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verilog-axi/tb/test_axi_adapter_16_32.py

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Add AXI adapters and testbenchs
2018-08-20 19:10:08 -07:00
#!/usr/bin/env python
"""
Copyright (c) 2018 Alex Forencich
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
"""
from myhdl import *
import os
import axi
module = 'axi_adapter'
testbench = 'test_%s_16_32' % module
srcs = []
srcs.append("../rtl/%s.v" % module)
srcs.append("../rtl/axi_adapter_rd.v")
srcs.append("../rtl/axi_adapter_wr.v")
srcs.append("%s.v" % testbench)
src = ' '.join(srcs)
build_cmd = "iverilog -o %s.vvp %s" % (testbench, src)
def bench():
# Parameters
Change default address width to 32
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ADDR_WIDTH = 32
Add AXI adapters and testbenchs
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S_DATA_WIDTH = 16
S_STRB_WIDTH = (S_DATA_WIDTH/8)
M_DATA_WIDTH = 32
M_STRB_WIDTH = (M_DATA_WIDTH/8)
ID_WIDTH = 8
AWUSER_ENABLE = 0
AWUSER_WIDTH = 1
WUSER_ENABLE = 0
WUSER_WIDTH = 1
BUSER_ENABLE = 0
BUSER_WIDTH = 1
ARUSER_ENABLE = 0
ARUSER_WIDTH = 1
RUSER_ENABLE = 0
RUSER_WIDTH = 1
CONVERT_BURST = 1
Add CONVERT_NARROW_BURST and FORWARD_ID parameters to AXI adapter
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CONVERT_NARROW_BURST = 1
FORWARD_ID = 1
Add AXI adapters and testbenchs
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# Inputs
clk = Signal(bool(0))
rst = Signal(bool(0))
current_test = Signal(intbv(0)[8:])
s_axi_awid = Signal(intbv(0)[ID_WIDTH:])
s_axi_awaddr = Signal(intbv(0)[ADDR_WIDTH:])
s_axi_awlen = Signal(intbv(0)[8:])
s_axi_awsize = Signal(intbv(0)[3:])
s_axi_awburst = Signal(intbv(0)[2:])
s_axi_awlock = Signal(bool(0))
s_axi_awcache = Signal(intbv(0)[4:])
s_axi_awprot = Signal(intbv(0)[3:])
s_axi_awqos = Signal(intbv(0)[4:])
s_axi_awregion = Signal(intbv(0)[4:])
s_axi_awuser = Signal(intbv(0)[AWUSER_WIDTH:])
s_axi_awvalid = Signal(bool(0))
s_axi_wdata = Signal(intbv(0)[S_DATA_WIDTH:])
s_axi_wstrb = Signal(intbv(0)[S_STRB_WIDTH:])
s_axi_wlast = Signal(bool(0))
s_axi_wuser = Signal(intbv(0)[WUSER_WIDTH:])
s_axi_wvalid = Signal(bool(0))
s_axi_bready = Signal(bool(0))
s_axi_arid = Signal(intbv(0)[ID_WIDTH:])
s_axi_araddr = Signal(intbv(0)[ADDR_WIDTH:])
s_axi_arlen = Signal(intbv(0)[8:])
s_axi_arsize = Signal(intbv(0)[3:])
s_axi_arburst = Signal(intbv(0)[2:])
s_axi_arlock = Signal(bool(0))
s_axi_arcache = Signal(intbv(0)[4:])
s_axi_arprot = Signal(intbv(0)[3:])
s_axi_arqos = Signal(intbv(0)[4:])
s_axi_arregion = Signal(intbv(0)[4:])
s_axi_aruser = Signal(intbv(0)[ARUSER_WIDTH:])
s_axi_arvalid = Signal(bool(0))
s_axi_rready = Signal(bool(0))
m_axi_awready = Signal(bool(0))
m_axi_wready = Signal(bool(0))
m_axi_bid = Signal(intbv(0)[ID_WIDTH:])
m_axi_bresp = Signal(intbv(0)[2:])
m_axi_buser = Signal(intbv(0)[BUSER_WIDTH:])
m_axi_bvalid = Signal(bool(0))
m_axi_arready = Signal(bool(0))
m_axi_rid = Signal(intbv(0)[ID_WIDTH:])
m_axi_rdata = Signal(intbv(0)[M_DATA_WIDTH:])
m_axi_rresp = Signal(intbv(0)[2:])
m_axi_rlast = Signal(bool(0))
m_axi_ruser = Signal(intbv(0)[RUSER_WIDTH:])
m_axi_rvalid = Signal(bool(0))
# Outputs
s_axi_awready = Signal(bool(0))
s_axi_wready = Signal(bool(0))
s_axi_bid = Signal(intbv(0)[ID_WIDTH:])
s_axi_bresp = Signal(intbv(0)[2:])
s_axi_buser = Signal(intbv(0)[BUSER_WIDTH:])
s_axi_bvalid = Signal(bool(0))
s_axi_arready = Signal(bool(0))
s_axi_rid = Signal(intbv(0)[ID_WIDTH:])
s_axi_rdata = Signal(intbv(0)[S_DATA_WIDTH:])
s_axi_rresp = Signal(intbv(0)[2:])
s_axi_rlast = Signal(bool(0))
s_axi_ruser = Signal(intbv(0)[RUSER_WIDTH:])
s_axi_rvalid = Signal(bool(0))
m_axi_awid = Signal(intbv(0)[ID_WIDTH:])
m_axi_awaddr = Signal(intbv(0)[ADDR_WIDTH:])
m_axi_awlen = Signal(intbv(0)[8:])
m_axi_awsize = Signal(intbv(0)[3:])
m_axi_awburst = Signal(intbv(0)[2:])
m_axi_awlock = Signal(bool(0))
m_axi_awcache = Signal(intbv(0)[4:])
m_axi_awprot = Signal(intbv(0)[3:])
m_axi_awqos = Signal(intbv(0)[4:])
m_axi_awregion = Signal(intbv(0)[4:])
m_axi_awuser = Signal(intbv(0)[AWUSER_WIDTH:])
m_axi_awvalid = Signal(bool(0))
m_axi_wdata = Signal(intbv(0)[M_DATA_WIDTH:])
m_axi_wstrb = Signal(intbv(0)[M_STRB_WIDTH:])
m_axi_wlast = Signal(bool(0))
m_axi_wuser = Signal(intbv(0)[WUSER_WIDTH:])
m_axi_wvalid = Signal(bool(0))
m_axi_bready = Signal(bool(0))
m_axi_arid = Signal(intbv(0)[ID_WIDTH:])
m_axi_araddr = Signal(intbv(0)[ADDR_WIDTH:])
m_axi_arlen = Signal(intbv(0)[8:])
m_axi_arsize = Signal(intbv(0)[3:])
m_axi_arburst = Signal(intbv(0)[2:])
m_axi_arlock = Signal(bool(0))
m_axi_arcache = Signal(intbv(0)[4:])
m_axi_arprot = Signal(intbv(0)[3:])
m_axi_arqos = Signal(intbv(0)[4:])
m_axi_arregion = Signal(intbv(0)[4:])
m_axi_aruser = Signal(intbv(0)[ARUSER_WIDTH:])
m_axi_arvalid = Signal(bool(0))
m_axi_rready = Signal(bool(0))
# AXI4 master
axi_master_inst = axi.AXIMaster()
axi_master_pause = Signal(bool(False))
axi_master_logic = axi_master_inst.create_logic(
clk,
rst,
m_axi_awid=s_axi_awid,
m_axi_awaddr=s_axi_awaddr,
m_axi_awlen=s_axi_awlen,
m_axi_awsize=s_axi_awsize,
m_axi_awburst=s_axi_awburst,
m_axi_awlock=s_axi_awlock,
m_axi_awcache=s_axi_awcache,
m_axi_awprot=s_axi_awprot,
m_axi_awqos=s_axi_awqos,
m_axi_awregion=s_axi_awregion,
m_axi_awvalid=s_axi_awvalid,
m_axi_awready=s_axi_awready,
m_axi_wdata=s_axi_wdata,
m_axi_wstrb=s_axi_wstrb,
m_axi_wlast=s_axi_wlast,
m_axi_wvalid=s_axi_wvalid,
m_axi_wready=s_axi_wready,
m_axi_bid=s_axi_bid,
m_axi_bresp=s_axi_bresp,
m_axi_bvalid=s_axi_bvalid,
m_axi_bready=s_axi_bready,
m_axi_arid=s_axi_arid,
m_axi_araddr=s_axi_araddr,
m_axi_arlen=s_axi_arlen,
m_axi_arsize=s_axi_arsize,
m_axi_arburst=s_axi_arburst,
m_axi_arlock=s_axi_arlock,
m_axi_arcache=s_axi_arcache,
m_axi_arprot=s_axi_arprot,
m_axi_arqos=s_axi_arqos,
m_axi_arregion=s_axi_arregion,
m_axi_arvalid=s_axi_arvalid,
m_axi_arready=s_axi_arready,
m_axi_rid=s_axi_rid,
m_axi_rdata=s_axi_rdata,
m_axi_rresp=s_axi_rresp,
m_axi_rlast=s_axi_rlast,
m_axi_rvalid=s_axi_rvalid,
m_axi_rready=s_axi_rready,
pause=axi_master_pause,
name='master'
)
# AXI4 RAM model
axi_ram_inst = axi.AXIRam(2**16)
axi_ram_pause = Signal(bool(False))
axi_ram_port0 = axi_ram_inst.create_port(
clk,
s_axi_awid=m_axi_awid,
s_axi_awaddr=m_axi_awaddr,
s_axi_awlen=m_axi_awlen,
s_axi_awsize=m_axi_awsize,
s_axi_awburst=m_axi_awburst,
s_axi_awlock=m_axi_awlock,
s_axi_awcache=m_axi_awcache,
s_axi_awprot=m_axi_awprot,
s_axi_awvalid=m_axi_awvalid,
s_axi_awready=m_axi_awready,
s_axi_wdata=m_axi_wdata,
s_axi_wstrb=m_axi_wstrb,
s_axi_wlast=m_axi_wlast,
s_axi_wvalid=m_axi_wvalid,
s_axi_wready=m_axi_wready,
s_axi_bid=m_axi_bid,
s_axi_bresp=m_axi_bresp,
s_axi_bvalid=m_axi_bvalid,
s_axi_bready=m_axi_bready,
s_axi_arid=m_axi_arid,
s_axi_araddr=m_axi_araddr,
s_axi_arlen=m_axi_arlen,
s_axi_arsize=m_axi_arsize,
s_axi_arburst=m_axi_arburst,
s_axi_arlock=m_axi_arlock,
s_axi_arcache=m_axi_arcache,
s_axi_arprot=m_axi_arprot,
s_axi_arvalid=m_axi_arvalid,
s_axi_arready=m_axi_arready,
s_axi_rid=m_axi_rid,
s_axi_rdata=m_axi_rdata,
s_axi_rresp=m_axi_rresp,
s_axi_rlast=m_axi_rlast,
s_axi_rvalid=m_axi_rvalid,
s_axi_rready=m_axi_rready,
pause=axi_ram_pause,
name='port0'
)
# DUT
if os.system(build_cmd):
raise Exception("Error running build command")
dut = Cosimulation(
"vvp -m myhdl %s.vvp -lxt2" % testbench,
clk=clk,
rst=rst,
current_test=current_test,
s_axi_awid=s_axi_awid,
s_axi_awaddr=s_axi_awaddr,
s_axi_awlen=s_axi_awlen,
s_axi_awsize=s_axi_awsize,
s_axi_awburst=s_axi_awburst,
s_axi_awlock=s_axi_awlock,
s_axi_awcache=s_axi_awcache,
s_axi_awprot=s_axi_awprot,
s_axi_awqos=s_axi_awqos,
s_axi_awregion=s_axi_awregion,
s_axi_awuser=s_axi_awuser,
s_axi_awvalid=s_axi_awvalid,
s_axi_awready=s_axi_awready,
s_axi_wdata=s_axi_wdata,
s_axi_wstrb=s_axi_wstrb,
s_axi_wlast=s_axi_wlast,
s_axi_wuser=s_axi_wuser,
s_axi_wvalid=s_axi_wvalid,
s_axi_wready=s_axi_wready,
s_axi_bid=s_axi_bid,
s_axi_bresp=s_axi_bresp,
s_axi_buser=s_axi_buser,
s_axi_bvalid=s_axi_bvalid,
s_axi_bready=s_axi_bready,
s_axi_arid=s_axi_arid,
s_axi_araddr=s_axi_araddr,
s_axi_arlen=s_axi_arlen,
s_axi_arsize=s_axi_arsize,
s_axi_arburst=s_axi_arburst,
s_axi_arlock=s_axi_arlock,
s_axi_arcache=s_axi_arcache,
s_axi_arprot=s_axi_arprot,
s_axi_arqos=s_axi_arqos,
s_axi_arregion=s_axi_arregion,
s_axi_aruser=s_axi_aruser,
s_axi_arvalid=s_axi_arvalid,
s_axi_arready=s_axi_arready,
s_axi_rid=s_axi_rid,
s_axi_rdata=s_axi_rdata,
s_axi_rresp=s_axi_rresp,
s_axi_rlast=s_axi_rlast,
s_axi_ruser=s_axi_ruser,
s_axi_rvalid=s_axi_rvalid,
s_axi_rready=s_axi_rready,
m_axi_awid=m_axi_awid,
m_axi_awaddr=m_axi_awaddr,
m_axi_awlen=m_axi_awlen,
m_axi_awsize=m_axi_awsize,
m_axi_awburst=m_axi_awburst,
m_axi_awlock=m_axi_awlock,
m_axi_awcache=m_axi_awcache,
m_axi_awprot=m_axi_awprot,
m_axi_awqos=m_axi_awqos,
m_axi_awregion=m_axi_awregion,
m_axi_awuser=m_axi_awuser,
m_axi_awvalid=m_axi_awvalid,
m_axi_awready=m_axi_awready,
m_axi_wdata=m_axi_wdata,
m_axi_wstrb=m_axi_wstrb,
m_axi_wlast=m_axi_wlast,
m_axi_wuser=m_axi_wuser,
m_axi_wvalid=m_axi_wvalid,
m_axi_wready=m_axi_wready,
m_axi_bid=m_axi_bid,
m_axi_bresp=m_axi_bresp,
m_axi_buser=m_axi_buser,
m_axi_bvalid=m_axi_bvalid,
m_axi_bready=m_axi_bready,
m_axi_arid=m_axi_arid,
m_axi_araddr=m_axi_araddr,
m_axi_arlen=m_axi_arlen,
m_axi_arsize=m_axi_arsize,
m_axi_arburst=m_axi_arburst,
m_axi_arlock=m_axi_arlock,
m_axi_arcache=m_axi_arcache,
m_axi_arprot=m_axi_arprot,
m_axi_arqos=m_axi_arqos,
m_axi_arregion=m_axi_arregion,
m_axi_aruser=m_axi_aruser,
m_axi_arvalid=m_axi_arvalid,
m_axi_arready=m_axi_arready,
m_axi_rid=m_axi_rid,
m_axi_rdata=m_axi_rdata,
m_axi_rresp=m_axi_rresp,
m_axi_rlast=m_axi_rlast,
m_axi_ruser=m_axi_ruser,
m_axi_rvalid=m_axi_rvalid,
m_axi_rready=m_axi_rready
)
@always(delay(4))
def clkgen():
clk.next = not clk
def wait_normal():
while not axi_master_inst.idle():
yield clk.posedge
def wait_pause_master():
while not axi_master_inst.idle():
axi_master_pause.next = True
yield clk.posedge
yield clk.posedge
yield clk.posedge
axi_master_pause.next = False
yield clk.posedge
def wait_pause_slave():
while not axi_master_inst.idle():
axi_ram_pause.next = True
yield clk.posedge
yield clk.posedge
yield clk.posedge
axi_ram_pause.next = False
yield clk.posedge
@instance
def check():
yield delay(100)
yield clk.posedge
rst.next = 1
yield clk.posedge
rst.next = 0
yield clk.posedge
yield delay(100)
yield clk.posedge
# testbench stimulus
yield clk.posedge
print("test 1: write")
current_test.next = 1
addr = 4
test_data = b'\x11\x22\x33\x44'
axi_master_inst.init_write(addr, test_data)
yield axi_master_inst.wait()
yield clk.posedge
data = axi_ram_inst.read_mem(addr&0xffffff80, 32)
for i in range(0, len(data), 16):
print(" ".join(("{:02x}".format(c) for c in bytearray(data[i:i+16]))))
assert axi_ram_inst.read_mem(addr, len(test_data)) == test_data
yield delay(100)
yield clk.posedge
print("test 2: read")
current_test.next = 2
addr = 4
test_data = b'\x11\x22\x33\x44'
axi_ram_inst.write_mem(addr, test_data)
axi_master_inst.init_read(addr, len(test_data))
yield axi_master_inst.wait()
yield clk.posedge
data = axi_master_inst.get_read_data()
assert data[0] == addr
assert data[1] == test_data
yield delay(100)
yield clk.posedge
print("test 3: various writes")
current_test.next = 3
for length in list(range(1,8))+[1024]:
for offset in list(range(4,8))+[4096-4]:
for size, cache in ((1, 0b0011), (1, 0b0000), (0, 0b0011)):
for wait in wait_normal, wait_pause_master, wait_pause_slave:
print("length %d, offset %d, size %d, cache %d"% (length, offset, size, cache))
#addr = 256*(16*offset+length)+offset
addr = offset
test_data = bytearray([x%256 for x in range(length)])
axi_ram_inst.write_mem(addr&0xffffff80, b'\xAA'*(length+256))
axi_master_inst.init_write(addr, test_data, size=size, cache=cache)
yield wait()
yield clk.posedge
data = axi_ram_inst.read_mem(addr&0xffffff80, 32)
for i in range(0, len(data), 16):
print(" ".join(("{:02x}".format(c) for c in bytearray(data[i:i+16]))))
assert axi_ram_inst.read_mem(addr, length) == test_data
assert axi_ram_inst.read_mem(addr-1, 1) == b'\xAA'
assert axi_ram_inst.read_mem(addr+length, 1) == b'\xAA'
yield delay(100)
yield clk.posedge
print("test 4: various reads")
current_test.next = 4
for length in list(range(1,8))+[1024]:
for offset in list(range(4,8))+[4096-4]:
for size, cache in ((1, 0b0011), (1, 0b0000), (0, 0b0011)):
for wait in wait_normal, wait_pause_master, wait_pause_slave:
print("length %d, offset %d, size %d, cache %d"% (length, offset, size, cache))
#addr = 256*(16*offset+length)+offset
addr = offset
test_data = bytearray([x%256 for x in range(length)])
axi_ram_inst.write_mem(addr, test_data)
axi_master_inst.init_read(addr, length, size=size, cache=cache)
yield wait()
yield clk.posedge
data = axi_master_inst.get_read_data()
assert data[0] == addr
assert data[1] == test_data
yield delay(100)
raise StopSimulation
return instances()
def test_bench():
sim = Simulation(bench())
sim.run()
if __name__ == '__main__':
print("Running test...")
test_bench()
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