Add first simple test with a simple 2-dimensional array

This commit is contained in:
Dennis Potter 2021-10-03 23:24:16 -07:00
parent c4dca87ab5
commit 7d5ddaf47c
Signed by: Dennis
GPG Key ID: 186A8AD440942BAF
4 changed files with 195 additions and 3 deletions

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@ -1,5 +1,8 @@
ALL_COCOTB_TESTS = $(shell ls cocotb_tests/test_*.py | sed -E 's|.*?/test_(.*?).py|\1|g') ALL_COCOTB_TESTS = $(shell ls cocotb_tests/test_*.py | sed -E 's|.*?/test_(.*?).py|\1|g')
.PHONY: clean
.PRECIOUS: build_dirs/%/compile.f
default: $(ALL_COCOTB_TESTS) default: $(ALL_COCOTB_TESTS)
# This target will always rebuild, which is fine since we want to be sure to execute any # This target will always rebuild, which is fine since we want to be sure to execute any
@ -31,15 +34,13 @@ default: $(ALL_COCOTB_TESTS)
@echo "##############################################################################" @echo "##############################################################################"
@echo "##############################################################################" @echo "##############################################################################"
build_dirs/%/*.sv: systemrdl/%.rdl build_dirs/%/compile.f: systemrdl/%.rdl
../srdl2sv/main.py $? --out_dir $(shell dirname $@) --file_log_level DEBUG --stream_log_level DEBUG ../srdl2sv/main.py $? --out_dir $(shell dirname $@) --file_log_level DEBUG --stream_log_level DEBUG
build_dirs/%/compile.f: build_dirs/%/*.sv
ls $(PWD)/$(@D)/*_pkg.sv > $@ ls $(PWD)/$(@D)/*_pkg.sv > $@
ls $(PWD)/$(@D)/*amba*.sv >> $@ ls $(PWD)/$(@D)/*amba*.sv >> $@
ls $(PWD)/$(@D)/*.sv | grep -v '.*_pkg.sv$$' | grep -v '.*amba.*' >> $@ ls $(PWD)/$(@D)/*.sv | grep -v '.*_pkg.sv$$' | grep -v '.*amba.*' >> $@
.PHONY: clean
clean: clean:
rm -rf build_dirs rm -rf build_dirs

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@ -0,0 +1,140 @@
from enum import Enum
import math
import cocotb
from cocotb.triggers import Timer, RisingEdge
# TODO: Does not yet implement HREADY_OUT == 0
# TODO: Add support for HRESP (and throw error if HRESP occurs)
class HTRANS(Enum):
IDLE = 0
BUSY = 1
NONSEQ = 2
SEQ = 3
class AMBA3AHBLiteDriver:
"""Wraps up a collection of functions to drive an AMBA3AHBLite Bus.
This is not an extensive set of features and merely enough to test
out SRDL2SV registers.
"""
def __init__(self, dut, nbytes: int):
self._nbytes = nbytes
self._dut = dut
@cocotb.coroutine
async def reset(self, time: int = 10):
"""Resets bus for a given amount of time"""
self._dut.HRESETn <= 0
await Timer(time, units='ns')
await RisingEdge(self._dut.clk)
self._dut.HRESETn <= 1
@cocotb.coroutine
async def write(self, address: int, value: int, nbytes = None, step_size = None):
if not nbytes:
nbytes = self._nbytes
if not step_size:
if (step_size := address % self._nbytes) == 0:
step_size = self._nbytes
# Dictionary to return address/value pairs
write_dict = {}
# Start counting bytes
nbytes_cnt = 0
# Initiate write
self._dut.HSEL <= 1
self._dut.HWRITE <= 1
self._dut.HADDR <= address
self._dut.HTRANS <= HTRANS.NONSEQ.value
self._dut.HSIZE <= int(math.log2(step_size))
await RisingEdge(self._dut.clk)
while True:
# Save address from previous phase
previous_address = hex(self._dut.HADDR.value)
# Set data for dataphase
self._dut.HWDATA <= (value >> (nbytes_cnt * 8))
# Check if we are done in next phase
if (nbytes_cnt := nbytes_cnt + step_size) >= nbytes:
self._dut.HTRANS <= HTRANS.IDLE.value
else:
# Update address
self._dut.HADDR <= self._dut.HADDR.value + step_size
# Wait for next clock cycle
await RisingEdge(self._dut.clk)
# Save into dictionary
write_dict[previous_address] = hex(self._dut.HWDATA.value)
if nbytes_cnt >= nbytes:
break
self._dut.HWRITE <= 0
self._dut.HSEL <= 0
await RisingEdge(self._dut.clk)
return write_dict
@cocotb.coroutine
async def read(self, address: int, nbytes = None, step_size = None):
if not nbytes:
nbytes = self._nbytes
if not step_size:
if (step_size := address % self._nbytes) == 0:
step_size = self._nbytes
# Dictionary to return address/value pairs
read_dict = {}
# Start counting bytes
nbytes_cnt = 0
# Initiate read
self._dut.HSEL <= 1
self._dut.HWRITE <= 0
self._dut.HADDR <= address
self._dut.HTRANS <= HTRANS.NONSEQ.value
self._dut.HSIZE <= int(math.log2(step_size))
await RisingEdge(self._dut.clk)
while True:
# Save address from previous phase
previous_address = hex(self._dut.HADDR.value)
# Check if we are done in next phase
if (nbytes_cnt := nbytes_cnt + step_size) >= nbytes:
self._dut.HTRANS <= HTRANS.IDLE.value
else:
# Update address
self._dut.HADDR <= self._dut.HADDR.value + step_size
# Wait for next clock cycle
await RisingEdge(self._dut.clk)
# Save into dictionary
read_dict[previous_address] = hex(self._dut.HRDATA.value)
if nbytes_cnt >= nbytes:
break
self._dut.HTRANS <= HTRANS.IDLE.value
self._dut.HSEL <= 0
await RisingEdge(self._dut.clk)
return read_dict

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from enum import Enum
from cocotb.clock import Clock
import cocotb
import random
from libs import AMBA3AHBLiteDriver
@cocotb.test()
async def test_simple_rw_reg(dut):
"""Test writing via the bus and reading back"""
clock = Clock(dut.clk, 1, units="ns") # Create a 10us period clock on port clk
cocotb.fork(clock.start()) # Start the clock
bus = AMBA3AHBLiteDriver.AMBA3AHBLiteDriver(dut=dut, nbytes=4)
await bus.reset()
# Write in 1, 2, and 4 byte steps
for step_size in (1, 2, 4):
dut._log.info(f"Writing in {step_size} steps.")
write_dict = {}
read_dict = {}
for addr in range(0, 8, step_size):
rand_val = random.randint(0, (1 << (step_size * 8))-1)
dut._log.info(f"Write value {rand_val} to addres {addr}.")
write_dict.update(
await bus.write(
address=addr,
value=rand_val,
nbytes=step_size,
step_size=step_size))
for addr in range(0, 8, step_size):
read_dict.update(
await bus.read(
address=addr,
nbytes=step_size,
step_size=step_size))
# Check at end of every step_size
dut._log.info(f"Wrote dictionary {write_dict}")
dut._log.info(f"Read back dictionary {read_dict}")
assert write_dict == read_dict, "Read and write values differ!"