litedram/test/test_axi.py

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import unittest
import random
from migen import *
from litedram.common import LiteDRAMNativePort
from litedram.frontend.axi import *
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from test.common import *
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from litex.gen.sim import *
class TestAXI(unittest.TestCase):
def test_axi2native(self):
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class Access:
def __init__(self, addr, data, id):
self.addr = addr
self.data = data
self.id = id
class Write(Access):
pass
class Read(Access):
pass
def writes_cmd_data_generator(axi_port, writes):
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for write in writes:
# send command
yield axi_port.aw.valid.eq(1)
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yield axi_port.aw.addr.eq(write.addr<<2)
yield axi_port.aw.id.eq(write.id)
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yield
while (yield axi_port.aw.ready) == 0:
yield
yield axi_port.aw.valid.eq(0)
yield
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# send data
yield axi_port.w.valid.eq(1)
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yield axi_port.w.data.eq(write.data)
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yield
while (yield axi_port.w.ready) == 0:
yield
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yield axi_port.w.valid.eq(0)
def writes_response_generator(axi_port, writes):
self.writes_id_errors = 0
yield axi_port.b.ready.eq(1) # always accepting write response
for write in writes:
# wait response
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while (yield axi_port.b.valid) == 0:
yield
if (yield axi_port.b.id) != write.id:
self.writes_id_errors += 1
yield
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def reads_cmd_generator(axi_port, reads):
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for read in reads:
# send command
yield axi_port.ar.valid.eq(1)
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yield axi_port.ar.addr.eq(read.addr<<2)
yield axi_port.ar.id.eq(read.id)
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yield
while (yield axi_port.ar.ready) == 0:
yield
yield axi_port.ar.valid.eq(0)
yield
def reads_response_data_generator(axi_port, reads):
self.reads_data_errors = 0
self.reads_id_errors = 0
yield axi_port.r.ready.eq(1) # always accepting read response
for read in reads:
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# wait data / response
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while (yield axi_port.r.valid) == 0:
yield
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if (yield axi_port.r.data) != read.data:
self.reads_data_errors += 1
if (yield axi_port.r.id) != read.id:
self.reads_id_errors += 1
yield
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# dut
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axi_port = LiteDRAMAXIPort(32, 32, 8)
dram_port = LiteDRAMNativePort("both", 32, 32)
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dut = LiteDRAMAXI2Native(axi_port, dram_port)
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mem = DRAMMemory(32, 128)
# generate writes/reads
prng = random.Random(42)
writes = []
for i in range(64):
# incrementing addr, random data &id
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writes.append(Write(i, prng.randrange(2**32), prng.randrange(2**8)))
# incrementing addr, data & id (debug)
#writes.append(Write(i, i, i))
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reads = []
for i in range(64): # dummy reads while content not yet written
reads.append(Read(64, 0x00000000, 0x00))
for i in range(64):
# incrementing addr, written data, random id
reads.append(Read(i, writes[i].data, prng.randrange(2**8)))
# incrementing addr, written data, incrementing id (debug)
#reads.append(Read(i, writes[i].data, i))
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# simulation
generators = [
writes_cmd_data_generator(axi_port, writes),
writes_response_generator(axi_port, writes),
reads_cmd_generator(axi_port, reads),
reads_response_data_generator(axi_port, reads),
mem.read_handler(dram_port),
mem.write_handler(dram_port)
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]
run_simulation(dut, generators, vcd_name="axi2native.vcd")
#mem.show_content()
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self.assertEqual(self.writes_id_errors, 0)
self.assertEqual(self.reads_data_errors, 0)
self.assertEqual(self.reads_id_errors, 0)
def test_burst2beat(self):
class Beat:
def __init__(self, addr):
self.addr = addr
class Burst:
def __init__(self, type, addr, len, size):
self.type = type
self.addr = addr
self.len = len
self.size = size
def to_beats(self):
r = []
for i in range(self.len + 1):
if self.type == burst_types["incr"]:
offset = i*2**(self.size)
r += [Beat(self.addr + offset)]
elif self.type == burst_types["wrap"]:
offset = (i*2**(self.size))%((2**self.size)*(self.len))
r += [Beat(self.addr + offset)]
else:
r += [Beat(self.addr)]
return r
def bursts_generator(ax, bursts, valid_rand=50):
prng = random.Random(42)
for burst in bursts:
yield ax.valid.eq(1)
yield ax.addr.eq(burst.addr)
yield ax.burst.eq(burst.type)
yield ax.len.eq(burst.len)
yield ax.size.eq(burst.size)
while (yield ax.ready) == 0:
yield
yield ax.valid.eq(0)
while prng.randrange(100) < valid_rand:
yield
yield
@passive
def beats_checker(ax, beats, ready_rand=50):
self.errors = 0
yield ax.ready.eq(0)
prng = random.Random(42)
for beat in beats:
while ((yield ax.valid) and (yield ax.ready)) == 0:
if prng.randrange(100) > ready_rand:
yield ax.ready.eq(1)
else:
yield ax.ready.eq(0)
yield
ax_addr = (yield ax.addr)
if ax_addr != beat.addr:
self.errors += 1
yield
# dut
ax_burst = stream.Endpoint(ax_description(32, 32))
ax_beat = stream.Endpoint(ax_description(32, 32))
dut = LiteDRAMAXIBurst2Beat(ax_burst, ax_beat)
# generate dut input (bursts)
prng = random.Random(42)
bursts = []
for i in range(32):
bursts.append(Burst(burst_types["fixed"], prng.randrange(2**32), prng.randrange(255), log2_int(32//8)))
bursts.append(Burst(burst_types["incr"], prng.randrange(2**32), prng.randrange(255), log2_int(32//8)))
bursts.append(Burst(burst_types["wrap"], 4, 4-1, log2_int(2)))
# generate expexted dut output (beats for reference)
beats = []
for burst in bursts:
beats += burst.to_beats()
# simulation
generators = [
bursts_generator(ax_burst, bursts),
beats_checker(ax_beat, beats)
]
run_simulation(dut, generators, vcd_name="burst2beat.vcd")
self.assertEqual(self.errors, 0)