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以本机为目的的包,由上至下,走左边的路
本机产生的包,从local process开始走左边的路
本机转发的包,由上至下走右边的路
简化流程如下:
在neutron中主要用到filter表和nat表
filter表:
Chain INPUT
Chain FORWARD
Chain OUTPUT
filter表用于信息包过滤,它包含INPUT、OUTPUT和FORWARD 链。
nat表:
Chain PREROUTING
Chain OUTPUT
Chain POSTROUTING
nat表用于网络地址转换,PREROUTING链由指定信息包一到达防火墙就改变它们的规则所组成,而 POSTROUTING 链由指定正当信息包打算离开防火墙时改变它们的规则所组成。
More:
Traversing of tables and chains
Linux Firewalls Using iptables
_rpc_loop --- _process_router --- _router_added --- process_router --- _router_removed --- _process_router_delete --- _router_removed
在上面几个方法中,会涉及到iptables的处理。
iptables_manager的初始化是在class IptablesManager中完成的,它对iptables的链进行了包装。
源码目录:neutron/neutron/agent/linux/iptables_manager.py
主要操作:
新建一个neutron-filter-top链,这个是没有包装的,加在原生的FORWARD和OUTPUT链上。
对filter表的INPUT,OUTPUT,FORWARD链进行包装,将到达原链的数据包转发到包装链,还增加一个包装的local链。
对于nat表,PREROUTING,OUTPUT,POSTROUTING链进行包装,另外在POSTROUTING链之后加了snat链。
代码分析:
对于l3 agent,binary_name是neturon-l3-agent。
filter表的操作:
增加一个链neutron-filter-top,增加规则:
-A FORWARD -j neutron-filter-top
-A OUTPUT -j neutron-filter-top
增加一个包装链neutron-l3-agent-local,增加规则:
-A neutron-filter-top -j neutron-l3-agent-local
# Add a neutron-filter-top chain. It‘s intended to be shared # among the various nova components. It sits at the very top # of FORWARD and OUTPUT. for tables in [self.ipv4, self.ipv6]: tables[‘filter‘].add_chain(‘neutron-filter-top‘, wrap=False) tables[‘filter‘].add_rule(‘FORWARD‘, ‘-j neutron-filter-top‘, wrap=False, top=True) tables[‘filter‘].add_rule(‘OUTPUT‘, ‘-j neutron-filter-top‘, wrap=False, top=True) tables[‘filter‘].add_chain(‘local‘) tables[‘filter‘].add_rule(‘neutron-filter-top‘, ‘-j $local‘, wrap=False)
包装IPv4和IPv6 filter表的INPUT,OUTPUT,FORWARD链,以及IPv4 nat表的PREROUTING,OUTPUT,POSTROUTING链。
将到达原链的数据包转发到包装链:
# Wrap the built-in chains builtin_chains = {4: {‘filter‘: [‘INPUT‘, ‘OUTPUT‘, ‘FORWARD‘]}, 6: {‘filter‘: [‘INPUT‘, ‘OUTPUT‘, ‘FORWARD‘]}} if not state_less: self.ipv4.update( {‘nat‘: IptablesTable(binary_name=self.wrap_name)}) builtin_chains[4].update({‘nat‘: [‘PREROUTING‘, ‘OUTPUT‘, ‘POSTROUTING‘]}) for ip_version in builtin_chains: if ip_version == 4: tables = self.ipv4 elif ip_version == 6: tables = self.ipv6 for table, chains in builtin_chains[ip_version].iteritems(): for chain in chains: tables[table].add_chain(chain) tables[table].add_rule(chain, ‘-j $%s‘ % (chain), wrap=False)
包装链neutron-l3-agent-INPUT,neutron-l3-agent-OUTPUT,neutron-l3-agent-FORWARD,添加规则:
-A INPUT -j neutron-l3-agent-INPUT
-A OUTPUT -j neutron-l3-agent-OUTPUT
-A FORWARD -j neutron-l3-agent-FORWARD
nat表的操作:
(承上面的代码)
包装链neutron-l3-agent-PREROUTING,neutron-l3-agent-OUTPUT,neutron-l3-agent-POSTROUTING,添加规则:
-A PREROUTING -j neutron-l3-agent-PREROUTING
-A OUTPUT -j neutron-l3-agent-OUTPUT
-A POSTROUTING -j neutron-l3-agent-POSTROUTING
nat表中添加neutron-postrouting-bottom链,增加规则:
-A POSTROUTING -j neutron-postrouting-bottom
nat表中添加包装链neutron-l3-agent-snat,增加规则:
-A neutron-postrouting-bottom -j neutron-l3-agent-snat
nat表中添加包装链neutron-l3-agent-float-snat,增加规则:
-A neutron-l3-agent-snat -j neutron-l3-agent-float-snat
代码如下:
if not state_less: # Add a neutron-postrouting-bottom chain. It‘s intended to be # shared among the various nova components. We set it as the last # chain of POSTROUTING chain. self.ipv4[‘nat‘].add_chain(‘neutron-postrouting-bottom‘, wrap=False) self.ipv4[‘nat‘].add_rule(‘POSTROUTING‘, ‘-j neutron-postrouting-bottom‘, wrap=False) # We add a snat chain to the shared neutron-postrouting-bottom # chain so that it‘s applied last. self.ipv4[‘nat‘].add_chain(‘snat‘) self.ipv4[‘nat‘].add_rule(‘neutron-postrouting-bottom‘, ‘-j $snat‘, wrap=False) # And then we add a float-snat chain and jump to first thing in # the snat chain. self.ipv4[‘nat‘].add_chain(‘float-snat‘) self.ipv4[‘nat‘].add_rule(‘snat‘, ‘-j $float-snat‘)
_router_added方法,创建和metadata相关的iptables规则:
def _router_added(self, router_id, router): ri = RouterInfo(router_id, self.root_helper, self.conf.use_namespaces, router) self.router_info[router_id] = ri if self.conf.use_namespaces: self._create_router_namespace(ri) for c, r in self.metadata_filter_rules(): ri.iptables_manager.ipv4[‘filter‘].add_rule(c, r) for c, r in self.metadata_nat_rules(): ri.iptables_manager.ipv4[‘nat‘].add_rule(c, r) ri.iptables_manager.apply() super(L3NATAgent, self).process_router_add(ri) if self.conf.enable_metadata_proxy: self._spawn_metadata_proxy(ri.router_id, ri.ns_name)
1.metadata_filter_rules方法中,如果enable_metadata_proxy为True,增加规则
def metadata_filter_rules(self): rules = [] if self.conf.enable_metadata_proxy: rules.append((‘INPUT‘, ‘-s 0.0.0.0/0 -d 127.0.0.1 ‘ ‘-p tcp -m tcp --dport %s ‘ ‘-j ACCEPT‘ % self.conf.metadata_port)) return rules
然后在filter表中增加这条规则,接受所有从外面进来到达metadata_port端口的数据包:
-A neutron-l3-agent-INPUT -s 0.0.0.0/0 -d 127.0.0.1 -p tcp -m tcp –dport 9697 -j ACCEPT
2.metadata_nat_rules方法,如果enable_metadata_proxy为True,增加规则
def metadata_nat_rules(self): rules = [] if self.conf.enable_metadata_proxy: rules.append((‘PREROUTING‘, ‘-s 0.0.0.0/0 -d 169.254.169.254/32 ‘ ‘-p tcp -m tcp --dport 80 -j REDIRECT ‘ ‘--to-port %s‘ % self.conf.metadata_port)) return rules
然后在nat表中增加这条规则做DNAT转换,在route之前,将虚拟机访问169.254.169.254端口80的数据包重定向到metadat_port端口:
-A neutron-l3-agent-PREROUTING -s 0.0.0.0/0 -d 169.254.169.254/32 -p tcp -m tcp –dport 80 -j REDIRECT –to-port 9697
再调用iptables_manager.apply()方法,应用规则:
iptables-save -c ,获取当前所有iptables信息;
iptables-restore -c ,应用最新的iptables配置;
process_router方法:
1.perform_snat_action,为external gateway处理SNAT规则
def _handle_router_snat_rules(self, ri, ex_gw_port, internal_cidrs, interface_name, action): # Remove all the rules # This is safe because if use_namespaces is set as False # then the agent can only configure one router, otherwise # each router‘s SNAT rules will be in their own namespace ri.iptables_manager.ipv4[‘nat‘].empty_chain(‘POSTROUTING‘) ri.iptables_manager.ipv4[‘nat‘].empty_chain(‘snat‘) # Add back the jump to float-snat ri.iptables_manager.ipv4[‘nat‘].add_rule(‘snat‘, ‘-j $float-snat‘) # And add them back if the action if add_rules if action == ‘add_rules‘ and ex_gw_port: # ex_gw_port should not be None in this case # NAT rules are added only if ex_gw_port has an IPv4 address for ip_addr in ex_gw_port[‘fixed_ips‘]: ex_gw_ip = ip_addr[‘ip_address‘] if netaddr.IPAddress(ex_gw_ip).version == 4: rules = self.external_gateway_nat_rules(ex_gw_ip, internal_cidrs, interface_name) for rule in rules: ri.iptables_manager.ipv4[‘nat‘].add_rule(*rule) break ri.iptables_manager.apply()
先清空nat表的neutron-l3-agent-POSTROUTING链和neutron-l3-agent-snat链;
再在nat表的neutron-l3-agent-snat链添加规则:
-A neutron-l3-agent-snat -j neutron-l3-agent-float-snat
然后对应add_rules操作,则处理external_gateway_nat_rules,处理完后在nat表中添加规则:
def external_gateway_nat_rules(self, ex_gw_ip, internal_cidrs, interface_name): rules = [(‘POSTROUTING‘, ‘! -i %(interface_name)s ‘ ‘! -o %(interface_name)s -m conntrack ! ‘ ‘--ctstate DNAT -j ACCEPT‘ % {‘interface_name‘: interface_name})] for cidr in internal_cidrs: rules.extend(self.internal_network_nat_rules(ex_gw_ip, cidr)) return rules
规则命令如下:
-A neutron-l3-agent-POSTROUTING ! -i qg-XXX ! -o qg-XXX -m conntrack ! –ctstate DNAT -j ACCEPT
这条命令的意思是除了出口和入口都为qg-XXX,(qg即是router上的外部网关接口)匹配除了DNAT之外的其他状态。
然后处理internal_network_nat_rules:
def internal_network_nat_rules(self, ex_gw_ip, internal_cidr): rules = [(‘snat‘, ‘-s %s -j SNAT --to-source %s‘ % (internal_cidr, ex_gw_ip))] return rules
规则命令如下:
-A neutron-l3-agent-snat -s internal_cidr -j SNAT –to-source ex_gw_ip
2.process_router_floating_ip_nat_rules方法,处理floating ip,作SNAT/DNAT转换。
def process_router_floating_ip_nat_rules(self, ri): """Configure NAT rules for the router‘s floating IPs. Configures iptables rules for the floating ips of the given router """ # Clear out all iptables rules for floating ips ri.iptables_manager.ipv4[‘nat‘].clear_rules_by_tag(‘floating_ip‘) # Loop once to ensure that floating ips are configured. for fip in ri.router.get(l3_constants.FLOATINGIP_KEY, []): # Rebuild iptables rules for the floating ip. fixed = fip[‘fixed_ip_address‘] fip_ip = fip[‘floating_ip_address‘] for chain, rule in self.floating_forward_rules(fip_ip, fixed): ri.iptables_manager.ipv4[‘nat‘].add_rule(chain, rule, tag=‘floating_ip‘) ri.iptables_manager.apply() def floating_forward_rules(self, floating_ip, fixed_ip): return [(‘PREROUTING‘, ‘-d %s -j DNAT --to %s‘ % (floating_ip, fixed_ip)), (‘OUTPUT‘, ‘-d %s -j DNAT --to %s‘ % (floating_ip, fixed_ip)), (‘float-snat‘, ‘-s %s -j SNAT --to %s‘ % (fixed_ip, floating_ip))]
先清理nat表所有的floationg ip规则;然后floating_forward_rules方法,在nat表中处理floating ip和fixed ip的NAT转换:
具体规则如下:
-A neutron-l3-agent-PREROUTING -d floating_ip -j DNAT –to fixed_ip
-A neutron-l3-agent-OUTPUT -d floating_ip -j DNAT –to fixed_ip
-A neutron-l3-agent-float-snat -s fixed_ip -j SNAT –to floating_ip
_router_removed方法,删除和metadata相关的规则:
def _router_removed(self, router_id): ri = self.router_info.get(router_id) if ri is None: LOG.warn(_("Info for router %s were not found. " "Skipping router removal"), router_id) return ri.router[‘gw_port‘] = None ri.router[l3_constants.INTERFACE_KEY] = [] ri.router[l3_constants.FLOATINGIP_KEY] = [] self.process_router(ri) for c, r in self.metadata_filter_rules(): ri.iptables_manager.ipv4[‘filter‘].remove_rule(c, r) for c, r in self.metadata_nat_rules(): ri.iptables_manager.ipv4[‘nat‘].remove_rule(c, r) ri.iptables_manager.apply() if self.conf.enable_metadata_proxy: self._destroy_metadata_proxy(ri.router_id, ri.ns_name) del self.router_info[router_id] self._destroy_router_namespace(ri.ns_name)
l3 agent初始化完成后,iptables处理流程如下:
感谢春祥提供图片!
Reference:
Neutron中的iptables
本文转自http://squarey.me/cloud-virtualization/iptables_usage_in_l3_agent.html
Neutron分析(5)—— neutron-l3-agent中的iptables,布布扣,bubuko.com
Neutron分析(5)—— neutron-l3-agent中的iptables
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原文地址:http://www.cnblogs.com/feisky/p/3849219.html
