import random import cocotb from cocotb.triggers import FallingEdge,RisingEdge,ClockCycles import cocotb.log from interfaces.cpu import RiskV from interfaces.defsParser import Regs from cocotb.result import TestSuccess from tests.common_functions.test_functions import * from tests.bitbang.bitbang_functions import * from interfaces.caravel import GPIO_MODE from cocotb.binary import BinaryValue reg = Regs() @cocotb.test() @repot_test async def la(dut): caravelEnv,clock = await test_configure(dut,timeout_cycles=67415) cpu = RiskV(dut) cpu.cpu_force_reset() cpu.cpu_release_reset() pass_list = (0x1B,0x2B,0x3B,0x4B,0x5B,0x6B,0x7B,0x8B,0x9B,0xaB) fail_list = (0x1E,0x2E,0x3E,0x4E,0x5E,0x6E,0x7E,0x8E,0x9E,0xaE) phases_fails = 10 phases_passes = 0 reg1 =0 # buffer while True: if cpu.read_debug_reg2() == 0xFF: # test finish break if reg1 != cpu.read_debug_reg1(): reg1 = cpu.read_debug_reg1() if reg1 in pass_list: # pass phase phases_passes +=1 phases_fails -=1 cocotb.log.info(f"[TEST] test passes phase {hex(reg1)[2]}") elif reg1 in fail_list: # fail phase cocotb.log.error(f"[TEST] test fails phase {hex(reg1)[2]} incorrect value recieved {hex(cpu.read_debug_reg2())}") await ClockCycles(caravelEnv.clk,1) if phases_fails != 0: cocotb.log.error(f"[TEST] finish with {phases_passes} phases passes and {phases_fails} phases fails") else: cocotb.log.info(f"[TEST] finish with {phases_passes} phases passes and {phases_fails} phases fails") await ClockCycles(caravelEnv.clk, 10000)