Mercurial > hg > release > icedtea7-forest-2.3 > jdk
changeset 6392:d04d931b7a1d
8022927: Input validation for byte/endian conversions
Summary: Add additional boundary checks
Reviewed-by: ascarpino
| author | valeriep |
|---|---|
| date | Wed, 21 Aug 2013 12:07:31 -0700 |
| parents | dde6bfc7db83 |
| children | 00ec3b798e53 |
| files | src/share/classes/sun/security/provider/ByteArrayAccess.java |
| diffstat | 1 files changed, 45 insertions(+), 6 deletions(-) [+] |
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--- a/src/share/classes/sun/security/provider/ByteArrayAccess.java Mon Oct 21 17:47:56 2013 +0200 +++ b/src/share/classes/sun/security/provider/ByteArrayAccess.java Wed Aug 21 12:07:31 2013 -0700 @@ -1,5 +1,5 @@ /* - * Copyright (c) 2006, 2012, Oracle and/or its affiliates. All rights reserved. + * Copyright (c) 2006, 2013, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it @@ -43,10 +43,8 @@ * These are the only platforms we currently support, but other optimized * variants could be added as needed. * - * NOTE that because this code performs unchecked direct memory access, it - * MUST be restricted to trusted code. It is imperative that the caller protects - * against out of bounds memory access by performing the necessary bounds - * checks before calling methods in this class. + * NOTE that ArrayIndexOutOfBoundsException will be thrown if the bounds checks + * failed. * * This class may also be helpful in improving the performance of the * crypto code in the SunJCE provider. However, for now it is only accessible by @@ -103,6 +101,10 @@ * byte[] to int[] conversion, little endian byte order. */ static void b2iLittle(byte[] in, int inOfs, int[] out, int outOfs, int len) { + if ((inOfs < 0) || ((in.length - inOfs) < len) || + (outOfs < 0) || ((out.length - outOfs) < len/4)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { inOfs += byteArrayOfs; len += inOfs; @@ -131,6 +133,10 @@ // Special optimization of b2iLittle(in, inOfs, out, 0, 64) static void b2iLittle64(byte[] in, int inOfs, int[] out) { + if ((inOfs < 0) || ((in.length - inOfs) < 64) || + (out.length < 16)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { inOfs += byteArrayOfs; out[ 0] = unsafe.getInt(in, (long)(inOfs )); @@ -176,6 +182,10 @@ * int[] to byte[] conversion, little endian byte order. */ static void i2bLittle(int[] in, int inOfs, byte[] out, int outOfs, int len) { + if ((inOfs < 0) || ((in.length - inOfs) < len/4) || + (outOfs < 0) || ((out.length - outOfs) < len)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { outOfs += byteArrayOfs; len += outOfs; @@ -204,6 +214,9 @@ // Store one 32-bit value into out[outOfs..outOfs+3] in little endian order. static void i2bLittle4(int val, byte[] out, int outOfs) { + if ((outOfs < 0) || ((out.length - outOfs) < 4)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { unsafe.putInt(out, (long)(byteArrayOfs + outOfs), val); } else if (bigEndian && ((outOfs & 3) == 0)) { @@ -220,6 +233,10 @@ * byte[] to int[] conversion, big endian byte order. */ static void b2iBig(byte[] in, int inOfs, int[] out, int outOfs, int len) { + if ((inOfs < 0) || ((in.length - inOfs) < len) || + (outOfs < 0) || ((out.length - outOfs) < len/4)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { inOfs += byteArrayOfs; len += inOfs; @@ -248,6 +265,10 @@ // Special optimization of b2iBig(in, inOfs, out, 0, 64) static void b2iBig64(byte[] in, int inOfs, int[] out) { + if ((inOfs < 0) || ((in.length - inOfs) < 64) || + (out.length < 16)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { inOfs += byteArrayOfs; out[ 0] = reverseBytes(unsafe.getInt(in, (long)(inOfs ))); @@ -293,6 +314,10 @@ * int[] to byte[] conversion, big endian byte order. */ static void i2bBig(int[] in, int inOfs, byte[] out, int outOfs, int len) { + if ((inOfs < 0) || ((in.length - inOfs) < len/4) || + (outOfs < 0) || ((out.length - outOfs) < len)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { outOfs += byteArrayOfs; len += outOfs; @@ -321,6 +346,9 @@ // Store one 32-bit value into out[outOfs..outOfs+3] in big endian order. static void i2bBig4(int val, byte[] out, int outOfs) { + if ((outOfs < 0) || ((out.length - outOfs) < 4)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { unsafe.putInt(out, (long)(byteArrayOfs + outOfs), reverseBytes(val)); } else if (bigEndian && ((outOfs & 3) == 0)) { @@ -337,6 +365,10 @@ * byte[] to long[] conversion, big endian byte order. */ static void b2lBig(byte[] in, int inOfs, long[] out, int outOfs, int len) { + if ((inOfs < 0) || ((in.length - inOfs) < len) || + (outOfs < 0) || ((out.length - outOfs) < len/8)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { inOfs += byteArrayOfs; len += inOfs; @@ -378,6 +410,10 @@ // Special optimization of b2lBig(in, inOfs, out, 0, 128) static void b2lBig128(byte[] in, int inOfs, long[] out) { + if ((inOfs < 0) || ((in.length - inOfs) < 128) || + (out.length < 16)) { + throw new ArrayIndexOutOfBoundsException(); + } if (littleEndianUnaligned) { inOfs += byteArrayOfs; out[ 0] = reverseBytes(unsafe.getLong(in, (long)(inOfs ))); @@ -406,6 +442,10 @@ * long[] to byte[] conversion, big endian byte order. */ static void l2bBig(long[] in, int inOfs, byte[] out, int outOfs, int len) { + if ((inOfs < 0) || ((in.length - inOfs) < len/8) || + (outOfs < 0) || ((out.length - outOfs) < len)) { + throw new ArrayIndexOutOfBoundsException(); + } len += outOfs; while (outOfs < len) { long i = in[inOfs++]; @@ -419,5 +459,4 @@ out[outOfs++] = (byte)(i ); } } - }