-memcached env, read from file $self = read_config_file($conf_fname); } $self->{"config_file"} = $conf_fname; warn "read_config_file($conf_fname) returned undef" if !defined($self->{"config"}); return if !defined($self->{"config"}); $self->{"dbh"} = undef; # Database handle $self->{"Zconn"} = undef; # Zebra Connections $self->{"stopwords"} = undef; # stopwords list $self->{"marcfromkohafield"} = undef; # the hash with relations between koha table fields and MARC field/subfield $self->{"userenv"} = undef; # User env $self->{"activeuser"} = undef; # current active user $self->{"shelves"} = undef; $self->{tz} = undef; # local timezone object bless $self, $class; $self->{db_driver} = db_scheme2dbi($self->config('db_scheme')); # cache database driver return $self; } =head2 set_context $context = new C4::Context; $context->set_context(); or set_context C4::Context $context; ... restore_context C4::Context; In some cases, it might be necessary for a script to use multiple contexts. C<&set_context> saves the current context on a stack, then sets the context to C<$context>, which will be used in future operations. To restore the previous context, use C<&restore_context>. =cut #' sub set_context { my $self = shift; my $new_context; # The context to set # Figure out whether this is a class or instance method call. # # We're going to make the assumption that control got here # through valid means, i.e., that the caller used an instance # or class method call, and that control got here through the # usual inheritance mechanisms. The caller can, of course, # break this assumption by playing silly buggers, but that's # harder to do than doing it properly, and harder to check # for. if (ref($self) eq "") { # Class method. The new context is the next argument. $new_context = shift; } else { # Instance method. The new context is $self. $new_context = $self; } # Save the old context, if any, on the stack push @context_stack, $context if defined($context); # Set the new context $context = $new_context; } =head2 restore_context &restore_context; Restores the context set by C<&set_context>. =cut #' sub restore_context { my $self = shift; if ($#context_stack < 0) { # Stack underflow. die "Context stack underflow"; } # Pop the old context and set it. $context = pop @context_stack; # FIXME - Should this return something, like maybe the context # that was current when this was called? } =head2 config $value = C4::Context->config("config_variable"); $value = C4::Context->config_variable; Returns the value of a variable specified in the configuration file from which the current context was created. The second form is more compact, but of course may conflict with method names. If there is a configuration variable called "new", then Cnew> will not return it. =cut sub _common_config { my $var = shift; my $term = shift; return if !defined($context->{$term}); # Presumably $self->{$term} might be # undefined if the config file given to &new # didn't exist, and the caller didn't bother # to check the return value. # Return the value of the requested config variable return $context->{$term}->{$var}; } sub config { return _common_config($_[1],'config'); } sub zebraconfig { return _common_config($_[1],'server'); } sub ModZebrations { return _common_config($_[1],'serverinfo'); } =head2 preference $sys_preference = C4::Context->preference('some_variable'); Looks up the value of the given system preference in the systempreferences table of the Koha database, and returns it. If the variable is not set or does not exist, undef is returned. In case of an error, this may return 0. Note: It is impossible to tell the difference between system preferences which do not exist, and those whose values are set to NULL with this method. =cut # FIXME: running this under mod_perl will require a means of # flushing the caching mechanism. my %sysprefs; my $use_syspref_cache = 1; sub preference { my $self = shift; my $var = shift; # The system preference to return if ($use_syspref_cache && exists $sysprefs{lc $var}) { return $sysprefs{lc $var}; } my $dbh = C4::Context->dbh or return 0; my $value; if ( defined $ENV{"OVERRIDE_SYSPREF_$var"} ) { $value = $ENV{"OVERRIDE_SYSPREF_$var"}; } else { # Look up systempreferences.variable==$var my $sql = q{ SELECT value FROM systempreferences WHERE variable = ? LIMIT 1 }; $value = $dbh->selectrow_array( $sql, {}, lc $var ); } $sysprefs{lc $var} = $value; return $value; } sub boolean_preference { my $self = shift; my $var = shift; # The system preference to return my $it = preference($self, $var); return defined($it)? C4::Boolean::true_p($it): undef; } =head2 enable_syspref_cache C4::Context->enable_syspref_cache(); Enable the in-memory syspref cache used by C4::Context. This is the default behavior. =cut sub enable_syspref_cache { my ($self) = @_; $use_syspref_cache = 1; } =head2 disable_syspref_cache C4::Context->disable_syspref_cache(); Disable the in-memory syspref cache used by C4::Context. This should be used with Plack and other persistent environments. =cut sub disable_syspref_cache { my ($self) = @_; $use_syspref_cache = 0; $self->clear_syspref_cache(); } =head2 clear_syspref_cache C4::Context->clear_syspref_cache(); cleans the internal cache of sysprefs. Please call this method if you update the systempreferences table. Otherwise, your new changes will not be seen by this process. =cut sub clear_syspref_cache { %sysprefs = (); } =head2 set_preference C4::Context->set_preference( $variable, $value ); This updates a preference's value both in the systempreferences table and in the sysprefs cache. =cut sub set_preference { my $self = shift; my $var = lc(shift); my $value = shift; my $dbh = C4::Context->dbh or return 0; my $type = $dbh->selectrow_array( "SELECT type FROM systempreferences WHERE variable = ?", {}, $var ); $value = 0 if ( $type && $type eq 'YesNo' && $value eq '' ); my $sth = $dbh->prepare( " INSERT INTO systempreferences ( variable, value ) VALUES( ?, ? ) ON DUPLICATE KEY UPDATE value = VALUES(value) " ); if($sth->execute( $var, $value )) { $sysprefs{$var} = $value; } $sth->finish; } # AUTOLOAD # This implements C4::Config->foo, and simply returns # C4::Context->config("foo"), as described in the documentation for # &config, above. # FIXME - Perhaps this should be extended to check &config first, and # then &preference if that fails. OTOH, AUTOLOAD could lead to crappy # code, so it'd probably be best to delete it altogether so as not to # encourage people to use it. sub AUTOLOAD { my $self = shift; $AUTOLOAD =~ s/.*:://; # Chop off the package name, # leaving only the function name. return $self->config($AUTOLOAD); } =head2 Zconn $Zconn = C4::Context->Zconn Returns a connection to the Zebra database for the current context. If no connection has yet been made, this method creates one and connects. C<$self> C<$server> one of the servers defined in the koha-conf.xml file C<$async> whether this is a asynchronous connection C<$auth> whether this connection has rw access (1) or just r access (0 or NULL) =cut sub Zconn { my ($self, $server, $async, $auth, $piggyback, $syntax) = @_; my $cache_key = join ('::', (map { $_ // '' } ($server, $async, $auth, $piggyback, $syntax))); if ( defined($context->{"Zconn"}->{$cache_key}) && (0 == $context->{"Zconn"}->{$cache_key}->errcode()) ) { return $context->{"Zconn"}->{$cache_key}; # No connection object or it died. Create one. }else { # release resources if we're closing a connection and making a new one # FIXME: this needs to be smarter -- an error due to a malformed query or # a missing index does not necessarily require us to close the connection # and make a new one, particularly for a batch job. However, at # first glance it does not look like there's a way to easily check # the basic health of a ZOOM::Connection $context->{"Zconn"}->{$cache_key}->destroy() if defined($context->{"Zconn"}->{$cache_key}); $context->{"Zconn"}->{$cache_key} = &_new_Zconn($server,$async,$auth,$piggyback,$syntax); return $context->{"Zconn"}->{$cache_key}; } } =head2 _new_Zconn $context->{"Zconn"} = &_new_Zconn($server,$async); Internal function. Creates a new database connection from the data given in the current context and returns it. C<$server> one of the servers defined in the koha-conf.xml file C<$async> whether this is a asynchronous connection C<$auth> whether this connection has rw access (1) or just r access (0 or NULL) =cut sub _new_Zconn { my ($server,$async,$auth,$piggyback,$syntax) = @_; my $tried=0; # first attempt my $Zconn; # connection object my $elementSetName; my $index_mode; $server //= "biblioserver"; $syntax //= "XML"; if ( $server eq 'biblioserver' ) { $index_mode = $context->{'config'}->{'zebra_bib_index_mode'} // 'grs1'; } elsif ( $server eq 'authorityserver' ) { $index_mode = $context->{'config'}->{'zebra_auth_index_mode'} // 'dom'; } if ( $index_mode eq 'grs1' ) { $elementSetName = 'F'; $syntax = ( $context->preference("marcflavour") eq 'UNIMARC' ) ? 'unimarc' : 'usmarc'; } else { $elementSetName = 'marcxml'; $syntax = 'XML'; } my $host = $context->{'listen'}->{$server}->{'content'}; my $servername = $context->{"config"}->{$server}; my $user = $context->{"serverinfo"}->{$server}->{"user"}; my $password = $context->{"serverinfo"}->{$server}->{"password"}; $auth = 1 if($user && $password); retry: eval { # set options my $o = new ZOOM::Options(); $o->option(user=>$user) if $auth; $o->option(password=>$password) if $auth; $o->option(async => 1) if $async; $o->option(count => $piggyback) if $piggyback; $o->option(cqlfile=> $context->{"server"}->{$server}->{"cql2rpn"}); $o->option(cclfile=> $context->{"serverinfo"}->{$server}->{"ccl2rpn"}); $o->option(preferredRecordSyntax => $syntax); $o->option(elementSetName => $elementSetName); $o->option(databaseName => ($servername?$servername:"biblios")); # create a new connection object $Zconn= create ZOOM::Connection($o); # forge to server $Zconn->connect($host, 0); # check for errors and warn if ($Zconn->errcode() !=0) { warn "something wrong with the connection: ". $Zconn->errmsg(); } }; return $Zconn; } # _new_dbh # Internal helper function (not a method!). This creates a new # database connection from the data given in the current context, and # returns it. sub _new_dbh { ## $context ## correct name for db_scheme my $db_driver = $context->{db_driver}; my $db_name = $context->config("database"); my $db_host = $context->config("hostname"); my $db_port = $context->config("port") || ''; my $db_user = $context->config("user"); my $db_passwd = $context->config("pass"); # MJR added or die here, as we can't work without dbh my $dbh = DBI->connect("DBI:$db_driver:dbname=$db_name;host=$db_host;port=$db_port", $db_user, $db_passwd, {'RaiseError' => $ENV{DEBUG}?1:0 }) or die $DBI::errstr; # Check for the existence of a systempreference table; if we don't have this, we don't # have a valid database and should not set RaiseError in order to allow the installer # to run; installer will not run otherwise since we raise all db errors eval { local $dbh->{PrintError} = 0; local $dbh->{RaiseError} = 1; $dbh->do(qq{SELECT * FROM systempreferences WHERE 1 = 0 }); }; if ($@) { $dbh->{RaiseError} = 0; } if ( $db_driver eq 'mysql' ) { $dbh->{mysql_auto_reconnect} = 1; } my $tz = $ENV{TZ}; if ( $db_driver eq 'mysql' ) { # Koha 3.0 is utf-8, so force utf8 communication between mySQL and koha, whatever the mysql default config. # this is better than modifying my.cnf (and forcing all communications to be in utf8) $dbh->{'mysql_enable_utf8'}=1; #enable $dbh->do("set NAMES 'utf8'"); ($tz) and $dbh->do(qq(SET time_zone = "$tz")); } elsif ( $db_driver eq 'Pg' ) { $dbh->do( "set client_encoding = 'UTF8';" ); ($tz) and $dbh->do(qq(SET TIME ZONE = "$tz")); } return $dbh; } =head2 dbh $dbh = C4::Context->dbh; Returns a database handle connected to the Koha database for the current context. If no connection has yet been made, this method creates one, and connects to the database. This database handle is cached for future use: if you call Cdbh> twice, you will get the same handle both times. If you need a second database handle, use C<&new_dbh> and possibly C<&set_dbh>. =cut #' sub dbh { my $self = shift; my $params = shift; my $sth; unless ( $params->{new} ) { if ( defined($context->{db_driver}) && $context->{db_driver} eq 'mysql' && $context->{"dbh"} ) { return $context->{"dbh"}; } elsif ( defined($context->{"dbh"}) && $context->{"dbh"}->ping() ) { return $context->{"dbh"}; } } # No database handle or it died . Create one. $context->{"dbh"} = &_new_dbh(); return $context->{"dbh"}; } =head2 new_dbh $dbh = C4::Context->new_dbh; Creates a new connection to the Koha database for the current context, and returns the database handle (a C object). The handle is not saved anywhere: this method is strictly a convenience function; the point is that it knows which database to connect to so that the caller doesn't have to know. =cut #' sub new_dbh { my $self = shift; return &_new_dbh(); } =head2 set_dbh $my_dbh = C4::Connect->new_dbh; C4::Connect->set_dbh($my_dbh); ... C4::Connect->restore_dbh; C<&set_dbh> and C<&restore_dbh> work in a manner analogous to C<&set_context> and C<&restore_context>. C<&set_dbh> saves the current database handle on a stack, then sets the current database handle to C<$my_dbh>. C<$my_dbh> is assumed to be a good database handle. =cut #' sub set_dbh { my $self = shift; my $new_dbh = shift; # Save the current database handle on the handle stack. # We assume that $new_dbh is all good: if the caller wants to # screw himself by passing an invalid handle, that's fine by # us. push @{$context->{"dbh_stack"}}, $context->{"dbh"}; $context->{"dbh"} = $new_dbh; } =head2 restore_dbh C4::Context->restore_dbh; Restores the database handle saved by an earlier call to Cset_dbh>. =cut #' sub restore_dbh { my $self = shift; if ($#{$context->{"dbh_stack"}} < 0) { # Stack underflow die "DBH stack underflow"; } # Pop the old database handle and set it. $context->{"dbh"} = pop @{$context->{"dbh_stack"}}; # FIXME - If it is determined that restore_context should # return something, then this function should, too. } =head2 queryparser $queryparser = C4::Context->queryparser Returns a handle to an initialized Koha::QueryParser::Driver::PQF object. =cut sub queryparser { my $self = shift; unless (defined $context->{"queryparser"}) { $context->{"queryparser"} = &_new_queryparser(); } return defined( $context->{"queryparser"} ) ? $context->{"queryparser"}->new : undef; } =head2 _new_queryparser Internal helper function to create a new QueryParser object. QueryParser is loaded dynamically so as to keep the lack of the QueryParser library from getting in anyone's way. =cut sub _new_queryparser { my $qpmodules = { 'OpenILS::QueryParser' => undef, 'Koha::QueryParser::Driver::PQF' => undef }; if ( can_load( 'modules' => $qpmodules ) ) { my $QParser = Koha::QueryParser::Driver::PQF->new(); my $config_file = $context->config('queryparser_config'); $config_file ||= '/etc/koha/searchengine/queryparser.yaml'; if ( $QParser->load_config($config_file) ) { # TODO: allow indexes to be configured in the database return $QParser; } } return; } =head2 marcfromkohafield $dbh = C4::Context->marcfromkohafield; Returns a hash with marcfromkohafield. This hash is cached for future use: if you call Cmarcfromkohafield> twice, you will get the same hash without real DB access =cut #' sub marcfromkohafield { my $retval = {}; # If the hash already exists, return it. return $context->{"marcfromkohafield"} if defined($context->{"marcfromkohafield"}); # No hash. Create one. $context->{"marcfromkohafield"} = &_new_marcfromkohafield(); return $context->{"marcfromkohafield"}; } # _new_marcfromkohafield # Internal helper function (not a method!). This creates a new # hash with stopwords sub _new_marcfromkohafield { my $dbh = C4::Context->dbh; my $marcfromkohafield; my $sth = $dbh->prepare("select frameworkcode,kohafield,tagfield,tagsubfield from marc_subfield_structure where kohafield > ''"); $sth->execute; while (my ($frameworkcode,$kohafield,$tagfield,$tagsubfield) = $sth->fetchrow) { my $retval = {}; $marcfromkohafield->{$frameworkcode}->{$kohafield} = [$tagfield,$tagsubfield]; } return $marcfromkohafield; } =head2 stopwords $dbh = C4::Context->stopwords; Returns a hash with stopwords. This hash is cached for future use: if you call Cstopwords> twice, you will get the same hash without real DB access =cut #' sub stopwords { my $retval = {}; # If the hash already exists, return it. return $context->{"stopwords"} if defined($context->{"stopwords"}); # No hash. Create one. $context->{"stopwords"} = &_new_stopwords(); return $context->{"stopwords"}; } # _new_stopwords # Internal helper function (not a method!). This creates a new # hash with stopwords sub _new_stopwords { my $dbh = C4::Context->dbh; my $stopwordlist; my $sth = $dbh->prepare("select word from stopwords"); $sth->execute; while (my $stopword = $sth->fetchrow_array) { $stopwordlist->{$stopword} = uc($stopword); } $stopwordlist->{A} = "A" unless $stopwordlist; return $stopwordlist; } =head2 userenv C4::Context->userenv; Retrieves a hash for user environment variables. This hash shall be cached for future use: if you call Cuserenv> twice, you will get the same hash without real DB access =cut #' sub userenv { my $var = $context->{"activeuser"}; if (defined $var and defined $context->{"userenv"}->{$var}) { return $context->{"userenv"}->{$var}; } else { return; } } =head2 set_userenv C4::Context->set_userenv($usernum, $userid, $usercnum, $userfirstname, $usersurname, $userbranch, $userflags, $emailaddress, $branchprinter, $persona); Establish a hash of user environment variables. set_userenv is called in Auth.pm =cut #' sub set_userenv { my ($usernum, $userid, $usercnum, $userfirstname, $usersurname, $userbranch, $branchname, $userflags, $emailaddress, $branchprinter, $persona)= @_; my $var=$context->{"activeuser"} || ''; my $cell = { "number" => $usernum, "id" => $userid, "cardnumber" => $usercnum, "firstname" => $userfirstname, "surname" => $usersurname, #possibly a law problem "branch" => $userbranch, "branchname" => $branchname, "flags" => $userflags, "emailaddress" => $emailaddress, "branchprinter" => $branchprinter, "persona" => $persona, }; $context->{userenv}->{$var} = $cell; return $cell; } sub set_shelves_userenv { my ($type, $shelves) = @_ or return; my $activeuser = $context->{activeuser} or return; $context->{userenv}->{$activeuser}->{barshelves} = $shelves if $type eq 'bar'; $context->{userenv}->{$activeuser}->{pubshelves} = $shelves if $type eq 'pub'; $context->{userenv}->{$activeuser}->{totshelves} = $shelves if $type eq 'tot'; } sub get_shelves_userenv { my $active; unless ($active = $context->{userenv}->{$context->{activeuser}}) { $debug and warn "get_shelves_userenv cannot retrieve context->{userenv}->{context->{activeuser}}"; return; } my $totshelves = $active->{totshelves} or undef; my $pubshelves = $active->{pubshelves} or undef; my $barshelves = $active->{barshelves} or undef; return ($totshelves, $pubshelves, $barshelves); } =head2 _new_userenv C4::Context->_new_userenv($session); # FIXME: This calling style is wrong for what looks like an _internal function Builds a hash for user environment variables. This hash shall be cached for future use: if you call Cuserenv> twice, you will get the same hash without real DB access _new_userenv is called in Auth.pm =cut #' sub _new_userenv { shift; # Useless except it compensates for bad calling style my ($sessionID)= @_; $context->{"activeuser"}=$sessionID; } =head2 _unset_userenv C4::Context->_unset_userenv; Destroys the hash for activeuser user environment variables. =cut #' sub _unset_userenv { my ($sessionID)= @_; undef $context->{"activeuser"} if ($context->{"activeuser"} eq $sessionID); } =head2 get_versions C4::Context->get_versions Gets various version info, for core Koha packages, Currently called from carp handle_errors() sub, to send to browser if 'DebugLevel' syspref is set to '2'. =cut #' # A little example sub to show more debugging info for CGI::Carp sub get_versions { my %versions; $versions{kohaVersion} = KOHAVERSION(); $versions{kohaDbVersion} = C4::Context->preference('version'); $versions{osVersion} = join(" ", POSIX::uname()); $versions{perlVersion} = $]; { no warnings qw(exec); # suppress warnings if unable to find a program in $PATH $versions{mysqlVersion} = `mysql -V`; $versions{apacheVersion} = `httpd -v`; $versions{apacheVersion} = `httpd2 -v` unless $versions{apacheVersion} ; $versions{apacheVersion} = `apache2 -v` unless $versions{apacheVersion} ; $versions{apacheVersion} = `/usr/sbin/apache2 -v` unless $versions{apacheVersion} ; } return %versions; } =head2 tz C4::Context->tz Returns a DateTime::TimeZone object for the system timezone =cut sub tz { my $self = shift; if (!defined $context->{tz}) { $context->{tz} = DateTime::TimeZone->new(name => 'local'); } return $context->{tz}; } =head2 IsSuperLibrarian C4::Context->IsSuperlibrarian(); =cut sub IsSuperLibrarian { my $userenv = C4::Context->userenv; unless ( $userenv and exists $userenv->{flags} ) { # If we reach this without a user environment, # assume that we're running from a command-line script, # and act as a superlibrarian. carp("C4::Context->userenv not defined!"); return 1; } return ($userenv->{flags}//0) % 2; } 1; __END__ =head1 ENVIRONMENT =head2 C Specifies the configuration file to read. =head1 SEE ALSO XML::Simple =head1 AUTHORS Andrew Arensburger Joshua Ferraro =cut