gem5/python/m5/objects/Ethernet.py
Nathan Binkert 3e5e3e2d28 make all of the turbolaser stuff only compile if ALPHA_TLASER
is defined.

build/SConstruct:
    Default ALPHA_TLASER to false
dev/uart8250.cc:
    fix paths

--HG--
extra : convert_revision : 3616b5b4b9060860a73568a4ed4f1e8eb991938f
2005-06-05 01:24:17 -04:00

124 lines
5 KiB
Python

from m5 import *
from Device import DmaDevice
from Pci import PciDevice
class EtherInt(SimObject):
type = 'EtherInt'
abstract = True
peer = Param.EtherInt(NULL, "peer interface")
class EtherLink(SimObject):
type = 'EtherLink'
int1 = Param.EtherInt("interface 1")
int2 = Param.EtherInt("interface 2")
delay = Param.Latency('0us', "packet transmit delay")
speed = Param.NetworkBandwidth('1Gbps', "link speed")
dump = Param.EtherDump(NULL, "dump object")
class EtherBus(SimObject):
type = 'EtherBus'
loopback = Param.Bool(True, "send packet back to the sending interface")
dump = Param.EtherDump(NULL, "dump object")
speed = Param.NetworkBandwidth('100Mbps', "bus speed in bits per second")
class EtherTap(EtherInt):
type = 'EtherTap'
bufsz = Param.Int(10000, "tap buffer size")
dump = Param.EtherDump(NULL, "dump object")
port = Param.UInt16(3500, "tap port")
class EtherDump(SimObject):
type = 'EtherDump'
file = Param.String("dump file")
if build_env['ALPHA_TLASER']:
class EtherDev(DmaDevice):
type = 'EtherDev'
hardware_address = Param.EthernetAddr(NextEthernetAddr,
"Ethernet Hardware Address")
dma_data_free = Param.Bool(False, "DMA of Data is free")
dma_desc_free = Param.Bool(False, "DMA of Descriptors is free")
dma_read_delay = Param.Latency('0us', "fixed delay for dma reads")
dma_read_factor = Param.Latency('0us', "multiplier for dma reads")
dma_write_delay = Param.Latency('0us', "fixed delay for dma writes")
dma_write_factor = Param.Latency('0us', "multiplier for dma writes")
dma_no_allocate = Param.Bool(True, "Should we allocate cache on read")
rx_filter = Param.Bool(True, "Enable Receive Filter")
rx_delay = Param.Latency('1us', "Receive Delay")
tx_delay = Param.Latency('1us', "Transmit Delay")
intr_delay = Param.Latency('0us', "Interrupt Delay")
payload_bus = Param.Bus(NULL, "The IO Bus to attach to for payload")
physmem = Param.PhysicalMemory(Parent.any, "Physical Memory")
tlaser = Param.Turbolaser(Parent.any, "Turbolaser")
class EtherDevInt(EtherInt):
type = 'EtherDevInt'
device = Param.EtherDev("Ethernet device of this interface")
class NSGigE(PciDevice):
type = 'NSGigE'
hardware_address = Param.EthernetAddr(NextEthernetAddr,
"Ethernet Hardware Address")
clock = Param.Clock('100MHz', "State machine processor frequency")
dma_data_free = Param.Bool(False, "DMA of Data is free")
dma_desc_free = Param.Bool(False, "DMA of Descriptors is free")
dma_read_delay = Param.Latency('0us', "fixed delay for dma reads")
dma_read_factor = Param.Latency('0us', "multiplier for dma reads")
dma_write_delay = Param.Latency('0us', "fixed delay for dma writes")
dma_write_factor = Param.Latency('0us', "multiplier for dma writes")
dma_no_allocate = Param.Bool(True, "Should we allocate cache on read")
rx_filter = Param.Bool(True, "Enable Receive Filter")
rx_delay = Param.Latency('1us', "Receive Delay")
tx_delay = Param.Latency('1us', "Transmit Delay")
rx_fifo_size = Param.MemorySize('128kB', "max size in bytes of rxFifo")
tx_fifo_size = Param.MemorySize('128kB', "max size in bytes of txFifo")
m5reg = Param.UInt32(0, "Register for m5 usage")
intr_delay = Param.Latency('0us', "Interrupt Delay in microseconds")
payload_bus = Param.Bus(NULL, "The IO Bus to attach to for payload")
physmem = Param.PhysicalMemory(Parent.any, "Physical Memory")
class NSGigEInt(EtherInt):
type = 'NSGigEInt'
device = Param.NSGigE("Ethernet device of this interface")
class Sinic(PciDevice):
type = 'Sinic'
hardware_address = Param.EthernetAddr(NextEthernetAddr,
"Ethernet Hardware Address")
clock = Param.Clock('100MHz', "State machine processor frequency")
dma_read_delay = Param.Latency('0us', "fixed delay for dma reads")
dma_read_factor = Param.Latency('0us', "multiplier for dma reads")
dma_write_delay = Param.Latency('0us', "fixed delay for dma writes")
dma_write_factor = Param.Latency('0us', "multiplier for dma writes")
rx_filter = Param.Bool(True, "Enable Receive Filter")
rx_delay = Param.Latency('1us', "Receive Delay")
tx_delay = Param.Latency('1us', "Transmit Delay")
rx_max_copy = Param.MemorySize('16kB', "rx max copy")
tx_max_copy = Param.MemorySize('16kB', "tx max copy")
rx_fifo_size = Param.MemorySize('64kB', "max size of rx fifo")
tx_fifo_size = Param.MemorySize('64kB', "max size of tx fifo")
rx_fifo_threshold = Param.MemorySize('48kB', "rx fifo high threshold")
tx_fifo_threshold = Param.MemorySize('16kB', "tx fifo low threshold")
intr_delay = Param.Latency('0us', "Interrupt Delay in microseconds")
payload_bus = Param.Bus(NULL, "The IO Bus to attach to for payload")
physmem = Param.PhysicalMemory(Parent.any, "Physical Memory")
class SinicInt(EtherInt):
type = 'SinicInt'
device = Param.Sinic("Ethernet device of this interface")