Add decoder for Nordic Semiconductor nRF905 chip

1 files changed, 353 insertions, 0 deletions

diff --git a/decoders/nrf905/pd.py b/decoders/nrf905/pd.py
new file mode 100644
index 0000000..4771314
--- /dev/null
+++ b/decoders/nrf905/pd.py
@@ -0,0 +1,353 @@
+##
+## This file is part of the libsigrokdecode project.
+##
+## Copyright (C) 2020 Jorge Solla Rubiales <jorgesolla@gmail.com>
+##
+## Permission is hereby granted, free of charge, to any person obtaining a copy
+## of this software and associated documentation files (the "Software"), to deal
+## in the Software without restriction, including without limitation the rights
+## to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+## copies of the Software, and to permit persons to whom the Software is
+## furnished to do so, subject to the following conditions:
+##
+## The above copyright notice and this permission notice shall be included in all
+## copies or substantial portions of the Software.
+##
+## THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+## IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+## FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+## AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+## LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+## OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+## SOFTWARE.
+
+import sigrokdecode as srd
+
+CFG_REGS = {
+    0: [{'name': 'CH_NO', 'stbit': 7, 'nbits': 8}],
+    1: [
+        {'name': 'AUTO_RETRAN', 'stbit': 5, 'nbits': 1,
+         'opts': {0: 'No retransmission', 1: 'Retransmission of data packet'}},
+        {'name': 'RX_RED_PWR', 'stbit': 4, 'nbits': 1,
+         'opts': {0: 'Normal operation', 1: 'Reduced power'}},
+        {'name': 'PA_PWR', 'stbit': 3, 'nbits': 2,
+         'opts': {0: '-10 dBm', 1: '-2 dBm', 2: '+6 dBm', 3: '+10 dBm'}},
+        {'name': 'HFREQ_PLL', 'stbit': 1, 'nbits': 1,
+         'opts': {0: '433 MHz', 1: '868 / 915 MHz'}},
+        {'name': 'CH_NO_8', 'stbit': 0, 'nbits': 1},
+    ],
+    2: [
+        {'name': 'TX_AFW (TX addr width)', 'stbit': 6, 'nbits': 3},
+        {'name': 'RX_AFW (RX addr width)', 'stbit': 2, 'nbits': 3},
+    ],
+    3: [{'name': 'RW_PW (RX payload width)', 'stbit': 5, 'nbits': 6}],
+    4: [{'name': 'TX_PW (TX payload width)', 'stbit': 5, 'nbits': 6}],
+    5: [{'name': 'RX_ADDR_0', 'stbit': 7, 'nbits': 8}],
+    6: [{'name': 'RX_ADDR_1', 'stbit': 7, 'nbits': 8}],
+    7: [{'name': 'RX_ADDR_2', 'stbit': 7, 'nbits': 8}],
+    8: [{'name': 'RX_ADDR_3', 'stbit': 7, 'nbits': 8}],
+    9: [
+        {'name': 'CRC_MODE', 'stbit': 7, 'nbits': 1,
+         'opts': {0: '8 CRC check bit', 1: '16 CRC check bit'}},
+        {'name': 'CRC_EN', 'stbit': 6, 'nbits': 1,
+         'opts': {0: 'Disabled', 1: 'Enabled'}},
+        {'name': 'XOR', 'stbit': 5, 'nbits': 3,
+         'opts': {0: '4 MHz', 1: '8 MHz', 2: '12 MHz',
+                  3: '16 MHz', 4: '20 MHz'}},
+        {'name': 'UP_CLK_EN', 'stbit': 2, 'nbits': 1,
+         'opts': {0: 'No external clock signal avail.',
+                  1: 'External clock signal enabled'}},
+        {'name': 'UP_CLK_FREQ', 'stbit': 1, 'nbits': 2,
+         'opts': {0: '4 MHz', 1: '2 MHz', 2: '1 MHz', 3: '500 kHz'}},
+    ],
+}
+
+CHN_CFG = [
+    {'name': 'PA_PWR', 'stbit': 3, 'nbits': 2,
+     'opts': {0: '-10 dBm', 1: '-2 dBm', 2: '+6 dBm', 3: '+10 dBm'}},
+    {'name': 'HFREQ_PLL', 'stbit': 1, 'nbits': 1,
+     'opts': {0: '433 MHz', 1: '868 / 915 MHz'}},
+]
+
+STAT_REG = [
+    {'name': 'AM', 'stbit': 7, 'nbits': 1},
+    {'name': 'DR', 'stbit': 5, 'nbits': 1},
+]
+
+class Decoder(srd.Decoder):
+    api_version = 3
+    id = 'nrf905'
+    name = 'nRF905'
+    longname = 'Nordic Semiconductor nRF905'
+    desc = '433/868/933MHz transceiver chip.'
+    license = 'mit'
+    inputs = ['spi']
+    outputs = ['nrf905']
+
+    annotations = (
+        ('cmd', 'Command sent to the device'),
+        ('reg-write', 'Config register written to the device'),
+        ('reg-read', 'Config register read from the device'),
+        ('tx-data', 'Payload sent to the device'),
+        ('rx-data', 'Payload read from the device'),
+        ('resp', 'Response to commands received from the device'),
+        ('warning', 'Warning')
+    )
+
+    ann_cmd = 0
+    ann_reg_wr = 1
+    ann_reg_rd = 2
+    ann_tx = 3
+    ann_rx = 4
+    ann_resp = 5
+    ann_warn = 6
+
+    annotation_rows = (
+        ('commands', 'Commands', (ann_cmd,)),
+        ('responses', 'Responses', (ann_resp,)),
+        ('registers', 'Registers', (ann_reg_wr, ann_reg_rd)),
+        ('tx', 'Transmitted data', (ann_tx,)),
+        ('rx', 'Received data', (ann_rx,)),
+        ('warnings', 'Warnings', (ann_warn,))
+    )
+
+    def reset_data(self):
+        self.mosi_bytes, self.miso_bytes = [], []
+        self.cmd_samples = {'ss': 0, 'es': 0}
+
+    def __init__(self):
+        self.ss_cmd, self.es_cmd = 0, 0
+        self.cs_asserted = False
+        self.reset_data()
+
+    def start(self):
+        self.out_ann = self.register(srd.OUTPUT_ANN)
+
+    def extract_bits(self, byte, start_bit, num_bits):
+        begin = 7 - start_bit
+        end = begin + num_bits
+
+        if begin < 0 or end > 8:
+            return 0
+
+        binary = format(byte, '08b')[begin:end]
+        return int(binary, 2)
+
+    def extract_vars(self, reg_vars, reg_value):
+        # Iterate all vars on current register.
+        data = ''
+        for var in reg_vars:
+            var_value = self.extract_bits(reg_value, var['stbit'],
+                                          var['nbits'])
+            data += var['name'] + ' = ' + str(var_value)
+            opt = ''
+
+            # If var has options, just add the option meaning.
+            if 'opts' in var:
+                if var_value in var['opts']:
+                    opt = var['opts'][var_value]
+                else:
+                    opt = 'unknown'
+                data += ' (' + opt + ')'
+
+            # Add var separator.
+            if reg_vars.index(var) != len(reg_vars) - 1:
+                data = data + ' | '
+        return data
+
+    def parse_config_register(self, addr, value, is_write):
+        reg_value = value[0]
+        data = 'CFG_REG[' + hex(addr) + '] -> '
+
+        # Get register vars for this register.
+        if addr in CFG_REGS:
+            reg_vars = CFG_REGS[addr]
+        else:
+            # Invalid register address.
+            self.put(value[1], value[2],
+                     self.out_ann, [self.ann_warn, ['Invalid reg. addr']])
+            return
+
+        data += self.extract_vars(reg_vars, reg_value)
+
+        if is_write:
+            ann = self.ann_reg_wr
+        else:
+            ann = self.ann_reg_rd
+
+        self.put(value[1], value[2], self.out_ann, [ann, [data]])
+
+    def parse_config_registers(self, addr, registers, is_write):
+        i = 0
+        while i < len(registers):
+            reg_addr = i + addr
+            if reg_addr <= 9:
+                self.parse_config_register(reg_addr, registers[i], is_write)
+            else:
+                print('INVALID REGISTER ADDR ' + hex(reg_addr))
+            i += 1
+
+    def dump_cmd_bytes(self, prefix, cmd_bytes, ann):
+        ss = cmd_bytes[1][1]
+        es = 0
+        data = ''
+        for byte in cmd_bytes[1:]:
+            data += '0x' + format(byte[0], '02x') + ' '
+            es = byte[2]
+
+        self.put(ss, es, self.out_ann, [ann, [prefix + data]])
+
+    def handle_WC(self):
+        start_addr = self.mosi_bytes[0][0] & 0x0F
+
+        if start_addr > 9:
+            print('ERROR: WRONG OFFSET')
+            return
+
+        self.parse_config_registers(start_addr, self.mosi_bytes[1:], True)
+
+    def handle_RC(self):
+        start_addr = self.mosi_bytes[0][0] & 0x0F
+
+        if start_addr > 9:
+            print('ERROR: WRONG OFFSET')
+            return
+        self.parse_config_registers(start_addr, self.miso_bytes[1:], False)
+
+    def handle_WTP(self):
+        self.dump_cmd_bytes('Write TX payload.: ',
+                            self.mosi_bytes, self.ann_tx)
+
+    def handle_RTP(self):
+        self.dump_cmd_bytes('Read TX payload: ',
+                            self.miso_bytes, self.ann_resp)
+
+    def handle_WTA(self):
+        self.dump_cmd_bytes('Write TX addr: ',
+                            self.mosi_bytes, self.ann_reg_wr)
+
+    def handle_RTA(self):
+        self.dump_cmd_bytes('Read TX addr: ',
+                            self.miso_bytes, self.ann_resp)
+
+    def handle_RRP(self):
+        self.dump_cmd_bytes('Read RX payload: ',
+                            self.miso_bytes, self.ann_rx)
+
+    def handle_CC(self):
+        cmd = self.mosi_bytes[0]
+        dta = self.mosi_bytes[1]
+
+        channel = (cmd[0] & 0x01) << 8
+        channel = channel + dta[0]
+
+        data = self.extract_vars(CHN_CFG, cmd[0])
+
+        data = data + '| CHN = ' + str(channel)
+        self.put(self.mosi_bytes[0][1], self.mosi_bytes[1][2],
+                 self.out_ann, [self.ann_reg_wr, [data]])
+
+    def handle_STAT(self):
+        status = 'STAT = ' + self.extract_vars(STAT_REG, self.miso_bytes[0][0])
+        self.put(self.miso_bytes[0][1], self.miso_bytes[0][2],
+                 self.out_ann, [self.ann_reg_rd, [status]])
+
+    def process_cmd(self):
+        cmd = ''
+        cmd_name = ''
+        cmd_hnd = None
+
+        for byte in self.mosi_bytes:
+            cmd += hex(byte[0]) + ' '
+
+        cmd = self.mosi_bytes[0][0]
+
+        if (cmd & 0xF0) == 0x00:
+            cmd_name = 'CMD: W_CONFIG (WC)'
+            cmd_hnd = self.handle_WC
+
+        elif (cmd & 0xF0) == 0x10:
+            cmd_name = 'CMD: R_CONFIG (RC)'
+            cmd_hnd = self.handle_RC
+
+        elif cmd == 0x20:
+            cmd_name = 'CMD: W_TX_PAYLOAD (WTP)'
+            cmd_hnd = self.handle_WTP
+
+        elif cmd == 0x21:
+            cmd_name = 'CMD: R_TX_PAYLOAD (RTP)'
+            cmd_hnd = self.handle_RTP
+
+        elif cmd == 0x22:
+            cmd_name = 'CMD: W_TX_ADDRESS (WTA)'
+            cmd_hnd = self.handle_WTA
+
+        elif cmd == 0x23:
+            cmd_name = 'CMD: R_TX_ADDRESS (RTA)'
+            cmd_hnd = self.handle_RTA
+
+        elif cmd == 0x24:
+            cmd_name = 'CMD: R_RX_PAYLOAD (RRP)'
+            cmd_hnd = self.handle_RRP
+
+        elif (cmd & 0xF0 == 0x80):
+            cmd_name = 'CMD: CHANNEL_CONFIG (CC)'
+            cmd_hnd = self.handle_CC
+
+        # Report command name.
+        self.put(self.cmd_samples['ss'], self.cmd_samples['es'],
+                 self.out_ann, [self.ann_cmd, [cmd_name]])
+
+        # Handle status byte.
+        self.handle_STAT()
+
+        # Handle command.
+        if cmd_hnd is not None:
+            cmd_hnd()
+
+    def set_cs_status(self, sample, asserted):
+        if self.cs_asserted == asserted:
+            return
+
+        if asserted:
+            self.cmd_samples['ss'] = sample
+            self.cmd_samples['es'] = -1
+        else:
+            self.cmd_samples['es'] = sample
+
+        self.cs_asserted = asserted
+
+    def decode(self, ss, es, data):
+        ptype, data1, data2 = data
+
+        if ptype == 'CS-CHANGE':
+            if data1 is None and data2 is None:
+                self.requirements_met = False
+                raise ChannelError('CS# pin required.')
+
+            if data1 is None and data2 == 0:
+                self.set_cs_status(ss, True)
+
+            elif data1 is None and data2 == 1:
+                self.set_cs_status(ss, False)
+
+            elif data1 == 1 and data2 == 0:
+                self.set_cs_status(ss, True)
+
+            elif data1 == 0 and data2 == 1:
+                self.set_cs_status(ss, False)
+                if len(self.mosi_bytes):
+                    self.process_cmd()
+                    self.reset_data()
+
+        elif ptype == 'DATA':
+            # Ignore traffic if CS is not asserted.
+            if self.cs_asserted is False:
+                return
+
+            mosi, miso = data1, data2
+            if miso is None or mosi is None:
+                raise ChannelError('Both MISO and MOSI pins required.')
+
+            self.mosi_bytes.append((mosi, ss, es))
+            self.miso_bytes.append((miso, ss, es))