blob: 7daa8bb70a5a09e85189bfd15da7f59b263f2fda [file] [log] [blame]
#!/usr/bin/env python
# SPDX-License-Identifier: GPL-2.0
# exported-sql-viewer.py: view data from sql database
# Copyright (c) 2014-2018, Intel Corporation.
# To use this script you will need to have exported data using either the
# export-to-sqlite.py or the export-to-postgresql.py script. Refer to those
# scripts for details.
#
# Following on from the example in the export scripts, a
# call-graph can be displayed for the pt_example database like this:
#
# python tools/perf/scripts/python/exported-sql-viewer.py pt_example
#
# Note that for PostgreSQL, this script supports connecting to remote databases
# by setting hostname, port, username, password, and dbname e.g.
#
# python tools/perf/scripts/python/exported-sql-viewer.py "hostname=myhost username=myuser password=mypassword dbname=pt_example"
#
# The result is a GUI window with a tree representing a context-sensitive
# call-graph. Expanding a couple of levels of the tree and adjusting column
# widths to suit will display something like:
#
# Call Graph: pt_example
# Call Path Object Count Time(ns) Time(%) Branch Count Branch Count(%)
# v- ls
# v- 2638:2638
# v- _start ld-2.19.so 1 10074071 100.0 211135 100.0
# |- unknown unknown 1 13198 0.1 1 0.0
# >- _dl_start ld-2.19.so 1 1400980 13.9 19637 9.3
# >- _d_linit_internal ld-2.19.so 1 448152 4.4 11094 5.3
# v-__libc_start_main@plt ls 1 8211741 81.5 180397 85.4
# >- _dl_fixup ld-2.19.so 1 7607 0.1 108 0.1
# >- __cxa_atexit libc-2.19.so 1 11737 0.1 10 0.0
# >- __libc_csu_init ls 1 10354 0.1 10 0.0
# |- _setjmp libc-2.19.so 1 0 0.0 4 0.0
# v- main ls 1 8182043 99.6 180254 99.9
#
# Points to note:
# The top level is a command name (comm)
# The next level is a thread (pid:tid)
# Subsequent levels are functions
# 'Count' is the number of calls
# 'Time' is the elapsed time until the function returns
# Percentages are relative to the level above
# 'Branch Count' is the total number of branches for that function and all
# functions that it calls
# There is also a "All branches" report, which displays branches and
# possibly disassembly. However, presently, the only supported disassembler is
# Intel XED, and additionally the object code must be present in perf build ID
# cache. To use Intel XED, libxed.so must be present. To build and install
# libxed.so:
# git clone https://github.com/intelxed/mbuild.git mbuild
# git clone https://github.com/intelxed/xed
# cd xed
# ./mfile.py --share
# sudo ./mfile.py --prefix=/usr/local install
# sudo ldconfig
#
# Example report:
#
# Time CPU Command PID TID Branch Type In Tx Branch
# 8107675239590 2 ls 22011 22011 return from interrupt No ffffffff86a00a67 native_irq_return_iret ([kernel]) -> 7fab593ea260 _start (ld-2.19.so)
# 7fab593ea260 48 89 e7 mov %rsp, %rdi
# 8107675239899 2 ls 22011 22011 hardware interrupt No 7fab593ea260 _start (ld-2.19.so) -> ffffffff86a012e0 page_fault ([kernel])
# 8107675241900 2 ls 22011 22011 return from interrupt No ffffffff86a00a67 native_irq_return_iret ([kernel]) -> 7fab593ea260 _start (ld-2.19.so)
# 7fab593ea260 48 89 e7 mov %rsp, %rdi
# 7fab593ea263 e8 c8 06 00 00 callq 0x7fab593ea930
# 8107675241900 2 ls 22011 22011 call No 7fab593ea263 _start+0x3 (ld-2.19.so) -> 7fab593ea930 _dl_start (ld-2.19.so)
# 7fab593ea930 55 pushq %rbp
# 7fab593ea931 48 89 e5 mov %rsp, %rbp
# 7fab593ea934 41 57 pushq %r15
# 7fab593ea936 41 56 pushq %r14
# 7fab593ea938 41 55 pushq %r13
# 7fab593ea93a 41 54 pushq %r12
# 7fab593ea93c 53 pushq %rbx
# 7fab593ea93d 48 89 fb mov %rdi, %rbx
# 7fab593ea940 48 83 ec 68 sub $0x68, %rsp
# 7fab593ea944 0f 31 rdtsc
# 7fab593ea946 48 c1 e2 20 shl $0x20, %rdx
# 7fab593ea94a 89 c0 mov %eax, %eax
# 7fab593ea94c 48 09 c2 or %rax, %rdx
# 7fab593ea94f 48 8b 05 1a 15 22 00 movq 0x22151a(%rip), %rax
# 8107675242232 2 ls 22011 22011 hardware interrupt No 7fab593ea94f _dl_start+0x1f (ld-2.19.so) -> ffffffff86a012e0 page_fault ([kernel])
# 8107675242900 2 ls 22011 22011 return from interrupt No ffffffff86a00a67 native_irq_return_iret ([kernel]) -> 7fab593ea94f _dl_start+0x1f (ld-2.19.so)
# 7fab593ea94f 48 8b 05 1a 15 22 00 movq 0x22151a(%rip), %rax
# 7fab593ea956 48 89 15 3b 13 22 00 movq %rdx, 0x22133b(%rip)
# 8107675243232 2 ls 22011 22011 hardware interrupt No 7fab593ea956 _dl_start+0x26 (ld-2.19.so) -> ffffffff86a012e0 page_fault ([kernel])
from __future__ import print_function
import sys
import argparse
import weakref
import threading
import string
try:
# Python2
import cPickle as pickle
# size of pickled integer big enough for record size
glb_nsz = 8
except ImportError:
import pickle
glb_nsz = 16
import re
import os
import random
import copy
import math
pyside_version_1 = True
if not "--pyside-version-1" in sys.argv:
try:
from PySide2.QtCore import *
from PySide2.QtGui import *
from PySide2.QtSql import *
from PySide2.QtWidgets import *
pyside_version_1 = False
except:
pass
if pyside_version_1:
from PySide.QtCore import *
from PySide.QtGui import *
from PySide.QtSql import *
from decimal import *
from ctypes import *
from multiprocessing import Process, Array, Value, Event
# xrange is range in Python3
try:
xrange
except NameError:
xrange = range
def printerr(*args, **keyword_args):
print(*args, file=sys.stderr, **keyword_args)
# Data formatting helpers
def tohex(ip):
if ip < 0:
ip += 1 << 64
return "%x" % ip
def offstr(offset):
if offset:
return "+0x%x" % offset
return ""
def dsoname(name):
if name == "[kernel.kallsyms]":
return "[kernel]"
return name
def findnth(s, sub, n, offs=0):
pos = s.find(sub)
if pos < 0:
return pos
if n <= 1:
return offs + pos
return findnth(s[pos + 1:], sub, n - 1, offs + pos + 1)
# Percent to one decimal place
def PercentToOneDP(n, d):
if not d:
return "0.0"
x = (n * Decimal(100)) / d
return str(x.quantize(Decimal(".1"), rounding=ROUND_HALF_UP))
# Helper for queries that must not fail
def QueryExec(query, stmt):
ret = query.exec_(stmt)
if not ret:
raise Exception("Query failed: " + query.lastError().text())
# Background thread
class Thread(QThread):
done = Signal(object)
def __init__(self, task, param=None, parent=None):
super(Thread, self).__init__(parent)
self.task = task
self.param = param
def run(self):
while True:
if self.param is None:
done, result = self.task()
else:
done, result = self.task(self.param)
self.done.emit(result)
if done:
break
# Tree data model
class TreeModel(QAbstractItemModel):
def __init__(self, glb, params, parent=None):
super(TreeModel, self).__init__(parent)
self.glb = glb
self.params = params
self.root = self.GetRoot()
self.last_row_read = 0
def Item(self, parent):
if parent.isValid():
return parent.internalPointer()
else:
return self.root
def rowCount(self, parent):
result = self.Item(parent).childCount()
if result < 0:
result = 0
self.dataChanged.emit(parent, parent)
return result
def hasChildren(self, parent):
return self.Item(parent).hasChildren()
def headerData(self, section, orientation, role):
if role == Qt.TextAlignmentRole:
return self.columnAlignment(section)
if role != Qt.DisplayRole:
return None
if orientation != Qt.Horizontal:
return None
return self.columnHeader(section)
def parent(self, child):
child_item = child.internalPointer()
if child_item is self.root:
return QModelIndex()
parent_item = child_item.getParentItem()
return self.createIndex(parent_item.getRow(), 0, parent_item)
def index(self, row, column, parent):
child_item = self.Item(parent).getChildItem(row)
return self.createIndex(row, column, child_item)
def DisplayData(self, item, index):
return item.getData(index.column())
def FetchIfNeeded(self, row):
if row > self.last_row_read:
self.last_row_read = row
if row + 10 >= self.root.child_count:
self.fetcher.Fetch(glb_chunk_sz)
def columnAlignment(self, column):
return Qt.AlignLeft
def columnFont(self, column):
return None
def data(self, index, role):
if role == Qt.TextAlignmentRole:
return self.columnAlignment(index.column())
if role == Qt.FontRole:
return self.columnFont(index.column())
if role != Qt.DisplayRole:
return None
item = index.internalPointer()
return self.DisplayData(item, index)
# Table data model
class TableModel(QAbstractTableModel):
def __init__(self, parent=None):
super(TableModel, self).__init__(parent)
self.child_count = 0
self.child_items = []
self.last_row_read = 0
def Item(self, parent):
if parent.isValid():
return parent.internalPointer()
else:
return self
def rowCount(self, parent):
return self.child_count
def headerData(self, section, orientation, role):
if role == Qt.TextAlignmentRole:
return self.columnAlignment(section)
if role != Qt.DisplayRole:
return None
if orientation != Qt.Horizontal:
return None
return self.columnHeader(section)
def index(self, row, column, parent):
return self.createIndex(row, column, self.child_items[row])
def DisplayData(self, item, index):
return item.getData(index.column())
def FetchIfNeeded(self, row):
if row > self.last_row_read:
self.last_row_read = row
if row + 10 >= self.child_count:
self.fetcher.Fetch(glb_chunk_sz)
def columnAlignment(self, column):
return Qt.AlignLeft
def columnFont(self, column):
return None
def data(self, index, role):
if role == Qt.TextAlignmentRole:
return self.columnAlignment(index.column())
if role == Qt.FontRole:
return self.columnFont(index.column())
if role != Qt.DisplayRole:
return None
item = index.internalPointer()
return self.DisplayData(item, index)
# Model cache
model_cache = weakref.WeakValueDictionary()
model_cache_lock = threading.Lock()
def LookupCreateModel(model_name, create_fn):
model_cache_lock.acquire()
try:
model = model_cache[model_name]
except:
model = None
if model is None:
model = create_fn()
model_cache[model_name] = model
model_cache_lock.release()
return model
def LookupModel(model_name):
model_cache_lock.acquire()
try:
model = model_cache[model_name]
except:
model = None
model_cache_lock.release()
return model
# Find bar
class FindBar():
def __init__(self, parent, finder, is_reg_expr=False):
self.finder = finder
self.context = []
self.last_value = None
self.last_pattern = None
label = QLabel("Find:")
label.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
self.textbox = QComboBox()
self.textbox.setEditable(True)
self.textbox.currentIndexChanged.connect(self.ValueChanged)
self.progress = QProgressBar()
self.progress.setRange(0, 0)
self.progress.hide()
if is_reg_expr:
self.pattern = QCheckBox("Regular Expression")
else:
self.pattern = QCheckBox("Pattern")
self.pattern.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
self.next_button = QToolButton()
self.next_button.setIcon(parent.style().standardIcon(QStyle.SP_ArrowDown))
self.next_button.released.connect(lambda: self.NextPrev(1))
self.prev_button = QToolButton()
self.prev_button.setIcon(parent.style().standardIcon(QStyle.SP_ArrowUp))
self.prev_button.released.connect(lambda: self.NextPrev(-1))
self.close_button = QToolButton()
self.close_button.setIcon(parent.style().standardIcon(QStyle.SP_DockWidgetCloseButton))
self.close_button.released.connect(self.Deactivate)
self.hbox = QHBoxLayout()
self.hbox.setContentsMargins(0, 0, 0, 0)
self.hbox.addWidget(label)
self.hbox.addWidget(self.textbox)
self.hbox.addWidget(self.progress)
self.hbox.addWidget(self.pattern)
self.hbox.addWidget(self.next_button)
self.hbox.addWidget(self.prev_button)
self.hbox.addWidget(self.close_button)
self.bar = QWidget()
self.bar.setLayout(self.hbox)
self.bar.hide()
def Widget(self):
return self.bar
def Activate(self):
self.bar.show()
self.textbox.lineEdit().selectAll()
self.textbox.setFocus()
def Deactivate(self):
self.bar.hide()
def Busy(self):
self.textbox.setEnabled(False)
self.pattern.hide()
self.next_button.hide()
self.prev_button.hide()
self.progress.show()
def Idle(self):
self.textbox.setEnabled(True)
self.progress.hide()
self.pattern.show()
self.next_button.show()
self.prev_button.show()
def Find(self, direction):
value = self.textbox.currentText()
pattern = self.pattern.isChecked()
self.last_value = value
self.last_pattern = pattern
self.finder.Find(value, direction, pattern, self.context)
def ValueChanged(self):
value = self.textbox.currentText()
pattern = self.pattern.isChecked()
index = self.textbox.currentIndex()
data = self.textbox.itemData(index)
# Store the pattern in the combo box to keep it with the text value
if data == None:
self.textbox.setItemData(index, pattern)
else:
self.pattern.setChecked(data)
self.Find(0)
def NextPrev(self, direction):
value = self.textbox.currentText()
pattern = self.pattern.isChecked()
if value != self.last_value:
index = self.textbox.findText(value)
# Allow for a button press before the value has been added to the combo box
if index < 0:
index = self.textbox.count()
self.textbox.addItem(value, pattern)
self.textbox.setCurrentIndex(index)
return
else:
self.textbox.setItemData(index, pattern)
elif pattern != self.last_pattern:
# Keep the pattern recorded in the combo box up to date
index = self.textbox.currentIndex()
self.textbox.setItemData(index, pattern)
self.Find(direction)
def NotFound(self):
QMessageBox.information(self.bar, "Find", "'" + self.textbox.currentText() + "' not found")
# Context-sensitive call graph data model item base
class CallGraphLevelItemBase(object):
def __init__(self, glb, params, row, parent_item):
self.glb = glb
self.params = params
self.row = row
self.parent_item = parent_item
self.query_done = False
self.child_count = 0
self.child_items = []
if parent_item:
self.level = parent_item.level + 1
else:
self.level = 0
def getChildItem(self, row):
return self.child_items[row]
def getParentItem(self):
return self.parent_item
def getRow(self):
return self.row
def childCount(self):
if not self.query_done:
self.Select()
if not self.child_count:
return -1
return self.child_count
def hasChildren(self):
if not self.query_done:
return True
return self.child_count > 0
def getData(self, column):
return self.data[column]
# Context-sensitive call graph data model level 2+ item base
class CallGraphLevelTwoPlusItemBase(CallGraphLevelItemBase):
def __init__(self, glb, params, row, comm_id, thread_id, call_path_id, time, insn_cnt, cyc_cnt, branch_count, parent_item):
super(CallGraphLevelTwoPlusItemBase, self).__init__(glb, params, row, parent_item)
self.comm_id = comm_id
self.thread_id = thread_id
self.call_path_id = call_path_id
self.insn_cnt = insn_cnt
self.cyc_cnt = cyc_cnt
self.branch_count = branch_count
self.time = time
def Select(self):
self.query_done = True
query = QSqlQuery(self.glb.db)
if self.params.have_ipc:
ipc_str = ", SUM(insn_count), SUM(cyc_count)"
else:
ipc_str = ""
QueryExec(query, "SELECT call_path_id, name, short_name, COUNT(calls.id), SUM(return_time - call_time)" + ipc_str + ", SUM(branch_count)"
" FROM calls"
" INNER JOIN call_paths ON calls.call_path_id = call_paths.id"
" INNER JOIN symbols ON call_paths.symbol_id = symbols.id"
" INNER JOIN dsos ON symbols.dso_id = dsos.id"
" WHERE parent_call_path_id = " + str(self.call_path_id) +
" AND comm_id = " + str(self.comm_id) +
" AND thread_id = " + str(self.thread_id) +
" GROUP BY call_path_id, name, short_name"
" ORDER BY call_path_id")
while query.next():
if self.params.have_ipc:
insn_cnt = int(query.value(5))
cyc_cnt = int(query.value(6))
branch_count = int(query.value(7))
else:
insn_cnt = 0
cyc_cnt = 0
branch_count = int(query.value(5))
child_item = CallGraphLevelThreeItem(self.glb, self.params, self.child_count, self.comm_id, self.thread_id, query.value(0), query.value(1), query.value(2), query.value(3), int(query.value(4)), insn_cnt, cyc_cnt, branch_count, self)
self.child_items.append(child_item)
self.child_count += 1
# Context-sensitive call graph data model level three item
class CallGraphLevelThreeItem(CallGraphLevelTwoPlusItemBase):
def __init__(self, glb, params, row, comm_id, thread_id, call_path_id, name, dso, count, time, insn_cnt, cyc_cnt, branch_count, parent_item):
super(CallGraphLevelThreeItem, self).__init__(glb, params, row, comm_id, thread_id, call_path_id, time, insn_cnt, cyc_cnt, branch_count, parent_item)
dso = dsoname(dso)
if self.params.have_ipc:
insn_pcnt = PercentToOneDP(insn_cnt, parent_item.insn_cnt)
cyc_pcnt = PercentToOneDP(cyc_cnt, parent_item.cyc_cnt)
br_pcnt = PercentToOneDP(branch_count, parent_item.branch_count)
ipc = CalcIPC(cyc_cnt, insn_cnt)
self.data = [ name, dso, str(count), str(time), PercentToOneDP(time, parent_item.time), str(insn_cnt), insn_pcnt, str(cyc_cnt), cyc_pcnt, ipc, str(branch_count), br_pcnt ]
else:
self.data = [ name, dso, str(count), str(time), PercentToOneDP(time, parent_item.time), str(branch_count), PercentToOneDP(branch_count, parent_item.branch_count) ]
self.dbid = call_path_id
# Context-sensitive call graph data model level two item
class CallGraphLevelTwoItem(CallGraphLevelTwoPlusItemBase):
def __init__(self, glb, params, row, comm_id, thread_id, pid, tid, parent_item):
super(CallGraphLevelTwoItem, self).__init__(glb, params, row, comm_id, thread_id, 1, 0, 0, 0, 0, parent_item)
if self.params.have_ipc:
self.data = [str(pid) + ":" + str(tid), "", "", "", "", "", "", "", "", "", "", ""]
else:
self.data = [str(pid) + ":" + str(tid), "", "", "", "", "", ""]
self.dbid = thread_id
def Select(self):
super(CallGraphLevelTwoItem, self).Select()
for child_item in self.child_items:
self.time += child_item.time
self.insn_cnt += child_item.insn_cnt
self.cyc_cnt += child_item.cyc_cnt
self.branch_count += child_item.branch_count
for child_item in self.child_items:
child_item.data[4] = PercentToOneDP(child_item.time, self.time)
if self.params.have_ipc:
child_item.data[6] = PercentToOneDP(child_item.insn_cnt, self.insn_cnt)
child_item.data[8] = PercentToOneDP(child_item.cyc_cnt, self.cyc_cnt)
child_item.data[11] = PercentToOneDP(child_item.branch_count, self.branch_count)
else:
child_item.data[6] = PercentToOneDP(child_item.branch_count, self.branch_count)
# Context-sensitive call graph data model level one item
class CallGraphLevelOneItem(CallGraphLevelItemBase):
def __init__(self, glb, params, row, comm_id, comm, parent_item):
super(CallGraphLevelOneItem, self).__init__(glb, params, row, parent_item)
if self.params.have_ipc:
self.data = [comm, "", "", "", "", "", "", "", "", "", "", ""]
else:
self.data = [comm, "", "", "", "", "", ""]
self.dbid = comm_id
def Select(self):
self.query_done = True
query = QSqlQuery(self.glb.db)
QueryExec(query, "SELECT thread_id, pid, tid"
" FROM comm_threads"
" INNER JOIN threads ON thread_id = threads.id"
" WHERE comm_id = " + str(self.dbid))
while query.next():
child_item = CallGraphLevelTwoItem(self.glb, self.params, self.child_count, self.dbid, query.value(0), query.value(1), query.value(2), self)
self.child_items.append(child_item)
self.child_count += 1
# Context-sensitive call graph data model root item
class CallGraphRootItem(CallGraphLevelItemBase):
def __init__(self, glb, params):
super(CallGraphRootItem, self).__init__(glb, params, 0, None)
self.dbid = 0
self.query_done = True
if_has_calls = ""
if IsSelectable(glb.db, "comms", columns = "has_calls"):
if_has_calls = " WHERE has_calls = " + glb.dbref.TRUE
query = QSqlQuery(glb.db)
QueryExec(query, "SELECT id, comm FROM comms" + if_has_calls)
while query.next():
if not query.value(0):
continue
child_item = CallGraphLevelOneItem(glb, params, self.child_count, query.value(0), query.value(1), self)
self.child_items.append(child_item)
self.child_count += 1
# Call graph model parameters
class CallGraphModelParams():
def __init__(self, glb, parent=None):
self.have_ipc = IsSelectable(glb.db, "calls", columns = "insn_count, cyc_count")
# Context-sensitive call graph data model base
class CallGraphModelBase(TreeModel):
def __init__(self, glb, parent=None):
super(CallGraphModelBase, self).__init__(glb, CallGraphModelParams(glb), parent)
def FindSelect(self, value, pattern, query):
if pattern:
# postgresql and sqlite pattern patching differences:
# postgresql LIKE is case sensitive but sqlite LIKE is not
# postgresql LIKE allows % and _ to be escaped with \ but sqlite LIKE does not
# postgresql supports ILIKE which is case insensitive
# sqlite supports GLOB (text only) which uses * and ? and is case sensitive
if not self.glb.dbref.is_sqlite3:
# Escape % and _
s = value.replace("%", "\%")
s = s.replace("_", "\_")
# Translate * and ? into SQL LIKE pattern characters % and _
trans = string.maketrans("*?", "%_")
match = " LIKE '" + str(s).translate(trans) + "'"
else:
match = " GLOB '" + str(value) + "'"
else:
match = " = '" + str(value) + "'"
self.DoFindSelect(query, match)
def Found(self, query, found):
if found:
return self.FindPath(query)
return []
def FindValue(self, value, pattern, query, last_value, last_pattern):
if last_value == value and pattern == last_pattern:
found = query.first()
else:
self.FindSelect(value, pattern, query)
found = query.next()
return self.Found(query, found)
def FindNext(self, query):
found = query.next()
if not found:
found = query.first()
return self.Found(query, found)
def FindPrev(self, query):
found = query.previous()
if not found:
found = query.last()
return self.Found(query, found)
def FindThread(self, c):
if c.direction == 0 or c.value != c.last_value or c.pattern != c.last_pattern:
ids = self.FindValue(c.value, c.pattern, c.query, c.last_value, c.last_pattern)
elif c.direction > 0:
ids = self.FindNext(c.query)
else:
ids = self.FindPrev(c.query)
return (True, ids)
def Find(self, value, direction, pattern, context, callback):
class Context():
def __init__(self, *x):
self.value, self.direction, self.pattern, self.query, self.last_value, self.last_pattern = x
def Update(self, *x):
self.value, self.direction, self.pattern, self.last_value, self.last_pattern = x + (self.value, self.pattern)
if len(context):
context[0].Update(value, direction, pattern)
else:
context.append(Context(value, direction, pattern, QSqlQuery(self.glb.db), None, None))
# Use a thread so the UI is not blocked during the SELECT
thread = Thread(self.FindThread, context[0])
thread.done.connect(lambda ids, t=thread, c=callback: self.FindDone(t, c, ids), Qt.QueuedConnection)
thread.start()
def FindDone(self, thread, callback, ids):
callback(ids)
# Context-sensitive call graph data model
class CallGraphModel(CallGraphModelBase):
def __init__(self, glb, parent=None):
super(CallGraphModel, self).__init__(glb, parent)
def GetRoot(self):
return CallGraphRootItem(self.glb, self.params)
def columnCount(self, parent=None):
if self.params.have_ipc:
return 12
else:
return 7
def columnHeader(self, column):
if self.params.have_ipc:
headers = ["Call Path", "Object", "Count ", "Time (ns) ", "Time (%) ", "Insn Cnt", "Insn Cnt (%)", "Cyc Cnt", "Cyc Cnt (%)", "IPC", "Branch Count ", "Branch Count (%) "]
else:
headers = ["Call Path", "Object", "Count ", "Time (ns) ", "Time (%) ", "Branch Count ", "Branch Count (%) "]
return headers[column]
def columnAlignment(self, column):
if self.params.have_ipc:
alignment = [ Qt.AlignLeft, Qt.AlignLeft, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight ]
else:
alignment = [ Qt.AlignLeft, Qt.AlignLeft, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight ]
return alignment[column]
def DoFindSelect(self, query, match):
QueryExec(query, "SELECT call_path_id, comm_id, thread_id"
" FROM calls"
" INNER JOIN call_paths ON calls.call_path_id = call_paths.id"
" INNER JOIN symbols ON call_paths.symbol_id = symbols.id"
" WHERE calls.id <> 0"
" AND symbols.name" + match +
" GROUP BY comm_id, thread_id, call_path_id"
" ORDER BY comm_id, thread_id, call_path_id")
def FindPath(self, query):
# Turn the query result into a list of ids that the tree view can walk
# to open the tree at the right place.
ids = []
parent_id = query.value(0)
while parent_id:
ids.insert(0, parent_id)
q2 = QSqlQuery(self.glb.db)
QueryExec(q2, "SELECT parent_id"
" FROM call_paths"
" WHERE id = " + str(parent_id))
if not q2.next():
break
parent_id = q2.value(0)
# The call path root is not used
if ids[0] == 1:
del ids[0]
ids.insert(0, query.value(2))
ids.insert(0, query.value(1))
return ids
# Call tree data model level 2+ item base
class CallTreeLevelTwoPlusItemBase(CallGraphLevelItemBase):
def __init__(self, glb, params, row, comm_id, thread_id, calls_id, call_time, time, insn_cnt, cyc_cnt, branch_count, parent_item):
super(CallTreeLevelTwoPlusItemBase, self).__init__(glb, params, row, parent_item)
self.comm_id = comm_id
self.thread_id = thread_id
self.calls_id = calls_id
self.call_time = call_time
self.time = time
self.insn_cnt = insn_cnt
self.cyc_cnt = cyc_cnt
self.branch_count = branch_count
def Select(self):
self.query_done = True
if self.calls_id == 0:
comm_thread = " AND comm_id = " + str(self.comm_id) + " AND thread_id = " + str(self.thread_id)
else:
comm_thread = ""
if self.params.have_ipc:
ipc_str = ", insn_count, cyc_count"
else:
ipc_str = ""
query = QSqlQuery(self.glb.db)
QueryExec(query, "SELECT calls.id, name, short_name, call_time, return_time - call_time" + ipc_str + ", branch_count"
" FROM calls"
" INNER JOIN call_paths ON calls.call_path_id = call_paths.id"
" INNER JOIN symbols ON call_paths.symbol_id = symbols.id"
" INNER JOIN dsos ON symbols.dso_id = dsos.id"
" WHERE calls.parent_id = " + str(self.calls_id) + comm_thread +
" ORDER BY call_time, calls.id")
while query.next():
if self.params.have_ipc:
insn_cnt = int(query.value(5))
cyc_cnt = int(query.value(6))
branch_count = int(query.value(7))
else:
insn_cnt = 0
cyc_cnt = 0
branch_count = int(query.value(5))
child_item = CallTreeLevelThreeItem(self.glb, self.params, self.child_count, self.comm_id, self.thread_id, query.value(0), query.value(1), query.value(2), query.value(3), int(query.value(4)), insn_cnt, cyc_cnt, branch_count, self)
self.child_items.append(child_item)
self.child_count += 1
# Call tree data model level three item
class CallTreeLevelThreeItem(CallTreeLevelTwoPlusItemBase):
def __init__(self, glb, params, row, comm_id, thread_id, calls_id, name, dso, call_time, time, insn_cnt, cyc_cnt, branch_count, parent_item):
super(CallTreeLevelThreeItem, self).__init__(glb, params, row, comm_id, thread_id, calls_id, call_time, time, insn_cnt, cyc_cnt, branch_count, parent_item)
dso = dsoname(dso)
if self.params.have_ipc:
insn_pcnt = PercentToOneDP(insn_cnt, parent_item.insn_cnt)
cyc_pcnt = PercentToOneDP(cyc_cnt, parent_item.cyc_cnt)
br_pcnt = PercentToOneDP(branch_count, parent_item.branch_count)
ipc = CalcIPC(cyc_cnt, insn_cnt)
self.data = [ name, dso, str(call_time), str(time), PercentToOneDP(time, parent_item.time), str(insn_cnt), insn_pcnt, str(cyc_cnt), cyc_pcnt, ipc, str(branch_count), br_pcnt ]
else:
self.data = [ name, dso, str(call_time), str(time), PercentToOneDP(time, parent_item.time), str(branch_count), PercentToOneDP(branch_count, parent_item.branch_count) ]
self.dbid = calls_id
# Call tree data model level two item
class CallTreeLevelTwoItem(CallTreeLevelTwoPlusItemBase):
def __init__(self, glb, params, row, comm_id, thread_id, pid, tid, parent_item):
super(CallTreeLevelTwoItem, self).__init__(glb, params, row, comm_id, thread_id, 0, 0, 0, 0, 0, 0, parent_item)
if self.params.have_ipc:
self.data = [str(pid) + ":" + str(tid), "", "", "", "", "", "", "", "", "", "", ""]
else:
self.data = [str(pid) + ":" + str(tid), "", "", "", "", "", ""]
self.dbid = thread_id
def Select(self):
super(CallTreeLevelTwoItem, self).Select()
for child_item in self.child_items:
self.time += child_item.time
self.insn_cnt += child_item.insn_cnt
self.cyc_cnt += child_item.cyc_cnt
self.branch_count += child_item.branch_count
for child_item in self.child_items:
child_item.data[4] = PercentToOneDP(child_item.time, self.time)
if self.params.have_ipc:
child_item.data[6] = PercentToOneDP(child_item.insn_cnt, self.insn_cnt)
child_item.data[8] = PercentToOneDP(child_item.cyc_cnt, self.cyc_cnt)
child_item.data[11] = PercentToOneDP(child_item.branch_count, self.branch_count)
else:
child_item.data[6] = PercentToOneDP(child_item.branch_count, self.branch_count)
# Call tree data model level one item
class CallTreeLevelOneItem(CallGraphLevelItemBase):
def __init__(self, glb, params, row, comm_id, comm, parent_item):
super(CallTreeLevelOneItem, self).__init__(glb, params, row, parent_item)
if self.params.have_ipc:
self.data = [comm, "", "", "", "", "", "", "", "", "", "", ""]
else:
self.data = [comm, "", "", "", "", "", ""]
self.dbid = comm_id
def Select(self):
self.query_done = True
query = QSqlQuery(self.glb.db)
QueryExec(query, "SELECT thread_id, pid, tid"
" FROM comm_threads"
" INNER JOIN threads ON thread_id = threads.id"
" WHERE comm_id = " + str(self.dbid))
while query.next():
child_item = CallTreeLevelTwoItem(self.glb, self.params, self.child_count, self.dbid, query.value(0), query.value(1), query.value(2), self)
self.child_items.append(child_item)
self.child_count += 1
# Call tree data model root item
class CallTreeRootItem(CallGraphLevelItemBase):
def __init__(self, glb, params):
super(CallTreeRootItem, self).__init__(glb, params, 0, None)
self.dbid = 0
self.query_done = True
if_has_calls = ""
if IsSelectable(glb.db, "comms", columns = "has_calls"):
if_has_calls = " WHERE has_calls = " + glb.dbref.TRUE
query = QSqlQuery(glb.db)
QueryExec(query, "SELECT id, comm FROM comms" + if_has_calls)
while query.next():
if not query.value(0):
continue
child_item = CallTreeLevelOneItem(glb, params, self.child_count, query.value(0), query.value(1), self)
self.child_items.append(child_item)
self.child_count += 1
# Call Tree data model
class CallTreeModel(CallGraphModelBase):
def __init__(self, glb, parent=None):
super(CallTreeModel, self).__init__(glb, parent)
def GetRoot(self):
return CallTreeRootItem(self.glb, self.params)
def columnCount(self, parent=None):
if self.params.have_ipc:
return 12
else:
return 7
def columnHeader(self, column):
if self.params.have_ipc:
headers = ["Call Path", "Object", "Call Time", "Time (ns) ", "Time (%) ", "Insn Cnt", "Insn Cnt (%)", "Cyc Cnt", "Cyc Cnt (%)", "IPC", "Branch Count ", "Branch Count (%) "]
else:
headers = ["Call Path", "Object", "Call Time", "Time (ns) ", "Time (%) ", "Branch Count ", "Branch Count (%) "]
return headers[column]
def columnAlignment(self, column):
if self.params.have_ipc:
alignment = [ Qt.AlignLeft, Qt.AlignLeft, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight ]
else:
alignment = [ Qt.AlignLeft, Qt.AlignLeft, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight, Qt.AlignRight ]
return alignment[column]
def DoFindSelect(self, query, match):
QueryExec(query, "SELECT calls.id, comm_id, thread_id"
" FROM calls"
" INNER JOIN call_paths ON calls.call_path_id = call_paths.id"
" INNER JOIN symbols ON call_paths.symbol_id = symbols.id"
" WHERE calls.id <> 0"
" AND symbols.name" + match +
" ORDER BY comm_id, thread_id, call_time, calls.id")
def FindPath(self, query):
# Turn the query result into a list of ids that the tree view can walk
# to open the tree at the right place.
ids = []
parent_id = query.value(0)
while parent_id:
ids.insert(0, parent_id)
q2 = QSqlQuery(self.glb.db)
QueryExec(q2, "SELECT parent_id"
" FROM calls"
" WHERE id = " + str(parent_id))
if not q2.next():
break
parent_id = q2.value(0)
ids.insert(0, query.value(2))
ids.insert(0, query.value(1))
return ids
# Vertical layout
class HBoxLayout(QHBoxLayout):
def __init__(self, *children):
super(HBoxLayout, self).__init__()
self.layout().setContentsMargins(0, 0, 0, 0)
for child in children:
if child.isWidgetType():
self.layout().addWidget(child)
else:
self.layout().addLayout(child)
# Horizontal layout
class VBoxLayout(QVBoxLayout):
def __init__(self, *children):
super(VBoxLayout, self).__init__()
self.layout().setContentsMargins(0, 0, 0, 0)
for child in children:
if child.isWidgetType():
self.layout().addWidget(child)
else:
self.layout().addLayout(child)
# Vertical layout widget
class VBox():
def __init__(self, *children):
self.vbox = QWidget()
self.vbox.setLayout(VBoxLayout(*children))
def Widget(self):
return self.vbox
# Tree window base
class TreeWindowBase(QMdiSubWindow):
def __init__(self, parent=None):
super(TreeWindowBase, self).__init__(parent)
self.model = None
self.find_bar = None
self.view = QTreeView()
self.view.setSelectionMode(QAbstractItemView.ContiguousSelection)
self.view.CopyCellsToClipboard = CopyTreeCellsToClipboard
self.context_menu = TreeContextMenu(self.view)
def DisplayFound(self, ids):
if not len(ids):
return False
parent = QModelIndex()
for dbid in ids:
found = False
n = self.model.rowCount(parent)
for row in xrange(n):
child = self.model.index(row, 0, parent)
if child.internalPointer().dbid == dbid:
found = True
self.view.setExpanded(parent, True)
self.view.setCurrentIndex(child)
parent = child
break
if not found:
break
return found
def Find(self, value, direction, pattern, context):
self.view.setFocus()
self.find_bar.Busy()
self.model.Find(value, direction, pattern, context, self.FindDone)
def FindDone(self, ids):
found = True
if not self.DisplayFound(ids):
found = False
self.find_bar.Idle()
if not found:
self.find_bar.NotFound()
# Context-sensitive call graph window
class CallGraphWindow(TreeWindowBase):
def __init__(self, glb, parent=None):
super(CallGraphWindow, self).__init__(parent)
self.model = LookupCreateModel("Context-Sensitive Call Graph", lambda x=glb: CallGraphModel(x))
self.view.setModel(self.model)
for c, w in ((0, 250), (1, 100), (2, 60), (3, 70), (4, 70), (5, 100)):
self.view.setColumnWidth(c, w)
self.find_bar = FindBar(self, self)
self.vbox = VBox(self.view, self.find_bar.Widget())
self.setWidget(self.vbox.Widget())
AddSubWindow(glb.mainwindow.mdi_area, self, "Context-Sensitive Call Graph")
# Call tree window
class CallTreeWindow(TreeWindowBase):
def __init__(self, glb, parent=None, thread_at_time=None):
super(CallTreeWindow, self).__init__(parent)
self.model = LookupCreateModel("Call Tree", lambda x=glb: CallTreeModel(x))
self.view.setModel(self.model)
for c, w in ((0, 230), (1, 100), (2, 100), (3, 70), (4, 70), (5, 100)):
self.view.setColumnWidth(c, w)
self.find_bar = FindBar(self, self)
self.vbox = VBox(self.view, self.find_bar.Widget())
self.setWidget(self.vbox.Widget())
AddSubWindow(glb.mainwindow.mdi_area, self, "Call Tree")
if thread_at_time:
self.DisplayThreadAtTime(*thread_at_time)
def DisplayThreadAtTime(self, comm_id, thread_id, time):
parent = QModelIndex()
for dbid in (comm_id, thread_id):
found = False
n = self.model.rowCount(parent)
for row in xrange(n):
child = self.model.index(row, 0, parent)
if child.internalPointer().dbid == dbid:
found = True
self.view.setExpanded(parent, True)
self.view.setCurrentIndex(child)
parent = child
break
if not found:
return
found = False
while True:
n = self.model.rowCount(parent)
if not n:
return
last_child = None
for row in xrange(n):
self.view.setExpanded(parent, True)
child = self.model.index(row, 0, parent)
child_call_time = child.internalPointer().call_time
if child_call_time < time:
last_child = child
elif child_call_time == time:
self.view.setCurrentIndex(child)
return
elif child_call_time > time:
break
if not last_child:
if not found:
child = self.model.index(0, 0, parent)
self.view.setExpanded(parent, True)
self.view.setCurrentIndex(child)
return
found = True
self.view.setExpanded(parent, True)
self.view.setCurrentIndex(last_child)
parent = last_child
# ExecComm() gets the comm_id of the command string that was set when the process exec'd i.e. the program name
def ExecComm(db, thread_id, time):
query = QSqlQuery(db)
QueryExec(query, "SELECT comm_threads.comm_id, comms.c_time, comms.exec_flag"
" FROM comm_threads"
" INNER JOIN comms ON comms.id = comm_threads.comm_id"
" WHERE comm_threads.thread_id = " + str(thread_id) +
" ORDER BY comms.c_time, comms.id")
first = None
last = None
while query.next():
if first is None:
first = query.value(0)
if query.value(2) and Decimal(query.value(1)) <= Decimal(time):
last = query.value(0)
if not(last is None):
return last
return first
# Container for (x, y) data
class XY():
def __init__(self, x=0, y=0):
self.x = x
self.y = y
def __str__(self):
return "XY({}, {})".format(str(self.x), str(self.y))
# Container for sub-range data
class Subrange():
def __init__(self, lo=0, hi=0):
self.lo = lo
self.hi = hi
def __str__(self):
return "Subrange({}, {})".format(str(self.lo), str(self.hi))
# Graph data region base class
class GraphDataRegion(object):
def __init__(self, key, title = "", ordinal = ""):
self.key = key
self.title = title
self.ordinal = ordinal
# Function to sort GraphDataRegion
def GraphDataRegionOrdinal(data_region):
return data_region.ordinal
# Attributes for a graph region
class GraphRegionAttribute():
def __init__(self, colour):
self.colour = colour
# Switch graph data region represents a task
class SwitchGraphDataRegion(GraphDataRegion):
def __init__(self, key, exec_comm_id, pid, tid, comm, thread_id, comm_id):
super(SwitchGraphDataRegion, self).__init__(key)
self.title = str(pid) + " / " + str(tid) + " " + comm
# Order graph legend within exec comm by pid / tid / time
self.ordinal = str(pid).rjust(16) + str(exec_comm_id).rjust(8) + str(tid).rjust(16)
self.exec_comm_id = exec_comm_id
self.pid = pid
self.tid = tid
self.comm = comm
self.thread_id = thread_id
self.comm_id = comm_id
# Graph data point
class GraphDataPoint():
def __init__(self, data, index, x, y, altx=None, alty=None, hregion=None, vregion=None):
self.data = data
self.index = index
self.x = x
self.y = y
self.altx = altx
self.alty = alty
self.hregion = hregion
self.vregion = vregion
# Graph data (single graph) base class
class GraphData(object):
def __init__(self, collection, xbase=Decimal(0), ybase=Decimal(0)):
self.collection = collection
self.points = []
self.xbase = xbase
self.ybase = ybase
self.title = ""
def AddPoint(self, x, y, altx=None, alty=None, hregion=None, vregion=None):
index = len(self.points)
x = float(Decimal(x) - self.xbase)
y = float(Decimal(y) - self.ybase)
self.points.append(GraphDataPoint(self, index, x, y, altx, alty, hregion, vregion))
def XToData(self, x):
return Decimal(x) + self.xbase
def YToData(self, y):
return Decimal(y) + self.ybase
# Switch graph data (for one CPU)
class SwitchGraphData(GraphData):
def __init__(self, db, collection, cpu, xbase):
super(SwitchGraphData, self).__init__(collection, xbase)
self.cpu = cpu
self.title = "CPU " + str(cpu)
self.SelectSwitches(db)
def SelectComms(self, db, thread_id, last_comm_id, start_time, end_time):
query = QSqlQuery(db)
QueryExec(query, "SELECT id, c_time"
" FROM comms"
" WHERE c_thread_id = " + str(thread_id) +
" AND exec_flag = " + self.collection.glb.dbref.TRUE +
" AND c_time >= " + str(start_time) +
" AND c_time <= " + str(end_time) +
" ORDER BY c_time, id")
while query.next():
comm_id = query.value(0)
if comm_id == last_comm_id:
continue
time = query.value(1)
hregion = self.HRegion(db, thread_id, comm_id, time)
self.AddPoint(time, 1000, None, None, hregion)
def SelectSwitches(self, db):
last_time = None
last_comm_id = None
last_thread_id = None
query = QSqlQuery(db)
QueryExec(query, "SELECT time, thread_out_id, thread_in_id, comm_out_id, comm_in_id, flags"
" FROM context_switches"
" WHERE machine_id = " + str(self.collection.machine_id) +
" AND cpu = " + str(self.cpu) +
" ORDER BY time, id")
while query.next():
flags = int(query.value(5))
if flags & 1:
# Schedule-out: detect and add exec's
if last_thread_id == query.value(1) and last_comm_id is not None and last_comm_id != query.value(3):
self.SelectComms(db, last_thread_id, last_comm_id, last_time, query.value(0))
continue
# Schedule-in: add data point
if len(self.points) == 0:
start_time = self.collection.glb.StartTime(self.collection.machine_id)
hregion = self.HRegion(db, query.value(1), query.value(3), start_time)
self.AddPoint(start_time, 1000, None, None, hregion)
time = query.value(0)
comm_id = query.value(4)
thread_id = query.value(2)
hregion = self.HRegion(db, thread_id, comm_id, time)
self.AddPoint(time, 1000, None, None, hregion)
last_time = time
last_comm_id = comm_id
last_thread_id = thread_id
def NewHRegion(self, db, key, thread_id, comm_id, time):
exec_comm_id = ExecComm(db, thread_id, time)
query = QSqlQuery(db)
QueryExec(query, "SELECT pid, tid FROM threads WHERE id = " + str(thread_id))
if query.next():
pid = query.value(0)
tid = query.value(1)
else:
pid = -1
tid = -1
query = QSqlQuery(db)
QueryExec(query, "SELECT comm FROM comms WHERE id = " + str(comm_id))
if query.next():
comm = query.value(0)
else:
comm = ""
return SwitchGraphDataRegion(key, exec_comm_id, pid, tid, comm, thread_id, comm_id)
def HRegion(self, db, thread_id, comm_id, time):
key = str(thread_id) + ":" + str(comm_id)
hregion = self.collection.LookupHRegion(key)
if hregion is None:
hregion = self.NewHRegion(db, key, thread_id, comm_id, time)
self.collection.AddHRegion(key, hregion)
return hregion
# Graph data collection (multiple related graphs) base class
class GraphDataCollection(object):
def __init__(self, glb):
self.glb = glb
self.data = []
self.hregions = {}
self.xrangelo = None
self.xrangehi = None
self.yrangelo = None
self.yrangehi = None
self.dp = XY(0, 0)
def AddGraphData(self, data):
self.data.append(data)
def LookupHRegion(self, key):
if key in self.hregions:
return self.hregions[key]
return None
def AddHRegion(self, key, hregion):
self.hregions[key] = hregion
# Switch graph data collection (SwitchGraphData for each CPU)
class SwitchGraphDataCollection(GraphDataCollection):
def __init__(self, glb, db, machine_id):
super(SwitchGraphDataCollection, self).__init__(glb)
self.machine_id = machine_id
self.cpus = self.SelectCPUs(db)
self.xrangelo = glb.StartTime(machine_id)
self.xrangehi = glb.FinishTime(machine_id)
self.yrangelo = Decimal(0)
self.yrangehi = Decimal(1000)
for cpu in self.cpus:
self.AddGraphData(SwitchGraphData(db, self, cpu, self.xrangelo))
def SelectCPUs(self, db):
cpus = []
query = QSqlQuery(db)
QueryExec(query, "SELECT DISTINCT cpu"
" FROM context_switches"
" WHERE machine_id = " + str(self.machine_id))
while query.next():
cpus.append(int(query.value(0)))
return sorted(cpus)
# Switch graph data graphics item displays the graphed data
class SwitchGraphDataGraphicsItem(QGraphicsItem):
def __init__(self, data, graph_width, graph_height, attrs, event_handler, parent=None):
super(SwitchGraphDataGraphicsItem, self).__init__(parent)
self.data = data
self.graph_width = graph_width
self.graph_height = graph_height
self.attrs = attrs
self.event_handler = event_handler
self.setAcceptHoverEvents(True)
def boundingRect(self):
return QRectF(0, 0, self.graph_width, self.graph_height)
def PaintPoint(self, painter, last, x):
if not(last is None or last.hregion.pid == 0 or x < self.attrs.subrange.x.lo):
if last.x < self.attrs.subrange.x.lo:
x0 = self.attrs.subrange.x.lo
else:
x0 = last.x
if x > self.attrs.subrange.x.hi:
x1 = self.attrs.subrange.x.hi
else:
x1 = x - 1
x0 = self.attrs.XToPixel(x0)
x1 = self.attrs.XToPixel(x1)
y0 = self.attrs.YToPixel(last.y)
colour = self.attrs.region_attributes[last.hregion.key].colour
width = x1 - x0 + 1
if width < 2:
painter.setPen(colour)
painter.drawLine(x0, self.graph_height - y0, x0, self.graph_height)
else:
painter.fillRect(x0, self.graph_height - y0, width, self.graph_height - 1, colour)
def paint(self, painter, option, widget):
last = None
for point in self.data.points:
self.PaintPoint(painter, last, point.x)
if point.x > self.attrs.subrange.x.hi:
break;
last = point
self.PaintPoint(painter, last, self.attrs.subrange.x.hi + 1)
def BinarySearchPoint(self, target):
lower_pos = 0
higher_pos = len(self.data.points)
while True:
pos = int((lower_pos + higher_pos) / 2)
val = self.data.points[pos].x
if target >= val:
lower_pos = pos
else:
higher_pos = pos
if higher_pos <= lower_pos + 1:
return lower_pos
def XPixelToData(self, x):
x = self.attrs.PixelToX(x)
if x < self.data.points[0].x:
x = 0
pos = 0
low = True
else:
pos = self.BinarySearchPoint(x)
low = False
return (low, pos, self.data.XToData(x))
def EventToData(self, event):
no_data = (None,) * 4
if len(self.data.points) < 1:
return no_data
x = event.pos().x()
if x < 0:
return no_data
low0, pos0, time_from = self.XPixelToData(x)
low1, pos1, time_to = self.XPixelToData(x + 1)
hregions = set()
hregion_times = []
if not low1:
for i in xrange(pos0, pos1 + 1):
hregion = self.data.points[i].hregion
hregions.add(hregion)
if i == pos0:
time = time_from
else:
time = self.data.XToData(self.data.points[i].x)
hregion_times.append((hregion, time))
return (time_from, time_to, hregions, hregion_times)
def hoverMoveEvent(self, event):
time_from, time_to, hregions, hregion_times = self.EventToData(event)
if time_from is not None:
self.event_handler.PointEvent(self.data.cpu, time_from, time_to, hregions)
def hoverLeaveEvent(self, event):
self.event_handler.NoPointEvent()
def mousePressEvent(self, event):
if event.button() != Qt.RightButton:
super(SwitchGraphDataGraphicsItem, self).mousePressEvent(event)
return
time_from, time_to, hregions, hregion_times = self.EventToData(event)
if hregion_times:
self.event_handler.RightClickEvent(self.data.cpu, hregion_times, event.screenPos())
# X-axis graphics item
class XAxisGraphicsItem(QGraphicsItem):
def __init__(self, width, parent=None):
super(XAxisGraphicsItem, self).__init__(parent)
self.width = width
self.max_mark_sz = 4
self.height = self.max_mark_sz + 1
def boundingRect(self):
return QRectF(0, 0, self.width, self.height)
def Step(self):
attrs = self.parentItem().attrs
subrange = attrs.subrange.x
t = subrange.hi - subrange.lo
s = (3.0 * t) / self.width
n = 1.0
while s > n:
n = n * 10.0
return n
def PaintMarks(self, painter, at_y, lo, hi, step, i):
attrs = self.parentItem().attrs
x = lo
while x <= hi:
xp = attrs.XToPixel(x)
if i % 10:
if i % 5:
sz = 1
else:
sz = 2
else:
sz = self.max_mark_sz
i = 0
painter.drawLine(xp, at_y, xp, at_y + sz)
x += step
i += 1
def paint(self, painter, option, widget):
# Using QPainter::drawLine(int x1, int y1, int x2, int y2) so x2 = width -1
painter.drawLine(0, 0, self.width - 1, 0)
n = self.Step()
attrs = self.parentItem().attrs
subrange = attrs.subrange.x
if subrange.lo:
x_offset = n - (subrange.lo % n)
else:
x_offset = 0.0
x = subrange.lo + x_offset
i = (x / n) % 10
self.PaintMarks(painter, 0, x, subrange.hi, n, i)
def ScaleDimensions(self):
n = self.Step()
attrs = self.parentItem().attrs
lo = attrs.subrange.x.lo
hi = (n * 10.0) + lo
width = attrs.XToPixel(hi)
if width > 500:
width = 0
return (n, lo, hi, width)
def PaintScale(self, painter, at_x, at_y):
n, lo, hi, width = self.ScaleDimensions()
if not width:
return
painter.drawLine(at_x, at_y, at_x + width, at_y)
self.PaintMarks(painter, at_y, lo, hi, n, 0)
def ScaleWidth(self):
n, lo, hi, width = self.ScaleDimensions()
return width
def ScaleHeight(self):
return self.height
def ScaleUnit(self):
return self.Step() * 10
# Scale graphics item base class
class ScaleGraphicsItem(QGraphicsItem):
def __init__(self, axis, parent=None):
super(ScaleGraphicsItem, self).__init__(parent)
self.axis = axis
def boundingRect(self):
scale_width = self.axis.ScaleWidth()
if not scale_width:
return QRectF()
return QRectF(0, 0, self.axis.ScaleWidth() + 100, self.axis.ScaleHeight())
def paint(self, painter, option, widget):
scale_width = self.axis.ScaleWidth()
if not scale_width:
return
self.axis.PaintScale(painter, 0, 5)
x = scale_width + 4
painter.drawText(QPointF(x, 10), self.Text())
def Unit(self):
return self.axis.ScaleUnit()
def Text(self):
return ""
# Switch graph scale graphics item
class SwitchScaleGraphicsItem(ScaleGraphicsItem):
def __init__(self, axis, parent=None):
super(SwitchScaleGraphicsItem, self).__init__(axis, parent)
def Text(self):
unit = self.Unit()
if unit >= 1000000000:
unit = int(unit / 1000000000)
us = "s"
elif unit >= 1000000:
unit = int(unit / 1000000)
us = "ms"
elif unit >= 1000:
unit = int(unit / 1000)
us = "us"
else:
unit = int(unit)
us = "ns"
return " = " + str(unit) + " " + us
# Switch graph graphics item contains graph title, scale, x/y-axis, and the graphed data
class SwitchGraphGraphicsItem(QGraphicsItem):
def __init__(self, collection, data, attrs, event_handler, first, parent=None):
super(SwitchGraphGraphicsItem, self).__init__(parent)
self.collection = collection
self.data = data
self.attrs = attrs
self.event_handler = event_handler
margin = 20
title_width = 50
self.title_graphics = QGraphicsSimpleTextItem(data.title, self)
self.title_graphics.setPos(margin, margin)
graph_width = attrs.XToPixel(attrs.subrange.x.hi) + 1
graph_height = attrs.YToPixel(attrs.subrange.y.hi) + 1
self.graph_origin_x = margin + title_width + margin
self.graph_origin_y = graph_height + margin
x_axis_size = 1
y_axis_size = 1
self.yline = QGraphicsLineItem(0, 0, 0, graph_height, self)
self.x_axis = XAxisGraphicsItem(graph_width, self)
self.x_axis.setPos(self.graph_origin_x, self.graph_origin_y + 1)
if first:
self.scale_item = SwitchScaleGraphicsItem(self.x_axis, self)
self.scale_item.setPos(self.graph_origin_x, self.graph_origin_y + 10)
self.yline.setPos(self.graph_origin_x - y_axis_size, self.graph_origin_y - graph_height)
self.axis_point = QGraphicsLineItem(0, 0, 0, 0, self)
self.axis_point.setPos(self.graph_origin_x - 1, self.graph_origin_y +1)
self.width = self.graph_origin_x + graph_width + margin
self.height = self.graph_origin_y + margin
self.graph = SwitchGraphDataGraphicsItem(data, graph_width, graph_height, attrs, event_handler, self)
self.graph.setPos(self.graph_origin_x, self.graph_origin_y - graph_height)
if parent and 'EnableRubberBand' in dir(parent):
parent.EnableRubberBand(self.graph_origin_x, self.graph_origin_x + graph_width - 1, self)
def boundingRect(self):
return QRectF(0, 0, self.width, self.height)
def paint(self, painter, option, widget):
pass
def RBXToPixel(self, x):
return self.attrs.PixelToX(x - self.graph_origin_x)
def RBXRangeToPixel(self, x0, x1):
return (self.RBXToPixel(x0), self.RBXToPixel(x1 + 1))
def RBPixelToTime(self, x):
if x < self.data.points[0].x:
return self.data.XToData(0)
return self.data.XToData(x)
def RBEventTimes(self, x0, x1):
x0, x1 = self.RBXRangeToPixel(x0, x1)
time_from = self.RBPixelToTime(x0)
time_to = self.RBPixelToTime(x1)
return (time_from, time_to)
def RBEvent(self, x0, x1):
time_from, time_to = self.RBEventTimes(x0, x1)
self.event_handler.RangeEvent(time_from, time_to)
def RBMoveEvent(self, x0, x1):
if x1 < x0:
x0, x1 = x1, x0
self.RBEvent(x0, x1)
def RBReleaseEvent(self, x0, x1, selection_state):
if x1 < x0:
x0, x1 = x1, x0
x0, x1 = self.RBXRangeToPixel(x0, x1)
self.event_handler.SelectEvent(x0, x1, selection_state)
# Graphics item to draw a vertical bracket (used to highlight "forward" sub-range)
class VerticalBracketGraphicsItem(QGraphicsItem):
def __init__(self, parent=None):
super(VerticalBracketGraphicsItem, self).__init__(parent)
self.width = 0
self.height = 0
self.hide()
def SetSize(self, width, height):
self.width = width + 1
self.height = height + 1
def boundingRect(self):
return QRectF(0, 0, self.width, self.height)
def paint(self, painter, option, widget):
colour = QColor(255, 255, 0, 32)
painter.fillRect(0, 0, self.width, self.height, colour)
x1 = self.width - 1
y1 = self.height - 1
painter.drawLine(0, 0, x1, 0)
painter.drawLine(0, 0, 0, 3)
painter.drawLine(x1, 0, x1, 3)
painter.drawLine(0, y1, x1, y1)
painter.drawLine(0, y1, 0, y1 - 3)
painter.drawLine(x1, y1, x1, y1 - 3)
# Graphics item to contain graphs arranged vertically
class VertcalGraphSetGraphicsItem(QGraphicsItem):
def __init__(self, collection, attrs, event_handler, child_class, parent=None):
super(VertcalGraphSetGraphicsItem, self).__init__(parent)
self.collection = collection
self.top = 10
self.width = 0
self.height = self.top
self.rubber_band = None
self.rb_enabled = False
first = True
for data in collection.data:
child = child_class(collection, data, attrs, event_handler, first, self)
child.setPos(0, self.height + 1)
rect = child.boundingRect()
if rect.right() > self.width:
self.width = rect.right()
self.height = self.height + rect.bottom() + 1
first = False
self.bracket = VerticalBracketGraphicsItem(self)
def EnableRubberBand(self, xlo, xhi, rb_event_handler):
if self.rb_enabled:
return
self.rb_enabled = True
self.rb_in_view = False
self.setAcceptedMouseButtons(Qt.LeftButton)
self.rb_xlo = xlo
self.rb_xhi = xhi
self.rb_event_handler = rb_event_handler
self.mousePressEvent = self.MousePressEvent
self.mouseMoveEvent = self.MouseMoveEvent
self.mouseReleaseEvent = self.MouseReleaseEvent
def boundingRect(self):
return QRectF(0, 0, self.width, self.height)
def paint(self, painter, option, widget):
pass
def RubberBandParent(self):
scene = self.scene()
view = scene.views()[0]
viewport = view.viewport()
return viewport
def RubberBandSetGeometry(self, rect):
scene_rectf = self.mapRectToScene(QRectF(rect))
scene = self.scene()
view = scene.views()[0]
poly = view.mapFromScene(scene_rectf)
self.rubber_band.setGeometry(poly.boundingRect())
def SetSelection(self, selection_state):
if self.rubber_band:
if selection_state:
self.RubberBandSetGeometry(selection_state)
self.rubber_band.show()
else:
self.rubber_band.hide()
def SetBracket(self, rect):
if rect:
x, y, width, height = rect.x(), rect.y(), rect.width(), rect.height()
self.bracket.setPos(x, y)
self.bracket.SetSize(width, height)
self.bracket.show()
else:
self.bracket.hide()
def RubberBandX(self, event):
x = event.pos().toPoint().x()
if x < self.rb_xlo:
x = self.rb_xlo
elif x > self.rb_xhi:
x = self.rb_xhi
else:
self.rb_in_view = True
return x
def RubberBandRect(self, x):
if self.rb_origin.x() <= x:
width = x - self.rb_origin.x()
rect = QRect(self.rb_origin, QSize(width, self.height))
else:
width = self.rb_origin.x() - x
top_left = QPoint(self.rb_origin.x() - width, self.rb_origin.y())
rect = QRect(top_left, QSize(width, self.height))
return rect
def MousePressEvent(self, event):
self.rb_in_view = False
x = self.RubberBandX(event)
self.rb_origin = QPoint(x, self.top)
if self.rubber_band is None:
self.rubber_band = QRubberBand(QRubberBand.Rectangle, self.RubberBandParent())
self.RubberBandSetGeometry(QRect(self.rb_origin, QSize(0, self.height)))
if self.rb_in_view:
self.rubber_band.show()
self.rb_event_handler.RBMoveEvent(x, x)
else:
self.rubber_band.hide()
def MouseMoveEvent(self, event):
x = self.RubberBandX(event)
rect = self.RubberBandRect(x)
self.RubberBandSetGeometry(rect)
if self.rb_in_view:
self.rubber_band.show()
self.rb_event_handler.RBMoveEvent(self.rb_origin.x(), x)
def MouseReleaseEvent(self, event):
x = self.RubberBandX(event)
if self.rb_in_view:
selection_state = self.RubberBandRect(x)
else:
selection_state = None
self.rb_event_handler.RBReleaseEvent(self.rb_origin.x(), x, selection_state)
# Switch graph legend data model
class SwitchGraphLegendModel(QAbstractTableModel):
def __init__(self, collection, region_attributes, parent=None):
super(SwitchGraphLegendModel, self).__init__(parent)
self.region_attributes = region_attributes
self.child_items = sorted(collection.hregions.values(), key=GraphDataRegionOrdinal)
self.child_count = len(self.child_items)
self.highlight_set = set()
self.column_headers = ("pid", "tid", "comm")
def rowCount(self, parent):
return self.child_count
def headerData(self, section, orientation, role):
if role != Qt.DisplayRole:
return None
if orientation != Qt.Horizontal:
return None
return self.columnHeader(section)
def index(self, row, column, parent):
return self.createIndex(row, column, self.child_items[row])
def columnCount(self, parent=None):
return len(self.column_headers)
def columnHeader(self, column):
return self.column_headers[column]
def data(self, index, role):
if role == Qt.BackgroundRole:
child = self.child_items[index.row()]
if child in self.highlight_set:
return self.region_attributes[child.key].colour
return None
if role == Qt.ForegroundRole:
child = self.child_items[index.row()]
if child in self.highlight_set:
return QColor(255, 255, 255)
return self.region_attributes[child.key].colour
if role != Qt.DisplayRole:
return None
hregion = self.child_items[index.row()]
col = index.column()
if col == 0:
return hregion.pid
if col == 1:
return hregion.tid
if col == 2:
return hregion.comm
return None
def SetHighlight(self, row, set_highlight):
child = self.child_items[row]
top_left = self.createIndex(row, 0, child)
bottom_right = self.createIndex(row, len(self.column_headers) - 1, child)
self.dataChanged.emit(top_left, bottom_right)
def Highlight(self, highlight_set):
for row in xrange(self.child_count):
child = self.child_items[row]
if child in self.highlight_set:
if child not in highlight_set:
self.SetHighlight(row, False)
elif child in highlight_set:
self.SetHighlight(row, True)
self.highlight_set = highlight_set
# Switch graph legend is a table
class SwitchGraphLegend(QWidget):
def __init__(self, collection, region_attributes, parent=None):
super(SwitchGraphLegend, self).__init__(parent)
self.data_model = SwitchGraphLegendModel(collection, region_attributes)
self.model = QSortFilterProxyModel()
self.model.setSourceModel(self.data_model)
self.view = QTableView()
self.view.setModel(self.model)
self.view.setEditTriggers(QAbstractItemView.NoEditTriggers)
self.view.verticalHeader().setVisible(False)
self.view.sortByColumn(-1, Qt.AscendingOrder)
self.view.setSortingEnabled(True)
self.view.resizeColumnsToContents()
self.view.resizeRowsToContents()
self.vbox = VBoxLayout(self.view)
self.setLayout(self.vbox)
sz1 = self.view.columnWidth(0) + self.view.columnWidth(1) + self.view.columnWidth(2) + 2
sz1 = sz1 + self.view.verticalScrollBar().sizeHint().width()
self.saved_size = sz1
def resizeEvent(self, event):
self.saved_size = self.size().width()
super(SwitchGraphLegend, self).resizeEvent(event)
def Highlight(self, highlight_set):
self.data_model.Highlight(highlight_set)
self.update()
def changeEvent(self, event):
if event.type() == QEvent.FontChange:
self.view.resizeRowsToContents()
self.view.resizeColumnsToContents()
# Need to resize rows again after column resize
self.view.resizeRowsToContents()
super(SwitchGraphLegend, self).changeEvent(event)
# Random colour generation
def RGBColourTooLight(r, g, b):
if g > 230:
return True
if g <= 160:
return False
if r <= 180 and g <= 180:
return False
if r < 60:
return False
return True
def GenerateColours(x):
cs = [0]
for i in xrange(1, x):
cs.append(int((255.0 / i) + 0.5))
colours = []
for r in cs:
for g in cs:
for b in cs:
# Exclude black and colours that look too light against a white background
if (r, g, b) == (0, 0, 0) or RGBColourTooLight(r, g, b):
continue
colours.append(QColor(r, g, b))
return colours
def GenerateNColours(n):
for x in xrange(2, n + 2):
colours = GenerateColours(x)
if len(colours) >= n:
return colours
return []
def GenerateNRandomColours(n, seed):
colours = GenerateNColours(n)
random.seed(seed)
random.shuffle(colours)
return colours
# Graph attributes, in particular the scale and subrange that change when zooming
class GraphAttributes():
def __init__(self, scale, subrange, region_attributes, dp):
self.scale = scale
self.subrange = subrange
self.region_attributes = region_attributes
# Rounding avoids errors due to finite floating point precision
self.dp = dp # data decimal places
self.Update()
def XToPixel(self, x):
return int(round((x - self.subrange.x.lo) * self.scale.x, self.pdp.x))
def YToPixel(self, y):
return int(round((y - self.subrange.y.lo) * self.scale.y, self.pdp.y))
def PixelToXRounded(self, px):
return round((round(px, 0) / self.scale.x), self.dp.x) + self.subrange.x.lo
def PixelToYRounded(self, py):
return round((round(py, 0) / self.scale.y), self.dp.y) + self.subrange.y.lo
def PixelToX(self, px):
x = self.PixelToXRounded(px)
if self.pdp.x == 0:
rt = self.XToPixel(x)
if rt > px:
return x - 1
return x
def PixelToY(self, py):
y = self.PixelToYRounded(py)
if self.pdp.y == 0:
rt = self.YToPixel(y)
if rt > py:
return y - 1
return y
def ToPDP(self, dp, scale):
# Calculate pixel decimal places:
# (10 ** dp) is the minimum delta in the data
# scale it to get the minimum delta in pixels
# log10 gives the number of decimals places negatively
# subtrace 1 to divide by 10
# round to the lower negative number
# change the sign to get the number of decimals positively
x = math.log10((10 ** dp) * scale)
if x < 0:
x -= 1
x = -int(math.floor(x) - 0.1)
else:
x = 0
return x
def Update(self):
x = self.ToPDP(self.dp.x, self.scale.x)
y = self.ToPDP(self.dp.y, self.scale.y)
self.pdp = XY(x, y) # pixel decimal places
# Switch graph splitter which divides the CPU graphs from the legend
class SwitchGraphSplitter(QSplitter):
def __init__(self, parent=None):
super(SwitchGraphSplitter, self).__init__(parent)
self.first_time = False
def resizeEvent(self, ev):
if self.first_time:
self.first_time = False
sz1 = self.widget(1).view.columnWidth(0) + self.widget(1).view.columnWidth(1) + self.widget(1).view.columnWidth(2) + 2
sz1 = sz1 + self.widget(1).view.verticalScrollBar().sizeHint().width()
sz0 = self.size().width() - self.handleWidth() - sz1
self.setSizes([sz0, sz1])
elif not(self.widget(1).saved_size is None):
sz1 = self.widget(1).saved_size
sz0 = self.size().width() - self.handleWidth() - sz1
self.setSizes([sz0, sz1])
super(SwitchGraphSplitter, self).resizeEvent(ev)
# Graph widget base class
class GraphWidget(QWidget):
graph_title_changed = Signal(object)
def __init__(self, parent=None):
super(GraphWidget, self).__init__(parent)
def GraphTitleChanged(self, title):
self.graph_title_changed.emit(title)
def Title(self):
return ""
# Display time in s, ms, us or ns
def ToTimeStr(val):
val = Decimal(val)
if val >= 1000000000:
return "{} s".format((val / 1000000000).quantize(Decimal("0.000000001")))
if val >= 1000000:
return "{} ms".format((val / 1000000).quantize(Decimal("0.000001")))
if val >= 1000:
return "{} us".format((val / 1000).quantize(Decimal("0.001")))
return "{} ns".format(val.quantize(Decimal("1")))
# Switch (i.e. context switch i.e. Time Chart by CPU) graph widget which contains the CPU graphs and the legend and control buttons
class SwitchGraphWidget(GraphWidget):
def __init__(self, glb, collection, parent=None):
super(SwitchGraphWidget, self).__init__(parent)
self.glb = glb
self.collection = collection
self.back_state = []
self.forward_state = []
self.selection_state = (None, None)
self.fwd_rect = None
self.start_time = self.glb.StartTime(collection.machine_id)
i = 0
hregions = collection.hregions.values()
colours = GenerateNRandomColours(len(hregions), 1013)
region_attributes = {}
for hregion in hregions:
if hregion.pid == 0 and hregion.tid == 0:
region_attributes[hregion.key] = GraphRegionAttribute(QColor(0, 0, 0))
else:
region_attributes[hregion.key] = GraphRegionAttribute(colours[i])
i = i + 1
# Default to entire range
xsubrange = Subrange(0.0, float(collection.xrangehi - collection.xrangelo) + 1.0)
ysubrange = Subrange(0.0, float(collection.yrangehi - collection.yrangelo) + 1.0)
subrange = XY(xsubrange, ysubrange)
scale = self.GetScaleForRange(subrange)
self.attrs = GraphAttributes(scale, subrange, region_attributes, collection.dp)
self.item = VertcalGraphSetGraphicsItem(collection, self.attrs, self, SwitchGraphGraphicsItem)
self.scene = QGraphicsScene()
self.scene.addItem(self.item)
self.view = QGraphicsView(self.scene)
self.view.centerOn(0, 0)
self.view.setAlignment(Qt.AlignLeft | Qt.AlignTop)
self.legend = SwitchGraphLegend(collection, region_attributes)
self.splitter = SwitchGraphSplitter()
self.splitter.addWidget(self.view)
self.splitter.addWidget(self.legend)
self.point_label = QLabel("")
self.point_label.setSizePolicy(QSizePolicy.Preferred, QSizePolicy.Fixed)
self.back_button = QToolButton()
self.back_button.setIcon(self.style().standardIcon(QStyle.SP_ArrowLeft))
self.back_button.setDisabled(True)
self.back_button.released.connect(lambda: self.Back())
self.forward_button = QToolButton()
self.forward_button.setIcon(self.style().standardIcon(QStyle.SP_ArrowRight))
self.forward_button.setDisabled(True)
self.forward_button.released.connect(lambda: self.Forward())
self.zoom_button = QToolButton()
self.zoom_button.setText("Zoom")
self.zoom_button.setDisabled(True)
self.zoom_button.released.connect(lambda: self.Zoom())
self.hbox = HBoxLayout(self.back_button, self.forward_button, self.zoom_button, self.point_label)
self.vbox = VBoxLayout(self.splitter, self.hbox)
self.setLayout(self.vbox)
def GetScaleForRangeX(self, xsubrange):
# Default graph 1000 pixels wide
dflt = 1000.0
r = xsubrange.hi - xsubrange.lo
return dflt / r
def GetScaleForRangeY(self, ysubrange):
# Default graph 50 pixels high
dflt = 50.0
r = ysubrange.hi - ysubrange.lo
return dflt / r
def GetScaleForRange(self, subrange):
# Default graph 1000 pixels wide, 50 pixels high
xscale = self.GetScaleForRangeX(subrange.x)
yscale = self.GetScaleForRangeY(subrange.y)
return XY(xscale, yscale)
def PointEvent(self, cpu, time_from, time_to, hregions):
text = "CPU: " + str(cpu)
time_from = time_from.quantize(Decimal(1))
rel_time_from = time_from - self.glb.StartTime(self.collection.machine_id)
text = text + " Time: " + str(time_from) + " (+" + ToTimeStr(rel_time_from) + ")"
self.point_label.setText(text)
self.legend.Highlight(hregions)
def RightClickEvent(self, cpu, hregion_times, pos):
if not IsSelectable(self.glb.db, "calls", "WHERE parent_id >= 0"):
return
menu = QMenu(self.view)
for hregion, time in hregion_times:
thread_at_time = (hregion.exec_comm_id, hregion.thread_id, time)
menu_text = "Show Call Tree for {} {}:{} at {}".format(hregion.comm, hregion.pid, hregion.tid, time)
menu.addAction(CreateAction(menu_text, "Show Call Tree", lambda a=None, args=thread_at_time: self.RightClickSelect(args), self.view))
menu.exec_(pos)
def RightClickSelect(self, args):
CallTreeWindow(self.glb, self.glb.mainwindow, thread_at_time=args)
def NoPointEvent(self):
self.point_label.setText("")
self.legend.Highlight({})
def RangeEvent(self, time_from, time_to):
time_from = time_from.quantize(Decimal(1))
time_to = time_to.quantize(Decimal(1))
if time_to <= time_from:
self.point_label.setText("")
return
rel_time_from = time_from - self.start_time
rel_time_to = time_to - self.start_time
text = " Time: " + str(time_from) + " (+" + ToTimeStr(rel_time_from) + ") to: " + str(time_to) + " (+" + ToTimeStr(rel_time_to) + ")"
text = text + " duration: " + ToTimeStr(time_to - time_from)
self.point_label.setText(text)
def BackState(self):
return (self.attrs.subrange, self.attrs.scale, self.selection_state, self.fwd_rect)
def PushBackState(self):
state = copy.deepcopy(self.BackState())
self.back_state.append(state)
self.back_button.setEnabled(True)
def PopBackState(self):
self.attrs.subrange, self.attrs.scale, self.selection_state, self.fwd_rect = self.back_state.pop()
self.attrs.Update()
if not self.back_state:
self.back_button.setDisabled(True)
def PushForwardState(self):
state = copy.deepcopy(self.BackState())
self.forward_state.append(state)
self.forward_button.setEnabled(True)
def PopForwardState(self):
self.attrs.subrange, self.attrs.scale, self.selection_state, self.fwd_rect = self.forward_state.pop()
self.attrs.Update()
if not self.forward_state:
self.forward_button.setDisabled(True)
def Title(self):
time_from = self.collection.xrangelo + Decimal(self.attrs.subrange.x.lo)
time_to = self.collection.xrangelo + Decimal(self.attrs.subrange.x.hi)
rel_time_from = time_from - self.start_time
rel_time_to = time_to - self.start_time
title = "+" + ToTimeStr(rel_time_from) + " to +" + ToTimeStr(rel_time_to)
title = title + " (" + ToTimeStr(time_to - time_from) + ")"
return title
def Update(self):
selected_subrange, selection_state = self.selection_state
self.item.SetSelection(selection_state)
self.item.SetBracket(self.fwd_rect)
self.zoom_button.setDisabled(selected_subrange is None)
self.GraphTitleChanged(self.Title())
self.item.update(self.item.boundingRect())
def Back(self):
if not self.back_state:
return
self.PushForwardState()
self.PopBackState()
self.Update()
def Forward(self):
if not self.forward_state:
return
self.PushBackState()
self.PopForwardState()
self.Update()
def SelectEvent(self, x0, x1, selection_state):
if selection_state is None:
selected_subrange = None
else:
if x1 - x0 < 1.0:
x1 += 1.0
selected_subrange = Subrange(x0, x1)
self.selection_state = (selected_subrange, selection_state)
self.zoom_button.setDisabled(selected_subrange is None)
def Zoom(self):
selected_subrange, selection_state = self.selection_state
if selected_subrange is None:
return
self.fwd_rect = selection_state
self.item.SetSelection(None)
self.PushBackState()
self.attrs.subrange.x = selected_subrange
self.forward_state = []
self.forward_button.setDisabled(True)
self.selection_state = (None, None)
self.fwd_rect = None
self.attrs.scale.x = self.GetScaleForRangeX(self.attrs.subrange.x)
self.attrs.Update()
self.Update()
# Slow initialization - perform non-GUI initialization in a separate thread and put up a modal message box while waiting
class SlowInitClass():
def __init__(self, glb, title, init_fn):
self.init_fn = init_fn
self.done = False
self.result = None
self.msg_box = QMessageBox(glb.mainwindow)
self.msg_box.setText("Initializing " + title + ". Please wait.")
self.msg_box.setWindowTitle("Initializing " + title)
self.msg_box.setWindowIcon(glb.mainwindow.style().standardIcon(QStyle.SP_MessageBoxInformation))
self.init_thread = Thread(self.ThreadFn, glb)
self.init_thread.done.connect(lambda: self.Done(), Qt.QueuedConnection)
self.init_thread.start()
def Done(self):
self.msg_box.done(0)
def ThreadFn(self, glb):
conn_name = "SlowInitClass" + str(os.getpid())
db, dbname = glb.dbref.Open(conn_name)
self.result = self.init_fn(db)
self.done = True
return (True, 0)
def Result(self):
while not self.done:
self.msg_box.exec_()
self.init_thread.wait()
return self.result
def SlowInit(glb, title, init_fn):
init = SlowInitClass(glb, title, init_fn)
return init.Result()
# Time chart by CPU window
class TimeChartByCPUWindow(QMdiSubWindow):
def __init__(self, glb, parent=None):
super(TimeChartByCPUWindow, self).__init__(parent)
self.glb = glb
self.machine_id = glb.HostMachineId()
self.collection_name = "SwitchGraphDataCollection " + str(self.machine_id)
collection = LookupModel(self.collection_name)
if collection is None:
collection = SlowInit(glb, "Time Chart", self.Init)
self.widget = SwitchGraphWidget(glb, collection, self)
self.view = self.widget
self.base_title = "Time Chart by CPU"
self.setWindowTitle(self.base_title + self.widget.Title())
self.widget.graph_title_changed.connect(self.GraphTitleChanged)
self.setWidget(self.widget)
AddSubWindow(glb.mainwindow.mdi_area, self, self.windowTitle())
def Init(self, db):
return LookupCreateModel(self.collection_name, lambda : SwitchGraphDataCollection(self.glb, db, self.machine_id))
def GraphTitleChanged(self, title):
self.setWindowTitle(self.base_title + " : " + title)
# Child data item finder
class ChildDataItemFinder():
def __init__(self, root):
self.root = root
self.value, self.direction, self.pattern, self.last_value, self.last_pattern = (None,) * 5
self.rows = []
self.pos = 0
def FindSelect(self):
self.rows = []
if self.pattern:
pattern = re.compile(self.value)
for child in self.root.child_items:
for column_data in child.data:
if re.search(pattern, str(column_data)) is not None:
self.rows.append(child.row)
break
else:
for child in self.root.child_items:
for column_data in child.data:
if self.value in str(column_data):
self.rows.append(child.row)
break
def FindValue(self):
self.pos = 0
if self.last_value != self.value or self.pattern != self.last_pattern:
self.FindSelect()
if not len(self.rows):
return -1
return self.rows[self.pos]
def FindThread(self):
if self.direction == 0 or self.value != self.last_value or self.pattern != self.last_pattern:
row = self.FindValue()
elif len(self.rows):
if self.direction > 0:
self.pos += 1
if self.pos >= len(self.rows):
self.pos = 0
else:
self.pos -= 1
if self.pos < 0:
self.pos = len(self.rows) - 1
row = self.rows[self.pos]
else:
row = -1
return (True, row)
def Find(self, value, direction, pattern, context, callback):
self.value, self.direction, self.pattern, self.last_value, self.last_pattern = (value, direction,pattern, self.value, self.pattern)
# Use a thread so the UI is not blocked
thread = Thread(self.FindThread)
thread.done.connect(lambda row, t=thread, c=callback: self.FindDone(t, c, row), Qt.QueuedConnection)
thread.start()
def FindDone(self, thread, callback, row):
callback(row)
# Number of database records to fetch in one go
glb_chunk_sz = 10000
# Background process for SQL data fetcher
class SQLFetcherProcess():
def __init__(self, dbref, sql, buffer, head, tail, fetch_count, fetching_done, process_target, wait_event, fetched_event, prep):
# Need a unique connection name
conn_name = "SQLFetcher" + str(os.getpid())
self.db, dbname = dbref.Open(conn_name)
self.sql = sql
self.buffer = buffer
self.head = head
self.tail = tail
self.fetch_count = fetch_count
self.fetching_done = fetching_done
self.process_target = process_target
self.wait_event = wait_event
self.fetched_event = fetched_event
self.prep = prep
self.query = QSqlQuery(self.db)
self.query_limit = 0 if "$$last_id$$" in sql else 2
self.last_id = -1
self.fetched = 0
self.more = True
self.local_head = self.head.value
self.local_tail = self.tail.value
def Select(self):
if self.query_limit:
if self.query_limit == 1:
return
self.query_limit -= 1
stmt = self.sql.replace("$$last_id$$", str(self.last_id))
QueryExec(self.query, stmt)
def Next(self):
if not self.query.next():
self.Select()
if not self.query.next():
return None
self.last_id = self.query.value(0)
return self.prep(self.query)
def WaitForTarget(self):
while True:
self.wait_event.clear()
target = self.process_target.value
if target > self.fetched or target < 0:
break
self.wait_event.wait()
return target
def HasSpace(self, sz):
if self.local_tail <= self.local_head:
space = len(self.buffer) - self.local_head
if space > sz:
return True
if space >= glb_nsz:
# Use 0 (or space < glb_nsz) to mean there is no more at the top of the buffer
nd = pickle.dumps(0, pickle.HIGHEST_PROTOCOL)
self.buffer[self.local_head : self.local_head + len(nd)] = nd
self.local_head = 0
if self.local_tail - self.local_head > sz:
return True
return False
def WaitForSpace(self, sz):
if self.HasSpace(sz):
return
while True:
self.wait_event.clear()
self.local_tail = self.tail.value
if self.HasSpace(sz):
return
self.wait_event.wait()
def AddToBuffer(self, obj):
d = pickle.dumps(obj, pickle.HIGHEST_PROTOCOL)
n = len(d)
nd = pickle.dumps(n, pickle.HIGHEST_PROTOCOL)
sz = n + glb_nsz
self.WaitForSpace(sz)
pos = self.local_head
self.buffer[pos : pos + len(nd)] = nd
self.buffer[pos + glb_nsz : pos + sz] = d
self.local_head += sz
def FetchBatch(self, batch_size):
fetched = 0
while batch_size > fetched:
obj = self.Next()
if obj is None:
self.more = False
break
self.AddToBuffer(obj)
fetched += 1
if fetched:
self.fetched += fetched
with self.fetch_count.get_lock():
self.fetch_count.value += fetched
self.head.value = self.local_head
self.fetched_event.set()
def Run(self):
while self.more:
target = self.WaitForTarget()
if target < 0:
break
batch_size = min(glb_chunk_sz, target - self.fetched)
self.FetchBatch(batch_size)
self.fetching_done.value = True
self.fetched_event.set()
def SQLFetcherFn(*x):
process = SQLFetcherProcess(*x)
process.Run()
# SQL data fetcher
class SQLFetcher(QObject):
done = Signal(object)
def __init__(self, glb, sql, prep, process_data, parent=None):
super(SQLFetcher, self).__init__(parent)
self.process_data = process_data
self.more = True
self.target = 0
self.last_target = 0
self.fetched = 0
self.buffer_size = 16 * 1024 * 1024
self.buffer = Array(c_char, self.buffer_size, lock=False)
self.head = Value(c_longlong)
self.tail = Value(c_longlong)
self.local_tail = 0
self.fetch_count = Value(c_longlong)
self.fetching_done = Value(c_bool)
self.last_count = 0
self.process_target = Value(c_longlong)
self.wait_event = Event()
self.fetched_event = Event()
glb.AddInstanceToShutdownOnExit(self)
self.process = Process(target=SQLFetcherFn, args=(glb.dbref, sql, self.buffer, self.head, self.tail, self.fetch_count, self.fetching_done, self.process_target, self.wait_event, self.fetched_event, prep))
self.process.start()
self.thread = Thread(self.Thread)
self.thread.done.connect(self.ProcessData, Qt.QueuedConnection)
self.thread.start()
def Shutdown(self):
# Tell the thread and process to exit
self.process_target.value = -1
self.wait_event.set()
self.more = False
self.fetching_done.value = True
self.fetched_event.set()
def Thread(self):
if not self.more:
return True, 0
while True:
self.fetched_event.clear()
fetch_count = self.fetch_count.value
if fetch_count != self.last_count:
break
if self.fetching_done.value:
self.more = False
return True, 0
self.fetched_event.wait()
count = fetch_count - self.last_count
self.last_count = fetch_count
self.fetched += count
return False, count
def Fetch(self, nr):
if not self.more:
# -1 inidcates there are no more
return -1
result = self.fetched
extra = result + nr - self.target
if extra > 0:
self.target += extra
# process_target < 0 indicates shutting down
if self.process_target.value >= 0:
self.process_target.value = self.target
self.wait_event.set()
return result
def RemoveFromBuffer(self):
pos = self.local_tail
if len(self.buffer) - pos < glb_nsz:
pos = 0
n = pickle.loads(self.buffer[pos : pos + glb_nsz])
if n == 0:
pos = 0
n = pickle.loads(self.buffer[0 : glb_nsz])
pos += glb_nsz
obj = pickle.loads(self.buffer[pos : pos + n])
self.local_tail = pos + n
return obj
def ProcessData(self, count):
for i in xrange(count):
obj = self.RemoveFromBuffer()
self.process_data(obj)
self.tail.value = self.local_tail
self.wait_event.set()
self.done.emit(count)
# Fetch more records bar
class FetchMoreRecordsBar():
def __init__(self, model, parent):
self.model = model
self.label = QLabel("Number of records (x " + "{:,}".format(glb_chunk_sz) + ") to fetch:")
self.label.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
self.fetch_count = QSpinBox()
self.fetch_count.setRange(1, 1000000)
self.fetch_count.setValue(10)
self.fetch_count.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
self.fetch = QPushButton("Go!")
self.fetch.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
self.fetch.released.connect(self.FetchMoreRecords)
self.progress = QProgressBar()
self.progress.setRange(0, 100)
self.progress.hide()
self.done_label = QLabel("All records fetched")
self.done_label.hide()
self.spacer = QLabel("")
self.close_button = QToolButton()
self.close_button.setIcon(parent.style().standardIcon(QStyle.SP_DockWidgetCloseButton))
self.close_button.released.connect(self.Deactivate)
self.hbox = QHBoxLayout()
self.hbox.setContentsMargins(0, 0, 0, 0)
self.hbox.addWidget(self.label)
self.hbox.addWidget(self.fetch_count)
self.hbox.addWidget(self.fetch)
self.hbox.addWidget(self.spacer)
self.hbox.addWidget(self.progress)
self.hbox.addWidget(self.done_label)
self.hbox.addWidget(self.close_button)
self.bar = QWidget()
self.bar.setLayout(self.hbox)
self.bar.show()
self.in_progress = False
self.model.progress.connect(self.Progress)
self.done = False
if not model.HasMoreRecords():
self.Done()
def Widget(self):
return self.bar
def Activate(self):
self.bar.show()
self.fetch.setFocus()
def Deactivate(self):
self.bar.hide()
def Enable(self, enable):
self.fetch.setEnabled(enable)
self.fetch_count.setEnabled(enable)
def Busy(self):
self.Enable(False)
self.fetch.hide()
self.spacer.hide()
self.progress.show()
def Idle(self):
self.in_progress = False
self.Enable(True)
self.progress.hide()
self.fetch.show()
self.spacer.show()
def Target(self):
return self.fetch_count.value() * glb_chunk_sz
def Done(self):
self.done = True
self.Idle()
self.label.hide()
self.fetch_count.hide()
self.fetch.hide()
self.spacer.hide()
self.done_label.show()
def Progress(self, count):
if self.in_progress:
if count:
percent = ((count - self.start) * 100) / self.Target()
if percent >= 100:
self.Idle()
else:
self.progress.setValue(percent)
if not count:
# Count value of zero means no more records
self.Done()
def FetchMoreRecords(self):
if self.done:
return
self.progress.setValue(0)
self.Busy()
self.in_progress = True
self.start = self.model.FetchMoreRecords(self.Target())
# Brance data model level two item
class BranchLevelTwoItem():
def __init__(self, row, col, text, parent_item):
self.row = row
self.parent_item = parent_item
self.data = [""] * (col + 1)
self.data[col] = text
self.level = 2
def getParentItem(self):
return self.parent_item
def getRow(self):
return self.row
def childCount(self):
return 0
def hasChildren(self):
return False
def getData(self, column):
return self.data[column]
# Brance data model level one item
class BranchLevelOneItem():
def __init__(self, glb, row, data, parent_item):
self.glb = glb
self.row = row
self.parent_item = parent_item
self.child_count = 0
self.child_items = []
self.data = data[1:]
self.dbid = data[0]
self.level = 1
self.query_done = False
self.br_col = len(self.data) - 1
def getChildItem(self, row):
return self.child_items[row]
def getParentItem(self):
return self.parent_item
def getRow(self):
return self.row
def Select(self):
self.query_done = True
if not self.glb.have_disassembler:
return
query = QSqlQuery(self.glb.db)
QueryExec(query, "SELECT cpu, to_dso_id, to_symbol_id, to_sym_offset, short_name, long_name, build_id, sym_start, to_ip"
" FROM samples"
" INNER JOIN dsos ON samples.to_dso_id = dsos.id"
" INNER JOIN symbols ON samples.to_symbol_id = symbols.id"
" WHERE samples.id = " + str(self.dbid))
if not query.next():
return
cpu = query.value(0)
dso = query.value(1)
sym = query.value(2)
if dso == 0 or sym == 0:
return
off = query.value(3)
short_name = query.value(4)
long_name = query.value(5)
build_id = query.value(6)
sym_start = query.value(7)
ip = query.value(8)
QueryExec(query, "SELECT samples.dso_id, symbol_id, sym_offset, sym_start"
" FROM samples"
" INNER JOIN symbols ON samples.symbol_id = symbols.id"
" WHERE samples.id > " + str(self.dbid) + " AND cpu = " + str(cpu) +
" ORDER BY samples.id"
" LIMIT 1")
if not query.next():
return
if query.value(0) != dso:
# Cannot disassemble from one dso to another
return
bsym = query.value(1)
boff = query.value(2)
bsym_start = query.value(3)
if bsym == 0:
return
tot = bsym_start + boff + 1 - sym_start - off
if tot <= 0 or tot > 16384:
return
inst = self.glb.disassembler.Instruction()
f = self.glb.FileFromNamesAndBuildId(short_name, long_name, build_id)
if not f:
return
mode = 0 if Is64Bit(f) else 1
self.glb.disassembler.SetMode(inst, mode)
buf_sz = tot + 16
buf = create_string_buffer(tot + 16)
f.seek(sym_start + off)
buf.value = f.read(buf_sz)
buf_ptr = addressof(buf)
i = 0
while tot > 0:
cnt, text = self.glb.disassembler.DisassembleOne(inst, buf_ptr, buf_sz, ip)
if cnt:
byte_str = tohex(ip).rjust(16)
for k in xrange(cnt):
byte_str += " %02x" % ord(buf[i])
i += 1
while k < 15:
byte_str += " "
k += 1
self.child_items.append(BranchLevelTwoItem(0, self.br_col, byte_str + " " + text, self))
self.child_count += 1
else:
return
buf_ptr += cnt
tot -= cnt
buf_sz -= cnt
ip += cnt
def childCount(self):
if not self.query_done:
self.Select()
if not self.child_count:
return -1
return self.child_count
def hasChildren(self):
if not self.query_done:
return True
return self.child_count > 0
def getData(self, column):
return self.data[column]
# Brance data model root item
class BranchRootItem():
def __init__(self):
self.child_count = 0
self.child_items = []
self.level = 0
def getChildItem(self, row):
return self.child_items[row]
def getParentItem(self):
return None
def getRow(self):
return 0
def childCount(self):
return self.child_count
def hasChildren(self):
return self.child_count > 0
def getData(self, column):
return ""
# Calculate instructions per cycle
def CalcIPC(cyc_cnt, insn_cnt):
if cyc_cnt and insn_cnt:
ipc = Decimal(float(insn_cnt) / cyc_cnt)
ipc = str(ipc.quantize(Decimal(".01"), rounding=ROUND_HALF_UP))
else:
ipc = "0"
return ipc
# Branch data preparation
def BranchDataPrepBr(query, data):
data.append(tohex(query.value(8)).rjust(16) + " " + query.value(9) + offstr(query.value(10)) +
" (" + dsoname(query.value(11)) + ")" + " -> " +
tohex(query.value(12)) + " " + query.value(13) + offstr(query.value(14)) +
" (" + dsoname(query.value(15)) + ")")
def BranchDataPrepIPC(query, data):
insn_cnt = query.value(16)
cyc_cnt = query.value(17)
ipc = CalcIPC(cyc_cnt, insn_cnt)
data.append(insn_cnt)
data.append(cyc_cnt)
data.append(ipc)
def BranchDataPrep(query):
data = []
for i in xrange(0, 8):
data.append(query.value(i))
BranchDataPrepBr(query, data)
return data
def BranchDataPrepWA(query):
data = []
data.append(query.value(0))
# Workaround pyside failing to handle large integers (i.e. time) in python3 by converting to a string
data.append("{:>19}".format(query.value(1)))
for i in xrange(2, 8):
data.append(query.value(i))
BranchDataPrepBr(query, data)
return data
def BranchDataWithIPCPrep(query):
data = []
for i in xrange(0, 8):
data.append(query.value(i))
BranchDataPrepIPC(query, data)
BranchDataPrepBr(query, data)
return data
def BranchDataWithIPCPrepWA(query):
data = []
data.append(query.value(0))
# Workaround pyside failing to handle large integers (i.e. time) in python3 by converting to a string
data.append("{:>19}".format(query.value(1)))
for i in xrange(2, 8):
data.append(query.value(i))
BranchDataPrepIPC(query, data)
BranchDataPrepBr(query, data)
return data
# Branch data model
class BranchModel(TreeModel):
progress = Signal(object)
def __init__(self, glb, event_id, where_clause, parent=None):
super(BranchModel, self).__init__(glb, None, parent)
self.event_id = event_id
self.more = True
self.populated = 0
self.have_ipc = IsSelectable(glb.db, "samples", columns = "insn_count, cyc_count")
if self.have_ipc:
select_ipc = ", insn_count, cyc_count"
prep_fn = BranchDataWithIPCPrep
prep_wa_fn = BranchDataWithIPCPrepWA
else:
select_ipc = ""
prep_fn = BranchDataPrep
prep_wa_fn = BranchDataPrepWA
sql = ("SELECT samples.id, time, cpu, comm, pid, tid, branch_types.name,"
" CASE WHEN in_tx = '0' THEN 'No' ELSE 'Yes' END,"
" ip, symbols.name, sym_offset, dsos.short_name,"
" to_ip, to_symbols.name, to_sym_offset, to_dsos.short_name"
+ select_ipc +
" FROM samples"
" INNER JOIN comms ON comm_id = comms.id"
" INNER JOIN threads ON thread_id = threads.id"
" INNER JOIN branch_types ON branch_type = branch_types.id"
" INNER JOIN symbols ON symbol_id = symbols.id"
" INNER JOIN symbols to_symbols ON to_symbol_id = to_symbols.id"
" INNER JOIN dsos ON samples.dso_id = dsos.id"
" INNER JOIN dsos AS to_dsos ON samples.to_dso_id = to_dsos.id"
" WHERE samples.id > $$last_id$$" + where_clause +
" AND evsel_id = " + str(self.event_id) +
" ORDER BY samples.id"
" LIMIT " + str(glb_chunk_sz))
if pyside_version_1 and sys.version_info[0] == 3:
prep = prep_fn
else:
prep = prep_wa_fn
self.fetcher = SQLFetcher(glb, sql, prep, self.AddSample)
self.fetcher.done.connect(self.Update)
self.fetcher.Fetch(glb_chunk_sz)
def GetRoot(self):
return BranchRootItem()
def columnCount(self, parent=None):
if self.have_ipc:
return 11
else:
return 8
def columnHeader(self, column):
if self.have_ipc:
return ("Time", "CPU", "Command", "PID", "TID", "Branch Type", "In Tx", "Insn Cnt", "Cyc Cnt", "IPC", "Branch")[column]
else:
return ("Time", "CPU", "Command", "PID", "TID", "Branch Type", "In Tx", "Branch")[column]
def columnFont(self, column):
if self.have_ipc:
br_col = 10
else:
br_col = 7
if column != br_col:
return None
return QFont("Monospace")
def DisplayData(self, item, index):
if item.level == 1:
self.FetchIfNeeded(item.row)
return item.getData(index.column())
def AddSample(self, data):
child = BranchLevelOneItem(self.glb, self.populated, data, self.root)
self.root.child_items.append(child)
self.populated += 1
def Update(self, fetched):
if not fetched:
self.more = False
self.progress.emit(0)
child_count = self.root.child_count
count = self.populated - child_count
if count > 0:
parent = QModelIndex()
self.beginInsertRows(parent, child_count, child_count + count - 1)
self.insertRows(child_count, count, parent)
self.root.child_count += count
self.endInsertRows()
self.progress.emit(self.root.child_count)
def FetchMoreRecords(self, count):
current = self.root.child_count
if self.more:
self.fetcher.Fetch(count)
else:
self.progress.emit(0)
return current
def HasMoreRecords(self):
return self.more
# Report Variables
class ReportVars():
def __init__(self, name = "", where_clause = "", limit = ""):
self.name = name
self.where_clause = where_clause
self.limit = limit
def UniqueId(self):
return str(self.where_clause + ";" + self.limit)
# Branch window
class BranchWindow(QMdiSubWindow):
def __init__(self, glb, event_id, report_vars, parent=None):
super(BranchWindow, self).__init__(parent)
model_name = "Branch Events " + str(event_id) + " " + report_vars.UniqueId()
self.model = LookupCreateModel(model_name, lambda: BranchModel(glb, event_id, report_vars.where_clause))
self.view = QTreeView()
self.view.setUniformRowHeights(True)
self.view.setSelectionMode(QAbstractItemView.ContiguousSelection)
self.view.CopyCellsToClipboard = CopyTreeCellsToClipboard
self.view.setModel(self.model)
self.ResizeColumnsToContents()
self.context_menu = TreeContextMenu(self.view)
self.find_bar = FindBar(self, self, True)
self.finder = ChildDataItemFinder(self.model.root)
self.fetch_bar = FetchMoreRecordsBar(self.model, self)
self.vbox = VBox(self.view, self.find_bar.Widget(), self.fetch_bar.Widget())
self.setWidget(self.vbox.Widget())
AddSubWindow(glb.mainwindow.mdi_area, self, report_vars.name + " Branch Events")
def ResizeColumnToContents(self, column, n):
# Using the view's resizeColumnToContents() here is extrememly slow
# so implement a crude alternative
mm = "MM" if column else "MMMM"
font = self.view.font()
metrics = QFontMetrics(font)
max = 0
for row in xrange(n):
val = self.model.root.child_items[row].data[column]
len = metrics.width(str(val) + mm)
max = len if len > max else max
val = self.model.columnHeader(column)
len = metrics.width(str(val) + mm)
max = len if len > max else max
self.view.setColumnWidth(column, max)
def ResizeColumnsToContents(self):
n = min(self.model.root.child_count, 100)
if n < 1:
# No data yet, so connect a signal to notify when there is
self.model.rowsInserted.connect(self.UpdateColumnWidths)
return
columns = self.model.columnCount()
for i in xrange(columns):
self.ResizeColumnToContents(i, n)
def UpdateColumnWidths(self, *x):
# This only needs to be done once, so disconnect the signal now
self.model.rowsInserted.disconnect(self.UpdateColumnWidths)
self.ResizeColumnsToContents()
def Find(self, value, direction, pattern, context):
self.view.setFocus()
self.find_bar.Busy()
self.finder.Find(value, direction, pattern, context, self.FindDone)
def FindDone(self, row):
self.find_bar.Idle()
if row >= 0:
self.view.setCurrentIndex(self.model.index(row, 0, QModelIndex()))
else:
self.find_bar.NotFound()
# Line edit data item
class LineEditDataItem(object):
def __init__(self, glb, label, placeholder_text, parent, id = "", default = ""):
self.glb = glb
self.label = label
self.placeholder_text = placeholder_text
self.parent = parent
self.id = id
self.value = default
self.widget = QLineEdit(default)
self.widget.editingFinished.connect(self.Validate)
self.widget.textChanged.connect(self.Invalidate)
self.red = False
self.error = ""
self.validated = True
if placeholder_text:
self.widget.setPlaceholderText(placeholder_text)
def TurnTextRed(self):
if not self.red:
palette = QPalette()
palette.setColor(QPalette.Text,Qt.red)
self.widget.setPalette(palette)
self.red = True
def TurnTextNormal(self):
if self.red:
palette = QPalette()
self.widget.setPalette(palette)
self.red = False
def InvalidValue(self, value):
self.value = ""
self.TurnTextRed()
self.error = self.label + " invalid value '" + value + "'"
self.parent.ShowMessage(self.error)
def Invalidate(self):
self.validated = False
def DoValidate(self, input_string):
self.value = input_string.strip()
def Validate(self):
self.validated = True
self.error = ""
self.TurnTextNormal()
self.parent.ClearMessage()
input_string = self.widget.text()
if not len(input_string.strip()):
self.value = ""
return
self.DoValidate(input_string)
def IsValid(self):
if not self.validated:
self.Validate()
if len(self.error):
self.parent.ShowMessage(self.error)
return False
return True
def IsNumber(self, value):
try:
x = int(value)
except:
x = 0
return str(x) == value
# Non-negative integer ranges dialog data item
class NonNegativeIntegerRangesDataItem(LineEditDataItem):
def __init__(self, glb, label, placeholder_text, column_name, parent):
super(NonNegativeIntegerRangesDataItem, self).__init__(glb, label, placeholder_text, parent)
self.column_name = column_name
def DoValidate(self, input_string):
singles = []
ranges = []
for value in [x.strip() for x in input_string.split(",")]:
if "-" in value:
vrange = value.split("-")
if len(vrange) != 2 or not self.IsNumber(vrange[0]) or not self.IsNumber(vrange[1]):
return self.InvalidValue(value)
ranges.append(vrange)
else:
if not self.IsNumber(value):
return self.InvalidValue(value)
singles.append(value)
ranges = [("(" + self.column_name + " >= " + r[0] + " AND " + self.column_name + " <= " + r[1] + ")") for r in ranges]
if len(singles):
ranges.append(self.column_name + " IN (" + ",".join(singles) + ")")
self.value = " OR ".join(ranges)
# Positive integer dialog data item
class PositiveIntegerDataItem(LineEditDataItem):
def __init__(self, glb, label, placeholder_text, parent, id = "", default = ""):
super(PositiveIntegerDataItem, self).__init__(glb, label, placeholder_text, parent, id, default)
def DoValidate(self, input_string):
if not self.IsNumber(input_string.strip()):
return self.InvalidValue(input_string)
value = int(input_string.strip())
if value <= 0:
return self.InvalidValue(input_string)
self.value = str(value)
# Dialog data item converted and validated using a SQL table
class SQLTableDataItem(LineEditDataItem):
def __init__(self, glb, label, placeholder_text, table_name, match_column, column_name1, column_name2, parent):
super(SQLTableDataItem, self).__init__(glb, label, placeholder_text, parent)
self.table_name = table_name
self.match_column = match_column
self.column_name1 = column_name1
self.column_name2 = column_name2
def ValueToIds(self, value):
ids = []
query = QSqlQuery(self.glb.db)
stmt = "SELECT id FROM " + self.table_name + " WHERE " + self.match_column + " = '" + value + "'"
ret = query.exec_(stmt)
if ret:
while query.next():
ids.append(str(query.value(0)))
return ids
def DoValidate(self, input_string):
all_ids = []
for value in [x.strip() for x in input_string.split(",")]:
ids = self.ValueToIds(value)
if len(ids):
all_ids.extend(ids)
else:
return self.InvalidValue(value)
self.value = self.column_name1 + " IN (" + ",".join(all_ids) + ")"
if self.column_name2:
self.value = "( " + self.value + " OR " + self.column_name2 + " IN (" + ",".join(all_ids) + ") )"
# Sample time ranges dialog data item converted and validated using 'samples' SQL table
class SampleTimeRangesDataItem(LineEditDataItem):
def __init__(self, glb, label, placeholder_text, column_name, parent):
self.column_name = column_name
self.last_id = 0
self.first_time = 0
self.last_time = 2 ** 64
query = QSqlQuery(glb.db)
QueryExec(query, "SELECT id, time FROM samples ORDER BY id DESC LIMIT 1")
if query.next():
self.last_id = int(query.value(0))
self.first_time = int(glb.HostStartTime())
self.last_time = int(glb.HostFinishTime())
if placeholder_text:
placeholder_text += ", between " + str(self.first_time) + " and " + str(self.last_time)
super(SampleTimeRangesDataItem, self).__init__(glb, label, placeholder_text, parent)
def IdBetween(self, query, lower_id, higher_id, order):
QueryExec(query, "SELECT id FROM samples WHERE id > " + str(lower_id) + " AND id < " + str(higher_id) + " ORDER BY id " + order + " LIMIT 1")
if query.next():
return True, int(query.value(0))
else:
return False, 0
def BinarySearchTime(self, lower_id, higher_id, target_time, get_floor):
query = QSqlQuery(self.glb.db)
while True:
next_id = int((lower_id + higher_id) / 2)
QueryExec(query, "SELECT time FROM samples WHERE id = " + str(next_id))
if not query.next():
ok, dbid = self.IdBetween(query, lower_id, next_id, "DESC")
if not ok:
ok, dbid = self.IdBetween(query, next_id, higher_id, "")
if not ok:
return str(higher_id)
next_id = dbid
QueryExec(query, "SELECT time FROM samples WHERE id = " + str(next_id))
next_time = int(query.value(0))
if get_floor:
if target_time > next_time:
lower_id = next_id
else:
higher_id = next_id
if higher_id <= lower_id + 1:
return str(higher_id)
else:
if target_time >= next_time:
lower_id = next_id
else:
higher_id = next_id
if higher_id <= lower_id + 1:
return str(lower_id)
def ConvertRelativeTime(self, val):
mult = 1
suffix = val[-2:]
if suffix == "ms":
mult = 1000000
elif suffix == "us":
mult = 1000
elif suffix == "ns":
mult = 1
else:
return val
val = val[:-2].strip()
if not self.IsNumber(val):
return val
val = int(val) * mult
if val >= 0:
val += self.first_time
else:
val += self.last_time
return str(val)
def ConvertTimeRange(self, vrange):
if vrange[0] == "":
vrange[0] = str(self.first_time)
if vrange[1] == "":
vrange[1] = str(self.last_time)
vrange[0] = self.ConvertRelativeTime(vrange[0])
vrange[1] = self.ConvertRelativeTime(vrange[1])
if not self.IsNumber(vrange[0]) or not self.IsNumber(vrange[1]):
return False
beg_range = max(int(vrange[0]), self.first_time)
end_range = min(int(vrange[1]), self.last_time)
if beg_range > self.last_time or end_range < self.first_time:
return False
vrange[0] = self.BinarySearchTime(0, self.last_id, beg_range, True)
vrange[1] = self.BinarySearchTime(1, self.last_id + 1, end_range, False)
return True
def AddTimeRange(self, value, ranges):
n = value.count("-")
if n == 1:
pass
elif n == 2:
if value.split("-")[1].strip() == "":
n = 1
elif n == 3:
n = 2
else:
return False
pos = findnth(value, "-", n)
vrange = [value[:pos].strip() ,value[pos+1:].strip()]
if self.ConvertTimeRange(vrange):
ranges.append(vrange)
return True
return False
def DoValidate(self, input_string):
ranges = []
for value in [x.strip() for x in input_string.split(",")]:
if not self.AddTimeRange(value, ranges):
return self.InvalidValue(value)
ranges = [("(" + self.column_name + " >= " + r[0] + " AND " + self.column_name + " <= " + r[1] + ")") for r in ranges]
self.value = " OR ".join(ranges)
# Report Dialog Base
class ReportDialogBase(QDialog):
def __init__(self, glb, title, items, partial, parent=None):
super(ReportDialogBase, self).__init__(parent)
self.glb = glb
self.report_vars = ReportVars()
self.setWindowTitle(title)
self.setMinimumWidth(600)
self.data_items = [x(glb, self) for x in items]
self.partial = partial
self.grid = QGridLayout()
for row in xrange(len(self.data_items)):
self.grid.addWidget(QLabel(self.data_items[row].label), row, 0)
self.grid.addWidget(self.data_items[row].widget, row, 1)
self.status = QLabel()
self.ok_button = QPushButton("Ok", self)
self.ok_button.setDefault(True)
self.ok_button.released.connect(self.Ok)
self.ok_button.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
self.cancel_button = QPushButton("Cancel", self)
self.cancel_button.released.connect(self.reject)
self.cancel_button.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
self.hbox = QHBoxLayout()
#self.hbox.addStretch()
self.hbox.addWidget(self.status)
self.hbox.addWidget(self.ok_button)
self.hbox.addWidget(self.cancel_button)
self.vbox = QVBoxLayout()
self.vbox.addLayout(self.grid)
self.vbox.addLayout(self.hbox)
self.setLayout(self.vbox)
def Ok(self):
vars = self.report_vars
for d in self.data_items:
if d.id == "REPORTNAME":
vars.name = d.value
if not vars.name:
self.ShowMessage("Report name is required")
return
for d in self.data_items:
if not d.IsValid():
return
for d in self.data_items[1:]:
if d.id == "LIMIT":
vars.limit = d.value
elif len(d.value):
if len(vars.where_clause):
vars.where_clause += " AND "
vars.where_clause += d.value
if len(vars.where_clause):
if self.partial:
vars.where_clause = " AND ( " + vars.where_clause + " ) "
else:
vars.where_clause = " WHERE " + vars.where_clause + " "
self.accept()
def ShowMessage(self, msg):
self.status.setText("<font color=#FF0000>" + msg)
def ClearMessage(self):
self.status.setText("")
# Selected branch report creation dialog
class SelectedBranchDialog(ReportDialogBase):
def __init__(self, glb, parent=None):
title = "Selected Branches"
items = (lambda g, p: LineEditDataItem(g, "Report name:", "Enter a name to appear in the window title bar", p, "REPORTNAME"),
lambda g, p: SampleTimeRangesDataItem(g, "Time ranges:", "Enter time ranges", "samples.id", p),
lambda g, p: NonNegativeIntegerRangesDataItem(g, "CPUs:", "Enter CPUs or ranges e.g. 0,5-6", "cpu", p),
lambda g, p: SQLTableDataItem(g, "Commands:", "Only branches with these commands will be included", "comms", "comm", "comm_id", "", p),
lambda g, p: SQLTableDataItem(g, "PIDs:", "Only branches with these process IDs will be included", "threads", "pid", "thread_id", "", p),
lambda g, p: SQLTableDataItem(g, "TIDs:", "Only branches with these thread IDs will be included", "threads", "tid", "thread_id", "", p),
lambda g, p: SQLTableDataItem(g, "DSOs:", "Only branches with these DSOs will be included", "dsos", "short_name", "samples.dso_id", "to_dso_id", p),
lambda g, p: SQLTableDataItem(g, "Symbols:", "Only branches with these symbols will be included", "symbols", "name", "symbol_id", "to_symbol_id", p),
lambda g, p: LineEditDataItem(g, "Raw SQL clause: ", "Enter a raw SQL WHERE clause", p))
super(SelectedBranchDialog, self).__init__(glb, title, items, True, parent)
# Event list
def GetEventList(db):
events = []
query = QSqlQuery(db)
QueryExec(query, "SELECT name FROM selected_events WHERE id > 0 ORDER BY id")
while query.next():
events.append(query.value(0))
return events
# Is a table selectable
def IsSelectable(db, table, sql = "", columns = "*"):
query = QSqlQuery(db)
try:
QueryExec(query, "SELECT " + columns + " FROM " + table + " " + sql + " LIMIT 1")
except:
return False
return True
# SQL table data model item
class SQLTableItem():
def __init__(self, row, data):
self.row = row
self.data = data
def getData(self, column):
return self.data[column]
# SQL table data model
class SQLTableModel(TableModel):
progress = Signal(object)
def __init__(self, glb, sql, column_headers, parent=None):
super(SQLTableModel, self).__init__(parent)
self.glb = glb
self.more = True
self.populated = 0
self.column_headers = column_headers
self.fetcher = SQLFetcher(glb, sql, lambda x, y=len(column_headers): self.SQLTableDataPrep(x, y), self.AddSample)
self.fetcher.done.connect(self.Update)
self.fetcher.Fetch(glb_chunk_sz)
def DisplayData(self, item, index):
self.FetchIfNeeded(item.row)
return item.getData(index.column())
def AddSample(self, data):
child = SQLTableItem(self.populated, data)
self.child_items.append(child)
self.populated += 1
def Update(self, fetched):
if not fetched:
self.more = False
self.progress.emit(0)
child_count = self.child_count
count = self.populated - child_count
if count > 0:
parent = QModelIndex()
self.beginInsertRows(parent, child_count, child_count + count - 1)
self.insertRows(child_count, count, parent)
self.child_count += count
self.endInsertRows()
self.progress.emit(self.child_count)
def FetchMoreRecords(self, count):
current = self.child_count
if self.more:
self.fetcher.Fetch(count)
else:
self.progress.emit(0)
return current
def HasMoreRecords(self):
return self.more
def columnCount(self, parent=None):
return len(self.column_headers)
def columnHeader(self, column):
return self.column_headers[column]
def SQLTableDataPrep(self, query, count):
data = []
for i in xrange(count):
data.append(query.value(i))
return data
# SQL automatic table data model
class SQLAutoTableModel(SQLTableModel):
def __init__(self, glb, table_name, parent=None):
sql = "SELECT * FROM " + table_name + " WHERE id > $$last_id$$ ORDER BY id LIMIT " + str(glb_chunk_sz)
if table_name == "comm_threads_view":
# For now, comm_threads_view has no id column
sql = "SELECT * FROM " + table_name + " WHERE comm_id > $$last_id$$ ORDER BY comm_id LIMIT " + str(glb_chunk_sz)
column_headers = []
query = QSqlQuery(glb.db)
if glb.dbref.is_sqlite3:
QueryExec(query, "PRAGMA table_info(" + table_name + ")")
while query.next():
column_headers.append(query.value(1))
if table_name == "sqlite_master":
sql = "SELECT * FROM " + table_name
else:
if table_name[:19] == "information_schema.":
sql = "SELECT * FROM " + table_name
select_table_name = table_name[19:]
schema = "information_schema"
else:
select_table_name = table_name
schema = "public"
QueryExec(query, "SELECT column_name FROM information_schema.columns WHERE table_schema = '" + schema + "' and table_name = '" + select_table_name + "'")
while query.next():
column_headers.append(query.value(0))
if pyside_version_1 and sys.version_info[0] == 3:
if table_name == "samples_view":
self.SQLTableDataPrep = self.samples_view_DataPrep
if table_name == "samples":
self.SQLTableDataPrep = self.samples_DataPrep
super(SQLAutoTableModel, self).__init__(glb, sql, column_headers, parent)
def samples_view_DataPrep(self, query, count):
data = []
data.append(query.value(0))
# Workaround pyside failing to handle large integers (i.e. time) in python3 by converting to a string
data.append("{:>19}".format(query.value(1)))
for i in xrange(2, count):
data.append(query.value(i))
return data
def samples_DataPrep(self, query, count):
data = []
for i in xrange(9):
data.append(query.value(i))
# Workaround pyside failing to handle large integers (i.e. time) in python3 by converting to a string
data.append("{:>19}".format(query.value(9)))
for i in xrange(10, count):
data.append(query.value(i))
return data
# Base class for custom ResizeColumnsToContents
class ResizeColumnsToContentsBase(QObject):
def __init__(self, parent=None):
super(ResizeColumnsToContentsBase, self).__init__(parent)
def ResizeColumnToContents(self, column, n):
# Using the view's resizeColumnToContents() here is extrememly slow
# so implement a crude alternative
font = self.view.font()
metrics = QFontMetrics(font)
max = 0
for row in xrange(n):
val = self.data_model.child_items[row].data[column]
len = metrics.width(str(val) + "MM")
max = len if len > max else max
val = self.data_model.columnHeader(column)
len = metrics.width(str(val) + "MM")
max = len if len > max else max
self.view.setColumnWidth(column, max)
def ResizeColumnsToContents(self):
n = min(self.data_model.child_count, 100)
if n < 1:
# No data yet, so connect a signal to notify when there is
self.data_model.rowsInserted.connect(self.UpdateColumnWidths)
return
columns = self.data_model.columnCount()
for i in xrange(columns):
self.ResizeColumnToContents(i, n)
def UpdateColumnWidths(self, *x):
# This only needs to be done once, so disconnect the signal now
self.data_model.rowsInserted.disconnect(self.UpdateColumnWidths)
self.ResizeColumnsToContents()
# Convert value to CSV
def ToCSValue(val):
if '"' in val:
val = val.replace('"', '""')
if "," in val or '"' in val:
val = '"' + val + '"'
return val
# Key to sort table model indexes by row / column, assuming fewer than 1000 columns
glb_max_cols = 1000
def RowColumnKey(a):
return a.row() * glb_max_cols + a.column()
# Copy selected table cells to clipboard
def CopyTableCellsToClipboard(view, as_csv=False, with_hdr=False):
indexes = sorted(view.selectedIndexes(), key=RowColumnKey)
idx_cnt = len(indexes)
if not idx_cnt:
return
if idx_cnt == 1:
with_hdr=False
min_row = indexes[0].row()
max_row = indexes[0].row()
min_col = indexes[0].column()
max_col = indexes[0].column()
for i in indexes:
min_row = min(min_row, i.row())
max_row = max(max_row, i.row())
min_col = min(min_col, i.column())
max_col = max(max_col, i.column())
if max_col > glb_max_cols:
raise RuntimeError("glb_max_cols is too low")
max_width = [0] * (1 + max_col - min_col)
for i in indexes:
c = i.column() - min_col
max_width[c] = max(max_width[c], len(str(i.data())))
text = ""
pad = ""
sep = ""
if with_hdr:
model = indexes[0].model()
for col in range(min_col, max_col + 1):
val = model.headerData(col, Qt.Horizontal)
if as_csv:
text += sep + ToCSValue(val)
sep = ","
else:
c = col - min_col
max_width[c] = max(max_width[c], len(val))
width = max_width[c]
align = model.headerData(col, Qt.Horizontal, Qt.TextAlignmentRole)
if align & Qt.AlignRight:
val = val.rjust(width)
text += pad + sep + val
pad = " " * (width - len(val))
sep = " "
text += "\n"
pad = ""
sep = ""
last_row = min_row
for i in indexes:
if i.row() > last_row:
last_row = i.row()
text += "\n"
pad = ""
sep = ""
if as_csv:
text += sep + ToCSValue(str(i.data()))
sep = ","
else:
width = max_width[i.column() - min_col]
if i.data(Qt.TextAlignmentRole) & Qt.AlignRight:
val = str(i.data()).rjust(width)
else:
val = str(i.data())
text += pad + sep + val
pad = " " * (width - len(val))
sep = " "
QApplication.clipboard().setText(text)
def CopyTreeCellsToClipboard(view, as_csv=False, with_hdr=False):
indexes = view.selectedIndexes()
if not len(indexes):
return
selection = view.selectionModel()
first = None
for i in indexes:
above = view.indexAbove(i)
if not selection.isSelected(above):
first = i
break
if first is None:
raise RuntimeError("CopyTreeCellsToClipboard internal error")
model = first.model()
row_cnt = 0
col_cnt = model.columnCount(first)
max_width = [0] * col_cnt
indent_sz = 2
indent_str = " " * indent_sz
expanded_mark_sz = 2
if sys.version_info[0] == 3:
expanded_mark = "\u25BC "
not_expanded_mark = "\u25B6 "
else:
expanded_mark = unicode(chr(0xE2) + chr(0x96) + chr(0xBC) + " ", "utf-8")
not_expanded_mark = unicode(chr(0xE2) + chr(0x96) + chr(0xB6) + " ", "utf-8")
leaf_mark = " "
if not as_csv:
pos = first
while True:
row_cnt += 1
row = pos.row()
for c in range(col_cnt):
i = pos.sibling(row, c)
if c:
n = len(str(i.data()))
else:
n = len(str(i.data()).strip())
n += (i.internalPointer().level - 1) * indent_sz
n += expanded_mark_sz
max_width[c] = max(max_width[c], n)
pos = view.indexBelow(pos)
if not selection.isSelected(pos):
break
text = ""
pad = ""
sep = ""
if with_hdr:
for c in range(col_cnt):
val = model.headerData(c, Qt.Horizontal, Qt.DisplayRole).strip()
if as_csv:
text += sep + ToCSValue(val)
sep = ","
else:
max_width[c] = max(max_width[c], len(val))
width = max_width[c]
align = model.headerData(c, Qt.Horizontal, Qt.TextAlignmentRole)
if align & Qt.AlignRight:
val = val.rjust(width)
text += pad + sep + val
pad = " " * (width - len(val))
sep = " "
text += "\n"
pad = ""
sep = ""
pos = first
while True:
row = pos.row()
for c in range(col_cnt):
i = pos.sibling(row, c)
val = str(i.data())
if not c:
if model.hasChildren(i):
if view.isExpanded(i):
mark = expanded_mark
else:
mark = not_expanded_mark
else:
mark = leaf_mark
val = indent_str * (i.internalPointer().level - 1) + mark + val.strip()
if as_csv:
text += sep + ToCSValue(val)
sep = ","
else:
width = max_width[c]
if c and i.data(Qt.TextAlignmentRole) & Qt.AlignRight:
val = val.rjust(width)
text += pad + sep + val
pad = " " * (width - len(val))
sep = " "
pos = view.indexBelow(pos)
if not selection.isSelected(pos):
break
text = text.rstrip() + "\n"
pad = ""
sep = ""
QApplication.clipboard().setText(text)
def CopyCellsToClipboard(view, as_csv=False, with_hdr=False):
view.CopyCellsToClipboard(view, as_csv, with_hdr)
def CopyCellsToClipboardHdr(view):
CopyCellsToClipboard(view, False, True)
def CopyCellsToClipboardCSV(view):
CopyCellsToClipboard(view, True, True)
# Context menu
class ContextMenu(object):
def __init__(self, view):
self.view = view
self.view.setContextMenuPolicy(Qt.CustomContextMenu)
self.view.customContextMenuRequested.connect(self.ShowContextMenu)
def ShowContextMenu(self, pos):
menu = QMenu(self.view)
self.AddActions(menu)
menu.exec_(self.view.mapToGlobal(pos))
def AddCopy(self, menu):
menu.addAction(CreateAction("&Copy selection", "Copy to clipboard", lambda: CopyCellsToClipboardHdr(self.view), self.view))
menu.addAction(CreateAction("Copy selection as CS&V", "Copy to clipboard as CSV", lambda: CopyCellsToClipboardCSV(self.view), self.view))
def AddActions(self, menu):
self.AddCopy(menu)
class TreeContextMenu(ContextMenu):
def __init__(self, view):
super(TreeContextMenu, self).__init__(view)
def AddActions(self, menu):
i = self.view.currentIndex()
text = str(i.data()).strip()
if len(text):
menu.addAction(CreateAction('Copy "' + text + '"', "Copy to clipboard", lambda: QApplication.clipboard().setText(text), self.view))
self.AddCopy(menu)
# Table window
class TableWindow(QMdiSubWindow, ResizeColumnsToContentsBase):
def __init__(self, glb, table_name, parent=None):
super(TableWindow, self).__init__(parent)
self.data_model = LookupCreateModel(table_name + " Table", lambda: SQLAutoTableModel(glb, table_name))
self.model = QSortFilterProxyModel()
self.model.setSourceModel(self.data_model)
self.view = QTableView()
self.view.setModel(self.model)
self.view.setEditTriggers(QAbstractItemView.NoEditTriggers)
self.view.verticalHeader().setVisible(False)
self.view.sortByColumn(-1, Qt.AscendingOrder)
self.view.setSortingEnabled(True)
self.view.setSelectionMode(QAbstractItemView.ContiguousSelection)
self.view.CopyCellsToClipboard = CopyTableCellsToClipboard
self.ResizeColumnsToContents()
self.context_menu = ContextMenu(self.view)
self.find_bar = FindBar(self, self, True)
self.finder = ChildDataItemFinder(self.data_model)
self.fetch_bar = FetchMoreRecordsBar(self.data_model, self)
self.vbox = VBox(self.view, self.find_bar.Widget(), self.fetch_bar.Widget())
self.setWidget(self.vbox.Widget())
AddSubWindow(glb.mainwindow.mdi_area, self, table_name + " Table")
def Find(self, value, direction, pattern, context):
self.view.setFocus()
self.find_bar.Busy()
self.finder.Find(value, direction, pattern, context, self.FindDone)
def FindDone(self, row):
self.find_bar.Idle()
if row >= 0:
self.view.setCurrentIndex(self.model.mapFromSource(self.data_model.index(row, 0, QModelIndex())))
else:
self.find_bar.NotFound()
# Table list
def GetTableList(glb):
tables = []
query = QSqlQuery(glb.db)
if glb.dbref.is_sqlite3:
QueryExec(query, "SELECT name FROM sqlite_master WHERE type IN ( 'table' , 'view' ) ORDER BY name")
else:
QueryExec(query, "SELECT table_name FROM information_schema.tables WHERE table_schema = 'public' AND table_type IN ( 'BASE TABLE' , 'VIEW' ) ORDER BY table_name")
while query.next():
tables.append(query.value(0))
if glb.dbref.is_sqlite3:
tables.append("sqlite_master")
else:
tables.append("information_schema.tables")
tables.append("information_schema.views")
tables.append("information_schema.columns")
return tables
# Top Calls data model
class TopCallsModel(SQLTableModel):
def __init__(self, glb, report_vars, parent=None):
text = ""
if not glb.dbref.is_sqlite3:
text = "::text"
limit = ""
if len(report_vars.limit):
limit = " LIMIT " + report_vars.limit
sql = ("SELECT comm, pid, tid, name,"
" CASE"
" WHEN (short_name = '[kernel.kallsyms]') THEN '[kernel]'" + text +
" ELSE short_name"
" END AS dso,"
" call_time, return_time, (return_time - call_time) AS elapsed_time, branch_count, "
" CASE"
" WHEN (calls.flags = 1) THEN 'no call'" + text +
" WHEN (calls.flags = 2) THEN 'no return'" + text +
" WHEN (calls.flags = 3) THEN 'no call/return'" + text +
" ELSE ''" + text +
" END AS flags"
" FROM calls"
" INNER JOIN call_paths ON calls.call_path_id = call_paths.id"
" INNER JOIN symbols ON call_paths.symbol_id = symbols.id"
" INNER JOIN dsos ON symbols.dso_id = dsos.id"
" INNER JOIN comms ON calls.comm_id = comms.id"
" INNER JOIN threads ON calls.thread_id = threads.id" +
report_vars.where_clause +
" ORDER BY elapsed_time DESC" +
limit
)
column_headers = ("Command", "PID", "TID", "Symbol", "Object", "Call Time", "Return Time", "Elapsed Time (ns)", "Branch Count", "Flags")
self.alignment = (Qt.AlignLeft, Qt.AlignLeft, Qt.AlignLeft, Qt.AlignLeft, Qt.AlignLeft, Qt.AlignLeft, Qt.AlignLeft, Qt.AlignRight, Qt.AlignRight, Qt.AlignLeft)
super(TopCallsModel, self).__init__(glb, sql, column_headers, parent)
def columnAlignment(self, column):
return self.alignment[column]
# Top Calls report creation dialog
class TopCallsDialog(ReportDialogBase):
def __init__(self, glb, parent=None):
title = "Top Calls by Elapsed Time"
items = (lambda g, p: LineEditDataItem(g, "Report name:", "Enter a name to appear in the window title bar", p, "REPORTNAME"),
lambda g, p: SQLTableDataItem(g, "Commands:", "Only calls with these commands will be included", "comms", "comm", "comm_id", "", p),
lambda g, p: SQLTableDataItem(g, "PIDs:", "Only calls with these process IDs will be included", "threads", "pid", "thread_id", "", p),
lambda g, p: SQLTableDataItem(g, "TIDs:", "Only calls with these thread IDs will be included", "threads", "tid", "thread_id", "", p),
lambda g, p: SQLTableDataItem(g, "DSOs:", "Only calls with these DSOs will be included", "dsos", "short_name", "dso_id", "", p),
lambda g, p: SQLTableDataItem(g, "Symbols:", "Only calls with these symbols will be included", "symbols", "name", "symbol_id", "", p),
lambda g, p: LineEditDataItem(g, "Raw SQL clause: ", "Enter a raw SQL WHERE clause", p),
lambda g, p: PositiveIntegerDataItem(g, "Record limit:", "Limit selection to this number of records", p, "LIMIT", "100"))
super(TopCallsDialog, self).__init__(glb, title, items, False, parent)
# Top Calls window
class TopCallsWindow(QMdiSubWindow, ResizeColumnsToContentsBase):
def __init__(self, glb, report_vars, parent=None):
super(TopCallsWindow, self).__init__(parent)
self.data_model = LookupCreateModel("Top Calls " + report_vars.UniqueId(), lambda: TopCallsModel(glb, report_vars))
self.model = self.data_model
self.view = QTableView()
self.view.setModel(self.model)
self.view.setEditTriggers(QAbstractItemView.NoEditTriggers)
self.view.verticalHeader().setVisible(False)
self.view.setSelectionMode(QAbstractItemView.ContiguousSelection)
self.view.CopyCellsToClipboard = CopyTableCellsToClipboard
self.context_menu = ContextMenu(self.view)
self.ResizeColumnsToContents()
self.find_bar = FindBar(self, self, True)
self.finder = ChildDataItemFinder(self.model)
self.fetch_bar = FetchMoreRecordsBar(self.data_model, self)
self.vbox = VBox(self.view, self.find_bar.Widget(), self.fetch_bar.Widget())
self.setWidget(self.vbox.Widget())
AddSubWindow(glb.mainwindow.mdi_area, self, report_vars.name)
def Find(self, value, direction, pattern, context):
self.view.setFocus()
self.find_bar.Busy()
self.finder.Find(value, direction, pattern, context, self.FindDone)
def FindDone(self, row):
self.find_bar.Idle()
if row >= 0:
self.view.setCurrentIndex(self.model.index(row, 0, QModelIndex()))
else:
self.find_bar.NotFound()
# Action Definition
def CreateAction(label, tip, callback, parent=None, shortcut=None):
action = QAction(label, parent)
if shortcut != None:
action.setShortcuts(shortcut)
action.setStatusTip(tip)
action.triggered.connect(callback)
return action
# Typical application actions
def CreateExitAction(app, parent=None):
return CreateAction("&Quit", "Exit the application", app.closeAllWindows, parent, QKeySequence.Quit)
# Typical MDI actions
def CreateCloseActiveWindowAction(mdi_area):
return CreateAction("Cl&ose", "Close the active window", mdi_area.closeActiveSubWindow, mdi_area)
def CreateCloseAllWindowsAction(mdi_area):
return CreateAction("Close &All", "Close all the windows", mdi_area.closeAllSubWindows, mdi_area)
def CreateTileWindowsAction(mdi_area):
return CreateAction("&Tile", "Tile the windows", mdi_area.tileSubWindows, mdi_area)
def CreateCascadeWindowsAction(mdi_area):
return CreateAction("&Cascade", "Cascade the windows", mdi_area.cascadeSubWindows, mdi_area)
def CreateNextWindowAction(mdi_area):
return CreateAction("Ne&xt", "Move the focus to the next window", mdi_area.activateNextSubWindow, mdi_area, QKeySequence.NextChild)
def CreatePreviousWindowAction(mdi_area):
return CreateAction("Pre&vious", "Move the focus to the previous window", mdi_area.activatePreviousSubWindow, mdi_area, QKeySequence.PreviousChild)
# Typical MDI window menu
class WindowMenu():
def __init__(self, mdi_area, menu):
self.mdi_area = mdi_area
self.window_menu = menu.addMenu("&Windows")
self.close_active_window = CreateCloseActiveWindowAction(mdi_area)
self.close_all_windows = CreateCloseAllWindowsAction(mdi_area)
self.tile_windows = CreateTileWindowsAction(mdi_area)
self.cascade_windows = CreateCascadeWindowsAction(mdi_area)
self.next_window = CreateNextWindowAction(mdi_area)
self.previous_window = CreatePreviousWindowAction(mdi_area)
self.window_menu.aboutToShow.connect(self.Update)
def Update(self):
self.window_menu.clear()
sub_window_count = len(self.mdi_area.subWindowList())
have_sub_windows = sub_window_count != 0
self.close_active_window.setEnabled(have_sub_windows)
self.close_all_windows.setEnabled(have_sub_windows)
self.tile_windows.setEnabled(have_sub_windows)
self.cascade_windows.setEnabled(have_sub_windows)
self.next_window.setEnabled(have_sub_windows)
self.previous_window.setEnabled(have_sub_windows)
self.window_menu.addAction(self.close_active_window)
self.window_menu.addAction(self.close_all_windows)
self.window_menu.addSeparator()
self.window_menu.addAction(self.tile_windows)
self.window_menu.addAction(self.cascade_windows)
self.window_menu.addSeparator()
self.window_menu.addAction(self.next_window)
self.window_menu.addAction(self.previous_window)
if sub_window_count == 0:
return
self.window_menu.addSeparator()
nr = 1
for sub_window in self.mdi_area.subWindowList():
label = str(nr) + " " + sub_window.name
if nr < 10:
label = "&" + label
action = self.window_menu.addAction(label)
action.setCheckable(True)
action.setChecked(sub_window == self.mdi_area.activeSubWindow())
action.triggered.connect(lambda a=None,x=nr: self.setActiveSubWindow(x))
self.window_menu.addAction(action)
nr += 1
def setActiveSubWindow(self, nr):
self.mdi_area.setActiveSubWindow(self.mdi_area.subWindowList()[nr - 1])
# Help text
glb_help_text = """
<h1>Contents</h1>
<style>
p.c1 {
text-indent: 40px;
}
p.c2 {
text-indent: 80px;
}
}
</style>
<p class=c1><a href=#reports>1. Reports</a></p>
<p class=c2><a href=#callgraph>1.1 Context-Sensitive Call Graph</a></p>
<p class=c2><a href=#calltree>1.2 Call Tree</a></p>
<p class=c2><a href=#allbranches>1.3 All branches</a></p>
<p class=c2><a href=#selectedbranches>1.4 Selected branches</a></p>
<p class=c2><a href=#topcallsbyelapsedtime>1.5 Top calls by elapsed time</a></p>
<p class=c1><a href=#charts>2. Charts</a></p>
<p class=c2><a href=#timechartbycpu>2.1 Time chart by CPU</a></p>
<p class=c1><a href=#tables>3. Tables</a></p>
<h1 id=reports>1. Reports</h1>
<h2 id=callgraph>1.1 Context-Sensitive Call Graph</h2>
The result is a GUI window with a tree representing a context-sensitive
call-graph. Expanding a couple of levels of the tree and adjusting column
widths to suit will display something like:
<pre>
Call Graph: pt_example
Call Path Object Count Time(ns) Time(%) Branch Count Branch Count(%)
v- ls
v- 2638:2638
v- _start ld-2.19.so 1 10074071 100.0 211135 100.0
|- unknown unknown 1 13198 0.1 1 0.0
>- _dl_start ld-2.19.so 1 1400980 13.9 19637 9.3
>- _d_linit_internal ld-2.19.so 1 448152 4.4 11094 5.3
v-__libc_start_main@plt ls 1 8211741 81.5 180397 85.4
>- _dl_fixup ld-2.19.so 1 7607 0.1 108 0.1
>- __cxa_atexit libc-2.19.so 1 11737 0.1 10 0.0
>- __libc_csu_init ls 1 10354 0.1 10 0.0
|- _setjmp libc-2.19.so 1 0 0.0 4 0.0
v- main ls 1 8182043 99.6 180254 99.9
</pre>
<h3>Points to note:</h3>
<ul>
<li>The top level is a command name (comm)</li>
<li>The next level is a thread (pid:tid)</li>
<li>Subsequent levels are functions</li>
<li>'Count' is the number of calls</li>
<li>'Time' is the elapsed time until the function returns</li>
<li>Percentages are relative to the level above</li>
<li>'Branch Count' is the total number of branches for that function and all functions that it calls
</ul>
<h3>Find</h3>
Ctrl-F displays a Find bar which finds function names by either an exact match or a pattern match.
The pattern matching symbols are ? for any character and * for zero or more characters.
<h2 id=calltree>1.2 Call Tree</h2>
The Call Tree report is very similar to the Context-Sensitive Call Graph, but the data is not aggregated.
Also the 'Count' column, which would be always 1, is replaced by the 'Call Time'.
<h2 id=allbranches>1.3 All branches</h2>
The All branches report displays all branches in chronological order.
Not all data is fetched immediately. More records can be fetched using the Fetch bar provided.
<h3>Disassembly</h3>
Open a branch to display disassembly. This only works if:
<ol>
<li>The disassembler is available. Currently, only Intel XED is supported - see <a href=#xed>Intel XED Setup</a></li>
<li>The object code is available. Currently, only the perf build ID cache is searched for object code.
The default directory ~/.debug can be overridden by setting environment variable PERF_BUILDID_DIR.
One exception is kcore where the DSO long name is used (refer dsos_view on the Tables menu),
or alternatively, set environment variable PERF_KCORE to the kcore file name.</li>
</ol>
<h4 id=xed>Intel XED Setup</h4>
To use Intel XED, libxed.so must be present. To build and install libxed.so:
<pre>
git clone https://github.com/intelxed/mbuild.git mbuild
git clone https://github.com/intelxed/xed
cd xed
./mfile.py --share
sudo ./mfile.py --prefix=/usr/local install
sudo ldconfig
</pre>
<h3>Instructions per Cycle (IPC)</h3>
If available, IPC information is displayed in columns 'insn_cnt', 'cyc_cnt' and 'IPC'.
<p><b>Intel PT note:</b> The information applies to the blocks of code ending with, and including, that branch.
Due to the granularity of timing information, the number of cycles for some code blocks will not be known.
In that case, 'insn_cnt', 'cyc_cnt' and 'IPC' are zero, but when 'IPC' is displayed it covers the period
since the previous displayed 'IPC'.
<h3>Find</h3>
Ctrl-F displays a Find bar which finds substrings by either an exact match or a regular expression match.
Refer to Python documentation for the regular expression syntax.
All columns are searched, but only currently fetched rows are searched.
<h2 id=selectedbranches>1.4 Selected branches</h2>
This is the same as the <a href=#allbranches>All branches</a> report but with the data reduced
by various selection criteria. A dialog box displays available criteria which are AND'ed together.
<h3>1.4.1 Time ranges</h3>
The time ranges hint text shows the total time range. Relative time ranges can also be entered in
ms, us or ns. Also, negative values are relative to the end of trace. Examples:
<pre>
81073085947329-81073085958238 From 81073085947329 to 81073085958238
100us-200us From 100us to 200us
10ms- From 10ms to the end
-100ns The first 100ns
-10ms- The last 10ms
</pre>
N.B. Due to the granularity of timestamps, there could be no branches in any given time range.
<h2 id=topcallsbyelapsedtime>1.5 Top calls by elapsed time</h2>
The Top calls by elapsed time report displays calls in descending order of time elapsed between when the function was called and when it returned.
The data is reduced by various selection criteria. A dialog box displays available criteria which are AND'ed together.
If not all data is fetched, a Fetch bar is provided. Ctrl-F displays a Find bar.
<h1 id=charts>2. Charts</h1>
<h2 id=timechartbycpu>2.1 Time chart by CPU</h2>
This chart displays context switch information when that data is available. Refer to context_switches_view on the Tables menu.
<h3>Features</h3>
<ol>
<li>Mouse over to highight the task and show the time</li>
<li>Drag the mouse to select a region and zoom by pushing the Zoom button</li>
<li>Go back and forward by pressing the arrow buttons</li>
<li>If call information is available, right-click to show a call tree opened to that task and time.
Note, the call tree may take some time to appear, and there may not be call information for the task or time selected.
</li>
</ol>
<h3>Important</h3>
The graph can be misleading in the following respects:
<ol>
<li>The graph shows the first task on each CPU as running from the beginning of the time range.
Because tracing might start on different CPUs at different times, that is not necessarily the case.
Refer to context_switches_view on the Tables menu to understand what data the graph is based upon.</li>
<li>Similarly, the last task on each CPU can be showing running longer than it really was.
Again, refer to context_switches_view on the Tables menu to understand what data the graph is based upon.</li>
<li>When the mouse is over a task, the highlighted task might not be visible on the legend without scrolling if the legend does not fit fully in the window</li>
</ol>
<h1 id=tables>3. Tables</h1>
The Tables menu shows all tables and views in the database. Most tables have an associated view
which displays the information in a more friendly way. Not all data for large tables is fetched
immediately. More records can be fetched using the Fetch bar provided. Columns can be sorted,
but that can be slow for large tables.
<p>There are also tables of database meta-information.
For SQLite3 databases, the sqlite_master table is included.
For PostgreSQL databases, information_schema.tables/views/columns are included.
<h3>Find</h3>
Ctrl-F displays a Find bar which finds substrings by either an exact match or a regular expression match.
Refer to Python documentation for the regular expression syntax.
All columns are searched, but only currently fetched rows are searched.
<p>N.B. Results are found in id order, so if the table is re-ordered, find-next and find-previous
will go to the next/previous result in id order, instead of display order.
"""
# Help window
class HelpWindow(QMdiSubWindow):
def __init__(self, glb, parent=None):
super(HelpWindow, self).__init__(parent)
self.text = QTextBrowser()
self.text.setHtml(glb_help_text)
self.text.setReadOnly(True)
self.text.setOpenExternalLinks(True)
self.setWidget(self.text)
AddSubWindow(glb.mainwindow.mdi_area, self, "Exported SQL Viewer Help")
# Main window that only displays the help text
class HelpOnlyWindow(QMainWindow):
def __init__(self, parent=None):
super(HelpOnlyWindow, self).__init__(parent)
self.setMinimumSize(200, 100)
self.resize(800, 600)
self.setWindowTitle("Exported SQL Viewer Help")
self.setWindowIcon(self.style().standardIcon(QStyle.SP_MessageBoxInformation))
self.text = QTextBrowser()
self.text.setHtml(glb_help_text)
self.text.setReadOnly(True)
self.text.setOpenExternalLinks(True)
self.setCentralWidget(self.text)
# PostqreSQL server version
def PostqreSQLServerVersion(db):
query = QSqlQuery(db)
QueryExec(query, "SELECT VERSION()")
if query.next():
v_str = query.value(0)
v_list = v_str.strip().split(" ")
if v_list[0] == "PostgreSQL" and v_list[2] == "on":
return v_list[1]
return v_str
return "Unknown"
# SQLite version
def SQLiteVersion(db):
query = QSqlQuery(db)
QueryExec(query, "SELECT sqlite_version()")
if query.next():
return query.value(0)
return "Unknown"
# About dialog
class AboutDialog(QDialog):
def __init__(self, glb, parent=None):
super(AboutDialog, self).__init__(parent)
self.setWindowTitle("About Exported SQL Viewer")
self.setMinimumWidth(300)
pyside_version = "1" if pyside_version_1 else "2"
text = "<pre>"
text += "Python version: " + sys.version.split(" ")[0] + "\n"
text += "PySide version: " + pyside_version + "\n"
text += "Qt version: " + qVersion() + "\n"
if glb.dbref.is_sqlite3:
text += "SQLite version: " + SQLiteVersion(glb.db) + "\n"
else:
text += "PostqreSQL version: " + PostqreSQLServerVersion(glb.db) + "\n"
text += "</pre>"
self.text = QTextBrowser()
self.text.setHtml(text)
self.text.setReadOnly(True)
self.text.setOpenExternalLinks(True)
self.vbox = QVBoxLayout()
self.vbox.addWidget(self.text)
self.setLayout(self.vbox)
# Font resize
def ResizeFont(widget, diff):
font = widget.font()
sz = font.pointSize()
font.setPointSize(sz + diff)
widget.setFont(font)
def ShrinkFont(widget):
ResizeFont(widget, -1)
def EnlargeFont(widget):
ResizeFont(widget, 1)
# Unique name for sub-windows
def NumberedWindowName(name, nr):
if nr > 1:
name += " <" + str(nr) + ">"
return name
def UniqueSubWindowName(mdi_area, name):
nr = 1
while True:
unique_name = NumberedWindowName(name, nr)
ok = True
for sub_window in mdi_area.subWindowList():
if sub_window.name == unique_name:
ok = False
break
if ok:
return unique_name
nr += 1
# Add a sub-window
def AddSubWindow(mdi_area, sub_window, name):
unique_name = UniqueSubWindowName(mdi_area, name)
sub_window.setMinimumSize(200, 100)
sub_window.resize(800, 600)
sub_window.setWindowTitle(unique_name)
sub_window.setAttribute(Qt.WA_DeleteOnClose)
sub_window.setWindowIcon(sub_window.style().standardIcon(QStyle.SP_FileIcon))
sub_window.name = unique_name
mdi_area.addSubWindow(sub_window)
sub_window.show()
# Main window
class MainWindow(QMainWindow):
def __init__(self, glb, parent=None):
super(MainWindow, self).__init__(parent)
self.glb = glb
self.setWindowTitle("Exported SQL Viewer: " + glb.dbname)
self.setWindowIcon(self.style().standardIcon(QStyle.SP_ComputerIcon))
self.setMinimumSize(200, 100)
self.mdi_area = QMdiArea()
self.mdi_area.setHorizontalScrollBarPolicy(Qt.ScrollBarAsNeeded)
self.mdi_area.setVerticalScrollBarPolicy(Qt.ScrollBarAsNeeded)
self.setCentralWidget(self.mdi_area)
menu = self.menuBar()
file_menu = menu.addMenu("&File")
file_menu.addAction(CreateExitAction(glb.app, self))
edit_menu = menu.addMenu("&Edit")
edit_menu.addAction(CreateAction("&Copy", "Copy to clipboard", self.CopyToClipboard, self, QKeySequence.Copy))
edit_menu.addAction(CreateAction("Copy as CS&V", "Copy to clipboard as CSV", self.CopyToClipboardCSV, self))
edit_menu.addAction(CreateAction("&Find...", "Find items", self.Find, self, QKeySequence.Find))
edit_menu.addAction(CreateAction("Fetch &more records...", "Fetch more records", self.FetchMoreRecords, self, [QKeySequence(Qt.Key_F8)]))
edit_menu.addAction(CreateAction("&Shrink Font", "Make text smaller", self.ShrinkFont, self, [QKeySequence("Ctrl+-")]))
edit_menu.addAction(CreateAction("&Enlarge Font", "Make text bigger", self.EnlargeFont, self, [QKeySequence("Ctrl++")]))
reports_menu = menu.addMenu("&Reports")
if IsSelectable(glb.db, "calls"):
reports_menu.addAction(CreateAction("Context-Sensitive Call &Graph", "Create a new window containing a context-sensitive call graph", self.NewCallGraph, self))
if IsSelectable(glb.db, "calls", "WHERE parent_id >= 0"):
reports_menu.addAction(CreateAction("Call &Tree", "Create a new window containing a call tree", self.NewCallTree, self))
self.EventMenu(GetEventList(glb.db), reports_menu)
if IsSelectable(glb.db, "calls"):
reports_menu.addAction(CreateAction("&Top calls by elapsed time", "Create a new window displaying top calls by elapsed time", self.NewTopCalls, self))
if IsSelectable(glb.db, "context_switches"):
charts_menu = menu.addMenu("&Charts")
charts_menu.addAction(CreateAction("&Time chart by CPU", "Create a new window displaying time charts by CPU", self.TimeChartByCPU, self))
self.TableMenu(GetTableList(glb), menu)
self.window_menu = WindowMenu(self.mdi_area, menu)
help_menu = menu.addMenu("&Help")
help_menu.addAction(CreateAction("&Exported SQL Viewer Help", "Helpful information", self.Help, self, QKeySequence.HelpContents))
help_menu.addAction(CreateAction("&About Exported SQL Viewer", "About this application", self.About, self))
def Try(self, fn):
win = self.mdi_area.activeSubWindow()
if win:
try:
fn(win.view)
except:
pass
def CopyToClipboard(self):
self.Try(CopyCellsToClipboardHdr)
def CopyToClipboardCSV(self):
self.Try(CopyCellsToClipboardCSV)
def Find(self):
win = self.mdi_area.activeSubWindow()
if win:
try:
win.find_bar.Activate()
except:
pass
def FetchMoreRecords(self):
win = self.mdi_area.activeSubWindow()
if win:
try:
win.fetch_bar.Activate()
except:
pass
def ShrinkFont(self):
self.Try(ShrinkFont)
def EnlargeFont(self):
self.Try(EnlargeFont)
def EventMenu(self, events, reports_menu):
branches_events = 0
for event in events:
event = event.split(":")[0]
if event == "branches":
branches_events += 1
dbid = 0
for event in events:
dbid += 1
event = event.split(":")[0]
if event == "branches":
label = "All branches" if branches_events == 1 else "All branches " + "(id=" + dbid + ")"
reports_menu.addAction(CreateAction(label, "Create a new window displaying branch events", lambda a=None,x=dbid: self.NewBranchView(x), self))
label = "Selected branches" if branches_events == 1 else "Selected branches " + "(id=" + dbid + ")"
reports_menu.addAction(CreateAction(label, "Create a new window displaying branch events", lambda a=None,x=dbid: self.NewSelectedBranchView(x), self))
def TimeChartByCPU(self):
TimeChartByCPUWindow(self.glb, self)
def TableMenu(self, tables, menu):
table_menu = menu.addMenu("&Tables")
for table in tables:
table_menu.addAction(CreateAction(table, "Create a new window containing a table view", lambda a=None,t=table: self.NewTableView(t), self))
def NewCallGraph(self):
CallGraphWindow(self.glb, self)
def NewCallTree(self):
CallTreeWindow(self.glb, self)
def NewTopCalls(self):
dialog = TopCallsDialog(self.glb, self)
ret = dialog.exec_()
if ret:
TopCallsWindow(self.glb, dialog.report_vars, self)
def NewBranchView(self, event_id):
BranchWindow(self.glb, event_id, ReportVars(), self)
def NewSelectedBranchView(self, event_id):
dialog = SelectedBranchDialog(self.glb, self)
ret = dialog.exec_()
if ret:
BranchWindow(self.glb, event_id, dialog.report_vars, self)
def NewTableView(self, table_name):
TableWindow(self.glb, table_name, self)
def Help(self):
HelpWindow(self.glb, self)
def About(self):
dialog = AboutDialog(self.glb, self)
dialog.exec_()
# XED Disassembler
class xed_state_t(Structure):
_fields_ = [
("mode", c_int),
("width", c_int)
]
class XEDInstruction():
def __init__(self, libxed):
# Current xed_decoded_inst_t structure is 192 bytes. Use 512 to allow for future expansion
xedd_t = c_byte * 512
self.xedd = xedd_t()
self.xedp = addressof(self.xedd)
libxed.xed_decoded_inst_zero(self.xedp)
self.state = xed_state_t()
self.statep = addressof(self.state)
# Buffer for disassembled instruction text
self.buffer = create_string_buffer(256)
self.bufferp = addressof(self.buffer)
class LibXED():
def __init__(self):
try:
self.libxed = CDLL("libxed.so")
except:
self.libxed = None
if not self.libxed:
self.libxed = CDLL("/usr/local/lib/libxed.so")
self.xed_tables_init = self.libxed.xed_tables_init
self.xed_tables_init.restype = None
self.xed_tables_init.argtypes = []
self.xed_decoded_inst_zero = self.libxed.xed_decoded_inst_zero
self.xed_decoded_inst_zero.restype = None
self.xed_decoded_inst_zero.argtypes = [ c_void_p ]
self.xed_operand_values_set_mode = self.libxed.xed_operand_values_set_mode
self.xed_operand_values_set_mode.restype = None
self.xed_operand_values_set_mode.argtypes = [ c_void_p, c_void_p ]
self.xed_decoded_inst_zero_keep_mode = self.libxed.xed_decoded_inst_zero_keep_mode
self.xed_decoded_inst_zero_keep_mode.restype = None
self.xed_decoded_inst_zero_keep_mode.argtypes = [ c_void_p ]
self.xed_decode = self.libxed.xed_decode
self.xed_decode.restype = c_int
self.xed_decode.argtypes = [ c_void_p, c_void_p, c_uint ]
self.xed_format_context = self.libxed.xed_format_context
self.xed_format_context.restype = c_uint
self.xed_format_context.argtypes = [ c_int, c_void_p, c_void_p, c_int, c_ulonglong, c_void_p, c_void_p ]
self.xed_tables_init()
def Instruction(self):
return XEDInstruction(self)
def SetMode(self, inst, mode):
if mode:
inst.state.mode = 4 # 32-bit
inst.state.width = 4 # 4 bytes
else:
inst.state.mode = 1 # 64-bit
inst.state.width = 8 # 8 bytes
self.xed_operand_values_set_mode(inst.xedp, inst.statep)
def DisassembleOne(self, inst, bytes_ptr, bytes_cnt, ip):
self.xed_decoded_inst_zero_keep_mode(inst.xedp)
err = self.xed_decode(inst.xedp, bytes_ptr, bytes_cnt)
if err:
return 0, ""
# Use AT&T mode (2), alternative is Intel (3)
ok = self.xed_format_context(2, inst.xedp, inst.bufferp, sizeof(inst.buffer), ip, 0, 0)
if not ok:
return 0, ""
if sys.version_info[0] == 2:
result = inst.buffer.value
else:
result = inst.buffer.value.decode()
# Return instruction length and the disassembled instruction text
# For now, assume the length is in byte 166
return inst.xedd[166], result
def TryOpen(file_name):
try:
return open(file_name, "rb")
except:
return None
def Is64Bit(f):
result = sizeof(c_void_p)
# ELF support only
pos = f.tell()
f.seek(0)
header = f.read(7)
f.seek(pos)
magic = header[0:4]
if sys.version_info[0] == 2:
eclass = ord(header[4])
encoding = ord(header[5])
version = ord(header[6])
else:
eclass = header[4]
encoding = header[5]
version = header[6]
if magic == chr(127) + "ELF" and eclass > 0 and eclass < 3 and encoding > 0 and encoding < 3 and version == 1:
result = True if eclass == 2 else False
return result
# Global data
class Glb():
def __init__(self, dbref, db, dbname):
self.dbref = dbref
self.db = db
self.dbname = dbname
self.home_dir = os.path.expanduser("~")
self.buildid_dir = os.getenv("PERF_BUILDID_DIR")
if self.buildid_dir:
self.buildid_dir += "/.build-id/"
else:
self.buildid_dir = self.home_dir + "/.debug/.build-id/"
self.app = None
self.mainwindow = None
self.instances_to_shutdown_on_exit = weakref.WeakSet()
try:
self.disassembler = LibXED()
self.have_disassembler = True
except:
self.have_disassembler = False
self.host_machine_id = 0
self.host_start_time = 0
self.host_finish_time = 0
def FileFromBuildId(self, build_id):
file_name = self.buildid_dir + build_id[0:2] + "/" + build_id[2:] + "/elf"
return TryOpen(file_name)
def FileFromNamesAndBuildId(self, short_name, long_name, build_id):
# Assume current machine i.e. no support for virtualization
if short_name[0:7] == "[kernel" and os.path.basename(long_name) == "kcore":
file_name = os.getenv("PERF_KCORE")
f = TryOpen(file_name) if file_name else None
if f:
return f
# For now, no special handling if long_name is /proc/kcore
f = TryOpen(long_name)
if f:
return f
f = self.FileFromBuildId(build_id)
if f:
return f
return None
def AddInstanceToShutdownOnExit(self, instance):
self.instances_to_shutdown_on_exit.add(instance)
# Shutdown any background processes or threads
def ShutdownInstances(self):
for x in self.instances_to_shutdown_on_exit:
try:
x.Shutdown()
except:
pass
def GetHostMachineId(self):
query = QSqlQuery(self.db)
QueryExec(query, "SELECT id FROM machines WHERE pid = -1")
if query.next():
self.host_machine_id = query.value(0)
else:
self.host_machine_id = 0
return self.host_machine_id
def HostMachineId(self):
if self.host_machine_id:
return self.host_machine_id
return self.GetHostMachineId()
def SelectValue(self, sql):
query = QSqlQuery(self.db)
try:
QueryExec(query, sql)
except:
return None
if query.next():
return Decimal(query.value(0))
return None
def SwitchesMinTime(self, machine_id):
return self.SelectValue("SELECT time"
" FROM context_switches"
" WHERE time != 0 AND machine_id = " + str(machine_id) +
" ORDER BY id LIMIT 1")
def SwitchesMaxTime(self, machine_id):
return self.SelectValue("SELECT time"
" FROM context_switches"
" WHERE time != 0 AND machine_id = " + str(machine_id) +
" ORDER BY id DESC LIMIT 1")
def SamplesMinTime(self, machine_id):
return self.SelectValue("SELECT time"
" FROM samples"
" WHERE time != 0 AND machine_id = " + str(machine_id) +
" ORDER BY id LIMIT 1")
def SamplesMaxTime(self, machine_id):
return self.SelectValue("SELECT time"
" FROM samples"
" WHERE time != 0 AND machine_id = " + str(machine_id) +
" ORDER BY id DESC LIMIT 1")
def CallsMinTime(self, machine_id):
return self.SelectValue("SELECT calls.call_time"
" FROM calls"
" INNER JOIN threads ON threads.thread_id = calls.thread_id"
" WHERE calls.call_time != 0 AND threads.machine_id = " + str(machine_id) +
" ORDER BY calls.id LIMIT 1")
def CallsMaxTime(self, machine_id):
return self.SelectValue("SELECT calls.return_time"
" FROM calls"
" INNER JOIN threads ON threads.thread_id = calls.thread_id"
" WHERE calls.return_time != 0 AND threads.machine_id = " + str(machine_id) +
" ORDER BY calls.return_time DESC LIMIT 1")
def GetStartTime(self, machine_id):
t0 = self.SwitchesMinTime(machine_id)
t1 = self.SamplesMinTime(machine_id)
t2 = self.CallsMinTime(machine_id)
if t0 is None or (not(t1 is None) and t1 < t0):
t0 = t1
if t0 is None or (not(t2 is None) and t2 < t0):
t0 = t2
return t0
def GetFinishTime(self, machine_id):
t0 = self.SwitchesMaxTime(machine_id)
t1 = self.SamplesMaxTime(machine_id)
t2 = self.CallsMaxTime(machine_id)
if t0 is None or (not(t1 is None) and t1 > t0):
t0 = t1
if t0 is None or (not(t2 is None) and t2 > t0):
t0 = t2
return t0
def HostStartTime(self):
if self.host_start_time:
return self.host_start_time
self.host_start_time = self.GetStartTime(self.HostMachineId())
return self.host_start_time
def HostFinishTime(self):
if self.host_finish_time:
return self.host_finish_time
self.host_finish_time = self.GetFinishTime(self.HostMachineId())
return self.host_finish_time
def StartTime(self, machine_id):
if machine_id == self.HostMachineId():
return self.HostStartTime()
return self.GetStartTime(machine_id)
def FinishTime(self, machine_id):
if machine_id == self.HostMachineId():
return self.HostFinishTime()
return self.GetFinishTime(machine_id)
# Database reference
class DBRef():
def __init__(self, is_sqlite3, dbname):
self.is_sqlite3 = is_sqlite3
self.dbname = dbname
self.TRUE = "TRUE"
self.FALSE = "FALSE"
# SQLite prior to version 3.23 does not support TRUE and FALSE
if self.is_sqlite3:
self.TRUE = "1"
self.FALSE = "0"
def Open(self, connection_name):
dbname = self.dbname
if self.is_sqlite3:
db = QSqlDatabase.addDatabase("QSQLITE", connection_name)
else:
db = QSqlDatabase.addDatabase("QPSQL", connection_name)
opts = dbname.split()
for opt in opts:
if "=" in opt:
opt = opt.split("=")
if opt[0] == "hostname":
db.setHostName(opt[1])
elif opt[0] == "port":
db.setPort(int(opt[1]))
elif opt[0] == "username":
db.setUserName(opt[1])
elif opt[0] == "password":
db.setPassword(opt[1])
elif opt[0] == "dbname":
dbname = opt[1]
else:
dbname = opt
db.setDatabaseName(dbname)
if not db.open():
raise Exception("Failed to open database " + dbname + " error: " + db.lastError().text())
return db, dbname
# Main
def Main():
usage_str = "exported-sql-viewer.py [--pyside-version-1] <database name>\n" \
" or: exported-sql-viewer.py --help-only"
ap = argparse.ArgumentParser(usage = usage_str, add_help = False)
ap.add_argument("--pyside-version-1", action='store_true')
ap.add_argument("dbname", nargs="?")
ap.add_argument("--help-only", action='store_true')
args = ap.parse_args()
if args.help_only:
app = QApplication(sys.argv)
mainwindow = HelpOnlyWindow()
mainwindow.show()
err = app.exec_()
sys.exit(err)
dbname = args.dbname
if dbname is None:
ap.print_usage()
print("Too few arguments")
sys.exit(1)
is_sqlite3 = False
try:
f = open(dbname, "rb")
if f.read(15) == b'SQLite format 3':
is_sqlite3 = True
f.close()
except:
pass
dbref = DBRef(is_sqlite3, dbname)
db, dbname = dbref.Open("main")
glb = Glb(dbref, db, dbname)
app = QApplication(sys.argv)
glb.app = app
mainwindow = MainWindow(glb)
glb.mainwindow = mainwindow
mainwindow.show()
err = app.exec_()
glb.ShutdownInstances()
db.close()
sys.exit(err)
if __name__ == "__main__":
Main()