LJ/ethertools/dac3.py

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# j4cDAC test code
#
# Copyright 2011 Jacob Potter
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, version 3.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import socket
import time
import struct
def pack_point(x, y, r, g, b, i = -1, u1 = 0, u2 = 0, flags = 0):
"""Pack some color values into a struct dac_point.
Values must be specified for x, y, r, g, and b. If a value is not
passed in for the other fields, i will default to max(r, g, b); the
rest default to zero.
"""
#print(r,g,b)
if i < 0:
i = max(r, g, b)
return struct.pack("<HhhHHHHHH", flags, x, y, r, g, b, i, u1, u2)
class ProtocolError(Exception):
"""Exception used when a protocol error is detected."""
pass
class Status(object):
"""Represents a status response from the DAC."""
def __init__(self, data):
"""Initialize from a chunk of data."""
self.protocol_version, self.le_state, self.playback_state, \
self.source, self.le_flags, self.playback_flags, \
self.source_flags, self.fullness, self.point_rate, \
self.point_count = \
struct.unpack("<BBBBHHHHII", data)
def dump(self, prefix = " - "):
"""Dump to a string."""
lines = [
"Light engine: state %d, flags 0x%x" %
(self.le_state, self.le_flags),
"Playback: state %d, flags 0x%x" %
(self.playback_state, self.playback_flags),
"Buffer: %d points" %
(self.fullness, ),
"Playback: %d kpps, %d points played" %
(self.point_rate, self.point_count),
"Source: %d, flags 0x%x" %
(self.source, self.source_flags)
]
for l in lines:
print(prefix + l)
class BroadcastPacket(object):
"""Represents a broadcast packet from the DAC."""
def __init__(self, st):
"""Initialize from a chunk of data."""
self.mac = st[:6]
self.hw_rev, self.sw_rev, self.buffer_capacity, \
self.max_point_rate = struct.unpack("<HHHI", st[6:16])
self.status = Status(st[16:36])
def dump(self, prefix = " - "):
"""Dump to a string."""
lines = [
"MAC: " + ":".join(
"%02x" % (ord(o), ) for o in self.mac),
"HW %d, SW %d" %
(self.hw_rev, self.sw_rev),
"Capabilities: max %d points, %d kpps" %
(self.buffer_capacity, self.max_point_rate)
]
for l in lines:
print(prefix + l)
self.status.dump(prefix)
class DAC(object):
"""A connection to a DAC."""
def read(self, l):
"""Read exactly length bytes from the connection."""
while l > len(self.buf):
buffy = self.conn.recv(4096)
#print(buffy)
self.buf += buffy
obuf = self.buf
self.buf = obuf[l:]
return obuf[:l]
def readresp(self, cmd):
"""Read a response from the DAC."""
data = self.read(22)
response = data[0]
cmdR = chr(data[1])
status = Status(data[2:])
status.dump()
if cmdR != cmd:
raise ProtocolError("expected resp for %r, got %r"
% (cmd, cmdR))
if response != ord('a'):
raise ProtocolError("expected ACK, got %r"
% (response, ))
self.last_status = status
return status
def __init__(self, host, port = 7765):
"""Connect to the DAC over TCP."""
conn = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
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print(host,port)
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conn.connect((host, port))
conn.settimeout(1)
self.conn = conn
self.buf = b''
# Read the "hello" message
first_status = self.readresp("?")
first_status.dump()
'''
self.conn.sendall('v')
self.firmware_string = self.read(32).replace("\x00", " ").strip()
print "Firmware: %s" % (self.firmware_string, )
'''
def begin(self, lwm, rate):
cmd = struct.pack("<cHI", b'b', lwm, rate)
self.conn.sendall(cmd)
return self.readresp("b")
def update(self, lwm, rate):
cmd = struct.pack("<cHI", b'u', lwm, rate)
self.conn.sendall(cmd)
return self.readresp("u")
def encode_point(self, point):
return pack_point(*point)
def write(self, points):
epoints = list(map(self.encode_point, points))
cmd = struct.pack("<cH", b'd', len(epoints))
#print(cmd + b''.join(epoints))
self.conn.sendall(cmd + b''.join(epoints))
return self.readresp("d")
def prepare(self):
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self.conn.sendall(b'p')
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return self.readresp('p')
def stop(self):
self.conn.sendall('s')
return self.readresp('s')
def estop(self):
self.conn.sendall("\xFF")
return self.readresp("\xFF")
def clear_estop(self):
self.conn.sendall('c')
return self.readresp('c')
def ping(self):
self.conn.sendall('?')
return self.readresp('?')
def play_stream(self, stream):
# First, prepare the stream
if self.last_status.playback_state == 2:
raise Exception("already playing?!")
elif self.last_status.playback_state == 0:
self.prepare()
started = 0
while True:
# How much room?
cap = 1799 - self.last_status.fullness
points = stream.read(cap)
if cap < 100:
time.sleep(0.005)
cap += 150
# print "Writing %d points" % (cap, )
t0 = time.time()
self.write(points)
t1 = time.time()
# print "Took %f" % (t1 - t0, )
if not started:
self.begin(0, 30000)
started = 1
def find_dac():
"""Listen for broadcast packets."""
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.bind(("0.0.0.0", 7654))
while True:
data, addr = s.recvfrom(1024)
bp = BroadcastPacket(data)
print("Packet from %s: " % (addr, ))
bp.dump()
def find_first_dac():
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.bind(("0.0.0.0", 7654))
data, addr = s.recvfrom(1024)
bp = BroadcastPacket(data)
print("Packet from %s: " % (addr, ))
return addr[0]