Re: [Patch][RFC] Disabling per-tgid stats on task exit in taskstats

From: Andrew Morton
Date: Mon Jul 03 2006 - 17:45:13 EST


On Mon, 03 Jul 2006 17:11:59 -0400
Shailabh Nagar <nagar@xxxxxxxxxxxxxx> wrote:

> >>So the strawman is:
> >>Listener bind()s to genetlink using its real pid.
> >>Sends a separate "registration" message with cpumask to listen to.
> >>Kernel stores (real) pid and cpumask.
> >>During task exit, kernel goes through each registered listener (small
> >>list) and decides which
> >>one needs to get this exit data and calls a genetlink_unicast to each
> >>one that does need it.
> >>
> >>If number of listeners is small, the lookups should be swift enough. If
> >>it grows large, we
> >>can consider a fancier lookup (but there I go again, delving into
> >>implementation too early :-)
> >>
> >>
> >
> >We'll need a map.
> >
> >1024 CPUs, 1024 listeners, 1000 exits/sec/CPU and we're up to a million
> >operations per second per CPU. Meltdown.
> >
> >But it's a pretty simple map. A per-cpu array of pointers to the head of a
> >linked list. One lock for each CPU's list.
> >
> >
> Here's a patch that implements the above ideas.
>
> A listener register's interest by specifying a cpumask in the
> cpulist format (comma separated ranges of cpus). The listener's pid
> is entered into per-cpu lists for those cpus and exit events from those
> cpus go to the listeners using netlink unicasts.
>
> ...
>
> On systems with a large number of cpus, with even a modest rate of
> tasks exiting per cpu, the volume of taskstats data sent on thread exit
> can overflow a userspace listener's buffers.
>
> One approach to avoiding overflow is to allow listeners to get data for
> a limited and specific set of cpus. By scaling the number of listeners
> and/or the cpus they monitor, userspace can handle the statistical data
> overload more gracefully.
>
> In this patch, each listener registers to listen to a specific set of
> cpus by specifying a cpumask. The interest is recorded per-cpu. When
> a task exits on a cpu, its taskstats data is unicast to each listener
> interested in that cpu.

I think the approach is sane. The impementation needs work, as you say.

> +++ linux-2.6.17-mm3equiv/include/linux/taskstats_kern.h 2006-07-01 23:53:01.000000000 -0400
> @@ -19,20 +19,14 @@ enum {
> #ifdef CONFIG_TASKSTATS
> extern kmem_cache_t *taskstats_cache;
> extern struct mutex taskstats_exit_mutex;
> -
> -static inline int taskstats_has_listeners(void)
> -{
> - if (!genl_sock)
> - return 0;
> - return netlink_has_listeners(genl_sock, TASKSTATS_LISTEN_GROUP);
> -}
> -
> +DECLARE_PER_CPU(struct list_head, listener_list);
>
> static inline void taskstats_exit_alloc(struct taskstats **ptidstats)
> {
> *ptidstats = NULL;
> - if (taskstats_has_listeners())
> + if (!list_empty(&get_cpu_var(listener_list)))
> *ptidstats = kmem_cache_zalloc(taskstats_cache, SLAB_KERNEL);
> + put_cpu_var(listener_list);
> }

It's time to uninline this function..

> static inline void taskstats_exit_free(struct taskstats *tidstats)
> Index: linux-2.6.17-mm3equiv/kernel/taskstats.c
> ===================================================================
> --- linux-2.6.17-mm3equiv.orig/kernel/taskstats.c 2006-06-30 23:38:39.000000000 -0400
> +++ linux-2.6.17-mm3equiv/kernel/taskstats.c 2006-07-02 00:16:18.000000000 -0400
> @@ -19,6 +19,8 @@
> #include <linux/kernel.h>
> #include <linux/taskstats_kern.h>
> #include <linux/delayacct.h>
> +#include <linux/cpumask.h>
> +#include <linux/percpu.h>
> #include <net/genetlink.h>
> #include <asm/atomic.h>
>
> @@ -26,6 +28,9 @@ static DEFINE_PER_CPU(__u32, taskstats_s
> static int family_registered = 0;
> kmem_cache_t *taskstats_cache;
>
> +DEFINE_PER_CPU(struct list_head, listener_list);
> +static DEFINE_PER_CPU(struct rw_semaphore, listener_list_sem);

Which will permit listener_list to become static - it wasn't a good name
for a global anyway.

I suggest you implement a new

struct whatever {
struct rw_semaphore sem;
struct list_head list;
};

static DEFINE_PER_CPU(struct whatever, listener_aray);


> static int prepare_reply(struct genl_info *info, u8 cmd, struct sk_buff **skbp,
> void **replyp, size_t size)
> {
> @@ -77,6 +92,8 @@ static int prepare_reply(struct genl_inf
> static int send_reply(struct sk_buff *skb, pid_t pid, int event)
> {
> struct genlmsghdr *genlhdr = nlmsg_data((struct nlmsghdr *)skb->data);
> + struct rw_semaphore *sem;
> + struct list_head *p, *head;
> void *reply;
> int rc;
>
> @@ -88,9 +105,30 @@ static int send_reply(struct sk_buff *sk
> return rc;
> }
>
> - if (event == TASKSTATS_MSG_MULTICAST)
> - return genlmsg_multicast(skb, pid, TASKSTATS_LISTEN_GROUP);
> - return genlmsg_unicast(skb, pid);
> + if (event == TASKSTATS_MSG_UNICAST)
> + return genlmsg_unicast(skb, pid);
> +
> + /*
> + * Taskstats multicast is unicasts to listeners who have registered
> + * interest in this cpu
> + */
> + sem = &get_cpu_var(listener_list_sem);
> + head = &get_cpu_var(listener_list);

This has a double preempt_disable(), but the above will fix that.

> + down_read(sem);
> + list_for_each(p, head) {
> + int ret;
> + struct listener *s = list_entry(p, struct listener, list);
> + ret = genlmsg_unicast(skb, s->pid);
> + if (ret)
> + rc = ret;
> + }
> + up_read(sem);
> +
> + put_cpu_var(listener_list);
> + put_cpu_var(listener_list_sem);
> +
> + return rc;
> }
>
> static int fill_pid(pid_t pid, struct task_struct *pidtsk,
> @@ -201,8 +239,73 @@ ret:
> return;
> }
>
> +static int add_del_listener(pid_t pid, cpumask_t *maskp, int isadd)
> +{
> + struct listener *s;
> + unsigned int cpu, mycpu;
> + cpumask_t mask;
> + struct rw_semaphore *sem;
> + struct list_head *head, *p;
>
> -static int taskstats_send_stats(struct sk_buff *skb, struct genl_info *info)
> + memcpy(&mask, maskp, sizeof(cpumask_t));
> + if (cpus_empty(mask))
> + return -EINVAL;
> +
> + mycpu = get_cpu();
> + put_cpu();

This is effectively raw_smp_processor_id(). And after the put_cpu(),
`mycpu' is meaningless.

> + if (isadd == REGISTER) {
> + for_each_cpu_mask(cpu, mask) {
> + if (!cpu_possible(cpu))
> + continue;
> + if (cpu == mycpu)
> + preempt_disable();
> +
> + sem = &per_cpu(listener_list_sem, cpu);
> + head = &per_cpu(listener_list, cpu);
> +
> + s = kmalloc(sizeof(struct listener), GFP_KERNEL);

Cannot do GFP_KERNEL inside preempt_disable().

There's no easy solution to this problem. GFP_ATOMIC is not a good fix at
all. One approach would be to run lock_cpu_hotplug(), then allocate (with
GFP_KERNEL) all the memory which will be needed within the locked region,
then take the lock, then use that preallocated memory.

You should use kmalloc_node() here, to ensure that the memory on each CPU's
list resides with that CPU's local memory (not _this_ CPU's local memory).

> + if (!s)
> + return -ENOMEM;
> + s->pid = pid;
> + INIT_LIST_HEAD(&s->list);
> +
> + down_write(sem);
> + list_add(&s->list, head);
> + up_write(sem);
> +
> + if (cpu == mycpu)
> + preempt_enable();

Actually, I don't understand the tricks which are going on with the local CPU here.
What's it all for?


> + }
> + } else {
> + for_each_cpu_mask(cpu, mask) {
> + struct list_head *tmp;
> +
> + if (!cpu_possible(cpu))
> + continue;

I guess you could just do cpus_and(mask, cpus_possible_map) on entry.


> + if (cpu == mycpu)
> + preempt_disable();
> +
> + sem = &per_cpu(listener_list_sem, cpu);
> + head = &per_cpu(listener_list, cpu);
> +
> + down_write(sem);
> + list_for_each_safe(p, tmp, head) {
> + s = list_entry(p, struct listener, list);
> + if (s->pid == pid) {
> + list_del(&s->list);

kfree(s);

> + break;
> + }
> + }
> + up_write(sem);
> +
> + if (cpu == mycpu)
> + preempt_enable();
> + }
> + }
> + return 0;
> +}
> +
> +static int taskstats_user_cmd(struct sk_buff *skb, struct genl_info *info)
> {
> int rc = 0;
> struct sk_buff *rep_skb;
> @@ -210,6 +313,21 @@ static int taskstats_send_stats(struct s
> void *reply;
> size_t size;
> struct nlattr *na;
> + cpumask_t mask;
> +
> + if (info->attrs[TASKSTATS_CMD_ATTR_REGISTER_CPUMASK]) {
> + na = info->attrs[TASKSTATS_CMD_ATTR_REGISTER_CPUMASK];
> + cpulist_parse((char *)nla_data(na), mask);

OK, so we're passing in an ASCII string. Fair enough, I think. Paul would
know better.

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