service_manager.py

from __future__ import annotations

import os
import io
import sys
from enum import Enum
import threading
import signal
import logging
import time
from subprocess import PIPE, Popen, TimeoutExpired
from typing import BinaryIO, Generator, IO, List, NewType, Optional
import typing

try:
    import psutil
except:
    print("Psutil module needed, please install: sudo pip3 install psutil")
    sys.exit(-1)
from queue import Queue, Empty

from .shared.config import Config
from .shared.db import DbTarget, DbConn
from .shared.misc import Logging, Helper, CrashGenError, Status, Progress, Dice
from .shared.types import DirPath, IpcStream

# from crash_gen.misc import CrashGenError, Dice, Helper, Logging, Progress, Status
# from crash_gen.db import DbConn, DbTarget
# from crash_gen.settings import Config
# from crash_gen.types import DirPath

class TdeInstance():
    """
    A class to capture the *static* information of a TDengine instance,
    including the location of the various files/directories, and basica
    configuration.
    """

    @classmethod
    def _getBuildPath(cls):
        selfPath = os.path.dirname(os.path.realpath(__file__))
        if ("community" in selfPath):
            projPath = selfPath[:selfPath.find("communit")]
        else:
            projPath = selfPath[:selfPath.find("tests")]

        buildPath = None
        for root, dirs, files in os.walk(projPath):
            if ("taosd" in files):
                rootRealPath = os.path.dirname(os.path.realpath(root))
                if ("packaging" not in rootRealPath):
                    buildPath = root[:len(root) - len("/build/bin")]
                    break
        if buildPath == None:
            raise RuntimeError("Failed to determine buildPath, selfPath={}, projPath={}"
                .format(selfPath, projPath))
        return buildPath

    @classmethod
    def prepareGcovEnv(cls, env):
        # Ref: https://gcc.gnu.org/onlinedocs/gcc/Cross-profiling.html
        bPath = cls._getBuildPath() # build PATH
        numSegments = len(bPath.split('/')) # "/x/TDengine/build" should yield 3
        # numSegments += 2 # cover "/src" after build
        # numSegments = numSegments - 1 # DEBUG only
        env['GCOV_PREFIX'] = bPath + '/src_s' # Server side source
        env['GCOV_PREFIX_STRIP'] = str(numSegments) # Strip every element, plus, ENV needs strings
        # VERY VERY important note: GCOV data collection NOT effective upon SIG_KILL
        Logging.info("Preparing GCOV environement to strip {} elements and use path: {}".format(
            numSegments, env['GCOV_PREFIX'] ))

    def __init__(self, subdir='test', tInstNum=0, port=6030, fepPort=6030):
        self._buildDir  = self._getBuildPath()
        self._subdir    = '/' + subdir # TODO: tolerate "/"
        self._port      = port # TODO: support different IP address too
        self._fepPort   = fepPort

        self._tInstNum    = tInstNum

        # An "Tde Instance" will *contain* a "sub process" object, with will/may use a thread internally
        # self._smThread    = ServiceManagerThread()
        self._subProcess  = None # type: Optional[TdeSubProcess]

    def getDbTarget(self):
        return DbTarget(self.getCfgDir(), self.getHostAddr(), self._port)

    def getPort(self):
        return self._port

    def __repr__(self):
        return "[TdeInstance: {}, subdir={}]".format(
            self._buildDir, Helper.getFriendlyPath(self._subdir))
    
    def generateCfgFile(self):       
        # print("Logger = {}".format(logger))
        # buildPath = self.getBuildPath()
        # taosdPath = self._buildPath + "/build/bin/taosd"

        cfgDir  = self.getCfgDir()
        cfgFile = cfgDir + "/taos.cfg" # TODO: inquire if this is fixed
        if os.path.exists(cfgFile):
            if os.path.isfile(cfgFile):
                Logging.warning("Config file exists already, skip creation: {}".format(cfgFile))
                return # cfg file already exists, nothing to do
            else:
                raise CrashGenError("Invalid config file: {}".format(cfgFile))
        # Now that the cfg file doesn't exist
        if os.path.exists(cfgDir):
            if not os.path.isdir(cfgDir):
                raise CrashGenError("Invalid config dir: {}".format(cfgDir))
            # else: good path
        else: 
            os.makedirs(cfgDir, exist_ok=True) # like "mkdir -p"
        # Now we have a good cfg dir
        cfgValues = {
            'runDir':   self.getRunDir(),
            'ip':       '127.0.0.1', # TODO: change to a network addressable ip
            'port':     self._port,
            'fepPort':  self._fepPort,
        }
        cfgTemplate = """
dataDir {runDir}/data
logDir  {runDir}/log

charset UTF-8

firstEp {ip}:{fepPort}
fqdn {ip}
serverPort {port}

# was all 135 below
dDebugFlag 135
cDebugFlag 135
rpcDebugFlag 135
qDebugFlag 135
# httpDebugFlag 143
# asyncLog 0
# tables 10
maxtablesPerVnode 10
rpcMaxTime 101
# cache 2
keep 36500
# walLevel 2
walLevel 1
#
# maxConnections 100
quorum 2
"""
        cfgContent = cfgTemplate.format_map(cfgValues)
        f = open(cfgFile, "w")
        f.write(cfgContent)
        f.close()

    def rotateLogs(self):
        logPath = self.getLogDir()
        # ref: https://stackoverflow.com/questions/1995373/deleting-all-files-in-a-directory-with-python/1995397
        if os.path.exists(logPath):
            logPathSaved = logPath + "_" + time.strftime('%Y-%m-%d-%H-%M-%S')
            Logging.info("Saving old log files to: {}".format(logPathSaved))
            os.rename(logPath, logPathSaved)
        # os.mkdir(logPath) # recreate, no need actually, TDengine will auto-create with proper perms


    def getExecFile(self): # .../taosd
        return self._buildDir + "/build/bin/taosd"

    def getRunDir(self) -> DirPath : # TODO: rename to "root dir" ?!
        return DirPath(self._buildDir + self._subdir)

    def getCfgDir(self) -> DirPath : # path, not file
        return DirPath(self.getRunDir() + "/cfg")

    def getLogDir(self) -> DirPath :
        return DirPath(self.getRunDir() + "/log")

    def getHostAddr(self):
        return "127.0.0.1"

    def getServiceCmdLine(self): # to start the instance
        if Config.getConfig().track_memory_leaks:
            Logging.info("Invoking VALGRIND on service...")
            return ['exec valgrind', '--leak-check=yes', self.getExecFile(), '-c', self.getCfgDir()]
        else:
            # TODO: move "exec -c" into Popen(), we can both "use shell" and NOT fork so ask to lose kill control
            return ["exec " + self.getExecFile(), '-c', self.getCfgDir()] # used in subproce.Popen()
    
    def _getDnodes(self, dbc):
        dbc.query("show dnodes")
        cols = dbc.getQueryResult() #  id,end_point,vnodes,cores,status,role,create_time,offline reason
        return {c[1]:c[4] for c in cols} # {'xxx:6030':'ready', 'xxx:6130':'ready'}

    def createDnode(self, dbt: DbTarget):
        """
        With a connection to the "first" EP, let's create a dnode for someone else who
        wants to join.
        """
        dbc = DbConn.createNative(self.getDbTarget())
        dbc.open()

        if dbt.getEp() in self._getDnodes(dbc):
            Logging.info("Skipping DNode creation for: {}".format(dbt))
            dbc.close()
            return

        sql = "CREATE DNODE \"{}\"".format(dbt.getEp())
        dbc.execute(sql)
        dbc.close()

    def getStatus(self):
        # return self._smThread.getStatus()
        if self._subProcess is None:
            return Status(Status.STATUS_EMPTY)
        return self._subProcess.getStatus()

    # def getSmThread(self):
    #     return self._smThread

    def start(self):
        if self.getStatus().isActive():
            raise CrashGenError("Cannot start instance from status: {}".format(self.getStatus()))

        Logging.info("Starting TDengine instance: {}".format(self))
        self.generateCfgFile() # service side generates config file, client does not
        self.rotateLogs()

        # self._smThread.start(self.getServiceCmdLine(), self.getLogDir()) # May raise exceptions
        self._subProcess = TdeSubProcess(self.getServiceCmdLine(),  self.getLogDir())

    def stop(self):
        self._subProcess.stop()
        self._subProcess = None

    def isFirst(self):
        return self._tInstNum == 0

    def printFirst10Lines(self):
        if self._subProcess is None:
            Logging.warning("Incorrect TI status for procIpcBatch-10 operation")
            return
        self._subProcess.procIpcBatch(trimToTarget=10, forceOutput=True)  

    def procIpcBatch(self):
        if self._subProcess is None:
            Logging.warning("Incorrect TI status for procIpcBatch operation")
            return
        self._subProcess.procIpcBatch() # may enounter EOF and change status to STOPPED
        if self._subProcess.getStatus().isStopped():
            self._subProcess.stop()
            self._subProcess = None

class TdeSubProcess:
    """
    A class to to represent the actual sub process that is the run-time
    of a TDengine instance. 

    It takes a TdeInstance object as its parameter, with the rationale being
    "a sub process runs an instance".

    We aim to ensure that this object has exactly the same life-cycle as the 
    underlying sub process.
    """

    # RET_ALREADY_STOPPED = -1
    # RET_TIME_OUT = -3
    # RET_SUCCESS = -4

    def __init__(self, cmdLine: List[str], logDir: DirPath):
        # Create the process + managing thread immediately

        Logging.info("Attempting to start TAOS sub process...")
        self._popen     = self._start(cmdLine) # the actual sub process
        self._smThread  = ServiceManagerThread(self, logDir)  # A thread to manage the sub process, mostly to process the IO
        Logging.info("Successfully started TAOS process: {}".format(self))



    def __repr__(self):
        # if self.subProcess is None:
        #     return '[TdeSubProc: Empty]'
        return '[TdeSubProc: pid = {}, status = {}]'.format(
            self.getPid(), self.getStatus() )

    def getIpcStdOut(self) -> IpcStream :
        if self._popen.universal_newlines : # alias of text_mode
            raise CrashGenError("We need binary mode for STDOUT IPC")
        # Logging.info("Type of stdout is: {}".format(type(self._popen.stdout)))
        return typing.cast(IpcStream, self._popen.stdout)

    def getIpcStdErr(self) -> IpcStream :
        if self._popen.universal_newlines : # alias of text_mode
            raise CrashGenError("We need binary mode for STDERR IPC")
        return typing.cast(IpcStream, self._popen.stderr)

    # Now it's always running, since we matched the life cycle
    # def isRunning(self):
    #     return self.subProcess is not None

    def getPid(self):
        return self._popen.pid

    def _start(self, cmdLine) -> Popen :
        ON_POSIX = 'posix' in sys.builtin_module_names
        
        # Prepare environment variables for coverage information
        # Ref: https://stackoverflow.com/questions/2231227/python-subprocess-popen-with-a-modified-environment
        myEnv = os.environ.copy()
        TdeInstance.prepareGcovEnv(myEnv)

        # print(myEnv)
        # print("Starting TDengine with env: ", myEnv.items())
        print("Starting TDengine: {}".format(cmdLine))

        ret = Popen(            
            ' '.join(cmdLine), # ' '.join(cmdLine) if useShell else cmdLine,
            shell=True, # Always use shell, since we need to pass ENV vars
            stdout=PIPE,
            stderr=PIPE,
            close_fds=ON_POSIX,
            env=myEnv
            )  # had text=True, which interferred with reading EOF
        time.sleep(0.01) # very brief wait, then let's check if sub process started successfully.
        if ret.poll():
            raise CrashGenError("Sub process failed to start with command line: {}".format(cmdLine))
        return ret

    STOP_SIGNAL = signal.SIGINT # signal.SIGKILL/SIGINT # What signal to use (in kill) to stop a taosd process?
    SIG_KILL_RETCODE = 137 # ref: https://stackoverflow.com/questions/43268156/process-finished-with-exit-code-137-in-pycharm

    def stop(self):
        """
        Stop a sub process, DO NOT return anything, process all conditions INSIDE.

        Calling function should immediately delete/unreference the object

        Common POSIX signal values (from man -7 signal):
        SIGHUP           1
        SIGINT           2 
        SIGQUIT          3 
        SIGILL           4
        SIGTRAP          5
        SIGABRT          6 
        SIGIOT           6 
        SIGBUS           7 
        SIGEMT           - 
        SIGFPE           8  
        SIGKILL          9  
        SIGUSR1         10 
        SIGSEGV         11
        SIGUSR2         12
        """
        # self._popen should always be valid.

        Logging.info("Terminating TDengine service running as the sub process...")
        if self.getStatus().isStopped():
            Logging.info("Service already stopped")
            return
        if self.getStatus().isStopping():
            Logging.info("Service is already being stopped, pid: {}".format(self.getPid()))
            return

        self.setStatus(Status.STATUS_STOPPING)

        retCode = self._popen.poll() # ret -N means killed with signal N, otherwise it's from exit(N)
        if retCode:  # valid return code, process ended
            # retCode = -retCode # only if valid
            Logging.warning("TSP.stop(): process ended itself")
            # self.subProcess = None
            return

        # process still alive, let's interrupt it
        self._stopForSure(self._popen, self.STOP_SIGNAL) # success if no exception

        # sub process should end, then IPC queue should end, causing IO thread to end  
        self._smThread.stop() # stop for sure too

        self.setStatus(Status.STATUS_STOPPED)

    @classmethod
    def _stopForSure(cls, proc: Popen, sig: int):
        ''' 
        Stop a process and all sub processes with a signal, and SIGKILL if necessary
        '''
        def doKillTdService(proc: Popen, sig: int):
            Logging.info("Killing sub-sub process {} with signal {}".format(proc.pid, sig))
            proc.send_signal(sig)
            try:            
                retCode = proc.wait(20)
                if (- retCode) == signal.SIGSEGV: # Crashed
                    Logging.warning("Process {} CRASHED, please check CORE file!".format(proc.pid))
                elif (- retCode) == sig : 
                    Logging.info("TD service terminated with expected return code {}".format(sig))
                else:
                    Logging.warning("TD service terminated, EXPECTING ret code {}, got {}".format(sig, -retCode))
                return True # terminated successfully
            except TimeoutExpired as err:
                Logging.warning("Failed to kill sub-sub process {} with signal {}".format(proc.pid, sig))
            return False # failed to terminate


        def doKillChild(child: psutil.Process, sig: int):
            Logging.info("Killing sub-sub process {} with signal {}".format(child.pid, sig))
            child.send_signal(sig)
            try:            
                retCode = child.wait(20) # type: ignore
                if (- retCode) == signal.SIGSEGV: # type: ignore # Crashed
                    Logging.warning("Process {} CRASHED, please check CORE file!".format(child.pid))
                elif (- retCode) == sig : # type: ignore
                    Logging.info("Sub-sub process terminated with expected return code {}".format(sig))
                else:
                    Logging.warning("Process terminated, EXPECTING ret code {}, got {}".format(sig, -retCode)) # type: ignore
                return True # terminated successfully
            except psutil.TimeoutExpired as err:
                Logging.warning("Failed to kill sub-sub process {} with signal {}".format(child.pid, sig))
            return False # did not terminate

        def doKill(proc: Popen, sig: int):
            pid = proc.pid
            try:
                topSubProc = psutil.Process(pid) # Now that we are doing "exec -c", should not have children any more
                for child in topSubProc.children(recursive=True):  # or parent.children() for recursive=False
                    Logging.warning("Unexpected child to be killed")
                    doKillChild(child, sig)
            except psutil.NoSuchProcess as err:
                Logging.info("Process not found, can't kill, pid = {}".format(pid))
            
            return doKillTdService(proc, sig)
            # TODO: re-examine if we need to kill the top process, which is always the SHELL for now
            # try:
            #     proc.wait(1) # SHELL process here, may throw subprocess.TimeoutExpired exception
            #     # expRetCode = self.SIG_KILL_RETCODE if sig==signal.SIGKILL else (-sig)
            #     # if retCode == expRetCode:
            #     #     Logging.info("Process terminated with expected return code {}".format(retCode))
            #     # else:
            #     #     Logging.warning("Process terminated, EXPECTING ret code {}, got {}".format(expRetCode, retCode))
            #     # return True # success
            # except subprocess.TimeoutExpired as err:
            #     Logging.warning("Failed to kill process {} with signal {}".format(pid, sig))
            # return False # failed to kill

        def softKill(proc, sig):
            return doKill(proc, sig)

        def hardKill(proc):
            return doKill(proc, signal.SIGKILL) 

        pid = proc.pid
        Logging.info("Terminate running processes under {}, with SIG #{} and wait...".format(pid, sig))
        if softKill(proc, sig):            
            return # success
        if sig != signal.SIGKILL: # really was soft above            
            if hardKill(proc):
                return 
        raise CrashGenError("Failed to stop process, pid={}".format(pid))

    def getStatus(self):
        return self._smThread.getStatus()

    def setStatus(self, status):
        self._smThread.setStatus(status)

    def procIpcBatch(self, trimToTarget=0, forceOutput=False):
        self._smThread.procIpcBatch(trimToTarget, forceOutput)

class ServiceManager:
    PAUSE_BETWEEN_IPC_CHECK = 1.2  # seconds between checks on STDOUT of sub process

    def __init__(self, numDnodes): # >1 when we run a cluster
        Logging.info("TDengine Service Manager (TSM) created")
        self._numDnodes = numDnodes # >1 means we have a cluster
        self._lock = threading.Lock()
        # signal.signal(signal.SIGTERM, self.sigIntHandler) # Moved to MainExec
        # signal.signal(signal.SIGINT, self.sigIntHandler)
        # signal.signal(signal.SIGUSR1, self.sigUsrHandler)  # different handler!

        self.inSigHandler = False
        # self._status = MainExec.STATUS_RUNNING # set inside
        # _startTaosService()
        self._runCluster = (numDnodes > 1)
        self._tInsts : List[TdeInstance] = []
        for i in range(0, numDnodes):
            ti = self._createTdeInstance(i) # construct tInst
            self._tInsts.append(ti)

        # self.svcMgrThreads : List[ServiceManagerThread] = []
        # for i in range(0, numDnodes):
        #     thread = self._createThread(i) # construct tInst
        #     self.svcMgrThreads.append(thread)

    def _createTdeInstance(self, dnIndex):
        if not self._runCluster: # single instance 
            subdir = 'test'
        else:        # Create all threads in a cluster
            subdir = 'cluster_dnode_{}'.format(dnIndex)
        fepPort= 6030 # firstEP Port
        port   = fepPort + dnIndex * 100
        return TdeInstance(subdir, dnIndex, port, fepPort)
        # return ServiceManagerThread(dnIndex, ti)

    def _doMenu(self):
        choice = ""
        while True:
            print("\nInterrupting Service Program, Choose an Action: ")
            print("1: Resume")
            print("2: Terminate")
            print("3: Restart")
            # Remember to update the if range below
            # print("Enter Choice: ", end="", flush=True)
            while choice == "":
                choice = input("Enter Choice: ")
                if choice != "":
                    break  # done with reading repeated input
            if choice in ["1", "2", "3"]:
                break  # we are done with whole method
            print("Invalid choice, please try again.")
            choice = ""  # reset
        return choice

    def sigUsrHandler(self, signalNumber, frame):
        print("Interrupting main thread execution upon SIGUSR1")
        if self.inSigHandler:  # already
            print("Ignoring repeated SIG...")
            return  # do nothing if it's already not running
        self.inSigHandler = True

        choice = self._doMenu()
        if choice == "1":            
            self.sigHandlerResume() # TODO: can the sub-process be blocked due to us not reading from queue?
        elif choice == "2":
            self.stopTaosServices()
        elif choice == "3": # Restart
            self.restart()
        else:
            raise RuntimeError("Invalid menu choice: {}".format(choice))

        self.inSigHandler = False

    def sigIntHandler(self, signalNumber, frame):
        print("ServiceManager: INT Signal Handler starting...")
        if self.inSigHandler:
            print("Ignoring repeated SIG_INT...")
            return
        self.inSigHandler = True

        self.stopTaosServices()
        print("ServiceManager: INT Signal Handler returning...")
        self.inSigHandler = False

    def sigHandlerResume(self):
        print("Resuming TDengine service manager (main thread)...\n\n")

    # def _updateThreadStatus(self):
    #     if self.svcMgrThread:  # valid svc mgr thread
    #         if self.svcMgrThread.isStopped():  # done?
    #             self.svcMgrThread.procIpcBatch()  # one last time. TODO: appropriate?
    #             self.svcMgrThread = None  # no more

    def isActive(self):
        """
        Determine if the service/cluster is active at all, i.e. at least
        one instance is active
        """
        for ti in self._tInsts:
            if ti.getStatus().isActive():
                return True
        return False

    def isRunning(self):
        for ti in self._tInsts:
            if not ti.getStatus().isRunning():
                return False
        return True


    # def isRestarting(self):
    #     """
    #     Determine if the service/cluster is being "restarted", i.e., at least
    #     one thread is in "restarting" status
    #     """
    #     for thread in self.svcMgrThreads:
    #         if thread.isRestarting():
    #             return True
    #     return False

    def isStable(self):
        """
        Determine if the service/cluster is "stable", i.e. all of the
        threads are in "stable" status.
        """
        for ti in self._tInsts:
            if not ti.getStatus().isStable():
                return False
        return True

    def _procIpcAll(self):
        while self.isActive():
            Progress.emit(Progress.SERVICE_HEART_BEAT)
            for ti in self._tInsts: # all thread objects should always be valid
            # while self.isRunning() or self.isRestarting() :  # for as long as the svc mgr thread is still here
                status = ti.getStatus()
                if  status.isRunning():
                    # th = ti.getSmThread()
                    ti.procIpcBatch()  # regular processing,
                    if  status.isStopped():
                        ti.procIpcBatch() # one last time?
                    # self._updateThreadStatus()
                    
            time.sleep(self.PAUSE_BETWEEN_IPC_CHECK)  # pause, before next round
        # raise CrashGenError("dummy")
        Logging.info("Service Manager Thread (with subprocess) ended, main thread exiting...")

    def _getFirstInstance(self):
        return self._tInsts[0]

    def startTaosServices(self):
        with self._lock:
            if self.isActive():
                raise RuntimeError("Cannot start TAOS service(s) when one/some may already be running")

            # Find if there's already a taosd service, and then kill it
            for proc in psutil.process_iter():
                if proc.name() == 'taosd' or proc.name() == 'memcheck-amd64-': # Regular or under Valgrind
                    Logging.info("Killing an existing TAOSD process in 2 seconds... press CTRL-C to interrupt")
                    time.sleep(2.0)
                    proc.kill()
                # print("Process: {}".format(proc.name()))
            
            # self.svcMgrThread = ServiceManagerThread()  # create the object
            
            for ti in self._tInsts:
                ti.start()  
                if not ti.isFirst():                                    
                    tFirst = self._getFirstInstance()
                    tFirst.createDnode(ti.getDbTarget())
                ti.printFirst10Lines()
                # ti.getSmThread().procIpcBatch(trimToTarget=10, forceOutput=True)  # for printing 10 lines                                     

    def stopTaosServices(self):
        with self._lock:
            if not self.isActive():
                Logging.warning("Cannot stop TAOS service(s), already not active")
                return

            for ti in self._tInsts:
                ti.stop()
                
    def run(self):
        self.startTaosServices()
        self._procIpcAll()  # pump/process all the messages, may encounter SIG + restart
        if  self.isActive():  # if sig handler hasn't destroyed it by now
            self.stopTaosServices()  # should have started already

    def restart(self):
        if not self.isStable():
            Logging.warning("Cannot restart service/cluster, when not stable")
            return

        # self._isRestarting = True
        if  self.isActive():
            self.stopTaosServices()
        else:
            Logging.warning("Service not active when restart requested")

        self.startTaosServices()
        # self._isRestarting = False

    # def isRunning(self):
    #     return self.svcMgrThread != None

    # def isRestarting(self):
    #     return self._isRestarting

class ServiceManagerThread:
    """
    A class representing a dedicated thread which manages the "sub process"
    of the TDengine service, interacting with its STDOUT/ERR.

    It takes a TdeInstance parameter at creation time, or create a default    
    """
    MAX_QUEUE_SIZE = 10000

    def __init__(self, subProc: TdeSubProcess, logDir: str):
        # Set the sub process
        # self._tdeSubProcess = None # type: TdeSubProcess

        # Arrange the TDengine instance
        # self._tInstNum = tInstNum # instance serial number in cluster, ZERO based
        # self._tInst    = tInst or TdeInstance() # Need an instance

        # self._thread  = None # type: Optional[threading.Thread]  # The actual thread, # type: threading.Thread
        # self._thread2 = None # type: Optional[threading.Thread] Thread  # watching stderr
        self._status = Status(Status.STATUS_STOPPED) # The status of the underlying service, actually.

        self._start(subProc, logDir)

    def __repr__(self):
        raise CrashGenError("SMT status moved to TdeSubProcess")
        # return "[SvcMgrThread: status={}, subProc={}]".format(
        #     self.getStatus(), self._tdeSubProcess)

    def getStatus(self):
        '''
        Get the status of the process being managed. (misnomer alert!)
        '''
        return self._status

    def setStatus(self, statusVal: int):
        self._status.set(statusVal)

    # Start the thread (with sub process), and wait for the sub service
    # to become fully operational
    def _start(self, subProc :TdeSubProcess, logDir: str):
        '''
        Request the manager thread to start a new sub process, and manage it.

        :param cmdLine: the command line to invoke
        :param logDir: the logging directory, to hold stdout/stderr files
        '''
        # if self._thread:
        #     raise RuntimeError("Unexpected _thread")
        # if self._tdeSubProcess:
        #     raise RuntimeError("TDengine sub process already created/running")

        # Moved to TdeSubProcess
        # Logging.info("Attempting to start TAOS service: {}".format(self))

        self._status.set(Status.STATUS_STARTING)
        # self._tdeSubProcess = TdeSubProcess.start(cmdLine) # TODO: verify process is running

        self._ipcQueue = Queue() # type: Queue
        self._thread = threading.Thread( # First thread captures server OUTPUT
            target=self.svcOutputReader,
            args=(subProc.getIpcStdOut(), self._ipcQueue, logDir))
        self._thread.daemon = True  # thread dies with the program
        self._thread.start()
        time.sleep(0.01)
        if not self._thread.is_alive(): # What happened?
            Logging.info("Failed to start process to monitor STDOUT")
            self.stop()
            raise CrashGenError("Failed to start thread to monitor STDOUT")
        Logging.info("Successfully started process to monitor STDOUT")

        self._thread2 = threading.Thread( # 2nd thread captures server ERRORs
            target=self.svcErrorReader,
            args=(subProc.getIpcStdErr(), self._ipcQueue, logDir))
        self._thread2.daemon = True  # thread dies with the program
        self._thread2.start()
        time.sleep(0.01)
        if not self._thread2.is_alive():
            self.stop()
            raise CrashGenError("Failed to start thread to monitor STDERR")

        # wait for service to start
        for i in range(0, 100):
            time.sleep(1.0)
            # self.procIpcBatch() # don't pump message during start up
            Progress.emit(Progress.SERVICE_START_NAP)
            # print("_zz_", end="", flush=True)
            if self._status.isRunning():
                Logging.info("[] TDengine service READY to process requests: pid={}".format(subProc.getPid()))
                # Logging.info("[] TAOS service started: {}".format(self))
                # self._verifyDnode(self._tInst) # query and ensure dnode is ready
                # Logging.debug("[] TAOS Dnode verified: {}".format(self))
                return  # now we've started
        # TODO: handle failure-to-start  better?
        self.procIpcBatch(100, True) # display output before cronking out, trim to last 20 msgs, force output
        raise RuntimeError("TDengine service DID NOT achieve READY status: pid={}".format(subProc.getPid()))

    def _verifyDnode(self, tInst: TdeInstance):
        dbc = DbConn.createNative(tInst.getDbTarget())
        dbc.open()
        dbc.query("show dnodes")
        # dbc.query("DESCRIBE {}.{}".format(dbName, self._stName))
        cols = dbc.getQueryResult() #  id,end_point,vnodes,cores,status,role,create_time,offline reason
        # ret = {row[0]:row[1] for row in stCols if row[3]=='TAG'} # name:type
        isValid = False
        for col in cols:
            # print("col = {}".format(col))
            ep = col[1].split(':') # 10.1.30.2:6030
            print("Found ep={}".format(ep))
            if tInst.getPort() == int(ep[1]): # That's us
                # print("Valid Dnode matched!")
                isValid = True # now we are valid
                break
        if not isValid:
            print("Failed to start dnode, sleep for a while")
            time.sleep(10.0)
            raise RuntimeError("Failed to start Dnode, expected port not found: {}".
                format(tInst.getPort()))
        dbc.close()

    def stop(self):
        # can be called from both main thread or signal handler

        # Linux will send Control-C generated SIGINT to the TDengine process already, ref:
        # https://unix.stackexchange.com/questions/176235/fork-and-how-signals-are-delivered-to-processes

        self.join()  # stop the thread, status change moved to TdeSubProcess

        # Check if it's really stopped
        outputLines = 10 # for last output
        if  self.getStatus().isStopped():
            self.procIpcBatch(outputLines)  # one last time
            Logging.debug("End of TDengine Service Output")
            Logging.info("----- TDengine Service (managed by SMT) is now terminated -----\n")
        else:
            print("WARNING: SMT did not terminate as expected")

    def join(self):
        # TODO: sanity check
        s = self.getStatus()
        if s.isStopping() or s.isStopped(): # we may be stopping ourselves, or have been stopped/killed by others
            if self._thread or self._thread2 :
                if self._thread:
                    self._thread.join()
                    self._thread = None
                if self._thread2: # STD ERR thread            
                    self._thread2.join()
                    self._thread2 = None
            else:
                Logging.warning("Joining empty thread, doing nothing")
        else:
            raise RuntimeError(
                "SMT.Join(): Unexpected status: {}".format(self._status))

    def _trimQueue(self, targetSize):
        if targetSize <= 0:
            return  # do nothing
        q = self._ipcQueue
        if (q.qsize() <= targetSize):  # no need to trim
            return

        Logging.debug("Triming IPC queue to target size: {}".format(targetSize))
        itemsToTrim = q.qsize() - targetSize
        for i in range(0, itemsToTrim):
            try:
                q.get_nowait()
            except Empty:
                break  # break out of for loop, no more trimming

    TD_READY_MSG = "TDengine is initialized successfully"

    def procIpcBatch(self, trimToTarget=0, forceOutput=False):
        '''
        Process a batch of STDOUT/STDERR data, until we read EMPTY from
        the queue.
        '''
        self._trimQueue(trimToTarget)  # trim if necessary
        # Process all the output generated by the underlying sub process,
        # managed by IO thread
        print("<", end="", flush=True)
        while True:
            try:
                line = self._ipcQueue.get_nowait()  # getting output at fast speed
                self._printProgress("_o")
            except Empty:
                # time.sleep(2.3) # wait only if there's no output
                # no more output
                print(".>", end="", flush=True)
                return  # we are done with THIS BATCH
            else:  # got line, printing out
                if forceOutput:
                    Logging.info('[TAOSD] ' + line)
                else:
                    Logging.debug('[TAOSD] ' + line)
        print(">", end="", flush=True)

    _ProgressBars = ["--", "//", "||", "\\\\"]

    def _printProgress(self, msg):  # TODO: assuming 2 chars
        print(msg, end="", flush=True)
        pBar = self._ProgressBars[Dice.throw(4)]
        print(pBar, end="", flush=True)
        print('\b\b\b\b', end="", flush=True)

    BinaryChunk = NewType('BinaryChunk', bytes) # line with binary data, directly from STDOUT, etc.
    TextChunk   = NewType('TextChunk', str) # properly decoded, suitable for printing, etc.
   
    @classmethod
    def _decodeBinaryChunk(cls, bChunk: bytes) -> Optional[TextChunk] :
        try:
            tChunk = bChunk.decode("utf-8").rstrip() 
            return cls.TextChunk(tChunk)
        except UnicodeError:
            print("\nNon-UTF8 server output: {}\n".format(bChunk.decode('cp437')))
            return None

    def _textChunkGenerator(self, streamIn: IpcStream, logDir: str, logFile: str
            ) -> Generator[TextChunk, None, None]:
        '''
        Take an input stream with binary data (likely from Popen), produced a generator of decoded
        "text chunks".
        
        Side effect: it also save the original binary data in a log file.
        '''
        os.makedirs(logDir, exist_ok=True)
        logF = open(os.path.join(logDir, logFile), 'wb')
        if logF is None:
            Logging.error("Failed to open log file (binary write): {}/{}".format(logDir, logFile))
            return
        for bChunk in iter(streamIn.readline, b''):
            logF.write(bChunk) # Write to log file immediately
            tChunk = self._decodeBinaryChunk(bChunk) # decode
            if tChunk is not None:
                yield tChunk # TODO: split into actual text lines

        # At the end...
        streamIn.close() # Close the incoming stream
        logF.close() # Close the log file

    def svcOutputReader(self, ipcStdOut: IpcStream, queue, logDir: str):
        '''
        The infinite routine that processes the STDOUT stream for the sub process being managed.

        :param ipcStdOut: the IO stream object used to fetch the data from
        :param queue: the queue where we dump the roughly parsed chunk-by-chunk text data
        :param logDir: where we should dump a verbatim output file
        '''
        
        # Important Reference: https://stackoverflow.com/questions/375427/non-blocking-read-on-a-subprocess-pipe-in-python
        # print("This is the svcOutput Reader...")
        # stdOut.readline() # Skip the first output? TODO: remove?
        for tChunk in self._textChunkGenerator(ipcStdOut, logDir, 'stdout.log') :
            queue.put(tChunk) # tChunk garanteed not to be None
            self._printProgress("_i")

            if self._status.isStarting():  # we are starting, let's see if we have started
                if tChunk.find(self.TD_READY_MSG) != -1:  # found
                    Logging.info("Waiting for the service to become FULLY READY")
                    time.sleep(1.0) # wait for the server to truly start. TODO: remove this
                    Logging.info("Service is now FULLY READY") # TODO: more ID info here?
                    self._status.set(Status.STATUS_RUNNING)

            # Trim the queue if necessary: TODO: try this 1 out of 10 times
            self._trimQueue(self.MAX_QUEUE_SIZE * 9 // 10)  # trim to 90% size

            if self._status.isStopping():  # TODO: use thread status instead
                # WAITING for stopping sub process to finish its outptu
                print("_w", end="", flush=True)

            # queue.put(line)
        # stdOut has no more data, meaning sub process must have died
        Logging.info("EOF found TDengine STDOUT, marking the process as terminated")
        self.setStatus(Status.STATUS_STOPPED)

    def svcErrorReader(self, ipcStdErr: IpcStream, queue, logDir: str):
        # os.makedirs(logDir, exist_ok=True)
        # logFile = os.path.join(logDir,'stderr.log')
        # fErr = open(logFile, 'wb')
        # for line in iter(err.readline, b''):
        for tChunk in self._textChunkGenerator(ipcStdErr, logDir, 'stderr.log') :
            queue.put(tChunk) # tChunk garanteed not to be None
            # fErr.write(line)
            Logging.info("TDengine STDERR: {}".format(tChunk))
        Logging.info("EOF for TDengine STDERR")