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| /*
* ompt-specific.cpp -- OMPT internal functions
*/
//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//******************************************************************************
// include files
//******************************************************************************
#include "kmp.h"
#include "ompt-specific.h"
#if KMP_OS_UNIX
#include <dlfcn.h>
#endif
#if KMP_OS_WINDOWS
#define THREAD_LOCAL __declspec(thread)
#else
#define THREAD_LOCAL __thread
#endif
#define OMPT_WEAK_ATTRIBUTE KMP_WEAK_ATTRIBUTE
//******************************************************************************
// macros
//******************************************************************************
#define LWT_FROM_TEAM(team) (team)->t.ompt_serialized_team_info
#define OMPT_THREAD_ID_BITS 16
//******************************************************************************
// private operations
//******************************************************************************
//----------------------------------------------------------
// traverse the team and task hierarchy
// note: __ompt_get_teaminfo and __ompt_get_task_info_object
// traverse the hierarchy similarly and need to be
// kept consistent
//----------------------------------------------------------
ompt_team_info_t *__ompt_get_teaminfo(int depth, int *size) {
kmp_info_t *thr = ompt_get_thread();
if (thr) {
kmp_team *team = thr->th.th_team;
if (team == NULL)
return NULL;
ompt_lw_taskteam_t *next_lwt = LWT_FROM_TEAM(team), *lwt = NULL;
while (depth > 0) {
// next lightweight team (if any)
if (lwt)
lwt = lwt->parent;
// next heavyweight team (if any) after
// lightweight teams are exhausted
if (!lwt && team) {
if (next_lwt) {
lwt = next_lwt;
next_lwt = NULL;
} else {
team = team->t.t_parent;
if (team) {
next_lwt = LWT_FROM_TEAM(team);
}
}
}
depth--;
}
if (lwt) {
// lightweight teams have one task
if (size)
*size = 1;
// return team info for lightweight team
return &lwt->ompt_team_info;
} else if (team) {
// extract size from heavyweight team
if (size)
*size = team->t.t_nproc;
// return team info for heavyweight team
return &team->t.ompt_team_info;
}
}
return NULL;
}
ompt_task_info_t *__ompt_get_task_info_object(int depth) {
ompt_task_info_t *info = NULL;
kmp_info_t *thr = ompt_get_thread();
if (thr) {
kmp_taskdata_t *taskdata = thr->th.th_current_task;
ompt_lw_taskteam_t *lwt = NULL,
*next_lwt = LWT_FROM_TEAM(taskdata->td_team);
while (depth > 0) {
// next lightweight team (if any)
if (lwt)
lwt = lwt->parent;
// next heavyweight team (if any) after
// lightweight teams are exhausted
if (!lwt && taskdata) {
if (next_lwt) {
lwt = next_lwt;
next_lwt = NULL;
} else {
taskdata = taskdata->td_parent;
if (taskdata) {
next_lwt = LWT_FROM_TEAM(taskdata->td_team);
}
}
}
depth--;
}
if (lwt) {
info = &lwt->ompt_task_info;
} else if (taskdata) {
info = &taskdata->ompt_task_info;
}
}
return info;
}
ompt_task_info_t *__ompt_get_scheduling_taskinfo(int depth) {
ompt_task_info_t *info = NULL;
kmp_info_t *thr = ompt_get_thread();
if (thr) {
kmp_taskdata_t *taskdata = thr->th.th_current_task;
ompt_lw_taskteam_t *lwt = NULL,
*next_lwt = LWT_FROM_TEAM(taskdata->td_team);
while (depth > 0) {
// next lightweight team (if any)
if (lwt)
lwt = lwt->parent;
// next heavyweight team (if any) after
// lightweight teams are exhausted
if (!lwt && taskdata) {
// first try scheduling parent (for explicit task scheduling)
if (taskdata->ompt_task_info.scheduling_parent) {
taskdata = taskdata->ompt_task_info.scheduling_parent;
} else if (next_lwt) {
lwt = next_lwt;
next_lwt = NULL;
} else {
// then go for implicit tasks
taskdata = taskdata->td_parent;
if (taskdata) {
next_lwt = LWT_FROM_TEAM(taskdata->td_team);
}
}
}
depth--;
}
if (lwt) {
info = &lwt->ompt_task_info;
} else if (taskdata) {
info = &taskdata->ompt_task_info;
}
}
return info;
}
//******************************************************************************
// interface operations
//******************************************************************************
//----------------------------------------------------------
// thread support
//----------------------------------------------------------
ompt_data_t *__ompt_get_thread_data_internal() {
if (__kmp_get_gtid() >= 0) {
kmp_info_t *thread = ompt_get_thread();
if (thread == NULL)
return NULL;
return &(thread->th.ompt_thread_info.thread_data);
}
return NULL;
}
//----------------------------------------------------------
// state support
//----------------------------------------------------------
void __ompt_thread_assign_wait_id(void *variable) {
kmp_info_t *ti = ompt_get_thread();
if (ti)
ti->th.ompt_thread_info.wait_id = (ompt_wait_id_t)(uintptr_t)variable;
}
int __ompt_get_state_internal(ompt_wait_id_t *omp_wait_id) {
kmp_info_t *ti = ompt_get_thread();
if (ti) {
if (omp_wait_id)
*omp_wait_id = ti->th.ompt_thread_info.wait_id;
return ti->th.ompt_thread_info.state;
}
return ompt_state_undefined;
}
//----------------------------------------------------------
// parallel region support
//----------------------------------------------------------
int __ompt_get_parallel_info_internal(int ancestor_level,
ompt_data_t **parallel_data,
int *team_size) {
if (__kmp_get_gtid() >= 0) {
ompt_team_info_t *info;
if (team_size) {
info = __ompt_get_teaminfo(ancestor_level, team_size);
} else {
info = __ompt_get_teaminfo(ancestor_level, NULL);
}
if (parallel_data) {
*parallel_data = info ? &(info->parallel_data) : NULL;
}
return info ? 2 : 0;
} else {
return 0;
}
}
//----------------------------------------------------------
// lightweight task team support
//----------------------------------------------------------
void __ompt_lw_taskteam_init(ompt_lw_taskteam_t *lwt, kmp_info_t *thr, int gtid,
ompt_data_t *ompt_pid, void *codeptr) {
// initialize parallel_data with input, return address to parallel_data on
// exit
lwt->ompt_team_info.parallel_data = *ompt_pid;
lwt->ompt_team_info.master_return_address = codeptr;
lwt->ompt_task_info.task_data.value = 0;
lwt->ompt_task_info.frame.enter_frame = ompt_data_none;
lwt->ompt_task_info.frame.exit_frame = ompt_data_none;
lwt->ompt_task_info.scheduling_parent = NULL;
lwt->ompt_task_info.deps = NULL;
lwt->ompt_task_info.ndeps = 0;
lwt->heap = 0;
lwt->parent = 0;
}
void __ompt_lw_taskteam_link(ompt_lw_taskteam_t *lwt, kmp_info_t *thr,
int on_heap, bool always) {
ompt_lw_taskteam_t *link_lwt = lwt;
if (always ||
thr->th.th_team->t.t_serialized >
1) { // we already have a team, so link the new team and swap values
if (on_heap) { // the lw_taskteam cannot stay on stack, allocate it on heap
link_lwt =
(ompt_lw_taskteam_t *)__kmp_allocate(sizeof(ompt_lw_taskteam_t));
}
link_lwt->heap = on_heap;
// would be swap in the (on_stack) case.
ompt_team_info_t tmp_team = lwt->ompt_team_info;
link_lwt->ompt_team_info = *OMPT_CUR_TEAM_INFO(thr);
*OMPT_CUR_TEAM_INFO(thr) = tmp_team;
ompt_task_info_t tmp_task = lwt->ompt_task_info;
link_lwt->ompt_task_info = *OMPT_CUR_TASK_INFO(thr);
*OMPT_CUR_TASK_INFO(thr) = tmp_task;
// link the taskteam into the list of taskteams:
ompt_lw_taskteam_t *my_parent =
thr->th.th_team->t.ompt_serialized_team_info;
link_lwt->parent = my_parent;
thr->th.th_team->t.ompt_serialized_team_info = link_lwt;
} else {
// this is the first serialized team, so we just store the values in the
// team and drop the taskteam-object
*OMPT_CUR_TEAM_INFO(thr) = lwt->ompt_team_info;
*OMPT_CUR_TASK_INFO(thr) = lwt->ompt_task_info;
}
}
void __ompt_lw_taskteam_unlink(kmp_info_t *thr) {
ompt_lw_taskteam_t *lwtask = thr->th.th_team->t.ompt_serialized_team_info;
if (lwtask) {
thr->th.th_team->t.ompt_serialized_team_info = lwtask->parent;
ompt_team_info_t tmp_team = lwtask->ompt_team_info;
lwtask->ompt_team_info = *OMPT_CUR_TEAM_INFO(thr);
*OMPT_CUR_TEAM_INFO(thr) = tmp_team;
ompt_task_info_t tmp_task = lwtask->ompt_task_info;
lwtask->ompt_task_info = *OMPT_CUR_TASK_INFO(thr);
*OMPT_CUR_TASK_INFO(thr) = tmp_task;
if (lwtask->heap) {
__kmp_free(lwtask);
lwtask = NULL;
}
}
// return lwtask;
}
//----------------------------------------------------------
// task support
//----------------------------------------------------------
int __ompt_get_task_info_internal(int ancestor_level, int *type,
ompt_data_t **task_data,
ompt_frame_t **task_frame,
ompt_data_t **parallel_data,
int *thread_num) {
if (__kmp_get_gtid() < 0)
return 0;
if (ancestor_level < 0)
return 0;
// copied from __ompt_get_scheduling_taskinfo
ompt_task_info_t *info = NULL;
ompt_team_info_t *team_info = NULL;
kmp_info_t *thr = ompt_get_thread();
int level = ancestor_level;
if (thr) {
kmp_taskdata_t *taskdata = thr->th.th_current_task;
if (taskdata == NULL)
return 0;
kmp_team *team = thr->th.th_team, *prev_team = NULL;
if (team == NULL)
return 0;
ompt_lw_taskteam_t *lwt = NULL,
*next_lwt = LWT_FROM_TEAM(taskdata->td_team),
*prev_lwt = NULL;
while (ancestor_level > 0) {
// needed for thread_num
prev_team = team;
prev_lwt = lwt;
// next lightweight team (if any)
if (lwt)
lwt = lwt->parent;
// next heavyweight team (if any) after
// lightweight teams are exhausted
if (!lwt && taskdata) {
// first try scheduling parent (for explicit task scheduling)
if (taskdata->ompt_task_info.scheduling_parent) {
taskdata = taskdata->ompt_task_info.scheduling_parent;
} else if (next_lwt) {
lwt = next_lwt;
next_lwt = NULL;
} else {
// then go for implicit tasks
taskdata = taskdata->td_parent;
if (team == NULL)
return 0;
team = team->t.t_parent;
if (taskdata) {
next_lwt = LWT_FROM_TEAM(taskdata->td_team);
}
}
}
ancestor_level--;
}
if (lwt) {
info = &lwt->ompt_task_info;
team_info = &lwt->ompt_team_info;
if (type) {
*type = ompt_task_implicit;
}
} else if (taskdata) {
info = &taskdata->ompt_task_info;
team_info = &team->t.ompt_team_info;
if (type) {
if (taskdata->td_parent) {
*type = (taskdata->td_flags.tasktype ? ompt_task_explicit
: ompt_task_implicit) |
TASK_TYPE_DETAILS_FORMAT(taskdata);
} else {
*type = ompt_task_initial;
}
}
}
if (task_data) {
*task_data = info ? &info->task_data : NULL;
}
if (task_frame) {
// OpenMP spec asks for the scheduling task to be returned.
*task_frame = info ? &info->frame : NULL;
}
if (parallel_data) {
*parallel_data = team_info ? &(team_info->parallel_data) : NULL;
}
if (thread_num) {
if (level == 0)
*thread_num = __kmp_get_tid();
else if (prev_lwt)
*thread_num = 0;
else
*thread_num = prev_team->t.t_master_tid;
// *thread_num = team->t.t_master_tid;
}
return info ? 2 : 0;
}
return 0;
}
int __ompt_get_task_memory_internal(void **addr, size_t *size, int blocknum) {
if (blocknum != 0)
return 0; // support only a single block
kmp_info_t *thr = ompt_get_thread();
if (!thr)
return 0;
kmp_taskdata_t *taskdata = thr->th.th_current_task;
kmp_task_t *task = KMP_TASKDATA_TO_TASK(taskdata);
if (taskdata->td_flags.tasktype != TASK_EXPLICIT)
return 0; // support only explicit task
void *ret_addr;
int64_t ret_size = taskdata->td_size_alloc - sizeof(kmp_taskdata_t);
// kmp_task_t->data1 is an optional member
if (taskdata->td_flags.destructors_thunk)
ret_addr = &task->data1 + 1;
else
ret_addr = &task->part_id + 1;
ret_size -= (char *)(ret_addr) - (char *)(task);
if (ret_size < 0)
return 0;
*addr = ret_addr;
*size = ret_size;
return 1;
}
//----------------------------------------------------------
// team support
//----------------------------------------------------------
void __ompt_team_assign_id(kmp_team_t *team, ompt_data_t ompt_pid) {
team->t.ompt_team_info.parallel_data = ompt_pid;
}
//----------------------------------------------------------
// misc
//----------------------------------------------------------
static uint64_t __ompt_get_unique_id_internal() {
static uint64_t thread = 1;
static THREAD_LOCAL uint64_t ID = 0;
if (ID == 0) {
uint64_t new_thread = KMP_TEST_THEN_INC64((kmp_int64 *)&thread);
ID = new_thread << (sizeof(uint64_t) * 8 - OMPT_THREAD_ID_BITS);
}
return ++ID;
}
ompt_sync_region_t __ompt_get_barrier_kind(enum barrier_type bt,
kmp_info_t *thr) {
if (bt == bs_forkjoin_barrier)
return ompt_sync_region_barrier_implicit;
if (bt != bs_plain_barrier)
return ompt_sync_region_barrier_implementation;
if (!thr->th.th_ident)
return ompt_sync_region_barrier;
kmp_int32 flags = thr->th.th_ident->flags;
if ((flags & KMP_IDENT_BARRIER_EXPL) != 0)
return ompt_sync_region_barrier_explicit;
if ((flags & KMP_IDENT_BARRIER_IMPL) != 0)
return ompt_sync_region_barrier_implicit;
return ompt_sync_region_barrier_implementation;
}
|