Esempio n. 1
0
void
nsPipe::AdvanceReadCursor(PRUint32 bytesRead)
{
    NS_ASSERTION(bytesRead, "dont call if no bytes read");

    nsPipeEvents events;
    {
        nsAutoMonitor mon(mMonitor);

        LOG(("III advancing read cursor by %u\n", bytesRead));
        NS_ASSERTION(bytesRead <= mBuffer.GetSegmentSize(), "read too much");

        mReadCursor += bytesRead;
        NS_ASSERTION(mReadCursor <= mReadLimit, "read cursor exceeds limit");

        mInput.ReduceAvailable(bytesRead);

        if (mReadCursor == mReadLimit) {
            // we've reached the limit of how much we can read from this segment.
            // if at the end of this segment, then we must discard this segment.

            // if still writing in this segment then bail because we're not done
            // with the segment and have to wait for now...
            if (mWriteSegment == 0 && mWriteLimit > mWriteCursor) {
                NS_ASSERTION(mReadLimit == mWriteCursor, "unexpected state");
                return;
            }

            // shift write segment index (-1 indicates an empty buffer).
            --mWriteSegment;

            // done with this segment
            mBuffer.DeleteFirstSegment();
            LOG(("III deleting first segment\n"));

            if (mWriteSegment == -1) {
                // buffer is completely empty
                mReadCursor = nsnull;
                mReadLimit = nsnull;
                mWriteCursor = nsnull;
                mWriteLimit = nsnull;
            }
            else {
                // advance read cursor and limit to next buffer segment
                mReadCursor = mBuffer.GetSegment(0);
                if (mWriteSegment == 0)
                    mReadLimit = mWriteCursor;
                else
                    mReadLimit = mReadCursor + mBuffer.GetSegmentSize();
            }

            // we've free'd up a segment, so notify output stream that pipe has
            // room for a new segment.
            if (mOutput.OnOutputWritable(events))
                mon.Notify();
        }
    }
}
Esempio n. 2
0
void
nsPipe::AdvanceWriteCursor(PRUint32 bytesWritten)
{
    NS_ASSERTION(bytesWritten, "don't call if no bytes written");

    nsPipeEvents events;
    {
        MonitorAutoEnter mon(mMonitor);

        LOG(("OOO advancing write cursor by %u\n", bytesWritten));

        char *newWriteCursor = mWriteCursor + bytesWritten;
        NS_ASSERTION(newWriteCursor <= mWriteLimit, "write cursor exceeds limit");

        // update read limit if reading in the same segment
        if (mWriteSegment == 0 && mReadLimit == mWriteCursor)
            mReadLimit = newWriteCursor;

        mWriteCursor = newWriteCursor;

        // The only way mReadCursor == mWriteCursor is if:
        //
        // - mReadCursor is at the start of a segment (which, based on how
        //   nsSegmentedBuffer works, means that this segment is the "first"
        //   segment)
        // - mWriteCursor points at the location past the end of the current
        //   write segment (so the current write filled the current write
        //   segment, so we've incremented mWriteCursor to point past the end
        //   of it)
        // - the segment to which data has just been written is located
        //   exactly one segment's worth of bytes before the first segment
        //   where mReadCursor is located
        //
        // Consequently, the byte immediately after the end of the current
        // write segment is the first byte of the first segment, so
        // mReadCursor == mWriteCursor.  (Another way to think about this is
        // to consider the buffer architecture diagram above, but consider it
        // with an arena allocator which allocates from the *end* of the
        // arena to the *beginning* of the arena.)
        NS_ASSERTION(mReadCursor != mWriteCursor ||
                     (mBuffer.GetSegment(0) == mReadCursor &&
                      mWriteCursor == mWriteLimit),
                     "read cursor is bad");

        // update the writable flag on the output stream
        if (mWriteCursor == mWriteLimit) {
            if (mBuffer.GetSize() >= mBuffer.GetMaxSize())
                mOutput.SetWritable(PR_FALSE);
        }

        // notify input stream that pipe now contains additional data
        if (mInput.OnInputReadable(bytesWritten, events))
            mon.Notify();
    }
}
Esempio n. 3
0
void
nsPipe::PeekSegment(PRUint32 index, char *&cursor, char *&limit)
{
    if (index == 0) {
        NS_ASSERTION(!mReadCursor || mBuffer.GetSegmentCount(), "unexpected state");
        cursor = mReadCursor;
        limit = mReadLimit;
    }
    else {
        PRUint32 numSegments = mBuffer.GetSegmentCount();
        if (index >= numSegments)
            cursor = limit = nsnull;
        else {
            cursor = mBuffer.GetSegment(index);
            if (mWriteSegment == (PRInt32) index)
                limit = mWriteCursor;
            else
                limit = cursor + mBuffer.GetSegmentSize();
        }
    }
}
Esempio n. 4
0
nsresult
nsPipe::GetWriteSegment(char *&segment, PRUint32 &segmentLen)
{
    nsAutoMonitor mon(mMonitor);

    if (NS_FAILED(mStatus))
        return mStatus;

    // write cursor and limit may both be null indicating an empty buffer.
    if (mWriteCursor == mWriteLimit) {
        char *seg = mBuffer.AppendNewSegment();
        // pipe is full
        if (seg == nsnull)
            return NS_BASE_STREAM_WOULD_BLOCK;
        LOG(("OOO appended new segment\n"));
        mWriteCursor = seg;
        mWriteLimit = mWriteCursor + mBuffer.GetSegmentSize();
        ++mWriteSegment;
    }

    // make sure read cursor is initialized
    if (mReadCursor == nsnull) {
        NS_ASSERTION(mWriteSegment == 0, "unexpected null read cursor");
        mReadCursor = mReadLimit = mWriteCursor;
    }

    // check to see if we can roll-back our read and write cursors to the 
    // beginning of the current/first segment.  this is purely an optimization.
    if (mReadCursor == mWriteCursor && mWriteSegment == 0) {
        char *head = mBuffer.GetSegment(0);
        LOG(("OOO rolling back write cursor %u bytes\n", mWriteCursor - head));
        mWriteCursor = mReadCursor = mReadLimit = head;
    }

    segment    = mWriteCursor;
    segmentLen = mWriteLimit - mWriteCursor;
    return NS_OK;
}