# -*- coding: utf-8 -*- """ jandd.sphinxext.ip ~~~~~~~~~~~~~~~~~~ The IP domain. :copyright: Copyright (c) 2016 Jan Dittberner :license: GPLv3+, see COPYING file for details. """ __version__ = '0.1.0' import re from ipcalc import Network from docutils import nodes from docutils.parsers.rst import Directive from sphinx import addnodes from sphinx.domains import Domain, ObjType from sphinx.environment import NoUri from sphinx.locale import l_ from sphinx.roles import XRefRole from sphinx.util.nodes import make_refnode def ip_object_anchor(typ, path): path = re.sub(r'[.:/]', '-', path) return typ.lower() + '-' + path class ip_node(nodes.Inline, nodes.TextElement): pass class ip_range(nodes.General, nodes.Element): pass class IPXRefRole(XRefRole): """ Cross referencing role for the IP domain. """ def __init__(self, method, index_type, **kwargs): self.method = method self.index_type = index_type innernodeclass=None if method in ('v4', 'v6'): innernodeclass = ip_node super(IPXRefRole, self).__init__( innernodeclass=innernodeclass, **kwargs) def process_link(self, env, refnode, has_explicit_title, title, target): domaindata = env.domaindata['ip'] domaindata[self.method][target] = (target, refnode) return title, target def result_nodes(self, document, env, node, is_ref): try: node['typ'] = self.method indexnode = addnodes.index() targetid = 'index-%s' % env.new_serialno('index') targetnode = nodes.target('', '', ids=[targetid]) doctitle = document.traverse(nodes.title)[0].astext() idxtext = "%s; %s" % (node.astext(), doctitle) idxtext2 = "%s; %s" % (self.index_type, node.astext()) indexnode['entries'] = [ ('single', idxtext, targetid, '', None), ('single', idxtext2, targetid, '', None), ] return [indexnode, targetnode, node], [] except KeyError as e: return [node], [e.args[0]] class IPRange(Directive): has_content = True required_arguments = 1 optional_arguments = 0 final_argument_whitespace = False option_spec = {} def handle_rangespec(self, node): titlenode = nodes.title() node.append(titlenode) titlenode.append(nodes.inline('', self.get_prefix_title())) titlenode.append(nodes.literal('', self.rangespec)) ids = ip_object_anchor(self.typ, self.rangespec) node['ids'].append(ids) self.env.domaindata[self.domain][self.typ][ids] = ( self.env.docname, self.options.get('synopsis', '')) return ids def run(self): if ':' in self.name: self.domain, self.objtype = self.name.split(':', 1) else: self.domain, self.objtype = '', self.name self.env = self.state.document.settings.env self.rangespec = self.arguments[0] node = nodes.section() name = self.handle_rangespec(node) if self.env.docname in self.env.titles: doctitle = self.env.titles[self.env.docname] else: doctitle = self.state.document.traverse(nodes.title)[0].astext() idx_text = "%s; %s" % (self.rangespec, doctitle) self.indexnode = addnodes.index(entries=[ ('single', idx_text, name, ''), ('single', self.get_index_text(), name, '') ]) if self.content: contentnode = nodes.paragraph('') node.append(contentnode) self.state.nested_parse( self.content, self.content_offset, contentnode) iprange = ip_range() node.append(iprange) iprange['rangespec'] = self.rangespec return [self.indexnode, node] class IPv4Range(IPRange): typ = 'v4range' def get_prefix_title(self): return l_('IPv4 address range ') def get_index_text(self): return "%s; %s" % (l_('IPv4 range'), self.rangespec) class IPv6Range(IPRange): typ = 'v6range' def get_prefix_title(self): return l_('IPv6 address range ') def get_index_text(self): return "%s; %s" % (l_('IPv6 range'), self.rangespec) class IPDomain(Domain): """ IP address and range domain. """ name = 'ip' label = 'IP addresses and ranges.' object_types = { 'v4': ObjType(l_('v4'), 'v4', 'obj'), 'v6': ObjType(l_('v6'), 'v6', 'obj'), 'v4range': ObjType(l_('v4range'), 'v4range', 'obj'), 'v6range': ObjType(l_('v6range'), 'v6range', 'obj'), } directives = { 'v4range': IPv4Range, 'v6range': IPv6Range, } roles = { 'v4': IPXRefRole('v4', l_('IPv4 address')), 'v6': IPXRefRole('v6', l_('IPv6 address')), 'v4range': IPXRefRole('v4range', l_('IPv4 range')), 'v6range': IPXRefRole('v6range', l_('IPv6 range')), } initial_data = { 'v4': {}, 'v6': {}, 'v4range': {}, 'v6range': {}, 'ips': [], } def clear_doc(self, docname): pass def resolve_xref(self, env, fromdocname, builder, typ, target, node, contnode): key = ip_object_anchor(typ, target) try: info = self.data[typ][key] except KeyError: text = contnode.rawsource role = self.roles.get(typ) if role is None: return None resnode = role.result_nodes(env.get_doctree(fromdocname), env, node, True)[0][0] if isinstance(resnode, addnodes.pending_xref): text = node[0][0] reporter = env.get_doctree(fromdocname).reporter reporter.warning('Cannot resolve reference to %r' % text, line=node.line) return None return resnode else: title = typ.upper() + ' ' + target anchor = ip_object_anchor(typ, target) return make_refnode(builder, fromdocname, info[0], anchor, contnode, title) @property def items(self): return dict((key, self.data[key]) for key in self.object_types) def get_objects(self): for typ, items in self.items.items(): for path, info in items.items(): anchor = ip_object_anchor(typ, path) yield (path, path, typ, info[0], anchor, 1) def process_ips(app, doctree): env = app.builder.env domaindata = env.domaindata[IPDomain.name] for node in doctree.traverse(ip_node): ip = node.astext() domaindata['ips'].append({ 'docname': env.docname, 'source': node.parent.source or env.doc2path(env.docname), 'lineno': node.parent.line, 'ip': ip, 'typ': node.parent['typ'], }) node.replace_self(nodes.literal('', ip)) def sort_ip_info(item): return item['ip'] def process_ip_nodes(app, doctree, fromdocname): env = app.builder.env domaindata = env.domaindata[IPDomain.name] for node in doctree.traverse(ip_range): content = [] net = Network(node['rangespec']) for ip_info in sorted(domaindata['ips'], key=sort_ip_info): if ip_info['ip'] in net: para = nodes.paragraph() para += nodes.literal('', ip_info['ip']) ids = ip_object_anchor(ip_info['typ'], ip_info['ip']) para['ids'].append(ids) domaindata[ip_info['typ']][ids] = (fromdocname, '') newnode = nodes.reference('', '', internal=True) try: newnode['refuri'] = app.builder.get_relative_uri( fromdocname, ip_info['docname']) except NoUri: pass title = env.titles[ip_info['docname']] innernode = nodes.Text(title.astext()) newnode.append(innernode) para += nodes.Text(" in ") para += newnode content.append(para) #print(ip_info, 'in', node['rangespec']) node.replace_self(content) def setup(app): app.add_domain(IPDomain) app.connect('doctree-read', process_ips) app.connect('doctree-resolved', process_ip_nodes) return {'version': __version__}