X-Git-Url: https://sigrok.org/gitweb/?p=libsigrokdecode.git;a=blobdiff_plain;f=decoders%2Fmx25lxx05d%2Fmx25lxx05d.py;h=b979f6886c736c71ec15761b7489db44528f8051;hp=f3c74efcc74aebd51143df03d1995bc0ed918f79;hb=b54936a95bb42d6763dd392267c5808677f1c4d0;hpb=4772a846dca34cedcfe99ffc09b4c24710e44b2c diff --git a/decoders/mx25lxx05d/mx25lxx05d.py b/decoders/mx25lxx05d/mx25lxx05d.py index f3c74ef..b979f68 100644 --- a/decoders/mx25lxx05d/mx25lxx05d.py +++ b/decoders/mx25lxx05d/mx25lxx05d.py @@ -32,7 +32,7 @@ cmds = { 0x05: ('RDSR', 'Read status register'), 0x01: ('WRSR', 'Write status register'), 0x03: ('READ', 'Read data'), - 0x0b: ('FAST_READ', 'Fast read data'), + 0x0b: ('FAST/READ', 'Fast read data'), 0xbb: ('2READ', '2x I/O read'), 0x20: ('SE', 'Sector erase'), 0xd8: ('BE', 'Block erase'), @@ -41,9 +41,7 @@ cmds = { 0x02: ('PP', 'Page program'), 0xad: ('CP', 'Continuously program mode'), 0xb9: ('DP', 'Deep power down'), - # 0xab: ('RDP', 'Release from deep powerdown'), - # 0xab: ('RES', 'Read electronic ID'), - 0xab: ('RDP_RES', 'Release from deep powerdown / Read electronic ID'), + 0xab: ('RDP/RES', 'Release from deep powerdown / Read electronic ID'), 0x90: ('REMS', 'Read electronic manufacturer & device ID'), 0xef: ('REMS2', 'Read ID for 2x I/O mode'), 0xb1: ('ENSO', 'Enter secured OTP'), @@ -99,14 +97,14 @@ class Decoder(srd.Decoder): {'id': 'hold', 'name': 'HOLD#', 'desc': 'TODO.'}, {'id': 'wp_acc', 'name': 'WP#/ACC', 'desc': 'TODO.'}, ] - options = {} # TODO + options = {} annotations = [ ['Text', 'Human-readable text'], ] def __init__(self, **kwargs): self.state = None - self.cmdstate = 1 # TODO + self.cmdstate = 1 self.addr = 0 self.data = [] @@ -122,15 +120,18 @@ class Decoder(srd.Decoder): self.put(self.ss, self.es, self.out_ann, data) def handle_wren(self, mosi, miso): - self.putx([0, ['Command: %s' % cmds[self.cmd][1]]]) + self.putx([0, ['Command: %s' % cmds[self.state][1]]]) self.state = None + def handle_wrdi(self, mosi, miso): + pass # TODO + # TODO: Check/display device ID / name def handle_rdid(self, mosi, miso): if self.cmdstate == 1: # Byte 1: Master sends command ID. self.start_sample = self.ss - self.putx([0, ['Command: %s' % cmds[self.cmd][1]]]) + self.putx([0, ['Command: %s' % cmds[self.state][1]]]) elif self.cmdstate == 2: # Byte 2: Slave sends the JEDEC manufacturer ID. self.putx([0, ['Manufacturer ID: 0x%02x' % miso]]) @@ -151,6 +152,66 @@ class Decoder(srd.Decoder): else: self.cmdstate += 1 + def handle_rdsr(self, mosi, miso): + # Read status register: Master asserts CS#, sends RDSR command, + # reads status register byte. If CS# is kept asserted, the status + # register can be read continuously / multiple times in a row. + # When done, the master de-asserts CS# again. + if self.cmdstate == 1: + # Byte 1: Master sends command ID. + self.putx([0, ['Command: %s' % cmds[self.state][1]]]) + elif self.cmdstate >= 2: + # Bytes 2-x: Slave sends status register as long as master clocks. + if self.cmdstate <= 3: # TODO: While CS# asserted. + self.putx([0, ['Status register: 0x%02x' % miso]]) + self.putx([0, [decode_status_reg(miso)]]) + + if self.cmdstate == 3: # TODO: If CS# got de-asserted. + self.state = None + return + + self.cmdstate += 1 + + def handle_wrsr(self, mosi, miso): + pass # TODO + + def handle_read(self, mosi, miso): + # Read data bytes: Master asserts CS#, sends READ command, sends + # 3-byte address, reads >= 1 data bytes, de-asserts CS#. + if self.cmdstate == 1: + # Byte 1: Master sends command ID. + self.putx([0, ['Command: %s' % cmds[self.state][1]]]) + elif self.cmdstate in (2, 3, 4): + # Bytes 2/3/4: Master sends read address (24bits, MSB-first). + self.addr |= (mosi << ((4 - self.cmdstate) * 8)) + # self.putx([0, ['Read address, byte %d: 0x%02x' % \ + # (4 - self.cmdstate, mosi)]]) + if self.cmdstate == 4: + self.putx([0, ['Read address: 0x%06x' % self.addr]]) + self.addr = 0 + elif self.cmdstate >= 5: + # Bytes 5-x: Master reads data bytes (until CS# de-asserted). + # TODO: For now we hardcode 256 bytes per READ command. + if self.cmdstate <= 256 + 4: # TODO: While CS# asserted. + self.data.append(miso) + # self.putx([0, ['New read byte: 0x%02x' % miso]]) + + if self.cmdstate == 256 + 4: # TODO: If CS# got de-asserted. + # s = ', '.join(map(hex, self.data)) + s = ''.join(map(chr, self.data)) + self.putx([0, ['Read data: %s' % s]]) + self.data = [] + self.state = None + return + + self.cmdstate += 1 + + def handle_fast_read(self, mosi, miso): + pass # TODO + + def handle_2read(self, mosi, miso): + pass # TODO + # TODO: Warn/abort if we don't see the necessary amount of bytes. # TODO: Warn if WREN was not seen before. def handle_se(self, mosi, miso): @@ -158,7 +219,7 @@ class Decoder(srd.Decoder): # Byte 1: Master sends command ID. self.addr = 0 self.start_sample = self.ss - self.putx([0, ['Command: %s' % cmds[self.cmd][1]]]) + self.putx([0, ['Command: %s' % cmds[self.state][1]]]) elif self.cmdstate in (2, 3, 4): # Bytes 2/3/4: Master sends sectror address (24bits, MSB-first). self.addr |= (mosi << ((4 - self.cmdstate) * 8)) @@ -177,11 +238,60 @@ class Decoder(srd.Decoder): else: self.cmdstate += 1 + def handle_be(self, mosi, miso): + pass # TODO + + def handle_ce(self, mosi, miso): + pass # TODO + + def handle_ce2(self, mosi, miso): + pass # TODO + + def handle_pp(self, mosi, miso): + # Page program: Master asserts CS#, sends PP command, sends 3-byte + # page address, sends >= 1 data bytes, de-asserts CS#. + if self.cmdstate == 1: + # Byte 1: Master sends command ID. + self.putx([0, ['Command: %s' % cmds[self.state][1]]]) + elif self.cmdstate in (2, 3, 4): + # Bytes 2/3/4: Master sends page address (24bits, MSB-first). + self.addr |= (mosi << ((4 - self.cmdstate) * 8)) + # self.putx([0, ['Page address, byte %d: 0x%02x' % \ + # (4 - self.cmdstate, mosi)]]) + if self.cmdstate == 4: + self.putx([0, ['Page address: 0x%06x' % self.addr]]) + self.addr = 0 + elif self.cmdstate >= 5: + # Bytes 5-x: Master sends data bytes (until CS# de-asserted). + # TODO: For now we hardcode 256 bytes per page / PP command. + if self.cmdstate <= 256 + 4: # TODO: While CS# asserted. + self.data.append(mosi) + # self.putx([0, ['New data byte: 0x%02x' % mosi]]) + + if self.cmdstate == 256 + 4: # TODO: If CS# got de-asserted. + # s = ', '.join(map(hex, self.data)) + s = ''.join(map(chr, self.data)) + self.putx([0, ['Page data: %s' % s]]) + self.data = [] + self.state = None + return + + self.cmdstate += 1 + + def handle_cp(self, mosi, miso): + pass # TODO + + def handle_dp(self, mosi, miso): + pass # TODO + + def handle_rdp_res(self, mosi, miso): + pass # TODO + def handle_rems(self, mosi, miso): if self.cmdstate == 1: # Byte 1: Master sends command ID. self.start_sample = self.ss - self.putx([0, ['Command: %s' % cmds[self.cmd][1]]]) + self.putx([0, ['Command: %s' % cmds[self.state][1]]]) elif self.cmdstate in (2, 3): # Bytes 2/3: Master sends two dummy bytes. # TODO: Check dummy bytes? Check reply from device? @@ -203,9 +313,6 @@ class Decoder(srd.Decoder): self.ids.append(miso) d = 'Manufacturer' if self.manufacturer_id_first else 'Device' self.putx([0, ['%s ID' % d]]) - else: - # TODO: Error? - pass if self.cmdstate == 6: self.end_sample = self.es @@ -215,124 +322,56 @@ class Decoder(srd.Decoder): else: self.cmdstate += 1 - def handle_rdsr(self, mosi, miso): - # Read status register: Master asserts CS#, sends RDSR command, - # reads status register byte. If CS# is kept asserted, the status - # register can be read continuously / multiple times in a row. - # When done, the master de-asserts CS# again. - if self.cmdstate == 1: - # Byte 1: Master sends command ID. - self.putx([0, ['Command: %s' % cmds[self.cmd][1]]]) - elif self.cmdstate >= 2: - # Bytes 2-x: Slave sends status register as long as master clocks. - if self.cmdstate <= 3: # TODO: While CS# asserted. - self.putx([0, ['Status register: 0x%02x' % miso]]) - self.putx([0, [decode_status_reg(miso)]]) + def handle_rems2(self, mosi, miso): + pass # TODO - if self.cmdstate == 3: # TODO: If CS# got de-asserted. - self.state = None - return + def handle_enso(self, mosi, miso): + pass # TODO - self.cmdstate += 1 + def handle_exso(self, mosi, miso): + pass # TODO - def handle_pp(self, mosi, miso): - # Page program: Master asserts CS#, sends PP command, sends 3-byte - # page address, sends >= 1 data bytes, de-asserts CS#. - if self.cmdstate == 1: - # Byte 1: Master sends command ID. - self.putx([0, ['Command: %s' % cmds[self.cmd][1]]]) - elif self.cmdstate in (2, 3, 4): - # Bytes 2/3/4: Master sends page address (24bits, MSB-first). - self.addr |= (mosi << ((4 - self.cmdstate) * 8)) - # self.putx([0, ['Page address, byte %d: 0x%02x' % \ - # (4 - self.cmdstate, mosi)]]) - if self.cmdstate == 4: - self.putx([0, ['Page address: 0x%06x' % self.addr]]) - self.addr = 0 - elif self.cmdstate >= 5: - # Bytes 5-x: Master sends data bytes (until CS# de-asserted). - # TODO: For now we hardcode 256 bytes per page / PP command. - if self.cmdstate <= 256 + 4: # TODO: While CS# asserted. - self.data.append(mosi) - # self.putx([0, ['New data byte: 0x%02x' % mosi]]) - - if self.cmdstate == 256 + 4: # TODO: If CS# got de-asserted. - # s = ', '.join(map(hex, self.data)) - s = ''.join(map(chr, self.data)) - self.putx([0, ['Page data: %s' % s]]) - self.data = [] - self.state = None - return - - self.cmdstate += 1 + def handle_rdscur(self, mosi, miso): + pass # TODO - def handle_read(self, mosi, miso): - # Read data bytes: Master asserts CS#, sends READ command, sends - # 3-byte address, reads >= 1 data bytes, de-asserts CS#. - if self.cmdstate == 1: - # Byte 1: Master sends command ID. - self.putx([0, ['Command: %s' % cmds[self.cmd][1]]]) - elif self.cmdstate in (2, 3, 4): - # Bytes 2/3/4: Master sends read address (24bits, MSB-first). - self.addr |= (mosi << ((4 - self.cmdstate) * 8)) - # self.putx([0, ['Read address, byte %d: 0x%02x' % \ - # (4 - self.cmdstate, mosi)]]) - if self.cmdstate == 4: - self.putx([0, ['Read address: 0x%06x' % self.addr]]) - self.addr = 0 - elif self.cmdstate >= 5: - # Bytes 5-x: Master reads data bytes (until CS# de-asserted). - # TODO: For now we hardcode 256 bytes per READ command. - if self.cmdstate <= 256 + 4: # TODO: While CS# asserted. - self.data.append(miso) - # self.putx([0, ['New read byte: 0x%02x' % miso]]) + def handle_wrscur(self, mosi, miso): + pass # TODO - if self.cmdstate == 256 + 4: # TODO: If CS# got de-asserted. - # s = ', '.join(map(hex, self.data)) - s = ''.join(map(chr, self.data)) - self.putx([0, ['Read data: %s' % s]]) - self.data = [] - self.state = None - return + def handle_esry(self, mosi, miso): + pass # TODO - self.cmdstate += 1 + def handle_dsry(self, mosi, miso): + pass # TODO def decode(self, ss, es, data): ptype, mosi, miso = data # if ptype == 'DATA': - # s = 'MOSI: 0x%02x, MISO: 0x%02x' % (mosi, miso) - # self.put(0, 0, self.out_ann, [0, [s]]) - # pass + # self.putx([0, ['MOSI: 0x%02x, MISO: 0x%02x' % (mosi, miso)]]) # if ptype == 'CS-CHANGE': # if mosi == 1 and miso == 0: - # self.put(0, 0, self.out_ann, [0, ['Asserting CS#']]) + # self.putx([0, ['Asserting CS#']]) # elif mosi == 0 and miso == 1: - # self.put(0, 0, self.out_ann, [0, ['De-asserting CS#']]) - # return + # self.putx([0, ['De-asserting CS#']]) if ptype != 'DATA': return - cmd = mosi self.ss, self.es = ss, es # If we encountered a known chip command, enter the resp. state. if self.state == None: - if cmd in cmds: - self.state = cmd - self.cmd = cmd # TODO: Eliminate? - self.cmdstate = 1 - else: - pass # TODO + self.state = mosi + self.cmdstate = 1 # Handle commands. - if self.state in cmds.keys(): - handle_reg = getattr(self, 'handle_%s' % cmds[self.cmd][0].lower()) + if self.state in cmds: + s = 'handle_%s' % cmds[self.state][0].lower().replace('/', '_') + handle_reg = getattr(self, s) handle_reg(mosi, miso) else: - self.put(0, 0, self.out_ann, [0, ['Unknown command: 0x%02x' % cmd]]) + self.putx([0, ['Unknown command: 0x%02x' % mosi]]) self.state = None