## ## This file is part of the libsigrokdecode project. ## ## Copyright (C) 2013 Uwe Hermann ## ## 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; either version 2 of the License, or ## (at your option) any later version. ## ## 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, write to the Free Software ## Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA ## import sigrokdecode as srd from .lists import * RX = 0 TX = 1 class Decoder(srd.Decoder): api_version = 1 id = 'midi' name = 'MIDI' longname = 'Musical Instrument Digital Interface' desc = 'Musical Instrument Digital Interface (MIDI) protocol.' license = 'gplv2+' inputs = ['uart'] outputs = ['midi'] annotations = ( ('text-verbose', 'Human-readable text (verbose)'), ) def __init__(self, **kwargs): self.cmd = [] self.state = 'IDLE' self.ss = None self.es = None self.ss_block = None self.es_block = None def start(self): self.out_ann = self.register(srd.OUTPUT_ANN) def putx(self, data): self.put(self.ss_block, self.es_block, self.out_ann, data) def handle_channel_msg_0x80(self): # Note off: 8n kk vv # n = channel, kk = note, vv = velocity c = self.cmd if len(c) < 3: return self.es_block = self.es msg, chan, note, velocity = c[0] & 0xf0, (c[0] & 0x0f) + 1, c[1], c[2] self.putx([0, ['Channel %d: %s (note = %d, velocity = %d)' % \ (chan, status_bytes[msg], note, velocity)]]) self.cmd, self.state = [], 'IDLE' def handle_channel_msg_0x90(self): # Note on: 9n kk vv # n = channel, kk = note, vv = velocity # If velocity == 0 that actually means 'note off', though. c = self.cmd if len(c) < 3: return self.es_block = self.ss msg, chan, note, velocity = c[0] & 0xf0, (c[0] & 0x0f) + 1, c[1], c[2] s = 'note off' if (velocity == 0) else status_bytes[msg] self.putx([0, ['Channel %d: %s (note = %d, velocity = %d)' % \ (chan, s, note, velocity)]]) self.cmd, self.state = [], 'IDLE' def handle_channel_msg_0xa0(self): # Polyphonic key pressure / aftertouch: An kk vv # n = channel, kk = polyphonic key pressure, vv = pressure value pass # TODO def handle_controller_0x44(self): # Legato footswitch: Bn 44 vv # n = channel, vv = value (<= 0x3f: normal, > 0x3f: legato) chan, vv = (self.cmd[0] & 0x0f) + 1, self.cmd[2] t = 'normal' if vv <= 0x3f else 'legato' self.putx([0, ['Channel %d: control function \'%s\' = %s' % \ (chan, control_functions[0x44], t)]]) def handle_controller_0x54(self): # Portamento control (PTC): Bn 54 kk # n = channel, kk = source note for pitch reference chan, kk = (self.cmd[0] & 0x0f) + 1, self.cmd[2] self.putx([0, ['Channel %d: control function \'%s\' (source note ' \ '= %d)' % (chan, control_functions[0x54], kk)]]) def handle_controller_generic(self): c = self.cmd chan, fn, param = (c[0] & 0x0f) + 1, c[1], c[2] ctrl_fn = control_functions.get(fn, 'undefined') self.putx([0, ['Channel %d: control change to function \'%s\' ' \ '(param = 0x%02x)' % (chan, ctrl_fn, param)]]) def handle_channel_msg_0xb0(self): # Control change (or channel mode messages): Bn cc vv # n = channel, cc = control number (0 - 119), vv = control value c = self.cmd if (len(c) >= 2) and (c[1] in range(0x78, 0x7f + 1)): # This is not a control change, but rather a channel mode message. # TODO: Handle channel mode messages. return if len(c) < 3: return self.es_block = self.es handle_ctrl = getattr(self, 'handle_controller_0x%02x' % c[1], self.handle_controller_generic) handle_ctrl() self.cmd, self.state = [], 'IDLE' def handle_channel_msg_0xc0(self): # Program change: Cn pp # n = channel, pp = program number (0 - 127) pass # TODO def handle_channel_msg_0xd0(self): # Channel pressure / aftertouch: Dn vv # n = channel, vv = pressure value pass # TODO def handle_channel_msg_0xe0(self): # Pitch bend change: En ll mm # n = channel, ll = pitch bend change LSB, mm = pitch bend change MSB pass # TODO def handle_channel_msg_generic(self): msg_type = self.cmd[0] & 0xf0 self.putx([0, ['Unknown channel message type: 0x%02x' % msg_type]]) # TODO: Handle properly. def handle_channel_msg(self, newbyte): self.cmd.append(newbyte) msg_type = self.cmd[0] & 0xf0 handle_msg = getattr(self, 'handle_channel_msg_0x%02x' % msg_type, self.handle_channel_msg_generic) handle_msg() def handle_sysex_msg(self, newbyte): # SysEx message: 1 status byte, x data bytes, EOX byte self.cmd.append(newbyte) if newbyte != 0xf7: # EOX return self.es_block = self.es # TODO: Get message ID, vendor ID, message contents, etc. self.putx([0, ['SysEx message']]) self.cmd, self.state = [], 'IDLE' def handle_syscommon_msg(self, newbyte): pass # TODO def handle_sysrealtime_msg(self, newbyte): # System realtime message: 0b11111ttt (t = message type) self.es_block = self.ss self.putx([0, ['System realtime message: %s' % status_bytes[newbyte]]]) self.cmd, self.state = [], 'IDLE' def decode(self, ss, es, data): ptype, rxtx, pdata = data # For now, ignore all UART packets except the actual data packets. if ptype != 'DATA': return self.ss, self.es = ss, es # Short MIDI overview: # - Status bytes are 0x80-0xff, data bytes are 0x00-0x7f. # - Most messages: 1 status byte, 1-2 data bytes. # - Real-time system messages: always 1 byte. # - SysEx messages: 1 status byte, n data bytes, EOX byte. # State machine. if self.state == 'IDLE': # Wait until we see a status byte (bit 7 must be set). if pdata < 0x80: return # TODO: How to handle? Ignore? # This is a status byte, remember the start sample. self.ss_block = ss if pdata in range(0x80, 0xef + 1): self.state = 'HANDLE CHANNEL MSG' elif pdata == 0xf0: self.state = 'HANDLE SYSEX MSG' elif pdata in range(0xf1, 0xf7 + 1): self.state = 'HANDLE SYSCOMMON MSG' elif pdata in range(0xf8, 0xff + 1): self.state = 'HANDLE SYSREALTIME MSG' # Yes, this is intentionally _not_ an 'elif' here. if self.state == 'HANDLE CHANNEL MSG': self.handle_channel_msg(pdata) elif self.state == 'HANDLE SYSEX MSG': self.handle_sysex_msg(pdata) elif self.state == 'HANDLE SYSCOMMON MSG': self.handle_syscommon_msg(pdata) elif self.state == 'HANDLE SYSREALTIME MSG': self.handle_sysrealtime_msg(pdata) else: raise Exception('Invalid state: %s' % self.state)