コード例 #1
0
def bench():

    # Parameters
    S_COUNT = 4
    M_COUNT = 4
    DATA_WIDTH = 32
    ADDR_WIDTH = 32
    STRB_WIDTH = (DATA_WIDTH / 8)
    S_ID_WIDTH = 8
    M_ID_WIDTH = S_ID_WIDTH + math.ceil(math.log(M_COUNT, 2))
    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
    S_THREADS = [2] * S_COUNT
    S_ACCEPT = [16] * S_COUNT
    M_REGIONS = 1
    M_BASE_ADDR = [0x00000000, 0x01000000, 0x02000000, 0x03000000]
    M_ADDR_WIDTH = [24] * M_COUNT * M_REGIONS
    M_CONNECT_READ = [0b1111] * M_COUNT
    M_CONNECT_WRITE = [0b1111] * M_COUNT
    M_ISSUE = [4] * M_COUNT
    M_SECURE = [0] * M_COUNT
    S_AW_REG_TYPE = [0] * S_COUNT
    S_W_REG_TYPE = [0] * S_COUNT
    S_B_REG_TYPE = [1] * S_COUNT
    S_AR_REG_TYPE = [0] * S_COUNT
    S_R_REG_TYPE = [1] * S_COUNT
    M_AW_REG_TYPE = [1] * M_COUNT
    M_W_REG_TYPE = [2] * M_COUNT
    M_B_REG_TYPE = [0] * M_COUNT
    M_AR_REG_TYPE = [1] * M_COUNT
    M_R_REG_TYPE = [0] * M_COUNT

    # Inputs
    clk = Signal(bool(0))
    rst = Signal(bool(0))
    current_test = Signal(intbv(0)[8:])

    s_axi_awid_list = [Signal(intbv(0)[S_ID_WIDTH:]) for i in range(S_COUNT)]
    s_axi_awaddr_list = [Signal(intbv(0)[ADDR_WIDTH:]) for i in range(S_COUNT)]
    s_axi_awlen_list = [Signal(intbv(0)[8:]) for i in range(S_COUNT)]
    s_axi_awsize_list = [Signal(intbv(0)[3:]) for i in range(S_COUNT)]
    s_axi_awburst_list = [Signal(intbv(0)[2:]) for i in range(S_COUNT)]
    s_axi_awlock_list = [Signal(bool(0)) for i in range(S_COUNT)]
    s_axi_awcache_list = [Signal(intbv(0)[4:]) for i in range(S_COUNT)]
    s_axi_awprot_list = [Signal(intbv(0)[3:]) for i in range(S_COUNT)]
    s_axi_awqos_list = [Signal(intbv(0)[4:]) for i in range(S_COUNT)]
    s_axi_awuser_list = [
        Signal(intbv(0)[AWUSER_WIDTH:]) for i in range(S_COUNT)
    ]
    s_axi_awvalid_list = [Signal(bool(0)) for i in range(S_COUNT)]
    s_axi_wdata_list = [Signal(intbv(0)[DATA_WIDTH:]) for i in range(S_COUNT)]
    s_axi_wstrb_list = [Signal(intbv(0)[STRB_WIDTH:]) for i in range(S_COUNT)]
    s_axi_wlast_list = [Signal(bool(0)) for i in range(S_COUNT)]
    s_axi_wuser_list = [Signal(intbv(0)[WUSER_WIDTH:]) for i in range(S_COUNT)]
    s_axi_wvalid_list = [Signal(bool(0)) for i in range(S_COUNT)]
    s_axi_bready_list = [Signal(bool(0)) for i in range(S_COUNT)]
    s_axi_arid_list = [Signal(intbv(0)[S_ID_WIDTH:]) for i in range(S_COUNT)]
    s_axi_araddr_list = [Signal(intbv(0)[ADDR_WIDTH:]) for i in range(S_COUNT)]
    s_axi_arlen_list = [Signal(intbv(0)[8:]) for i in range(S_COUNT)]
    s_axi_arsize_list = [Signal(intbv(0)[3:]) for i in range(S_COUNT)]
    s_axi_arburst_list = [Signal(intbv(0)[2:]) for i in range(S_COUNT)]
    s_axi_arlock_list = [Signal(bool(0)) for i in range(S_COUNT)]
    s_axi_arcache_list = [Signal(intbv(0)[4:]) for i in range(S_COUNT)]
    s_axi_arprot_list = [Signal(intbv(0)[3:]) for i in range(S_COUNT)]
    s_axi_arqos_list = [Signal(intbv(0)[4:]) for i in range(S_COUNT)]
    s_axi_aruser_list = [
        Signal(intbv(0)[ARUSER_WIDTH:]) for i in range(S_COUNT)
    ]
    s_axi_arvalid_list = [Signal(bool(0)) for i in range(S_COUNT)]
    s_axi_rready_list = [Signal(bool(0)) for i in range(S_COUNT)]
    m_axi_awready_list = [Signal(bool(0)) for i in range(M_COUNT)]
    m_axi_wready_list = [Signal(bool(0)) for i in range(M_COUNT)]
    m_axi_bid_list = [Signal(intbv(0)[M_ID_WIDTH:]) for i in range(M_COUNT)]
    m_axi_bresp_list = [Signal(intbv(0)[2:]) for i in range(M_COUNT)]
    m_axi_buser_list = [Signal(intbv(0)[BUSER_WIDTH:]) for i in range(M_COUNT)]
    m_axi_bvalid_list = [Signal(bool(0)) for i in range(M_COUNT)]
    m_axi_arready_list = [Signal(bool(0)) for i in range(M_COUNT)]
    m_axi_rid_list = [Signal(intbv(0)[M_ID_WIDTH:]) for i in range(M_COUNT)]
    m_axi_rdata_list = [Signal(intbv(0)[DATA_WIDTH:]) for i in range(M_COUNT)]
    m_axi_rresp_list = [Signal(intbv(0)[2:]) for i in range(M_COUNT)]
    m_axi_rlast_list = [Signal(bool(0)) for i in range(M_COUNT)]
    m_axi_ruser_list = [Signal(intbv(0)[RUSER_WIDTH:]) for i in range(M_COUNT)]
    m_axi_rvalid_list = [Signal(bool(0)) for i in range(M_COUNT)]

    s_axi_awid = ConcatSignal(*reversed(s_axi_awid_list))
    s_axi_awaddr = ConcatSignal(*reversed(s_axi_awaddr_list))
    s_axi_awlen = ConcatSignal(*reversed(s_axi_awlen_list))
    s_axi_awsize = ConcatSignal(*reversed(s_axi_awsize_list))
    s_axi_awburst = ConcatSignal(*reversed(s_axi_awburst_list))
    s_axi_awlock = ConcatSignal(*reversed(s_axi_awlock_list))
    s_axi_awcache = ConcatSignal(*reversed(s_axi_awcache_list))
    s_axi_awprot = ConcatSignal(*reversed(s_axi_awprot_list))
    s_axi_awqos = ConcatSignal(*reversed(s_axi_awqos_list))
    s_axi_awuser = ConcatSignal(*reversed(s_axi_awuser_list))
    s_axi_awvalid = ConcatSignal(*reversed(s_axi_awvalid_list))
    s_axi_wdata = ConcatSignal(*reversed(s_axi_wdata_list))
    s_axi_wstrb = ConcatSignal(*reversed(s_axi_wstrb_list))
    s_axi_wlast = ConcatSignal(*reversed(s_axi_wlast_list))
    s_axi_wuser = ConcatSignal(*reversed(s_axi_wuser_list))
    s_axi_wvalid = ConcatSignal(*reversed(s_axi_wvalid_list))
    s_axi_bready = ConcatSignal(*reversed(s_axi_bready_list))
    s_axi_arid = ConcatSignal(*reversed(s_axi_arid_list))
    s_axi_araddr = ConcatSignal(*reversed(s_axi_araddr_list))
    s_axi_arlen = ConcatSignal(*reversed(s_axi_arlen_list))
    s_axi_arsize = ConcatSignal(*reversed(s_axi_arsize_list))
    s_axi_arburst = ConcatSignal(*reversed(s_axi_arburst_list))
    s_axi_arlock = ConcatSignal(*reversed(s_axi_arlock_list))
    s_axi_arcache = ConcatSignal(*reversed(s_axi_arcache_list))
    s_axi_arprot = ConcatSignal(*reversed(s_axi_arprot_list))
    s_axi_arqos = ConcatSignal(*reversed(s_axi_arqos_list))
    s_axi_aruser = ConcatSignal(*reversed(s_axi_aruser_list))
    s_axi_arvalid = ConcatSignal(*reversed(s_axi_arvalid_list))
    s_axi_rready = ConcatSignal(*reversed(s_axi_rready_list))
    m_axi_awready = ConcatSignal(*reversed(m_axi_awready_list))
    m_axi_wready = ConcatSignal(*reversed(m_axi_wready_list))
    m_axi_bid = ConcatSignal(*reversed(m_axi_bid_list))
    m_axi_bresp = ConcatSignal(*reversed(m_axi_bresp_list))
    m_axi_buser = ConcatSignal(*reversed(m_axi_buser_list))
    m_axi_bvalid = ConcatSignal(*reversed(m_axi_bvalid_list))
    m_axi_arready = ConcatSignal(*reversed(m_axi_arready_list))
    m_axi_rid = ConcatSignal(*reversed(m_axi_rid_list))
    m_axi_rdata = ConcatSignal(*reversed(m_axi_rdata_list))
    m_axi_rresp = ConcatSignal(*reversed(m_axi_rresp_list))
    m_axi_rlast = ConcatSignal(*reversed(m_axi_rlast_list))
    m_axi_ruser = ConcatSignal(*reversed(m_axi_ruser_list))
    m_axi_rvalid = ConcatSignal(*reversed(m_axi_rvalid_list))

    # Outputs
    s_axi_awready = Signal(intbv(0)[S_COUNT:])
    s_axi_wready = Signal(intbv(0)[S_COUNT:])
    s_axi_bid = Signal(intbv(0)[S_COUNT * S_ID_WIDTH:])
    s_axi_bresp = Signal(intbv(0)[S_COUNT * 2:])
    s_axi_buser = Signal(intbv(0)[S_COUNT * BUSER_WIDTH:])
    s_axi_bvalid = Signal(intbv(0)[S_COUNT:])
    s_axi_arready = Signal(intbv(0)[S_COUNT:])
    s_axi_rid = Signal(intbv(0)[S_COUNT * S_ID_WIDTH:])
    s_axi_rdata = Signal(intbv(0)[S_COUNT * DATA_WIDTH:])
    s_axi_rresp = Signal(intbv(0)[S_COUNT * 2:])
    s_axi_rlast = Signal(intbv(0)[S_COUNT:])
    s_axi_ruser = Signal(intbv(0)[S_COUNT * RUSER_WIDTH:])
    s_axi_rvalid = Signal(intbv(0)[S_COUNT:])
    m_axi_awid = Signal(intbv(0)[M_COUNT * M_ID_WIDTH:])
    m_axi_awaddr = Signal(intbv(0)[M_COUNT * ADDR_WIDTH:])
    m_axi_awlen = Signal(intbv(0)[M_COUNT * 8:])
    m_axi_awsize = Signal(intbv(0)[M_COUNT * 3:])
    m_axi_awburst = Signal(intbv(0)[M_COUNT * 2:])
    m_axi_awlock = Signal(intbv(0)[M_COUNT:])
    m_axi_awcache = Signal(intbv(0)[M_COUNT * 4:])
    m_axi_awprot = Signal(intbv(0)[M_COUNT * 3:])
    m_axi_awqos = Signal(intbv(0)[M_COUNT * 4:])
    m_axi_awregion = Signal(intbv(0)[M_COUNT * 4:])
    m_axi_awuser = Signal(intbv(0)[M_COUNT * AWUSER_WIDTH:])
    m_axi_awvalid = Signal(intbv(0)[M_COUNT:])
    m_axi_wdata = Signal(intbv(0)[M_COUNT * DATA_WIDTH:])
    m_axi_wstrb = Signal(intbv(0)[M_COUNT * STRB_WIDTH:])
    m_axi_wlast = Signal(intbv(0)[M_COUNT:])
    m_axi_wuser = Signal(intbv(0)[M_COUNT * WUSER_WIDTH:])
    m_axi_wvalid = Signal(intbv(0)[M_COUNT:])
    m_axi_bready = Signal(intbv(0)[M_COUNT:])
    m_axi_arid = Signal(intbv(0)[M_COUNT * M_ID_WIDTH:])
    m_axi_araddr = Signal(intbv(0)[M_COUNT * ADDR_WIDTH:])
    m_axi_arlen = Signal(intbv(0)[M_COUNT * 8:])
    m_axi_arsize = Signal(intbv(0)[M_COUNT * 3:])
    m_axi_arburst = Signal(intbv(0)[M_COUNT * 2:])
    m_axi_arlock = Signal(intbv(0)[M_COUNT:])
    m_axi_arcache = Signal(intbv(0)[M_COUNT * 4:])
    m_axi_arprot = Signal(intbv(0)[M_COUNT * 3:])
    m_axi_arqos = Signal(intbv(0)[M_COUNT * 4:])
    m_axi_arregion = Signal(intbv(0)[M_COUNT * 4:])
    m_axi_aruser = Signal(intbv(0)[M_COUNT * ARUSER_WIDTH:])
    m_axi_arvalid = Signal(intbv(0)[M_COUNT:])
    m_axi_rready = Signal(intbv(0)[M_COUNT:])

    s_axi_awready_list = [s_axi_awready(i) for i in range(S_COUNT)]
    s_axi_wready_list = [s_axi_wready(i) for i in range(S_COUNT)]
    s_axi_bid_list = [
        s_axi_bid((i + 1) * S_ID_WIDTH, i * S_ID_WIDTH) for i in range(S_COUNT)
    ]
    s_axi_bresp_list = [
        s_axi_bresp((i + 1) * 2, i * 2) for i in range(S_COUNT)
    ]
    s_axi_buser_list = [
        s_axi_buser((i + 1) * BUSER_WIDTH, i * BUSER_WIDTH)
        for i in range(S_COUNT)
    ]
    s_axi_bvalid_list = [s_axi_bvalid(i) for i in range(S_COUNT)]
    s_axi_arready_list = [s_axi_arready(i) for i in range(S_COUNT)]
    s_axi_rid_list = [
        s_axi_rid((i + 1) * S_ID_WIDTH, i * S_ID_WIDTH) for i in range(S_COUNT)
    ]
    s_axi_rdata_list = [
        s_axi_rdata((i + 1) * DATA_WIDTH, i * DATA_WIDTH)
        for i in range(S_COUNT)
    ]
    s_axi_rresp_list = [
        s_axi_rresp((i + 1) * 2, i * 2) for i in range(S_COUNT)
    ]
    s_axi_rlast_list = [s_axi_rlast(i) for i in range(S_COUNT)]
    s_axi_ruser_list = [
        s_axi_ruser((i + 1) * RUSER_WIDTH, i * RUSER_WIDTH)
        for i in range(S_COUNT)
    ]
    s_axi_rvalid_list = [s_axi_rvalid(i) for i in range(S_COUNT)]
    m_axi_awid_list = [
        m_axi_awid((i + 1) * M_ID_WIDTH, i * M_ID_WIDTH)
        for i in range(M_COUNT)
    ]
    m_axi_awaddr_list = [
        m_axi_awaddr((i + 1) * ADDR_WIDTH, i * ADDR_WIDTH)
        for i in range(M_COUNT)
    ]
    m_axi_awlen_list = [
        m_axi_awlen((i + 1) * 8, i * 8) for i in range(M_COUNT)
    ]
    m_axi_awsize_list = [
        m_axi_awsize((i + 1) * 3, i * 3) for i in range(M_COUNT)
    ]
    m_axi_awburst_list = [
        m_axi_awburst((i + 1) * 2, i * 2) for i in range(M_COUNT)
    ]
    m_axi_awlock_list = [m_axi_awlock(i) for i in range(M_COUNT)]
    m_axi_awcache_list = [
        m_axi_awcache((i + 1) * 4, i * 4) for i in range(M_COUNT)
    ]
    m_axi_awprot_list = [
        m_axi_awprot((i + 1) * 3, i * 3) for i in range(M_COUNT)
    ]
    m_axi_awqos_list = [
        m_axi_awqos((i + 1) * 4, i * 4) for i in range(M_COUNT)
    ]
    m_axi_awregion_list = [
        m_axi_awregion((i + 1) * 4, i * 4) for i in range(M_COUNT)
    ]
    m_axi_awuser_list = [
        m_axi_awuser((i + 1) * AWUSER_WIDTH, i * AWUSER_WIDTH)
        for i in range(M_COUNT)
    ]
    m_axi_awvalid_list = [m_axi_awvalid(i) for i in range(M_COUNT)]
    m_axi_wdata_list = [
        m_axi_wdata((i + 1) * DATA_WIDTH, i * DATA_WIDTH)
        for i in range(M_COUNT)
    ]
    m_axi_wstrb_list = [
        m_axi_wstrb((i + 1) * STRB_WIDTH, i * STRB_WIDTH)
        for i in range(M_COUNT)
    ]
    m_axi_wlast_list = [m_axi_wlast(i) for i in range(M_COUNT)]
    m_axi_wuser_list = [
        m_axi_wuser((i + 1) * WUSER_WIDTH, i * WUSER_WIDTH)
        for i in range(M_COUNT)
    ]
    m_axi_wvalid_list = [m_axi_wvalid(i) for i in range(M_COUNT)]
    m_axi_bready_list = [m_axi_bready(i) for i in range(M_COUNT)]
    m_axi_arid_list = [
        m_axi_arid((i + 1) * M_ID_WIDTH, i * M_ID_WIDTH)
        for i in range(M_COUNT)
    ]
    m_axi_araddr_list = [
        m_axi_araddr((i + 1) * ADDR_WIDTH, i * ADDR_WIDTH)
        for i in range(M_COUNT)
    ]
    m_axi_arlen_list = [
        m_axi_arlen((i + 1) * 8, i * 8) for i in range(M_COUNT)
    ]
    m_axi_arsize_list = [
        m_axi_arsize((i + 1) * 3, i * 3) for i in range(M_COUNT)
    ]
    m_axi_arburst_list = [
        m_axi_arburst((i + 1) * 2, i * 2) for i in range(M_COUNT)
    ]
    m_axi_arlock_list = [m_axi_arlock(i) for i in range(M_COUNT)]
    m_axi_arcache_list = [
        m_axi_arcache((i + 1) * 4, i * 4) for i in range(M_COUNT)
    ]
    m_axi_arprot_list = [
        m_axi_arprot((i + 1) * 3, i * 3) for i in range(M_COUNT)
    ]
    m_axi_arqos_list = [
        m_axi_arqos((i + 1) * 4, i * 4) for i in range(M_COUNT)
    ]
    m_axi_arregion_list = [
        m_axi_arregion((i + 1) * 4, i * 4) for i in range(M_COUNT)
    ]
    m_axi_aruser_list = [
        m_axi_aruser((i + 1) * ARUSER_WIDTH, i * ARUSER_WIDTH)
        for i in range(M_COUNT)
    ]
    m_axi_arvalid_list = [m_axi_arvalid(i) for i in range(M_COUNT)]
    m_axi_rready_list = [m_axi_rready(i) for i in range(M_COUNT)]

    # AXI4 masters
    axi_master_inst_list = []
    axi_master_pause_list = []
    axi_master_logic = []

    for k in range(S_COUNT):
        m = axi.AXIMaster()
        p = Signal(bool(False))

        axi_master_inst_list.append(m)
        axi_master_pause_list.append(p)

        axi_master_logic.append(
            m.create_logic(clk,
                           rst,
                           m_axi_awid=s_axi_awid_list[k],
                           m_axi_awaddr=s_axi_awaddr_list[k],
                           m_axi_awlen=s_axi_awlen_list[k],
                           m_axi_awsize=s_axi_awsize_list[k],
                           m_axi_awburst=s_axi_awburst_list[k],
                           m_axi_awlock=s_axi_awlock_list[k],
                           m_axi_awcache=s_axi_awcache_list[k],
                           m_axi_awprot=s_axi_awprot_list[k],
                           m_axi_awqos=s_axi_awqos_list[k],
                           m_axi_awvalid=s_axi_awvalid_list[k],
                           m_axi_awready=s_axi_awready_list[k],
                           m_axi_wdata=s_axi_wdata_list[k],
                           m_axi_wstrb=s_axi_wstrb_list[k],
                           m_axi_wlast=s_axi_wlast_list[k],
                           m_axi_wvalid=s_axi_wvalid_list[k],
                           m_axi_wready=s_axi_wready_list[k],
                           m_axi_bid=s_axi_bid_list[k],
                           m_axi_bresp=s_axi_bresp_list[k],
                           m_axi_bvalid=s_axi_bvalid_list[k],
                           m_axi_bready=s_axi_bready_list[k],
                           m_axi_arid=s_axi_arid_list[k],
                           m_axi_araddr=s_axi_araddr_list[k],
                           m_axi_arlen=s_axi_arlen_list[k],
                           m_axi_arsize=s_axi_arsize_list[k],
                           m_axi_arburst=s_axi_arburst_list[k],
                           m_axi_arlock=s_axi_arlock_list[k],
                           m_axi_arcache=s_axi_arcache_list[k],
                           m_axi_arprot=s_axi_arprot_list[k],
                           m_axi_arqos=s_axi_arqos_list[k],
                           m_axi_arvalid=s_axi_arvalid_list[k],
                           m_axi_arready=s_axi_arready_list[k],
                           m_axi_rid=s_axi_rid_list[k],
                           m_axi_rdata=s_axi_rdata_list[k],
                           m_axi_rresp=s_axi_rresp_list[k],
                           m_axi_rlast=s_axi_rlast_list[k],
                           m_axi_rvalid=s_axi_rvalid_list[k],
                           m_axi_rready=s_axi_rready_list[k],
                           pause=p,
                           name='master_%d' % k))

    # AXI4 RAM models
    axi_ram_inst_list = []
    axi_ram_pause_list = []
    axi_ram_logic = []

    for k in range(M_COUNT):
        r = axi.AXIRam(2**16)
        p = Signal(bool(False))

        axi_ram_inst_list.append(r)
        axi_ram_pause_list.append(p)

        axi_ram_logic.append(
            r.create_port(clk,
                          s_axi_awid=m_axi_awid_list[k],
                          s_axi_awaddr=m_axi_awaddr_list[k],
                          s_axi_awlen=m_axi_awlen_list[k],
                          s_axi_awsize=m_axi_awsize_list[k],
                          s_axi_awburst=m_axi_awburst_list[k],
                          s_axi_awlock=m_axi_awlock_list[k],
                          s_axi_awcache=m_axi_awcache_list[k],
                          s_axi_awprot=m_axi_awprot_list[k],
                          s_axi_awvalid=m_axi_awvalid_list[k],
                          s_axi_awready=m_axi_awready_list[k],
                          s_axi_wdata=m_axi_wdata_list[k],
                          s_axi_wstrb=m_axi_wstrb_list[k],
                          s_axi_wlast=m_axi_wlast_list[k],
                          s_axi_wvalid=m_axi_wvalid_list[k],
                          s_axi_wready=m_axi_wready_list[k],
                          s_axi_bid=m_axi_bid_list[k],
                          s_axi_bresp=m_axi_bresp_list[k],
                          s_axi_bvalid=m_axi_bvalid_list[k],
                          s_axi_bready=m_axi_bready_list[k],
                          s_axi_arid=m_axi_arid_list[k],
                          s_axi_araddr=m_axi_araddr_list[k],
                          s_axi_arlen=m_axi_arlen_list[k],
                          s_axi_arsize=m_axi_arsize_list[k],
                          s_axi_arburst=m_axi_arburst_list[k],
                          s_axi_arlock=m_axi_arlock_list[k],
                          s_axi_arcache=m_axi_arcache_list[k],
                          s_axi_arprot=m_axi_arprot_list[k],
                          s_axi_arvalid=m_axi_arvalid_list[k],
                          s_axi_arready=m_axi_arready_list[k],
                          s_axi_rid=m_axi_rid_list[k],
                          s_axi_rdata=m_axi_rdata_list[k],
                          s_axi_rresp=m_axi_rresp_list[k],
                          s_axi_rlast=m_axi_rlast_list[k],
                          s_axi_rvalid=m_axi_rvalid_list[k],
                          s_axi_rready=m_axi_rready_list[k],
                          pause=p,
                          name='ram_%d' % k))

    # 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_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_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 all([axi_master_inst_list[k].idle()
                       for k in range(S_COUNT)]):
            yield clk.posedge

    def wait_pause_master():
        while not all([axi_master_inst_list[k].idle()
                       for k in range(S_COUNT)]):
            for k in range(S_COUNT):
                axi_master_pause_list[k].next = True
            yield clk.posedge
            yield clk.posedge
            yield clk.posedge
            for k in range(S_COUNT):
                axi_master_pause_list[k].next = False
            yield clk.posedge

    def wait_pause_slave():
        while not all([axi_master_inst_list[k].idle()
                       for k in range(S_COUNT)]):
            for k in range(M_COUNT):
                axi_ram_pause_list[k].next = True
            yield clk.posedge
            yield clk.posedge
            yield clk.posedge
            for k in range(M_COUNT):
                axi_ram_pause_list[k].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_list[0].init_write(addr, test_data)

        yield axi_master_inst_list[0].wait()
        yield clk.posedge

        data = axi_ram_inst_list[0].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_list[0].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_list[0].write_mem(addr, test_data)

        axi_master_inst_list[0].init_read(addr, len(test_data))

        yield axi_master_inst_list[0].wait()
        yield clk.posedge

        data = axi_master_inst_list[0].get_read_data()
        assert data[0] == addr
        assert data[1] == test_data

        yield delay(100)

        yield clk.posedge
        print("test 3: one to many")
        current_test.next = 3

        addr = 4
        test_data = b'\x11\x22\x33\x44'

        for k in range(S_COUNT):
            axi_master_inst_list[0].init_write(addr + M_BASE_ADDR[k],
                                               test_data)

        yield axi_master_inst_list[0].wait()
        yield clk.posedge

        for k in range(S_COUNT):
            data = axi_ram_inst_list[k].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]))))

        for k in range(S_COUNT):
            assert axi_ram_inst_list[k].read_mem(addr,
                                                 len(test_data)) == test_data

        for k in range(S_COUNT):
            axi_master_inst_list[0].init_read(addr + M_BASE_ADDR[k],
                                              len(test_data))

        yield axi_master_inst_list[0].wait()
        yield clk.posedge

        for k in range(S_COUNT):
            data = axi_master_inst_list[0].get_read_data()
            assert data[0] == addr + M_BASE_ADDR[k]
            assert data[1] == test_data

        yield delay(100)

        yield clk.posedge
        print("test 4: many to one")
        current_test.next = 4

        for k in range(M_COUNT):
            axi_master_inst_list[k].init_write(k * 4,
                                               bytearray([(k + 1) * 17] * 4))

        for k in range(M_COUNT):
            yield axi_master_inst_list[k].wait()
        yield clk.posedge

        data = axi_ram_inst_list[0].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]))))

        for k in range(M_COUNT):
            assert axi_ram_inst_list[0].read_mem(k * 4, 4) == bytearray(
                [(k + 1) * 17] * 4)

        for k in range(M_COUNT):
            axi_master_inst_list[k].init_read(k * 4, 4)

        for k in range(M_COUNT):
            yield axi_master_inst_list[k].wait()
        yield clk.posedge

        for k in range(M_COUNT):
            data = axi_master_inst_list[k].get_read_data()
            assert data[0] == k * 4
            assert data[1] == bytearray([(k + 1) * 17] * 4)

        yield delay(100)

        yield clk.posedge
        print("test 10: transaction limit and ordering test")
        current_test.next = 10

        length = 256
        test_data = bytearray([x % 256 for x in range(length)])

        for k in range(10):
            axi_master_inst_list[0].init_write(length * k + M_BASE_ADDR[0],
                                               bytearray([k + 1] * length))

        yield axi_master_inst_list[0].wait()
        yield clk.posedge

        for k in range(10):
            data = axi_ram_inst_list[0].read_mem((length * k) & 0xffffff80, 32)
            for i in range(0, len(data), 16):
                print(" ".join(
                    ("{:02x}".format(c) for c in bytearray(data[i:i + 16]))))

        for k in range(10):
            assert axi_ram_inst_list[0].read_mem(
                length * k, length) == bytearray([k + 1] * length)

        for k in range(10):
            axi_master_inst_list[0].init_read(length * k + M_BASE_ADDR[0],
                                              length)

        yield axi_master_inst_list[0].wait()
        yield clk.posedge

        for k in range(10):
            data = axi_master_inst_list[0].get_read_data()
            assert data[0] == length * k + M_BASE_ADDR[0]
            assert data[1] == bytearray([k + 1] * length)

        yield delay(100)

        yield clk.posedge
        print("test 5: various writes")
        current_test.next = 5

        for length in list(range(1, 8)) + [1024]:
            for offset in list(range(4, 8)) + [4096 - 4]:
                for wait in wait_normal, wait_pause_master, wait_pause_slave:
                    print("length %d, offset %d" % (length, offset))
                    #addr = 256*(16*offset+length)+offset
                    addr = offset
                    test_data = bytearray([x % 256 for x in range(length)])

                    axi_ram_inst_list[0].write_mem(addr & 0xffffff80,
                                                   b'\xAA' * (length + 256))
                    axi_master_inst_list[0].init_write(addr, test_data)

                    yield wait()
                    yield clk.posedge

                    data = axi_ram_inst_list[0].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_list[0].read_mem(addr,
                                                         length) == test_data
                    assert axi_ram_inst_list[0].read_mem(addr - 1,
                                                         1) == b'\xAA'
                    assert axi_ram_inst_list[0].read_mem(addr + length,
                                                         1) == b'\xAA'

        yield delay(100)

        yield clk.posedge
        print("test 6: various reads")
        current_test.next = 6

        for length in list(range(1, 8)) + [1024]:
            for offset in list(range(4, 8)) + [4096 - 4]:
                for wait in wait_normal, wait_pause_master, wait_pause_slave:
                    print("length %d, offset %d" % (length, offset))
                    #addr = 256*(16*offset+length)+offset
                    addr = offset
                    test_data = bytearray([x % 256 for x in range(length)])

                    axi_ram_inst_list[0].write_mem(addr, test_data)

                    axi_master_inst_list[0].init_read(addr, length)

                    yield wait()
                    yield clk.posedge

                    data = axi_master_inst_list[0].get_read_data()
                    assert data[0] == addr
                    assert data[1] == test_data

        yield delay(100)

        yield clk.posedge
        print("test 7: concurrent operations")
        current_test.next = 7

        for count in [1, 2, 4, 8]:
            for stride in [2, 3, 5, 7]:
                for wait in wait_normal, wait_pause_master, wait_pause_slave:
                    print("count %d, stride %d" % (count, stride))

                    for k in range(S_COUNT):
                        for l in range(count):
                            ram = ((k * 61 + l) * stride) % M_COUNT
                            offset = k * 256 + l * 4
                            axi_ram_inst_list[ram].write_mem(
                                offset, b'\xAA' * 4)
                            axi_master_inst_list[k].init_write(
                                M_BASE_ADDR[ram] + offset,
                                bytearray([0xaa, k, l, 0xaa]))

                            ram = ((k * 61 + l + 67) * stride) % M_COUNT
                            offset = k * 256 + l * 4
                            axi_ram_inst_list[ram].write_mem(
                                offset + 0x8000, bytearray([0xaa, k, l, 0xaa]))
                            axi_master_inst_list[k].init_read(
                                M_BASE_ADDR[ram] + offset + 0x8000, 4)

                    yield wait()
                    yield clk.posedge

                    for k in range(S_COUNT):
                        for l in range(count):
                            ram = ((k * 61 + l) * stride) % M_COUNT
                            offset = k * 256 + l * 4
                            axi_ram_inst_list[ram].read_mem(
                                offset, 4) == bytearray([0xaa, k, l, 0xaa])

                            ram = ((k * 61 + l + 67) * stride) % M_COUNT
                            offset = k * 256 + l * 4
                            data = axi_master_inst_list[k].get_read_data()
                            assert data[
                                0] == M_BASE_ADDR[ram] + offset + 0x8000
                            assert data[1] == bytearray([0xaa, k, l, 0xaa])

        yield delay(100)

        yield clk.posedge
        print("test 8: bad write")
        current_test.next = 8

        axi_master_inst_list[0].init_write(0xff000000, b'\xDE\xAD\xBE\xEF')

        yield axi_master_inst_list[0].wait()
        yield clk.posedge

        yield delay(100)

        yield clk.posedge
        print("test 9: bad read")
        current_test.next = 9

        axi_master_inst_list[0].init_read(0xff000000, 4)

        yield axi_master_inst_list[0].wait()
        yield clk.posedge

        data = axi_master_inst_list[0].get_read_data()
        assert data[0] == 0xff000000

        yield delay(100)

        raise StopSimulation

    return instances()
コード例 #2
0
ファイル: test_axi.py プロジェクト: kaist-cp/corundum-old
def bench():

    # Inputs
    clk = Signal(bool(0))
    rst = Signal(bool(0))
    current_test = Signal(intbv(0)[8:])

    port0_axi_awid = Signal(intbv(0)[8:])
    port0_axi_awaddr = Signal(intbv(0)[32:])
    port0_axi_awlen = Signal(intbv(0)[8:])
    port0_axi_awsize = Signal(intbv(0)[3:])
    port0_axi_awburst = Signal(intbv(0)[2:])
    port0_axi_awlock = Signal(intbv(0)[1:])
    port0_axi_awcache = Signal(intbv(0)[4:])
    port0_axi_awprot = Signal(intbv(0)[3:])
    port0_axi_awqos = Signal(intbv(0)[4:])
    port0_axi_awregion = Signal(intbv(0)[4:])
    port0_axi_awvalid = Signal(bool(False))
    port0_axi_wdata = Signal(intbv(0)[32:])
    port0_axi_wstrb = Signal(intbv(0)[4:])
    port0_axi_wlast = Signal(bool(False))
    port0_axi_wvalid = Signal(bool(False))
    port0_axi_bready = Signal(bool(False))
    port0_axi_arid = Signal(intbv(0)[8:])
    port0_axi_araddr = Signal(intbv(0)[32:])
    port0_axi_arlen = Signal(intbv(0)[8:])
    port0_axi_arsize = Signal(intbv(0)[3:])
    port0_axi_arburst = Signal(intbv(0)[2:])
    port0_axi_arlock = Signal(intbv(0)[1:])
    port0_axi_arcache = Signal(intbv(0)[4:])
    port0_axi_arprot = Signal(intbv(0)[3:])
    port0_axi_arqos = Signal(intbv(0)[4:])
    port0_axi_arregion = Signal(intbv(0)[4:])
    port0_axi_arvalid = Signal(bool(False))
    port0_axi_rready = Signal(bool(False))

    # Outputs
    port0_axi_awready = Signal(bool(False))
    port0_axi_wready = Signal(bool(False))
    port0_axi_bid = Signal(intbv(0)[8:])
    port0_axi_bresp = Signal(intbv(0)[2:])
    port0_axi_bvalid = Signal(bool(False))
    port0_axi_arready = Signal(bool(False))
    port0_axi_rid = Signal(intbv(0)[8:])
    port0_axi_rdata = Signal(intbv(0)[32:])
    port0_axi_rresp = Signal(intbv(0)[2:])
    port0_axi_rlast = Signal(bool(False))
    port0_axi_rvalid = Signal(bool(False))

    # 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=port0_axi_awid,
        m_axi_awaddr=port0_axi_awaddr,
        m_axi_awlen=port0_axi_awlen,
        m_axi_awsize=port0_axi_awsize,
        m_axi_awburst=port0_axi_awburst,
        m_axi_awlock=port0_axi_awlock,
        m_axi_awcache=port0_axi_awcache,
        m_axi_awprot=port0_axi_awprot,
        m_axi_awqos=port0_axi_awqos,
        m_axi_awregion=port0_axi_awregion,
        m_axi_awvalid=port0_axi_awvalid,
        m_axi_awready=port0_axi_awready,
        m_axi_wdata=port0_axi_wdata,
        m_axi_wstrb=port0_axi_wstrb,
        m_axi_wlast=port0_axi_wlast,
        m_axi_wvalid=port0_axi_wvalid,
        m_axi_wready=port0_axi_wready,
        m_axi_bid=port0_axi_bid,
        m_axi_bresp=port0_axi_bresp,
        m_axi_bvalid=port0_axi_bvalid,
        m_axi_bready=port0_axi_bready,
        m_axi_arid=port0_axi_arid,
        m_axi_araddr=port0_axi_araddr,
        m_axi_arlen=port0_axi_arlen,
        m_axi_arsize=port0_axi_arsize,
        m_axi_arburst=port0_axi_arburst,
        m_axi_arlock=port0_axi_arlock,
        m_axi_arcache=port0_axi_arcache,
        m_axi_arprot=port0_axi_arprot,
        m_axi_arqos=port0_axi_arqos,
        m_axi_arregion=port0_axi_arregion,
        m_axi_arvalid=port0_axi_arvalid,
        m_axi_arready=port0_axi_arready,
        m_axi_rid=port0_axi_rid,
        m_axi_rdata=port0_axi_rdata,
        m_axi_rresp=port0_axi_rresp,
        m_axi_rlast=port0_axi_rlast,
        m_axi_rvalid=port0_axi_rvalid,
        m_axi_rready=port0_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=port0_axi_awid,
                                             s_axi_awaddr=port0_axi_awaddr,
                                             s_axi_awlen=port0_axi_awlen,
                                             s_axi_awsize=port0_axi_awsize,
                                             s_axi_awburst=port0_axi_awburst,
                                             s_axi_awlock=port0_axi_awlock,
                                             s_axi_awcache=port0_axi_awcache,
                                             s_axi_awprot=port0_axi_awprot,
                                             s_axi_awvalid=port0_axi_awvalid,
                                             s_axi_awready=port0_axi_awready,
                                             s_axi_wdata=port0_axi_wdata,
                                             s_axi_wstrb=port0_axi_wstrb,
                                             s_axi_wlast=port0_axi_wlast,
                                             s_axi_wvalid=port0_axi_wvalid,
                                             s_axi_wready=port0_axi_wready,
                                             s_axi_bid=port0_axi_bid,
                                             s_axi_bresp=port0_axi_bresp,
                                             s_axi_bvalid=port0_axi_bvalid,
                                             s_axi_bready=port0_axi_bready,
                                             s_axi_arid=port0_axi_arid,
                                             s_axi_araddr=port0_axi_araddr,
                                             s_axi_arlen=port0_axi_arlen,
                                             s_axi_arsize=port0_axi_arsize,
                                             s_axi_arburst=port0_axi_arburst,
                                             s_axi_arlock=port0_axi_arlock,
                                             s_axi_arcache=port0_axi_arcache,
                                             s_axi_arprot=port0_axi_arprot,
                                             s_axi_arvalid=port0_axi_arvalid,
                                             s_axi_arready=port0_axi_arready,
                                             s_axi_rid=port0_axi_rid,
                                             s_axi_rdata=port0_axi_rdata,
                                             s_axi_rresp=port0_axi_rresp,
                                             s_axi_rlast=port0_axi_rlast,
                                             s_axi_rvalid=port0_axi_rvalid,
                                             s_axi_rready=port0_axi_rready,
                                             pause=axi_ram_pause,
                                             name='port0')

    @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

        yield clk.posedge
        print("test 1: baseline")
        current_test.next = 1

        data = axi_ram_inst.read_mem(0, 32)
        for i in range(0, len(data), 16):
            print(" ".join(
                ("{:02x}".format(c) for c in bytearray(data[i:i + 16]))))

        yield delay(100)

        yield clk.posedge
        print("test 2: direct write")
        current_test.next = 2

        axi_ram_inst.write_mem(0, b'test')

        data = axi_ram_inst.read_mem(0, 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(0, 4) == b'test'

        yield delay(100)

        yield clk.posedge
        print("test 3: write via port0")
        current_test.next = 3

        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 4: read via port0")
        current_test.next = 4

        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 5: various writes")
        current_test.next = 5

        for length in list(range(1, 8)) + [1024]:
            for offset in list(range(4, 8)) + [4096 - 4]:
                for size in (2, 1, 0):
                    for wait in wait_normal, wait_pause_master, wait_pause_slave:
                        print("length %d, offset %d, size %d" %
                              (length, offset, size))
                        addr = 256 * (16 * offset + length) + 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)

                        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 6: various reads")
        current_test.next = 6

        for length in list(range(1, 8)) + [1024]:
            for offset in list(range(4, 8)) + [4096 - 4]:
                for size in (2, 1, 0):
                    for wait in wait_normal, wait_pause_master, wait_pause_slave:
                        print("length %d, offset %d, size %d" %
                              (length, offset, size))
                        addr = 256 * (16 * offset + length) + 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)

                        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()
コード例 #3
0
def bench():

    # Parameters
    DATA_WIDTH = 32
    ADDR_WIDTH = 32
    STRB_WIDTH = (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
    WRITE_FIFO_DEPTH = 32
    READ_FIFO_DEPTH = 32
    WRITE_FIFO_DELAY = 0
    READ_FIFO_DELAY = 0

    # 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)[DATA_WIDTH:])
    s_axi_wstrb = Signal(intbv(0)[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)[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)[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)[DATA_WIDTH:])
    m_axi_wstrb = Signal(intbv(0)[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 wait in wait_normal, wait_pause_master, wait_pause_slave:
                    print("length %d, offset %d" % (length, offset))
                    #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)

                    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 wait in wait_normal, wait_pause_master, wait_pause_slave:
                    print("length %d, offset %d" % (length, offset))
                    #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)

                    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()
コード例 #4
0
def bench():

    # Parameters
    DATA_WIDTH = 32
    ADDR_WIDTH = 16
    STRB_WIDTH = (DATA_WIDTH/8)
    ID_WIDTH = 8

    # 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_awvalid = Signal(bool(0))
    s_axi_wdata = Signal(intbv(0)[DATA_WIDTH:])
    s_axi_wstrb = Signal(intbv(0)[STRB_WIDTH:])
    s_axi_wlast = Signal(bool(0))
    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_arvalid = Signal(bool(0))
    s_axi_rready = 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_bvalid = Signal(bool(0))
    s_axi_arready = Signal(bool(0))
    s_axi_rid = Signal(intbv(0)[ID_WIDTH:])
    s_axi_rdata = Signal(intbv(0)[DATA_WIDTH:])
    s_axi_rresp = Signal(intbv(0)[2:])
    s_axi_rlast = Signal(bool(0))
    s_axi_rvalid = 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_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_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'
    )

    # 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_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_wvalid=s_axi_wvalid,
        s_axi_wready=s_axi_wready,
        s_axi_bid=s_axi_bid,
        s_axi_bresp=s_axi_bresp,
        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_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_rvalid=s_axi_rvalid,
        s_axi_rready=s_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

    @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: read and 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

        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 2: various reads and writes")
        current_test.next = 2

        for length in list(range(1,8))+[1024]:
            for offset in list(range(4,8))+[4096-4]:
                for size in (2, 1, 0):
                    for wait in wait_normal, wait_pause_master:
                        print("length %d, offset %d, size %d"% (length, offset, size))
                        #addr = 256*(16*offset+length)+offset
                        addr = offset
                        test_data = bytearray([x%256 for x in range(length)])

                        axi_master_inst.init_write(addr-4, b'\xAA'*(length+8))

                        yield axi_master_inst.wait()

                        axi_master_inst.init_write(addr, test_data, size=size)

                        yield wait()

                        axi_master_inst.init_read(addr-1, length+2)

                        yield axi_master_inst.wait()

                        data = axi_master_inst.get_read_data()
                        assert data[0] == addr-1
                        assert data[1] == b'\xAA'+test_data+b'\xAA'

        for length in list(range(1,8))+[1024]:
            for offset in list(range(4,8))+[4096-4]:
                for size in (2, 1, 0):
                    for wait in wait_normal, wait_pause_master:
                        print("length %d, offset %d, size %d"% (length, offset, size))
                        #addr = 256*(16*offset+length)+offset
                        addr = offset
                        test_data = bytearray([x%256 for x in range(length)])

                        axi_master_inst.init_write(addr, test_data)

                        yield axi_master_inst.wait()

                        axi_master_inst.init_read(addr, length, size=size)

                        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()