Beispiel #1
0
    def save_branch(self,authorname,parent_urlsafe_key,link,content):
        
        userinfo = UserInfo.get_by_username(authorname)    
        if userinfo is None or not self.is_user_info_current(userinfo):
            
            return False, [ 'unauthenticated' ]
        
        branch = Branch()
        branch.authorname = authorname
        
        parent_key = ndb.Key(urlsafe=parent_urlsafe_key)
        parent_branch = parent_key.get()
        
        if parent_branch is None:
            return False, ['parent_branch_not_found']
        
        branch.tree_name = parent_branch.tree_name
        
        tree = Tree.get_by_name(parent_branch.tree_name)
        
        if tree is None:
            return False, ['tree_not_found']

        if tree.moderatorname == authorname or not tree.link_moderator_only:
            branch.link = link
        else:
            branch.link = ""
        
        if tree.moderatorname == authorname or not tree.content_moderator_only:
            branch.content = content
        else:
            branch.content = ""
        
        errors = self.validate_branch(tree, branch,authorname)
                    
#currently there is a db lock on unique links
#eventually we should have a memcache lcok
        
        authored_branch_count = 0
                
        branchs = parent_branch.children()
        
        if tree.single_thread and parent_branch.authorname == authorname:
            errors.append('has_single_thread_parent_branch')
        
        if tree.single_thread and len(branchs) > 0:
            errors.append('has_single_thread_branch')
        
        for branch_branch in branchs:
            if branch_branch.link == branch.link:
                errors.append('has_identical_link')
            if branch_branch.authorname == authorname:
                authored_branch_count += 1
        
        if tree.branch_max > 0 and tree.branch_max <= authored_branch_count:
            errors.append('has_branches')
        
        if len(errors) == 0:
            branch.revision = 0
            branch.parent_branch = parent_key
            branch.parent_branch_authorname = parent_branch.authorname
            branch.put()
            self.create_branch_version(branch)
            
            parent_branch.append_child(branch)
            
            notification = Notification()
            notification.from_username = branch.authorname
            if branch.authorname != parent_branch.authorname:
                notification.to_username = parent_branch.authorname
            notification.notification_type = 'new_branch'
            notification.branch = branch.key
            notification.branch_link = branch.link
            notification.tree_name = branch.tree_name
            notification.put()
            
            return True, branch
        else:
            return False, errors
Beispiel #2
0
    def save_tree(self,tree_dict):
        
        try:
            tree_dict = self.merged_tree(tree_dict)
        except:
            return False, ['invalid_parameters']
            
        #tree_name,moderatorname,conventions,root_branch_link,root_branch_content
        
        if tree_dict['moderatorname'] is None:
            return False, ['unauthenticated','no_moderator']
        
        if tree_dict['tree_name'] is None:
            return False, ['empty_name']
        
        author_info = UserInfo.get_by_username(tree_dict['moderatorname'])
        
        if author_info is None:
            return False, ['unauthenticated','moderator_not_found']
        
        if not self.is_user_info_current(author_info):
            return False, ['unauthenticated','moderator_not_current']
        
        if author_info.username is None:
            return False, ['invalid_user']
        
        errors = []
        
        if tree_dict['content_max'] < 16:
            errors.append('min_content_max')
            
        if tree_dict['link_max'] < 16:
            errors.append('min_link_max')
            
        if len(tree_dict['link_prompt']) > tree_dict['link_max']:
            errors.append('link_prompt_too_large')
            
        if len(tree_dict['content_prompt']) > tree_dict['content_max']:
            errors.append('content_prompt_too_large')
        
        tree_key = Tree.create_key(tree_dict['tree_name'])
        
        empty_name = tree_dict['tree_name'] is None or len(tree_dict['tree_name']) == 0
        
        if empty_name:
            errors.append('empty_name')
        else:
            match = re.search(r'^[\d\w_\-]+$', tree_dict['tree_name'])
            isvalid = match and 4 <= len(tree_dict['tree_name']) and len(tree_dict['tree_name']) <= 20;
            if not isvalid:
                errors.append('invalid_name')
        
        branch = Branch(id=tree_dict['tree_name'])
        branch.authorname = tree_dict['moderatorname']
        branch.link = tree_dict['root_branch_link']
        branch.content = tree_dict['root_branch_content']
        branch.tree_name = tree_dict['tree_name']
        
        if branch.link == None or len(branch.link) == 0:
            errors.append('empty_root_branch_link')
        
        if branch.content == None or len(branch.content) == 0:
            errors.append('empty_root_branch_content')
        
#let the user complete the other validation before trying to create the tree        
        if len(errors) != 0:
            return False, errors
        
        
        tree = tree_key.get();
        
        if tree:
            errors.append('tree_exists')
        
        if len(errors) == 0:
            #if two users enter identical information at the same time, then
            #whoever gets it second is the winner
            tree = Tree(id=tree_dict['tree_name'].lower(),name=tree_dict['tree_name'])
            tree.moderatorname = tree_dict['moderatorname']
            tree.conventions = tree_dict['conventions']
            
            tree.link_moderator_only = tree_dict['link_moderator_only']
            tree.link_max = tree_dict['link_max']
            tree.link_prompt = tree_dict['link_prompt']
            
            tree.content_moderator_only = tree_dict['content_moderator_only']
            tree.content_max = tree_dict['content_max']
            tree.content_prompt = tree_dict['content_prompt']
            
            tree.single_thread = tree_dict['single_thread']
            
            tree.branch_max = tree_dict['branch_max']
            
            branch.put()
            tree.put()
        
            notification = Notification()
            notification.from_username = tree.moderatorname
            #only set the to_username when a different user is performing the action
            notification.notification_type = 'new_tree'
            notification.tree_name = tree_dict['tree_name']
            notification.put()

        
        if len(errors) == 0:
            return True, tree
        else:
            return False, errors