X-Git-Url: https://sigrok.org/gitweb/?p=libsigrokdecode.git;a=blobdiff_plain;f=decoders%2Fspiflash%2Fpd.py;fp=decoders%2Fspiflash%2Fpd.py;h=2ba838e4ca96715aa4d80eaa9ab94b5247c34410;hp=4c5c06b232011d3121668406274b1bc9d91ef10f;hb=1be94d3d0d62d233c33cb1d8e2f5719e2973267c;hpb=6ccb64feb20dcb7833b2452cdfface4d9aa2bd72 diff --git a/decoders/spiflash/pd.py b/decoders/spiflash/pd.py index 4c5c06b..2ba838e 100644 --- a/decoders/spiflash/pd.py +++ b/decoders/spiflash/pd.py @@ -1,7 +1,7 @@ ## ## This file is part of the libsigrokdecode project. ## -## Copyright (C) 2011-2015 Uwe Hermann +## Copyright (C) 2011-2016 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 @@ -21,6 +21,15 @@ import sigrokdecode as srd from .lists import * +L = len(cmds) + +# Don't forget to keep this in sync with 'cmds' is lists.py. +class Ann: + WRSR, PP, READ, WRDI, RDSR, WREN, FAST_READ, SE, RDSCUR, WRSCUR, \ + RDSR2, CE, ESRY, DSRY, REMS, RDID, RDP_RES, CP, ENSO, DP, READ2X, \ + EXSO, CE2, BE, REMS2, \ + BIT, FIELD, WARN = range(L + 3) + def cmd_annotation_classes(): return tuple([tuple([cmd[0].lower(), cmd[1]]) for cmd in cmds.values()]) @@ -72,14 +81,15 @@ class Decoder(srd.Decoder): inputs = ['spi'] outputs = ['spiflash'] annotations = cmd_annotation_classes() + ( - ('bits', 'Bits'), - ('bits2', 'Bits2'), - ('warnings', 'Warnings'), + ('bit', 'Bit'), + ('field', 'Field'), + ('warning', 'Warning'), ) annotation_rows = ( - ('bits', 'Bits', (24, 25)), - ('commands', 'Commands', tuple(range(23 + 1))), - ('warnings', 'Warnings', (26,)), + ('bits', 'Bits', (L + 0,)), + ('fields', 'Fields', (L + 1,)), + ('commands', 'Commands', tuple(range(len(cmds)))), + ('warnings', 'Warnings', (L + 2,)), ) options = ( {'id': 'chip', 'desc': 'Chip', 'default': tuple(chips.keys())[0], @@ -127,7 +137,7 @@ class Decoder(srd.Decoder): return '%s %s' % (self.chip['vendor'], dev) def handle_wren(self, mosi, miso): - self.putx([0, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.WREN, ['Command: %s' % cmds[self.state][1]]]) self.state = None def handle_wrdi(self, mosi, miso): @@ -138,22 +148,22 @@ class Decoder(srd.Decoder): if self.cmdstate == 1: # Byte 1: Master sends command ID. self.ss_block = self.ss - self.putx([2, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.RDID, ['Command: %s' % cmds[self.state][1]]]) elif self.cmdstate == 2: # Byte 2: Slave sends the JEDEC manufacturer ID. - self.putx([2, ['Manufacturer ID: 0x%02x' % miso]]) + self.putx([Ann.RDID, ['Manufacturer ID: 0x%02x' % miso]]) elif self.cmdstate == 3: # Byte 3: Slave sends the memory type (0x20 for this chip). - self.putx([2, ['Memory type: 0x%02x' % miso]]) + self.putx([Ann.RDID, ['Memory type: 0x%02x' % miso]]) elif self.cmdstate == 4: # Byte 4: Slave sends the device ID. self.device_id = miso - self.putx([2, ['Device ID: 0x%02x' % miso]]) + self.putx([Ann.RDID, ['Device ID: 0x%02x' % miso]]) if self.cmdstate == 4: # TODO: Same device ID? Check! d = 'Device: %s' % self.vendor_device() - self.put(self.ss_block, self.es, self.out_ann, [0, [d]]) + self.put(self.ss_block, self.es, self.out_ann, [Ann.RDID, [d]]) self.state = None else: self.cmdstate += 1 @@ -165,11 +175,11 @@ class Decoder(srd.Decoder): # When done, the master de-asserts CS# again. if self.cmdstate == 1: # Byte 1: Master sends command ID. - self.putx([3, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.RDSR, ['Command: %s' % cmds[self.state][1]]]) elif self.cmdstate >= 2: # Bytes 2-x: Slave sends status register as long as master clocks. - self.putx([24, ['Status register: 0x%02x' % miso]]) - self.putx([25, [decode_status_reg(miso)]]) + self.putx([Ann.BIT, ['Status register: 0x%02x' % miso]]) + self.putx([Ann.FIELD, [decode_status_reg(miso)]]) self.cmdstate += 1 @@ -180,11 +190,11 @@ class Decoder(srd.Decoder): # When done, the master de-asserts CS# again. if self.cmdstate == 1: # Byte 1: Master sends command ID. - self.putx([3, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.RDSR2, ['Command: %s' % cmds[self.state][1]]]) elif self.cmdstate >= 2: # Bytes 2-x: Slave sends status register 2 as long as master clocks. - self.putx([24, ['Status register 2: 0x%02x' % miso]]) - self.putx([25, [decode_status_reg(miso)]]) + self.putx([Ann.BIT, ['Status register 2: 0x%02x' % miso]]) + self.putx([Ann.FIELD, [decode_status_reg(miso)]]) # TODO: Handle status register 2 correctly. self.cmdstate += 1 @@ -196,11 +206,11 @@ class Decoder(srd.Decoder): # the WRSR command will not be executed. if self.cmdstate == 1: # Byte 1: Master sends command ID. - self.putx([3, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.WRSR, ['Command: %s' % cmds[self.state][1]]]) elif self.cmdstate in (2, 3): # Bytes 2 and/or 3: Master sends status register byte(s). - self.putx([24, ['Status register: 0x%02x' % miso]]) - self.putx([25, [decode_status_reg(miso)]]) + self.putx([Ann.BIT, ['Status register: 0x%02x' % miso]]) + self.putx([Ann.FIELD, [decode_status_reg(miso)]]) # TODO: Handle status register 2 correctly. self.cmdstate += 1 @@ -210,14 +220,14 @@ class Decoder(srd.Decoder): # 3-byte address, reads >= 1 data bytes, de-asserts CS#. if self.cmdstate == 1: # Byte 1: Master sends command ID. - self.putx([5, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.READ, ['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' % \ + # self.putx([Ann.READ, ['Read address, byte %d: 0x%02x' % \ # (4 - self.cmdstate, mosi)]]) if self.cmdstate == 4: - self.putx([24, ['Read address: 0x%06x' % self.addr]]) + self.putx([Ann.BIT, ['Read address: 0x%06x' % self.addr]]) self.addr = 0 elif self.cmdstate >= 5: # Bytes 5-x: Master reads data bytes (until CS# de-asserted). @@ -233,17 +243,17 @@ class Decoder(srd.Decoder): # 3-byte address + 1 dummy byte, reads >= 1 data bytes, de-asserts CS#. if self.cmdstate == 1: # Byte 1: Master sends command ID. - self.putx([5, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.FAST_READ, ['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.putx([24, ['AD%d: 0x%02x' % (self.cmdstate - 1, mosi)]]) + # Bytes 2/3/4: Master sends read address (25bits, MSB-first). + self.putx([Ann.BIT, ['AD%d: 0x%02x' % (self.cmdstate - 1, mosi)]]) if self.cmdstate == 2: self.ss_block = self.ss self.addr |= (mosi << ((4 - self.cmdstate) * 8)) elif self.cmdstate == 5: - self.putx([24, ['Dummy byte: 0x%02x' % mosi]]) + self.putx([Ann.BIT, ['Dummy byte: 0x%02x' % mosi]]) self.es_block = self.es - self.putb([5, ['Read address: 0x%06x' % self.addr]]) + self.putb([Ann.FAST_READ, ['Read address: 0x%06x' % self.addr]]) self.addr = 0 elif self.cmdstate >= 6: # Bytes 6-x: Master reads data bytes (until CS# de-asserted). @@ -261,7 +271,7 @@ class Decoder(srd.Decoder): # Recombine the bytes and pass them up to the handle_fast_read command. if self.cmdstate == 1: # Byte 1: Master sends command ID. - self.putx([5, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.READ2X, ['Command: %s' % cmds[self.state][1]]]) self.cmdstate = 2 else: # Dual I/O mode. @@ -278,21 +288,21 @@ class Decoder(srd.Decoder): # Byte 1: Master sends command ID. self.addr = 0 self.ss_block = self.ss - self.putx([8, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.SE, ['Command: %s' % cmds[self.state][1]]]) elif self.cmdstate in (2, 3, 4): # Bytes 2/3/4: Master sends sector address (24bits, MSB-first). self.addr |= (mosi << ((4 - self.cmdstate) * 8)) - # self.putx([0, ['Sector address, byte %d: 0x%02x' % \ + # self.putx([Ann.SE, ['Sector address, byte %d: 0x%02x' % \ # (4 - self.cmdstate, mosi)]]) if self.cmdstate == 4: d = 'Erase sector %d (0x%06x)' % (self.addr, self.addr) - self.put(self.ss_block, self.es, self.out_ann, [24, [d]]) + self.put(self.ss_block, self.es, self.out_ann, [Ann.BIT, [d]]) # TODO: Max. size depends on chip, check that too if possible. if self.addr % 4096 != 0: # Sector addresses must be 4K-aligned (same for all 3 chips). d = 'Warning: Invalid sector address!' - self.put(self.ss_block, self.es, self.out_ann, [101, [d]]) + self.put(self.ss_block, self.es, self.out_ann, [Ann.WARN, [d]]) self.state = None else: self.cmdstate += 1 @@ -311,14 +321,14 @@ class Decoder(srd.Decoder): # page address, sends >= 1 data bytes, de-asserts CS#. if self.cmdstate == 1: # Byte 1: Master sends command ID. - self.putx([12, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.PP, ['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' % \ + # self.putx([Ann.PP, ['Page address, byte %d: 0x%02x' % \ # (4 - self.cmdstate, mosi)]]) if self.cmdstate == 4: - self.putx([24, ['Page address: 0x%06x' % self.addr]]) + self.putx([Ann.BIT, ['Page address: 0x%06x' % self.addr]]) self.addr = 0 elif self.cmdstate >= 5: # Bytes 5-x: Master sends data bytes (until CS# de-asserted). @@ -339,14 +349,14 @@ class Decoder(srd.Decoder): if self.cmdstate == 1: # Byte 1: Master sends command ID. self.ss_block = self.ss - self.putx([16, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.RDP_RES, ['Command: %s' % cmds[self.state][1]]]) elif self.cmdstate in (2, 3, 4): # Bytes 2/3/4: Master sends three dummy bytes. - self.putx([24, ['Dummy byte: %02x' % mosi]]) + self.putx([Ann.BIT, ['Dummy byte: %02x' % mosi]]) elif self.cmdstate == 5: # Byte 5: Slave sends device ID. self.device_id = miso - self.putx([24, ['Device: %s' % self.vendor_device()]]) + self.putx([Ann.BIT, ['Device: %s' % self.vendor_device()]]) self.state = None self.cmdstate += 1 @@ -355,33 +365,33 @@ class Decoder(srd.Decoder): if self.cmdstate == 1: # Byte 1: Master sends command ID. self.ss_block = self.ss - self.putx([16, ['Command: %s' % cmds[self.state][1]]]) + self.putx([Ann.REMS, ['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? - self.putx([24, ['Dummy byte: %s' % mosi]]) + self.putx([Ann.BIT, ['Dummy byte: %s' % mosi]]) elif self.cmdstate == 4: # Byte 4: Master sends 0x00 or 0x01. # 0x00: Master wants manufacturer ID as first reply byte. # 0x01: Master wants device ID as first reply byte. self.manufacturer_id_first = True if (mosi == 0x00) else False d = 'manufacturer' if (mosi == 0x00) else 'device' - self.putx([24, ['Master wants %s ID first' % d]]) + self.putx([Ann.BIT, ['Master wants %s ID first' % d]]) elif self.cmdstate == 5: # Byte 5: Slave sends manufacturer ID (or device ID). self.ids = [miso] d = 'Manufacturer' if self.manufacturer_id_first else 'Device' - self.putx([24, ['%s ID' % d]]) + self.putx([Ann.BIT, ['%s ID' % d]]) elif self.cmdstate == 6: # Byte 6: Slave sends device ID (or manufacturer ID). self.ids.append(miso) d = 'Manufacturer' if self.manufacturer_id_first else 'Device' - self.putx([24, ['%s ID' % d]]) + self.putx([Ann.BIT, ['%s ID' % d]]) if self.cmdstate == 6: id = self.ids[1] if self.manufacturer_id_first else self.ids[0] self.device_id = id - self.putx([24, ['Device: %s' % self.vendor_device()]]) + self.putx([Ann.BIT, ['Device: %s' % self.vendor_device()]]) self.state = None else: self.cmdstate += 1 @@ -415,7 +425,7 @@ class Decoder(srd.Decoder): s = ' '.join([('%02x' % b) for b in self.data]) else: s = ''.join(map(chr, self.data)) - self.putb([25, ['%s %d bytes: %s' % (label, len(self.data), s)]]) + self.putb([Ann.FIELD, ['%s %d bytes: %s' % (label, len(self.data), s)]]) def decode(self, ss, es, data): ptype, mosi, miso = data @@ -437,5 +447,5 @@ class Decoder(srd.Decoder): try: self.cmd_handlers[self.state](mosi, miso) except KeyError: - self.putx([24, ['Unknown command: 0x%02x' % mosi]]) + self.putx([Ann.BIT, ['Unknown command: 0x%02x' % mosi]]) self.state = None