001/* 002 * Copyright (C) 2007 The Guava Authors 003 * 004 * Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except 005 * in compliance with the License. You may obtain a copy of the License at 006 * 007 * http://www.apache.org/licenses/LICENSE-2.0 008 * 009 * Unless required by applicable law or agreed to in writing, software distributed under the License 010 * is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express 011 * or implied. See the License for the specific language governing permissions and limitations under 012 * the License. 013 */ 014 015package com.google.common.io; 016 017import static com.google.common.base.Preconditions.checkArgument; 018import static com.google.common.base.Preconditions.checkNotNull; 019import static com.google.common.base.Preconditions.checkPositionIndex; 020import static com.google.common.base.Preconditions.checkPositionIndexes; 021 022import com.google.common.annotations.Beta; 023import com.google.common.annotations.GwtIncompatible; 024import com.google.common.math.IntMath; 025import com.google.errorprone.annotations.CanIgnoreReturnValue; 026import java.io.ByteArrayInputStream; 027import java.io.ByteArrayOutputStream; 028import java.io.DataInput; 029import java.io.DataInputStream; 030import java.io.DataOutput; 031import java.io.DataOutputStream; 032import java.io.EOFException; 033import java.io.FilterInputStream; 034import java.io.IOException; 035import java.io.InputStream; 036import java.io.OutputStream; 037import java.nio.ByteBuffer; 038import java.nio.channels.FileChannel; 039import java.nio.channels.ReadableByteChannel; 040import java.nio.channels.WritableByteChannel; 041import java.util.ArrayDeque; 042import java.util.Arrays; 043import java.util.Queue; 044 045/** 046 * Provides utility methods for working with byte arrays and I/O streams. 047 * 048 * @author Chris Nokleberg 049 * @author Colin Decker 050 * @since 1.0 051 */ 052@GwtIncompatible 053public final class ByteStreams { 054 055 private static final int BUFFER_SIZE = 8192; 056 057 /** Creates a new byte array for buffering reads or writes. */ 058 static byte[] createBuffer() { 059 return new byte[BUFFER_SIZE]; 060 } 061 062 /** 063 * There are three methods to implement {@link FileChannel#transferTo(long, long, 064 * WritableByteChannel)}: 065 * 066 * <ol> 067 * <li>Use sendfile(2) or equivalent. Requires that both the input channel and the output 068 * channel have their own file descriptors. Generally this only happens when both channels 069 * are files or sockets. This performs zero copies - the bytes never enter userspace. 070 * <li>Use mmap(2) or equivalent. Requires that either the input channel or the output channel 071 * have file descriptors. Bytes are copied from the file into a kernel buffer, then directly 072 * into the other buffer (userspace). Note that if the file is very large, a naive 073 * implementation will effectively put the whole file in memory. On many systems with paging 074 * and virtual memory, this is not a problem - because it is mapped read-only, the kernel 075 * can always page it to disk "for free". However, on systems where killing processes 076 * happens all the time in normal conditions (i.e., android) the OS must make a tradeoff 077 * between paging memory and killing other processes - so allocating a gigantic buffer and 078 * then sequentially accessing it could result in other processes dying. This is solvable 079 * via madvise(2), but that obviously doesn't exist in java. 080 * <li>Ordinary copy. Kernel copies bytes into a kernel buffer, from a kernel buffer into a 081 * userspace buffer (byte[] or ByteBuffer), then copies them from that buffer into the 082 * destination channel. 083 * </ol> 084 * 085 * This value is intended to be large enough to make the overhead of system calls negligible, 086 * without being so large that it causes problems for systems with atypical memory management if 087 * approaches 2 or 3 are used. 088 */ 089 private static final int ZERO_COPY_CHUNK_SIZE = 512 * 1024; 090 091 private ByteStreams() {} 092 093 /** 094 * Copies all bytes from the input stream to the output stream. Does not close or flush either 095 * stream. 096 * 097 * @param from the input stream to read from 098 * @param to the output stream to write to 099 * @return the number of bytes copied 100 * @throws IOException if an I/O error occurs 101 */ 102 @CanIgnoreReturnValue 103 public static long copy(InputStream from, OutputStream to) throws IOException { 104 checkNotNull(from); 105 checkNotNull(to); 106 byte[] buf = createBuffer(); 107 long total = 0; 108 while (true) { 109 int r = from.read(buf); 110 if (r == -1) { 111 break; 112 } 113 to.write(buf, 0, r); 114 total += r; 115 } 116 return total; 117 } 118 119 /** 120 * Copies all bytes from the readable channel to the writable channel. Does not close or flush 121 * either channel. 122 * 123 * @param from the readable channel to read from 124 * @param to the writable channel to write to 125 * @return the number of bytes copied 126 * @throws IOException if an I/O error occurs 127 */ 128 @CanIgnoreReturnValue 129 public static long copy(ReadableByteChannel from, WritableByteChannel to) throws IOException { 130 checkNotNull(from); 131 checkNotNull(to); 132 if (from instanceof FileChannel) { 133 FileChannel sourceChannel = (FileChannel) from; 134 long oldPosition = sourceChannel.position(); 135 long position = oldPosition; 136 long copied; 137 do { 138 copied = sourceChannel.transferTo(position, ZERO_COPY_CHUNK_SIZE, to); 139 position += copied; 140 sourceChannel.position(position); 141 } while (copied > 0 || position < sourceChannel.size()); 142 return position - oldPosition; 143 } 144 145 ByteBuffer buf = ByteBuffer.wrap(createBuffer()); 146 long total = 0; 147 while (from.read(buf) != -1) { 148 Java8Compatibility.flip(buf); 149 while (buf.hasRemaining()) { 150 total += to.write(buf); 151 } 152 Java8Compatibility.clear(buf); 153 } 154 return total; 155 } 156 157 /** Max array length on JVM. */ 158 private static final int MAX_ARRAY_LEN = Integer.MAX_VALUE - 8; 159 160 /** Large enough to never need to expand, given the geometric progression of buffer sizes. */ 161 private static final int TO_BYTE_ARRAY_DEQUE_SIZE = 20; 162 163 /** 164 * Returns a byte array containing the bytes from the buffers already in {@code bufs} (which have 165 * a total combined length of {@code totalLen} bytes) followed by all bytes remaining in the given 166 * input stream. 167 */ 168 private static byte[] toByteArrayInternal(InputStream in, Queue<byte[]> bufs, int totalLen) 169 throws IOException { 170 // Starting with an 8k buffer, double the size of each successive buffer. Buffers are retained 171 // in a deque so that there's no copying between buffers while reading and so all of the bytes 172 // in each new allocated buffer are available for reading from the stream. 173 for (int bufSize = BUFFER_SIZE; 174 totalLen < MAX_ARRAY_LEN; 175 bufSize = IntMath.saturatedMultiply(bufSize, 2)) { 176 byte[] buf = new byte[Math.min(bufSize, MAX_ARRAY_LEN - totalLen)]; 177 bufs.add(buf); 178 int off = 0; 179 while (off < buf.length) { 180 // always OK to fill buf; its size plus the rest of bufs is never more than MAX_ARRAY_LEN 181 int r = in.read(buf, off, buf.length - off); 182 if (r == -1) { 183 return combineBuffers(bufs, totalLen); 184 } 185 off += r; 186 totalLen += r; 187 } 188 } 189 190 // read MAX_ARRAY_LEN bytes without seeing end of stream 191 if (in.read() == -1) { 192 // oh, there's the end of the stream 193 return combineBuffers(bufs, MAX_ARRAY_LEN); 194 } else { 195 throw new OutOfMemoryError("input is too large to fit in a byte array"); 196 } 197 } 198 199 private static byte[] combineBuffers(Queue<byte[]> bufs, int totalLen) { 200 byte[] result = new byte[totalLen]; 201 int remaining = totalLen; 202 while (remaining > 0) { 203 byte[] buf = bufs.remove(); 204 int bytesToCopy = Math.min(remaining, buf.length); 205 int resultOffset = totalLen - remaining; 206 System.arraycopy(buf, 0, result, resultOffset, bytesToCopy); 207 remaining -= bytesToCopy; 208 } 209 return result; 210 } 211 212 /** 213 * Reads all bytes from an input stream into a byte array. Does not close the stream. 214 * 215 * @param in the input stream to read from 216 * @return a byte array containing all the bytes from the stream 217 * @throws IOException if an I/O error occurs 218 */ 219 public static byte[] toByteArray(InputStream in) throws IOException { 220 checkNotNull(in); 221 return toByteArrayInternal(in, new ArrayDeque<byte[]>(TO_BYTE_ARRAY_DEQUE_SIZE), 0); 222 } 223 224 /** 225 * Reads all bytes from an input stream into a byte array. The given expected size is used to 226 * create an initial byte array, but if the actual number of bytes read from the stream differs, 227 * the correct result will be returned anyway. 228 */ 229 static byte[] toByteArray(InputStream in, long expectedSize) throws IOException { 230 checkArgument(expectedSize >= 0, "expectedSize (%s) must be non-negative", expectedSize); 231 if (expectedSize > MAX_ARRAY_LEN) { 232 throw new OutOfMemoryError(expectedSize + " bytes is too large to fit in a byte array"); 233 } 234 235 byte[] bytes = new byte[(int) expectedSize]; 236 int remaining = (int) expectedSize; 237 238 while (remaining > 0) { 239 int off = (int) expectedSize - remaining; 240 int read = in.read(bytes, off, remaining); 241 if (read == -1) { 242 // end of stream before reading expectedSize bytes 243 // just return the bytes read so far 244 return Arrays.copyOf(bytes, off); 245 } 246 remaining -= read; 247 } 248 249 // bytes is now full 250 int b = in.read(); 251 if (b == -1) { 252 return bytes; 253 } 254 255 // the stream was longer, so read the rest normally 256 Queue<byte[]> bufs = new ArrayDeque<byte[]>(TO_BYTE_ARRAY_DEQUE_SIZE + 2); 257 bufs.add(bytes); 258 bufs.add(new byte[] {(byte) b}); 259 return toByteArrayInternal(in, bufs, bytes.length + 1); 260 } 261 262 /** 263 * Reads and discards data from the given {@code InputStream} until the end of the stream is 264 * reached. Returns the total number of bytes read. Does not close the stream. 265 * 266 * @since 20.0 267 */ 268 @CanIgnoreReturnValue 269 @Beta 270 public static long exhaust(InputStream in) throws IOException { 271 long total = 0; 272 long read; 273 byte[] buf = createBuffer(); 274 while ((read = in.read(buf)) != -1) { 275 total += read; 276 } 277 return total; 278 } 279 280 /** 281 * Returns a new {@link ByteArrayDataInput} instance to read from the {@code bytes} array from the 282 * beginning. 283 */ 284 @Beta 285 public static ByteArrayDataInput newDataInput(byte[] bytes) { 286 return newDataInput(new ByteArrayInputStream(bytes)); 287 } 288 289 /** 290 * Returns a new {@link ByteArrayDataInput} instance to read from the {@code bytes} array, 291 * starting at the given position. 292 * 293 * @throws IndexOutOfBoundsException if {@code start} is negative or greater than the length of 294 * the array 295 */ 296 @Beta 297 public static ByteArrayDataInput newDataInput(byte[] bytes, int start) { 298 checkPositionIndex(start, bytes.length); 299 return newDataInput(new ByteArrayInputStream(bytes, start, bytes.length - start)); 300 } 301 302 /** 303 * Returns a new {@link ByteArrayDataInput} instance to read from the given {@code 304 * ByteArrayInputStream}. The given input stream is not reset before being read from by the 305 * returned {@code ByteArrayDataInput}. 306 * 307 * @since 17.0 308 */ 309 @Beta 310 public static ByteArrayDataInput newDataInput(ByteArrayInputStream byteArrayInputStream) { 311 return new ByteArrayDataInputStream(checkNotNull(byteArrayInputStream)); 312 } 313 314 private static class ByteArrayDataInputStream implements ByteArrayDataInput { 315 final DataInput input; 316 317 ByteArrayDataInputStream(ByteArrayInputStream byteArrayInputStream) { 318 this.input = new DataInputStream(byteArrayInputStream); 319 } 320 321 @Override 322 public void readFully(byte b[]) { 323 try { 324 input.readFully(b); 325 } catch (IOException e) { 326 throw new IllegalStateException(e); 327 } 328 } 329 330 @Override 331 public void readFully(byte b[], int off, int len) { 332 try { 333 input.readFully(b, off, len); 334 } catch (IOException e) { 335 throw new IllegalStateException(e); 336 } 337 } 338 339 @Override 340 public int skipBytes(int n) { 341 try { 342 return input.skipBytes(n); 343 } catch (IOException e) { 344 throw new IllegalStateException(e); 345 } 346 } 347 348 @Override 349 public boolean readBoolean() { 350 try { 351 return input.readBoolean(); 352 } catch (IOException e) { 353 throw new IllegalStateException(e); 354 } 355 } 356 357 @Override 358 public byte readByte() { 359 try { 360 return input.readByte(); 361 } catch (EOFException e) { 362 throw new IllegalStateException(e); 363 } catch (IOException impossible) { 364 throw new AssertionError(impossible); 365 } 366 } 367 368 @Override 369 public int readUnsignedByte() { 370 try { 371 return input.readUnsignedByte(); 372 } catch (IOException e) { 373 throw new IllegalStateException(e); 374 } 375 } 376 377 @Override 378 public short readShort() { 379 try { 380 return input.readShort(); 381 } catch (IOException e) { 382 throw new IllegalStateException(e); 383 } 384 } 385 386 @Override 387 public int readUnsignedShort() { 388 try { 389 return input.readUnsignedShort(); 390 } catch (IOException e) { 391 throw new IllegalStateException(e); 392 } 393 } 394 395 @Override 396 public char readChar() { 397 try { 398 return input.readChar(); 399 } catch (IOException e) { 400 throw new IllegalStateException(e); 401 } 402 } 403 404 @Override 405 public int readInt() { 406 try { 407 return input.readInt(); 408 } catch (IOException e) { 409 throw new IllegalStateException(e); 410 } 411 } 412 413 @Override 414 public long readLong() { 415 try { 416 return input.readLong(); 417 } catch (IOException e) { 418 throw new IllegalStateException(e); 419 } 420 } 421 422 @Override 423 public float readFloat() { 424 try { 425 return input.readFloat(); 426 } catch (IOException e) { 427 throw new IllegalStateException(e); 428 } 429 } 430 431 @Override 432 public double readDouble() { 433 try { 434 return input.readDouble(); 435 } catch (IOException e) { 436 throw new IllegalStateException(e); 437 } 438 } 439 440 @Override 441 public String readLine() { 442 try { 443 return input.readLine(); 444 } catch (IOException e) { 445 throw new IllegalStateException(e); 446 } 447 } 448 449 @Override 450 public String readUTF() { 451 try { 452 return input.readUTF(); 453 } catch (IOException e) { 454 throw new IllegalStateException(e); 455 } 456 } 457 } 458 459 /** Returns a new {@link ByteArrayDataOutput} instance with a default size. */ 460 @Beta 461 public static ByteArrayDataOutput newDataOutput() { 462 return newDataOutput(new ByteArrayOutputStream()); 463 } 464 465 /** 466 * Returns a new {@link ByteArrayDataOutput} instance sized to hold {@code size} bytes before 467 * resizing. 468 * 469 * @throws IllegalArgumentException if {@code size} is negative 470 */ 471 @Beta 472 public static ByteArrayDataOutput newDataOutput(int size) { 473 // When called at high frequency, boxing size generates too much garbage, 474 // so avoid doing that if we can. 475 if (size < 0) { 476 throw new IllegalArgumentException(String.format("Invalid size: %s", size)); 477 } 478 return newDataOutput(new ByteArrayOutputStream(size)); 479 } 480 481 /** 482 * Returns a new {@link ByteArrayDataOutput} instance which writes to the given {@code 483 * ByteArrayOutputStream}. The given output stream is not reset before being written to by the 484 * returned {@code ByteArrayDataOutput} and new data will be appended to any existing content. 485 * 486 * <p>Note that if the given output stream was not empty or is modified after the {@code 487 * ByteArrayDataOutput} is created, the contract for {@link ByteArrayDataOutput#toByteArray} will 488 * not be honored (the bytes returned in the byte array may not be exactly what was written via 489 * calls to {@code ByteArrayDataOutput}). 490 * 491 * @since 17.0 492 */ 493 @Beta 494 public static ByteArrayDataOutput newDataOutput(ByteArrayOutputStream byteArrayOutputStream) { 495 return new ByteArrayDataOutputStream(checkNotNull(byteArrayOutputStream)); 496 } 497 498 private static class ByteArrayDataOutputStream implements ByteArrayDataOutput { 499 500 final DataOutput output; 501 final ByteArrayOutputStream byteArrayOutputStream; 502 503 ByteArrayDataOutputStream(ByteArrayOutputStream byteArrayOutputStream) { 504 this.byteArrayOutputStream = byteArrayOutputStream; 505 output = new DataOutputStream(byteArrayOutputStream); 506 } 507 508 @Override 509 public void write(int b) { 510 try { 511 output.write(b); 512 } catch (IOException impossible) { 513 throw new AssertionError(impossible); 514 } 515 } 516 517 @Override 518 public void write(byte[] b) { 519 try { 520 output.write(b); 521 } catch (IOException impossible) { 522 throw new AssertionError(impossible); 523 } 524 } 525 526 @Override 527 public void write(byte[] b, int off, int len) { 528 try { 529 output.write(b, off, len); 530 } catch (IOException impossible) { 531 throw new AssertionError(impossible); 532 } 533 } 534 535 @Override 536 public void writeBoolean(boolean v) { 537 try { 538 output.writeBoolean(v); 539 } catch (IOException impossible) { 540 throw new AssertionError(impossible); 541 } 542 } 543 544 @Override 545 public void writeByte(int v) { 546 try { 547 output.writeByte(v); 548 } catch (IOException impossible) { 549 throw new AssertionError(impossible); 550 } 551 } 552 553 @Override 554 public void writeBytes(String s) { 555 try { 556 output.writeBytes(s); 557 } catch (IOException impossible) { 558 throw new AssertionError(impossible); 559 } 560 } 561 562 @Override 563 public void writeChar(int v) { 564 try { 565 output.writeChar(v); 566 } catch (IOException impossible) { 567 throw new AssertionError(impossible); 568 } 569 } 570 571 @Override 572 public void writeChars(String s) { 573 try { 574 output.writeChars(s); 575 } catch (IOException impossible) { 576 throw new AssertionError(impossible); 577 } 578 } 579 580 @Override 581 public void writeDouble(double v) { 582 try { 583 output.writeDouble(v); 584 } catch (IOException impossible) { 585 throw new AssertionError(impossible); 586 } 587 } 588 589 @Override 590 public void writeFloat(float v) { 591 try { 592 output.writeFloat(v); 593 } catch (IOException impossible) { 594 throw new AssertionError(impossible); 595 } 596 } 597 598 @Override 599 public void writeInt(int v) { 600 try { 601 output.writeInt(v); 602 } catch (IOException impossible) { 603 throw new AssertionError(impossible); 604 } 605 } 606 607 @Override 608 public void writeLong(long v) { 609 try { 610 output.writeLong(v); 611 } catch (IOException impossible) { 612 throw new AssertionError(impossible); 613 } 614 } 615 616 @Override 617 public void writeShort(int v) { 618 try { 619 output.writeShort(v); 620 } catch (IOException impossible) { 621 throw new AssertionError(impossible); 622 } 623 } 624 625 @Override 626 public void writeUTF(String s) { 627 try { 628 output.writeUTF(s); 629 } catch (IOException impossible) { 630 throw new AssertionError(impossible); 631 } 632 } 633 634 @Override 635 public byte[] toByteArray() { 636 return byteArrayOutputStream.toByteArray(); 637 } 638 } 639 640 private static final OutputStream NULL_OUTPUT_STREAM = 641 new OutputStream() { 642 /** Discards the specified byte. */ 643 @Override 644 public void write(int b) {} 645 646 /** Discards the specified byte array. */ 647 @Override 648 public void write(byte[] b) { 649 checkNotNull(b); 650 } 651 652 /** Discards the specified byte array. */ 653 @Override 654 public void write(byte[] b, int off, int len) { 655 checkNotNull(b); 656 } 657 658 @Override 659 public String toString() { 660 return "ByteStreams.nullOutputStream()"; 661 } 662 }; 663 664 /** 665 * Returns an {@link OutputStream} that simply discards written bytes. 666 * 667 * @since 14.0 (since 1.0 as com.google.common.io.NullOutputStream) 668 */ 669 @Beta 670 public static OutputStream nullOutputStream() { 671 return NULL_OUTPUT_STREAM; 672 } 673 674 /** 675 * Wraps a {@link InputStream}, limiting the number of bytes which can be read. 676 * 677 * @param in the input stream to be wrapped 678 * @param limit the maximum number of bytes to be read 679 * @return a length-limited {@link InputStream} 680 * @since 14.0 (since 1.0 as com.google.common.io.LimitInputStream) 681 */ 682 @Beta 683 public static InputStream limit(InputStream in, long limit) { 684 return new LimitedInputStream(in, limit); 685 } 686 687 private static final class LimitedInputStream extends FilterInputStream { 688 689 private long left; 690 private long mark = -1; 691 692 LimitedInputStream(InputStream in, long limit) { 693 super(in); 694 checkNotNull(in); 695 checkArgument(limit >= 0, "limit must be non-negative"); 696 left = limit; 697 } 698 699 @Override 700 public int available() throws IOException { 701 return (int) Math.min(in.available(), left); 702 } 703 704 // it's okay to mark even if mark isn't supported, as reset won't work 705 @Override 706 public synchronized void mark(int readLimit) { 707 in.mark(readLimit); 708 mark = left; 709 } 710 711 @Override 712 public int read() throws IOException { 713 if (left == 0) { 714 return -1; 715 } 716 717 int result = in.read(); 718 if (result != -1) { 719 --left; 720 } 721 return result; 722 } 723 724 @Override 725 public int read(byte[] b, int off, int len) throws IOException { 726 if (left == 0) { 727 return -1; 728 } 729 730 len = (int) Math.min(len, left); 731 int result = in.read(b, off, len); 732 if (result != -1) { 733 left -= result; 734 } 735 return result; 736 } 737 738 @Override 739 public synchronized void reset() throws IOException { 740 if (!in.markSupported()) { 741 throw new IOException("Mark not supported"); 742 } 743 if (mark == -1) { 744 throw new IOException("Mark not set"); 745 } 746 747 in.reset(); 748 left = mark; 749 } 750 751 @Override 752 public long skip(long n) throws IOException { 753 n = Math.min(n, left); 754 long skipped = in.skip(n); 755 left -= skipped; 756 return skipped; 757 } 758 } 759 760 /** 761 * Attempts to read enough bytes from the stream to fill the given byte array, with the same 762 * behavior as {@link DataInput#readFully(byte[])}. Does not close the stream. 763 * 764 * @param in the input stream to read from. 765 * @param b the buffer into which the data is read. 766 * @throws EOFException if this stream reaches the end before reading all the bytes. 767 * @throws IOException if an I/O error occurs. 768 */ 769 @Beta 770 public static void readFully(InputStream in, byte[] b) throws IOException { 771 readFully(in, b, 0, b.length); 772 } 773 774 /** 775 * Attempts to read {@code len} bytes from the stream into the given array starting at {@code 776 * off}, with the same behavior as {@link DataInput#readFully(byte[], int, int)}. Does not close 777 * the stream. 778 * 779 * @param in the input stream to read from. 780 * @param b the buffer into which the data is read. 781 * @param off an int specifying the offset into the data. 782 * @param len an int specifying the number of bytes to read. 783 * @throws EOFException if this stream reaches the end before reading all the bytes. 784 * @throws IOException if an I/O error occurs. 785 */ 786 @Beta 787 public static void readFully(InputStream in, byte[] b, int off, int len) throws IOException { 788 int read = read(in, b, off, len); 789 if (read != len) { 790 throw new EOFException( 791 "reached end of stream after reading " + read + " bytes; " + len + " bytes expected"); 792 } 793 } 794 795 /** 796 * Discards {@code n} bytes of data from the input stream. This method will block until the full 797 * amount has been skipped. Does not close the stream. 798 * 799 * @param in the input stream to read from 800 * @param n the number of bytes to skip 801 * @throws EOFException if this stream reaches the end before skipping all the bytes 802 * @throws IOException if an I/O error occurs, or the stream does not support skipping 803 */ 804 @Beta 805 public static void skipFully(InputStream in, long n) throws IOException { 806 long skipped = skipUpTo(in, n); 807 if (skipped < n) { 808 throw new EOFException( 809 "reached end of stream after skipping " + skipped + " bytes; " + n + " bytes expected"); 810 } 811 } 812 813 /** 814 * Discards up to {@code n} bytes of data from the input stream. This method will block until 815 * either the full amount has been skipped or until the end of the stream is reached, whichever 816 * happens first. Returns the total number of bytes skipped. 817 */ 818 static long skipUpTo(InputStream in, final long n) throws IOException { 819 long totalSkipped = 0; 820 // A buffer is allocated if skipSafely does not skip any bytes. 821 byte[] buf = null; 822 823 while (totalSkipped < n) { 824 long remaining = n - totalSkipped; 825 long skipped = skipSafely(in, remaining); 826 827 if (skipped == 0) { 828 // Do a buffered read since skipSafely could return 0 repeatedly, for example if 829 // in.available() always returns 0 (the default). 830 int skip = (int) Math.min(remaining, BUFFER_SIZE); 831 if (buf == null) { 832 // Allocate a buffer bounded by the maximum size that can be requested, for 833 // example an array of BUFFER_SIZE is unnecessary when the value of remaining 834 // is smaller. 835 buf = new byte[skip]; 836 } 837 if ((skipped = in.read(buf, 0, skip)) == -1) { 838 // Reached EOF 839 break; 840 } 841 } 842 843 totalSkipped += skipped; 844 } 845 846 return totalSkipped; 847 } 848 849 /** 850 * Attempts to skip up to {@code n} bytes from the given input stream, but not more than {@code 851 * in.available()} bytes. This prevents {@code FileInputStream} from skipping more bytes than 852 * actually remain in the file, something that it {@linkplain java.io.FileInputStream#skip(long) 853 * specifies} it can do in its Javadoc despite the fact that it is violating the contract of 854 * {@code InputStream.skip()}. 855 */ 856 private static long skipSafely(InputStream in, long n) throws IOException { 857 int available = in.available(); 858 return available == 0 ? 0 : in.skip(Math.min(available, n)); 859 } 860 861 /** 862 * Process the bytes of the given input stream using the given processor. 863 * 864 * @param input the input stream to process 865 * @param processor the object to which to pass the bytes of the stream 866 * @return the result of the byte processor 867 * @throws IOException if an I/O error occurs 868 * @since 14.0 869 */ 870 @Beta 871 @CanIgnoreReturnValue // some processors won't return a useful result 872 public static <T> T readBytes(InputStream input, ByteProcessor<T> processor) throws IOException { 873 checkNotNull(input); 874 checkNotNull(processor); 875 876 byte[] buf = createBuffer(); 877 int read; 878 do { 879 read = input.read(buf); 880 } while (read != -1 && processor.processBytes(buf, 0, read)); 881 return processor.getResult(); 882 } 883 884 /** 885 * Reads some bytes from an input stream and stores them into the buffer array {@code b}. This 886 * method blocks until {@code len} bytes of input data have been read into the array, or end of 887 * file is detected. The number of bytes read is returned, possibly zero. Does not close the 888 * stream. 889 * 890 * <p>A caller can detect EOF if the number of bytes read is less than {@code len}. All subsequent 891 * calls on the same stream will return zero. 892 * 893 * <p>If {@code b} is null, a {@code NullPointerException} is thrown. If {@code off} is negative, 894 * or {@code len} is negative, or {@code off+len} is greater than the length of the array {@code 895 * b}, then an {@code IndexOutOfBoundsException} is thrown. If {@code len} is zero, then no bytes 896 * are read. Otherwise, the first byte read is stored into element {@code b[off]}, the next one 897 * into {@code b[off+1]}, and so on. The number of bytes read is, at most, equal to {@code len}. 898 * 899 * @param in the input stream to read from 900 * @param b the buffer into which the data is read 901 * @param off an int specifying the offset into the data 902 * @param len an int specifying the number of bytes to read 903 * @return the number of bytes read 904 * @throws IOException if an I/O error occurs 905 * @throws IndexOutOfBoundsException if {@code off} is negative, if {@code len} is negative, or if 906 * {@code off + len} is greater than {@code b.length} 907 */ 908 @Beta 909 @CanIgnoreReturnValue 910 // Sometimes you don't care how many bytes you actually read, I guess. 911 // (You know that it's either going to read len bytes or stop at EOF.) 912 public static int read(InputStream in, byte[] b, int off, int len) throws IOException { 913 checkNotNull(in); 914 checkNotNull(b); 915 if (len < 0) { 916 throw new IndexOutOfBoundsException(String.format("len (%s) cannot be negative", len)); 917 } 918 checkPositionIndexes(off, off + len, b.length); 919 int total = 0; 920 while (total < len) { 921 int result = in.read(b, off + total, len - total); 922 if (result == -1) { 923 break; 924 } 925 total += result; 926 } 927 return total; 928 } 929}