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/**
* @file llbuffer.h
* @author Phoenix
* @date 2005-09-20
* @brief Declaration of buffer and buffer arrays primarily used in I/O.
*
* $LicenseInfo:firstyear=2005&license=viewergpl$
*
* Copyright (c) 2005-2007, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlife.com/developers/opensource/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at http://secondlife.com/developers/opensource/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
* $/LicenseInfo$
*/
#ifndef LL_LLBUFFER_H
#define LL_LLBUFFER_H
/**
* Declaration of classes used for minimizing calls to new[],
* memcpy(), and delete[]. Typically, you would create an LLBufferArray,
* feed it data, modify and add segments as you process it, and feed
* it to a sink.
*/
#include <list>
#include <vector>
/**
* @class LLChannelDescriptors
* @brief A way simple interface to accesss channels inside a buffer
*/
class LLChannelDescriptors
{
public:
// enumeration for segmenting the channel information
enum { E_CHANNEL_COUNT = 3 };
LLChannelDescriptors() : mBaseChannel(0) {}
explicit LLChannelDescriptors(S32 base) : mBaseChannel(base) {}
S32 in() const { return mBaseChannel; }
S32 out() const { return mBaseChannel + 1; }
//S32 err() const { return mBaseChannel + 2; }
protected:
S32 mBaseChannel;
};
/**
* @class LLSegment
* @brief A segment is a single, contiguous chunk of memory in a buffer
*
* Each segment represents a contiguous addressable piece of memory
* which is located inside a buffer. The segment is not responsible
* for allocation or deallcoation of the data. Each segment is a light
* weight object, and simple enough to copy around, use, and generate
* as necessary.
* This is the preferred interface for working with memory blocks,
* since it is the only way to safely, inexpensively, and directly
* access linear blocks of memory.
*/
class LLSegment
{
public:
LLSegment();
LLSegment(S32 channel, U8* data, S32 data_len);
~LLSegment();
/**
* @brief Check if this segment is on the given channel.
*
*/
bool isOnChannel(S32 channel) const;
/**
* @brief Get the channel
*/
S32 getChannel() const;
/**
* @brief Set the channel
*/
void setChannel(S32 channel);
/**
* @brief Return a raw pointer to the current data set.
*
* The pointer returned can be used for reading or even adjustment
* if you are a bit crazy up to size() bytes into memory.
* @return A potentially NULL pointer to the raw buffer data
*/
U8* data() const;
/**
* @brief Return the size of the segment
*/
S32 size() const;
/**
* @brief Check if two segments are the same.
*
* Two segments are considered equal if they are on the same
* channel and cover the exact same address range.
* @param rhs the segment to compare with this segment.
* @return Returns true if they are equal.
*/
bool operator==(const LLSegment& rhs) const;
protected:
S32 mChannel;
U8* mData;
S32 mSize;
};
/**
* @class LLBuffer
* @brief Abstract base class for buffers
*
* This class declares the interface necessary for buffer arrays. A
* buffer is not necessarily a single contiguous memory chunk, so
* please do not circumvent the segment API.
*/
class LLBuffer
{
public:
/**
* @brief The buffer base class should have no responsibilities
* other than an interface.
*/
virtual ~LLBuffer() {}
/**
* @brief Generate a segment for this buffer.
*
* The segment returned is always contiguous memory. This call can
* fail if no contiguous memory is available, eg, offset is past
* the end. The segment returned may be smaller than the requested
* size. The segment will never be larger than the requested size.
* @param channel The channel for the segment.
* @param offset The offset from zero in the buffer.
* @param size The requested size of the segment.
* @param segment[out] The out-value from the operation
* @return Returns true if a segment was found.
*/
virtual bool createSegment(S32 channel, S32 size, LLSegment& segment) = 0;
/**
* @brief Reclaim a segment from this buffer.
*
* This method is called on a buffer object when a caller is done
* with a contiguous segment of memory inside this buffer. Since
* segments can be cut arbitrarily outside of the control of the
* buffer, this segment may not match any segment returned from
* <code>createSegment()</code>.
* @param segment The contiguous buffer segment to reclaim.
* @return Returns true if the call was successful.
*/
virtual bool reclaimSegment(const LLSegment& segment) = 0;
/**
* @brief Test if a segment is inside this buffer.
*
* @param segment The contiguous buffer segment to test.
* @return Returns true if the segment is in the bufffer.
*/
virtual bool containsSegment(const LLSegment& segment) const = 0;
/**
* @brief Return the current number of bytes allocated.
*
* This was implemented as a debugging tool, and it is not
* necessarily a good idea to use it for anything else.
*/
virtual S32 capacity() const = 0;
};
/**
* @class LLHeapBuffer
* @brief A large contiguous buffer allocated on the heap with new[].
*
* This class is a simple buffer implementation which allocates chunks
* off the heap. Once a buffer is constructed, it's buffer has a fixed
* length.
*/
class LLHeapBuffer : public LLBuffer
{
public:
/**
* @brief Construct a heap buffer with a reasonable default size.
*/
LLHeapBuffer();
/**
* @brief Construct a heap buffer with a specified size.
*
* @param size The minimum size of the buffer.
*/
explicit LLHeapBuffer(S32 size);
/**
* @brief Construct a heap buffer of minimum size len, and copy from src.
*
* @param src The source of the data to be copied.
* @param len The minimum size of the buffer.
*/
LLHeapBuffer(const U8* src, S32 len);
/**
* @brief Simple destruction.
*/
virtual ~LLHeapBuffer();
/**
* @brief Get the number of bytes left in the buffer.
*
* Note that this is not a virtual function, and only available in
* the LLHeapBuffer as a debugging aid.
* @return Returns the number of bytes left.
*/
S32 bytesLeft() const;
/**
* @brief Generate a segment for this buffer.
*
* The segment returned is always contiguous memory. This call can
* fail if no contiguous memory is available, eg, offset is past
* the end. The segment returned may be smaller than the requested
* size. It is up to the caller to delete the segment returned.
* @param channel The channel for the segment.
* @param offset The offset from zero in the buffer
* @param size The requested size of the segment
* @param segment[out] The out-value from the operation
* @return Returns true if a segment was found.
*/
virtual bool createSegment(S32 channel, S32 size, LLSegment& segment);
/**
* @brief reclaim a segment from this buffer.
*
* This method is called on a buffer object when a caller is done
* with a contiguous segment of memory inside this buffer. Since
* segments can be cut arbitrarily outside of the control of the
* buffer, this segment may not match any segment returned from
* <code>createSegment()</code>.
* This call will fail if the segment passed in is note completely
* inside the buffer, eg, if the segment starts before this buffer
* in memory or ends after it.
* @param segment The contiguous buffer segment to reclaim.
* @return Returns true if the call was successful.
*/
virtual bool reclaimSegment(const LLSegment& segment);
/**
* @brief Test if a segment is inside this buffer.
*
* @param segment The contiguous buffer segment to test.
* @return Returns true if the segment is in the bufffer.
*/
virtual bool containsSegment(const LLSegment& segment) const;
/**
* @brief Return the current number of bytes allocated.
*/
virtual S32 capacity() const { return mSize; }
protected:
U8* mBuffer;
S32 mSize;
U8* mNextFree;
S32 mReclaimedBytes;
private:
/**
* @brief Helper method to allocate a buffer and correctly set
* intertnal state of this buffer.
*/
void allocate(S32 size);
};
/**
* @class LLBufferArray
* @brief Class to represent scattered memory buffers and in-order segments
* of that buffered data.
*
* *NOTE: This class needs to have an iovec interface
*/
class LLBufferArray
{
public:
typedef std::vector<LLBuffer*> buffer_list_t;
typedef buffer_list_t::iterator buffer_iterator_t;
typedef buffer_list_t::const_iterator const_buffer_iterator_t;
typedef std::list<LLSegment> segment_list_t;
typedef segment_list_t::const_iterator const_segment_iterator_t;
typedef segment_list_t::iterator segment_iterator_t;
enum { npos = 0xffffffff };
LLBufferArray();
~LLBufferArray();
/* @name Channel methods
*/
//@{
/**
* @brief Generate the a channel descriptor which consumes the
* output for the channel passed in.
*/
static LLChannelDescriptors makeChannelConsumer(
const LLChannelDescriptors& channels);
/**
* @brief Generate the next channel descriptor for this buffer array.
*
* The channel descriptor interface is how the buffer array
* clients can know where to read and write data. Use this
* interface to get the 'next' channel set for usage. This is a
* bit of a simple hack until it's utility indicates it should be
* extended.
* @return Returns a valid channel descriptor set for input and output.
*/
LLChannelDescriptors nextChannel();
//@}
/* @name Data methods
*/
//@{
/**
* @brief Return the sum of all allocated bytes.
*/
S32 capacity() const;
// These methods will be useful once there is any kind of buffer
// besides a heap buffer.
//bool append(EBufferChannel channel, LLBuffer* data);
//bool prepend(EBufferChannel channel, LLBuffer* data);
//bool insertAfter(
// segment_iterator_t segment,
// EBufferChannel channel,
// LLBuffer* data);
/**
* @brief Put data on a channel at the end of this buffer array.
*
* The data is copied from src into the buffer array. At least one
* new segment is created and put on the end of the array. This
* object will internally allocate new buffers if necessary.
* @param channel The channel for this data
* @param src The start of memory for the data to be copied
* @param len The number of bytes of data to copy
* @return Returns true if the method worked.
*/
bool append(S32 channel, const U8* src, S32 len);
/**
* @brief Put data on a channel at the front of this buffer array.
*
* The data is copied from src into the buffer array. At least one
* new segment is created and put in the front of the array. This
* object will internally allocate new buffers if necessary.
* @param channel The channel for this data
* @param src The start of memory for the data to be copied
* @param len The number of bytes of data to copy
* @return Returns true if the method worked.
*/
bool prepend(S32 channel, const U8* src, S32 len);
/**
* @brief Insert data into a buffer array after a particular segment.
*
* The data is copied from src into the buffer array. At least one
* new segment is created and put in the array. This object will
* internally allocate new buffers if necessary.
* @param segment The segment in front of the new segments location
* @param channel The channel for this data
* @param src The start of memory for the data to be copied
* @param len The number of bytes of data to copy
* @return Returns true if the method worked.
*/
bool insertAfter(
segment_iterator_t segment,
S32 channel,
const U8* src,
S32 len);
/**
* @brief Count bytes in the buffer array on the specified channel
*
* @param channel The channel to count.
* @param start The start address in the array for counting. You
* can specify NULL to start at the beginning.
* @return Returns the number of bytes in the channel after start
*/
S32 countAfter(S32 channel, U8* start) const;
/**
* @brief Read bytes in the buffer array on the specified channel
*
* You should prefer iterating over segments is possible since
* this method requires you to allocate large buffers - precisely
* what this class is trying to prevent. This method will skip
* any segments which are not on the given channel, so this method
* would usually be used to read a channel and copy that to a log
* or a socket buffer or something.
* @param channel The channel to read.
* @param start The start address in the array for reading. You
* can specify NULL to start at the beginning.
* @param dest The destination of the data read. This must be at
* least len bytes long.
* @param len[in,out] <b>in</b> How many bytes to read. <b>out</b> How
* many bytes were read.
* @return Returns the address of the last read byte.
*/
U8* readAfter(S32 channel, U8* start, U8* dest, S32& len) const;
/**
* @brief Find an address in a buffer array
*
* @param channel The channel to seek in.
* @param start The start address in the array for the seek
* operation. You can specify NULL to start the seek at the
* beginning, or pass in npos to start at the end.
* @param delta How many bytes to seek through the array.
* @return Returns the address of the last read byte.
*/
U8* seek(S32 channel, U8* start, S32 delta) const;
//@}
/* @name Buffer interaction
*/
//@{
/**
* @brief Take the contents of another buffer array
*
* This method simply strips the contents out of the source
* buffery array - segments, buffers, etc, and appends them to
* this instance. After this operation, the source is empty and
* ready for reuse.
* @param source The source buffer
* @return Returns true if the operation succeeded.
*/
bool takeContents(LLBufferArray& source);
//@}
/* @name Segment methods
*/
//@{
/**
* @brief Split a segments so that address is the last address of
* one segment, and the rest of the original segment becomes
* another segment on the same channel.
*
* After this method call,
* <code>getLastSegmentAddress(*getSegment(address)) ==
* address</code> should be true. This call will only create a new
* segment if the statement above is false before the call. Since
* you usually call splitAfter() to change a segment property, use
* getSegment() to perform those operations.
* @param address The address which will become the last address
* of the segment it is in.
* @return Returns an iterator to the segment which contains
* <code>address</code> which is <code>endSegment()</code> on
* failure.
*/
segment_iterator_t splitAfter(U8* address);
/**
* @brief Get the first segment in the buffer array.
*
* @return Returns the segment if there is one.
*/
segment_iterator_t beginSegment();
/**
* @brief Get the one-past-the-end segment in the buffer array
*
* @return Returns the iterator for an invalid segment location.
*/
segment_iterator_t endSegment();
/**
* @brief Get the segment which holds the given address.
*
* As opposed to some methods, passing a NULL will result in
* returning the end segment.
* @param address An address in the middle of the sought segment.
* @return Returns the iterator for the segment or endSegment() on
* failure.
*/
const_segment_iterator_t getSegment(U8* address) const;
/**
* @brief Get the segment which holds the given address.
*
* As opposed to some methods, passing a NULL will result in
* returning the end segment.
* @param address An address in the middle of the sought segment.
* @return Returns the iterator for the segment or endSegment() on
* failure.
*/
segment_iterator_t getSegment(U8* address);
/**
* @brief Get a segment iterator after address, and a constructed
* segment to represent the next linear block of memory.
*
* This method is a helper by giving you the largest segment
* possible in the out-value param after the address provided. The
* iterator will be useful for iteration, while the segment can be
* used for direct access to memory after address if the return
* values isnot end. Passing in NULL will return beginSegment()
* which may be endSegment(). The segment returned will only be
* zero length if the return value equals end.
* This is really just a helper method, since all the information
* returned could be constructed through other methods.
* @param address An address in the middle of the sought segment.
* @param segment[out] segment to be used for reading or writing
* @return Returns an iterator which contains at least segment or
* endSegment() on failure.
*/
segment_iterator_t constructSegmentAfter(U8* address, LLSegment& segment);
/**
* @brief Make a new segment at the end of buffer array
*
* This method will attempt to create a new and empty segment of
* the specified length. The segment created may be shorter than
* requested.
* @param channel[in] The channel for the newly created segment.
* @param length[in] The requested length of the segment.
* @return Returns an iterator which contains at least segment or
* endSegment() on failure.
*/
segment_iterator_t makeSegment(S32 channel, S32 length);
/**
* @brief Erase the segment if it is in the buffer array.
*
* @param iter An iterator referring to the segment to erase.
* @return Returns true on success.
*/
bool eraseSegment(const segment_iterator_t& iter);
//@}
protected:
/**
* @brief Optimally put data in buffers, and reutrn segments.
*
* This is an internal function used to create buffers as
* necessary, and sequence the segments appropriately for the
* various ways to copy data from src into this.
* If this method fails, it may actually leak some space inside
* buffers, but I am not too worried about the slim possibility
* that we may have some 'dead' space which will be recovered when
* the buffer (which we will not lose) is deleted. Addressing this
* weakness will make the buffers almost as complex as a general
* memory management system.
* @param channel The channel for this data
* @param src The start of memory for the data to be copied
* @param len The number of bytes of data to copy
* @param segments Out-value for the segments created.
* @return Returns true if the method worked.
*/
bool copyIntoBuffers(
S32 channel,
const U8* src,
S32 len,
std::vector<LLSegment>& segments);
protected:
S32 mNextBaseChannel;
buffer_list_t mBuffers;
segment_list_t mSegments;
};
#endif // LL_LLBUFFER_H
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