Release 4.11 drivers/infiniband/hw/hfi1/affinity.c
/*
* Copyright(c) 2015, 2016 Intel Corporation.
*
* This file is provided under a dual BSD/GPLv2 license. When using or
* redistributing this file, you may do so under either license.
*
* GPL LICENSE SUMMARY
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* 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.
*
* BSD LICENSE
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* - Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* - 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.
* - Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT
* OWNER 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.
*
*/
#include <linux/topology.h>
#include <linux/cpumask.h>
#include <linux/module.h>
#include <linux/interrupt.h>
#include "hfi.h"
#include "affinity.h"
#include "sdma.h"
#include "trace.h"
struct hfi1_affinity_node_list node_affinity = {
.list = LIST_HEAD_INIT(node_affinity.list),
.lock = __MUTEX_INITIALIZER(node_affinity.lock)
};
/* Name of IRQ types, indexed by enum irq_type */
static const char * const irq_type_names[] = {
"SDMA",
"RCVCTXT",
"GENERAL",
"OTHER",
};
/* Per NUMA node count of HFI devices */
static unsigned int *hfi1_per_node_cntr;
static inline void init_cpu_mask_set(struct cpu_mask_set *set)
{
cpumask_clear(&set->mask);
cpumask_clear(&set->used);
set->gen = 0;
}
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/* Initialize non-HT cpu cores mask */
void init_real_cpu_mask(void)
{
int possible, curr_cpu, i, ht;
cpumask_clear(&node_affinity.real_cpu_mask);
/* Start with cpu online mask as the real cpu mask */
cpumask_copy(&node_affinity.real_cpu_mask, cpu_online_mask);
/*
* Remove HT cores from the real cpu mask. Do this in two steps below.
*/
possible = cpumask_weight(&node_affinity.real_cpu_mask);
ht = cpumask_weight(topology_sibling_cpumask(
cpumask_first(&node_affinity.real_cpu_mask)));
/*
* Step 1. Skip over the first N HT siblings and use them as the
* "real" cores. Assumes that HT cores are not enumerated in
* succession (except in the single core case).
*/
curr_cpu = cpumask_first(&node_affinity.real_cpu_mask);
for (i = 0; i < possible / ht; i++)
curr_cpu = cpumask_next(curr_cpu, &node_affinity.real_cpu_mask);
/*
* Step 2. Remove the remaining HT siblings. Use cpumask_next() to
* skip any gaps.
*/
for (; i < possible; i++) {
cpumask_clear_cpu(curr_cpu, &node_affinity.real_cpu_mask);
curr_cpu = cpumask_next(curr_cpu, &node_affinity.real_cpu_mask);
}
}
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int node_affinity_init(void)
{
int node;
struct pci_dev *dev = NULL;
const struct pci_device_id *ids = hfi1_pci_tbl;
cpumask_clear(&node_affinity.proc.used);
cpumask_copy(&node_affinity.proc.mask, cpu_online_mask);
node_affinity.proc.gen = 0;
node_affinity.num_core_siblings =
cpumask_weight(topology_sibling_cpumask(
cpumask_first(&node_affinity.proc.mask)
));
node_affinity.num_possible_nodes = num_possible_nodes();
node_affinity.num_online_nodes = num_online_nodes();
node_affinity.num_online_cpus = num_online_cpus();
/*
* The real cpu mask is part of the affinity struct but it has to be
* initialized early. It is needed to calculate the number of user
* contexts in set_up_context_variables().
*/
init_real_cpu_mask();
hfi1_per_node_cntr = kcalloc(node_affinity.num_possible_nodes,
sizeof(*hfi1_per_node_cntr), GFP_KERNEL);
if (!hfi1_per_node_cntr)
return -ENOMEM;
while (ids->vendor) {
dev = NULL;
while ((dev = pci_get_device(ids->vendor, ids->device, dev))) {
node = pcibus_to_node(dev->bus);
if (node < 0)
node = numa_node_id();
hfi1_per_node_cntr[node]++;
}
ids++;
}
return 0;
}
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void node_affinity_destroy(void)
{
struct list_head *pos, *q;
struct hfi1_affinity_node *entry;
mutex_lock(&node_affinity.lock);
list_for_each_safe(pos, q, &node_affinity.list) {
entry = list_entry(pos, struct hfi1_affinity_node,
list);
list_del(pos);
kfree(entry);
}
mutex_unlock(&node_affinity.lock);
kfree(hfi1_per_node_cntr);
}
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| Total | 73 | 100.00% | 3 | 100.00% |
static struct hfi1_affinity_node *node_affinity_allocate(int node)
{
struct hfi1_affinity_node *entry;
entry = kzalloc(sizeof(*entry), GFP_KERNEL);
if (!entry)
return NULL;
entry->node = node;
INIT_LIST_HEAD(&entry->list);
return entry;
}
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/*
* It appends an entry to the list.
* It *must* be called with node_affinity.lock held.
*/
static void node_affinity_add_tail(struct hfi1_affinity_node *entry)
{
list_add_tail(&entry->list, &node_affinity.list);
}
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/* It must be called with node_affinity.lock held */
static struct hfi1_affinity_node *node_affinity_lookup(int node)
{
struct list_head *pos;
struct hfi1_affinity_node *entry;
list_for_each(pos, &node_affinity.list) {
entry = list_entry(pos, struct hfi1_affinity_node, list);
if (entry->node == node)
return entry;
}
return NULL;
}
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/*
* Interrupt affinity.
*
* non-rcv avail gets a default mask that
* starts as possible cpus with threads reset
* and each rcv avail reset.
*
* rcv avail gets node relative 1 wrapping back
* to the node relative 1 as necessary.
*
*/
int hfi1_dev_affinity_init(struct hfi1_devdata *dd)
{
int node = pcibus_to_node(dd->pcidev->bus);
struct hfi1_affinity_node *entry;
const struct cpumask *local_mask;
int curr_cpu, possible, i;
if (node < 0)
node = numa_node_id();
dd->node = node;
local_mask = cpumask_of_node(dd->node);
if (cpumask_first(local_mask) >= nr_cpu_ids)
local_mask = topology_core_cpumask(0);
mutex_lock(&node_affinity.lock);
entry = node_affinity_lookup(dd->node);
/*
* If this is the first time this NUMA node's affinity is used,
* create an entry in the global affinity structure and initialize it.
*/
if (!entry) {
entry = node_affinity_allocate(node);
if (!entry) {
dd_dev_err(dd,
"Unable to allocate global affinity node\n");
mutex_unlock(&node_affinity.lock);
return -ENOMEM;
}
init_cpu_mask_set(&entry->def_intr);
init_cpu_mask_set(&entry->rcv_intr);
cpumask_clear(&entry->general_intr_mask);
/* Use the "real" cpu mask of this node as the default */
cpumask_and(&entry->def_intr.mask, &node_affinity.real_cpu_mask,
local_mask);
/* fill in the receive list */
possible = cpumask_weight(&entry->def_intr.mask);
curr_cpu = cpumask_first(&entry->def_intr.mask);
if (possible == 1) {
/* only one CPU, everyone will use it */
cpumask_set_cpu(curr_cpu, &entry->rcv_intr.mask);
cpumask_set_cpu(curr_cpu, &entry->general_intr_mask);
} else {
/*
* The general/control context will be the first CPU in
* the default list, so it is removed from the default
* list and added to the general interrupt list.
*/
cpumask_clear_cpu(curr_cpu, &entry->def_intr.mask);
cpumask_set_cpu(curr_cpu, &entry->general_intr_mask);
curr_cpu = cpumask_next(curr_cpu,
&entry->def_intr.mask);
/*
* Remove the remaining kernel receive queues from
* the default list and add them to the receive list.
*/
for (i = 0;
i < (dd->n_krcv_queues - 1) *
hfi1_per_node_cntr[dd->node];
i++) {
cpumask_clear_cpu(curr_cpu,
&entry->def_intr.mask);
cpumask_set_cpu(curr_cpu,
&entry->rcv_intr.mask);
curr_cpu = cpumask_next(curr_cpu,
&entry->def_intr.mask);
if (curr_cpu >= nr_cpu_ids)
break;
}
/*
* If there ends up being 0 CPU cores leftover for SDMA
* engines, use the same CPU cores as general/control
* context.
*/
if (cpumask_weight(&entry->def_intr.mask) == 0)
cpumask_copy(&entry->def_intr.mask,
&entry->general_intr_mask);
}
node_affinity_add_tail(entry);
}
mutex_unlock(&node_affinity.lock);
return 0;
}
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/*
* Function updates the irq affinity hint for msix after it has been changed
* by the user using the /proc/irq interface. This function only accepts
* one cpu in the mask.
*/
static void hfi1_update_sdma_affinity(struct hfi1_msix_entry *msix, int cpu)
{
struct sdma_engine *sde = msix->arg;
struct hfi1_devdata *dd = sde->dd;
struct hfi1_affinity_node *entry;
struct cpu_mask_set *set;
int i, old_cpu;
if (cpu > num_online_cpus() || cpu == sde->cpu)
return;
mutex_lock(&node_affinity.lock);
entry = node_affinity_lookup(dd->node);
if (!entry)
goto unlock;
old_cpu = sde->cpu;
sde->cpu = cpu;
cpumask_clear(&msix->mask);
cpumask_set_cpu(cpu, &msix->mask);
dd_dev_dbg(dd, "IRQ vector: %u, type %s engine %u -> cpu: %d\n",
msix->msix.vector, irq_type_names[msix->type],
sde->this_idx, cpu);
irq_set_affinity_hint(msix->msix.vector, &msix->mask);
/*
* Set the new cpu in the hfi1_affinity_node and clean
* the old cpu if it is not used by any other IRQ
*/
set = &entry->def_intr;
cpumask_set_cpu(cpu, &set->mask);
cpumask_set_cpu(cpu, &set->used);
for (i = 0; i < dd->num_msix_entries; i++) {
struct hfi1_msix_entry *other_msix;
other_msix = &dd->msix_entries[i];
if (other_msix->type != IRQ_SDMA || other_msix == msix)
continue;
if (cpumask_test_cpu(old_cpu, &other_msix->mask))
goto unlock;
}
cpumask_clear_cpu(old_cpu, &set->mask);
cpumask_clear_cpu(old_cpu, &set->used);
unlock:
mutex_unlock(&node_affinity.lock);
}
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static void hfi1_irq_notifier_notify(struct irq_affinity_notify *notify,
const cpumask_t *mask)
{
int cpu = cpumask_first(mask);
struct hfi1_msix_entry *msix = container_of(notify,
struct hfi1_msix_entry,
notify);
/* Only one CPU configuration supported currently */
hfi1_update_sdma_affinity(msix, cpu);
}
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static void hfi1_irq_notifier_release(struct kref *ref)
{
/*
* This is required by affinity notifier. We don't have anything to
* free here.
*/
}
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static void hfi1_setup_sdma_notifier(struct hfi1_msix_entry *msix)
{
struct irq_affinity_notify *notify = &msix->notify;
notify->irq = msix->msix.vector;
notify->notify = hfi1_irq_notifier_notify;
notify->release = hfi1_irq_notifier_release;
if (irq_set_affinity_notifier(notify->irq, notify))
pr_err("Failed to register sdma irq affinity notifier for irq %d\n",
notify->irq);
}
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static void hfi1_cleanup_sdma_notifier(struct hfi1_msix_entry *msix)
{
struct irq_affinity_notify *notify = &msix->notify;
if (irq_set_affinity_notifier(notify->irq, NULL))
pr_err("Failed to cleanup sdma irq affinity notifier for irq %d\n",
notify->irq);
}
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/*
* Function sets the irq affinity for msix.
* It *must* be called with node_affinity.lock held.
*/
static int get_irq_affinity(struct hfi1_devdata *dd,
struct hfi1_msix_entry *msix)
{
int ret;
cpumask_var_t diff;
struct hfi1_affinity_node *entry;
struct cpu_mask_set *set = NULL;
struct sdma_engine *sde = NULL;
struct hfi1_ctxtdata *rcd = NULL;
char extra[64];
int cpu = -1;
extra[0] = '\0';
cpumask_clear(&msix->mask);
ret = zalloc_cpumask_var(&diff, GFP_KERNEL);
if (!ret)
return -ENOMEM;
entry = node_affinity_lookup(dd->node);
switch (msix->type) {
case IRQ_SDMA:
sde = (struct sdma_engine *)msix->arg;
scnprintf(extra, 64, "engine %u", sde->this_idx);
set = &entry->def_intr;
break;
case IRQ_GENERAL:
cpu = cpumask_first(&entry->general_intr_mask);
break;
case IRQ_RCVCTXT:
rcd = (struct hfi1_ctxtdata *)msix->arg;
if (rcd->ctxt == HFI1_CTRL_CTXT)
cpu = cpumask_first(&entry->general_intr_mask);
else
set = &entry->rcv_intr;
scnprintf(extra, 64, "ctxt %u", rcd->ctxt);
break;
default:
dd_dev_err(dd, "Invalid IRQ type %d\n", msix->type);
return -EINVAL;
}
/*
* The general and control contexts are placed on a particular
* CPU, which is set above. Skip accounting for it. Everything else
* finds its CPU here.
*/
if (cpu == -1 && set) {
if (cpumask_equal(&set->mask, &set->used)) {
/*
* We've used up all the CPUs, bump up the generation
* and reset the 'used' map
*/
set->gen++;
cpumask_clear(&set->used);
}
cpumask_andnot(diff, &set->mask, &set->used);
cpu = cpumask_first(diff);
cpumask_set_cpu(cpu, &set->used);
}
cpumask_set_cpu(cpu, &msix->mask);
dd_dev_info(dd, "IRQ vector: %u, type %s %s -> cpu: %d\n",
msix->msix.vector, irq_type_names[msix->type],
extra, cpu);
irq_set_affinity_hint(msix->msix.vector, &msix->mask);
if (msix->type == IRQ_SDMA) {
sde->cpu = cpu;
hfi1_setup_sdma_notifier(msix);
}
free_cpumask_var(diff);
return 0;
}
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int hfi1_get_irq_affinity(struct hfi1_devdata *dd, struct hfi1_msix_entry *msix)
{
int ret;
mutex_lock(&node_affinity.lock);
ret = get_irq_affinity(dd, msix);
mutex_unlock(&node_affinity.lock);
return ret;
}
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void hfi1_put_irq_affinity(struct hfi1_devdata *dd,
struct hfi1_msix_entry *msix)
{
struct cpu_mask_set *set = NULL;
struct hfi1_ctxtdata *rcd;
struct hfi1_affinity_node *entry;
mutex_lock(&node_affinity.lock);
entry = node_affinity_lookup(dd->node);
switch (msix->type) {
case IRQ_SDMA:
set = &entry->def_intr;
hfi1_cleanup_sdma_notifier(msix);
break;
case IRQ_GENERAL:
/* Don't do accounting for general contexts */
break;
case IRQ_RCVCTXT:
rcd = (struct hfi1_ctxtdata *)msix->arg;
/* Don't do accounting for control contexts */
if (rcd->ctxt != HFI1_CTRL_CTXT)
set = &entry->rcv_intr;
break;
default:
mutex_unlock(&node_affinity.lock);
return;
}
if (set) {
cpumask_andnot(&set->used, &set->used, &msix->mask);
if (cpumask_empty(&set->used) && set->gen) {
set->gen--;
cpumask_copy(&set->used, &set->mask);
}
}
irq_set_affinity_hint(msix->msix.vector, NULL);
cpumask_clear(&msix->mask);
mutex_unlock(&node_affinity.lock);
}
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| Total | 204 | 100.00% | 6 | 100.00% |
/* This should be called with node_affinity.lock held */
static void find_hw_thread_mask(uint hw_thread_no, cpumask_var_t hw_thread_mask,
struct hfi1_affinity_node_list *affinity)
{
int possible, curr_cpu, i;
uint num_cores_per_socket = node_affinity.num_online_cpus /
affinity->num_core_siblings /
node_affinity.num_online_nodes;
cpumask_copy(hw_thread_mask, &affinity->proc.mask);
if (affinity->num_core_siblings > 0) {
/* Removing other siblings not needed for now */
possible = cpumask_weight(hw_thread_mask);
curr_cpu = cpumask_first(hw_thread_mask);
for (i = 0;
i < num_cores_per_socket * node_affinity.num_online_nodes;
i++)
curr_cpu = cpumask_next(curr_cpu, hw_thread_mask);
for (; i < possible; i++) {
cpumask_clear_cpu(curr_cpu, hw_thread_mask);
curr_cpu = cpumask_next(curr_cpu, hw_thread_mask);
}
/* Identifying correct HW threads within physical cores */
cpumask_shift_left(hw_thread_mask, hw_thread_mask,
num_cores_per_socket *
node_affinity.num_online_nodes *
hw_thread_no);
}
}
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int hfi1_get_proc_affinity(int node)
{
int cpu = -1, ret, i;
struct hfi1_affinity_node *entry;
cpumask_var_t diff, hw_thread_mask, available_mask, intrs_mask;
const struct cpumask *node_mask,
*proc_mask = ¤t->cpus_allowed;
struct hfi1_affinity_node_list *affinity = &node_affinity;
struct cpu_mask_set *set = &affinity->proc;
/*
* check whether process/context affinity has already
* been set
*/
if (cpumask_weight(proc_mask) == 1) {
hfi1_cdbg(PROC, "PID %u %s affinity set to CPU %*pbl",
current->pid, current->comm,
cpumask_pr_args(proc_mask));
/*
* Mark the pre-set CPU as used. This is atomic so we don't
* need the lock
*/
cpu = cpumask_first(proc_mask);
cpumask_set_cpu(cpu, &set->used);
goto done;
} else if (cpumask_weight(proc_mask) < cpumask_weight(&set->mask)) {
hfi1_cdbg(PROC, "PID %u %s affinity set to CPU set(s) %*pbl",
current->pid, current->comm,
cpumask_pr_args(proc_mask));
goto done;
}
/*
* The process does not have a preset CPU affinity so find one to
* recommend using the following algorithm:
*
* For each user process that is opening a context on HFI Y:
* a) If all cores are filled, reinitialize the bitmask
* b) Fill real cores first, then HT cores (First set of HT
* cores on all physical cores, then second set of HT core,
* and, so on) in the following order:
*
* 1. Same NUMA node as HFI Y and not running an IRQ
* handler
* 2. Same NUMA node as HFI Y and running an IRQ handler
* 3. Different NUMA node to HFI Y and not running an IRQ
* handler
* 4. Different NUMA node to HFI Y and running an IRQ
* handler
* c) Mark core as filled in the bitmask. As user processes are
* done, clear cores from the bitmask.
*/
ret = zalloc_cpumask_var(&diff, GFP_KERNEL);
if (!ret)
goto done;
ret = zalloc_cpumask_var(&hw_thread_mask, GFP_KERNEL);
if (!ret)
goto free_diff;
ret = zalloc_cpumask_var(&available_mask, GFP_KERNEL);
if (!ret)
goto free_hw_thread_mask;
ret = zalloc_cpumask_var(&intrs_mask, GFP_KERNEL);
if (!ret)
goto free_available_mask;
mutex_lock(&affinity->lock);
/*
* If we've used all available HW threads, clear the mask and start
* overloading.
*/
if (cpumask_equal(&set->mask, &set->used)) {
set->gen++;
cpumask_clear(&set->used);
}
/*
* If NUMA node has CPUs used by interrupt handlers, include them in the
* interrupt handler mask.
*/
entry = node_affinity_lookup(node);
if (entry) {
cpumask_copy(intrs_mask, (entry->def_intr.gen ?
&entry->def_intr.mask :
&entry->def_intr.used));
cpumask_or(intrs_mask, intrs_mask, (entry->rcv_intr.gen ?
&entry->rcv_intr.mask :
&entry->rcv_intr.used));
cpumask_or(intrs_mask, intrs_mask, &entry->general_intr_mask);
}
hfi1_cdbg(PROC, "CPUs used by interrupts: %*pbl",
cpumask_pr_args(intrs_mask));
cpumask_copy(hw_thread_mask, &set->mask);
/*
* If HT cores are enabled, identify which HW threads within the
* physical cores should be used.
*/
if (affinity->num_core_siblings > 0) {
for (i = 0; i < affinity->num_core_siblings; i++) {
find_hw_thread_mask(i, hw_thread_mask, affinity);
/*
* If there's at least one available core for this HW
* thread number, stop looking for a core.
*
* diff will always be not empty at least once in this
* loop as the used mask gets reset when
* (set->mask == set->used) before this loop.
*/
cpumask_andnot(diff, hw_thread_mask, &set->used);
if (!cpumask_empty(diff))
break;
}
}
hfi1_cdbg(PROC, "Same available HW thread on all physical CPUs: %*pbl",
cpumask_pr_args(hw_thread_mask));
node_mask = cpumask_of_node(node);
hfi1_cdbg(PROC, "Device on NUMA %u, CPUs %*pbl", node,
cpumask_pr_args(node_mask));
/* Get cpumask of available CPUs on preferred NUMA */
cpumask_and(available_mask, hw_thread_mask, node_mask);
cpumask_andnot(available_mask, available_mask, &set->used);
hfi1_cdbg(PROC, "Available CPUs on NUMA %u: %*pbl", node,
cpumask_pr_args(available_mask));
/*
* At first, we don't want to place processes on the same
* CPUs as interrupt handlers. Then, CPUs running interrupt
* handlers are used.
*
* 1) If diff is not empty, then there are CPUs not running
* non-interrupt handlers available, so diff gets copied
* over to available_mask.
* 2) If diff is empty, then all CPUs not running interrupt
* handlers are taken, so available_mask contains all
* available CPUs running interrupt handlers.
* 3) If available_mask is empty, then all CPUs on the
* preferred NUMA node are taken, so other NUMA nodes are
* used for process assignments using the same method as
* the preferred NUMA node.
*/
cpumask_andnot(diff, available_mask, intrs_mask);
if (!cpumask_empty(diff))
cpumask_copy(available_mask, diff);
/* If we don't have CPUs on the preferred node, use other NUMA nodes */
if (cpumask_empty(available_mask)) {
cpumask_andnot(available_mask, hw_thread_mask, &set->used);
/* Excluding preferred NUMA cores */
cpumask_andnot(available_mask, available_mask, node_mask);
hfi1_cdbg(PROC,
"Preferred NUMA node cores are taken, cores available in other NUMA nodes: %*pbl",
cpumask_pr_args(available_mask));
/*
* At first, we don't want to place processes on the same
* CPUs as interrupt handlers.
*/
cpumask_andnot(diff, available_mask, intrs_mask);
if (!cpumask_empty(diff))
cpumask_copy(available_mask, diff);
}
hfi1_cdbg(PROC, "Possible CPUs for process: %*pbl",
cpumask_pr_args(available_mask));
cpu = cpumask_first(available_mask);
if (cpu >= nr_cpu_ids) /* empty */
cpu = -1;
else
cpumask_set_cpu(cpu, &set->used);
mutex_unlock(&affinity->lock);
hfi1_cdbg(PROC, "Process assigned to CPU %d", cpu);
free_cpumask_var(intrs_mask);
free_available_mask:
free_cpumask_var(available_mask);
free_hw_thread_mask:
free_cpumask_var(hw_thread_mask);
free_diff:
free_cpumask_var(diff);
done:
return cpu;
}
Contributors
| Person | Tokens | Prop | Commits | CommitProp |
| Mitko Haralanov | 413 | 60.20% | 1 | 14.29% |
| Sebastian Sanchez | 229 | 33.38% | 2 | 28.57% |
| Leon Romanovsky | 21 | 3.06% | 1 | 14.29% |
| Dennis Dalessandro | 18 | 2.62% | 1 | 14.29% |
| Ingo Molnar | 3 | 0.44% | 1 | 14.29% |
| Tadeusz Struk | 2 | 0.29% | 1 | 14.29% |
| Total | 686 | 100.00% | 7 | 100.00% |
void hfi1_put_proc_affinity(int cpu)
{
struct hfi1_affinity_node_list *affinity = &node_affinity;
struct cpu_mask_set *set = &affinity->proc;
if (cpu < 0)
return;
mutex_lock(&affinity->lock);
cpumask_clear_cpu(cpu, &set->used);
hfi1_cdbg(PROC, "Returning CPU %d for future process assignment", cpu);
if (cpumask_empty(&set->used) && set->gen) {
set->gen--;
cpumask_copy(&set->used, &set->mask);
}
mutex_unlock(&affinity->lock);
}
Contributors
| Person | Tokens | Prop | Commits | CommitProp |
| Mitko Haralanov | 77 | 75.49% | 1 | 33.33% |
| Sebastian Sanchez | 23 | 22.55% | 1 | 33.33% |
| Tadeusz Struk | 2 | 1.96% | 1 | 33.33% |
| Total | 102 | 100.00% | 3 | 100.00% |
Overall Contributors
| Person | Tokens | Prop | Commits | CommitProp |
| Mitko Haralanov | 1262 | 41.39% | 1 | 9.09% |
| Sebastian Sanchez | 675 | 22.14% | 2 | 18.18% |
| Tadeusz Struk | 553 | 18.14% | 2 | 18.18% |
| Dennis Dalessandro | 408 | 13.38% | 1 | 9.09% |
| Jubin John | 118 | 3.87% | 2 | 18.18% |
| Leon Romanovsky | 21 | 0.69% | 1 | 9.09% |
| Harish Chegondi | 9 | 0.30% | 1 | 9.09% |
| Ingo Molnar | 3 | 0.10% | 1 | 9.09% |
| Total | 3049 | 100.00% | 11 | 100.00% |
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