All Downloads are FREE. Search and download functionalities are using the official Maven repository.

com.squareup.okhttp.internal.spdy.HpackDraft07 Maven / Gradle / Ivy

There is a newer version: 2.7.5
Show newest version
/*
 * Copyright (C) 2013 Square, Inc.
 *
 * 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.squareup.okhttp.internal.spdy;

import com.squareup.okhttp.internal.BitArray;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import okio.Buffer;
import okio.BufferedSource;
import okio.ByteString;
import okio.Okio;
import okio.Source;

/**
 * Read and write HPACK v07.
 *
 * http://tools.ietf.org/html/draft-ietf-httpbis-header-compression-07
 *
 * This implementation uses an array for the header table with a bitset for
 * references.  Dynamic entries are added to the array, starting in the last
 * position moving forward.  When the array fills, it is doubled.
 */
final class HpackDraft07 {
  private static final int PREFIX_4_BITS = 0x0f;
  private static final int PREFIX_6_BITS = 0x3f;
  private static final int PREFIX_7_BITS = 0x7f;

  private static final Header[] STATIC_HEADER_TABLE = new Header[] {
      new Header(Header.TARGET_AUTHORITY, ""),
      new Header(Header.TARGET_METHOD, "GET"),
      new Header(Header.TARGET_METHOD, "POST"),
      new Header(Header.TARGET_PATH, "/"),
      new Header(Header.TARGET_PATH, "/index.html"),
      new Header(Header.TARGET_SCHEME, "http"),
      new Header(Header.TARGET_SCHEME, "https"),
      new Header(Header.RESPONSE_STATUS, "200"),
      new Header(Header.RESPONSE_STATUS, "204"),
      new Header(Header.RESPONSE_STATUS, "206"),
      new Header(Header.RESPONSE_STATUS, "304"),
      new Header(Header.RESPONSE_STATUS, "400"),
      new Header(Header.RESPONSE_STATUS, "404"),
      new Header(Header.RESPONSE_STATUS, "500"),
      new Header("accept-charset", ""),
      new Header("accept-encoding", ""),
      new Header("accept-language", ""),
      new Header("accept-ranges", ""),
      new Header("accept", ""),
      new Header("access-control-allow-origin", ""),
      new Header("age", ""),
      new Header("allow", ""),
      new Header("authorization", ""),
      new Header("cache-control", ""),
      new Header("content-disposition", ""),
      new Header("content-encoding", ""),
      new Header("content-language", ""),
      new Header("content-length", ""),
      new Header("content-location", ""),
      new Header("content-range", ""),
      new Header("content-type", ""),
      new Header("cookie", ""),
      new Header("date", ""),
      new Header("etag", ""),
      new Header("expect", ""),
      new Header("expires", ""),
      new Header("from", ""),
      new Header("host", ""),
      new Header("if-match", ""),
      new Header("if-modified-since", ""),
      new Header("if-none-match", ""),
      new Header("if-range", ""),
      new Header("if-unmodified-since", ""),
      new Header("last-modified", ""),
      new Header("link", ""),
      new Header("location", ""),
      new Header("max-forwards", ""),
      new Header("proxy-authenticate", ""),
      new Header("proxy-authorization", ""),
      new Header("range", ""),
      new Header("referer", ""),
      new Header("refresh", ""),
      new Header("retry-after", ""),
      new Header("server", ""),
      new Header("set-cookie", ""),
      new Header("strict-transport-security", ""),
      new Header("transfer-encoding", ""),
      new Header("user-agent", ""),
      new Header("vary", ""),
      new Header("via", ""),
      new Header("www-authenticate", "")
  };

  private HpackDraft07() {
  }

  // http://tools.ietf.org/html/draft-ietf-httpbis-header-compression-07#section-3.2
  static final class Reader {

    private final List
emittedHeaders = new ArrayList
(); private final BufferedSource source; private int maxHeaderTableByteCountSetting; private int maxHeaderTableByteCount; // Visible for testing. Header[] headerTable = new Header[8]; // Array is populated back to front, so new entries always have lowest index. int nextHeaderIndex = headerTable.length - 1; int headerCount = 0; /** * Set bit positions indicate {@code headerTable[pos]} should be emitted. */ // Using a BitArray as it has left-shift operator. BitArray referencedHeaders = new BitArray.FixedCapacity(); /** * Set bit positions indicate {@code headerTable[pos]} was already emitted. */ BitArray emittedReferencedHeaders = new BitArray.FixedCapacity(); int headerTableByteCount = 0; Reader(int maxHeaderTableByteCountSetting, Source source) { this.maxHeaderTableByteCountSetting = maxHeaderTableByteCountSetting; this.maxHeaderTableByteCount = maxHeaderTableByteCountSetting; this.source = Okio.buffer(source); } int maxHeaderTableByteCount() { return maxHeaderTableByteCount; } /** * Called by the reader when the peer sent a new header table size setting. * While this establishes the maximum header table size, the * {@link #maxHeaderTableByteCount} set during processing may limit the * table size to a smaller amount. *

Evicts entries or clears the table as needed. */ void maxHeaderTableByteCountSetting(int newMaxHeaderTableByteCountSetting) { this.maxHeaderTableByteCountSetting = newMaxHeaderTableByteCountSetting; this.maxHeaderTableByteCount = maxHeaderTableByteCountSetting; adjustHeaderTableByteCount(); } private void adjustHeaderTableByteCount() { if (maxHeaderTableByteCount < headerTableByteCount) { if (maxHeaderTableByteCount == 0) { clearHeaderTable(); } else { evictToRecoverBytes(headerTableByteCount - maxHeaderTableByteCount); } } } private void clearHeaderTable() { clearReferenceSet(); Arrays.fill(headerTable, null); nextHeaderIndex = headerTable.length - 1; headerCount = 0; headerTableByteCount = 0; } /** Returns the count of entries evicted. */ private int evictToRecoverBytes(int bytesToRecover) { int entriesToEvict = 0; if (bytesToRecover > 0) { // determine how many headers need to be evicted. for (int j = headerTable.length - 1; j >= nextHeaderIndex && bytesToRecover > 0; j--) { bytesToRecover -= headerTable[j].hpackSize; headerTableByteCount -= headerTable[j].hpackSize; headerCount--; entriesToEvict++; } referencedHeaders.shiftLeft(entriesToEvict); emittedReferencedHeaders.shiftLeft(entriesToEvict); System.arraycopy(headerTable, nextHeaderIndex + 1, headerTable, nextHeaderIndex + 1 + entriesToEvict, headerCount); nextHeaderIndex += entriesToEvict; } return entriesToEvict; } /** * Read {@code byteCount} bytes of headers from the source stream into the * set of emitted headers. This implementation does not propagate the never * indexed flag of a header. */ void readHeaders() throws IOException { while (!source.exhausted()) { int b = source.readByte() & 0xff; if (b == 0x80) { // 10000000 throw new IOException("index == 0"); } else if ((b & 0x80) == 0x80) { // 1NNNNNNN int index = readInt(b, PREFIX_7_BITS); readIndexedHeader(index - 1); } else if (b == 0x40) { // 01000000 readLiteralHeaderWithIncrementalIndexingNewName(); } else if ((b & 0x40) == 0x40) { // 01NNNNNN int index = readInt(b, PREFIX_6_BITS); readLiteralHeaderWithIncrementalIndexingIndexedName(index - 1); } else if ((b & 0x20) == 0x20) { // 001NNNNN if ((b & 0x10) == 0x10) { // 0011NNNN if ((b & 0x0f) != 0) throw new IOException("Invalid header table state change " + b); clearReferenceSet(); // 00110000 } else { // 0010NNNN maxHeaderTableByteCount = readInt(b, PREFIX_4_BITS); if (maxHeaderTableByteCount < 0 || maxHeaderTableByteCount > maxHeaderTableByteCountSetting) { throw new IOException("Invalid header table byte count " + maxHeaderTableByteCount); } adjustHeaderTableByteCount(); } } else if (b == 0x10 || b == 0) { // 000?0000 - Ignore never indexed bit. readLiteralHeaderWithoutIndexingNewName(); } else { // 000?NNNN - Ignore never indexed bit. int index = readInt(b, PREFIX_4_BITS); readLiteralHeaderWithoutIndexingIndexedName(index - 1); } } } private void clearReferenceSet() { referencedHeaders.clear(); emittedReferencedHeaders.clear(); } void emitReferenceSet() { for (int i = headerTable.length - 1; i != nextHeaderIndex; --i) { if (referencedHeaders.get(i) && !emittedReferencedHeaders.get(i)) { emittedHeaders.add(headerTable[i]); } } } /** * Returns all headers emitted since they were last cleared, then clears the * emitted headers. */ List

getAndReset() { List
result = new ArrayList
(emittedHeaders); emittedHeaders.clear(); emittedReferencedHeaders.clear(); return result; } private void readIndexedHeader(int index) throws IOException { if (isStaticHeader(index)) { index -= headerCount; if (index > STATIC_HEADER_TABLE.length - 1) { throw new IOException("Header index too large " + (index + 1)); } Header staticEntry = STATIC_HEADER_TABLE[index]; if (maxHeaderTableByteCount == 0) { emittedHeaders.add(staticEntry); } else { insertIntoHeaderTable(-1, staticEntry); } } else { int headerTableIndex = headerTableIndex(index); if (!referencedHeaders.get(headerTableIndex)) { // When re-referencing, emit immediately. emittedHeaders.add(headerTable[headerTableIndex]); emittedReferencedHeaders.set(headerTableIndex); } referencedHeaders.toggle(headerTableIndex); } } // referencedHeaders is relative to nextHeaderIndex + 1. private int headerTableIndex(int index) { return nextHeaderIndex + 1 + index; } private void readLiteralHeaderWithoutIndexingIndexedName(int index) throws IOException { ByteString name = getName(index); ByteString value = readByteString(); emittedHeaders.add(new Header(name, value)); } private void readLiteralHeaderWithoutIndexingNewName() throws IOException { ByteString name = checkLowercase(readByteString()); ByteString value = readByteString(); emittedHeaders.add(new Header(name, value)); } private void readLiteralHeaderWithIncrementalIndexingIndexedName(int nameIndex) throws IOException { ByteString name = getName(nameIndex); ByteString value = readByteString(); insertIntoHeaderTable(-1, new Header(name, value)); } private void readLiteralHeaderWithIncrementalIndexingNewName() throws IOException { ByteString name = checkLowercase(readByteString()); ByteString value = readByteString(); insertIntoHeaderTable(-1, new Header(name, value)); } private ByteString getName(int index) { if (isStaticHeader(index)) { return STATIC_HEADER_TABLE[index - headerCount].name; } else { return headerTable[headerTableIndex(index)].name; } } private boolean isStaticHeader(int index) { return index >= headerCount; } /** index == -1 when new. */ private void insertIntoHeaderTable(int index, Header entry) { int delta = entry.hpackSize; if (index != -1) { // Index -1 == new header. delta -= headerTable[headerTableIndex(index)].hpackSize; } // if the new or replacement header is too big, drop all entries. if (delta > maxHeaderTableByteCount) { clearHeaderTable(); // emit the large header to the callback. emittedHeaders.add(entry); return; } // Evict headers to the required length. int bytesToRecover = (headerTableByteCount + delta) - maxHeaderTableByteCount; int entriesEvicted = evictToRecoverBytes(bytesToRecover); if (index == -1) { // Adding a value to the header table. if (headerCount + 1 > headerTable.length) { // Need to grow the header table. Header[] doubled = new Header[headerTable.length * 2]; System.arraycopy(headerTable, 0, doubled, headerTable.length, headerTable.length); if (doubled.length == 64) { referencedHeaders = ((BitArray.FixedCapacity) referencedHeaders).toVariableCapacity(); emittedReferencedHeaders = ((BitArray.FixedCapacity) emittedReferencedHeaders).toVariableCapacity(); } referencedHeaders.shiftLeft(headerTable.length); emittedReferencedHeaders.shiftLeft(headerTable.length); nextHeaderIndex = headerTable.length - 1; headerTable = doubled; } index = nextHeaderIndex--; referencedHeaders.set(index); headerTable[index] = entry; headerCount++; } else { // Replace value at same position. index += headerTableIndex(index) + entriesEvicted; referencedHeaders.set(index); headerTable[index] = entry; } headerTableByteCount += delta; } private int readByte() throws IOException { return source.readByte() & 0xff; } int readInt(int firstByte, int prefixMask) throws IOException { int prefix = firstByte & prefixMask; if (prefix < prefixMask) { return prefix; // This was a single byte value. } // This is a multibyte value. Read 7 bits at a time. int result = prefixMask; int shift = 0; while (true) { int b = readByte(); if ((b & 0x80) != 0) { // Equivalent to (b >= 128) since b is in [0..255]. result += (b & 0x7f) << shift; shift += 7; } else { result += b << shift; // Last byte. break; } } return result; } /** Reads a potentially Huffman encoded byte string. */ ByteString readByteString() throws IOException { int firstByte = readByte(); boolean huffmanDecode = (firstByte & 0x80) == 0x80; // 1NNNNNNN int length = readInt(firstByte, PREFIX_7_BITS); if (huffmanDecode) { return ByteString.of(Huffman.get().decode(source.readByteArray(length))); } else { return source.readByteString(length); } } } private static final Map NAME_TO_FIRST_INDEX = nameToFirstIndex(); private static Map nameToFirstIndex() { Map result = new LinkedHashMap(STATIC_HEADER_TABLE.length); for (int i = 0; i < STATIC_HEADER_TABLE.length; i++) { if (!result.containsKey(STATIC_HEADER_TABLE[i].name)) { result.put(STATIC_HEADER_TABLE[i].name, i); } } return Collections.unmodifiableMap(result); } static final class Writer { private final Buffer out; Writer(Buffer out) { this.out = out; } /** This does not use "never indexed" semantics for sensitive headers. */ // https://tools.ietf.org/html/draft-ietf-httpbis-header-compression-07#section-4.3.3 void writeHeaders(List
headerBlock) throws IOException { // TODO: implement index tracking for (int i = 0, size = headerBlock.size(); i < size; i++) { ByteString name = headerBlock.get(i).name.toAsciiLowercase(); Integer staticIndex = NAME_TO_FIRST_INDEX.get(name); if (staticIndex != null) { // Literal Header Field without Indexing - Indexed Name. writeInt(staticIndex + 1, PREFIX_4_BITS, 0); writeByteString(headerBlock.get(i).value); } else { out.writeByte(0x00); // Literal Header without Indexing - New Name. writeByteString(name); writeByteString(headerBlock.get(i).value); } } } // http://tools.ietf.org/html/draft-ietf-httpbis-header-compression-07#section-4.1.1 void writeInt(int value, int prefixMask, int bits) throws IOException { // Write the raw value for a single byte value. if (value < prefixMask) { out.writeByte(bits | value); return; } // Write the mask to start a multibyte value. out.writeByte(bits | prefixMask); value -= prefixMask; // Write 7 bits at a time 'til we're done. while (value >= 0x80) { int b = value & 0x7f; out.writeByte(b | 0x80); value >>>= 7; } out.writeByte(value); } void writeByteString(ByteString data) throws IOException { writeInt(data.size(), PREFIX_7_BITS, 0); out.write(data); } } /** * An HTTP/2 response cannot contain uppercase header characters and must * be treated as malformed. */ private static ByteString checkLowercase(ByteString name) throws IOException { for (int i = 0, length = name.size(); i < length; i++) { byte c = name.getByte(i); if (c >= 'A' && c <= 'Z') { throw new IOException("PROTOCOL_ERROR response malformed: mixed case name: " + name.utf8()); } } return name; } }




© 2015 - 2024 Weber Informatics LLC | Privacy Policy