一.概述
所谓 Netd 就是Network Daemon 的缩写,表示Network守护进程,类似的命名还有很多,例如 Vold(Volumn Deamon),Rild(Radio Interface Layer Deamon)Netd负责跟一些涉及网络的配置,操作,管理,查询等相关的功能实现,比如,例如带宽控制(Bandwidth),流量统计,带宽控制,网络地址转换(NAT),个人局域网(pan),PPP链接,soft-ap,共享上网(Tether),配置路由表,interface配置管理,等等……
通过netlink,虚拟文件系统,等linux内核提供的用户接口,通信内核,或者直接执行系统模块,管理网络相关部分。
涉及主要源码位置:
Netd:
/System/netd/*
lib:
/system/core/libsysutils/src
Framework:
/frameworks/base/services/java/com/android/server/NetworkManagementService.java
/frameworks/base/services/java/com/android/server/NativeDaemonConnector.java
框架图~
很不规范,会意即可:
二.ndc
理解一个模块最好方法就是实际应用。netd最为一个deamon,为开发者提供了一个用于管理的接口。就是ndc (nativedeamonconnector),通过adb可以直接使用CommandListener中定义的各类命令。相似的framework层的NativeDeamonConnector是为上层提供的接口。下面是4.2中ndc可用的命令集合:
可用命令表:
例如:
leo@leo-weng:~$ adb shell ndc interface list
| interface | list |
| readrxcounter| readtxcounter | |
| getthrottle<iface><”rx|tx”> | |
| setthrottle<iface><rx_kbps|tx_kbps> | |
| driver<iface><cmd><args> | |
| route<add|remove> <iface> <”default|secondary”><dst> <prefix> <gateway> | |
| list_ttys | |
| ipfwd | status |
| enable|disable | |
| tether | status |
| start-reverse|stop-reverse | |
| stop< | |
| start<addr_1 addr_2 addr_3 addr_4 [addr_2n]> | |
| interface<add|remove|list> | |
| dnslist | |
| dnsset <addr_1> < addr_2> | |
| nat | <enable|disable><iface><extface><addrcnt><nated-ipaddr/prelength> |
| pppd | attach<tty> <addr_local> <add_remote> <dns_1><dns_2> |
| detach<tty> | |
| softap | startap|stopap |
| fwreload<iface> <AP|P2P> | |
| clients | |
| status | |
| set<iface> <SSID> <wpa-psk|wpa2-psk|open> [<key><channel> <preamble><max SCB>] | |
| resolver | setdefaultif<iface> |
| setifdns<iface><dns_1><dns_2> | |
| flushdefaultif | |
| flushif<iface> | |
| bandwith | enable|disable |
| removequota|rq | |
| getquota|gq | |
| getiquota|giq<iface> | |
| setquota|sq<bytes> <iface> | |
| removequota|rqs<iface> | |
| removeiiquota|riq<iface> | |
| setiquota|sq<interface><bytes> | |
| addnaughtyapps|ana<appUid> | |
| removenaughtyapps|rna<appUid> | |
| setgolbalalert|sga<bytes> | |
| debugsettetherglobalalert|dstga<iface0><iface1> | |
| setsharedalert|ssa<bytes> | |
| removesharedalert|rsa | |
| setinterfacealert|sia<iface><bytes> | |
| removeinterfacealert|ria<iface> | |
| gettetherstats|gts<iface0><iface1> | |
| idletimer | enable|disable |
| add|remove<iface><timeout><classLabel> | |
| firewall | enable|disable|is_enabled |
| set_interface_rule<rmnet0><allow|deny> | |
| set_egress_source_rule<ip_addr><allow|deny> | |
| set_egress_dest_rule<ip_addr><port><allow|deny> | |
| set_uid_rule<uid><allow|deny> | |
| clatd | stop|status|start<iface> |
从init.rc文件中可以看到,是系统级的守护进程,手动kill后还会从新启动。
一、文件构成
Netd文件下的源文件模块~组织以及基本实现功能:
======================================================================
Android.mk \Android makefile
CleanSpec.mk
main.cpp \主函数入口
======================================================================
CommandListener.cpp
\监听 frameworek 层命令,通过 tcp
\向 framework 层注册处理函数命令的 cmd
\实现对应命令的处理函数
CommandListener.h
======================================================================
NetlinkManager.cpp \监听 kernel 的 event,通过无连接socket 可以
\理解为udp在 setsocketopt 中实现与 kernel
\的关联监听事件类型
NetlinkManager.h
======================================================================
NetdCommand.cpp \直接调用 frameworkcommand
NetdCommand.h
NetlinkHandler.cpp \继承自 NetlinkListener
\onEvent 函数的实现
\根据 onEvent 函数命令的解析调用不同的处理函数
\并调用 nm->sendBroadcast 广播 ResponseCode
NetlinkHandler.h
NetdConstants.cpp \全局路径 为操作 iptable 的函数提供
NetdConstants.h
======================================================================
List.h
logwrapper.c
ndc.c \NativeDaemonConnector
oem_iptables_hook.cpp \iptable 系统调用 hook
oem_iptables_hook.h
======================================================================
DnsProxyListener.cpp \DNS 解析相关独立部分
DnsProxyListener.h
MdnsSdListener.cpp \Multi-DNS 解析独立部分
MdnsSdListener.h
======================================================================
IdletimerController.cpp \具体的要注册给 Framework 的 cmd 的处理部分
IdletimerController.h
BandwidthController.cpp
BandwidthController.h
NatController.cpp
NatController.h
PanController.cpp
PanController.h
PppController.cpp
PppController.h
ResolverController.cpp
ResolverController.h
ResponseCode.h
SecondaryTableController.cpp
SecondaryTableController.h
SoftapController.cpp
SoftapController.h
TetherController.cpp
TetherController.h
ThrottleController.cpp
ThrottleController.h
======================================================================
二、文件中最主要的类是:
管理类:
CommandListener、NetlinkManager、MdnsSdListener、DnsProxyListener
处理类:
ResponseCode、Netlinkhandler、 CommandListener::XXXCmd
相关类:
Socketlistener、SocketClient、NetlinkListener、NetlinkEvent、FrameworkListener、FrameworkCommand、FrameworkClient
下面是一些UML,也不规范,大概意思明白就可以~~ 在后面还会详细的介绍。
(1)CommandListener、NetlinkHandler
(2)命令的上传/下达
(3)各种cmd功能
三.基本实例
就拿手机的soft-ap功能来举例吧,以使用 softap(Soft Access Point)为例。softap可以为wlan接入设备共享手机使用的移动网络,笔记本接入softap,可以通过手机的 3g 上网。以htc 中的 WLAN 热点的 app,如下图所示。
1)设置并开启 softap(便携式 WLAN 热点)
在 Setting 选项中进行设置,该设置功能的开启将涉及相关的UI 路径下相关的文件,packages /apps/Settings/src/com/android/settings/wifi 路径下,程序中的 WifiApEnabler. OnPreferenceChange 里, 设置 soft ap 在 wifiApDialog.onClick 里。
2)调用相应的处理函数,通过 socket 向 netd 下发命令
应用层通过ConnectivityManager接口,最终走到 Framework 层的 NetworkManagementService.startAccessPoint 函数。
- //NetworkManagementService.java
- @Override
- public void startAccessPoint(
- WifiConfiguration wifiConfig, String wlanIface, String softapIface) {
- mContext.enforceCallingOrSelfPermission(CONNECTIVITY_INTERNAL, TAG);
- try {
- wifiFirmwareReload(wlanIface, "AP");
- if (wifiConfig == null) {
- mConnector.execute("softap", "set", wlanIface, softapIface);
- } else {
- mConnector.execute("softap", "set", wlanIface, softapIface, wifiConfig.SSID,
- getSecurityType(wifiConfig), wifiConfig.preSharedKey);
- }
- mConnector.execute("softap", "startap");
- } catch (NativeDaemonConnectorException e) {
- throw e.rethrowAsParcelableException();
- }
- }
NetworkManagementService 通过NativeDaemonConnector, 这里用来和系统的 netd 守护进程通过 socket 进行通信,发送命令。3) netd 接受命令并进行处理,并将处理结果反馈给 Framework 层。
Netd 中 softap 控制的功能在/system/netd/SoftapController.{h,cpp}里, 具体的执行是通过调用网卡驱动的 ap 功能。NetworkManagementService 通过 NativeDaemonConnector 向下通过 socket 向下 softap 相关的字符串命令,NativeDaemonConnector 中维护着与 Netd 中 CommandListener 相关联的内部socket 线程。两者可以通过它相互通信。
- //CommandListener.cpp
- int CommandListener::SoftapCmd::runCommand(SocketClient *cli,
- int argc, char **argv) {
- int rc = 0, flag = 0;
- char *retbuf = NULL;
- if (argc < 2) {
- cli->sendMsg(ResponseCode::CommandSyntaxError, "Softap Missing argument", false);
- return 0;
- }
- if (!strcmp(argv[1], "start")) {
- rc = sSoftapCtrl->startDriver(argv[2]);
- } else if (!strcmp(argv[1], "stop")) {
- rc = sSoftapCtrl->stopDriver(argv[2]);
- } else if (!strcmp(argv[1], "startap")) {
- rc = sSoftapCtrl->startSoftap();
- } else if (!strcmp(argv[1], "stopap")) {
- rc = sSoftapCtrl->stopSoftap();
- } else if (!strcmp(argv[1], "fwreload")) {
- rc = sSoftapCtrl->fwReloadSoftap(argc, argv);
- } else if (!strcmp(argv[1], "clients")) {
- rc = sSoftapCtrl->clientsSoftap(&retbuf);
- if (!rc) {
- cli->sendMsg(ResponseCode::CommandOkay, retbuf, false);
- free(retbuf);
- return 0;
- }
- } else if (!strcmp(argv[1], "status")) {
- ……
- ……
4) Framework 受到回馈的信息,并通知 UI 处理结果,呈现给用户。
相关的 Log 实例:
D/NetworkManagementService( 1760): ===================startAccessPoint
commandLine=softap set wlan0 wlan0 "HTC Portable Hotspot E2D4" "wpa2-psk" *** 0 0 5 0
D/NetdConnector( 1760): SND -> {softap set wlan0 wlan0 "HTC Portable Hotspot E2D4""wpa2-psk" "3FF8F7531FBB9" 0 0 5 0} {null}
D/NetdConnector( 1760): already send Command (Wait Response)
D/NetdConnector( 1760): listenToSocket read--: (31,0)
D/NetdConnector( 1760): RCV <- {200 Softap operation succeeded}
D/NetdConnector( 1760): RSP <- {200 Softap operation succeeded}
D/NetdConnector( 1760): No Resp times=0
D/NetdConnector( 1760): finish send Command (complete)
D/NetdConnector( 1760): SND -> {softap startap} {null}
D/NetdConnector( 1760): already send Command (Wait Response)
D/NetdConnector( 1760): listenToSocket read--: (31,0)
D/NetdConnector( 1760): RCV <- {600 Iface linkstate wlan0 down}
D/NetdConnector( 1760): listenToSocket read--: (24,0)
D/NetdConnector( 1760): RCV <- {600 Iface added m.wlan0}
D/NetdConnector( 1760): listenToSocket read--: (33,0)
D/NetdConnector( 1760): RCV <- {600 Iface linkstate m.wlan0 down}
D/NetdConnector( 1760): listenToSocket read--: (31,0)
D/NetdConnector( 1760): RCV <- {600 Iface linkstate m.wlan0 up}
D/NetdConnector( 1760): listenToSocket read--: (31,0)
D/NetdConnector( 1760): RCV <- {200 Softap operation succeeded}
D/NetdConnector( 1760): RSP <- {200 Softap operation succeeded}
D/NetdConnector( 1760): No Resp times=0
D/NetdConnector( 1760): finish send Command (complete)
D/NetdConnector( 1760): SND -> {softap setMaxConns 5} {null}
D/NetdConnector( 1760): already send Command (Wait Response)
D/NetdConnector( 1760): listenToSocket read--: (31,0)
D/NetdConnector( 1760): RCV <- {200 Softap operation succeeded}
D/NetdConnector( 1760): RSP <- {200 Softap operation succeeded}
D/NetdConnector( 1760): No Resp times=0
D/NetdConnector( 1760): finish send Command (complete)
D/NetdConnector( 1760): listenToSocket read--: (29,0)
D/NetdConnector( 1760): RCV <- {600 Iface linkstate wlan0 up}
D/NetdConnector( 1760): listenToSocket read--: (29,0)
D/NetdConnector( 1760): RCV <- {600 Iface linkstate wlan0 up}
D/NetdConnector( 1760): listenToSocket read--: (29,0)
D/NetdConnector( 1760): RCV <- {600 Iface linkstate wlan0 up}
D/NetdConnector( 1760): SND -> {interface getcfg wlan0} {null}
D/NetdConnector( 1760): listenToSocket read--: (65,0)
D/NetdConnector( 1760): already send Command (Wait Response)
D/NetdConnector( 1760): RCV <- {213 1c:b0:94:36:bf:cb 0.0.0.0 0 [up broadcast running multicast]}
D/NetdConnector( 1760): RSP <- {213 1c:b0:94:36:bf:cb 0.0.0.0 0 [up broadcast runningmulticast]}D/NetworkManagementService( 1760): rsp <213 1c:b0:94:36:bf:cb 0.0.0.0 0 [up broadcast running multicast]>
D/NetworkManagementService( 1760): flags <[up broadcast running multicast]>
D/NetdConnector( 1760): SND -> {interface setcfg wlan0 192.168.1.1 24 [up]} {null}
D/NetdConnector( 1760): listenToSocket read--: (32,0)
D/NetdConnector( 1760): RCV <- {200 Interface configuration set}
D/NetdConnector( 1760): already send Command (Wait Response)
D/NetdConnector( 1760): RSP <- {200 Interface configuration set}
D/NetdConnector( 1760): No Resp times=0
D/NetdConnector( 1760): finish send Command (complete)
E/NetworkManagementService( 1760): DEBUG softap setmaclist: softap setmaclist 0 "" ""
D/NetdConnector( 1760): SND -> {softap setmaclist 0 "" ""} {null}
D/NetdConnector( 1760): already send Command (Wait Response)
D/NetdConnector( 1760): listenToSocket read--: (31,0)
D/NetdConnector( 1760): RCV <- {200 Softap operation succeeded}
D/NetdConnector( 1760): RSP <- {200 Softap operation succeeded}
D/NetdConnector( 1760): No Resp times=0
D/NetdConnector( 1760): finish send Command (complete)
D/NetdConnector( 1760): SND -> {tether interface add wlan0} {null}
D/NetdConnector( 1760): already send Command (Wait Response)
D/NetdConnector( 1760): listenToSocket read--: (31,0)
D/NetdConnector( 1760): RCV <- {200 Tether operation succeeded}
D/NetdConnector( 1760): RSP <- {200 Tether operation succeeded}
D/NetdConnector( 1760): No Resp times=0
D/NetdConnector( 1760): finish send Command (complete)
D/NetdConnector( 1760): SND -> {softap getassoclist} {null}
D/NetdConnector( 1760): already send Command (Wait Response)
D/NetdConnector( 1760): listenToSocket read--: (7,0)
D/NetdConnector( 1760): RCV <- {222 0|}
D/NetdConnector( 1760): RSP <- {222 0|}
D/NetdConnector( 1760): No Resp times=0
D/NetdConnector( 1760): finish send Command (complete)
E/NetworkManagementService( 1760): DEBUG softap getassoclist: 0|
D/NetdConnector( 1760): SND -> {ipfwd enable} {null}
D/NetdConnector( 1760): already send Command (Wait Response)
D/NetdConnector( 1760): listenToSocket read--: (30,0)
D/NetdConnector( 1760): RCV <- {200 ipfwd operation succeeded}
D/NetdConnector( 1760): RSP <- {200 ipfwd operation succeeded}
D/NetdConnector( 1760): No Resp times=0
D/NetdConnector( 1760): finish send Command (complete)
D/NetworkManagementService( 1760): stopTethering
D/NetdConnector( 1760): SND -> {tether status} {null}
D/NetdConnector( 1760): listenToSocket read--: (31,0)
转载来自:https://blog.csdn.net/xiaokeweng/article/details/8130218
https://blog.csdn.net/xiaokeweng/article/details/8135535
系列文章:https://blog.csdn.net/feng1072218457/article/details/77913373
