/* * Copyright (C) 2020 The Android Open Source Project * * 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. */ package com.android.internal.telephony; import android.net.Uri; import android.util.ArraySet; import android.util.Log; import android.util.Pair; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.List; import java.util.Set; import java.util.stream.Collectors; /** * Utility methods for parsing parts of {@link android.telephony.ims.SipMessage}s. * See RFC 3261 for more information. * @hide */ // Note: This is lightweight in order to avoid a full SIP stack import in frameworks/base. public class SipMessageParsingUtils { private static final String TAG = "SipMessageParsingUtils"; // "Method" in request-line // Request-Line = Method SP Request-URI SP SIP-Version CRLF private static final String[] SIP_REQUEST_METHODS = new String[] {"INVITE", "ACK", "OPTIONS", "BYE", "CANCEL", "REGISTER", "PRACK", "SUBSCRIBE", "NOTIFY", "PUBLISH", "INFO", "REFER", "MESSAGE", "UPDATE"}; // SIP Version 2.0 (corresponding to RCS 3261), set in "SIP-Version" of Status-Line and // Request-Line // // Request-Line = Method SP Request-URI SP SIP-Version CRLF // Status-Line = SIP-Version SP Status-Code SP Reason-Phrase CRLF private static final String SIP_VERSION_2 = "SIP/2.0"; // headers are formatted Key:Value private static final String HEADER_KEY_VALUE_SEPARATOR = ":"; // Multiple of the same header can be concatenated and put into one header Key:Value pair, for // example "v: XX1;branch=YY1,XX2;branch=YY2". This needs to be treated as two "v:" headers. private static final String SUBHEADER_VALUE_SEPARATOR = ","; // SIP header parameters have the format ";paramName=paramValue" private static final String PARAM_SEPARATOR = ";"; // parameters are formatted paramName=ParamValue private static final String PARAM_KEY_VALUE_SEPARATOR = "="; // The via branch parameter definition private static final String BRANCH_PARAM_KEY = "branch"; // via header key private static final String VIA_SIP_HEADER_KEY = "via"; // compact form of the via header key private static final String VIA_SIP_HEADER_KEY_COMPACT = "v"; // call-id header key private static final String CALL_ID_SIP_HEADER_KEY = "call-id"; // compact form of the call-id header key private static final String CALL_ID_SIP_HEADER_KEY_COMPACT = "i"; // from header key private static final String FROM_HEADER_KEY = "from"; // compact form of the from header key private static final String FROM_HEADER_KEY_COMPACT = "f"; // to header key private static final String TO_HEADER_KEY = "to"; // compact form of the to header key private static final String TO_HEADER_KEY_COMPACT = "t"; // The tag parameter found in both the from and to headers private static final String TAG_PARAM_KEY = "tag"; // accept-contact header key private static final String ACCEPT_CONTACT_HEADER_KEY = "accept-contact"; // compact form of the accept-contact header key private static final String ACCEPT_CONTACT_HEADER_KEY_COMPACT = "a"; /** * @return true if the SIP message start line is considered a request (based on known request * methods). */ public static boolean isSipRequest(String startLine) { String[] splitLine = splitStartLineAndVerify(startLine); if (splitLine == null) return false; return verifySipRequest(splitLine); } /** * @return true if the SIP message start line is considered a response. */ public static boolean isSipResponse(String startLine) { String[] splitLine = splitStartLineAndVerify(startLine); if (splitLine == null) return false; return verifySipResponse(splitLine); } /** * Return the via branch parameter, which is used to identify the transaction ID (request and * response pair) in a SIP transaction. * @param headerString The string containing the headers of the SIP message. */ public static String getTransactionId(String headerString) { // search for Via: or v: parameter, we only care about the first one. List> headers = parseHeaders(headerString, true, VIA_SIP_HEADER_KEY, VIA_SIP_HEADER_KEY_COMPACT); for (Pair header : headers) { // Headers can also be concatenated together using a "," between each header value. // format becomes v: XX1;branch=YY1,XX2;branch=YY2. Need to extract only the first ID's // branch param YY1. String[] subHeaders = header.second.split(SUBHEADER_VALUE_SEPARATOR); for (String subHeader : subHeaders) { String paramValue = getParameterValue(subHeader, BRANCH_PARAM_KEY); if (paramValue == null) continue; return paramValue; } } return null; } /** * Search a header's value for a specific parameter. * @param headerValue The header key's value. * @param parameterKey The parameter key we are looking for. * @return The value associated with the specified parameter key or {@link null} if that key is * not found. */ private static String getParameterValue(String headerValue, String parameterKey) { String[] params = headerValue.split(PARAM_SEPARATOR); if (params.length < 2) { return null; } // by spec, each param can only appear once in a header. for (String param : params) { String[] pair = param.split(PARAM_KEY_VALUE_SEPARATOR); if (pair.length < 2) { // ignore info before the first parameter continue; } if (pair.length > 2) { Log.w(TAG, "getParameterValue: unexpected parameter" + Arrays.toString(pair)); } // Trim whitespace in parameter pair[0] = pair[0].trim(); pair[1] = pair[1].trim(); if (parameterKey.equalsIgnoreCase(pair[0])) { return pair[1]; } } return null; } /** * Return the call-id header key's associated value. * @param headerString The string containing the headers of the SIP message. */ public static String getCallId(String headerString) { // search for the call-Id header, there should only be one in the headers. List> headers = parseHeaders(headerString, true, CALL_ID_SIP_HEADER_KEY, CALL_ID_SIP_HEADER_KEY_COMPACT); return !headers.isEmpty() ? headers.get(0).second : null; } /** * @return Return the from header's tag parameter or {@code null} if it doesn't exist. */ public static String getFromTag(String headerString) { // search for the from header, there should only be one in the headers. List> headers = parseHeaders(headerString, true, FROM_HEADER_KEY, FROM_HEADER_KEY_COMPACT); if (headers.isEmpty()) { return null; } // There should only be one from header in the SIP message return getParameterValue(headers.get(0).second, TAG_PARAM_KEY); } /** * @return Return the to header's tag parameter or {@code null} if it doesn't exist. */ public static String getToTag(String headerString) { // search for the to header, there should only be one in the headers. List> headers = parseHeaders(headerString, true, TO_HEADER_KEY, TO_HEADER_KEY_COMPACT); if (headers.isEmpty()) { return null; } // There should only be one from header in the SIP message return getParameterValue(headers.get(0).second, TAG_PARAM_KEY); } /** * Validate that the start line is correct and split into its three segments. * @param startLine The start line to verify and split. * @return The split start line, which will always have three segments. */ public static String[] splitStartLineAndVerify(String startLine) { String[] splitLine = startLine.split(" ", 3); if (isStartLineMalformed(splitLine)) return null; return splitLine; } /** * @return All feature tags starting with "+" in the Accept-Contact header. */ public static Set getAcceptContactFeatureTags(String headerString) { List> headers = SipMessageParsingUtils.parseHeaders(headerString, false, ACCEPT_CONTACT_HEADER_KEY, ACCEPT_CONTACT_HEADER_KEY_COMPACT); if (headerString.isEmpty()) { return Collections.emptySet(); } Set featureTags = new ArraySet<>(); for (Pair header : headers) { String[] splitParams = header.second.split(PARAM_SEPARATOR); if (splitParams.length < 2) { continue; } // Start at 1 here, since the first entry is the header value and not params. // We only care about IMS feature tags here, so filter tags with a "+" Set fts = Arrays.asList(splitParams).subList(1, splitParams.length).stream() .map(String::trim).filter(p -> p.startsWith("+")).collect(Collectors.toSet()); for (String ft : fts) { String[] paramKeyValue = ft.split(PARAM_KEY_VALUE_SEPARATOR, 2); if (paramKeyValue.length < 2) { featureTags.add(ft); continue; } // Splits keys like +a="b,c" into +a="b" and +a="c" String[] splitValue = splitParamValue(paramKeyValue[1]); for (String value : splitValue) { featureTags.add(paramKeyValue[0] + PARAM_KEY_VALUE_SEPARATOR + value); } } } return featureTags; } /** * Takes a string such as "\"a,b,c,d\"" and splits it by "," into a String array of * [\"a\", \"b\", \"c\", \"d\"] */ private static String[] splitParamValue(String paramValue) { if (!paramValue.startsWith("\"") && !paramValue.endsWith("\"")) { return new String[] {paramValue}; } // Remove quotes on outside paramValue = paramValue.substring(1, paramValue.length() - 1); String[] splitValues = paramValue.split(","); for (int i = 0; i < splitValues.length; i++) { // Encapsulate each split value in its own quotations. splitValues[i] = "\"" + splitValues[i] + "\""; } return splitValues; } private static boolean isStartLineMalformed(String[] startLine) { if (startLine == null || startLine.length == 0) { return true; } // start lines contain three segments separated by spaces (SP): // Request-Line = Method SP Request-URI SP SIP-Version CRLF // Status-Line = SIP-Version SP Status-Code SP Reason-Phrase CRLF return (startLine.length != 3); } private static boolean verifySipRequest(String[] request) { // Request-Line = Method SP Request-URI SP SIP-Version CRLF if (!request[2].contains(SIP_VERSION_2)) return false; boolean verified; try { verified = (Uri.parse(request[1]).getScheme() != null); } catch (NumberFormatException e) { return false; } verified &= Arrays.stream(SIP_REQUEST_METHODS).anyMatch(s -> request[0].contains(s)); return verified; } private static boolean verifySipResponse(String[] response) { // Status-Line = SIP-Version SP Status-Code SP Reason-Phrase CRLF if (!response[0].contains(SIP_VERSION_2)) return false; int statusCode; try { statusCode = Integer.parseInt(response[1]); } catch (NumberFormatException e) { return false; } return (statusCode >= 100 && statusCode < 700); } /** * Parse a String representation of the Header portion of the SIP Message and re-structure it * into a List of key->value pairs representing each header in the order that they appeared in * the message. * * @param headerString The raw string containing all headers * @param stopAtFirstMatch Return early when the first match is found from matching header keys. * @param matchingHeaderKeys An optional list of Strings containing header keys that should be * returned if they exist. If none exist, all keys will be returned. * (This is internally an equalsIgnoreMatch comparison). * @return the matched header keys and values. */ public static List> parseHeaders(String headerString, boolean stopAtFirstMatch, String... matchingHeaderKeys) { // Ensure there is no leading whitespace headerString = removeLeadingWhitespace(headerString); List> result = new ArrayList<>(); // Split the string line-by-line. String[] headerLines = headerString.split("\\r?\\n"); if (headerLines.length == 0) { return Collections.emptyList(); } String headerKey = null; StringBuilder headerValueSegment = new StringBuilder(); // loop through each line, either parsing a "key: value" pair or appending values that span // multiple lines. for (String line : headerLines) { // This line is a continuation of the last line if it starts with whitespace or tab if (line.startsWith("\t") || line.startsWith(" ")) { headerValueSegment.append(removeLeadingWhitespace(line)); continue; } // This line is the start of a new key, If headerKey/value is already populated from a // previous key/value pair, add it to list of parsed header pairs. if (headerKey != null) { final String key = headerKey; if (matchingHeaderKeys == null || matchingHeaderKeys.length == 0 || Arrays.stream(matchingHeaderKeys).anyMatch( (s) -> s.equalsIgnoreCase(key))) { result.add(new Pair<>(key, headerValueSegment.toString())); if (stopAtFirstMatch) { return result; } } headerKey = null; headerValueSegment = new StringBuilder(); } // Format is "Key:Value", ignore any ":" after the first. String[] pair = line.split(HEADER_KEY_VALUE_SEPARATOR, 2); if (pair.length < 2) { // malformed line, skip Log.w(TAG, "parseHeaders - received malformed line: " + line); continue; } headerKey = pair[0].trim(); for (int i = 1; i < pair.length; i++) { headerValueSegment.append(removeLeadingWhitespace(pair[i])); } } // Pick up the last pending header being parsed, if it exists. if (headerKey != null) { final String key = headerKey; if (matchingHeaderKeys == null || matchingHeaderKeys.length == 0 || Arrays.stream(matchingHeaderKeys).anyMatch( (s) -> s.equalsIgnoreCase(key))) { result.add(new Pair<>(key, headerValueSegment.toString())); } } return result; } private static String removeLeadingWhitespace(String line) { return line.replaceFirst("^\\s*", ""); } }