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/*-
 * Copyright (c) 2002-2007 Neterion, Inc.
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 *
 * $FreeBSD: release/9.1.0/sys/dev/nxge/xgehal/xgehal-channel-fp.c 173139 2007-10-29 14:19:32Z rwatson $
 */

#ifdef XGE_DEBUG_FP
#include <dev/nxge/include/xgehal-channel.h>
#endif

__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL xge_hal_status_e
__hal_channel_dtr_alloc(xge_hal_channel_h channelh, xge_hal_dtr_h *dtrh)
{
	void **tmp_arr;
	xge_hal_channel_t *channel = (xge_hal_channel_t *)channelh;
#if defined(XGE_HAL_RX_MULTI_FREE_IRQ) || defined(XGE_HAL_TX_MULTI_FREE_IRQ)
	unsigned long flags = 0;
#endif
	if (channel->terminating) {
	    return XGE_HAL_FAIL;
	}

	if (channel->reserve_length - channel->reserve_top >
	                    channel->reserve_threshold) {

_alloc_after_swap:
	    *dtrh = channel->reserve_arr[--channel->reserve_length];

	    xge_debug_channel(XGE_TRACE, "dtrh 0x"XGE_OS_LLXFMT" allocated, "
	               "channel %d:%d:%d, reserve_idx %d",
	               (unsigned long long)(ulong_t)*dtrh,
	               channel->type, channel->post_qid,
	               channel->compl_qid, channel->reserve_length);

	    return XGE_HAL_OK;
	}

#if defined(XGE_HAL_RX_MULTI_FREE_IRQ) || defined(XGE_HAL_TX_MULTI_FREE_IRQ)
	xge_os_spin_lock_irq(&channel->free_lock, flags);
#elif defined(XGE_HAL_RX_MULTI_FREE) || defined(XGE_HAL_TX_MULTI_FREE)
	xge_os_spin_lock(&channel->free_lock);
#endif

	/* switch between empty and full arrays */

	/* the idea behind such a design is that by having free and reserved
	 * arrays separated we basically separated irq and non-irq parts.
	 * i.e. no additional lock need to be done when we free a resource */

	if (channel->reserve_initial - channel->free_length >
	                channel->reserve_threshold) {

	    tmp_arr = channel->reserve_arr;
	    channel->reserve_arr = channel->free_arr;
	    channel->reserve_length = channel->reserve_initial;
	    channel->free_arr = tmp_arr;
	    channel->reserve_top = channel->free_length;
	    channel->free_length = channel->reserve_initial;

	    channel->stats.reserve_free_swaps_cnt++;

	    xge_debug_channel(XGE_TRACE,
	           "switch on channel %d:%d:%d, reserve_length %d, "
	           "free_length %d", channel->type, channel->post_qid,
	           channel->compl_qid, channel->reserve_length,
	           channel->free_length);

#if defined(XGE_HAL_RX_MULTI_FREE_IRQ) || defined(XGE_HAL_TX_MULTI_FREE_IRQ)
	    xge_os_spin_unlock_irq(&channel->free_lock, flags);
#elif defined(XGE_HAL_RX_MULTI_FREE) || defined(XGE_HAL_TX_MULTI_FREE)
	    xge_os_spin_unlock(&channel->free_lock);
#endif

	    goto _alloc_after_swap;
	}

#if defined(XGE_HAL_RX_MULTI_FREE_IRQ) || defined(XGE_HAL_TX_MULTI_FREE_IRQ)
	xge_os_spin_unlock_irq(&channel->free_lock, flags);
#elif defined(XGE_HAL_RX_MULTI_FREE) || defined(XGE_HAL_TX_MULTI_FREE)
	xge_os_spin_unlock(&channel->free_lock);
#endif

	xge_debug_channel(XGE_TRACE, "channel %d:%d:%d is empty!",
	           channel->type, channel->post_qid,
	           channel->compl_qid);

	channel->stats.full_cnt++;

	*dtrh = NULL;
	return XGE_HAL_INF_OUT_OF_DESCRIPTORS;
}

__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL void
__hal_channel_dtr_restore(xge_hal_channel_h channelh, xge_hal_dtr_h dtrh,
	          int offset)
{
	xge_hal_channel_t *channel = (xge_hal_channel_t *)channelh;

	/* restore a previously allocated dtrh at current offset and update
	 * the available reserve length accordingly. If dtrh is null just
	 * update the reserve length, only */

	if (dtrh) {
	    channel->reserve_arr[channel->reserve_length + offset] = dtrh;
	    xge_debug_channel(XGE_TRACE, "dtrh 0x"XGE_OS_LLXFMT" restored for "
	        "channel %d:%d:%d, offset %d at reserve index %d, ",
	        (unsigned long long)(ulong_t)dtrh, channel->type,
	        channel->post_qid, channel->compl_qid, offset,
	        channel->reserve_length + offset);
	}
	else {
	    channel->reserve_length += offset;
	    xge_debug_channel(XGE_TRACE, "channel %d:%d:%d, restored "
	        "for offset %d, new reserve_length %d, free length %d",
	        channel->type, channel->post_qid, channel->compl_qid,
	        offset, channel->reserve_length, channel->free_length);
	}
}

__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL void
__hal_channel_dtr_post(xge_hal_channel_h channelh, xge_hal_dtr_h dtrh)
{
	xge_hal_channel_t *channel    = (xge_hal_channel_t*)channelh;

	xge_assert(channel->work_arr[channel->post_index] == NULL);

	channel->work_arr[channel->post_index++] = dtrh;

	    /* wrap-around */
	if (channel->post_index == channel->length)
	    channel->post_index = 0;
}

__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL void
__hal_channel_dtr_try_complete(xge_hal_channel_h channelh, xge_hal_dtr_h *dtrh)
{
	xge_hal_channel_t *channel = (xge_hal_channel_t *)channelh;

	xge_assert(channel->work_arr);
	xge_assert(channel->compl_index < channel->length);

	*dtrh = channel->work_arr[channel->compl_index];
}

__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL void
__hal_channel_dtr_complete(xge_hal_channel_h channelh)
{
	xge_hal_channel_t *channel = (xge_hal_channel_t *)channelh;

	channel->work_arr[channel->compl_index] = NULL;

	/* wrap-around */
	if (++channel->compl_index == channel->length)
	    channel->compl_index = 0;

	channel->stats.total_compl_cnt++;
}

__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL void
__hal_channel_dtr_free(xge_hal_channel_h channelh, xge_hal_dtr_h dtrh)
{
	xge_hal_channel_t *channel = (xge_hal_channel_t *)channelh;

	channel->free_arr[--channel->free_length] = dtrh;

	xge_debug_channel(XGE_TRACE, "dtrh 0x"XGE_OS_LLXFMT" freed, "
	           "channel %d:%d:%d, new free_length %d",
	           (unsigned long long)(ulong_t)dtrh,
	           channel->type, channel->post_qid,
	           channel->compl_qid, channel->free_length);
}

/**
 * xge_hal_channel_dtr_count
 * @channelh: Channel handle. Obtained via xge_hal_channel_open().
 *
 * Retreive number of DTRs available. This function can not be called
 * from data path.
 */
__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL int
xge_hal_channel_dtr_count(xge_hal_channel_h channelh)
{
	xge_hal_channel_t *channel = (xge_hal_channel_t *)channelh;

	return ((channel->reserve_length - channel->reserve_top) +
	    (channel->reserve_initial - channel->free_length) -
	                    channel->reserve_threshold);
}

/**
 * xge_hal_channel_userdata - Get user-specified channel context.
 * @channelh: Channel handle. Obtained via xge_hal_channel_open().
 *
 * Returns: per-channel "user data", which can be any ULD-defined context.
 * The %userdata "gets" into the channel at open time
 * (see xge_hal_channel_open()).
 *
 * See also: xge_hal_channel_open().
 */
__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL void*
xge_hal_channel_userdata(xge_hal_channel_h channelh)
{
	xge_hal_channel_t *channel = (xge_hal_channel_t *)channelh;

	return channel->userdata;
}

/**
 * xge_hal_channel_id - Get channel ID.
 * @channelh: Channel handle. Obtained via xge_hal_channel_open().
 *
 * Returns: channel ID. For link layer channel id is the number
 * in the range from 0 to 7 that identifies hardware ring or fifo,
 * depending on the channel type.
 */
__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL int
xge_hal_channel_id(xge_hal_channel_h channelh)
{
	xge_hal_channel_t *channel = (xge_hal_channel_t *)channelh;

	return channel->post_qid;
}

/**
 * xge_hal_check_alignment - Check buffer alignment and calculate the
 * "misaligned" portion.
 * @dma_pointer: DMA address of the buffer.
 * @size: Buffer size, in bytes.
 * @alignment: Alignment "granularity" (see below), in bytes.
 * @copy_size: Maximum number of bytes to "extract" from the buffer
 * (in order to spost it as a separate scatter-gather entry). See below.
 *
 * Check buffer alignment and calculate "misaligned" portion, if exists.
 * The buffer is considered aligned if its address is multiple of
 * the specified @alignment. If this is the case,
 * xge_hal_check_alignment() returns zero.
 * Otherwise, xge_hal_check_alignment() uses the last argument,
 * @copy_size,
 * to calculate the size to "extract" from the buffer. The @copy_size
 * may or may not be equal @alignment. The difference between these two
 * arguments is that the @alignment is used to make the decision: aligned
 * or not aligned. While the @copy_size is used to calculate the portion
 * of the buffer to "extract", i.e. to post as a separate entry in the
 * transmit descriptor. For example, the combination
 * @alignment=8 and @copy_size=64 will work okay on AMD Opteron boxes.
 *
 * Note: @copy_size should be a multiple of @alignment. In many practical
 * cases @copy_size and @alignment will probably be equal.
 *
 * See also: xge_hal_fifo_dtr_buffer_set_aligned().
 */
__HAL_STATIC_CHANNEL __HAL_INLINE_CHANNEL int
xge_hal_check_alignment(dma_addr_t dma_pointer, int size, int alignment,
	    int copy_size)
{
	int misaligned_size;

	misaligned_size = (int)(dma_pointer & (alignment - 1));
	if (!misaligned_size) {
	    return 0;
	}

	if (size > copy_size) {
	    misaligned_size = (int)(dma_pointer & (copy_size - 1));
	    misaligned_size = copy_size - misaligned_size;
	} else {
	    misaligned_size = size;
	}

	return misaligned_size;
}


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