''' pydevd - a debugging daemon
This is the daemon you launch for python remote debugging.
Protocol:
each command has a format:
id\tsequence-num\ttext
id: protocol command number
sequence-num: each request has a sequence number. Sequence numbers
originating at the debugger are odd, sequence numbers originating
at the daemon are even. Every response uses the same sequence number
as the request.
payload: it is protocol dependent. When response is a complex structure, it
is returned as XML. Each attribute value is urlencoded, and then the whole
payload is urlencoded again to prevent stray characters corrupting protocol/xml encodings
Commands:
NUMBER NAME FROM* ARGUMENTS RESPONSE NOTE
100 series: program execution
101 RUN JAVA - -
102 LIST_THREADS JAVA RETURN with XML listing of all threads
103 THREAD_CREATE PYDB - XML with thread information
104 THREAD_KILL JAVA id (or * to exit) kills the thread
PYDB id nofies JAVA that thread was killed
105 THREAD_SUSPEND JAVA XML of the stack, suspends the thread
reason for suspension
PYDB id notifies JAVA that thread was suspended
106 CMD_THREAD_RUN JAVA id resume the thread
PYDB id \t reason notifies JAVA that thread was resumed
107 STEP_INTO JAVA thread_id
108 STEP_OVER JAVA thread_id
109 STEP_RETURN JAVA thread_id
110 GET_VARIABLE JAVA thread_id \t frame_id \t GET_VARIABLE with XML of var content
FRAME|GLOBAL \t attributes*
111 SET_BREAK JAVA file/line of the breakpoint
112 REMOVE_BREAK JAVA file/line of the return
113 CMD_EVALUATE_EXPRESSION JAVA expression result of evaluating the expression
114 CMD_GET_FRAME JAVA request for frame contents
115 CMD_EXEC_EXPRESSION JAVA
116 CMD_WRITE_TO_CONSOLE PYDB
117 CMD_CHANGE_VARIABLE
118 CMD_RUN_TO_LINE
119 CMD_RELOAD_CODE
120 CMD_GET_COMPLETIONS JAVA
200 CMD_REDIRECT_OUTPUT JAVA streams to redirect as string -
'STDOUT' (redirect only STDOUT)
'STDERR' (redirect only STDERR)
'STDOUT STDERR' (redirect both streams)
500 series diagnostics/ok
501 VERSION either Version string (1.0) Currently just used at startup
502 RETURN either Depends on caller -
900 series: errors
901 ERROR either - This is reserved for unexpected errors.
* JAVA - remote debugger, the java end
* PYDB - pydevd, the python end
'''
import itertools
from _pydev_bundle.pydev_imports import _queue
from _pydev_imps._pydev_saved_modules import thread
from _pydev_imps._pydev_saved_modules import threading
from _pydev_imps._pydev_saved_modules import time
from _pydev_imps._pydev_saved_modules import socket
from socket import socket, AF_INET, SOCK_STREAM, SHUT_RD, SHUT_WR, SOL_SOCKET, SO_REUSEADDR, SHUT_RDWR, timeout
from _pydevd_bundle.pydevd_constants import DebugInfoHolder, get_thread_id, IS_JYTHON, IS_PY2, IS_PY3K, \
IS_PY36_OR_GREATER, STATE_RUN, dict_keys, ASYNC_EVAL_TIMEOUT_SEC, IS_IRONPYTHON, GlobalDebuggerHolder, \
get_global_debugger, GetGlobalDebugger, set_global_debugger, NEXT_VALUE_SEPARATOR
from _pydev_bundle.pydev_override import overrides
import json
import weakref
try:
from urllib import quote_plus, unquote, unquote_plus
except:
from urllib.parse import quote_plus, unquote, unquote_plus #@Reimport @UnresolvedImport
if IS_IRONPYTHON:
# redefine `unquote` for IronPython, since we use it only for logging messages, but it leads to SOF with IronPython
def unquote(s):
return s
from _pydevd_bundle import pydevd_console_integration
from _pydevd_bundle import pydevd_vars
import pydevd_tracing
from _pydevd_bundle import pydevd_xml
from _pydevd_bundle import pydevd_vm_type
from _pydevd_bundle import pydevd_bytecode_utils
from pydevd_file_utils import get_abs_path_real_path_and_base_from_frame, norm_file_to_client, is_real_file
import pydevd_file_utils
import os
import sys
import inspect
import traceback
from _pydevd_bundle.pydevd_utils import quote_smart as quote, compare_object_attrs_key, to_string, \
get_non_pydevd_threads, is_pandas_container, is_numpy_container
from _pydev_bundle.pydev_is_thread_alive import is_thread_alive
from _pydev_bundle import pydev_log
from _pydev_bundle import _pydev_completer
from _pydevd_bundle.pydevd_tables import exec_table_command
from pydevd_tracing import get_exception_traceback_str
from _pydevd_bundle import pydevd_console
from _pydev_bundle.pydev_monkey import disable_trace_thread_modules, enable_trace_thread_modules
from _pydevd_bundle.pydevd_console_output import ConsoleOutputHook
try:
import cStringIO as StringIO #may not always be available @UnusedImport
except:
try:
import StringIO #@Reimport
except:
import io as StringIO
from _pydevd_bundle.pydevd_dont_trace_files import DONT_TRACE, PYDEV_FILE
get_file_type = DONT_TRACE.get
# CMD_XXX constants imported for backward compatibility
from _pydevd_bundle.pydevd_comm_constants import (
ID_TO_MEANING, CMD_RUN, CMD_LIST_THREADS, CMD_THREAD_CREATE, CMD_THREAD_KILL,
CMD_THREAD_SUSPEND, CMD_THREAD_RUN, CMD_STEP_INTO, CMD_STEP_OVER, CMD_STEP_RETURN, CMD_GET_VARIABLE,
CMD_SET_BREAK, CMD_REMOVE_BREAK, CMD_EVALUATE_EXPRESSION, CMD_GET_FRAME,
CMD_EXEC_EXPRESSION, CMD_WRITE_TO_CONSOLE, CMD_CHANGE_VARIABLE, CMD_RUN_TO_LINE,
CMD_RELOAD_CODE, CMD_GET_COMPLETIONS, CMD_CONSOLE_EXEC, CMD_ADD_EXCEPTION_BREAK,
CMD_REMOVE_EXCEPTION_BREAK, CMD_LOAD_SOURCE, CMD_ADD_DJANGO_EXCEPTION_BREAK,
CMD_REMOVE_DJANGO_EXCEPTION_BREAK, CMD_SET_NEXT_STATEMENT, CMD_SMART_STEP_INTO,
CMD_EXIT, CMD_SIGNATURE_CALL_TRACE, CMD_SET_PY_EXCEPTION, CMD_GET_FILE_CONTENTS,
CMD_SET_PROPERTY_TRACE, CMD_EVALUATE_CONSOLE_EXPRESSION, CMD_RUN_CUSTOM_OPERATION,
CMD_GET_BREAKPOINT_EXCEPTION, CMD_STEP_CAUGHT_EXCEPTION, CMD_SEND_CURR_EXCEPTION_TRACE,
CMD_SEND_CURR_EXCEPTION_TRACE_PROCEEDED, CMD_IGNORE_THROWN_EXCEPTION_AT, CMD_ENABLE_DONT_TRACE,
CMD_SHOW_CONSOLE, CMD_GET_ARRAY, CMD_STEP_INTO_MY_CODE, CMD_GET_CONCURRENCY_EVENT,
CMD_SHOW_RETURN_VALUES, CMD_SET_UNIT_TEST_DEBUGGING_MODE, CMD_INPUT_REQUESTED, CMD_GET_DESCRIPTION, CMD_PROCESS_CREATED,
CMD_SHOW_CYTHON_WARNING, CMD_LOAD_FULL_VALUE, CMD_GET_THREAD_STACK, CMD_THREAD_DUMP_TO_STDERR,
CMD_STOP_ON_START, CMD_GET_EXCEPTION_DETAILS, CMD_PROCESS_CREATED_MSG_RECEIVED, CMD_PYDEVD_JSON_CONFIG,
CMD_THREAD_SUSPEND_SINGLE_NOTIFICATION, CMD_THREAD_RESUME_SINGLE_NOTIFICATION,
CMD_REDIRECT_OUTPUT, CMD_GET_NEXT_STATEMENT_TARGETS, CMD_SET_PROJECT_ROOTS, CMD_VERSION,
CMD_RETURN, CMD_SET_PROTOCOL, CMD_ERROR, CMD_GET_SMART_STEP_INTO_VARIANTS, CMD_DATAVIEWER_ACTION,
CMD_TABLE_EXEC, CMD_INTERRUPT_DEBUG_CONSOLE, CMD_SET_USER_TYPE_RENDERERS)
MAX_IO_MSG_SIZE = 1000 #if the io is too big, we'll not send all (could make the debugger too non-responsive)
#this number can be changed if there's need to do so
VERSION_STRING = "@@BUILD_NUMBER@@"
from _pydev_bundle._pydev_filesystem_encoding import getfilesystemencoding
file_system_encoding = getfilesystemencoding()
filesystem_encoding_is_utf8 = file_system_encoding.lower() in ('utf-8', 'utf_8', 'utf8')
class CommunicationRole(object):
"""The class that contains the constants of roles that `PyDB` can play in
the communication with the IDE.
"""
CLIENT = 0
SERVER = 1
#--------------------------------------------------------------------------------------------------- UTILITIES
#=======================================================================================================================
# pydevd_log
#=======================================================================================================================
def pydevd_log(level, *args):
""" levels are:
0 most serious warnings/errors
1 warnings/significant events
2 informational trace
"""
if level <= DebugInfoHolder.DEBUG_TRACE_LEVEL:
#yes, we can have errors printing if the console of the program has been finished (and we're still trying to print something)
try:
sys.stderr.write('%s\n' % (args,))
except:
pass
#------------------------------------------------------------------- ACTUAL COMM
#=======================================================================================================================
# PyDBDaemonThread
#=======================================================================================================================
class PyDBDaemonThread(threading.Thread):
created_pydb_daemon_threads = {}
def __init__(self, target_and_args=None):
'''
:param target_and_args:
tuple(func, args, kwargs) if this should be a function and args to run.
-- Note: use through run_as_pydevd_daemon_thread().
'''
threading.Thread.__init__(self)
self.killReceived = False
mark_as_pydevd_daemon_thread(self)
self._target_and_args = target_and_args
def run(self):
created_pydb_daemon = self.created_pydb_daemon_threads
created_pydb_daemon[self] = 1
try:
try:
if IS_JYTHON and not isinstance(threading.current_thread(), threading._MainThread):
# we shouldn't update sys.modules for the main thread, cause it leads to the second importing 'threading'
# module, and the new instance of main thread is created
import org.python.core as PyCore #@UnresolvedImport
ss = PyCore.PySystemState()
# Note: Py.setSystemState() affects only the current thread.
PyCore.Py.setSystemState(ss)
self._stop_trace()
self._warn_pydevd_thread_is_traced()
self._on_run()
except:
if sys is not None and traceback is not None:
traceback.print_exc()
finally:
del created_pydb_daemon[self]
def _on_run(self):
if self._target_and_args is not None:
target, args, kwargs = self._target_and_args
target(*args, **kwargs)
else:
raise NotImplementedError('Should be reimplemented by: %s' % self.__class__)
def do_kill_pydev_thread(self):
self.killReceived = True
def _stop_trace(self):
if self.pydev_do_not_trace:
pydevd_tracing.SetTrace(None) # no debugging on this thread
def _warn_pydevd_thread_is_traced(self):
if self.pydev_do_not_trace and sys.gettrace():
pydevd_log(1, "The debugger thread '%s' is traced which may lead to debugging performance issues." % self.__class__.__name__)
def mark_as_pydevd_daemon_thread(thread):
thread.pydev_do_not_trace = True
thread.is_pydev_daemon_thread = True
thread.daemon = True
def run_as_pydevd_daemon_thread(func, *args, **kwargs):
'''
Runs a function as a pydevd daemon thread (without any tracing in place).
'''
t = PyDBDaemonThread(target_and_args=(func, args, kwargs))
t.name = '%s (pydevd daemon thread)' % (func.__name__,)
t.start()
return t
#=======================================================================================================================
# ReaderThread
#=======================================================================================================================
class ReaderThread(PyDBDaemonThread):
""" reader thread reads and dispatches commands in an infinite loop """
def __init__(self, sock):
PyDBDaemonThread.__init__(self)
self.sock = sock
self.name = "pydevd.Reader"
from _pydevd_bundle.pydevd_process_net_command import process_net_command
self.process_net_command = process_net_command
self.global_debugger_holder = GlobalDebuggerHolder
def do_kill_pydev_thread(self):
#We must close the socket so that it doesn't stay halted there.
self.killReceived = True
try:
self.sock.shutdown(SHUT_RD) #shutdown the socket for read
except:
#just ignore that
pass
@overrides(PyDBDaemonThread._on_run)
def _on_run(self):
read_buffer = ""
try:
while not self.killReceived:
try:
r = self.sock.recv(1024)
except OSError:
return
except:
if not self.killReceived:
traceback.print_exc()
self.handle_except()
return #Finished communication.
#Note: the java backend is always expected to pass utf-8 encoded strings. We now work with unicode
#internally and thus, we may need to convert to the actual encoding where needed (i.e.: filenames
#on python 2 may need to be converted to the filesystem encoding).
if hasattr(r, 'decode'):
r = r.decode('utf-8')
read_buffer += r
if DebugInfoHolder.DEBUG_RECORD_SOCKET_READS:
sys.stderr.write(u'debugger: received >>%s<<\n' % (read_buffer,))
sys.stderr.flush()
if len(read_buffer) == 0:
self.handle_except()
break
while read_buffer.find(u'\n') != -1:
command, read_buffer = read_buffer.split(u'\n', 1)
args = command.split(u'\t', 2)
try:
cmd_id = int(args[0])
pydev_log.debug('Received command: %s %s\n' % (ID_TO_MEANING.get(str(cmd_id), '???'), command,))
self.process_command(cmd_id, int(args[1]), args[2])
except:
traceback.print_exc()
sys.stderr.write("Can't process net command: %s\n" % command)
sys.stderr.flush()
except:
traceback.print_exc()
self.handle_except()
def handle_except(self):
self.global_debugger_holder.global_dbg.finish_debugging_session()
def process_command(self, cmd_id, seq, text):
self.process_net_command(self.global_debugger_holder.global_dbg, cmd_id, seq, text)
#----------------------------------------------------------------------------------- SOCKET UTILITIES - WRITER
#=======================================================================================================================
# WriterThread
#=======================================================================================================================
class WriterThread(PyDBDaemonThread):
""" writer thread writes out the commands in an infinite loop """
def __init__(self, sock):
PyDBDaemonThread.__init__(self)
self.sock = sock
self.name = "pydevd.Writer"
self.cmdQueue = _queue.Queue()
if pydevd_vm_type.get_vm_type() == 'python':
self.timeout = 0
else:
self.timeout = 0.1
def add_command(self, cmd):
""" cmd is NetCommand """
if not self.killReceived: #we don't take new data after everybody die
self.cmdQueue.put(cmd)
@overrides(PyDBDaemonThread._on_run)
def _on_run(self):
""" just loop and write responses """
try:
while True:
try:
try:
cmd = self.cmdQueue.get(1, 0.1)
except _queue.Empty:
if self.killReceived:
try:
self.sock.shutdown(SHUT_WR)
self.sock.close()
except:
pass
return #break if queue is empty and killReceived
else:
continue
except:
#pydevd_log(0, 'Finishing debug communication...(1)')
#when liberating the thread here, we could have errors because we were shutting down
#but the thread was still not liberated
return
cmd.send(self.sock)
if cmd.id == CMD_EXIT:
break
if time is None:
break #interpreter shutdown
time.sleep(self.timeout)
except Exception:
GlobalDebuggerHolder.global_dbg.finish_debugging_session()
if DebugInfoHolder.DEBUG_TRACE_LEVEL >= 0:
traceback.print_exc()
def empty(self):
return self.cmdQueue.empty()
#--------------------------------------------------- CREATING THE SOCKET THREADS
#=======================================================================================================================
# start_server
#=======================================================================================================================
def start_server(port):
""" binds to a port, waits for the debugger to connect """
s = socket(AF_INET, SOCK_STREAM)
s.settimeout(None)
try:
from socket import SO_REUSEPORT
s.setsockopt(SOL_SOCKET, SO_REUSEPORT, 1)
except ImportError:
s.setsockopt(SOL_SOCKET, SO_REUSEADDR, 1)
s.bind(('', port))
pydevd_log(1, "Bound to port ", str(port))
try:
s.listen(1)
newSock, _addr = s.accept()
pydevd_log(1, "Connection accepted")
# closing server socket is not necessary but we don't need it
s.shutdown(SHUT_RDWR)
s.close()
return newSock
except:
sys.stderr.write("Could not bind to port: %s\n" % (port,))
sys.stderr.flush()
traceback.print_exc()
#=======================================================================================================================
# start_client
#=======================================================================================================================
def start_client(host, port):
""" connects to a host/port """
pydevd_log(1, "Connecting to ", host, ":", str(port))
s = socket(AF_INET, SOCK_STREAM)
# Set inheritable for Python >= 3.4. See https://docs.python.org/3/library/os.html#fd-inheritance.
# It fixes issues: PY-37960 and PY-14980, also https://github.com/tornadoweb/tornado/issues/2243
if hasattr(s, 'set_inheritable'):
s.set_inheritable(True)
# Set TCP keepalive on an open socket.
# It activates after 1 second (TCP_KEEPIDLE,) of idleness,
# then sends a keepalive ping once every 3 seconds (TCP_KEEPINTVL),
# and closes the connection after 5 failed ping (TCP_KEEPCNT), or 15 seconds
try:
from socket import IPPROTO_TCP, SO_KEEPALIVE, TCP_KEEPIDLE, TCP_KEEPINTVL, TCP_KEEPCNT
s.setsockopt(SOL_SOCKET, SO_KEEPALIVE, 1)
s.setsockopt(IPPROTO_TCP, TCP_KEEPIDLE, 1)
s.setsockopt(IPPROTO_TCP, TCP_KEEPINTVL, 3)
s.setsockopt(IPPROTO_TCP, TCP_KEEPCNT, 5)
except ImportError:
pass # May not be available everywhere.
try:
s.settimeout(10) # 10 seconds timeout
s.connect((host, port))
s.settimeout(None) # no timeout after connected
pydevd_log(1, "Connected.")
return s
except:
sys.stderr.write("Could not connect to %s: %s\n" % (host, port))
sys.stderr.flush()
traceback.print_exc()
raise
#------------------------------------------------------------------------------------ MANY COMMUNICATION STUFF
#=======================================================================================================================
# NetCommand
#=======================================================================================================================
class NetCommand:
""" Commands received/sent over the network.
Command can represent command received from the debugger,
or one to be sent by daemon.
"""
next_seq = 0 # sequence numbers
# Protocol where each line is a new message (text is quoted to prevent new lines).
QUOTED_LINE_PROTOCOL = 'quoted-line'
# Uses http protocol to provide a new message.
# i.e.: Content-Length:xxx\r\n\r\npayload
HTTP_PROTOCOL = 'http'
protocol = QUOTED_LINE_PROTOCOL
_showing_debug_info = 0
_show_debug_info_lock = threading.RLock()
def __init__(self, cmd_id, seq, text):
"""
If sequence is 0, new sequence will be generated (otherwise, this was the response
to a command from the client).
"""
self.id = cmd_id
if seq == 0:
NetCommand.next_seq += 2
seq = NetCommand.next_seq
self.seq = seq
if IS_PY2:
if isinstance(text, unicode):
text = text.encode('utf-8')
else:
assert isinstance(text, str)
else:
assert isinstance(text, str)
if DebugInfoHolder.DEBUG_TRACE_LEVEL >= 1:
self._show_debug_info(cmd_id, seq, text)
if self.protocol == self.HTTP_PROTOCOL:
msg = '%s\t%s\t%s\n' % (cmd_id, seq, text)
else:
encoded = quote(to_string(text), '/<>_=" \t')
msg = '%s\t%s\t%s\n' % (cmd_id, seq, encoded)
if IS_PY2:
assert isinstance(msg, str) # i.e.: bytes
as_bytes = msg
else:
if isinstance(msg, str):
msg = msg.encode('utf-8')
assert isinstance(msg, bytes)
as_bytes = msg
self._as_bytes = as_bytes
def send(self, sock):
as_bytes = self._as_bytes
if self.protocol == self.HTTP_PROTOCOL:
sock.sendall(('Content-Length: %s\r\n\r\n' % len(as_bytes)).encode('ascii'))
sock.sendall(as_bytes)
@classmethod
def _show_debug_info(cls, cmd_id, seq, text):
with cls._show_debug_info_lock:
# Only one thread each time (rlock).
if cls._showing_debug_info:
# avoid recursing in the same thread (just printing could create
# a new command when redirecting output).
return
cls._showing_debug_info += 1
try:
out_message = 'sending cmd --> '
out_message += "%20s" % ID_TO_MEANING.get(str(cmd_id), 'UNKNOWN')
out_message += ' '
out_message += text.replace('\n', ' ')
try:
sys.stderr.write('%s\n' % (out_message,))
except:
pass
finally:
cls._showing_debug_info -= 1
#=======================================================================================================================
# NetCommandFactory
#=======================================================================================================================
class NetCommandFactory:
def _thread_to_xml(self, thread):
""" thread information as XML """
name = pydevd_xml.make_valid_xml_value(thread.name)
cmdText = '' % (quote(name), get_thread_id(thread))
return cmdText
def make_error_message(self, seq, text):
cmd = NetCommand(CMD_ERROR, seq, text)
if DebugInfoHolder.DEBUG_TRACE_LEVEL > 2:
sys.stderr.write("Error: %s" % (text,))
return cmd
def make_protocol_set_message(self, seq):
return NetCommand(CMD_SET_PROTOCOL, seq, '')
def make_thread_created_message(self, thread):
cmdText = "" + self._thread_to_xml(thread) + ""
return NetCommand(CMD_THREAD_CREATE, 0, cmdText)
def make_process_created_message(self):
cmdText = ''
return NetCommand(CMD_PROCESS_CREATED, 0, cmdText)
def make_show_warning_message(self, message_id):
try:
cmdText = '' % message_id
return NetCommand(CMD_SHOW_CYTHON_WARNING, 0, cmdText)
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_custom_frame_created_message(self, frameId, frameDescription):
frameDescription = pydevd_xml.make_valid_xml_value(frameDescription)
cmdText = '' % (frameDescription, frameId)
return NetCommand(CMD_THREAD_CREATE, 0, cmdText)
def make_list_threads_message(self, seq):
""" returns thread listing as XML """
try:
threads = get_non_pydevd_threads()
cmd_text = [""]
append = cmd_text.append
for thread in threads:
if is_thread_alive(thread):
append(self._thread_to_xml(thread))
append("")
return NetCommand(CMD_RETURN, seq, ''.join(cmd_text))
except:
return self.make_error_message(seq, get_exception_traceback_str())
def make_get_thread_stack_message(self, seq, thread_id, topmost_frame, must_be_suspended=False):
"""
Returns thread stack as XML.
:param be_suspended: If True and the thread is not suspended, returns None.
"""
try:
# If frame is None, the return is an empty frame list.
cmd_text = ['' % (thread_id,)]
if topmost_frame is not None:
try:
# Note: if we detect that we're already stopped in a given place within
# the debugger, use that stack instead of creating a new one with the
# current position (this is needed because when an uncaught exception
# is reported for a given frame we are actually stopped in a different
# place within the debugger).
frame = topmost_frame
thread_stack_str = ''
while frame is not None:
if frame.f_code.co_name == 'do_wait_suspend' and frame.f_code.co_filename.endswith('pydevd.py'):
thread_stack_str = frame.f_locals.get('thread_stack_str')
break
frame = frame.f_back
else:
# Could not find stack of suspended frame...
if must_be_suspended:
return None
cmd_text.append(thread_stack_str or self.make_thread_stack_str(topmost_frame))
finally:
topmost_frame = None
cmd_text.append('')
return NetCommand(CMD_GET_THREAD_STACK, seq, ''.join(cmd_text))
except:
return self.make_error_message(seq, get_exception_traceback_str())
def make_variable_changed_message(self, seq, payload):
# notify debugger that value was changed successfully
return NetCommand(CMD_RETURN, seq, payload)
def make_io_message(self, v, ctx):
'''
@param v: the message to pass to the debug server
@param ctx: 1 for stdio 2 for stderr
'''
try:
if len(v) > MAX_IO_MSG_SIZE:
v = v[0:MAX_IO_MSG_SIZE]
v += '...'
v = pydevd_xml.make_valid_xml_value(quote(v, '/>_= '))
return NetCommand(str(CMD_WRITE_TO_CONSOLE), 0, '' % (v, ctx))
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_version_message(self, seq):
try:
return NetCommand(CMD_VERSION, seq, VERSION_STRING)
except:
return self.make_error_message(seq, get_exception_traceback_str())
def make_thread_killed_message(self, id):
try:
return NetCommand(CMD_THREAD_KILL, 0, str(id))
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_thread_stack_str(self, frame, frame_to_lineno=None):
'''
:param frame_to_lineno:
If available, the line number for the frame will be gotten from this dict,
otherwise frame.f_lineno will be used (needed for unhandled exceptions as
the place where we report may be different from the place where it's raised).
'''
if frame_to_lineno is None:
frame_to_lineno = {}
make_valid_xml_value = pydevd_xml.make_valid_xml_value
cmd_text_list = []
append = cmd_text_list.append
curr_frame = frame
frame = None # Clear frame reference
try:
while curr_frame:
my_id = id(curr_frame)
if curr_frame.f_code is None:
break # Iron Python sometimes does not have it!
method_name = curr_frame.f_code.co_name # method name (if in method) or ? if global
if method_name is None:
break # Iron Python sometimes does not have it!
abs_path_real_path_and_base = get_abs_path_real_path_and_base_from_frame(curr_frame)
if get_file_type(abs_path_real_path_and_base[2]) == PYDEV_FILE:
# Syntax errors are a special case in which we don't want to skip the debugger files.
# When a syntax error happens, we stop either in the `execfile` or `_exec` function.
exception_info, is_syntax_error = curr_frame.f_locals.get('__exception__'), False
if exception_info:
is_syntax_error = exception_info[0] is SyntaxError
if not is_syntax_error:
# Skip pydevd files.
curr_frame = curr_frame.f_back
continue
my_file = abs_path_real_path_and_base[0]
if is_real_file(my_file):
# if filename is Jupyter cell id
my_file = pydevd_file_utils.norm_file_to_client(abs_path_real_path_and_base[0])
if file_system_encoding.lower() != "utf-8" and hasattr(my_file, "decode"):
# my_file is a byte string encoded using the file system encoding
# convert it to utf8
my_file = my_file.decode(file_system_encoding).encode("utf-8")
#print "file is ", my_file
#my_file = inspect.getsourcefile(curr_frame) or inspect.getfile(frame)
lineno = frame_to_lineno.get(curr_frame, curr_frame.f_lineno)
# print("line is ", lineno)
# Note: variables are all gotten 'on-demand'.
append('' % (make_valid_xml_value(my_file), lineno))
append("")
curr_frame = curr_frame.f_back
except:
traceback.print_exc()
curr_frame = None # Clear frame reference
return ''.join(cmd_text_list)
def make_thread_suspend_str(
self,
thread_id,
frame,
stop_reason=None,
message=None,
suspend_type="trace",
frame_to_lineno=None
):
"""
:return tuple(str,str):
Returns tuple(thread_suspended_str, thread_stack_str).
i.e.:
(
'''
'''
,
'''
'''
)
"""
make_valid_xml_value = pydevd_xml.make_valid_xml_value
cmd_text_list = []
append = cmd_text_list.append
cmd_text_list.append('')
if message:
message = make_valid_xml_value(quote(message, '/>_= '))
append('')
thread_stack_str = self.make_thread_stack_str(frame, frame_to_lineno)
append(thread_stack_str)
append("")
return ''.join(cmd_text_list), thread_stack_str
def make_thread_suspend_message(self, thread_id, frame, stop_reason, message, suspend_type, frame_to_lineno=None):
try:
thread_suspend_str, thread_stack_str = self.make_thread_suspend_str(
thread_id, frame, stop_reason, message, suspend_type, frame_to_lineno=frame_to_lineno)
cmd = NetCommand(CMD_THREAD_SUSPEND, 0, thread_suspend_str)
cmd.thread_stack_str = thread_stack_str
cmd.thread_suspend_str = thread_suspend_str
return cmd
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_thread_suspend_single_notification(self, thread_id, stop_reason):
try:
return NetCommand(CMD_THREAD_SUSPEND_SINGLE_NOTIFICATION, 0, json.dumps(
{'thread_id': thread_id, 'stop_reason': stop_reason}))
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_thread_resume_single_notification(self, thread_id):
try:
return NetCommand(CMD_THREAD_RESUME_SINGLE_NOTIFICATION, 0, json.dumps(
{'thread_id': thread_id}))
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_thread_run_message(self, thread_id, reason):
try:
return NetCommand(CMD_THREAD_RUN, 0, "%s\t%s" % (thread_id, reason))
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_get_variable_message(self, seq, payload):
try:
return NetCommand(CMD_GET_VARIABLE, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_get_array_message(self, seq, payload):
try:
return NetCommand(CMD_GET_ARRAY, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_successful_dataviewer_action_message(self, seq, payload):
try:
return NetCommand(CMD_DATAVIEWER_ACTION, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_get_description_message(self, seq, payload):
try:
return NetCommand(CMD_GET_DESCRIPTION, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_get_frame_message(self, seq, payload):
try:
return NetCommand(CMD_GET_FRAME, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_evaluate_expression_message(self, seq, payload):
try:
return NetCommand(CMD_EVALUATE_EXPRESSION, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_get_completions_message(self, seq, payload):
try:
return NetCommand(CMD_GET_COMPLETIONS, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_get_file_contents(self, seq, payload):
try:
return NetCommand(CMD_GET_FILE_CONTENTS, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_send_breakpoint_exception_message(self, seq, payload):
try:
return NetCommand(CMD_GET_BREAKPOINT_EXCEPTION, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def _make_send_curr_exception_trace_str(self, thread_id, exc_type, exc_desc, trace_obj):
while trace_obj.tb_next is not None:
trace_obj = trace_obj.tb_next
exc_type = pydevd_xml.make_valid_xml_value(str(exc_type)).replace('\t', ' ') or 'exception: type unknown'
exc_desc = pydevd_xml.make_valid_xml_value(str(exc_desc)).replace('\t', ' ') or 'exception: no description'
thread_suspend_str, thread_stack_str = self.make_thread_suspend_str(
thread_id, trace_obj.tb_frame, CMD_SEND_CURR_EXCEPTION_TRACE, '')
return exc_type, exc_desc, thread_suspend_str, thread_stack_str
def make_send_curr_exception_trace_message(self, seq, thread_id, curr_frame_id, exc_type, exc_desc, trace_obj):
try:
exc_type, exc_desc, thread_suspend_str, _thread_stack_str = self._make_send_curr_exception_trace_str(
thread_id, exc_type, exc_desc, trace_obj)
payload = str(curr_frame_id) + '\t' + exc_type + "\t" + exc_desc + "\t" + thread_suspend_str
return NetCommand(CMD_SEND_CURR_EXCEPTION_TRACE, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_get_exception_details_message(self, seq, thread_id, topmost_frame):
"""Returns exception details as XML """
try:
# If the debugger is not suspended, just return the thread and its id.
cmd_text = ['')
cmd_text.append(thread_stack_str)
break
frame = frame.f_back
else:
cmd_text.append('>')
finally:
frame = None
cmd_text.append('')
return NetCommand(CMD_GET_EXCEPTION_DETAILS, seq, ''.join(cmd_text))
except:
return self.make_error_message(seq, get_exception_traceback_str())
def make_send_curr_exception_trace_proceeded_message(self, seq, thread_id):
try:
return NetCommand(CMD_SEND_CURR_EXCEPTION_TRACE_PROCEEDED, 0, str(thread_id))
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_send_console_message(self, seq, payload):
try:
return NetCommand(CMD_EVALUATE_CONSOLE_EXPRESSION, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_custom_operation_message(self, seq, payload):
try:
return NetCommand(CMD_RUN_CUSTOM_OPERATION, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_load_source_message(self, seq, source, dbg=None):
try:
net = NetCommand(CMD_LOAD_SOURCE, seq, '%s' % source)
except:
net = self.make_error_message(0, get_exception_traceback_str())
if dbg:
dbg.writer.add_command(net)
return net
def make_show_console_message(self, thread_id, frame):
try:
thread_suspended_str, _thread_stack_str = self.make_thread_suspend_str(thread_id, frame, CMD_SHOW_CONSOLE, '')
return NetCommand(CMD_SHOW_CONSOLE, 0, thread_suspended_str)
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_input_requested_message(self, started):
try:
return NetCommand(CMD_INPUT_REQUESTED, 0, str(started))
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_set_next_stmnt_status_message(self, seq, is_success, exception_msg):
try:
message = str(is_success) + '\t' + exception_msg
return NetCommand(CMD_SET_NEXT_STATEMENT, int(seq), message)
except:
return self.make_error_message(0, get_exception_traceback_str())
def make_load_full_value_message(self, seq, payload):
try:
return NetCommand(CMD_LOAD_FULL_VALUE, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
def make_exit_message(self):
try:
net = NetCommand(CMD_EXIT, 0, '')
except:
net = self.make_error_message(0, get_exception_traceback_str())
return net
def make_get_next_statement_targets_message(self, seq, payload):
try:
return NetCommand(CMD_GET_NEXT_STATEMENT_TARGETS, seq, payload)
except Exception:
return self.make_error_message(seq, get_exception_traceback_str())
INTERNAL_TERMINATE_THREAD = 1
INTERNAL_SUSPEND_THREAD = 2
#=======================================================================================================================
# InternalThreadCommand
#=======================================================================================================================
class InternalThreadCommand:
""" internal commands are generated/executed by the debugger.
The reason for their existence is that some commands have to be executed
on specific threads. These are the InternalThreadCommands that get
get posted to PyDB.cmdQueue.
"""
def __init__(self, thread_id):
self.thread_id = thread_id
def can_be_executed_by(self, thread_id):
'''By default, it must be in the same thread to be executed
'''
return self.thread_id == thread_id or self.thread_id.endswith('|' + thread_id)
def do_it(self, dbg):
raise NotImplementedError("you have to override do_it")
class ReloadCodeCommand(InternalThreadCommand):
def __init__(self, module_name, thread_id):
self.thread_id = thread_id
self.module_name = module_name
self.executed = False
self.lock = thread.allocate_lock()
def can_be_executed_by(self, thread_id):
if self.thread_id == '*':
return True #Any thread can execute it!
return InternalThreadCommand.can_be_executed_by(self, thread_id)
def do_it(self, dbg):
self.lock.acquire()
try:
if self.executed:
return
self.executed = True
finally:
self.lock.release()
module_name = self.module_name
if module_name not in sys.modules:
if '.' in module_name:
new_module_name = module_name.split('.')[-1]
if new_module_name in sys.modules:
module_name = new_module_name
if module_name not in sys.modules:
sys.stderr.write('pydev debugger: Unable to find module to reload: "' + module_name + '".\n')
# Too much info...
# sys.stderr.write('pydev debugger: This usually means you are trying to reload the __main__ module (which cannot be reloaded).\n')
else:
sys.stderr.write('pydev debugger: Start reloading module: "' + module_name + '" ... \n')
from _pydevd_bundle import pydevd_reload
if pydevd_reload.xreload(sys.modules[module_name]):
sys.stderr.write('pydev debugger: reload finished\n')
else:
sys.stderr.write('pydev debugger: reload finished without applying any change\n')
#=======================================================================================================================
# InternalGetThreadStack
#=======================================================================================================================
class InternalGetThreadStack(InternalThreadCommand):
'''
This command will either wait for a given thread to be paused to get its stack or will provide
it anyways after a timeout (in which case the stack will be gotten but local variables won't
be available and it'll not be possible to interact with the frame as it's not actually
stopped in a breakpoint).
'''
def __init__(self, seq, thread_id, py_db, set_additional_thread_info, timeout=.5):
InternalThreadCommand.__init__(self, thread_id)
self._py_db = weakref.ref(py_db)
self._timeout = time.time() + timeout
self.seq = seq
self._cmd = None
# Note: receives set_additional_thread_info to avoid a circular import
# in this module.
self._set_additional_thread_info = set_additional_thread_info
@overrides(InternalThreadCommand.can_be_executed_by)
def can_be_executed_by(self, _thread_id):
timed_out = time.time() >= self._timeout
py_db = self._py_db()
t = pydevd_find_thread_by_id(self.thread_id)
frame = None
if t and not getattr(t, 'pydev_do_not_trace', None):
additional_info = self._set_additional_thread_info(t)
frame = additional_info.get_topmost_frame(t)
try:
self._cmd = py_db.cmd_factory.make_get_thread_stack_message(
self.seq, self.thread_id, frame, must_be_suspended=not timed_out)
finally:
frame = None
t = None
return self._cmd is not None or timed_out
@overrides(InternalThreadCommand.do_it)
def do_it(self, dbg):
if self._cmd is not None:
dbg.writer.add_command(self._cmd)
self._cmd = None
#=======================================================================================================================
# InternalRunThread
#=======================================================================================================================
class InternalRunThread(InternalThreadCommand):
def do_it(self, dbg):
t = pydevd_find_thread_by_id(self.thread_id)
if t:
t.additional_info.pydev_step_cmd = -1
t.additional_info.pydev_step_stop = None
t.additional_info.pydev_state = STATE_RUN
#=======================================================================================================================
# InternalStepThread
#=======================================================================================================================
class InternalStepThread(InternalThreadCommand):
def __init__(self, thread_id, cmd_id):
self.thread_id = thread_id
self.cmd_id = cmd_id
def do_it(self, dbg):
t = pydevd_find_thread_by_id(self.thread_id)
if t:
t.additional_info.pydev_step_cmd = self.cmd_id
t.additional_info.pydev_state = STATE_RUN
#=======================================================================================================================
# InternalSetNextStatementThread
#=======================================================================================================================
class InternalSetNextStatementThread(InternalThreadCommand):
def __init__(self, thread_id, cmd_id, line, func_name, seq=0):
self.thread_id = thread_id
self.cmd_id = cmd_id
self.line = line
self.seq = seq
if IS_PY2:
if isinstance(func_name, unicode):
# On cython with python 2.X it requires an str, not unicode (but on python 3.3 it should be a str, not bytes).
func_name = func_name.encode('utf-8')
self.func_name = func_name
def do_it(self, dbg):
t = pydevd_find_thread_by_id(self.thread_id)
if t:
t.additional_info.pydev_step_cmd = self.cmd_id
t.additional_info.pydev_next_line = int(self.line)
t.additional_info.pydev_func_name = self.func_name
t.additional_info.pydev_state = STATE_RUN
t.additional_info.pydev_message = str(self.seq)
class InternalSmartStepInto(InternalThreadCommand):
def __init__(self, thread_id, frame_id, cmd_id, func_name, line, call_order, start_line, end_line, seq=0):
self.thread_id = thread_id
self.cmd_id = cmd_id
self.line = line
self.start_line = start_line
self.end_line = end_line
self.seq = seq
self.call_order = call_order
if IS_PY2:
if isinstance(func_name, unicode):
# On cython with python 2.X it requires an str, not unicode (but on python 3.3 it should be a str, not bytes).
func_name = func_name.encode('utf-8')
self.func_name = func_name
def do_it(self, dbg):
t = pydevd_find_thread_by_id(self.thread_id)
if t:
t.additional_info.pydev_step_cmd = self.cmd_id
t.additional_info.pydev_next_line = int(self.line)
t.additional_info.pydev_func_name = self.func_name
t.additional_info.pydev_state = STATE_RUN
t.additional_info.pydev_message = str(self.seq)
t.additional_info.pydev_smart_step_context.call_order = int(self.call_order)
t.additional_info.pydev_smart_step_context.start_line = int(self.start_line)
t.additional_info.pydev_smart_step_context.end_line = int(self.end_line)
#=======================================================================================================================
# InternalGetVariable
#=======================================================================================================================
class InternalGetVariable(InternalThreadCommand):
""" gets the value of a variable """
def __init__(self, seq, thread_id, frame_id, scope, attrs):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.scope = scope
self.attributes = attrs
def do_it(self, dbg):
""" Converts request into python variable """
try:
xml = StringIO.StringIO()
xml.write("")
_typeName, val_dict = pydevd_vars.resolve_compound_variable_fields(self.thread_id, self.frame_id, self.scope, self.attributes, dbg.get_user_type_renderers())
if val_dict is None:
val_dict = {}
# assume properly ordered if resolver returns 'OrderedDict'
# check type as string to support OrderedDict backport for older Python
keys = dict_keys(val_dict)
if not (_typeName == "OrderedDict" or val_dict.__class__.__name__ == "OrderedDict" or IS_PY36_OR_GREATER):
keys.sort(key=compare_object_attrs_key)
for k in keys:
val = val_dict[k]
evaluate_full_value = pydevd_xml.should_evaluate_full_value(val)
xml.write(pydevd_xml.var_to_xml(val, k, evaluate_full_value=evaluate_full_value, user_type_renderers=dbg.get_user_type_renderers()))
xml.write("")
cmd = dbg.cmd_factory.make_get_variable_message(self.sequence, xml.getvalue())
xml.close()
dbg.writer.add_command(cmd)
except Exception:
cmd = dbg.cmd_factory.make_error_message(
self.sequence, "Error resolving variables %s" % (get_exception_traceback_str(),))
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalGetArray
#=======================================================================================================================
class InternalGetArray(InternalThreadCommand):
def __init__(self, seq, roffset, coffset, rows, cols, format, thread_id, frame_id, scope, attrs):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.scope = scope
self.name = attrs.split("\t")[-1]
self.attrs = attrs
self.roffset = int(roffset)
self.coffset = int(coffset)
self.rows = int(rows)
self.cols = int(cols)
self.format = format
def do_it(self, dbg):
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
var = pydevd_vars.eval_in_context(self.name, frame.f_globals, frame.f_locals)
xml = pydevd_vars.table_like_struct_to_xml(var, self.name, self.roffset, self.coffset, self.rows, self.cols, self.format)
cmd = dbg.cmd_factory.make_get_array_message(self.sequence, xml)
dbg.writer.add_command(cmd)
except:
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error resolving array: " + get_exception_traceback_str())
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalDataViewerAction
#=======================================================================================================================
class InternalDataViewerAction(InternalThreadCommand):
def __init__(self, sequence, thread_id, frame_id, var, action, args):
self.sequence = sequence
self.thread_id = thread_id
self.frame_id = frame_id
self.var = var
self.action = action
self.args = args
def do_it(self, dbg):
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
tmp_var = pydevd_vars.eval_in_context(self.var, frame.f_globals, frame.f_locals)
self.act(tmp_var, self.action, self.args)
cmd = dbg.cmd_factory.make_successful_dataviewer_action_message(
self.sequence,
"Successful execution")
dbg.writer.add_command(cmd)
except Exception as e:
cmd = dbg.cmd_factory.make_error_message(
self.sequence,
type(e).__name__ + "\nError exporting frame: " + get_exception_traceback_str())
dbg.writer.add_command(cmd)
@staticmethod
def act(tmp_var, action, args):
if action == 'EXPORT':
return InternalDataViewerAction.export_action(tmp_var, args)
@staticmethod
def get_type_info(var):
tp = type(var)
tp_name = tp.__name__
tp_qualifier = getattr(tp, "__module__", "")
return tp_qualifier, tp_name
@staticmethod
def export_action(var, args):
# args: (filepath)
filepath = args[0]
extension = filepath.rsplit('.', 1)[1].lower()
tp_qualifier, tp_name = InternalDataViewerAction.get_type_info(var)
if is_pandas_container(tp_qualifier, tp_name, var):
if extension in ('csv', 'tsv'):
delim = ',' if extension == 'csv' else '\t'
var.to_csv(filepath, sep=delim)
else:
raise AttributeError("Format '{}' is not supported".format(extension))
elif is_numpy_container(tp_qualifier, tp_name, var):
try:
import numpy as np
except ImportError:
# Strange. We have an instance of numpy array but we failed to import numpy
raise
if extension in ('csv', 'tsv'):
delim = ',' if extension == 'csv' else '\t'
np.savetxt(filepath, var, fmt="%s", delimiter=delim)
else:
raise AttributeError("Format '{}' is not supported".format(extension))
else:
raise AttributeError("Type {} is not supported".format(type(var)))
#=======================================================================================================================
# InternalDataViewerAction
#=======================================================================================================================
class InternalTableCommand(InternalThreadCommand):
def __init__(self, sequence, thread_id, frame_id, init_command, command_type,
start_index, end_index):
super().__init__(thread_id)
self.sequence = sequence
self.frame_id = frame_id
self.init_command = init_command
self.command_type = command_type
self.start_index = start_index
self.end_index = end_index
def do_it(self, dbg):
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
success, res = self.exec_command(frame)
if success:
cmd = NetCommand(CMD_TABLE_EXEC, self.sequence, res)
dbg.writer.add_command(cmd)
else:
cmd = dbg.cmd_factory.make_error_message(self.sequence, str(res))
dbg.writer.add_command(cmd)
except Exception as e:
cmd = dbg.cmd_factory.make_error_message(self.sequence, get_exception_traceback_str())
dbg.writer.add_command(cmd)
def exec_command(self, frame):
return exec_table_command(self.init_command, self.command_type, self.start_index, self.end_index,
frame.f_globals, frame.f_locals)
#=======================================================================================================================
# InternalChangeVariable
#=======================================================================================================================
class InternalChangeVariable(InternalThreadCommand):
""" changes the value of a variable """
def __init__(self, seq, thread_id, frame_id, scope, attr, expression):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.scope = scope
self.attr = attr
self.expression = expression
def do_it(self, dbg):
""" Converts request into python variable """
try:
result = pydevd_vars.change_attr_expression(self.thread_id, self.frame_id, self.attr, self.expression, dbg)
xml = ""
xml += pydevd_xml.var_to_xml(result, "")
xml += ""
cmd = dbg.cmd_factory.make_variable_changed_message(self.sequence, xml)
dbg.writer.add_command(cmd)
except Exception:
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error changing variable attr:%s expression:%s traceback:%s" % (self.attr, self.expression, get_exception_traceback_str()))
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalGetFrame
#=======================================================================================================================
class InternalGetFrame(InternalThreadCommand):
""" gets the value of a variable """
def __init__(self, seq, thread_id, frame_id, group_type):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.group_type = group_type
def do_it(self, dbg):
""" Converts request into python variable """
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
if frame is not None:
hidden_ns = pydevd_console_integration.get_ipython_hidden_vars()
xml = ""
xml += pydevd_xml.frame_vars_to_xml(frame.f_locals, self.group_type, hidden_ns, dbg.get_user_type_renderers())
del frame
xml += ""
cmd = dbg.cmd_factory.make_get_frame_message(self.sequence, xml)
dbg.writer.add_command(cmd)
else:
#pydevd_vars.dump_frames(self.thread_id)
#don't print this error: frame not found: means that the client is not synchronized (but that's ok)
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Frame not found: %s from thread: %s" % (self.frame_id, self.thread_id))
dbg.writer.add_command(cmd)
except:
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error resolving frame: %s from thread: %s" % (self.frame_id, self.thread_id))
dbg.writer.add_command(cmd)
class InternalGetSmartStepIntoVariants(InternalThreadCommand):
def __init__(self, seq, thread_id, frame_id, start_line, end_line):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.start_line = int(start_line)
self.end_line = int(end_line)
def do_it(self, dbg):
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
variants = pydevd_bytecode_utils.calculate_smart_step_into_variants(frame, self.start_line, self.end_line)
xml = ""
for name, is_visited in variants:
xml += '' % (quote(name), str(is_visited).lower())
xml += ""
cmd = NetCommand(CMD_GET_SMART_STEP_INTO_VARIANTS, self.sequence, xml)
dbg.writer.add_command(cmd)
except:
pydevd_log(1, traceback.format_exc())
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error getting smart step into veriants for frame: %s from thread: %s"
% (self.frame_id, self.thread_id))
self._reset_smart_step_context()
dbg.writer.add_command(cmd)
def _reset_smart_step_context(self):
t = pydevd_find_thread_by_id(self.thread_id)
if t:
try:
t.additional_info.pydev_smart_step_context.reset()
except:
pydevd_log(1, "Error while resetting smart step into context for thread %s" % self.thread_id)
#=======================================================================================================================
# InternalGetNextStatementTargets
#=======================================================================================================================
class InternalGetNextStatementTargets(InternalThreadCommand):
""" gets the valid line numbers for use with set next statement """
def __init__(self, seq, thread_id, frame_id):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
def do_it(self, dbg):
""" Converts request into set of line numbers """
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
if frame is not None:
code = frame.f_code
xml = ""
if hasattr(code, 'co_lnotab'):
lineno = code.co_firstlineno
lnotab = code.co_lnotab
for i in itertools.islice(lnotab, 1, len(lnotab), 2):
if isinstance(i, int):
lineno = lineno + i
else:
# in python 2 elements in co_lnotab are of type str
lineno = lineno + ord(i)
xml += "%d" % (lineno,)
else:
xml += "%d" % (frame.f_lineno,)
del frame
xml += ""
cmd = dbg.cmd_factory.make_get_next_statement_targets_message(self.sequence, xml)
dbg.writer.add_command(cmd)
else:
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Frame not found: %s from thread: %s" % (self.frame_id, self.thread_id))
dbg.writer.add_command(cmd)
except:
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error resolving frame: %s from thread: %s" % (self.frame_id, self.thread_id))
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalEvaluateExpression
#=======================================================================================================================
class InternalEvaluateExpression(InternalThreadCommand):
""" gets the value of a variable """
def __init__(self, seq, thread_id, frame_id, expression, doExec, doTrim, temp_name):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.expression = expression
self.doExec = doExec
self.doTrim = doTrim
self.temp_name = temp_name
def do_it(self, dbg):
""" Converts request into python variable """
try:
result = pydevd_vars.evaluate_expression(self.thread_id, self.frame_id, self.expression, self.doExec)
if self.temp_name != "":
pydevd_vars.change_attr_expression(self.thread_id, self.frame_id, self.temp_name, self.expression, dbg, result)
xml = ""
xml += pydevd_xml.var_to_xml(result, self.expression, self.doTrim, user_type_renderers=dbg.get_user_type_renderers())
xml += ""
cmd = dbg.cmd_factory.make_evaluate_expression_message(self.sequence, xml)
dbg.writer.add_command(cmd)
except:
exc = get_exception_traceback_str()
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error evaluating expression " + exc)
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalGetCompletions
#=======================================================================================================================
class InternalGetCompletions(InternalThreadCommand):
""" Gets the completions in a given scope """
def __init__(self, seq, thread_id, frame_id, act_tok):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.act_tok = act_tok
def do_it(self, dbg):
""" Converts request into completions """
try:
remove_path = None
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
if frame is not None:
msg = _pydev_completer.generate_completions_as_xml(frame, self.act_tok)
cmd = dbg.cmd_factory.make_get_completions_message(self.sequence, msg)
dbg.writer.add_command(cmd)
else:
cmd = dbg.cmd_factory.make_error_message(self.sequence, "InternalGetCompletions: Frame not found: %s from thread: %s" % (self.frame_id, self.thread_id))
dbg.writer.add_command(cmd)
finally:
if remove_path is not None:
sys.path.remove(remove_path)
except:
exc = get_exception_traceback_str()
sys.stderr.write('%s\n' % (exc,))
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error evaluating expression " + exc)
dbg.writer.add_command(cmd)
# =======================================================================================================================
# InternalGetDescription
# =======================================================================================================================
class InternalGetDescription(InternalThreadCommand):
""" Fetch the variable description stub from the debug console
"""
def __init__(self, seq, thread_id, frame_id, expression):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.expression = expression
def do_it(self, dbg):
""" Get completions and write back to the client
"""
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
description = pydevd_console.get_description(frame, self.thread_id, self.frame_id, self.expression)
description = pydevd_xml.make_valid_xml_value(quote(description, '/>_= \t'))
description_xml = '' % description
cmd = dbg.cmd_factory.make_get_description_message(self.sequence, description_xml)
dbg.writer.add_command(cmd)
except:
exc = get_exception_traceback_str()
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error in fetching description" + exc)
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalGetBreakpointException
#=======================================================================================================================
class InternalGetBreakpointException(InternalThreadCommand):
""" Send details of exception raised while evaluating conditional breakpoint """
def __init__(self, thread_id, exc_type, stacktrace):
self.sequence = 0
self.thread_id = thread_id
self.stacktrace = stacktrace
self.exc_type = exc_type
def do_it(self, dbg):
try:
callstack = ""
makeValid = pydevd_xml.make_valid_xml_value
for filename, line, methodname, methodobj in self.stacktrace:
if file_system_encoding.lower() != "utf-8" and hasattr(filename, "decode"):
# filename is a byte string encoded using the file system encoding
# convert it to utf8
filename = filename.decode(file_system_encoding).encode("utf-8")
callstack += '' \
% (self.thread_id, makeValid(filename), line, makeValid(methodname), makeValid(methodobj))
callstack += ""
cmd = dbg.cmd_factory.make_send_breakpoint_exception_message(self.sequence, self.exc_type + "\t" + callstack)
dbg.writer.add_command(cmd)
except:
exc = get_exception_traceback_str()
sys.stderr.write('%s\n' % (exc,))
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error Sending Exception: " + exc)
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalSendCurrExceptionTrace
#=======================================================================================================================
class InternalSendCurrExceptionTrace(InternalThreadCommand):
""" Send details of the exception that was caught and where we've broken in.
"""
def __init__(self, thread_id, arg, curr_frame_id):
'''
:param arg: exception type, description, traceback object
'''
self.sequence = 0
self.thread_id = thread_id
self.curr_frame_id = curr_frame_id
self.arg = arg
def do_it(self, dbg):
try:
cmd = dbg.cmd_factory.make_send_curr_exception_trace_message(self.sequence, self.thread_id, self.curr_frame_id, *self.arg)
del self.arg
dbg.writer.add_command(cmd)
except:
exc = get_exception_traceback_str()
sys.stderr.write('%s\n' % (exc,))
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error Sending Current Exception Trace: " + exc)
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalSendCurrExceptionTraceProceeded
#=======================================================================================================================
class InternalSendCurrExceptionTraceProceeded(InternalThreadCommand):
""" Send details of the exception that was caught and where we've broken in.
"""
def __init__(self, thread_id):
self.sequence = 0
self.thread_id = thread_id
def do_it(self, dbg):
try:
cmd = dbg.cmd_factory.make_send_curr_exception_trace_proceeded_message(self.sequence, self.thread_id)
dbg.writer.add_command(cmd)
except:
exc = get_exception_traceback_str()
sys.stderr.write('%s\n' % (exc,))
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error Sending Current Exception Trace Proceeded: " + exc)
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalEvaluateConsoleExpression
#=======================================================================================================================
class InternalEvaluateConsoleExpression(InternalThreadCommand):
""" Execute the given command in the debug console """
def __init__(self, seq, thread_id, frame_id, line, buffer_output=True):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.line = line
self.buffer_output = buffer_output
def do_it(self, dbg):
""" Create an XML for console output, error and more (true/false)
true/false
"""
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
if frame is not None:
console_message = pydevd_console.execute_console_command(
frame, self.thread_id, self.frame_id, self.line, self.buffer_output)
cmd = dbg.cmd_factory.make_send_console_message(self.sequence, console_message.to_xml())
else:
from _pydevd_bundle.pydevd_console import ConsoleMessage
console_message = ConsoleMessage()
console_message.add_console_message(
pydevd_console.CONSOLE_ERROR,
"Select the valid frame in the debug view (thread: %s, frame: %s invalid)" % (self.thread_id, self.frame_id),
)
cmd = dbg.cmd_factory.make_error_message(self.sequence, console_message.to_xml())
except:
exc = get_exception_traceback_str()
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error evaluating expression " + exc)
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalRunCustomOperation
#=======================================================================================================================
class InternalRunCustomOperation(InternalThreadCommand):
""" Run a custom command on an expression
"""
def __init__(self, seq, thread_id, frame_id, scope, attrs, style, encoded_code_or_file, fnname):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.scope = scope
self.attrs = attrs
self.style = style
self.code_or_file = unquote_plus(encoded_code_or_file)
self.fnname = fnname
def do_it(self, dbg):
try:
res = pydevd_vars.custom_operation(self.thread_id, self.frame_id, self.scope, self.attrs,
self.style, self.code_or_file, self.fnname)
resEncoded = quote_plus(res)
cmd = dbg.cmd_factory.make_custom_operation_message(self.sequence, resEncoded)
dbg.writer.add_command(cmd)
except:
exc = get_exception_traceback_str()
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error in running custom operation" + exc)
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalConsoleGetCompletions
#=======================================================================================================================
class InternalConsoleGetCompletions(InternalThreadCommand):
""" Fetch the completions in the debug console
"""
def __init__(self, seq, thread_id, frame_id, act_tok):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.act_tok = act_tok
def do_it(self, dbg):
""" Get completions and write back to the client
"""
try:
frame = pydevd_vars.find_frame(self.thread_id, self.frame_id)
completions_xml = pydevd_console.get_completions(frame, self.act_tok)
cmd = dbg.cmd_factory.make_send_console_message(self.sequence, completions_xml)
dbg.writer.add_command(cmd)
except:
exc = get_exception_traceback_str()
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error in fetching completions" + exc)
dbg.writer.add_command(cmd)
#=======================================================================================================================
# InternalConsoleExec
#=======================================================================================================================
class InternalConsoleExec(InternalThreadCommand):
""" gets the value of a variable """
def __init__(self, seq, thread_id, frame_id, expression):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.expression = expression
def do_it(self, dbg):
""" Converts request into python variable """
out_hook = ConsoleOutputHook(dbg, sys.stdout, is_stderr=False)
err_hook = ConsoleOutputHook(dbg, sys.stderr, is_stderr=True)
sys.stdout = out_hook
sys.stderr = err_hook
try:
try:
#don't trace new threads created by console command
disable_trace_thread_modules()
result, exception_occurred = pydevd_console_integration.console_exec(self.thread_id, self.frame_id, self.expression, dbg)
xml = ""
xml += pydevd_xml.var_to_xml(result, "")
xml += pydevd_xml.var_to_xml(exception_occurred, "exception_occurred")
xml += ""
cmd = dbg.cmd_factory.make_evaluate_expression_message(self.sequence, xml)
dbg.writer.add_command(cmd)
except:
exc = get_exception_traceback_str()
sys.stderr.write('%s\n' % (exc,))
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error evaluating console expression " + exc)
dbg.writer.add_command(cmd)
finally:
enable_trace_thread_modules()
sys.stdout = out_hook.original_out
sys.stderr = err_hook.original_out
sys.stderr.flush()
sys.stdout.flush()
#=======================================================================================================================
# InternalLoadFullValue
#=======================================================================================================================
class InternalLoadFullValue(InternalThreadCommand):
"""
Loads values asynchronously
"""
def __init__(self, seq, thread_id, frame_id, vars):
self.sequence = seq
self.thread_id = thread_id
self.frame_id = frame_id
self.vars = vars
def do_it(self, dbg):
"""Starts a thread that will load values asynchronously"""
try:
var_objects = []
for variable in self.vars:
variable = variable.strip()
if len(variable) > 0:
if '\t' in variable: # there are attributes beyond scope
scope, attrs = variable.split('\t', 1)
name = attrs[0]
else:
scope, attrs = (variable, None)
name = scope
var_obj = pydevd_vars.getVariable(self.thread_id, self.frame_id, scope, attrs)
var_objects.append((var_obj, name))
t = GetValueAsyncThreadDebug(dbg, self.sequence, var_objects, dbg.get_user_type_renderers())
t.start()
except:
exc = get_exception_traceback_str()
sys.stderr.write('%s\n' % (exc,))
cmd = dbg.cmd_factory.make_error_message(self.sequence, "Error evaluating variable %s " % exc)
dbg.writer.add_command(cmd)
class AbstractGetValueAsyncThread(PyDBDaemonThread):
"""
Abstract class for a thread, which evaluates values for async variables
"""
def __init__(self, frame_accessor, seq, var_objects, user_type_renderers=None):
PyDBDaemonThread.__init__(self)
self.frame_accessor = frame_accessor
self.seq = seq
self.var_objs = var_objects
self.cancel_event = threading.Event()
self.user_type_renderers = user_type_renderers
def send_result(self, xml):
raise NotImplementedError()
@overrides(PyDBDaemonThread._on_run)
def _on_run(self):
start = time.time()
xml = StringIO.StringIO()
xml.write("")
for (var_obj, name) in self.var_objs:
current_time = time.time()
if current_time - start > ASYNC_EVAL_TIMEOUT_SEC or self.cancel_event.is_set():
break
xml.write(pydevd_xml.var_to_xml(var_obj, name, evaluate_full_value=True, user_type_renderers=self.user_type_renderers))
xml.write("")
self.send_result(xml)
xml.close()
class GetValueAsyncThreadDebug(AbstractGetValueAsyncThread):
"""
A thread for evaluation async values, which returns result for debugger
Create message and send it via writer thread
"""
def send_result(self, xml):
if self.frame_accessor is not None:
cmd = self.frame_accessor.cmd_factory.make_load_full_value_message(self.seq, xml.getvalue())
self.frame_accessor.writer.add_command(cmd)
class GetValueAsyncThreadConsole(AbstractGetValueAsyncThread):
"""
A thread for evaluation async values, which returns result for Console
Send result directly to Console's server
"""
def send_result(self, xml):
if self.frame_accessor is not None:
self.frame_accessor.ReturnFullValue(self.seq, xml.getvalue())
#=======================================================================================================================
# pydevd_find_thread_by_id
#=======================================================================================================================
def pydevd_find_thread_by_id(thread_id):
try:
# there was a deadlock here when I did not remove the tracing function when thread was dead
threads = threading.enumerate()
for i in threads:
tid = get_thread_id(i)
if thread_id == tid or thread_id.endswith('|' + tid):
return i
# This can happen when a request comes for a thread which was previously removed.
pydevd_log(1, "Could not find thread %s\n" % thread_id)
pydevd_log(1, "Available: %s\n" % [get_thread_id(t) for t in threads])
except:
traceback.print_exc()
return None