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# RTEMS Tools Project (http://www.rtems.org/)
# Copyright 2010-2015 Chris Johns (chrisj@rtems.org)
# All rights reserved.
#
# This file is part of the RTEMS Tools package in 'rtems-tools'.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# 1. Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
#
# 2. 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.
#
# 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 HOLDER 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.
#
#
# RTEMS Threads Support
#
import gdb
import chains
import objects
import percpu
import rbtrees
import time
def task_chain(chain):
tasks = []
if not chain.empty():
node = chain.first()
while not node.null():
t = control(node.cast('Thread_Control'))
tasks.append(t)
node = node(node.next())
return tasks
def task_tree(tree):
tasks = []
node = tree.first(rbtrees.rbt_left)
while not node.null():
tasks.append(control(node.cast('Thread_Control')))
node = node.next(rbtrees.rbt_left)
return tasks
class state():
ALL_SET = 0x000fffff
READY = 0x00000000
DORMANT = 0x00000001
SUSPENDED = 0x00000002
TRANSIENT = 0x00000004
DELAYING = 0x00000008
WAITING_FOR_TIME = 0x00000010
WAITING_FOR_BUFFER = 0x00000020
WAITING_FOR_SEGMENT = 0x00000040
WAITING_FOR_MESSAGE = 0x00000080
WAITING_FOR_EVENT = 0x00000100
WAITING_FOR_SEMAPHORE = 0x00000200
WAITING_FOR_MUTEX = 0x00000400
WAITING_FOR_CONDITION_VARIABLE = 0x00000800
WAITING_FOR_JOIN_AT_EXIT = 0x00001000
WAITING_FOR_RPC_REPLY = 0x00002000
WAITING_FOR_PERIOD = 0x00004000
WAITING_FOR_SIGNAL = 0x00008000
WAITING_FOR_BARRIER = 0x00010000
WAITING_FOR_RWLOCK = 0x00020000
INTERRUPTIBLE_BY_SIGNAL = 0x10000000
LOCALLY_BLOCKED = \
WAITING_FOR_BUFFER | \
WAITING_FOR_SEGMENT | \
WAITING_FOR_MESSAGE | \
WAITING_FOR_SEMAPHORE | \
WAITING_FOR_MUTEX | \
WAITING_FOR_CONDITION_VARIABLE | \
WAITING_FOR_JOIN_AT_EXIT | \
WAITING_FOR_SIGNAL | \
WAITING_FOR_BARRIER | \
WAITING_FOR_RWLOCK
WAITING_ON_THREAD_QUEUE = \
LOCALLY_BLOCKED | WAITING_FOR_RPC_REPLY
BLOCKED = \
DELAYING | \
WAITING_FOR_TIME | \
WAITING_FOR_PERIOD | \
WAITING_FOR_EVENT | \
WAITING_ON_THREAD_QUEUE | \
INTERRUPTIBLE_BY_SIGNAL
masks = {
ALL_SET : 'all-set',
READY : 'ready',
DORMANT : 'dormant',
SUSPENDED : 'suspended',
TRANSIENT : 'transient',
DELAYING : 'delaying',
WAITING_FOR_TIME : 'waiting-for-time',
WAITING_FOR_BUFFER : 'waiting-for-buffer',
WAITING_FOR_SEGMENT : 'waiting-for-segment',
WAITING_FOR_MESSAGE : 'waiting-for-message',
WAITING_FOR_EVENT : 'waiting-for-event',
WAITING_FOR_SEMAPHORE : 'waiting-for-semaphore',
WAITING_FOR_MUTEX : 'waiting-for-mutex',
WAITING_FOR_CONDITION_VARIABLE : 'waiting-for-condition-variable',
WAITING_FOR_JOIN_AT_EXIT : 'waiting-for-join-at-exit',
WAITING_FOR_RPC_REPLY : 'waiting-for-rpc-reply',
WAITING_FOR_PERIOD : 'waiting-for-period',
WAITING_FOR_SIGNAL : 'waiting-for-signal',
WAITING_FOR_BARRIER : 'waiting-for-barrier',
WAITING_FOR_RWLOCK : 'waiting-for-rwlock'
}
def __init__(self, s):
self.s = s
def to_string(self):
if (self.s & self.LOCALLY_BLOCKED) == self.LOCALLY_BLOCKED:
return 'locally-blocked'
if (self.s & self.WAITING_ON_THREAD_QUEUE) == self.WAITING_ON_THREAD_QUEUE:
return 'waiting-on-thread-queue'
if (self.s & self.BLOCKED) == self.BLOCKED:
return 'blocked'
s = ','
for m in self.masks:
if (self.s & m) == m:
s = self.masks[m] + ','
return s[:-1]
class cpu_usage():
def __init__(self, time_):
self.time = time.time(time_)
def __str__(self):
return self.time.tostring()
def get(self):
return self.time.get()
class wait_info():
def __init__(self, info):
self.info = info
def id(self):
return self.info['id']
def count(self):
return self.info['count']
def return_arg(self):
return self.info['return_argument']
def option(self):
return self.info['option']
def block2n(self):
return task_chain(chains.control(self.info['Block2n']))
def queue(self):
return task_chain(chains.control(self.info['queue']))
class registers():
def __init__(self, regs):
self.regs = regs
def names(self):
return [field.name for field in self.regs.type.fields()]
def get(self, reg):
t = str(self.regs[reg].type)
if t in ['double']:
return float(self.regs[reg])
return int(self.regs[reg])
def format(self, reg):
t = self.regs[reg].type
if t in ['uint32_t', 'unsigned', 'unsigned long']:
return '%08x (%d)' % (val)
class control():
'''
Thread_Control has the following fields:
Object Objects_Control
RBNode RBTree_Node
current_state States_Control
current_priority Priority_Control
real_priority Priority_Control
resource_count uint32_t
Wait Thread_Wait_information
Timer Watchdog_Control
receive_packet MP_packet_Prefix* X
lock_mutex Chain_Control X
Resource_node Resource_Node X
is_global bool X
is_preemptible bool
Scheduler Thread_Scheduler_control
rtems_ada_self void* X
cpu_time_budget uint32_t
budget_algorithm Thread_CPU_budget_algorithms
budget_callout Thread_CPU_budget_algorithm_callout
cpu_time_used Thread_CPU_usage_t
Start Thread_Start_information
Post_switch_actions Thread_Action_control
Registers Context_Control
fp_context Context_Control_fp* X
libc_reent struct _reent*
API_Extensions void*[THREAD_API_LAST + 1]
task_variables rtems_task_variable_t* X
Key_Chain Chain_Control
Life Thread_Life_control
extensions void*[RTEMS_ZERO_LENGTH_ARRAY]
where 'X' means the field is condition and may no exist.
'''
def __init__(self, ctrl):
if ctrl.type.code == gdb.TYPE_CODE_PTR:
self.reference = ctrl
self.ctrl = ctrl.dereference()
else:
self.ctrl = ctrl
self.reference = ctrl.address
self.object = objects.control(ctrl['Object'])
self._executing = percpu.thread_active(self.reference)
self._heir = percpu.thread_heir(self.reference)
def id(self):
return self.object.id()
def name(self):
val = self.object.name()
if val == "":
val = '*'
return val
def executing(self):
return self._executing
def heir(self):
return self._heir
def current_state(self):
return state(self.ctrl['current_state']).to_string()
def current_priority(self):
return self.ctrl['current_priority']
def real_priority(self):
return self.ctrl['real_priority']
def resource_count(self):
return self.ctrl['resource_count']
def cpu_time_budget(self):
return self.ctrl['cpu_time_budget']
def cpu_time_used(self):
return cpu_usage(self.ctrl['cpu_time_used'])
def preemptible(self):
return self.ctrl['is_preemptible']
def cpu_time_budget(self):
return self.ctrl['cpu_time_budget']
def wait_info(self):
return wait_info(self.ctrl['Wait'])
def registers(self):
return registers(self.ctrl['Registers'])
def is_idle(self):
return (self.id() & 0xff000000) == 0x90000000
def brief(self):
return "'%s' (c:%d, r:%d)" % \
(self.name(), self.current_priority(), self.real_priority())
class queue():
"""Manage the Thread_queue_Control."""
def __init__(self, que):
if que.type.code == gdb.TYPE_CODE_PTR:
self.reference = que
self.que = que.dereference()
else:
self.que = que
self.reference = que.address
def fifo(self):
return str(self.que['discipline']) == 'THREAD_QUEUE_DISCIPLINE_FIFO'
def priority(self):
return str(self.que['discipline']) == 'THREAD_QUEUE_DISCIPLINE_PRIORITY'
def state(self):
return state(self.que['state']).to_string()
def tasks(self):
if self.fifo():
t = task_chain(chains.control(self.que['Queues']['Fifo']))
else:
t = task_tree(rbtrees.control(self.que['Queues']['Priority']))
return t
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