caravel/verilog/dv/cocotb/wb_models/housekeepingWB/HKSPImonitor.py

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from fnmatch import fnmatch
import cocotb
from cocotb.triggers import Timer, FallingEdge,RisingEdge, ReadOnly
from cocotb_bus.monitors import Monitor
from cocotb.log import SimLogFormatter, SimTimeContextFilter
from cocotb.binary import BinaryValue
from cocotb.result import TestFailure
from math import ceil
import copy
import logging
from wb_models.housekeepingWB.HKmonitor import HKmonitor
from interfaces.common import Macros
class HKSPImonitor(Monitor):
"""Observes single input """
def __init__(self, name, block_path,interfaces, clock,reset,is_logger = False, input=True, callback=None, event=None):
self.name = name
self.interfaces = interfaces
self.clock = clock
self.reset = reset
self.block_path = block_path
self.is_logger = is_logger
self.input = input
self.setup_logger()
Monitor.__init__(self, callback, event)
async def _monitor_recv(self):
old_trans_hold = None
old_trans_no_valid = None
while True:
if Macros['GL']:
await RisingEdge(self.block_path.clknet_0_mgmt_gpio_in) # the main reason for doing all this can't use mgmt_gpio_in[4] as signal
else :
await RisingEdge(self.block_path.hkspi.SCK) # the main reason for doing all this can't use mgmt_gpio_in[4] as signal
cocotb.log.debug(f'reset {self.reset.value.binstr }')
if self.reset.value.binstr == '0':
continue
mgmt_gpio_in = self.block_path.mgmt_gpio_in.value
gpio_size = mgmt_gpio_in.n_bits-1
CSB = mgmt_gpio_in[gpio_size-3]
if CSB.binstr == '1':
continue
SCK = mgmt_gpio_in[gpio_size-4]
SDI = mgmt_gpio_in[gpio_size-2]
SDO = self.block_path.mgmt_gpio_out.value[gpio_size-1]
if not self.input:
if self.block_path.hkspi.SCK.value.binstr != '0':
continue
# update signal
self.interfaces['CSB']['val'] = CSB
self.interfaces['SCK']['val'] = SCK
if self.input:
self.interfaces['SDI']['val'] = SDI
else :
self.interfaces['SDO']['val'] = SDO
# logger
self.logger.debug(f' ')
self.handler.terminator = ""
self.handler.setFormatter(SimLogFormatter())
self.logger.debug(f'')
self.handler.setFormatter(logging.Formatter('%(message)s'))
for key2,signal in self.interfaces.items():
if fnmatch(key2,"_*"):
continue
if signal['val'].is_resolvable:
length = self.lengths[key2] - (len(hex(signal['val'].integer)))
self.logger.debug(f" {hex(signal['val'].integer)}{' '*length}|")
# signal['val'] = self.block_path._id(signal['signal'],False).value.integer
else:
length = self.lengths[key2] - (len('x'))
self.logger.debug(f" x{' '*length}|")
self.handler.terminator = "\n"
self._recv(self.interfaces)
"""method for setting up logger for WB model"""
def setup_logger(self):
self.logger = logging.getLogger(f'HouseKeeping{self.name}')
self.logger.setLevel(logging.DEBUG)
if not self.is_logger:
self.logger.setLevel(logging.INFO)
self.handler = logging.StreamHandler()
# return
else :
self.handler = logging.FileHandler(f"{self.name}.log",mode='w')
self.handler.addFilter(SimTimeContextFilter())
self.logger.addHandler(self.handler)
# get the sizes of signals
#for key,interface in self.interfaces.items():
for key,signal in self.interfaces.items():
if fnmatch(key,"_*"):
continue
signal['val'] = BinaryValue(value=0,n_bits=1)
size = signal['val'].n_bits
signal['val'] = BinaryValue(value = int(size) * '1',n_bits=size)
# set the logger file header
# set first line
self.handler.terminator = ""
self.logger.debug(f' timestamp level ')
length =0
for key2,signal in self.interfaces.items():
if fnmatch(key2,"_*"):
continue
length += max(ceil(signal['val'].n_bits/4)+2 , len(key2)) +3
length -= len(key)+1
self.logger.debug(f'| signals{" "*int(length)}')
self.handler.terminator = "\n"
self.logger.debug(f' ')
# set second line
self.handler.terminator = ""
self.logger.debug(f'{" "*20}|')
length =0
self.lengths = dict()
for key2,signal in self.interfaces.items():
if fnmatch(key2,"_*"):
continue
self.lengths[key2] = max((len(hex(signal['val'].integer))),len(key2)) +1
length = self.lengths[key2] - len(key2)
self.logger.debug(f'{key2}{" "*length} ')
self.handler.terminator = "\n"
class CSBmonitor(Monitor):
"""Observes single input """
def __init__(self, name, block_path,interfaces, clock,reset,is_logger = False, input=True, callback=None, event=None):
self.name = name
self.interfaces = interfaces
self.clock = clock
self.reset = reset
self.block_path = block_path
self.is_logger = is_logger
self.input = input
Monitor.__init__(self, callback, event)
async def _monitor_recv(self):
while True:
if Macros['GL']:
await RisingEdge(self.block_path.net67)
else:
await RisingEdge(self.block_path.hkspi.CSB)
self._recv(True)