gecko-dev/dom/system/gonk/net_worker.js
Alexandre Lissy 5975d90154 Bug 875390 - Add MMSC and/or MMS Proxy specific host routes via MMS APN. r=vyang
MMS sending has been failing because often the default network route was
not going through the MMS APN. This commit adds specific host route via
the correct network interface for either MMSC or MMS proxy depending on
the carrier information. We also perform DNS resolution to cope with
MMSC/proxy that are using FQDN.
2013-05-31 10:14:45 +02:00

690 lines
19 KiB
JavaScript

/* Copyright 2012 Mozilla Foundation and Mozilla contributors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
"use strict";
const DEBUG = false;
const PERSIST_SYS_USB_CONFIG_PROPERTY = "persist.sys.usb.config";
const SYS_USB_CONFIG_PROPERTY = "sys.usb.config";
const SYS_USB_STATE_PROPERTY = "sys.usb.state";
const USB_FUNCTION_RNDIS = "rndis";
const USB_FUNCTION_ADB = "adb";
const kNetdInterfaceChangedTopic = "netd-interface-change";
const kNetdBandwidthControlTopic = "netd-bandwidth-control";
// Retry 20 times (2 seconds) for usb state transition.
const USB_FUNCTION_RETRY_TIMES = 20;
// Check "sys.usb.state" every 100ms.
const USB_FUNCTION_RETRY_INTERVAL = 100;
// 1xx - Requested action is proceeding
const NETD_COMMAND_PROCEEDING = 100;
// 2xx - Requested action has been successfully completed
const NETD_COMMAND_OKAY = 200;
// 4xx - The command is accepted but the requested action didn't
// take place.
const NETD_COMMAND_FAIL = 400;
// 5xx - The command syntax or parameters error
const NETD_COMMAND_ERROR = 500;
// 6xx - Unsolicited broadcasts
const NETD_COMMAND_UNSOLICITED = 600;
// Broadcast messages
const NETD_COMMAND_INTERFACE_CHANGE = 600;
const NETD_COMMAND_BANDWIDTH_CONTROLLER = 601;
importScripts("systemlibs.js");
function netdResponseType(code) {
return Math.floor(code/100)*100;
}
function isBroadcastMessage(code) {
let type = netdResponseType(code);
return (type == NETD_COMMAND_UNSOLICITED);
}
function isError(code) {
let type = netdResponseType(code);
return (type != NETD_COMMAND_PROCEEDING && type != NETD_COMMAND_OKAY);
}
function isComplete(code) {
let type = netdResponseType(code);
return (type != NETD_COMMAND_PROCEEDING);
}
function sendBroadcastMessage(code, reason) {
let topic = null;
switch (code) {
case NETD_COMMAND_INTERFACE_CHANGE:
topic = "netd-interface-change";
break;
case NETD_COMMAND_BANDWIDTH_CONTROLLER:
topic = "netd-bandwidth-control";
break;
}
if (topic) {
postMessage({id: 'broadcast', topic: topic, reason: reason});
}
}
let gWifiFailChain = [stopSoftAP,
setIpForwardingEnabled,
stopTethering];
function wifiTetheringFail(params) {
// Notify the main thread.
postMessage(params);
// If one of the stages fails, we try roll back to ensure
// we don't leave the network systems in limbo.
// This parameter is used to disable ipforwarding.
params.enable = false;
chain(params, gWifiFailChain, null);
}
function wifiTetheringSuccess(params) {
// Notify the main thread.
postMessage(params);
return true;
}
let gUSBFailChain = [stopSoftAP,
setIpForwardingEnabled,
stopTethering];
function usbTetheringFail(params) {
// Notify the main thread.
postMessage(params);
// Try to roll back to ensure
// we don't leave the network systems in limbo.
let functionChain = [setIpForwardingEnabled,
stopTethering];
// This parameter is used to disable ipforwarding.
params.enable = false;
chain(params, gUSBFailChain, null);
// Disable usb rndis function.
enableUsbRndis({enable: false, report: false});
}
function usbTetheringSuccess(params) {
// Notify the main thread.
postMessage(params);
return true;
}
function networkInterfaceStatsFail(params) {
// Notify the main thread.
postMessage(params);
return true;
}
function networkInterfaceStatsSuccess(params) {
// Notify the main thread.
params.txBytes = parseFloat(params.resultReason);
postMessage(params);
return true;
}
/**
* Get network interface properties from the system property table.
*
* @param ifname
* Name of the network interface.
*/
function getIFProperties(ifname) {
return {
ifname: ifname,
gateway_str: libcutils.property_get("net." + ifname + ".gw"),
dns1_str: libcutils.property_get("net." + ifname + ".dns1"),
dns2_str: libcutils.property_get("net." + ifname + ".dns2"),
};
}
/**
* Routines accessible to the main thread.
*/
/**
* Dispatch a message from the main thread to a function.
*/
self.onmessage = function onmessage(event) {
let message = event.data;
if (DEBUG) debug("received message: " + JSON.stringify(message));
// We have to keep the id in message. It will be used when post the result
// to NetworkManager later.
let ret = self[message.cmd](message);
if (!message.isAsync) {
postMessage({id: message.id, ret: ret});
}
};
/**
* Set default route and DNS servers for given network interface.
*/
function setDefaultRouteAndDNS(options) {
if (options.oldIfname) {
libnetutils.ifc_remove_default_route(options.oldIfname);
}
let ifprops = getIFProperties(options.ifname);
let gateway_str = options.gateway_str || ifprops.gateway_str;
let dns1_str = options.dns1_str || ifprops.dns1_str;
let dns2_str = options.dns2_str || ifprops.dns2_str;
let gateway = netHelpers.stringToIP(gateway_str);
libnetutils.ifc_set_default_route(options.ifname, gateway);
libcutils.property_set("net.dns1", dns1_str);
libcutils.property_set("net.dns2", dns2_str);
// Bump the DNS change property.
let dnschange = libcutils.property_get("net.dnschange", "0");
libcutils.property_set("net.dnschange", (parseInt(dnschange, 10) + 1).toString());
}
/**
* Run DHCP and set default route and DNS servers for a given
* network interface.
*/
function runDHCPAndSetDefaultRouteAndDNS(options) {
let dhcp = libnetutils.dhcp_do_request(options.ifname);
dhcp.ifname = options.ifname;
dhcp.oldIfname = options.oldIfname;
//TODO this could be race-y... by the time we've finished the DHCP request
// and are now fudging with the routes, another network interface may have
// come online that's preferred...
setDefaultRouteAndDNS(dhcp);
}
/**
* Remove default route for given network interface.
*/
function removeDefaultRoute(options) {
libnetutils.ifc_remove_default_route(options.ifname);
}
/**
* Add host route for given network interface.
*/
function addHostRoute(options) {
for (let i = 0; i < options.hostnames.length; i++) {
libnetutils.ifc_add_route(options.ifname, options.hostnames[i], 32, options.gateway);
}
}
/**
* Remove host route for given network interface.
*/
function removeHostRoute(options) {
for (let i = 0; i < options.hostnames.length; i++) {
libnetutils.ifc_remove_route(options.ifname, options.hostnames[i], 32, options.gateway);
}
}
function removeNetworkRoute(options) {
let ipvalue = netHelpers.stringToIP(options.ip);
let netmaskvalue = netHelpers.stringToIP(options.netmask);
let subnet = netmaskvalue & ipvalue;
let dst = netHelpers.ipToString(subnet);
let prefixLength = netHelpers.getMaskLength(netmaskvalue);
let gateway = "0.0.0.0";
libnetutils.ifc_remove_default_route(options.ifname);
libnetutils.ifc_remove_route(options.ifname, dst, prefixLength, gateway);
}
let gCommandQueue = [];
let gCurrentCommand = null;
let gCurrentCallback = null;
let gPending = false;
/**
* Handle received data from netd.
*/
function onNetdMessage(data) {
let result = "";
let reason = "";
// The return result is separated from the reason by a space character.
let i = 0;
while (i < data.length) {
let octet = data[i];
i += 1;
if (octet == 32) {
break;
}
result += String.fromCharCode(octet);
}
let code = parseInt(result);
for (; i < data.length; i++) {
let octet = data[i];
reason += String.fromCharCode(octet);
}
// Set pending to false before we handle next command.
debug("Receiving '" + gCurrentCommand + "' command response from netd.");
debug(" ==> Code: " + code + " Reason: " + reason);
// 1xx response code regards as command is proceeding, we need to wait for
// final response code such as 2xx, 4xx and 5xx before sending next command.
if (isBroadcastMessage(code)) {
sendBroadcastMessage(code, reason);
nextNetdCommand();
return;
}
if (isComplete(code)) {
gPending = false;
}
if (gCurrentCallback) {
gCurrentCallback(isError(code), {code: code, reason: reason});
}
// Handling pending commands if any.
if (isComplete(code)) {
nextNetdCommand();
}
}
/**
* Send command to netd.
*/
function doCommand(command, callback) {
debug("Preparing to send '" + command + "' command...");
gCommandQueue.push([command, callback]);
return nextNetdCommand();
}
function nextNetdCommand() {
if (!gCommandQueue.length || gPending) {
return true;
}
[gCurrentCommand, gCurrentCallback] = gCommandQueue.shift();
debug("Sending '" + gCurrentCommand + "' command to netd.");
gPending = true;
return postNetdCommand(gCurrentCommand);
}
function setInterfaceUp(params, callback) {
let command = "interface setcfg " + params.ifname + " " + params.ip + " " +
params.prefix + " " + "[" + params.link + "]";
return doCommand(command, callback);
}
function setInterfaceDown(params, callback) {
let command = "interface setcfg " + params.ifname + " " + params.ip + " " +
params.prefix + " " + "[" + params.link + "]";
return doCommand(command, callback);
}
function setIpForwardingEnabled(params, callback) {
let command;
if (params.enable) {
command = "ipfwd enable";
} else {
command = "ipfwd disable";
}
return doCommand(command, callback);
}
function startTethering(params, callback) {
let command = "tether start " + params.startIp + " " + params.endIp;
return doCommand(command, callback);
}
function stopTethering(params, callback) {
let command = "tether stop";
return doCommand(command, callback);
}
function tetherInterface(params, callback) {
let command = "tether interface add " + params.ifname;
return doCommand(command, callback);
}
function untetherInterface(params, callback) {
let command = "tether interface remove " + params.ifname;
return doCommand(command, callback);
}
function setDnsForwarders(params, callback) {
let command = "tether dns set " + params.dns1 + " " + params.dns2;
return doCommand(command, callback);
}
function enableNat(params, callback) {
let command = "nat enable " + params.internalIfname + " " +
params.externalIfname + " " + "0";
return doCommand(command, callback);
}
function disableNat(params, callback) {
let command = "nat disable " + params.internalIfname + " " +
params.externalIfname + " " + "0";
return doCommand(command, callback);
}
function wifiFirmwareReload(params, callback) {
let command = "softap fwreload " + params.ifname + " " + params.mode;
return doCommand(command, callback);
}
function startAccessPointDriver(params, callback) {
let command = "softap start " + params.ifname;
return doCommand(command, callback);
}
function stopAccessPointDriver(params, callback) {
let command = "softap stop " + params.ifname;
return doCommand(command, callback);
}
function startSoftAP(params, callback) {
let command = "softap startap";
return doCommand(command, callback);
}
function stopSoftAP(params, callback) {
let command = "softap stopap";
return doCommand(command, callback);
}
function getRxBytes(params, callback) {
let command = "interface readrxcounter " + params.ifname;
return doCommand(command, callback);
}
function getTxBytes(params, callback) {
params.rxBytes = parseFloat(params.resultReason);
let command = "interface readtxcounter " + params.ifname;
return doCommand(command, callback);
}
function escapeQuote(str) {
str = str.replace(/\\/g, "\\\\");
return str.replace(/"/g, "\\\"");
}
// The command format is "softap set wlan0 wl0.1 hotspot456 open null 6 0 8".
function setAccessPoint(params, callback) {
let command = "softap set " + params.ifname +
" " + params.wifictrlinterfacename +
" \"" + escapeQuote(params.ssid) + "\"" +
" " + params.security +
" \"" + escapeQuote(params.key) + "\"" +
" " + "6 0 8";
return doCommand(command, callback);
}
/**
* Modify usb function's property to turn on USB RNDIS function
*/
function enableUsbRndis(params) {
let report = params.report;
let retry = 0;
// For some reason, rndis doesn't play well with diag,modem,nmea.
// So when turning rndis on, we set sys.usb.config to either "rndis"
// or "rndis,adb". When turning rndis off, we go back to
// persist.sys.usb.config.
//
// On the otoro/unagi, persist.sys.usb.config should be one of:
//
// diag,modem,nmea,mass_storage
// diag,modem,nmea,mass_storage,adb
//
// When rndis is enabled, sys.usb.config should be one of:
//
// rdnis
// rndis,adb
//
// and when rndis is disabled, it should revert to persist.sys.usb.config
let currentConfig = libcutils.property_get(SYS_USB_CONFIG_PROPERTY);
let configFuncs = currentConfig.split(",");
let persistConfig = libcutils.property_get(PERSIST_SYS_USB_CONFIG_PROPERTY);
let persistFuncs = persistConfig.split(",");
if (params.enable) {
configFuncs = [USB_FUNCTION_RNDIS];
if (persistFuncs.indexOf(USB_FUNCTION_ADB) >= 0) {
configFuncs.push(USB_FUNCTION_ADB);
}
} else {
// We're turning rndis off, revert back to the persist setting.
// adb will already be correct there, so we don't need to do any
// further adjustments.
configFuncs = persistFuncs;
}
let newConfig = configFuncs.join(",");
if (newConfig != currentConfig) {
libcutils.property_set(SYS_USB_CONFIG_PROPERTY, newConfig);
}
// Trigger the timer to check usb state and report the result to NetworkManager.
if (report) {
setTimeout(checkUsbRndisState, USB_FUNCTION_RETRY_INTERVAL, params);
}
function checkUsbRndisState(params) {
let currentState = libcutils.property_get(SYS_USB_STATE_PROPERTY);
let stateFuncs = currentState.split(",");
let rndisPresent = (stateFuncs.indexOf(USB_FUNCTION_RNDIS) >= 0);
if (params.enable == rndisPresent) {
params.result = true;
postMessage(params);
retry = 0;
return;
}
if (retry < USB_FUNCTION_RETRY_TIMES) {
retry++;
setTimeout(checkUsbRndisState, USB_FUNCTION_RETRY_INTERVAL, params);
return;
}
params.result = false;
postMessage(params);
};
return true;
}
function dumpParams(params, type) {
if (!DEBUG) {
return;
}
debug("Dump params:");
debug(" ifname: " + params.ifname);
debug(" ip: " + params.ip);
debug(" link: " + params.link);
debug(" prefix: " + params.prefix);
debug(" startIp: " + params.startIp);
debug(" endIp: " + params.endIp);
debug(" dnsserver1: " + params.dns1);
debug(" dnsserver2: " + params.dns2);
debug(" internalIfname: " + params.internalIfname);
debug(" externalIfname: " + params.externalIfname);
if (type == "WIFI") {
debug(" wifictrlinterfacename: " + params.wifictrlinterfacename);
debug(" ssid: " + params.ssid);
debug(" security: " + params.security);
debug(" key: " + params.key);
}
}
function chain(params, funcs, onError) {
let i = -1;
let f = funcs[i];
function next(error, result) {
params.resultCode = result.code;
params.resultReason = result.reason;
if (error) {
if (onError) {
params.error = error;
params.state = f.name;
onError(params);
}
return;
}
i += 1;
f = funcs[i];
if (f) {
let ret = f(params, next);
if (!ret && onError) {
params.error = true;
params.state = f.name;
onError(params);
}
}
};
next(null, {code: NETD_COMMAND_ERROR, reason: ""});
}
let gWifiEnableChain = [wifiFirmwareReload,
startAccessPointDriver,
setAccessPoint,
startSoftAP,
setInterfaceUp,
tetherInterface,
setIpForwardingEnabled,
startTethering,
setDnsForwarders,
enableNat,
wifiTetheringSuccess];
let gWifiDisableChain = [stopSoftAP,
stopAccessPointDriver,
wifiFirmwareReload,
disableNat,
untetherInterface,
setIpForwardingEnabled,
stopTethering,
wifiTetheringSuccess];
/**
* handling main thread's enable/disable WiFi Tethering request
*/
function setWifiTethering(params) {
let enable = params.enable;
let interfaceProperties = getIFProperties(params.externalIfname);
if (interfaceProperties.dns1_str) {
params.dns1 = interfaceProperties.dns1_str;
}
if (interfaceProperties.dns2_str) {
params.dns2 = interfaceProperties.dns2_str;
}
dumpParams(params, "WIFI");
if (enable) {
// Enable Wifi tethering.
debug("Starting Wifi Tethering on " +
params.internalIfname + "<->" + params.externalIfname);
chain(params, gWifiEnableChain, wifiTetheringFail);
} else {
// Disable Wifi tethering.
debug("Stopping Wifi Tethering on " +
params.internalIfname + "<->" + params.externalIfname);
chain(params, gWifiDisableChain, wifiTetheringFail);
}
return true;
}
let gUSBEnableChain = [setInterfaceUp,
enableNat,
setIpForwardingEnabled,
tetherInterface,
startTethering,
setDnsForwarders,
usbTetheringSuccess];
let gUSBDisableChain = [disableNat,
setIpForwardingEnabled,
stopTethering,
untetherInterface,
usbTetheringSuccess];
/**
* handling main thread's enable/disable USB Tethering request
*/
function setUSBTethering(params) {
let enable = params.enable;
let interfaceProperties = getIFProperties(params.externalIfname);
if (interfaceProperties.dns1_str) {
params.dns1 = interfaceProperties.dns1_str;
}
if (interfaceProperties.dns2_str) {
params.dns2 = interfaceProperties.dns2_str;
}
dumpParams(params, "USB");
if (enable) {
// Enable USB tethering.
debug("Starting USB Tethering on " +
params.internalIfname + "<->" + params.externalIfname);
chain(params, gUSBEnableChain, usbTetheringFail);
} else {
// Disable USB tetehring.
debug("Stopping USB Tethering on " +
params.internalIfname + "<->" + params.externalIfname);
chain(params, gUSBDisableChain, usbTetheringFail);
}
return true;
}
let gNetworkInterfaceStatsChain = [getRxBytes,
getTxBytes,
networkInterfaceStatsSuccess];
/**
* handling main thread's get network interface stats request
*/
function getNetworkInterfaceStats(params) {
debug("getNetworkInterfaceStats: " + params.ifname);
params.rxBytes = -1;
params.txBytes = -1;
params.date = new Date();
chain(params, gNetworkInterfaceStatsChain, networkInterfaceStatsFail);
return true;
}
let debug;
if (DEBUG) {
debug = function (s) {
dump("Network Worker: " + s + "\n");
};
} else {
debug = function (s) {};
}