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path: root/drivers/misc/sgi-gru/grumain.c
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/*
 * SN Platform GRU Driver
 *
 *            DRIVER TABLE MANAGER + GRU CONTEXT LOAD/UNLOAD
 *
 *  Copyright (c) 2008 Silicon Graphics, Inc.  All Rights Reserved.
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307 USA
 */

#include <linux/kernel.h>
#include <linux/slab.h>
#include <linux/mm.h>
#include <linux/spinlock.h>
#include <linux/sched.h>
#include <linux/device.h>
#include <linux/list.h>
#include <asm/uv/uv_hub.h>
#include "gru.h"
#include "grutables.h"
#include "gruhandles.h"

unsigned long gru_options __read_mostly;

static struct device_driver gru_driver = {
	.name = "gru"
};

static struct device gru_device = {
	.init_name = "",
	.driver = &gru_driver,
};

struct device *grudev = &gru_device;

/*
 * Select a gru fault map to be used by the current cpu. Note that
 * multiple cpus may be using the same map.
 *	ZZZ should "shift" be used?? Depends on HT cpu numbering
 *	ZZZ should be inline but did not work on emulator
 */
int gru_cpu_fault_map_id(void)
{
	return uv_blade_processor_id() % GRU_NUM_TFM;
}

/*--------- ASID Management -------------------------------------------
 *
 *  Initially, assign asids sequentially from MIN_ASID .. MAX_ASID.
 *  Once MAX is reached, flush the TLB & start over. However,
 *  some asids may still be in use. There won't be many (percentage wise) still
 *  in use. Search active contexts & determine the value of the first
 *  asid in use ("x"s below). Set "limit" to this value.
 *  This defines a block of assignable asids.
 *
 *  When "limit" is reached, search forward from limit+1 and determine the
 *  next block of assignable asids.
 *
 *  Repeat until MAX_ASID is reached, then start over again.
 *
 *  Each time MAX_ASID is reached, increment the asid generation. Since
 *  the search for in-use asids only checks contexts with GRUs currently
 *  assigned, asids in some contexts will be missed. Prior to loading
 *  a context, the asid generation of the GTS asid is rechecked. If it
 *  doesn't match the current generation, a new asid will be assigned.
 *
 *   	0---------------x------------x---------------------x----|
 *	  ^-next	^-limit	   				^-MAX_ASID
 *
 * All asid manipulation & context loading/unloading is protected by the
 * gs_lock.
 */

/* Hit the asid limit. Start over */
static int gru_wrap_asid(struct gru_state *gru)
{
	gru_dbg(grudev, "gid %d\n", gru->gs_gid);
	STAT(asid_wrap);
	gru->gs_asid_gen++;
	return MIN_ASID;
}

/* Find the next chunk of unused asids */
static int gru_reset_asid_limit(struct gru_state *gru, int asid)
{
	int i, gid, inuse_asid, limit;

	gru_dbg(grudev, "gid %d, asid 0x%x\n", gru->gs_gid, asid);
	STAT(asid_next);
	limit = MAX_ASID;
	if (asid >= limit)
		asid = gru_wrap_asid(gru);
	gru_flush_all_tlb(gru);
	gid = gru->gs_gid;
again:
	for (i = 0; i < GRU_NUM_CCH; i++) {
		if (!gru->gs_gts[i] || is_kernel_context(gru->gs_gts[i]))
			continue;
		inuse_asid = gru->gs_gts[i]->ts_gms->ms_asids[gid].mt_asid;
		gru_dbg(grudev, "gid %d, gts %p, gms %p, inuse 0x%x, cxt %d\n",
			gru->gs_gid, gru->gs_gts[i], gru->gs_gts[i]->ts_gms,
			inuse_asid, i);
		if (inuse_asid == asid) {
			asid += ASID_INC;
			if (asid >= limit) {
				/*
				 * empty range: reset the range limit and
				 * start over
				 */
				limit = MAX_ASID;
				if (asid >= MAX_ASID)
					asid = gru_wrap_asid(gru);
				goto again;
			}
		}

		if ((inuse_asid > asid) && (inuse_asid < limit))
			limit = inuse_asid;
	}
	gru->gs_asid_limit = limit;
	gru->gs_asid = asid;
	gru_dbg(grudev, "gid %d, new asid 0x%x, new_limit 0x%x\n", gru->gs_gid,
					asid, limit);
	return asid;
}

/* Assign a new ASID to a thread context.  */
static int gru_assign_asid(struct gru_state *gru)
{
	int asid;

	gru->gs_asid += ASID_INC;
	asid = gru->gs_asid;
	if (asid >= gru->gs_asid_limit)
		asid = gru_reset_asid_limit(gru, asid);

	gru_dbg(grudev, "gid %d, asid 0x%x\n", gru->gs_gid, asid);
	return asid;
}

/*
 * Clear n bits in a word. Return a word indicating the bits that were cleared.
 * Optionally, build an array of chars that contain the bit numbers allocated.
 */
static unsigned long reserve_resources(unsigned long *p, int n, int mmax,
				       char *idx)
{
	unsigned long bits = 0;
	int i;

	while (n--) {
		i = find_first_bit(p, mmax);
		if (i == mmax)
			BUG();
		__clear_bit(i, p);
		__set_bit(i, &bits);
		if (idx)
			*idx++ = i;
	}
	return bits;
}

unsigned long gru_reserve_cb_resources(struct gru_state *gru, int cbr_au_count,
				       char *cbmap)
{
	return reserve_resources(&gru->gs_cbr_map, cbr_au_count, GRU_CBR_AU,
				 cbmap);
}

unsigned long gru_reserve_ds_resources(struct gru_state *gru, int dsr_au_count,
				       char *dsmap)
{
	return reserve_resources(&gru->gs_dsr_map, dsr_au_count, GRU_DSR_AU,
				 dsmap);
}

static void reserve_gru_resources(struct gru_state *gru,
				  struct gru_thread_state *gts)
{
	gru->gs_active_contexts++;
	gts->ts_cbr_map =
	    gru_reserve_cb_resources(gru, gts->ts_cbr_au_count,
				     gts->ts_cbr_idx);
	gts->ts_dsr_map =
	    gru_reserve_ds_resources(gru, gts->ts_dsr_au_count, NULL);
}

static void free_gru_resources(struct gru_state *gru,
			       struct gru_thread_state *gts)
{
	gru->gs_active_contexts--;
	gru->gs_cbr_map |= gts->ts_cbr_map;
	gru->gs_dsr_map |= gts->ts_dsr_map;
}

/*
 * Check if a GRU has sufficient free resources to satisfy an allocation
 * request. Note: GRU locks may or may not be held when this is called. If
 * not held, recheck after acquiring the appropriate locks.
 *
 * Returns 1 if sufficient resources, 0 if not
 */
static int check_gru_resources(struct gru_state *gru, int cbr_au_count,
			       int dsr_au_count, int max_active_contexts)
{
	return hweight64(gru->gs_cbr_map) >= cbr_au_count
		&& hweight64(gru->gs_dsr_map) >= dsr_au_count
		&& gru->gs_active_contexts < max_active_contexts;
}

/*
 * TLB manangment requires tracking all GRU chiplets that have loaded a GSEG
 * context.
 */
static int gru_load_mm_tracker(struct gru_state *gru,
					struct gru_thread_state *gts)
{
	struct gru_mm_struct *gms = gts->ts_gms;
	struct gru_mm_tracker *asids = &gms->ms_asids[gru->gs_gid];
	unsigned short ctxbitmap = (1 << gts->ts_ctxnum);
	int asid;

	spin_lock(&gms->ms_asid_lock);
	asid = asids->mt_asid;

	spin_lock(&gru->gs_asid_lock);
	if (asid == 0 || (asids->mt_ctxbitmap == 0 && asids->mt_asid_gen !=
			  gru->gs_asid_gen)) {
		asid = gru_assign_asid(gru);
		asids->mt_asid = asid;
		asids->mt_asid_gen = gru->gs_asid_gen;
		STAT(asid_new);
	} else {
		STAT(asid_reuse);
	}
	spin_unlock(&gru->gs_asid_lock);

	BUG_ON(asids->mt_ctxbitmap & ctxbitmap);
	asids->mt_ctxbitmap |= ctxbitmap;
	if (!test_bit(gru->gs_gid, gms->ms_asidmap))
		__set_bit(gru->gs_gid, gms->ms_asidmap);
	spin_unlock(&gms->ms_asid_lock);

	gru_dbg(grudev,
		"gid %d, gts %p, gms %p, ctxnum %d, asid 0x%x, asidmap 0x%lx\n",
		gru->gs_gid, gts, gms, gts->ts_ctxnum, asid,
		gms->ms_asidmap[0]);
	return asid;
}

static void gru_unload_mm_tracker(struct gru_state *gru,
					struct gru_thread_state *gts)
{
	struct gru_mm_struct *gms = gts->ts_gms;
	struct gru_mm_tracker *asids;
	unsigned short ctxbitmap;

	asids = &gms->ms_asids[gru->gs_gid];
	ctxbitmap = (1 << gts->ts_ctxnum);
	spin_lock(&gms->ms_asid_lock);
	spin_lock(&gru->gs_asid_lock);
	BUG_ON((asids->mt_ctxbitmap & ctxbitmap) != ctxbitmap);
	asids->mt_ctxbitmap ^= ctxbitmap;
	gru_dbg(grudev, "gid %d, gts %p, gms %p, ctxnum 0x%d, asidmap 0x%lx\n",
		gru->gs_gid, gts, gms, gts->ts_ctxnum, gms->ms_asidmap[0]);
	spin_unlock(&gru->gs_asid_lock);
	spin_unlock(&gms->ms_asid_lock);
}

/*
 * Decrement the reference count on a GTS structure. Free the structure
 * if the reference count goes to zero.
 */
void gts_drop(struct gru_thread_state *gts)
{
	if (gts && atomic_dec_return(&gts->ts_refcnt) == 0) {
		gru_drop_mmu_notifier(gts->ts_gms);
		kfree(gts);
		STAT(gts_free);
	}
}

/*
 * Locate the GTS structure for the current thread.
 */
static struct gru_thread_state *gru_find_current_gts_nolock(struct gru_vma_data
			    *vdata, int tsid)
{
	struct gru_thread_state *gts;

	list_for_each_entry(gts, &vdata->vd_head, ts_next)
	    if (gts->ts_tsid == tsid)
		return gts;
	return NULL;
}

/*
 * Allocate a thread state structure.
 */
struct gru_thread_state *gru_alloc_gts(struct vm_area_struct *vma,
		int cbr_au_count, int dsr_au_count, int options, int tsid)
{
	struct gru_thread_state *gts;
	int bytes;

	bytes = DSR_BYTES(dsr_au_count) + CBR_BYTES(cbr_au_count);
	bytes += sizeof(struct gru_thread_state);
	gts = kmalloc(bytes, GFP_KERNEL);
	if (!gts)
		return NULL;

	STAT(gts_alloc);
	memset(gts, 0, sizeof(struct gru_thread_state)); /* zero out header */
	atomic_set(&gts->ts_refcnt, 1);
	mutex_init(&gts->ts_ctxlock);
	gts->ts_cbr_au_count = cbr_au_count;
	gts->ts_dsr_au_count = dsr_au_count;
	gts->ts_user_options = options;
	gts->ts_tsid = tsid;
	gts->ts_ctxnum = NULLCTX;
	gts->ts_tlb_int_select = -1;
	gts->ts_cch_req_slice = -1;
	gts->ts_sizeavail = GRU_SIZEAVAIL(PAGE_SHIFT);
	if (vma) {
		gts->ts_mm = current->mm;
		gts->ts_vma = vma;
		gts->ts_gms = gru_register_mmu_notifier();
		if (!gts->ts_gms)
			goto err;
	}

	gru_dbg(grudev, "alloc gts %p\n", gts);
	return gts;

err:
	gts_drop(gts);
	return NULL;
}

/*
 * Allocate a vma private data structure.
 */
struct gru_vma_data *gru_alloc_vma_data(struct vm_area_struct *vma, int tsid)
{
	struct gru_vma_data *vdata = NULL;

	vdata = kmalloc(sizeof(*vdata), GFP_KERNEL);
	if (!vdata)
		return NULL;

	INIT_LIST_HEAD(&vdata->vd_head);
	spin_lock_init(&vdata->vd_lock);
	gru_dbg(grudev, "alloc vdata %p\n", vdata);
	return vdata;
}

/*
 * Find the thread state structure for the current thread.
 */
struct gru_thread_state *gru_find_thread_state(struct vm_area_struct *vma,
					int tsid)
{
	struct gru_vma_data *vdata = vma->vm_private_data;
	struct gru_thread_state *gts;

	spin_lock(&vdata->vd_lock);
	gts = gru_find_current_gts_nolock(vdata, tsid);
	spin_unlock(&vdata->vd_lock);
	gru_dbg(grudev, "vma %p, gts %p\n", vma, gts);
	return gts;
}

/*
 * Allocate a new thread state for a GSEG. Note that races may allow
 * another thread to race to create a gts.
 */
struct gru_thread_state *gru_alloc_thread_state(struct vm_area_struct *vma,
					int tsid)
{
	struct gru_vma_data *vdata = vma->vm_private_data;
	struct gru_thread_state *gts, *ngts;

	gts = gru_alloc_gts(vma, vdata->vd_cbr_au_count, vdata->vd_dsr_au_count,
			    vdata->vd_user_options, tsid);
	if (!gts)
		return NULL;

	spin_lock(&vdata->vd_lock);
	ngts = gru_find_current_gts_nolock(vdata, tsid);
	if (ngts) {
		gts_drop(gts);
		gts = ngts;
		STAT(gts_double_allocate);
	} else {
		list_add(&gts->ts_next, &vdata->vd_head);
	}
	spin_unlock(&vdata->vd_lock);
	gru_dbg(grudev, "vma %p, gts %p\n", vma, gts);
	return gts;
}

/*
 * Free the GRU context assigned to the thread state.
 */
static void gru_free_gru_context(struct gru_thread_state *gts)
{
	struct gru_state *gru;

	gru = gts->ts_gru;
	gru_dbg(grudev, "gts %p, gid %d\n", gts, gru->gs_gid);

	spin_lock(&gru->gs_lock);
	gru->gs_gts[gts->ts_ctxnum] = NULL;
	free_gru_resources(gru, gts);
	BUG_ON(test_bit(gts->ts_ctxnum, &gru->gs_context_map) == 0);
	__clear_bit(gts->ts_ctxnum, &gru->gs_context_map);
	gts->ts_ctxnum = NULLCTX;
	gts->ts_gru = NULL;
	gts->ts_blade = -1;
	spin_unlock(&gru->gs_lock);

	gts_drop(gts);
	STAT(free_context);
}

/*
 * Prefetching cachelines help hardware performance.
 * (Strictly a performance enhancement. Not functionally required).
 */
static void prefetch_data(void *p, int num, int stride)
{
	while (num-- > 0) {
		prefetchw(p);
		p += stride;
	}
}

static inline long gru_copy_handle(void *d, void *s)
{
	memcpy(d, s, GRU_HANDLE_BYTES);
	return GRU_HANDLE_BYTES;
}

static void gru_prefetch_context(void *gseg, void *cb, void *cbe,
				unsigned long cbrmap, unsigned long length)
{
	int i, scr;

	prefetch_data(gseg + GRU_DS_BASE, length / GRU_CACHE_LINE_BYTES,
		      GRU_CACHE_LINE_BYTES);

	for_each_cbr_in_allocation_map(i, &cbrmap, scr) {
		prefetch_data(cb, 1, GRU_CACHE_LINE_BYTES);
		prefetch_data(cbe + i * GRU_HANDLE_STRIDE, 1,
			      GRU_CACHE_LINE_BYTES);
		cb += GRU_HANDLE_STRIDE;
	}
}

static void gru_load_context_data(void *save, void *grubase, int ctxnum,
				  unsigned long cbrmap, unsigned long dsrmap,
				  int data_valid)
{
	void *gseg, *cb, *cbe;
	unsigned long length;
	int i, scr;

	gseg = grubase + ctxnum * GRU_GSEG_STRIDE;
	cb = gseg + GRU_CB_BASE;
	cbe = grubase + GRU_CBE_BASE;
	length = hweight64(dsrmap) * GRU_DSR_AU_BYTES;
	gru_prefetch_context(gseg, cb, cbe, cbrmap, length);

	for_each_cbr_in_allocation_map(i, &cbrmap, scr) {
		if (data_valid) {
			save += gru_copy_handle(cb, save);
			save += gru_copy_handle(cbe + i * GRU_HANDLE_STRIDE,
						save);
		} else {
			memset(cb, 0, GRU_CACHE_LINE_BYTES);
			memset(cbe + i * GRU_HANDLE_STRIDE, 0,
						GRU_CACHE_LINE_BYTES);
		}
		cb += GRU_HANDLE_STRIDE;
	}

	if (data_valid)
		memcpy(gseg + GRU_DS_BASE, save, length);
	else
		memset(gseg + GRU_DS_BASE, 0, length);
}

static void gru_unload_context_data(void *save, void *grubase, int ctxnum,
				    unsigned long cbrmap, unsigned long dsrmap)
{
	void *gseg, *cb, *cbe;
	unsigned long length;
	int i, scr;

	gseg = grubase + ctxnum * GRU_GSEG_STRIDE;
	cb = gseg + GRU_CB_BASE;
	cbe = grubase + GRU_CBE_BASE;
	length = hweight64(dsrmap) * GRU_DSR_AU_BYTES;
	gru_prefetch_context(gseg, cb, cbe, cbrmap, length);

	for_each_cbr_in_allocation_map(i, &cbrmap, scr) {
		save += gru_copy_handle(save, cb);
		save += gru_copy_handle(save, cbe + i * GRU_HANDLE_STRIDE);
		cb += GRU_HANDLE_STRIDE;
	}
	memcpy(save, gseg + GRU_DS_BASE, length);
}

void gru_unload_context(struct gru_thread_state *gts, int savestate)
{
	struct gru_state *gru = gts->ts_gru;
	struct gru_context_configuration_handle *cch;
	int ctxnum = gts->ts_ctxnum;

	if (!is_kernel_context(gts))
		zap_vma_ptes(gts->ts_vma, UGRUADDR(gts), GRU_GSEG_PAGESIZE);
	cch = get_cch(gru->gs_gru_base_vaddr, ctxnum);

	gru_dbg(grudev, "gts %p\n", gts);
	lock_cch_handle(cch);
	if (cch_interrupt_sync(cch))
		BUG();

	if (!is_kernel_context(gts))
		gru_unload_mm_tracker(gru, gts);
	if (savestate) {
		gru_unload_context_data(gts->ts_gdata, gru->gs_gru_base_vaddr,
					ctxnum, gts->ts_cbr_map,
					gts->ts_dsr_map);
		gts->ts_data_valid = 1;
	}

	if (cch_deallocate(cch))
		BUG();
	gts->ts_force_unload = 0;	/* ts_force_unload locked by CCH lock */
	unlock_cch_handle(cch);

	gru_free_gru_context(gts);
}

/*
 * Load a GRU context by copying it from the thread data structure in memory
 * to the GRU.
 */
void gru_load_context(struct gru_thread_state *gts)
{
	struct gru_state *gru = gts->ts_gru;
	struct gru_context_configuration_handle *cch;
	int i, err, asid, ctxnum = gts->ts_ctxnum;

	gru_dbg(grudev, "gts %p\n", gts);
	cch = get_cch(gru->gs_gru_base_vaddr, ctxnum);

	lock_cch_handle(cch);
	cch->tfm_fault_bit_enable =
	    (gts->ts_user_options == GRU_OPT_MISS_FMM_POLL
	     || gts->ts_user_options == GRU_OPT_MISS_FMM_INTR);
	cch->tlb_int_enable = (gts->ts_user_options == GRU_OPT_MISS_FMM_INTR);
	if (cch->tlb_int_enable) {
		gts->ts_tlb_int_select = gru_cpu_fault_map_id();
		cch->tlb_int_select = gts->ts_tlb_int_select;
	}
	if (gts->ts_cch_req_slice >= 0) {
		cch->req_slice_set_enable = 1;
		cch->req_slice = gts->ts_cch_req_slice;
	} else {
		cch->req_slice_set_enable =0;
	}
	cch->tfm_done_bit_enable = 0;
	cch->dsr_allocation_map = gts->ts_dsr_map;
	cch->cbr_allocation_map = gts->ts_cbr_map;

	if (is_kernel_context(gts)) {
		cch->unmap_enable = 1;
		cch->tfm_done_bit_enable = 1;
		cch->cb_int_enable = 1;
	} else {
		cch->unmap_enable = 0;
		cch->tfm_done_bit_enable = 0;
		cch->cb_int_enable = 0;
		asid = gru_load_mm_tracker(gru, gts);
		for (i = 0; i < 8; i++) {
			cch->asid[i] = asid + i;
			cch->sizeavail[i] = gts->ts_sizeavail;
		}
	}

	err = cch_allocate(cch);
	if (err) {
		gru_dbg(grudev,
			"err %d: cch %p, gts %p, cbr 0x%lx, dsr 0x%lx\n",
			err, cch, gts, gts->ts_cbr_map, gts->ts_dsr_map);
		BUG();
	}

	gru_load_context_data(gts->ts_gdata, gru->gs_gru_base_vaddr, ctxnum,
			gts->ts_cbr_map, gts->ts_dsr_map, gts->ts_data_valid);

	if (cch_start(cch))
		BUG();
	unlock_cch_handle(cch);
}

/*
 * Update fields in an active CCH:
 * 	- retarget interrupts on local blade
 * 	- update sizeavail mask
 * 	- force a delayed context unload by clearing the CCH asids. This
 * 	  forces TLB misses for new GRU instructions. The context is unloaded
 * 	  when the next TLB miss occurs.
 */
int gru_update_cch(struct gru_thread_state *gts, int force_unload)
{
	struct gru_context_configuration_handle *cch;
	struct gru_state *gru = gts->ts_gru;
	int i, ctxnum = gts->ts_ctxnum, ret = 0;

	cch = get_cch(gru->gs_gru_base_vaddr, ctxnum);

	lock_cch_handle(cch);
	if (cch->state == CCHSTATE_ACTIVE) {
		if (gru->gs_gts[gts->ts_ctxnum] != gts)
			goto exit;
		if (cch_interrupt(cch))
			BUG();
		if (!force_unload) {
			for (i = 0; i < 8; i++)
				cch->sizeavail[i] = gts->ts_sizeavail;
			gts->ts_tlb_int_select = gru_cpu_fault_map_id();
			cch->tlb_int_select = gru_cpu_fault_map_id();
			cch->tfm_fault_bit_enable =
			  (gts->ts_user_options == GRU_OPT_MISS_FMM_POLL
			    || gts->ts_user_options == GRU_OPT_MISS_FMM_INTR);
		} else {
			for (i = 0; i < 8; i++)
				cch->asid[i] = 0;
			cch->tfm_fault_bit_enable = 0;
			cch->tlb_int_enable = 0;
			gts->ts_force_unload = 1;
		}
		if (cch_start(cch))
			BUG();
		ret = 1;
	}
exit:
	unlock_cch_handle(cch);
	return ret;
}

/*
 * Update CCH tlb interrupt select. Required when all the following is true:
 * 	- task's GRU context is loaded into a GRU
 * 	- task is using interrupt notification for TLB faults
 * 	- task has migrated to a different cpu on the same blade where
 * 	  it was previously running.
 */
static int gru_retarget_intr(struct gru_thread_state *gts)
{
	if (gts->ts_tlb_int_select < 0
	    || gts->ts_tlb_int_select == gru_cpu_fault_map_id())
		return 0;

	gru_dbg(grudev, "retarget from %d to %d\n", gts->ts_tlb_int_select,
		gru_cpu_fault_map_id());
	return gru_update_cch(gts, 0);
}


/*
 * Insufficient GRU resources available on the local blade. Steal a context from
 * a process. This is a hack until a _real_ resource scheduler is written....
 */
#define next_ctxnum(n)	((n) <  GRU_NUM_CCH - 2 ? (n) + 1 : 0)
#define next_gru(b, g)	(((g) < &(b)->bs_grus[GRU_CHIPLETS_PER_BLADE - 1]) ?  \
				 ((g)+1) : &(b)->bs_grus[0])

static int is_gts_stealable(struct gru_thread_state *gts,
		struct gru_blade_state *bs)
{
	if (is_kernel_context(gts))
		return down_write_trylock(&bs->bs_kgts_sema);
	else
		return mutex_trylock(&gts->ts_ctxlock);
}

static void gts_stolen(struct gru_thread_state *gts,
		struct gru_blade_state *bs)
{
	if (is_kernel_context(gts)) {
		up_write(&bs->bs_kgts_sema);
		STAT(steal_kernel_context);
	} else {
		mutex_unlock(&gts->ts_ctxlock);
		STAT(steal_user_context);
	}
}

void gru_steal_context(struct gru_thread_state *gts, int blade_id)
{
	struct gru_blade_state *blade;
	struct gru_state *gru, *gru0;
	struct gru_thread_state *ngts = NULL;
	int ctxnum, ctxnum0, flag = 0, cbr, dsr;

	cbr = gts->ts_cbr_au_count;
	dsr = gts->ts_dsr_au_count;

	blade = gru_base[blade_id];
	spin_lock(&blade->bs_lock);

	ctxnum = next_ctxnum(blade->bs_lru_ctxnum);
	gru = blade->bs_lru_gru;
	if (ctxnum == 0)
		gru = next_gru(blade, gru);
	ctxnum0 = ctxnum;
	gru0 = gru;
	while (1) {
		if (check_gru_resources(gru, cbr, dsr, GRU_NUM_CCH))
			break;
		spin_lock(&gru->gs_lock);
		for (; ctxnum < GRU_NUM_CCH; ctxnum++) {
			if (flag && gru == gru0 && ctxnum == ctxnum0)
				break;
			ngts = gru->gs_gts[ctxnum];
			/*
			 * We are grabbing locks out of order, so trylock is
			 * needed. GTSs are usually not locked, so the odds of
			 * success are high. If trylock fails, try to steal a
			 * different GSEG.
			 */
			if (ngts && is_gts_stealable(ngts, blade))
				break;
			ngts = NULL;
			flag = 1;
		}
		spin_unlock(&gru->gs_lock);
		if (ngts || (flag && gru == gru0 && ctxnum == ctxnum0))
			break;
		ctxnum = 0;
		gru = next_gru(blade, gru);
	}
	blade->bs_lru_gru = gru;
	blade->bs_lru_ctxnum = ctxnum;
	spin_unlock(&blade->bs_lock);

	if (ngts) {
		gts->ustats.context_stolen++;
		ngts->ts_steal_jiffies = jiffies;
		gru_unload_context(ngts, is_kernel_context(ngts) ? 0 : 1);
		gts_stolen(ngts, blade);
	} else {
		STAT(steal_context_failed);
	}
	gru_dbg(grudev,
		"stole gid %d, ctxnum %d from gts %p. Need cb %d, ds %d;"
		" avail cb %ld, ds %ld\n",
		gru->gs_gid, ctxnum, ngts, cbr, dsr, hweight64(gru->gs_cbr_map),
		hweight64(gru->gs_dsr_map));
}

/*
 * Scan the GRUs on the local blade & assign a GRU context.
 */
struct gru_state *gru_assign_gru_context(struct gru_thread_state *gts,
						int blade)
{
	struct gru_state *gru, *grux;
	int i, max_active_contexts;


again:
	gru = NULL;
	max_active_contexts = GRU_NUM_CCH;
	for_each_gru_on_blade(grux, blade, i) {
		if (check_gru_resources(grux, gts->ts_cbr_au_count,
					gts->ts_dsr_au_count,
					max_active_contexts)) {
			gru = grux;
			max_active_contexts = grux->gs_active_contexts;
			if (max_active_contexts == 0)
				break;
		}
	}

	if (gru) {
		spin_lock(&gru->gs_lock);
		if (!check_gru_resources(gru, gts->ts_cbr_au_count,
					 gts->ts_dsr_au_count, GRU_NUM_CCH)) {
			spin_unlock(&gru->gs_lock);
			goto again;
		}
		reserve_gru_resources(gru, gts);
		gts->ts_gru = gru;
		gts->ts_blade = gru->gs_blade_id;
		gts->ts_ctxnum =
		    find_first_zero_bit(&gru->gs_context_map, GRU_NUM_CCH);
		BUG_ON(gts->ts_ctxnum == GRU_NUM_CCH);
		atomic_inc(&gts->ts_refcnt);
		gru->gs_gts[gts->ts_ctxnum] = gts;
		__set_bit(gts->ts_ctxnum, &gru->gs_context_map);
		spin_unlock(&gru->gs_lock);

		STAT(assign_context);
		gru_dbg(grudev,
			"gseg %p, gts %p, gid %d, ctx %d, cbr %d, dsr %d\n",
			gseg_virtual_address(gts->ts_gru, gts->ts_ctxnum), gts,
			gts->ts_gru->gs_gid, gts->ts_ctxnum,
			gts->ts_cbr_au_count, gts->ts_dsr_au_count);
	} else {
		gru_dbg(grudev, "failed to allocate a GTS %s\n", "");
		STAT(assign_context_failed);
	}

	return gru;
}

/*
 * gru_nopage
 *
 * Map the user's GRU segment
 *
 * 	Note: gru segments alway mmaped on GRU_GSEG_PAGESIZE boundaries.
 */
int gru_fault(struct vm_area_struct *vma, struct vm_fault *vmf)
{
	struct gru_thread_state *gts;
	unsigned long paddr, vaddr;
	int blade_id;

	vaddr = (unsigned long)vmf->virtual_address;
	gru_dbg(grudev, "vma %p, vaddr 0x%lx (0x%lx)\n",
		vma, vaddr, GSEG_BASE(vaddr));
	STAT(nopfn);

	/* The following check ensures vaddr is a valid address in the VMA */
	gts = gru_find_thread_state(vma, TSID(vaddr, vma));
	if (!gts)
		return VM_FAULT_SIGBUS;

again:
	mutex_lock(&gts->ts_ctxlock);
	preempt_disable();
	blade_id = uv_numa_blade_id();

	if (gts->ts_gru) {
		if (gts->ts_gru->gs_blade_id != blade_id) {
			STAT(migrated_nopfn_unload);
			gru_unload_context(gts, 1);
		} else {
			if (gru_retarget_intr(gts))
				STAT(migrated_nopfn_retarget);
		}
	}

	if (!gts->ts_gru) {
		STAT(load_user_context);
		if (!gru_assign_gru_context(gts, blade_id)) {
			preempt_enable();
			mutex_unlock(&gts->ts_ctxlock);
			set_current_state(TASK_INTERRUPTIBLE);
			schedule_timeout(GRU_ASSIGN_DELAY);  /* true hack ZZZ */
			blade_id = uv_numa_blade_id();
			if (gts->ts_steal_jiffies + GRU_STEAL_DELAY < jiffies)
				gru_steal_context(gts, blade_id);
			goto again;
		}
		gru_load_context(gts);
		paddr = gseg_physical_address(gts->ts_gru, gts->ts_ctxnum);
		remap_pfn_range(vma, vaddr & ~(GRU_GSEG_PAGESIZE - 1),
				paddr >> PAGE_SHIFT, GRU_GSEG_PAGESIZE,
				vma->vm_page_prot);
	}

	preempt_enable();
	mutex_unlock(&gts->ts_ctxlock);

	return VM_FAULT_NOPAGE;
}

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