/* * %CopyrightBegin% * * Copyright Ericsson AB 2000-2013. All Rights Reserved. * * The contents of this file are subject to the Erlang Public License, * Version 1.1, (the "License"); you may not use this file except in * compliance with the License. You should have received a copy of the * Erlang Public License along with this software. If not, it can be * retrieved online at http://www.erlang.org/. * * Software distributed under the License is distributed on an "AS IS" * basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See * the License for the specific language governing rights and limitations * under the License. * * %CopyrightEnd% */ package com.ericsson.otp.erlang; import java.io.ByteArrayInputStream; import java.io.IOException; import java.math.BigDecimal; import java.util.Arrays; /** * Provides a stream for decoding Erlang terms from external format. * *
* Note that this class is not synchronized, if you need synchronization you * must provide it yourself. */ public class OtpInputStream extends ByteArrayInputStream { public static int DECODE_INT_LISTS_AS_STRINGS = 1; private final int flags; /** * @param buf */ public OtpInputStream(final byte[] buf) { this(buf, 0); } /** * Create a stream from a buffer containing encoded Erlang terms. * * @param flags */ public OtpInputStream(final byte[] buf, final int flags) { super(buf); this.flags = flags; } /** * Create a stream from a buffer containing encoded Erlang terms at the * given offset and length. * * @param flags */ public OtpInputStream(final byte[] buf, final int offset, final int length, final int flags) { super(buf, offset, length); this.flags = flags; } /** * Get the current position in the stream. * * @return the current position in the stream. */ public int getPos() { return super.pos; } /** * Set the current position in the stream. * * @param pos * the position to move to in the stream. If pos indicates a * position beyond the end of the stream, the position is move to * the end of the stream instead. If pos is negative, the * position is moved to the beginning of the stream instead. * * @return the previous position in the stream. */ public int setPos(final int pos) { final int oldpos = super.pos; int apos = pos; if (pos > super.count) { apos = super.count; } else if (pos < 0) { apos = 0; } super.pos = apos; return oldpos; } /** * Read an array of bytes from the stream. The method reads at most * buf.length bytes from the input stream. * * @return the number of bytes read. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public int readN(final byte[] abuf) throws OtpErlangDecodeException { return this.readN(abuf, 0, abuf.length); } /** * Read an array of bytes from the stream. The method reads at most len * bytes from the input stream into offset off of the buffer. * * @return the number of bytes read. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public int readN(final byte[] abuf, final int off, final int len) throws OtpErlangDecodeException { if (len == 0 && available() == 0) { return 0; } final int i = super.read(abuf, off, len); if (i < 0) { throw new OtpErlangDecodeException("Cannot read from input stream"); } return i; } /** * Alias for peek1() */ public int peek() throws OtpErlangDecodeException { return peek1(); } /** * Look ahead one position in the stream without consuming the byte found * there. * * @return the next byte in the stream, as an integer. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public int peek1() throws OtpErlangDecodeException { int i; try { i = super.buf[super.pos]; if (i < 0) { i += 256; } return i; } catch (final Exception e) { throw new OtpErlangDecodeException("Cannot read from input stream"); } } public int peek1skip_version() throws OtpErlangDecodeException { int i = peek1(); if (i == OtpExternal.versionTag) { read1(); i = peek1(); } return i; } /** * Read a one byte integer from the stream. * * @return the byte read, as an integer. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public int read1() throws OtpErlangDecodeException { int i; i = super.read(); if (i < 0) { throw new OtpErlangDecodeException("Cannot read from input stream"); } return i; } public int read1skip_version() throws OtpErlangDecodeException { int tag = read1(); if (tag == OtpExternal.versionTag) { tag = read1(); } return tag; } /** * Read a two byte big endian integer from the stream. * * @return the bytes read, converted from big endian to an integer. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public int read2BE() throws OtpErlangDecodeException { final byte[] b = new byte[2]; try { super.read(b); } catch (final IOException e) { throw new OtpErlangDecodeException("Cannot read from input stream"); } return (b[0] << 8 & 0xff00) + (b[1] & 0xff); } /** * Read a four byte big endian integer from the stream. * * @return the bytes read, converted from big endian to an integer. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public int read4BE() throws OtpErlangDecodeException { final byte[] b = new byte[4]; try { super.read(b); } catch (final IOException e) { throw new OtpErlangDecodeException("Cannot read from input stream"); } return (b[0] << 24 & 0xff000000) + (b[1] << 16 & 0xff0000) + (b[2] << 8 & 0xff00) + (b[3] & 0xff); } /** * Read a two byte little endian integer from the stream. * * @return the bytes read, converted from little endian to an integer. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public int read2LE() throws OtpErlangDecodeException { final byte[] b = new byte[2]; try { super.read(b); } catch (final IOException e) { throw new OtpErlangDecodeException("Cannot read from input stream"); } return (b[1] << 8 & 0xff00) + (b[0] & 0xff); } /** * Read a four byte little endian integer from the stream. * * @return the bytes read, converted from little endian to an integer. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public int read4LE() throws OtpErlangDecodeException { final byte[] b = new byte[4]; try { super.read(b); } catch (final IOException e) { throw new OtpErlangDecodeException("Cannot read from input stream"); } return (b[3] << 24 & 0xff000000) + (b[2] << 16 & 0xff0000) + (b[1] << 8 & 0xff00) + (b[0] & 0xff); } /** * Read a little endian integer from the stream. * * @param n * the number of bytes to read * * @return the bytes read, converted from little endian to an integer. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public long readLE(final int n) throws OtpErlangDecodeException { final byte[] b = new byte[n]; try { super.read(b); } catch (final IOException e) { throw new OtpErlangDecodeException("Cannot read from input stream"); } long v = 0; int i = n; while (i-- > 0) { v = v << 8 | (long) b[i] & 0xff; } return v; } /** * Read a bigendian integer from the stream. * * @param n * the number of bytes to read * * @return the bytes read, converted from big endian to an integer. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public long readBE(final int n) throws OtpErlangDecodeException { final byte[] b = new byte[n]; try { super.read(b); } catch (final IOException e) { throw new OtpErlangDecodeException("Cannot read from input stream"); } long v = 0; for (int i = 0; i < n; i++) { v = v << 8 | (long) b[i] & 0xff; } return v; } /** * Read an Erlang atom from the stream and interpret the value as a boolean. * * @return true if the atom at the current position in the stream contains * the value 'true' (ignoring case), false otherwise. * * @exception OtpErlangDecodeException * if the next term in the stream is not an atom. */ public boolean read_boolean() throws OtpErlangDecodeException { return Boolean.valueOf(read_atom()).booleanValue(); } /** * Read an Erlang atom from the stream. * * @return a String containing the value of the atom. * * @exception OtpErlangDecodeException * if the next term in the stream is not an atom. */ @SuppressWarnings("fallthrough") public String read_atom() throws OtpErlangDecodeException { int tag; int len = -1; byte[] strbuf; String atom; tag = read1skip_version(); switch (tag) { case OtpExternal.atomTag: len = read2BE(); strbuf = new byte[len]; this.readN(strbuf); try { atom = new String(strbuf, "ISO-8859-1"); } catch (final java.io.UnsupportedEncodingException e) { throw new OtpErlangDecodeException( "Failed to decode ISO-8859-1 atom"); } if (atom.length() > OtpExternal.maxAtomLength) { /* * Throwing an exception would be better I think, * but truncation seems to be the way it has * been done in other parts of OTP... */ atom = atom.substring(0, OtpExternal.maxAtomLength); } break; case OtpExternal.smallAtomUtf8Tag: len = read1(); // fall-through case OtpExternal.atomUtf8Tag: if (len < 0) { len = read2BE(); } strbuf = new byte[len]; this.readN(strbuf); try { atom = new String(strbuf, "UTF-8"); } catch (final java.io.UnsupportedEncodingException e) { throw new OtpErlangDecodeException( "Failed to decode UTF-8 atom"); } if (atom.codePointCount(0, atom.length()) > OtpExternal.maxAtomLength) { /* * Throwing an exception would be better I think, * but truncation seems to be the way it has * been done in other parts of OTP... */ final int[] cps = OtpErlangString.stringToCodePoints(atom); atom = new String(cps, 0, OtpExternal.maxAtomLength); } break; default: throw new OtpErlangDecodeException( "wrong tag encountered, expected " + OtpExternal.atomTag + ", or " + OtpExternal.atomUtf8Tag + ", got " + tag); } return atom; } /** * Read an Erlang binary from the stream. * * @return a byte array containing the value of the binary. * * @exception OtpErlangDecodeException * if the next term in the stream is not a binary. */ public byte[] read_binary() throws OtpErlangDecodeException { int tag; int len; byte[] bin; tag = read1skip_version(); if (tag != OtpExternal.binTag) { throw new OtpErlangDecodeException( "Wrong tag encountered, expected " + OtpExternal.binTag + ", got " + tag); } len = read4BE(); bin = new byte[len]; this.readN(bin); return bin; } /** * Read an Erlang bitstr from the stream. * * @param pad_bits * an int array whose first element will be set to the number of * pad bits in the last byte. * * @return a byte array containing the value of the bitstr. * * @exception OtpErlangDecodeException * if the next term in the stream is not a bitstr. */ public byte[] read_bitstr(final int pad_bits[]) throws OtpErlangDecodeException { int tag; int len; byte[] bin; tag = read1skip_version(); if (tag != OtpExternal.bitBinTag) { throw new OtpErlangDecodeException( "Wrong tag encountered, expected " + OtpExternal.bitBinTag + ", got " + tag); } len = read4BE(); bin = new byte[len]; final int tail_bits = read1(); if (tail_bits < 0 || 7 < tail_bits) { throw new OtpErlangDecodeException( "Wrong tail bit count in bitstr: " + tail_bits); } if (len == 0 && tail_bits != 0) { throw new OtpErlangDecodeException( "Length 0 on bitstr with tail bit count: " + tail_bits); } this.readN(bin); pad_bits[0] = 8 - tail_bits; return bin; } /** * Read an Erlang float from the stream. * * @return the float value. * * @exception OtpErlangDecodeException * if the next term in the stream is not a float. */ public float read_float() throws OtpErlangDecodeException { final double d = read_double(); return (float) d; } /** * Read an Erlang float from the stream. * * @return the float value, as a double. * * @exception OtpErlangDecodeException * if the next term in the stream is not a float. */ public double read_double() throws OtpErlangDecodeException { int tag; // parse the stream tag = read1skip_version(); switch (tag) { case OtpExternal.newFloatTag: { return Double.longBitsToDouble(readBE(8)); } case OtpExternal.floatTag: { BigDecimal val; int epos; int exp; final byte[] strbuf = new byte[31]; String str; // get the string this.readN(strbuf); str = OtpErlangString.newString(strbuf); // find the exponent prefix 'e' in the string epos = str.indexOf('e', 0); if (epos < 0) { throw new OtpErlangDecodeException("Invalid float format: '" + str + "'"); } // remove the sign from the exponent, if positive String estr = str.substring(epos + 1).trim(); if (estr.substring(0, 1).equals("+")) { estr = estr.substring(1); } // now put the mantissa and exponent together exp = Integer.valueOf(estr).intValue(); val = new BigDecimal(str.substring(0, epos)).movePointRight(exp); return val.doubleValue(); } default: throw new OtpErlangDecodeException( "Wrong tag encountered, expected " + OtpExternal.newFloatTag + ", got " + tag); } } /** * Read one byte from the stream. * * @return the byte read. * * @exception OtpErlangDecodeException * if the next byte cannot be read. */ public byte read_byte() throws OtpErlangDecodeException { final long l = this.read_long(false); final byte i = (byte) l; if (l != i) { throw new OtpErlangDecodeException("Value does not fit in byte: " + l); } return i; } /** * Read a character from the stream. * * @return the character value. * * @exception OtpErlangDecodeException * if the next term in the stream is not an integer that can * be represented as a char. */ public char read_char() throws OtpErlangDecodeException { final long l = this.read_long(true); final char i = (char) l; if (l != (i & 0xffffL)) { throw new OtpErlangDecodeException("Value does not fit in char: " + l); } return i; } /** * Read an unsigned integer from the stream. * * @return the integer value. * * @exception OtpErlangDecodeException * if the next term in the stream can not be represented as a * positive integer. */ public int read_uint() throws OtpErlangDecodeException { final long l = this.read_long(true); final int i = (int) l; if (l != (i & 0xFFFFffffL)) { throw new OtpErlangDecodeException("Value does not fit in uint: " + l); } return i; } /** * Read an integer from the stream. * * @return the integer value. * * @exception OtpErlangDecodeException * if the next term in the stream can not be represented as * an integer. */ public int read_int() throws OtpErlangDecodeException { final long l = this.read_long(false); final int i = (int) l; if (l != i) { throw new OtpErlangDecodeException("Value does not fit in int: " + l); } return i; } /** * Read an unsigned short from the stream. * * @return the short value. * * @exception OtpErlangDecodeException * if the next term in the stream can not be represented as a * positive short. */ public short read_ushort() throws OtpErlangDecodeException { final long l = this.read_long(true); final short i = (short) l; if (l != (i & 0xffffL)) { throw new OtpErlangDecodeException("Value does not fit in ushort: " + l); } return i; } /** * Read a short from the stream. * * @return the short value. * * @exception OtpErlangDecodeException * if the next term in the stream can not be represented as a * short. */ public short read_short() throws OtpErlangDecodeException { final long l = this.read_long(false); final short i = (short) l; if (l != i) { throw new OtpErlangDecodeException("Value does not fit in short: " + l); } return i; } /** * Read an unsigned long from the stream. * * @return the long value. * * @exception OtpErlangDecodeException * if the next term in the stream can not be represented as a * positive long. */ public long read_ulong() throws OtpErlangDecodeException { return this.read_long(true); } /** * Read a long from the stream. * * @return the long value. * * @exception OtpErlangDecodeException * if the next term in the stream can not be represented as a * long. */ public long read_long() throws OtpErlangDecodeException { return this.read_long(false); } public long read_long(final boolean unsigned) throws OtpErlangDecodeException { final byte[] b = read_integer_byte_array(); return OtpInputStream.byte_array_to_long(b, unsigned); } /** * Read an integer from the stream. * * @return the value as a big endian 2's complement byte array. * * @exception OtpErlangDecodeException * if the next term in the stream is not an integer. */ public byte[] read_integer_byte_array() throws OtpErlangDecodeException { int tag; byte[] nb; tag = read1skip_version(); switch (tag) { case OtpExternal.smallIntTag: nb = new byte[2]; nb[0] = 0; nb[1] = (byte) read1(); break; case OtpExternal.intTag: nb = new byte[4]; if (this.readN(nb) != 4) { // Big endian throw new OtpErlangDecodeException( "Cannot read from intput stream"); } break; case OtpExternal.smallBigTag: case OtpExternal.largeBigTag: int arity; int sign; if (tag == OtpExternal.smallBigTag) { arity = read1(); sign = read1(); } else { arity = read4BE(); sign = read1(); if (arity + 1 < 0) { throw new OtpErlangDecodeException( "Value of largeBig does not fit in BigInteger, arity " + arity + " sign " + sign); } } nb = new byte[arity + 1]; // Value is read as little endian. The big end is augumented // with one zero byte to make the value 2's complement positive. if (this.readN(nb, 0, arity) != arity) { throw new OtpErlangDecodeException( "Cannot read from intput stream"); } // Reverse the array to make it big endian. for (int i = 0, j = nb.length; i < j--; i++) { // Swap [i] with [j] final byte b = nb[i]; nb[i] = nb[j]; nb[j] = b; } if (sign != 0) { // 2's complement negate the big endian value in the array int c = 1; // Carry for (int j = nb.length; j-- > 0;) { c = (~nb[j] & 0xFF) + c; nb[j] = (byte) c; c >>= 8; } } break; default: throw new OtpErlangDecodeException("Not valid integer tag: " + tag); } return nb; } public static long byte_array_to_long(final byte[] b, final boolean unsigned) throws OtpErlangDecodeException { long v; switch (b.length) { case 0: v = 0; break; case 2: v = ((b[0] & 0xFF) << 8) + (b[1] & 0xFF); v = (short) v; // Sign extend if (v < 0 && unsigned) { throw new OtpErlangDecodeException("Value not unsigned: " + v); } break; case 4: v = ((b[0] & 0xFF) << 24) + ((b[1] & 0xFF) << 16) + ((b[2] & 0xFF) << 8) + (b[3] & 0xFF); v = (int) v; // Sign extend if (v < 0 && unsigned) { throw new OtpErlangDecodeException("Value not unsigned: " + v); } break; default: int i = 0; final byte c = b[i]; // Skip non-essential leading bytes if (unsigned) { if (c < 0) { throw new OtpErlangDecodeException("Value not unsigned: " + Arrays.toString(b)); } while (b[i] == 0) { i++; // Skip leading zero sign bytes } } else { if (c == 0 || c == -1) { // Leading sign byte i = 1; // Skip all leading sign bytes while (i < b.length && b[i] == c) { i++; } if (i < b.length) { // Check first non-sign byte to see if its sign // matches the whole number's sign. If not one more // byte is needed to represent the value. if (((c ^ b[i]) & 0x80) != 0) { i--; } } } } if (b.length - i > 8) { // More than 64 bits of value throw new OtpErlangDecodeException( "Value does not fit in long: " + Arrays.toString(b)); } // Convert the necessary bytes for (v = c < 0 ? -1 : 0; i < b.length; i++) { v = v << 8 | b[i] & 0xFF; } } return v; } /** * Read a list header from the stream. * * @return the arity of the list. * * @exception OtpErlangDecodeException * if the next term in the stream is not a list. */ public int read_list_head() throws OtpErlangDecodeException { int arity = 0; final int tag = read1skip_version(); switch (tag) { case OtpExternal.nilTag: arity = 0; break; case OtpExternal.stringTag: arity = read2BE(); break; case OtpExternal.listTag: arity = read4BE(); break; default: throw new OtpErlangDecodeException("Not valid list tag: " + tag); } return arity; } /** * Read a tuple header from the stream. * * @return the arity of the tuple. * * @exception OtpErlangDecodeException * if the next term in the stream is not a tuple. */ public int read_tuple_head() throws OtpErlangDecodeException { int arity = 0; final int tag = read1skip_version(); // decode the tuple header and get arity switch (tag) { case OtpExternal.smallTupleTag: arity = read1(); break; case OtpExternal.largeTupleTag: arity = read4BE(); break; default: throw new OtpErlangDecodeException("Not valid tuple tag: " + tag); } return arity; } /** * Read an empty list from the stream. * * @return zero (the arity of the list). * * @exception OtpErlangDecodeException * if the next term in the stream is not an empty list. */ public int read_nil() throws OtpErlangDecodeException { int arity = 0; final int tag = read1skip_version(); switch (tag) { case OtpExternal.nilTag: arity = 0; break; default: throw new OtpErlangDecodeException("Not valid nil tag: " + tag); } return arity; } /** * Read an Erlang PID from the stream. * * @return the value of the PID. * * @exception OtpErlangDecodeException * if the next term in the stream is not an Erlang PID. */ public OtpErlangPid read_pid() throws OtpErlangDecodeException { String node; int id; int serial; int creation; int tag; tag = read1skip_version(); if (tag != OtpExternal.pidTag) { throw new OtpErlangDecodeException( "Wrong tag encountered, expected " + OtpExternal.pidTag + ", got " + tag); } node = read_atom(); id = read4BE() & 0x7fff; // 15 bits serial = read4BE() & 0x1fff; // 13 bits creation = read1() & 0x03; // 2 bits return new OtpErlangPid(node, id, serial, creation); } /** * Read an Erlang port from the stream. * * @return the value of the port. * * @exception OtpErlangDecodeException * if the next term in the stream is not an Erlang port. */ public OtpErlangPort read_port() throws OtpErlangDecodeException { String node; int id; int creation; int tag; tag = read1skip_version(); if (tag != OtpExternal.portTag) { throw new OtpErlangDecodeException( "Wrong tag encountered, expected " + OtpExternal.portTag + ", got " + tag); } node = read_atom(); id = read4BE() & 0xfffffff; // 28 bits creation = read1() & 0x03; // 2 bits return new OtpErlangPort(node, id, creation); } /** * Read an Erlang reference from the stream. * * @return the value of the reference * * @exception OtpErlangDecodeException * if the next term in the stream is not an Erlang reference. */ public OtpErlangRef read_ref() throws OtpErlangDecodeException { String node; int id; int creation; int tag; tag = read1skip_version(); switch (tag) { case OtpExternal.refTag: node = read_atom(); id = read4BE() & 0x3ffff; // 18 bits creation = read1() & 0x03; // 2 bits return new OtpErlangRef(node, id, creation); case OtpExternal.newRefTag: final int arity = read2BE(); node = read_atom(); creation = read1() & 0x03; // 2 bits final int[] ids = new int[arity]; for (int i = 0; i < arity; i++) { ids[i] = read4BE(); } ids[0] &= 0x3ffff; // first id gets truncated to 18 bits return new OtpErlangRef(node, ids, creation); default: throw new OtpErlangDecodeException( "Wrong tag encountered, expected ref, got " + tag); } } public OtpErlangFun read_fun() throws OtpErlangDecodeException { final int tag = read1skip_version(); if (tag == OtpExternal.funTag) { final int nFreeVars = read4BE(); final OtpErlangPid pid = read_pid(); final String module = read_atom(); final long index = read_long(); final long uniq = read_long(); final OtpErlangObject[] freeVars = new OtpErlangObject[nFreeVars]; for (int i = 0; i < nFreeVars; ++i) { freeVars[i] = read_any(); } return new OtpErlangFun(pid, module, index, uniq, freeVars); } else if (tag == OtpExternal.newFunTag) { read4BE(); final int arity = read1(); final byte[] md5 = new byte[16]; readN(md5); final int index = read4BE(); final int nFreeVars = read4BE(); final String module = read_atom(); final long oldIndex = read_long(); final long uniq = read_long(); final OtpErlangPid pid = read_pid(); final OtpErlangObject[] freeVars = new OtpErlangObject[nFreeVars]; for (int i = 0; i < nFreeVars; ++i) { freeVars[i] = read_any(); } return new OtpErlangFun(pid, module, arity, md5, index, oldIndex, uniq, freeVars); } else { throw new OtpErlangDecodeException( "Wrong tag encountered, expected fun, got " + tag); } } public OtpErlangExternalFun read_external_fun() throws OtpErlangDecodeException { final int tag = read1skip_version(); if (tag != OtpExternal.externalFunTag) { throw new OtpErlangDecodeException( "Wrong tag encountered, expected external fun, got " + tag); } final String module = read_atom(); final String function = read_atom(); final int arity = (int) read_long(); return new OtpErlangExternalFun(module, function, arity); } /** * Read a string from the stream. * * @return the value of the string. * * @exception OtpErlangDecodeException * if the next term in the stream is not a string. */ public String read_string() throws OtpErlangDecodeException { int tag; int len; byte[] strbuf; int[] intbuf; tag = read1skip_version(); switch (tag) { case OtpExternal.stringTag: len = read2BE(); strbuf = new byte[len]; this.readN(strbuf); return OtpErlangString.newString(strbuf); case OtpExternal.nilTag: return ""; case OtpExternal.listTag: // List when unicode + len = read4BE(); intbuf = new int[len]; for (int i = 0; i < len; i++) { intbuf[i] = read_int(); if (! OtpErlangString.isValidCodePoint(intbuf[i])) { throw new OtpErlangDecodeException ("Invalid CodePoint: " + intbuf[i]); } } read_nil(); return new String(intbuf, 0, intbuf.length); default: throw new OtpErlangDecodeException( "Wrong tag encountered, expected " + OtpExternal.stringTag + " or " + OtpExternal.listTag + ", got " + tag); } } /** * Read a compressed term from the stream * * @return the resulting uncompressed term. * * @exception OtpErlangDecodeException * if the next term in the stream is not a compressed term. */ public OtpErlangObject read_compressed() throws OtpErlangDecodeException { final int tag = read1skip_version(); if (tag != OtpExternal.compressedTag) { throw new OtpErlangDecodeException( "Wrong tag encountered, expected " + OtpExternal.compressedTag + ", got " + tag); } final int size = read4BE(); final byte[] abuf = new byte[size]; final java.util.zip.InflaterInputStream is = new java.util.zip.InflaterInputStream(this, new java.util.zip.Inflater(), size); int curPos = 0; try { int curRead; while(curPos < size && (curRead = is.read(abuf, curPos, size - curPos)) != -1) { curPos += curRead; } if (curPos != size) { throw new OtpErlangDecodeException("Decompression gave " + curPos + " bytes, not " + size); } } catch (final IOException e) { throw new OtpErlangDecodeException("Cannot read from input stream"); } @SuppressWarnings("resource") final OtpInputStream ois = new OtpInputStream(abuf, flags); return ois.read_any(); } /** * Read an arbitrary Erlang term from the stream. * * @return the Erlang term. * * @exception OtpErlangDecodeException * if the stream does not contain a known Erlang type at the * next position. */ public OtpErlangObject read_any() throws OtpErlangDecodeException { // calls one of the above functions, depending on o final int tag = peek1skip_version(); switch (tag) { case OtpExternal.smallIntTag: case OtpExternal.intTag: case OtpExternal.smallBigTag: case OtpExternal.largeBigTag: return new OtpErlangLong(this); case OtpExternal.atomTag: case OtpExternal.smallAtomUtf8Tag: case OtpExternal.atomUtf8Tag: return new OtpErlangAtom(this); case OtpExternal.floatTag: case OtpExternal.newFloatTag: return new OtpErlangDouble(this); case OtpExternal.refTag: case OtpExternal.newRefTag: return new OtpErlangRef(this); case OtpExternal.mapTag: return new OtpErlangMap(this); case OtpExternal.portTag: return new OtpErlangPort(this); case OtpExternal.pidTag: return new OtpErlangPid(this); case OtpExternal.stringTag: return new OtpErlangString(this); case OtpExternal.listTag: case OtpExternal.nilTag: if ((flags & DECODE_INT_LISTS_AS_STRINGS) != 0) { final int savePos = getPos(); try { return new OtpErlangString(this); } catch (final OtpErlangDecodeException e) { } setPos(savePos); } return new OtpErlangList(this); case OtpExternal.smallTupleTag: case OtpExternal.largeTupleTag: return new OtpErlangTuple(this); case OtpExternal.binTag: return new OtpErlangBinary(this); case OtpExternal.bitBinTag: return new OtpErlangBitstr(this); case OtpExternal.compressedTag: return read_compressed(); case OtpExternal.newFunTag: case OtpExternal.funTag: return new OtpErlangFun(this); default: throw new OtpErlangDecodeException("Uknown data type: " + tag); } } public int read_map_head() throws OtpErlangDecodeException { int arity = 0; final int tag = read1skip_version(); // decode the map header and get arity switch (tag) { case OtpExternal.mapTag: arity = read4BE(); break; default: throw new OtpErlangDecodeException("Not valid map tag: " + tag); } return arity; } }