415 lines
10 KiB
Python
415 lines
10 KiB
Python
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#!/usr/bin/python
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# j4cDAC "sitter"
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#
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# Copyright 2012 Jacob Potter
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, version 3.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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import socket
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import time
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import struct
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def pack_point(x, y, r, g, b, i = -1, u1 = 0, u2 = 0, flags = 0):
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"""Pack some color values into a struct dac_point.
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Values must be specified for x, y, r, g, and b. If a value is not
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passed in for the other fields, i will default to max(r, g, b); the
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rest default to zero.
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"""
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if i < 0:
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i = max(r, g, b)
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return struct.pack("<HhhHHHHHH", flags, x, y, i, r, g, b, u1, u2)
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class ProtocolError(Exception):
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"""Exception used when a protocol error is detected."""
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pass
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class Status(object):
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"""Represents a status response from the DAC."""
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def __init__(self, data):
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"""Initialize from a chunk of data."""
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self.protocol_version, self.le_state, self.playback_state, \
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self.source, self.le_flags, self.playback_flags, \
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self.source_flags, self.fullness, self.point_rate, \
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self.point_count = \
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struct.unpack("<BBBBHHHHII", data)
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def dump(self, prefix = " - "):
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"""Dump to a string."""
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lines = [
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"Light engine: state %d, flags 0x%x" %
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(self.le_state, self.le_flags),
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"Playback: state %d, flags 0x%x" %
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(self.playback_state, self.playback_flags),
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"Buffer: %d points" %
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(self.fullness, ),
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"Playback: %d kpps, %d points played" %
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(self.point_rate, self.point_count),
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"Source: %d, flags 0x%x" %
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(self.source, self.source_flags)
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]
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for l in lines:
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print prefix + l
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class BroadcastPacket(object):
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"""Represents a broadcast packet from the DAC."""
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def __init__(self, st, ip=None):
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"""Initialize from a chunk of data."""
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self.mac = st[:6]
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self.hw_rev, self.sw_rev, self.buffer_capacity, \
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self.max_point_rate = struct.unpack("<HHHI", st[6:16])
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self.status = Status(st[16:36])
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self.ip = ip
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def dump(self, prefix = " - "):
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"""Dump to a string."""
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lines = [
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"MAC: " + ":".join(
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"%02x" % (ord(o), ) for o in self.mac),
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"HW %d, SW %d" %
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(self.hw_rev, self.sw_rev),
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"Capabilities: max %d points, %d kpps" %
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(self.buffer_capacity, self.max_point_rate)
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]
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for l in lines:
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print prefix + l
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self.status.dump(prefix)
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def macstr(self):
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return "".join("%02x" % (ord(c), ) for c in self.mac)
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class DAC(object):
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"""A connection to a DAC."""
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def got_broadcast(self, bp):
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self.last_broadcast = bp
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self.last_broadcast_time = time.time()
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def read(self, l):
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"""Read exactly length bytes from the connection."""
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while l > len(self.buf):
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self.buf += self.conn.recv(4096)
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obuf = self.buf
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self.buf = obuf[l:]
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return obuf[:l]
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def readresp(self, cmd):
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"""Read a response from the DAC."""
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data = self.read(22)
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response = data[0]
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cmdR = data[1]
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status = Status(data[2:])
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# status.dump()
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if cmdR != cmd:
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raise ProtocolError("expected resp for %r, got %r"
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% (cmd, cmdR))
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if response != "a":
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raise ProtocolError("expected ACK, got %r"
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% (response, ))
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self.last_status = status
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return status
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def __init__(self, macstr, bp):
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self.macstr = macstr
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self.firmware_string = "-"
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self.got_broadcast(bp)
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try:
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t1 = time.time()
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self.connect(self.last_broadcast.ip[0])
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t = time.time() - t1
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self.conn_status = "ok (%d ms)" % (t * 500)
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if self.last_broadcast.sw_rev < 2:
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self.firmware_string = "(old)"
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else:
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self.conn.sendall('v')
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self.firmware_string = self.read(32).replace("\x00", " ").strip()
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except e:
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self.conn_status = str(e)
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def connect(self, host, port = 7765):
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"""Connect to the DAC over TCP."""
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conn = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
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conn.settimeout(0.2)
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conn.connect((host, port))
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self.conn = conn
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self.buf = ""
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# Read the "hello" message
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first_status = self.readresp("?")
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first_status.dump()
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def begin(self, lwm, rate):
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cmd = struct.pack("<cHI", "b", lwm, rate)
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self.conn.sendall(cmd)
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return self.readresp("b")
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def update(self, lwm, rate):
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cmd = struct.pack("<cHI", "u", lwm, rate)
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self.conn.sendall(cmd)
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return self.readresp("u")
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def encode_point(self, point):
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return pack_point(*point)
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def write(self, points):
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epoints = map(self.encode_point, points)
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cmd = struct.pack("<cH", "d", len(epoints))
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self.conn.sendall(cmd + "".join(epoints))
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return self.readresp("d")
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def prepare(self):
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self.conn.sendall("p")
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return self.readresp("p")
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def stop(self):
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self.conn.sendall("s")
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return self.readresp("s")
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def estop(self):
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self.conn.sendall("\xFF")
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return self.readresp("\xFF")
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def clear_estop(self):
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self.conn.sendall("c")
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return self.readresp("c")
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def ping(self):
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self.conn.sendall("?")
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return self.readresp("?")
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def play_stream(self, stream):
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# First, prepare the stream
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if self.last_status.playback_state == 2:
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raise Exception("already playing?!")
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elif self.last_status.playback_state == 0:
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self.prepare()
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started = 0
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while True:
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# How much room?
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cap = 1799 - self.last_status.fullness
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points = stream.read(cap)
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if cap < 100:
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time.sleep(0.005)
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cap += 150
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# print "Writing %d points" % (cap, )
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t0 = time.time()
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self.write(points)
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t1 = time.time()
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# print "Took %f" % (t1 - t0, )
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if not started:
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self.begin(0, 30000)
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started = 1
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def find_dac():
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"""Listen for broadcast packets."""
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s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
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s.bind(("0.0.0.0", 7654))
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while True:
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data, addr = s.recvfrom(1024)
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bp = BroadcastPacket(data)
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print "Packet from %s: " % (addr, )
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bp.dump()
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from Tkinter import *
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import socket
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import Queue
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import thread
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import time
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class DacDisplay(LabelFrame):
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def __init__(self, master):
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LabelFrame.__init__(self, master, width=600, height=400)
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self.grid_propagate(0)
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Label(self, text="IP Address:").grid(row=0, column=0, sticky=N+E)
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Label(self, text="Version:").grid(row=1, column=0, sticky=N+E)
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Label(self, text="Status:").grid(row=2, column=0, sticky=N+E)
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Label(self, text="Source:").grid(row=3, column=0, sticky=N+E)
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Label(self, text="Network:").grid(row=4, column=0, sticky=N+E)
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Label(self, text="Firmware:").grid(row=5, column=0, sticky=N+E)
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self.iplabel = Label(self, text = "")
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self.iplabel.grid(row=0, column=1, sticky=N+W)
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self.verslabel = Label(self, text = "")
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self.verslabel.grid(row=1, column=1, sticky=N+W)
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self.stlabel = Label(self, text = "")
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self.stlabel.grid(row=2, column=1, sticky=N+W)
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self.srclabel = Label(self, text = "")
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self.srclabel.grid(row=3, column=1, sticky=N+W)
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self.netlabel = Label(self, text = "")
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self.netlabel.grid(row=4, column=1, sticky=N+W)
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self.fwlabel = Label(self, text = "")
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self.fwlabel.grid(row=5, column=1, sticky=N+W)
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self.display_none()
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def display_none(self):
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self['text'] = "Ether Dream"
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for l in self.iplabel, self.verslabel, self.stlabel, self.srclabel, self.netlabel, self.fwlabel:
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l['text'] = ""
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def display_dac(self, dac):
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b = dac.last_broadcast
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self['text'] = "Ether Dream " + b.macstr()[6:]
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self.iplabel['text'] = str(b.ip[0])
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self.verslabel['text'] = "hardware %d, software %d" % (b.hw_rev, b.sw_rev)
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st_str = ""
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if b.status.le_state == 0:
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st_str = "online, "
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else:
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st_str = "ESTOP ACTIVE (%d), " % (b.status.le_flags, )
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if b.status.playback_state == 0:
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st_str += "idle"
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elif b.status.playback_state == 1:
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st_str += "prepared"
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elif b.status.playback_state == 2:
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st_str += "playing (%d buffered, %d played)" % (b.status.fullness, b.status.point_count)
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else:
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st_str += "DAC state %d" % (b.status.playback_state, )
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if b.status.point_rate:
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st_str += ", %d pps" % (b.status.point_rate)
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self.stlabel['text'] = st_str
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if b.status.source == 0:
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src_str = "network"
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elif b.status.source == 1:
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src_str = "file playback: %s, repeat %s" % (
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b.status.source_flags & 1 and "playing" or "not playing",
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b.status.source_flags & 2 and "on" or "off"
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)
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elif b.status.source == 2:
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src_str = "abstract generator: %s" % (
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b.status.source_flags & 1 and "playing" or "not playing",
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)
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else:
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src_str = "unknown %d" % (b.status.source)
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self.srclabel['text'] = src_str
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self.netlabel['text'] = dac.conn_status
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self.fwlabel['text'] = dac.firmware_string
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class DacTracker(Listbox):
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def __init__(self, master, *args, **kwargs):
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Listbox.__init__(self, master, *args, **kwargs)
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self.dac_list = []
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self.dac_macstr_map = {}
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self.bind("<<ListboxSelect>>", self.update_selection)
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def update_selection(self, lb=None):
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if self.dac_display:
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try:
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dac_obj = self.dac_list[self.index(ACTIVE)]
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except:
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return
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self.dac_display.display_dac(dac_obj)
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def got_packet(self, bp):
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macstr = bp.macstr()
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if macstr not in self.dac_macstr_map:
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new_dac = DAC(macstr, bp)
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self.insert(END, macstr[6:])
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self.dac_list.append(new_dac)
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self.dac_macstr_map[macstr] = new_dac
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dac_obj = new_dac
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else:
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dac_obj = self.dac_macstr_map[macstr]
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dac_obj.got_broadcast(bp)
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if len(self.dac_list) == 1:
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self.selection_set(0)
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self.update_selection()
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def check_on_dac():
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if time.time() - dac_obj.last_broadcast_time < 2:
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return
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idx = self.dac_list.index(dac_obj)
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self.dac_list.remove(dac_obj)
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del self.dac_macstr_map[macstr]
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self.delete(idx)
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self.dac_display.display_none()
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self.after(2000, check_on_dac)
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# Set up the basic window
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root = Tk()
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root.title("Ether Dream")
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root.resizable(FALSE, FALSE)
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frame = Frame(root)
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frame.grid()
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disp = DacDisplay(root)
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disp.grid(row=0, column=1, padx=5, pady=5)
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tracker = DacTracker(root, height=22)
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tracker.grid(row=0, column=0, padx=5, pady=5)
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tracker.dac_display = disp
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# Set up queue checker
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packet_queue = Queue.Queue()
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def queue_check():
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try:
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while True:
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data, addr = packet_queue.get_nowait()
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tracker.got_packet(BroadcastPacket(data, addr))
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except Queue.Empty:
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root.after(100, queue_check)
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root.after(100, queue_check)
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# Set up listening socket and thread
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s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
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s.bind(("0.0.0.0", 7654))
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def socket_thread():
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while True:
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packet_queue.put(s.recvfrom(1024))
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thread.start_new(socket_thread, ())
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root.mainloop()
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