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f9d186edc8
world. This should be considered highly experimental. Approved-by: re
440 lines
12 KiB
C
440 lines
12 KiB
C
/* $FreeBSD$ */
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/* $NetBSD: rf_cvscan.c,v 1.5 1999/08/13 03:41:53 oster Exp $ */
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/*
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* Copyright (c) 1995 Carnegie-Mellon University.
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* All rights reserved.
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*
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* Author: Mark Holland
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*
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* Permission to use, copy, modify and distribute this software and
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* its documentation is hereby granted, provided that both the copyright
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* notice and this permission notice appear in all copies of the
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* software, derivative works or modified versions, and any portions
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* thereof, and that both notices appear in supporting documentation.
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*
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* CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
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* CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND
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* FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
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*
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* Carnegie Mellon requests users of this software to return to
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*
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* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
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* School of Computer Science
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* Carnegie Mellon University
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* Pittsburgh PA 15213-3890
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*
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* any improvements or extensions that they make and grant Carnegie the
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* rights to redistribute these changes.
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*/
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/*******************************************************************************
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*
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* cvscan.c -- prioritized cvscan disk queueing code.
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*
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* Nov 9, 1994, adapted from raidSim version (MCH)
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*
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******************************************************************************/
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#include <dev/raidframe/rf_types.h>
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#include <dev/raidframe/rf_alloclist.h>
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#include <dev/raidframe/rf_stripelocks.h>
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#include <dev/raidframe/rf_layout.h>
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#include <dev/raidframe/rf_diskqueue.h>
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#include <dev/raidframe/rf_cvscan.h>
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#include <dev/raidframe/rf_debugMem.h>
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#include <dev/raidframe/rf_general.h>
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#define DO_CHECK_STATE(_hdr_) CheckCvscanState((_hdr_), __FILE__, __LINE__)
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#define pri_ok(p) ( ((p) == RF_IO_NORMAL_PRIORITY) || ((p) == RF_IO_LOW_PRIORITY))
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static void
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CheckCvscanState(RF_CvscanHeader_t * hdr, char *file, int line)
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{
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long i, key;
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RF_DiskQueueData_t *tmp;
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if (hdr->left != (RF_DiskQueueData_t *) NULL)
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RF_ASSERT(hdr->left->sectorOffset < hdr->cur_block);
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for (key = hdr->cur_block, i = 0, tmp = hdr->left;
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tmp != (RF_DiskQueueData_t *) NULL;
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key = tmp->sectorOffset, i++, tmp = tmp->next)
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RF_ASSERT(tmp->sectorOffset <= key
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&& tmp->priority == hdr->nxt_priority && pri_ok(tmp->priority));
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RF_ASSERT(i == hdr->left_cnt);
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for (key = hdr->cur_block, i = 0, tmp = hdr->right;
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tmp != (RF_DiskQueueData_t *) NULL;
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key = tmp->sectorOffset, i++, tmp = tmp->next) {
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RF_ASSERT(key <= tmp->sectorOffset);
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RF_ASSERT(tmp->priority == hdr->nxt_priority);
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RF_ASSERT(pri_ok(tmp->priority));
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}
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RF_ASSERT(i == hdr->right_cnt);
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for (key = hdr->nxt_priority - 1, tmp = hdr->burner;
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tmp != (RF_DiskQueueData_t *) NULL;
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key = tmp->priority, tmp = tmp->next) {
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RF_ASSERT(tmp);
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RF_ASSERT(hdr);
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RF_ASSERT(pri_ok(tmp->priority));
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RF_ASSERT(key >= tmp->priority);
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RF_ASSERT(tmp->priority < hdr->nxt_priority);
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}
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}
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static void
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PriorityInsert(RF_DiskQueueData_t ** list_ptr, RF_DiskQueueData_t * req)
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{
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/* * insert block pointed to by req in to list whose first * entry is
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* pointed to by the pointer that list_ptr points to * ie., list_ptr
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* is a grandparent of the first entry */
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for (; (*list_ptr) != (RF_DiskQueueData_t *) NULL &&
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(*list_ptr)->priority > req->priority;
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list_ptr = &((*list_ptr)->next)) {
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}
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req->next = (*list_ptr);
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(*list_ptr) = req;
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}
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static void
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ReqInsert(RF_DiskQueueData_t ** list_ptr, RF_DiskQueueData_t * req, RF_CvscanArmDir_t order)
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{
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/* * insert block pointed to by req in to list whose first * entry is
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* pointed to by the pointer that list_ptr points to * ie., list_ptr
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* is a grandparent of the first entry */
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for (; (*list_ptr) != (RF_DiskQueueData_t *) NULL &&
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((order == rf_cvscan_RIGHT && (*list_ptr)->sectorOffset <= req->sectorOffset)
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|| (order == rf_cvscan_LEFT && (*list_ptr)->sectorOffset > req->sectorOffset));
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list_ptr = &((*list_ptr)->next)) {
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}
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req->next = (*list_ptr);
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(*list_ptr) = req;
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}
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static RF_DiskQueueData_t *
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ReqDequeue(RF_DiskQueueData_t ** list_ptr)
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{
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RF_DiskQueueData_t *ret = (*list_ptr);
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if ((*list_ptr) != (RF_DiskQueueData_t *) NULL) {
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(*list_ptr) = (*list_ptr)->next;
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}
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return (ret);
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}
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static void
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ReBalance(RF_CvscanHeader_t * hdr)
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{
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/* DO_CHECK_STATE(hdr); */
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while (hdr->right != (RF_DiskQueueData_t *) NULL
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&& hdr->right->sectorOffset < hdr->cur_block) {
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hdr->right_cnt--;
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hdr->left_cnt++;
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ReqInsert(&hdr->left, ReqDequeue(&hdr->right), rf_cvscan_LEFT);
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}
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/* DO_CHECK_STATE(hdr); */
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}
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static void
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Transfer(RF_DiskQueueData_t ** to_list_ptr, RF_DiskQueueData_t ** from_list_ptr)
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{
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RF_DiskQueueData_t *gp;
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for (gp = (*from_list_ptr); gp != (RF_DiskQueueData_t *) NULL;) {
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RF_DiskQueueData_t *p = gp->next;
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PriorityInsert(to_list_ptr, gp);
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gp = p;
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}
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(*from_list_ptr) = (RF_DiskQueueData_t *) NULL;
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}
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static void
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RealEnqueue(RF_CvscanHeader_t * hdr, RF_DiskQueueData_t * req)
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{
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RF_ASSERT(req->priority == RF_IO_NORMAL_PRIORITY || req->priority == RF_IO_LOW_PRIORITY);
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DO_CHECK_STATE(hdr);
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if (hdr->left_cnt == 0 && hdr->right_cnt == 0) {
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hdr->nxt_priority = req->priority;
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}
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if (req->priority > hdr->nxt_priority) {
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/*
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** dump all other outstanding requests on the back burner
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*/
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Transfer(&hdr->burner, &hdr->left);
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Transfer(&hdr->burner, &hdr->right);
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hdr->left_cnt = 0;
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hdr->right_cnt = 0;
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hdr->nxt_priority = req->priority;
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}
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if (req->priority < hdr->nxt_priority) {
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/*
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** yet another low priority task!
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*/
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PriorityInsert(&hdr->burner, req);
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} else {
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if (req->sectorOffset < hdr->cur_block) {
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/* this request is to the left of the current arms */
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ReqInsert(&hdr->left, req, rf_cvscan_LEFT);
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hdr->left_cnt++;
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} else {
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/* this request is to the right of the current arms */
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ReqInsert(&hdr->right, req, rf_cvscan_RIGHT);
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hdr->right_cnt++;
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}
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}
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DO_CHECK_STATE(hdr);
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}
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void
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rf_CvscanEnqueue(void *q_in, RF_DiskQueueData_t * elem, int priority)
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{
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RF_CvscanHeader_t *hdr = (RF_CvscanHeader_t *) q_in;
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RealEnqueue(hdr, elem /* req */ );
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}
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RF_DiskQueueData_t *
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rf_CvscanDequeue(void *q_in)
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{
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RF_CvscanHeader_t *hdr = (RF_CvscanHeader_t *) q_in;
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long range, i, sum_dist_left, sum_dist_right;
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RF_DiskQueueData_t *ret;
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RF_DiskQueueData_t *tmp;
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DO_CHECK_STATE(hdr);
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if (hdr->left_cnt == 0 && hdr->right_cnt == 0)
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return ((RF_DiskQueueData_t *) NULL);
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range = RF_MIN(hdr->range_for_avg, RF_MIN(hdr->left_cnt, hdr->right_cnt));
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for (i = 0, tmp = hdr->left, sum_dist_left =
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((hdr->direction == rf_cvscan_RIGHT) ? range * hdr->change_penalty : 0);
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tmp != (RF_DiskQueueData_t *) NULL && i < range;
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tmp = tmp->next, i++) {
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sum_dist_left += hdr->cur_block - tmp->sectorOffset;
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}
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for (i = 0, tmp = hdr->right, sum_dist_right =
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((hdr->direction == rf_cvscan_LEFT) ? range * hdr->change_penalty : 0);
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tmp != (RF_DiskQueueData_t *) NULL && i < range;
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tmp = tmp->next, i++) {
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sum_dist_right += tmp->sectorOffset - hdr->cur_block;
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}
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if (hdr->right_cnt == 0 || sum_dist_left < sum_dist_right) {
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hdr->direction = rf_cvscan_LEFT;
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hdr->cur_block = hdr->left->sectorOffset + hdr->left->numSector;
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hdr->left_cnt = RF_MAX(hdr->left_cnt - 1, 0);
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tmp = hdr->left;
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ret = (ReqDequeue(&hdr->left)) /*->parent*/ ;
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} else {
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hdr->direction = rf_cvscan_RIGHT;
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hdr->cur_block = hdr->right->sectorOffset + hdr->right->numSector;
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hdr->right_cnt = RF_MAX(hdr->right_cnt - 1, 0);
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tmp = hdr->right;
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ret = (ReqDequeue(&hdr->right)) /*->parent*/ ;
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}
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ReBalance(hdr);
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if (hdr->left_cnt == 0 && hdr->right_cnt == 0
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&& hdr->burner != (RF_DiskQueueData_t *) NULL) {
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/*
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** restore low priority requests for next dequeue
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*/
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RF_DiskQueueData_t *burner = hdr->burner;
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hdr->nxt_priority = burner->priority;
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while (burner != (RF_DiskQueueData_t *) NULL
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&& burner->priority == hdr->nxt_priority) {
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RF_DiskQueueData_t *next = burner->next;
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RealEnqueue(hdr, burner);
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burner = next;
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}
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hdr->burner = burner;
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}
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DO_CHECK_STATE(hdr);
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return (ret);
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}
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RF_DiskQueueData_t *
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rf_CvscanPeek(void *q_in)
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{
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RF_CvscanHeader_t *hdr = (RF_CvscanHeader_t *) q_in;
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long range, i, sum_dist_left, sum_dist_right;
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RF_DiskQueueData_t *tmp, *headElement;
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DO_CHECK_STATE(hdr);
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if (hdr->left_cnt == 0 && hdr->right_cnt == 0)
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headElement = NULL;
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else {
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range = RF_MIN(hdr->range_for_avg, RF_MIN(hdr->left_cnt, hdr->right_cnt));
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for (i = 0, tmp = hdr->left, sum_dist_left =
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((hdr->direction == rf_cvscan_RIGHT) ? range * hdr->change_penalty : 0);
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tmp != (RF_DiskQueueData_t *) NULL && i < range;
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tmp = tmp->next, i++) {
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sum_dist_left += hdr->cur_block - tmp->sectorOffset;
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}
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for (i = 0, tmp = hdr->right, sum_dist_right =
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((hdr->direction == rf_cvscan_LEFT) ? range * hdr->change_penalty : 0);
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tmp != (RF_DiskQueueData_t *) NULL && i < range;
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tmp = tmp->next, i++) {
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sum_dist_right += tmp->sectorOffset - hdr->cur_block;
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}
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if (hdr->right_cnt == 0 || sum_dist_left < sum_dist_right)
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headElement = hdr->left;
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else
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headElement = hdr->right;
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}
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return (headElement);
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}
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/*
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** CVSCAN( 1, 0 ) is Shortest Seek Time First (SSTF)
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** lowest average response time
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** CVSCAN( 1, infinity ) is SCAN
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** lowest response time standard deviation
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*/
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int
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rf_CvscanConfigure()
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{
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return (0);
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}
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void *
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rf_CvscanCreate(RF_SectorCount_t sectPerDisk,
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RF_AllocListElem_t * clList,
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RF_ShutdownList_t ** listp)
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{
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RF_CvscanHeader_t *hdr;
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long range = 2; /* Currently no mechanism to change these */
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long penalty = sectPerDisk / 5;
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RF_MallocAndAdd(hdr, sizeof(RF_CvscanHeader_t), (RF_CvscanHeader_t *), clList);
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bzero((char *) hdr, sizeof(RF_CvscanHeader_t));
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hdr->range_for_avg = RF_MAX(range, 1);
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hdr->change_penalty = RF_MAX(penalty, 0);
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hdr->direction = rf_cvscan_RIGHT;
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hdr->cur_block = 0;
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hdr->left_cnt = hdr->right_cnt = 0;
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hdr->left = hdr->right = (RF_DiskQueueData_t *) NULL;
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hdr->burner = (RF_DiskQueueData_t *) NULL;
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DO_CHECK_STATE(hdr);
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return ((void *) hdr);
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}
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#if defined(__NetBSD__) || defined(__FreeBSD__) && defined(_KERNEL)
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/* PrintCvscanQueue is not used, so we ignore it... */
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#else
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static void
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PrintCvscanQueue(RF_CvscanHeader_t * hdr)
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{
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RF_DiskQueueData_t *tmp;
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printf("CVSCAN(%d,%d) at %d going %s\n",
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(int) hdr->range_for_avg,
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(int) hdr->change_penalty,
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(int) hdr->cur_block,
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(hdr->direction == rf_cvscan_LEFT) ? "LEFT" : "RIGHT");
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printf("\tLeft(%d): ", hdr->left_cnt);
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for (tmp = hdr->left; tmp != (RF_DiskQueueData_t *) NULL; tmp = tmp->next)
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printf("(%d,%ld,%d) ",
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(int) tmp->sectorOffset,
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(long) (tmp->sectorOffset + tmp->numSector),
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tmp->priority);
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printf("\n");
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printf("\tRight(%d): ", hdr->right_cnt);
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for (tmp = hdr->right; tmp != (RF_DiskQueueData_t *) NULL; tmp = tmp->next)
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printf("(%d,%ld,%d) ",
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(int) tmp->sectorOffset,
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(long) (tmp->sectorOffset + tmp->numSector),
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tmp->priority);
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printf("\n");
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printf("\tBurner: ");
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for (tmp = hdr->burner; tmp != (RF_DiskQueueData_t *) NULL; tmp = tmp->next)
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printf("(%d,%ld,%d) ",
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(int) tmp->sectorOffset,
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(long) (tmp->sectorOffset + tmp->numSector),
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tmp->priority);
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printf("\n");
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}
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#endif
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/* promotes reconstruction accesses for the given stripeID to normal priority.
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* returns 1 if an access was found and zero otherwise. Normally, we should
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* only have one or zero entries in the burner queue, so execution time should
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* be short.
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*/
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int
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rf_CvscanPromote(void *q_in, RF_StripeNum_t parityStripeID, RF_ReconUnitNum_t which_ru)
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{
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RF_CvscanHeader_t *hdr = (RF_CvscanHeader_t *) q_in;
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RF_DiskQueueData_t *trailer = NULL, *tmp = hdr->burner, *tlist = NULL;
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int retval = 0;
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DO_CHECK_STATE(hdr);
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while (tmp) { /* handle entries at the front of the list */
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if (tmp->parityStripeID == parityStripeID && tmp->which_ru == which_ru) {
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hdr->burner = tmp->next;
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tmp->priority = RF_IO_NORMAL_PRIORITY;
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tmp->next = tlist;
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tlist = tmp;
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tmp = hdr->burner;
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} else
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break;
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}
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if (tmp) {
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trailer = tmp;
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tmp = tmp->next;
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}
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while (tmp) { /* handle entries on the rest of the list */
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if (tmp->parityStripeID == parityStripeID && tmp->which_ru == which_ru) {
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trailer->next = tmp->next;
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tmp->priority = RF_IO_NORMAL_PRIORITY;
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tmp->next = tlist;
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tlist = tmp; /* insert on a temp queue */
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tmp = trailer->next;
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} else {
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trailer = tmp;
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tmp = tmp->next;
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}
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}
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while (tlist) {
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retval++;
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tmp = tlist->next;
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RealEnqueue(hdr, tlist);
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tlist = tmp;
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}
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RF_ASSERT(retval == 0 || retval == 1);
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DO_CHECK_STATE((RF_CvscanHeader_t *) q_in);
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return (retval);
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}
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