artiq/artiq/coredevice/comm_kernel.py

import struct
import logging
import traceback
import numpy
import socket
from enum import Enum
from fractions import Fraction
from collections import namedtuple

from artiq.coredevice import exceptions
from artiq import __version__ as software_version


logger = logging.getLogger(__name__)


class Request(Enum):
    SystemInfo = 3

    LoadKernel = 5
    RunKernel = 6

    RPCReply = 7
    RPCException = 8


class Reply(Enum):
    SystemInfo = 2

    LoadCompleted = 5
    LoadFailed = 6

    KernelFinished = 7
    KernelStartupFailed = 8
    KernelException = 9

    RPCRequest = 10

    WatchdogExpired = 14
    ClockFailure = 15


class UnsupportedDevice(Exception):
    pass

class LoadError(Exception):
    pass

class RPCReturnValueError(ValueError):
    pass


RPCKeyword = namedtuple('RPCKeyword', ['name', 'value'])


class CommKernelDummy:
    def __init__(self):
        pass

    def load(self, kernel_library):
        pass

    def run(self):
        pass

    def serve(self, embedding_map, symbolizer, demangler):
        pass

    def check_system_info(self):
        pass


class CommKernel:
    warned_of_mismatch = False

    def __init__(self, host, port=1381):
        self._read_type = None
        self.host = host
        self.port = port

    def open(self):
        if hasattr(self, "socket"):
            return
        self.socket = socket.create_connection((self.host, self.port))
        logger.debug("connected to %s:%d", self.host, self.port)
        self.socket.sendall(b"ARTIQ coredev\n")

    def close(self):
        if not hasattr(self, "socket"):
            return
        self.socket.close()
        del self.socket
        logger.debug("disconnected")

    #
    # Reader interface
    #

    def _read(self, length):
        r = bytes()
        while len(r) < length:
            rn = self.socket.recv(min(8192, length - len(r)))
            if not rn:
                raise ConnectionResetError("Connection closed")
            r += rn
        return r

    def _read_header(self):
        self.open()

        # Wait for a synchronization sequence, 5a 5a 5a 5a.
        sync_count = 0
        while sync_count < 4:
            (sync_byte, ) = struct.unpack("B", self._read(1))
            if sync_byte == 0x5a:
                sync_count += 1
            else:
                sync_count = 0

        # Read message header.
        (raw_type, ) = struct.unpack("B", self._read(1))
        self._read_type = Reply(raw_type)

        logger.debug("receiving message: type=%r",
                     self._read_type)

    def _read_expect(self, ty):
        if self._read_type != ty:
            raise IOError("Incorrect reply from device: {} (expected {})".
                          format(self._read_type, ty))

    def _read_empty(self, ty):
        self._read_header()
        self._read_expect(ty)

    def _read_int8(self):
        (value, ) = struct.unpack("B",  self._read(1))
        return value

    def _read_int32(self):
        (value, ) = struct.unpack(">l", self._read(4))
        return value

    def _read_int64(self):
        (value, ) = struct.unpack(">q", self._read(8))
        return value

    def _read_float64(self):
        (value, ) = struct.unpack(">d", self._read(8))
        return value

    def _read_bool(self):
        return True if self._read_int8() else False

    def _read_bytes(self):
        return self._read(self._read_int32())

    def _read_string(self):
        return self._read_bytes().decode("utf-8")

    #
    # Writer interface
    #

    def _write(self, data):
        self.socket.sendall(data)

    def _write_header(self, ty):
        self.open()

        logger.debug("sending message: type=%r", ty)

        # Write synchronization sequence and header.
        self._write(struct.pack(">lB", 0x5a5a5a5a, ty.value))

    def _write_empty(self, ty):
        self._write_header(ty)

    def _write_chunk(self, chunk):
        self._write(chunk)

    def _write_int8(self, value):
        self._write(struct.pack("B", value))

    def _write_int32(self, value):
        self._write(struct.pack(">l", value))

    def _write_int64(self, value):
        self._write(struct.pack(">q", value))

    def _write_float64(self, value):
        self._write(struct.pack(">d", value))

    def _write_bool(self, value):
        self._write(struct.pack("B", value))

    def _write_bytes(self, value):
        self._write_int32(len(value))
        self._write(value)

    def _write_string(self, value):
        self._write_bytes(value.encode("utf-8"))

    #
    # Exported APIs
    #

    def check_system_info(self):
        self._write_empty(Request.SystemInfo)

        self._read_header()
        self._read_expect(Reply.SystemInfo)
        runtime_id = self._read(4)
        if runtime_id != b"AROR":
            raise UnsupportedDevice("Unsupported runtime ID: {}"
                                    .format(runtime_id))

        gateware_version = self._read_string().split(";")[0]
        if gateware_version != software_version and not self.warned_of_mismatch:
            logger.warning("Mismatch between gateware (%s) "
                           "and software (%s) versions",
                           gateware_version, software_version)
            CommKernel.warned_of_mismatch = True

        finished_cleanly = self._read_bool()
        if not finished_cleanly:
            logger.warning("Previous kernel did not cleanly finish")

    def load(self, kernel_library):
        self._write_header(Request.LoadKernel)
        self._write_bytes(kernel_library)

        self._read_header()
        if self._read_type == Reply.LoadFailed:
            raise LoadError(self._read_string())
        else:
            self._read_expect(Reply.LoadCompleted)

    def run(self):
        self._write_empty(Request.RunKernel)
        logger.debug("running kernel")

    _rpc_sentinel = object()

    # See session.c:{send,receive}_rpc_value and llvm_ir_generator.py:_rpc_tag.
    def _receive_rpc_value(self, embedding_map):
        tag = chr(self._read_int8())
        if tag == "\x00":
            return self._rpc_sentinel
        elif tag == "t":
            length = self._read_int8()
            return tuple(self._receive_rpc_value(embedding_map) for _ in range(length))
        elif tag == "n":
            return None
        elif tag == "b":
            return bool(self._read_int8())
        elif tag == "i":
            return numpy.int32(self._read_int32())
        elif tag == "I":
            return numpy.int64(self._read_int64())
        elif tag == "f":
            return self._read_float64()
        elif tag == "F":
            numerator   = self._read_int64()
            denominator = self._read_int64()
            return Fraction(numerator, denominator)
        elif tag == "s":
            return self._read_string()
        elif tag == "B":
            return self._read_bytes()
        elif tag == "A":
            return self._read_bytes()
        elif tag == "l":
            length = self._read_int32()
            return [self._receive_rpc_value(embedding_map) for _ in range(length)]
        elif tag == "a":
            length = self._read_int32()
            return numpy.array([self._receive_rpc_value(embedding_map) for _ in range(length)])
        elif tag == "r":
            start = self._receive_rpc_value(embedding_map)
            stop  = self._receive_rpc_value(embedding_map)
            step  = self._receive_rpc_value(embedding_map)
            return range(start, stop, step)
        elif tag == "k":
            name  = self._read_string()
            value = self._receive_rpc_value(embedding_map)
            return RPCKeyword(name, value)
        elif tag == "O":
            return embedding_map.retrieve_object(self._read_int32())
        else:
            raise IOError("Unknown RPC value tag: {}".format(repr(tag)))

    def _receive_rpc_args(self, embedding_map):
        args, kwargs = [], {}
        while True:
            value = self._receive_rpc_value(embedding_map)
            if value is self._rpc_sentinel:
                return args, kwargs
            elif isinstance(value, RPCKeyword):
                kwargs[value.name] = value.value
            else:
                args.append(value)

    def _skip_rpc_value(self, tags):
        tag = chr(tags.pop(0))
        if tag == "t":
            length = tags.pop(0)
            for _ in range(length):
                self._skip_rpc_value(tags)
        elif tag == "l":
            self._skip_rpc_value(tags)
        elif tag == "r":
            self._skip_rpc_value(tags)
        else:
            pass

    def _send_rpc_value(self, tags, value, root, function):
        def check(cond, expected):
            if not cond:
                raise RPCReturnValueError(
                    "type mismatch: cannot serialize {value} as {type}"
                    " ({function} has returned {root})".format(
                        value=repr(value), type=expected(),
                        function=function, root=root))

        tag = chr(tags.pop(0))
        if tag == "t":
            length = tags.pop(0)
            check(isinstance(value, tuple) and length == len(value),
                  lambda: "tuple of {}".format(length))
            for elt in value:
                self._send_rpc_value(tags, elt, root, function)
        elif tag == "n":
            check(value is None,
                  lambda: "None")
        elif tag == "b":
            check(isinstance(value, bool),
                  lambda: "bool")
            self._write_int8(value)
        elif tag == "i":
            check(isinstance(value, (int, numpy.int32)) and
                  (-2**31 < value < 2**31-1),
                  lambda: "32-bit int")
            self._write_int32(value)
        elif tag == "I":
            check(isinstance(value, (int, numpy.int32, numpy.int64)) and
                  (-2**63 < value < 2**63-1),
                  lambda: "64-bit int")
            self._write_int64(value)
        elif tag == "f":
            check(isinstance(value, float),
                  lambda: "float")
            self._write_float64(value)
        elif tag == "F":
            check(isinstance(value, Fraction) and
                    (-2**63 < value.numerator < 2**63-1) and
                    (-2**63 < value.denominator < 2**63-1),
                  lambda: "64-bit Fraction")
            self._write_int64(value.numerator)
            self._write_int64(value.denominator)
        elif tag == "s":
            check(isinstance(value, str) and "\x00" not in value,
                  lambda: "str")
            self._write_string(value)
        elif tag == "B":
            check(isinstance(value, bytes),
                  lambda: "bytes")
            self._write_bytes(value)
        elif tag == "A":
            check(isinstance(value, bytearray),
                  lambda: "bytearray")
            self._write_bytes(value)
        elif tag == "l":
            check(isinstance(value, list),
                  lambda: "list")
            self._write_int32(len(value))
            for elt in value:
                tags_copy = bytearray(tags)
                self._send_rpc_value(tags_copy, elt, root, function)
            self._skip_rpc_value(tags)
        elif tag == "r":
            check(isinstance(value, range),
                  lambda: "range")
            tags_copy = bytearray(tags)
            self._send_rpc_value(tags_copy, value.start, root, function)
            tags_copy = bytearray(tags)
            self._send_rpc_value(tags_copy, value.stop, root, function)
            tags_copy = bytearray(tags)
            self._send_rpc_value(tags_copy, value.step, root, function)
            tags = tags_copy
        else:
            raise IOError("Unknown RPC value tag: {}".format(repr(tag)))

    def _truncate_message(self, msg, limit=4096):
        if len(msg) > limit:
            return msg[0:limit] + "... (truncated)"
        else:
            return msg

    def _serve_rpc(self, embedding_map):
        is_async     = self._read_bool()
        service_id   = self._read_int32()
        args, kwargs = self._receive_rpc_args(embedding_map)
        return_tags  = self._read_bytes()

        if service_id == 0:
            service  = lambda obj, attr, value: setattr(obj, attr, value)
        else:
            service  = embedding_map.retrieve_object(service_id)
        logger.debug("rpc service: [%d]%r%s %r %r -> %s", service_id, service,
                     (" (async)" if is_async else ""), args, kwargs, return_tags)

        if is_async:
            service(*args, **kwargs)
            return

        try:
            result = service(*args, **kwargs)
            logger.debug("rpc service: %d %r %r = %r", service_id, args, kwargs, result)

            self._write_header(Request.RPCReply)
            self._write_bytes(return_tags)
            self._send_rpc_value(bytearray(return_tags), result, result, service)
        except RPCReturnValueError as exn:
            raise
        except Exception as exn:
            logger.debug("rpc service: %d %r %r ! %r", service_id, args, kwargs, exn)

            self._write_header(Request.RPCException)

            if hasattr(exn, "artiq_core_exception"):
                exn = exn.artiq_core_exception
                self._write_string(exn.name)
                self._write_string(self._truncate_message(exn.message))
                for index in range(3):
                    self._write_int64(exn.param[index])

                filename, line, column, function = exn.traceback[-1]
                self._write_string(filename)
                self._write_int32(line)
                self._write_int32(column)
                self._write_string(function)
            else:
                exn_type = type(exn)
                if exn_type in (ZeroDivisionError, ValueError, IndexError, RuntimeError) or \
                        hasattr(exn, "artiq_builtin"):
                    self._write_string("0:{}".format(exn_type.__name__))
                else:
                    exn_id = embedding_map.store_object(exn_type)
                    self._write_string("{}:{}.{}".format(exn_id,
                                                         exn_type.__module__,
                                                         exn_type.__qualname__))
                self._write_string(self._truncate_message(str(exn)))
                for index in range(3):
                    self._write_int64(0)

                tb = traceback.extract_tb(exn.__traceback__, 2)
                if len(tb) == 2:
                    (_, (filename, line, function, _), ) = tb
                elif len(tb) == 1:
                    ((filename, line, function, _), ) = tb
                else:
                    assert False
                self._write_string(filename)
                self._write_int32(line)
                self._write_int32(-1) # column not known
                self._write_string(function)

    def _serve_exception(self, embedding_map, symbolizer, demangler):
        name      = self._read_string()
        message   = self._read_string()
        params    = [self._read_int64() for _ in range(3)]

        filename  = self._read_string()
        line      = self._read_int32()
        column    = self._read_int32()
        function  = self._read_string()

        backtrace = [self._read_int32() for _ in range(self._read_int32())]

        traceback = list(reversed(symbolizer(backtrace))) + \
                    [(filename, line, column, *demangler([function]), None)]
        core_exn = exceptions.CoreException(name, message, params, traceback)

        if core_exn.id == 0:
            python_exn_type = getattr(exceptions, core_exn.name.split('.')[-1])
        else:
            python_exn_type = embedding_map.retrieve_object(core_exn.id)

        python_exn = python_exn_type(message.format(*params))
        python_exn.artiq_core_exception = core_exn
        raise python_exn

    def serve(self, embedding_map, symbolizer, demangler):
        while True:
            self._read_header()
            if self._read_type == Reply.RPCRequest:
                self._serve_rpc(embedding_map)
            elif self._read_type == Reply.KernelException:
                self._serve_exception(embedding_map, symbolizer, demangler)
            elif self._read_type == Reply.WatchdogExpired:
                raise exceptions.WatchdogExpired
            elif self._read_type == Reply.ClockFailure:
                raise exceptions.ClockFailure
            else:
                self._read_expect(Reply.KernelFinished)
                return