require 'digest/md5' # An ActiveRecord which represents a parsed OpenURL resolve service request, # and other persistent state related to Umlaut's handling of that OpenURL # request) should not be confused with the Rails ActionController::Request # class (which represents the complete details of the current 'raw' HTTP # request, and is not stored persistently in the db). # # Constituent openurl data is stored in Referent and Referrer. class Request < ActiveRecord::Base has_many :dispatched_services # Order service_responses by id, so the first # added to the db comes first. Less confusing to have a consistent order. # Also lets installation be sure services run first will have their # responses show up first has_many :service_responses, :order => 'id ASC' belongs_to :referent, :include => :referent_values # holds a hash representing submitted http params serialize :http_env # Either creates a new Request, or recovers an already created Request from # the db--in either case return a Request matching the OpenURL. # options[:allow_create] => false, will not create a new request, return # nil if no existing request can be found. def self.find_or_create(params, session, a_rails_request, options = {} ) # Pull out the http params that are for the context object, # returning a CGI::parse style hash, customized for what # ContextObject.new_from_form_vars wants. co_params = self.context_object_params( a_rails_request ) # Create a context object from our http params context_object = OpenURL::ContextObject.new_from_form_vars( co_params ) # Sometimes umlaut puts in a 'umlaut.request_id' parameter. # first look by that, if we have it, for an existing request. request_id = params['umlaut.request_id'] # We're trying to identify an already existing response that matches # this request, in this session. We don't actually match the # session_id in the cache lookup though, so background processing # will hook up with the right request even if user has no cookies. # We don't check IP change anymore either, that was too open to # mistaken false negative when req.ip was being used. req = Request.find_by_id(request_id) unless request_id.nil? # No match? Just pretend we never had a request_id in url at all. request_id = nil if req == nil # Serialized fingerprint of openurl http params, suitable for looking # up in the db to see if we've seen it before. param_fingerprint = self.co_params_fingerprint( co_params ) client_ip = params['req.ip'] || a_rails_request.remote_ip() unless (req || params["umlaut.force_new_request"] == "true" || param_fingerprint.blank? ) # If not found yet, then look for an existing request that had the same # openurl params as this one, in the same session. In which case, reuse. # Here we do require same session, since we don't have an explicit # request_id given. req = Request.where( :session_id => a_rails_request.session_options[:id], :contextobj_fingerprint => param_fingerprint, :client_ip_addr => client_ip ). order("created_at DESC, id DESC").first end # Okay, if we found a req, it might NOT have a referent, it might # have been purged. If so, create a new one. if ( req && ! req.referent ) req.referent = Referent.create_by_context_object(context_object) end unless (req || options[:allow_create] == false) # didn't find an existing one at all, just create one req = self.create_new_request!( :params => params, :session => session, :rails_request => a_rails_request, :contextobj_fingerprint => param_fingerprint, :context_object => context_object ) end return req end # input is a Rails request (representing http request) # We pull out a hash of request params (get and post) that # define a context object. We use CGI::parse instead of relying # on Rails parsing because rails parsing ignores multiple params # with same key value, which is legal in CGI. # # So in general values of this hash will be an array. # ContextObject.new_from_form_vars is good with that. # Exception is url_ctx_fmt and url_ctx_val, which we'll # convert to single values, because ContextObject wants it so. def self.context_object_params(a_rails_request) require 'cgi' # GET params co_params = CGI::parse( a_rails_request.query_string ) # add in the POST params please co_params.merge!( CGI::parse(a_rails_request.raw_post)) if a_rails_request.raw_post # default value nil please, that's what ropenurl wants co_params.default = nil # CGI::parse annoyingly sometimes puts a nil key in there, for an empty # query param (like a url that has two consecutive && in it). Let's get rid # of it please, only confuses our code. co_params.delete(nil) # Exclude params that are for Rails or Umlaut, and don't belong to the # context object. Except leave in umlaut.institution, that matters for # cachability. excluded_keys = ["action", "controller", "page", /^umlaut\.(?!institution)/, 'rft.action', 'rft.controller'] co_params.keys.each do |key| excluded_keys.each do |exclude| co_params.delete(key) if exclude === key; end end # 'id' is a special one, cause it can be a OpenURL 0.1 key, or # it can be just an application-level primary key. If it's only a # number, we assume the latter--an openurl identifier will never be # just a number. if co_params['id'] co_params['id'].each do |id| co_params['id'].delete(id) if id =~ /^\d+$/ end end return co_params end # Method that registers the dispatch status of a given service participating # in this request. # # Status can be true (shorthand for DispatchedService::Success), false # (shorthand for DispatchedService::FailedTemporary), or one of the other # DispatchedService status codes. # If a DispatchedService row already exists in the db, that row will be # re-used, over-written with new status value. # # Exception can optionally be provided, generally with failed statuses, # to be stored for debugging purposes. # # Safe to call in thread, uses explicit connectionpool checkout. def dispatched(service, status, exception=nil) ActiveRecord::Base.connection_pool.with_connection do ds = self.find_dispatch_object( service ) unless ds ds= self.new_dispatch_object!(service, status) end # In case it was already in the db, make sure to over-write status. # and add the exception either way. ds.status = status ds.store_exception( exception ) ds.save! end end # See can_dispatch below, you probably want that instead. # This method checks to see if a particular service has been dispatched, and # is succesful or in progress---that is, if this method returns false, # you might want to dispatch the service (again). If it returns true though, # don't, it's been done. def dispatched?(service) ds= self.dispatched_services.find(:first, :conditions=>{:service_id => service.service_id}) # Return true if it exists and is any value but FailedTemporary. # FailedTemporary, it's worth running again, the others we shouldn't. return (! ds.nil?) && (ds.status != DispatchedService::FailedTemporary) end # Someone asks us if it's okay to dispatch this guy. Only if it's # marked as Queued, or Failed---otherwise it should be already working, # or done. def can_dispatch?(service) ds= self.dispatched_services.find(:first, :conditions=>{:service_id => service.service_id}) return ds.nil? || (ds.status == DispatchedService::Queued) || (ds.status == DispatchedService::FailedTemporary) end # Create a ServiceResponse and it's associated ServiceType(s) object, # attached to this request. # Arg is a hash of key/values. Keys MUST include: # * :service, with the value being the actual Service object, not just the ID. # * :service_type_value => the ServiceTypeValue object (or string name) for # the the 'type' of response this is. # # Other keys are as conventional for the service. See documentation of # conventional keys in ServiceResponse # # Some keys end up stored in columns in the db directly, others # end up serialized in a hash in a 'text' column, caller doesn't have # to worry about that, just pass em all in. # # Eg, called from a service adapter plugin: # request.add_service_response(:service=>self, # :service_type_value => 'cover_image', # :display_text => 'Cover Image', # :url => img.inner_html, # :asin => asin, # :size => size) # # Safe to call in thread, uses connection pool checkout. def add_service_response(response_data) raise ArgumentError.new("missing required `:service` key") unless response_data[:service].kind_of?(Service) raise ArgumentError.new("missing required `:service_type_value` key") unless response_data[:service_type_value] svc_resp = nil ActiveRecord::Base.connection_pool.with_connection do svc_resp = ServiceResponse.new svc_resp.service_id = response_data[:service].service_id response_data.delete(:service) type_value = response_data.delete(:service_type_value) type_value = ServiceTypeValue[type_value.to_s] unless type_value.kind_of?(ServiceTypeValue) svc_resp.service_type_value = type_value svc_resp.request = self # response_data now includes actual key/values for the ServiceResponse # send em, take_key_values takes care of deciding which go directly # in columns, and which in serialized hash. svc_resp.take_key_values( response_data ) svc_resp.save! end return svc_resp end # Methods to look at status of dispatched services def failed_service_dispatches return self.dispatched_services.find(:all, :conditions => ['status IN (?, ?)', DispatchedService::FailedTemporary, DispatchedService::FailedFatal]) end # Returns array of Services in progress or queued. Intentionally # uses cached in memory association, so it wont' be a trip to the # db every time you call this. def services_in_progress # Intentionally using the in-memory array instead of going to db. # that's what the "to_a" is. Minimize race-condition on progress # check, to some extent, although it doesn't really get rid of it. dispatches = self.dispatched_services.to_a.find_all do | ds | (ds.status == DispatchedService::Queued) || (ds.status == DispatchedService::InProgress) end svcs = dispatches.collect { |ds| ds.service } return svcs end # convenience method to call service_types_in_progress with one element. def service_type_in_progress?(svc_type) return service_types_in_progress?( [svc_type] ) end #pass in array of ServiceTypeValue or string name of same. Returns # true if ANY of them are in progress. def service_types_in_progress?(type_array) # convert strings to ServiceTypeValues type_array = type_array.collect {|s| s.kind_of?(ServiceTypeValue)? s : ServiceTypeValue[s] } self.services_in_progress.each do |s| # array intersection return true unless (s.service_types_generated & type_array).empty? end return false; end def any_services_in_progress? return services_in_progress.length > 0 end def to_context_object #Mostly just the referent context_object = self.referent.to_context_object #But a few more things context_object.referrer.add_identifier(self.referrer_id) if self.referrer_id context_object.requestor.set_metadata('ip', self.client_ip_addr) if self.client_ip_addr return context_object end # Is the citation represetned by this request a title-level only # citation, with no more specific article info? Or no, does it # include article or vol/iss info? def title_level_citation? data = referent.metadata # atitle can't generlaly get us article-level, but it can with # lexis nexis, so we'll consider it article-level. Since it is! return ( data['atitle'].blank? && data['volume'].blank? && data['issue'].blank? && # pmid or doi is considered article-level, because SFX can # respond to those. Other identifiers may be useless. (! referent.identifiers.find {|i| i =~ /^info\:(doi|pmid)/}) ) end # pass in a ServiceTypeValue (or string name of such), get back list of # ServiceResponse objects with that value belonging to this request. # :refresh=>true will force a trip to the db to get latest values. # otherwise, association is used. def get_service_type(svc_type, options = {}) svc_type_obj = (svc_type.kind_of?(ServiceTypeValue)) ? svc_type : ServiceTypeValue[svc_type] if ( options[:refresh]) ActiveRecord::Base.connection_pool.with_connection do return self.service_responses.find(:all, :conditions => ["service_type_value_name = ?", svc_type_obj.name ] ) end else # find on an assoc will go to db, unless we convert it to a plain # old array first. return self.service_responses.to_a.find_all { |response| response.service_type_value == svc_type_obj } end end # Warning, doesn't check for existing object first. Use carefully, usually # paired with find_dispatch_object. Doesn't actually call save though, # caller must do that (in case caller wants to further initialize first). def new_dispatch_object!(service, status) service_id = if service.kind_of?(Service) service.service_id else service.to_s end ds = DispatchedService.new ds.service_id = service_id ds.status = status self.dispatched_services << ds return ds end protected # Called by self.find_or_create, if a new request _really_ needs to be created. def self.create_new_request!( args ) # all of these are required params = args[:params] session = args[:session] a_rails_request = args[:rails_request] contextobj_fingerprint = args[:contextobj_fingerprint] context_object = args[:context_object] # We don't have a complete Request, but let's try finding # an already existing referent and/or referrer to use, if possible, or # else create new ones. rft = nil if ( params['umlaut.referent_id']) rft = Referent.find(:first, :conditions => {:id => params['umlaut.referent_id']}) end # No id given, or no object found? Create it. unless (rft ) rft = Referent.create_by_context_object(context_object) end # Create the Request req = Request.new req.session_id = a_rails_request.session_options[:id] req.contextobj_fingerprint = contextobj_fingerprint # Don't do this! It is a performance problem. # rft.requests << req # (rfr.requests << req) if rfr # Instead, say it like this: req.referent = rft req.referrer_id = context_object.referrer.identifier unless context_object.referrer.empty? || context_object.referrer.identifier.empty? # Save client ip req.client_ip_addr = params['req.ip'] || a_rails_request.remote_ip() req.client_ip_is_simulated = true if req.client_ip_addr != a_rails_request.remote_ip() # Save selected http headers, keep some out to avoid being too long to # serialize. req.http_env = {} a_rails_request.env.each {|k, v| req.http_env[k] = v if ((k.slice(0,5) == 'HTTP_' && k != 'HTTP_COOKIE') || k == 'REQUEST_URI' || k == 'SERVER_NAME') } req.save! return req end def find_dispatch_object(service) return self.dispatched_services.find(:first, :conditions=>{:service_id => service.service_id}) end # Input is a CGI::parse style of HTTP params (array values) # output is a string "fingerprint" canonically representing the input # params, which can be stored in the db, so that when another request # comes in, we can easily see if this exact request was seen before. # # This method will exclude certain params that are not part of the context # object, or which we do not want to consider for equality, and will # then serialize in a canonical way such that two co's considered # equivelent will have equivelent serialization. # # Returns nil if there aren't any params to include in the fingerprint. def self.co_params_fingerprint(params) # Don't use ctx_time, consider two co's equal if they are equal but for ctx_tim. # exclude cache-busting "_" key that JQuery adds. Fine to bust HTTP cache, but # don't want to it to force new Umlaut processing. # exclude umlaut.jsonp and umlaut.response_format, those shouldn't effect cache # lookup. excluded_keys = ["action", "controller", "page", "rft.action", "rft.controller", "ctx_tim", "_", "umlaut.jsonp", "umlaut.response_format", "format"] # "url_ctx_val", "request_xml" # Hash.sort will do a first run through of canonicalization for us # production an array of two-element arrays, sorted by first element (key) params = params.sort # Now exclude excluded keys, and sort value array for further # canonicalization params.each do |pair| # CGI::parse().sort sometimes leaves us a value string with nils in it, # annoyingly. Especially for malformed requests, which can happen. # Remove them please. pair[1].compact! if pair[1] # === works for regexp and string if ( excluded_keys.find {|exc_key| exc_key === pair[0]}) params.delete( pair ) else pair[1].sort! if (pair[1] && pair[1].respond_to?("sort!")) end end return nil if params.blank? # And YAML-ize for a serliazation serialized = params.to_yaml # And make an MD5 hash/digest. Why store the whole thing if all we need to # do is look it up? hash/digest works well for this. return Digest::MD5.hexdigest( serialized ) end end