jnr.ffi.Pointer Maven / Gradle / Ivy
Show all versions of cassandra-driver Show documentation
/*
* Copyright (C) 2008-2012 Wayne Meissner
*
* This file is part of the JNR 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 jnr.ffi;
import java.nio.ByteBuffer;
import java.nio.charset.Charset;
import java.util.ArrayList;
import java.util.List;
/**
* A native memory address.
*
* This class provides operations on a native memory address. Most Pointerinstances will represent direct
* memory (that is, a fixed address in the process address space, directly accessible by native code), however,
* it is possible to wrap a java byte array in a Pointerinstance to pass to a native function
* as a memory address. See {@link #isDirect()} for more information.
*/
abstract public class Pointer {
private final Runtime runtime;
private final long address;
private final boolean isDirect;
/**
* Wraps a native address in a {@link Pointer} instance.
*
* @param runtime the {@code Runtime} of the pointer.
* @param address the {@code address} to wrap in a Pointer instance.
*
* @return a {@code Pointer} instance.
*/
public static Pointer wrap(Runtime runtime, long address) {
return runtime.getMemoryManager().newPointer(address);
}
/**
* Wraps a native address in a {@link Pointer} instance.
*
* @param runtime the {@code Runtime} of the pointer.
* @param address the {@code address} to wrap in a Pointer instance.
* @param size the size of the native memory region.
*
* @return a {@code Pointer} instance.
*/
public static Pointer wrap(Runtime runtime, long address, long size) {
return runtime.getMemoryManager().newPointer(address, size);
}
/**
* Wraps an existing ByteBuffer in a {@link Pointer} implementation so it can
* be used as a parameter to native functions.
*
* Wrapping a ByteBuffer is only neccessary if the native function parameter
* was declared as a {@code Pointer}. The if the method will always be used
* with {@code ByteBuffer} parameters, then the parameter type can just be declared
* as {@code ByteBuffer} and the conversion will be performed automatically.
*
* @param runtime the {@code Runtime} the wrapped {@code ByteBuffer} will
* be used with.
* @param buffer the {@code ByteBuffer} to wrap.
*
* @return a {@code Pointer} instance that will proxy all accesses to the ByteBuffer contents.
*/
public static Pointer wrap(Runtime runtime, ByteBuffer buffer) {
return runtime.getMemoryManager().newPointer(buffer);
}
/**
* Wraps an integer value in an opaque {@link Pointer} instance. This is a Pointer instance that
* throws errors when any of the memory access methods are used, but can be otherwise used interchangeably
* with a real Pointer.
*
* @param runtime the {@code Runtime} of the pointer.
* @param address the {@code address} to wrap in a Pointer instance.
*
* @return a {@code Pointer} instance.
*/
public static Pointer newIntPointer(Runtime runtime, long address) {
return runtime.getMemoryManager().newOpaquePointer(address);
}
protected Pointer(Runtime runtime, long address, boolean direct) {
this.runtime = runtime;
this.address = address;
isDirect = direct;
}
/**
* Indicates whether or not this memory object represents a native memory address.
*
*
Memory objects can be either direct (representing native memory), or
* non-direct (representing java heap memory).
*
*
Non-direct memory objects can still be passed to native functions as pointer
* (void *, char *, etc) parameters, but the java memory will first be copied
* to a temporary native memory area. The temporary memory area will then be
* used as the parameter value for the call. If needed, the java memory
* will be automatically reloaded from the temporary native memory after the
* native function returns.
*
Note: the transient nature of the temporary memory allocated for
* non-direct memory means native functions which store the address value
* passed to them will fail in unpredictable ways when using non-direct memory.
* You will need to explicitly allocate direct memory to use those types of
* functions.
*
* @return true if, and only if, this memory object represents a native address.
*/
public final boolean isDirect() {
return isDirect;
}
/**
* Gets the native address of this memory object (optional operation).
*
* @return the native address of this memory object. If this object is not
* a native memory address, an address of zero is returned.
*/
public final long address() {
return address;
}
/**
* Gets the {@link Runtime} this {@code Pointer} instance belongs to.
*
* @return the {@code Runtime} instance of this {@code Pointer}.
*/
public final Runtime getRuntime() {
return runtime;
}
public String toString() {
StringBuilder sb = new StringBuilder();
sb.append(getClass().getName());
sb.append(String.format("[address=%#x", address()));
if (size() != Long.MAX_VALUE) {
sb.append(String.format(" size=%d", size()));
}
sb.append(']');
return sb.toString();
}
/**
* Gets the size of this memory object in bytes (optional operation).
*
* @return the size of the memory area this {@code Pointer} points to. If
* the size is unknown, {@link java.lang.Long#MAX_VALUE} is returned}.
*/
abstract public long size();
/**
* Indicates whether this Pointer instance is backed by an array.
*
* @return true if, and only if, this memory object is backed by an array
*/
abstract public boolean hasArray();
/**
* Returns the array that backs this pointer.
*
* @return The array that backs this pointer.
* @throws java.lang.UnsupportedOperationException if this pointer does not have a backing array.
*/
abstract public Object array();
/**
* Returns the offset within this pointer's backing array of the first element.
*
* @throws java.lang.UnsupportedOperationException if this pointer does not have a backing array
* @return The offset of the first element on the backing array
*/
abstract public int arrayOffset();
/**
* Returns the length of this pointer's backing array that is used by this pointer.
*
* @throws UnsupportedOperationException if this pointer does not have a backing array
* @return The length of the backing array used
*/
abstract public int arrayLength();
/**
* Reads an {@code byte} (8 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code byte} value at the offset.
*/
abstract public byte getByte(long offset);
/**
* Reads a {@code short} (16 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code short} value at the offset.
*/
abstract public short getShort(long offset);
/**
* Reads an {@code int} (32 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code int} value contained in the memory at the offset.
*/
abstract public int getInt(long offset);
/**
* Reads a {@code long} (64 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code long} value at the offset.
*/
abstract public long getLong(long offset);
/**
* Reads a {@code long} (64 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code long} value at the offset.
*/
abstract public long getLongLong(long offset);
/**
* Reads a {@code float} (32 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code float} value at the offset.
*/
abstract public float getFloat(long offset);
/**
* Reads a {@code double} (64 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code double} value at the offset.
*/
abstract public double getDouble(long offset);
/**
* Reads a native {@code long} value at the given offset.
*
A native {@code long} can be either 32 or 64 bits in size, depending
* on the cpu architecture, and the C ABI in use.
*
*
For windows, a long is always 32 bits (4 bytes) in size, but on unix
* systems, a long on a 32bit system is 32 bits, and on a 64bit system, is 64 bits.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the native {@code long} value at the offset.
*
* @see NativeLong
*/
abstract public long getNativeLong(long offset);
/**
* Reads an integer value of the given type, at the given offset.
*
* @param type Type of integer to read.
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code int} value contained in the memory at the offset.
*/
abstract public long getInt(Type type, long offset);
/**
* Writes a {@code byte} (8 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the {@code byte} value to be written.
*/
abstract public void putByte(long offset, byte value);
/**
* Writes a {@code short} (16 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the {@code short} value to be written.
*/
abstract public void putShort(long offset, short value);
/**
* Writes an {@code int} (32 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the {@code int} value to be written.
*/
abstract public void putInt(long offset, int value);
/**
* Writes a {@code native long} value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the {@code long} value to be written.
*/
abstract public void putLong(long offset, long value);
/**
* Writes a {@code long} (64 bit) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the {@code long} value to be written.
*/
abstract public void putLongLong(long offset, long value);
/**
* Writes a {@code float} (32 bit, single precision) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the {@code float} value to be written.
*/
abstract public void putFloat(long offset, float value);
/**
* Writes a {@code double} (64 bit, double precision) value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the {@code double} value to be written.
*/
abstract public void putDouble(long offset, double value);
/**
* Writes a native {@code long} value at the given offset.
*
*
A native {@code long} can be either 32 or 64 bits in size, depending
* on the cpu architecture, and the C ABI in use.
*
*
For windows, a long is always 32 bits (4 bytes) in size, but on unix
* systems, a long on a 32bit system is 32 bits, and on a 64bit system, is 64 bits.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the native {@code long} value to be written.
*/
abstract public void putNativeLong(long offset, long value);
/**
* Writes an integer of a specific type, at the given offset.
*
* @param type The integer type.
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the {@code int} value to be written.
*/
abstract public void putInt(Type type, long offset, long value);
/**
* Reads a native memory address value at the given offset.
*
A native address can be either 32 or 64 bits in size, depending
* on the cpu architecture.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the native address value contained in the memory at the offset
*
* @see Address
*/
abstract public long getAddress(long offset);
/**
* Writes a native memory address value at the given offset.
*
A native address can be either 32 or 64 bits in size, depending
* on the cpu architecture.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value The native address value to be written.
*
* @see Address
*/
abstract public void putAddress(long offset, long value);
/**
* Writes a native memory address value at the given offset.
*
A native address can be either 32 or 64 bits in size, depending
* on the cpu architecture.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value The native address value to be written.
*
* @see Address
*/
abstract public void putAddress(long offset, Address value);
/**
* Bulk get method for multiple {@code byte} values.
*
* This method reads multiple {@code byte} values from consecutive addresses,
* beginning at the given offset, and stores them in an array.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the first value will be read.
* @param dst the array into which values are to be stored.
* @param idx the start index in the {@code dst} array to begin storing the values.
* @param len the number of values to be read.
*/
abstract public void get(long offset, byte[] dst, int idx, int len);
/**
* Bulk put method for multiple {@code byte} values.
*
* This method writes multiple {@code byte} values to consecutive addresses,
* beginning at the given offset, from an array.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the first value will be written.
* @param src the array to get values from.
* @param idx the start index in the {@code dst} array to begin reading values.
* @param len the number of values to be written.
*/
abstract public void put(long offset, byte[] src, int idx, int len);
/**
* Bulk get method for multiple {@code short} values.
*
* This method reads multiple {@code short} values from consecutive addresses,
* beginning at the given offset, and stores them in an array.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the first value will be read.
* @param dst The array into which values are to be stored.
* @param idx the start index in the {@code dst} array to begin storing the values.
* @param len the number of values to be read.
*/
abstract public void get(long offset, short[] dst, int idx, int len);
/**
* Bulk put method for multiple {@code short} values.
*
* This method writes multiple {@code short} values to consecutive addresses,
* beginning at the given offset, from an array.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the first value will be written.
* @param src the array to get values from.
* @param idx the start index in the {@code dst} array to begin reading values.
* @param len the number of values to be written.
*/
abstract public void put(long offset, short[] src, int idx, int len);
/**
* Bulk get method for multiple {@code int} values.
*
* This method reads multiple {@code int} values from consecutive addresses,
* beginning at the given offset, and stores them in an array.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the first value will be read.
* @param dst The array into which values are to be stored.
* @param idx the start index in the {@code dst} array to begin storing the values.
* @param len the number of values to be read.
*/
abstract public void get(long offset, int[] dst, int idx, int len);
/**
* Bulk put method for multiple {@code int} values.
*
* This method writes multiple {@code int} values to consecutive addresses,
* beginning at the given offset, from an array.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the first value will be written.
* @param src the array to get values from.
* @param idx the start index in the {@code dst} array to begin reading values.
* @param len the number of values to be written.
*/
abstract public void put(long offset, int[] src, int idx, int len);
/**
* Bulk get method for multiple {@code long} values.
*
* This method reads multiple {@code long} values from consecutive addresses,
* beginning at the given offset, and stores them in an array.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the first value will be read.
* @param dst The array into which values are to be stored.
* @param idx the start index in the {@code dst} array to begin storing the values.
* @param len the number of values to be read.
*/
abstract public void get(long offset, long[] dst, int idx, int len);
/**
* Bulk put method for multiple {@code long} values.
*
* This method writes multiple {@code long} values to consecutive addresses,
* beginning at the given offset, from an array.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the first value will be written.
* @param src the array to get values from.
* @param idx the start index in the {@code dst} array to begin reading values.
* @param len the number of values to be written.
*/
abstract public void put(long offset, long[] src, int idx, int len);
/**
* Bulk get method for multiple {@code float} values.
*
* This method reads multiple {@code float} values from consecutive addresses,
* beginning at the given offset, and stores them in an array.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the first value will be read.
* @param dst The array into which values are to be stored.
* @param idx the start index in the {@code dst} array to begin storing the values.
* @param len the number of values to be read.
*/
abstract public void get(long offset, float[] dst, int idx, int len);
/**
* Bulk put method for multiple {@code float} values.
*
* This method writes multiple {@code float} values to consecutive addresses,
* beginning at the given offset, from an array.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the first value will be written.
* @param src the array to get values from.
* @param idx the start index in the {@code dst} array to begin reading values.
* @param len the number of values to be written.
*/
abstract public void put(long offset, float[] src, int idx, int len);
/**
* Bulk get method for multiple {@code double} values.
*
* This method reads multiple {@code double} values from consecutive addresses,
* beginning at the given offset, and stores them in an array.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the first value will be read.
* @param dst The array into which values are to be stored.
* @param idx the start index in the {@code dst} array to begin storing the values.
* @param len the number of values to be read.
*/
abstract public void get(long offset, double[] dst, int idx, int len);
/**
* Bulk put method for multiple {@code double} values.
*
* This method writes multiple {@code double} values to consecutive addresses,
* beginning at the given offset, from an array.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the first value will be written.
* @param src the array to get values from.
* @param idx the start index in the {@code dst} array to begin reading values.
* @param len the number of values to be written.
*/
abstract public void put(long offset, double[] src, int idx, int len);
/**
* Reads an {@code Pointer} value at the given offset.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code Pointer} value read from memory.
*/
abstract public Pointer getPointer(long offset);
/**
* Reads an {@code Pointer} value at the given offset.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @param size the maximum size of the memory location the returned {@code Pointer} represents.
* @return the {@code Pointer} value read from memory.
*/
abstract public Pointer getPointer(long offset, long size);
/**
* Writes a {@code Pointer} value at the given offset.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param value the {@code Pointer} value to be written to memory.
*/
abstract public void putPointer(long offset, Pointer value);
/**
* Reads an {@code String} value at the given offset.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @return the {@code String} value read from memory.
*/
abstract public String getString(long offset);
/**
* Reads a {@code String} value at the given offset, using a specific {@code Charset}
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the value will be read.
* @param maxLength the maximum size of memory to search for a NUL byte.
* @param cs the {@code Charset} to use to decode the string.
* @return the {@code String} value read from memory.
*/
abstract public String getString(long offset, int maxLength, Charset cs);
/**
* Writes a {@code String} value at the given offset, using a specific {@code Charset}
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the value will be written.
* @param string the string to be written.
* @param maxLength the maximum size of memory to use to store the string.
* @param cs the {@code Charset} to use to decode the string.
*/
abstract public void putString(long offset, String string, int maxLength, Charset cs);
/**
* Creates a new {@code Pointer} representing a sub-region of the memory
* referred to by this {@code Pointer}.
*
* @param offset the offset from the start of the memory this {@code Pointer}
* represents at which the new {@code Pointer} will start.
* @return a {@code Pointer} instance representing the new sub-region.
*/
abstract public Pointer slice(long offset);
/**
* Creates a new {@code Pointer} representing a sub-region of the memory
* referred to by this {@code Pointer}.
*
* @param offset the offset from the start of the memory this {@code Pointer}
* represents at which the new {@code Pointer} will start.
* @param size the maximum size of the memory sub-region.
*
* @return a {@code Pointer} instance representing the new sub-region.
*/
abstract public Pointer slice(long offset, long size);
/**
* Bulk data transfer from one memory location to another.
*
* @param offset the offset from the start of the memory location this {@code Pointer} represents to begin copying from.
* @param dst the destination memory location to transfer data to.
* @param dstOffset the offset from the start of the memory location the destination {@code Pointer} represents to begin copying to.
* @param count the number of bytes to transfer.
*/
abstract public void transferTo(long offset, Pointer dst, long dstOffset, long count);
/**
* Bulk data transfer from one memory location to another.
*
* @param offset the offset from the start of the memory location this {@code Pointer} represents to begin copying to.
* @param src the destination memory location to transfer data from.
* @param srcOffset the offset from the start of the memory location the destination {@code Pointer} represents to begin copying from.
* @param count the number of bytes to transfer.
*/
abstract public void transferFrom(long offset, Pointer src, long srcOffset, long count);
/**
* Checks that the memory region is within the bounds of this memory object
*
* @param offset the starting point within this memory region.
* @param length the length of the memory region in bytes
* @throws java.lang.IndexOutOfBoundsException if the memory region is not within the bounds.
*/
abstract public void checkBounds(long offset, long length);
/**
* Sets the value of each byte in the memory area represented by this {@code Pointer}.
* to a specified value.
*
* @param offset the offset from the start of the memory location this {@code Pointer} represents to begin writing to.
* @param size the number of bytes to set to the value.
* @param value the value to set each byte to.
*/
abstract public void setMemory(long offset, long size, byte value);
/**
* Returns the location of a byte value within the memory area represented by this {@code Pointer}.
*
* @param offset the offset from the start of the memory location this {@code Pointer} represents to begin searching.
* @param value the {@code byte} value to locate.
* @return the offset from the start of the search area (i.e. relative to the offset parameter), or -1 if not found.
*/
abstract public int indexOf(long offset, byte value);
/**
* Returns the location of a byte value within the memory area represented by this {@code Pointer}.
*
* @param offset the offset from the start of the memory location this {@code Pointer} represents to begin searching.
* @param value the {@code byte} value to locate.
* @param maxlen the maximum number of bytes to search for the desired value.
* @return the offset from the start of the search area (i.e. relative to the offset parameter), or -1 if not found.
*/
abstract public int indexOf(long offset, byte value, int maxlen);
/**
* Bulk get method for multiple {@code Pointer} values.
*
* This method reads multiple {@code Pointer} values from consecutive addresses,
* beginning at the given offset, and stores them in an array.
*
* @param offset The offset from the start of the memory this {@code Pointer} represents at which the first value will be read.
* @param dst The array into which values are to be stored.
* @param idx the start index in the {@code dst} array to begin storing the values.
* @param len the number of values to be read.
*/
public void get(long offset, Pointer[] dst, int idx, int len) {
final int pointerSize = getRuntime().addressSize();
for (int i = 0; i < len; i++) {
dst[idx + i] = getPointer(offset + (i * pointerSize));
}
}
/**
* Bulk put method for multiple {@code Pointer} values.
*
* This method writes multiple {@code Pointer} values to consecutive addresses,
* beginning at the given offset, from an array.
*
* @param offset the offset from the start of the memory this {@code Pointer} represents at which the first value will be written.
* @param src the array to get values from.
* @param idx the start index in the {@code src} array to begin reading values.
* @param len the number of values to be written.
*/
public void put(long offset, Pointer[] src, int idx, int len) {
final int pointerSize = getRuntime().addressSize();
for (int i = 0; i < len; i++) {
putPointer(offset + (i * pointerSize), src[idx + i]);
}
}
public String[] getNullTerminatedStringArray(long offset) {
Pointer ptr;
if ((ptr = getPointer(offset)) == null) {
return new String[0];
}
final int pointerSize = getRuntime().addressSize();
List array = new ArrayList();
array.add(ptr.getString(0));
for (int off = pointerSize; (ptr = getPointer(offset + off)) != null; off += pointerSize) {
array.add(ptr.getString(0));
}
return array.toArray(new String[array.size()]);
}
public Pointer[] getNullTerminatedPointerArray(long offset) {
Pointer ptr;
if ((ptr = getPointer(offset)) == null) {
return new Pointer[0];
}
final int pointerSize = getRuntime().addressSize();
List array = new ArrayList();
array.add(ptr);
for (int off = pointerSize; (ptr = getPointer(offset + off)) != null; off += pointerSize) {
array.add(ptr);
}
return array.toArray(new Pointer[array.size()]);
}
}