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import socket, struct, time# Set the address of the Cerebot boarddst_addr = '00183E00D7EB'.decode('hex')# Open a socket on the eth0sock = socket.socket(socket.AF_PACKET, socket.SOCK_RAW)sock.bind(("eth0", 0x1))# Acquire MAC address of local machineif_name, if_proto, pkt_type, hw_type, hw_addr = sock.getsockname()# Create and initialize the frame bufferframe_buffer_size = 1536frame_buffer = [0] * frame_buffer_sizedef cube_init():'''Sets the cube into ethernet mode.'''# Generate and send the frametxFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 1)txOpcode = "01".decode('hex')sock.send(txFrame + txOpcode)# Wait a few seconds for the cube to reset itselftime.sleep(6)def cube_reset():'''Resets the cube into idle mode.'''# Generate and send the frametxFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 1)txOpcode = "02".decode('hex')sock.send(txFrame + txOpcode)def cube_clear():'''Clear the cube's internal buffer.'''# Generate and send the frametxFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 1)txOpcode = "0A".decode('hex')sock.send(txFrame + txOpcode)def cube_brightness(value):'''Sets the global brightness value from 0 to 255.'''# Generate and send the frametxFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 2)txOpcode = "0B".decode('hex')txData = format(value, '02x').decode('hex')sock.send(txFrame + txOpcode + txData)def cube_rotate(direction):'''Rotate the entire cube (0 = clockwise, 1 = counterclockwise).'''# Generate and send the frametxFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 2)txOpcode = "0C".decode('hex')txData = format(direction, '02x').decode('hex')sock.send(txFrame + txOpcode + txData)def cube_rotate_shell(direction, shell):'''Rotate a specific layer (0 = clockwise, 0 = outermost layer).'''# Generate and send the frametxFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 3)txOpcode = "0D".decode('hex')txData = ''.join("%02x%02x" % (direction, shell))sock.send(txFrame + txOpcode + txData.decode('hex'))# def cube_update():# '''Update the cube with the current frame buffer.# Note: this requires jumbo frames (1536 bytes).'''# # Generate the header, opcode, and format the frame buffer# txFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 0x0601)# txOpcode = "10".decode('hex')# txData = ''.join("%02x" % (x) for x in frame_buffer)# sock.send(txFrame + txOpcode + txData.decode('hex'))def cube_update_pixel(x, y, z, r, g, b):'''Set a specific pixel on the cube.'''txFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 7)txOpcode = "11".decode('hex')frame = [x, y, z, r, g, b]txData = ''.join("%02x" % (x) for x in frame)sock.send(txFrame + txOpcode + txData.decode('hex'))def cube_update():'''Updates the cube with the current frame buffer.The buffer is sent in three frames, one for each color channel.'''txFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 514)txOpcode = "12".decode('hex')for c in range(3):txColorCh = "%02x" % ctxData = ''.join( ["%02x" % (x) for x in frame_buffer[c::3]])payload = txFrame + txOpcode + txColorCh.decode('hex') + txData.decode('hex')sock.send(payload)time.sleep(0.01) # This value can be smaller (and should be) to reduce flickeringdef cube_update_text_scrolling(string, r, g, b, update_rate):'''Sets the scrolling text on the cube.'''txFrame = struct.pack("!6s6sH", dst_addr, hw_addr, len(string) + 6)txOpcode = "20".decode('hex')txData = ''.join("%02x%02x%02x%02x%02x" % (len(string), r, g, b, update_rate))txString = string.encode('hex')sock.send(txFrame + txOpcode + txData.decode('hex') + txString.decode('hex'))def cube_update_text_static(string, r, g, b):'''Sets the static text on the cube.'''txFrame = struct.pack("!6s6sH", dst_addr, hw_addr, len(string) + 5)txOpcode = "21".decode('hex')txData = ''.join("%02x%02x%02x%02x" % (len(string), r, g, b))txString = string.encode('hex')sock.send(txFrame + txOpcode + txData.decode('hex') + txString.decode('hex'))def cube_update_text_insert(character, r, g, b, delay):'''Appends a character to the beginning of the text buffer.'''txFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 6)txOpcode = "22".decode('hex')txData = ''.join("%02x%02x%02x%02x%02x" % (r, g, b, delay, character))sock.send(txFrame + txOpcode + txData.decode('hex'))def cube_update_waterfall(c0, c1, c2, c3, c4, c5, c6, c7):'''Fills in one row and shifts rows by one.'''txFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 9)txOpcode = "30".decode('hex')txData = ''.join("%02x%02x%02x%02x%02x%02x%02x%02x" % (c0, c1, c2, c3, c4, c5, c6, c7))sock.send(txFrame + txOpcode + txData.decode('hex'))def cube_update_sphere(layer, r, g, b):'''Sets the sphere layer to the specified color.'''txFrame = struct.pack("!6s6sH", dst_addr, hw_addr, 5)txOpcode = "31".decode('hex')txData = ''.join("%02x%02x%02x%02x" % (layer, r, g, b))sock.send(txFrame + txOpcode + txData.decode('hex'))def fb_clear():'''Clears the frame buffer/'''for row in range(8):for column in range(8):for layer in range(8):fb_set_pixel(row, column, layer, 0x00, 0x00, 0x00)def fb_set_pixel(row, column, layer, R, G, B):'''Sets a pixel to the given color in the frame buffer/'''frame_buffer[layer * 192 + column * 24 + row * 3 + 0] = Rframe_buffer[layer * 192 + column * 24 + row * 3 + 1] = Gframe_buffer[layer * 192 + column * 24 + row * 3 + 2] = Bdef fb_set_layer(layer, R, G, B):'''Sets an entire layer to the given color in the frame buffer'''for row in range(8):for column in range(8):fb_set_pixel(row, column, layer, R, G, B)def fb_set_all(R, G, B):'''Sets all the pixels in the frame buffer to the given color'''for row in range(8):for column in range(8):for layer in range(8):fb_set_pixel(row, column, layer, R, G, B)