import os import sys from pathlib import Path import logging import random from dataclasses import dataclass import cocotb import cocotb.handle from cocotb.queue import Queue from cocotb.clock import Clock from cocotb.triggers import Trigger, First, Event, Timer, RisingEdge, Edge, FallingEdge from cocotb_tools.runner import get_runner if cocotb.simulator.is_running(): from spi_models import SpiInterface, SpiConfig, SpiSlave ADDR_CTRL = 0 ADDR_INTMASK = 1 ADDR_STATUS = 2 ADDR_DATA = 3 INTMASK_RX_BUFFER_FULL = 1 INTMASK_TX_BUFFER_EMPTY = 2 INTMASK_LOST_RX_DATA = 4 STATUS_RX_BUFFER_FULL = 0 STATUS_TX_BUFFER_EMPTY = 2 STATUS_BUSY = 8 STATUS_LOST_RX_DATA = 16 CTRL_EN = 0 CTRL_MASTER = 1 CTRL_TX_EN = 2 CTRL_RX_EN = 3 CTRL_CLOCK_POLARITY = 4 CTRL_CLOCK_PHASE = 5 CTRL_PULSE_CSN = 6 CTRL_LSBFIRST = 7 CTRL_SIZE_SEL = 10 CTRL_DIV_SEL = 20 async def init(dut, master: int = 1, tx_en: int = 1): dut._log.info("Init started!") dut.waddress_i.value = 0 dut.raddress_i.value = 0 dut.wdata_i.value = 0 dut.write_i.value = 0 dut.read_i.value = 0 dut.rst_in.value = 0 await FallingEdge(dut.clk_i) await FallingEdge(dut.clk_i) # Release reset dut.rst_in.value = 1 await FallingEdge(dut.clk_i) await FallingEdge(dut.clk_i) dut._log.info("Init done!") class DutDriver: def __init__(self, dut): self.dut = dut self.irq_handlers = [] self._handle_interrupt = False async def clear_lost_rx_data(self): await self.write(ADDR_INTMASK, INTMASK_LOST_RX_DATA) async def configure_intmask(self, rx_buffer_full, tx_buffer_full, lost_rx_data): await self.write(ADDR_INTMASK, (rx_buffer_full << INTMASK_RX_BUFFER_FULL) | (tx_buffer_full << INTMASK_TX_BUFFER_FULL) | (lost_rx_data << INTMASK_LOST_RX_DATA)) async def configure(self, en, master, tx_en, rx_en, clock_polarity, clock_phase, pulse_csn, lsbfirst, size_sel, div_sel): await self.write(ADDR_CTRL, (en << CTRL_EN) | (master << CTRL_MASTER) | (tx_en << CTRL_TX_EN) | (rx_en << CTRL_RX_EN) | (pulse_csn << CTRL_PULSE_CSN) | (clock_polarity << CTRL_CLOCK_POLARITY) | (clock_phase << CTRL_CLOCK_PHASE) | (lsbfirst << CTRL_LSBFIRST) | (size_sel << CTRL_SIZE_SEL) | (div_sel << CTRL_DIV_SEL)) async def read(self, address): self.dut.raddress_i.value = address await FallingEdge(self.dut.clk_i) value = self.dut.rdata_o.value self.dut.read_i.value = 1 await FallingEdge(self.dut.clk_i) self.dut.read_i.value = 0 return value async def write(self, address, data): await FallingEdge(self.dut.clk_i) self.dut.waddress_i.value = address self.dut.wdata_i.value = data self.dut.write_i.value = 1 await FallingEdge(self.dut.clk_i) self.dut.write_i.value = 0 def register_interrupt_handler(self, handler): self.irq_handlers.append(handler) self._handle_interrupt = True async def coroutine(self): while True: await RisingEdge(self.dut.interrupt_o) if not self._handle_interrupt: continue if len(self.irq_handlers) == 0: raise Exception("Got interrupt but there is no irq handler. This would be a dead loop.") # The handlers are called until interrupt goes down! while self.dut.interrupt_o.value == 1: for irq_handler in self.irq_handlers: await irq_handler(self) @cocotb.test() async def single_transmission(dut): clk = Clock(dut.clk_i, 5, "ns") interface = SpiInterface(dut.csn_o, dut.sck_o, dut.miso_i, dut.mosi_o) config = SpiConfig(16, RisingEdge, FallingEdge, 40, "ns") slave = SpiSlave(interface, config) driver = DutDriver(dut) await cocotb.start(clk.start()) await init(dut) await cocotb.start(slave.coroutine()) await cocotb.start(driver.coroutine()) await driver.configure( en = 1, master = 1, tx_en = 1, rx_en = 1, clock_polarity = 1, clock_phase = 1, pulse_csn = 0, lsbfirst = 0, size_sel = 1, div_sel = 2) # From slave point of view rx = random.randint(0, 255) tx = random.randint(0, 255) await slave.send_data(tx, 16) await slave.expect_transaction_in(100, "ns") await driver.write(ADDR_DATA, rx) await slave.wait_all() await FallingEdge(dut.clk_i) dut_received = await driver.read(ADDR_DATA) assert (int(dut_received) & 0xFF) == tx received = await slave.received_data() assert int(received) & 0xFF == rx await Timer(100, "ns") @cocotb.test async def interrupt(dut): clk = Clock(dut.clk_i, 5, "ns") interface = SpiInterface(dut.csn_o, dut.sck_o, dut.miso_i, dut.mosi_o) config = SpiConfig(16, RisingEdge, FallingEdge, 10, "ns") slave = SpiSlave(interface, config) driver = DutDriver(dut) await cocotb.start(clk.start()) await init(dut) await cocotb.start(slave.coroutine()) await cocotb.start(driver.coroutine()) await driver.configure( en = 1, master = 1, tx_en = 1, rx_en = 1, clock_polarity = 1, clock_phase = 1, pulse_csn = 0, lsbfirst = 0, size_sel = 0, div_sel = 0) rx = random.randint(0, 255) tx = random.randint(0, 255) # No interrupt as it's masked assert int(dut.interrupt_o.value) == 0 # TX buffer is empty assert int((await driver.read(ADDR_STATUS))) == INTMASK_TX_BUFFER_EMPTY await driver.write(ADDR_INTMASK, INTMASK_RX_BUFFER_FULL | INTMASK_TX_BUFFER_EMPTY) assert int(dut.interrupt_o.value) == 1 await slave.send_data(tx, 8) await slave.send_data(tx, 8) await slave.expect_transaction_in(50, "ns") await driver.write(ADDR_DATA, rx) async def check_status(value): assert int((await driver.read(ADDR_STATUS))) == value await cocotb.start(check_status(0)) await FallingEdge(dut.clk_i) assert int(dut.interrupt_o.value) == 0 timeout = Timer(20, "ns") res = await First(RisingEdge(dut.interrupt_o), timeout) if res == timeout: raise Exception("Timeout on interrupt rising") # Check that the buffer is empty, as one transmission should be happening assert int((await driver.read(ADDR_STATUS))) == INTMASK_TX_BUFFER_EMPTY await driver.write(ADDR_INTMASK, 0) assert int(dut.interrupt_o.value) == 0 assert int((await driver.read(ADDR_STATUS))) == STATUS_TX_BUFFER_EMPTY | STATUS_BUSY # Send second data byte await driver.write(ADDR_DATA, rx) assert int(dut.interrupt_o.value) == 0 assert int((await driver.read(ADDR_STATUS))) == STATUS_BUSY # Now unmask only rx buffer full await driver.write(ADDR_INTMASK, INTMASK_RX_BUFFER_FULL) timeout = Timer(50, "ns") res = await First(timeout, RisingEdge(dut.interrupt_o)) if res == timeout: raise Exception("Timeout on interrupt rising") data = await driver.read(ADDR_DATA) assert int(data) & 0xFF == tx assert int(dut.interrupt_o.value) == 1 await FallingEdge(dut.clk_i) assert int(dut.interrupt_o.value) == 0 assert int((await driver.read(ADDR_STATUS))) == STATUS_TX_BUFFER_EMPTY | STATUS_BUSY await slave.wait_all() assert int(dut.interrupt_o.value) == 1 assert int((await driver.read(ADDR_STATUS))) == STATUS_TX_BUFFER_EMPTY | STATUS_RX_BUFFER_FULL assert int(await slave.received_data()) & 0xFF == rx assert int(await slave.received_data()) & 0xFF == rx @cocotb.test async def application(dut): clk = Clock(dut.clk_i, 5, "ns") interface = SpiInterface(dut.csn_o, dut.sck_o, dut.miso_i, dut.mosi_o) config = SpiConfig(16, RisingEdge, FallingEdge, 10, "ns", csn_pulse = True) slave = SpiSlave(interface, config) driver = DutDriver(dut) await cocotb.start(clk.start()) await init(dut) await cocotb.start(slave.coroutine()) await cocotb.start(driver.coroutine()) await driver.configure( en = 1, master = 1, tx_en = 1, rx_en = 1, clock_polarity = 0, clock_phase = 0, pulse_csn = 1, lsbfirst = 0, size_sel = 1, div_sel = 0) driver.pending_transactions = 0 dut_received = [] async def interrupt_handler(driver): await FallingEdge(driver.dut.clk_i) status = await driver.read(ADDR_STATUS) if int(status) & STATUS_RX_BUFFER_FULL != 0: dut_received.append(await driver.read(ADDR_DATA)) dut._log.info("Received data") if int(status) & STATUS_TX_BUFFER_EMPTY != 0 and driver.pending_transactions > 0: driver.pending_transactions -= 1 await driver.write(ADDR_DATA, random.randint(0, 65535)) dut._log.info("Sent another transaction") if int(status) & STATUS_TX_BUFFER_EMPTY != 0 and driver.pending_transactions == 0: await driver.write(ADDR_INTMASK, INTMASK_RX_BUFFER_FULL) dut._log.info("Turning off tx buffer empty intmask.") driver.register_interrupt_handler(interrupt_handler) transmitted = [] # Two transactions. driver.pending_transactions = 2 for i in range(0, driver.pending_transactions): data = random.randint(0, 65535) transmitted.append(data) await slave.send_data(data, 16) await slave.expect_transaction_in(50, "ns") await driver.write(ADDR_INTMASK, INTMASK_RX_BUFFER_FULL | INTMASK_TX_BUFFER_EMPTY) await slave.wait_all() assert driver.pending_transactions == 0 # Wait await Timer(100, "ns") # Five transactions driver.pending_transactions = 5 for i in range(0, driver.pending_transactions): data = random.randint(0, 65535) transmitted.append(data) await slave.send_data(data, 16) await slave.expect_transaction_in(50, "ns") await driver.write(ADDR_INTMASK, INTMASK_RX_BUFFER_FULL | INTMASK_TX_BUFFER_EMPTY) await slave.wait_all() assert driver.pending_transactions == 0 # Wait await Timer(100, "ns") # Ten transactions driver.pending_transactions = 10 for i in range(0, driver.pending_transactions): data = random.randint(0, 65535) transmitted.append(data) await slave.send_data(data, 16) await slave.expect_transaction_in(100, "ns") await driver.write(ADDR_INTMASK, INTMASK_RX_BUFFER_FULL | INTMASK_TX_BUFFER_EMPTY) await slave.wait_all() assert driver.pending_transactions == 0 # Everything handled with interrupts def spi_peripheral_tests_runner(): hdl_toplevel_lang = "vhdl" sim = os.getenv("SIM", "questa") test_filter = os.getenv("TESTCASE", None) gui = True if os.getenv("GUI", "0") == "1" else False proj_path = Path(__file__).resolve().parent.parent # equivalent to setting the PYTHONPATH environment variable sys.path.append(str(proj_path / "models")) sources = [ proj_path / "src" / "spi_pkg.vhd", proj_path / "src" / "rs_latch.vhd", proj_path / "src" / "register.vhd", proj_path / "src" / "shift_register.vhd", proj_path / "src" / "spi_clkgen.vhd", proj_path / "src" / "spi_clkmon.vhd", proj_path / "src" / "spi_slave_ctrl.vhd", proj_path / "src" / "spi_master_ctrl.vhd", proj_path / "src" / "spi_master.vhd", proj_path / "src" / "spi_masterslave.vhd", proj_path / "src" / "spi_peripheral.vhd" ] build_args = [] extra_args = [] if sim == "ghdl": extra_args = ["--std=08"] elif sim == "questa" or sim == "modelsim": build_args = ["-2008"] # equivalent to setting the PYTHONPATH environment variable sys.path.append(str(proj_path / "tests")) runner = get_runner(sim) runner.build( sources=sources, hdl_toplevel="spi_peripheral", always=True, build_args=build_args + extra_args, ) runner.test( test_filter = test_filter, hdl_toplevel="spi_peripheral", hdl_toplevel_lang=hdl_toplevel_lang, test_module="test_spi_peripheral", test_args = extra_args, gui = gui ) if __name__ == "__main__": spi_peripheral_tests_runner()