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/*
* Copyright (c) 2015 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef included_vlib_threads_h
#define included_vlib_threads_h
#include <vlib/main.h>
#include <vppinfra/callback.h>
#ifdef __linux__
#include <linux/sched.h>
#elif __FreeBSD__
#include <sys/sched.h>
#endif /* __linux__ */
void vlib_set_thread_name (char *name);
/* arg is actually a vlib__thread_t * */
typedef void (vlib_thread_function_t) (void *arg);
typedef struct vlib_thread_registration_
{
/* constructor generated list of thread registrations */
struct vlib_thread_registration_ *next;
/* config parameters */
char *name;
char *short_name;
vlib_thread_function_t *function;
uword mheap_size;
int fixed_count;
u32 count;
int no_data_structure_clone;
u32 frame_queue_nelts;
/* All threads of this type run on pthreads */
int use_pthreads;
u32 first_index;
uword *coremask;
} vlib_thread_registration_t;
#define VLIB_LOG2_THREAD_STACK_SIZE (21)
#define VLIB_THREAD_STACK_SIZE (1<<VLIB_LOG2_THREAD_STACK_SIZE)
typedef struct
{
CLIB_CACHE_LINE_ALIGN_MARK (cacheline0);
volatile u32 valid;
u32 maybe_trace : 1;
u32 n_vectors;
u32 offset;
STRUCT_MARK (end_of_reset);
CLIB_CACHE_LINE_ALIGN_MARK (cacheline1);
u32 buffer_index[VLIB_FRAME_SIZE];
u32 aux_data[VLIB_FRAME_SIZE];
}
vlib_frame_queue_elt_t;
typedef struct
{
/* First cache line */
CLIB_CACHE_LINE_ALIGN_MARK (cacheline0);
volatile u32 *wait_at_barrier;
volatile u32 *workers_at_barrier;
/* Second Cache Line */
CLIB_CACHE_LINE_ALIGN_MARK (cacheline1);
void *thread_mheap;
u8 *thread_stack;
void (*thread_function) (void *);
void *thread_function_arg;
i64 recursion_level;
elog_track_t elog_track;
u32 instance_id;
vlib_thread_registration_t *registration;
u8 *name;
u64 barrier_sync_count;
u8 barrier_elog_enabled;
const char *barrier_caller;
const char *barrier_context;
volatile u32 *node_reforks_required;
volatile u32 wait_before_barrier;
volatile u32 workers_before_barrier;
volatile u32 done_work_before_barrier;
long lwp;
int cpu_id;
int core_id;
int numa_id;
pthread_t thread_id;
} vlib_worker_thread_t;
extern vlib_worker_thread_t *vlib_worker_threads;
typedef struct
{
/* static data */
CLIB_CACHE_LINE_ALIGN_MARK (cacheline0);
vlib_frame_queue_elt_t *elts;
u64 vector_threshold;
u64 trace;
u32 nelts;
/* modified by enqueue side */
CLIB_CACHE_LINE_ALIGN_MARK (cacheline1);
volatile u64 tail;
/* modified by dequeue side */
CLIB_CACHE_LINE_ALIGN_MARK (cacheline2);
volatile u64 head;
}
vlib_frame_queue_t;
struct vlib_frame_queue_main_t_;
typedef u32 (vlib_frame_queue_dequeue_fn_t) (
vlib_main_t *vm, struct vlib_frame_queue_main_t_ *fqm);
typedef struct vlib_frame_queue_main_t_
{
u32 node_index;
u32 frame_queue_nelts;
vlib_frame_queue_t **vlib_frame_queues;
/* for frame queue tracing */
frame_queue_trace_t *frame_queue_traces;
frame_queue_nelt_counter_t *frame_queue_histogram;
vlib_frame_queue_dequeue_fn_t *frame_queue_dequeue_fn;
} vlib_frame_queue_main_t;
typedef struct
{
uword node_index;
uword type_opaque;
uword data;
} vlib_process_signal_event_mt_args_t;
/* Called early, in thread 0's context */
clib_error_t *vlib_thread_init (vlib_main_t * vm);
void vlib_worker_thread_node_runtime_update (void);
void vlib_create_worker_threads (vlib_main_t * vm, int n,
void (*thread_function) (void *));
void vlib_worker_thread_init (vlib_worker_thread_t * w);
u32 vlib_frame_queue_main_init (u32 node_index, u32 frame_queue_nelts);
/* Check for a barrier sync request every 30ms */
#define BARRIER_SYNC_DELAY (0.030000)
#if CLIB_DEBUG > 0
/* long barrier timeout, for gdb... */
#define BARRIER_SYNC_TIMEOUT (600.1)
#else
#define BARRIER_SYNC_TIMEOUT (1.0)
#endif
#define vlib_worker_thread_barrier_sync(X) {vlib_worker_thread_barrier_sync_int(X, __FUNCTION__);}
void vlib_worker_thread_barrier_sync_int (vlib_main_t * vm,
const char *func_name);
void vlib_worker_thread_barrier_release (vlib_main_t * vm);
u8 vlib_worker_thread_barrier_held (void);
void vlib_worker_thread_initial_barrier_sync_and_release (vlib_main_t * vm);
void vlib_worker_thread_node_refork (void);
/**
* Wait until each of the workers has been once around the track
*/
void vlib_worker_wait_one_loop (void);
/**
* Flush worker's pending rpc requests to main thread's rpc queue
*/
void vlib_worker_flush_pending_rpc_requests (vlib_main_t *vm);
static_always_inline uword
vlib_get_thread_index (void)
{
return __os_thread_index;
}
always_inline void
vlib_smp_unsafe_warning (void)
{
if (CLIB_DEBUG > 0)
{
if (vlib_get_thread_index ())
fformat (stderr, "%s: SMP unsafe warning...\n", __FUNCTION__);
}
}
always_inline int
__foreach_vlib_main_helper (vlib_main_t *ii, vlib_main_t **p)
{
vlib_main_t *vm;
u32 index = ii - (vlib_main_t *) 0;
if (index >= vec_len (vlib_global_main.vlib_mains))
return 0;
*p = vm = vlib_global_main.vlib_mains[index];
ASSERT (index == 0 || vm->parked_at_barrier == 1);
return 1;
}
#define foreach_vlib_main() \
for (vlib_main_t *ii = 0, *this_vlib_main; \
__foreach_vlib_main_helper (ii, &this_vlib_main); ii++) \
if (this_vlib_main)
#define foreach_sched_policy_posix \
_ (SCHED_OTHER, OTHER, "other") \
_ (SCHED_FIFO, FIFO, "fifo") \
_ (SCHED_RR, RR, "rr")
#define foreach_sched_policy_linux \
_ (SCHED_BATCH, BATCH, "batch") \
_ (SCHED_IDLE, IDLE, "idle")
#ifdef __linux__
#define foreach_sched_policy \
foreach_sched_policy_posix foreach_sched_policy_linux
#else
#define foreach_sched_policy foreach_sched_policy_posix
#endif /* __linux__ */
typedef enum
{
#define _(v,f,s) SCHED_POLICY_##f = v,
foreach_sched_policy
#undef _
SCHED_POLICY_N,
} sched_policy_t;
typedef struct
{
/* Link list of registrations, built by constructors */
vlib_thread_registration_t *next;
/* Vector of registrations, w/ non-data-structure clones at the top */
vlib_thread_registration_t **registrations;
uword *thread_registrations_by_name;
vlib_worker_thread_t *worker_threads;
int use_pthreads;
int use_main_core_auto;
/* Number of vlib_main / vnet_main clones */
u32 n_vlib_mains;
/* Number of thread stacks to create */
u32 n_thread_stacks;
/* Number of pthreads */
u32 n_pthreads;
/* Number of threads */
u32 n_threads;
/* Number of cores to skip, must match the core mask */
u32 skip_cores;
/* Thread prefix name */
u8 *thread_prefix;
/* main thread lcore */
u32 main_lcore;
/* Bitmap of available CPU cores */
uword *cpu_core_bitmap;
/* Bitmap of available CPU sockets (NUMA nodes) */
uword *cpu_socket_bitmap;
/* Bitmap of CPU affinity for VPP process */
uword *cpu_affinity_bitmap;
/* Worker handoff queues */
vlib_frame_queue_main_t *frame_queue_mains;
/* worker thread initialization barrier */
volatile u32 worker_thread_release;
/* scheduling policy */
u32 sched_policy;
/* scheduling policy priority */
u32 sched_priority;
/* NUMA-bound heap size */
uword numa_heap_size;
} vlib_thread_main_t;
extern vlib_thread_main_t vlib_thread_main;
#include <vlib/global_funcs.h>
#define VLIB_REGISTER_THREAD(x,...) \
__VA_ARGS__ vlib_thread_registration_t x; \
static void __vlib_add_thread_registration_##x (void) \
__attribute__((__constructor__)) ; \
static void __vlib_add_thread_registration_##x (void) \
{ \
vlib_thread_main_t * tm = &vlib_thread_main; \
x.next = tm->next; \
tm->next = &x; \
} \
static void __vlib_rm_thread_registration_##x (void) \
__attribute__((__destructor__)) ; \
static void __vlib_rm_thread_registration_##x (void) \
{ \
vlib_thread_main_t * tm = &vlib_thread_main; \
VLIB_REMOVE_FROM_LINKED_LIST (tm->next, &x, next); \
} \
__VA_ARGS__ vlib_thread_registration_t x
always_inline u32
vlib_num_workers ()
{
return vlib_thread_main.n_vlib_mains - 1;
}
always_inline u32
vlib_get_worker_thread_index (u32 worker_index)
{
return worker_index + 1;
}
always_inline u32
vlib_get_worker_index (u32 thread_index)
{
return thread_index - 1;
}
always_inline u32
vlib_get_current_worker_index ()
{
return vlib_get_thread_index () - 1;
}
static inline void
vlib_worker_thread_barrier_check (void)
{
if (PREDICT_FALSE (*vlib_worker_threads->wait_at_barrier))
{
vlib_global_main_t *vgm = vlib_get_global_main ();
vlib_main_t *vm = vlib_get_main ();
u32 thread_index = vm->thread_index;
f64 t = vlib_time_now (vm);
if (PREDICT_FALSE (vec_len (vm->barrier_perf_callbacks) != 0))
clib_call_callbacks (vm->barrier_perf_callbacks, vm,
vm->clib_time.last_cpu_time, 0 /* enter */ );
if (PREDICT_FALSE (vlib_worker_threads->barrier_elog_enabled))
{
vlib_worker_thread_t *w = vlib_worker_threads + thread_index;
ELOG_TYPE_DECLARE (e) = {
.format = "barrier-wait-thread-%d",
.format_args = "i4",
};
struct
{
u32 thread_index;
} __clib_packed *ed;
ed = ELOG_TRACK_DATA (&vlib_global_main.elog_main, e, w->elog_track);
ed->thread_index = thread_index;
}
if (CLIB_DEBUG > 0)
{
vm = vlib_get_main ();
vm->parked_at_barrier = 1;
}
clib_atomic_fetch_add (vlib_worker_threads->workers_at_barrier, 1);
while (*vlib_worker_threads->wait_at_barrier)
;
/*
* Recompute the offset from thread-0 time.
* Note that vlib_time_now adds vm->time_offset, so
* clear it first. Save the resulting idea of "now", to
* see how well we're doing. See show_clock_command_fn(...)
*/
{
f64 now;
vm->time_offset = 0.0;
now = vlib_time_now (vm);
vm->time_offset = vgm->vlib_mains[0]->time_last_barrier_release - now;
vm->time_last_barrier_release = vlib_time_now (vm);
}
if (CLIB_DEBUG > 0)
vm->parked_at_barrier = 0;
clib_atomic_fetch_add (vlib_worker_threads->workers_at_barrier, -1);
if (PREDICT_FALSE (*vlib_worker_threads->node_reforks_required))
{
if (PREDICT_FALSE (vlib_worker_threads->barrier_elog_enabled))
{
t = vlib_time_now (vm) - t;
vlib_worker_thread_t *w = vlib_worker_threads + thread_index;
ELOG_TYPE_DECLARE (e) = {
.format = "barrier-refork-thread-%d",
.format_args = "i4",
};
struct
{
u32 thread_index;
} __clib_packed *ed;
ed = ELOG_TRACK_DATA (&vlib_global_main.elog_main, e,
w->elog_track);
ed->thread_index = thread_index;
}
vlib_worker_thread_node_refork ();
clib_atomic_fetch_add (vlib_worker_threads->node_reforks_required,
-1);
while (*vlib_worker_threads->node_reforks_required)
;
}
if (PREDICT_FALSE (vlib_worker_threads->barrier_elog_enabled))
{
t = vlib_time_now (vm) - t;
vlib_worker_thread_t *w = vlib_worker_threads + thread_index;
ELOG_TYPE_DECLARE (e) = {
.format = "barrier-released-thread-%d: %dus",
.format_args = "i4i4",
};
struct
{
u32 thread_index;
u32 duration;
} __clib_packed *ed;
ed = ELOG_TRACK_DATA (&vlib_global_main.elog_main, e, w->elog_track);
ed->thread_index = thread_index;
ed->duration = (int) (1000000.0 * t);
}
if (PREDICT_FALSE (vec_len (vm->barrier_perf_callbacks) != 0))
clib_call_callbacks (vm->barrier_perf_callbacks, vm,
vm->clib_time.last_cpu_time, 1 /* leave */ );
}
}
always_inline vlib_main_t *
vlib_get_worker_vlib_main (u32 worker_index)
{
vlib_main_t *vm;
vlib_thread_main_t *tm = &vlib_thread_main;
ASSERT (worker_index < tm->n_vlib_mains - 1);
vm = vlib_get_main_by_index (worker_index + 1);
ASSERT (vm);
return vm;
}
static inline u8
vlib_thread_is_main_w_barrier (void)
{
return (!vlib_num_workers ()
|| ((vlib_get_thread_index () == 0
&& vlib_worker_threads->wait_at_barrier[0])));
}
u8 *vlib_thread_stack_init (uword thread_index);
extern void *rpc_call_main_thread_cb_fn;
void
vlib_process_signal_event_mt_helper (vlib_process_signal_event_mt_args_t *
args);
void vlib_rpc_call_main_thread (void *function, u8 * args, u32 size);
void vlib_get_thread_core_numa (vlib_worker_thread_t * w, unsigned cpu_id);
vlib_thread_main_t *vlib_get_thread_main_not_inline (void);
/**
* Force workers sync from within worker
*
* Must be paired with @ref vlib_workers_continue
*/
void vlib_workers_sync (void);
/**
* Release barrier after workers sync
*/
void vlib_workers_continue (void);
#endif /* included_vlib_threads_h */
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/