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|
# Copyright (c) 2009-2018 ARM Limited
# All rights reserved.
#
# The license below extends only to copyright in the software and shall
# not be construed as granting a license to any other intellectual
# property including but not limited to intellectual property relating
# to a hardware implementation of the functionality of the software
# licensed hereunder. You may use the software subject to the license
# terms below provided that you ensure that this notice is replicated
# unmodified and in its entirety in all distributions of the software,
# modified or unmodified, in source code or in binary form.
#
# Copyright (c) 2006-2007 The Regents of The University of Michigan
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met: redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer;
# redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution;
# neither the name of the copyright holders nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# Authors: Ali Saidi
# Gabe Black
# William Wang
# Glenn Bergmans
from m5.defines import buildEnv
from m5.params import *
from m5.proxy import *
from m5.util.fdthelper import *
from ClockDomain import ClockDomain
from VoltageDomain import VoltageDomain
from Device import BasicPioDevice, PioDevice, IsaFake, BadAddr, DmaDevice
from PciHost import *
from Ethernet import NSGigE, IGbE_igb, IGbE_e1000
from Ide import *
from Platform import Platform
from Terminal import Terminal
from Uart import Uart
from SimpleMemory import SimpleMemory
from Gic import *
from EnergyCtrl import EnergyCtrl
from ClockedObject import ClockedObject
from ClockDomain import SrcClockDomain
from SubSystem import SubSystem
from Graphics import ImageFormat
from ClockedObject import ClockedObject
from PS2 import *
from VirtIOMMIO import MmioVirtIO
# Platforms with KVM support should generally use in-kernel GIC
# emulation. Use a GIC model that automatically switches between
# gem5's GIC model and KVM's GIC model if KVM is available.
try:
from KvmGic import MuxingKvmGic
kvm_gicv2_class = MuxingKvmGic
except ImportError:
# KVM support wasn't compiled into gem5. Fallback to a
# software-only GIC.
kvm_gicv2_class = Pl390
pass
class AmbaPioDevice(BasicPioDevice):
type = 'AmbaPioDevice'
abstract = True
cxx_header = "dev/arm/amba_device.hh"
amba_id = Param.UInt32("ID of AMBA device for kernel detection")
class AmbaIntDevice(AmbaPioDevice):
type = 'AmbaIntDevice'
abstract = True
cxx_header = "dev/arm/amba_device.hh"
gic = Param.BaseGic(Parent.any, "Gic to use for interrupting")
int_num = Param.UInt32("Interrupt number that connects to GIC")
int_delay = Param.Latency("100ns",
"Time between action and interrupt generation by device")
class AmbaDmaDevice(DmaDevice):
type = 'AmbaDmaDevice'
abstract = True
cxx_header = "dev/arm/amba_device.hh"
pio_addr = Param.Addr("Address for AMBA slave interface")
pio_latency = Param.Latency("10ns", "Time between action and write/read result by AMBA DMA Device")
gic = Param.BaseGic(Parent.any, "Gic to use for interrupting")
int_num = Param.UInt32("Interrupt number that connects to GIC")
amba_id = Param.UInt32("ID of AMBA device for kernel detection")
class A9SCU(BasicPioDevice):
type = 'A9SCU'
cxx_header = "dev/arm/a9scu.hh"
class ArmPciIntRouting(Enum): vals = [
'ARM_PCI_INT_STATIC',
'ARM_PCI_INT_DEV',
'ARM_PCI_INT_PIN',
]
class GenericArmPciHost(GenericPciHost):
type = 'GenericArmPciHost'
cxx_header = "dev/arm/pci_host.hh"
int_policy = Param.ArmPciIntRouting("PCI interrupt routing policy")
int_base = Param.Unsigned("PCI interrupt base")
int_count = Param.Unsigned("Maximum number of interrupts used by this host")
def generateDeviceTree(self, state):
local_state = FdtState(addr_cells=3, size_cells=2, cpu_cells=1)
intterrupt_cells = 1
node = FdtNode("pci")
if int(self.conf_device_bits) == 8:
node.appendCompatible("pci-host-cam-generic")
elif int(self.conf_device_bits) == 12:
node.appendCompatible("pci-host-ecam-generic")
else:
m5.fatal("No compatibility string for the set conf_device_width")
node.append(FdtPropertyStrings("device_type", ["pci"]))
# Cell sizes of child nodes/peripherals
node.append(local_state.addrCellsProperty())
node.append(local_state.sizeCellsProperty())
node.append(FdtPropertyWords("#interrupt-cells", intterrupt_cells))
# PCI address for CPU
node.append(FdtPropertyWords("reg",
state.addrCells(self.conf_base) +
state.sizeCells(self.conf_size) ))
# Ranges mapping
# For now some of this is hard coded, because the PCI module does not
# have a proper full understanding of the memory map, but adapting the
# PCI module is beyond the scope of what I'm trying to do here.
# Values are taken from the VExpress_GEM5_V1 platform.
ranges = []
# Pio address range
ranges += self.pciFdtAddr(space=1, addr=0)
ranges += state.addrCells(self.pci_pio_base)
ranges += local_state.sizeCells(0x10000) # Fixed size
# AXI memory address range
ranges += self.pciFdtAddr(space=2, addr=0)
ranges += state.addrCells(0x40000000) # Fixed offset
ranges += local_state.sizeCells(0x40000000) # Fixed size
node.append(FdtPropertyWords("ranges", ranges))
if str(self.int_policy) == 'ARM_PCI_INT_DEV':
int_phandle = state.phandle(self._parent.unproxy(self).gic)
# Interrupt mapping
interrupts = []
for i in range(int(self.int_count)):
interrupts += self.pciFdtAddr(device=i, addr=0) + \
[0x0, int_phandle, 0, int(self.int_base) - 32 + i, 1]
node.append(FdtPropertyWords("interrupt-map", interrupts))
int_count = int(self.int_count)
if int_count & (int_count - 1):
fatal("PCI interrupt count should be power of 2")
intmask = self.pciFdtAddr(device=int_count - 1, addr=0) + [0x0]
node.append(FdtPropertyWords("interrupt-map-mask", intmask))
else:
m5.fatal("Unsupported PCI interrupt policy " +
"for Device Tree generation")
node.append(FdtProperty("dma-coherent"))
yield node
class RealViewCtrl(BasicPioDevice):
type = 'RealViewCtrl'
cxx_header = "dev/arm/rv_ctrl.hh"
proc_id0 = Param.UInt32(0x0C000000, "Processor ID, SYS_PROCID")
proc_id1 = Param.UInt32(0x0C000222, "Processor ID, SYS_PROCID1")
idreg = Param.UInt32(0x00000000, "ID Register, SYS_ID")
def generateDeviceTree(self, state):
node = FdtNode("sysreg@%x" % long(self.pio_addr))
node.appendCompatible("arm,vexpress-sysreg")
node.append(FdtPropertyWords("reg",
state.addrCells(self.pio_addr) +
state.sizeCells(0x1000) ))
node.append(FdtProperty("gpio-controller"))
node.append(FdtPropertyWords("#gpio-cells", [2]))
node.appendPhandle(self)
yield node
class RealViewOsc(ClockDomain):
type = 'RealViewOsc'
cxx_header = "dev/arm/rv_ctrl.hh"
parent = Param.RealViewCtrl(Parent.any, "RealView controller")
# TODO: We currently don't have the notion of a clock source,
# which means we have to associate oscillators with a voltage
# source.
voltage_domain = Param.VoltageDomain(Parent.voltage_domain,
"Voltage domain")
# See ARM DUI 0447J (ARM Motherboard Express uATX -- V2M-P1) and
# the individual core/logic tile reference manuals for details
# about the site/position/dcc/device allocation.
site = Param.UInt8("Board Site")
position = Param.UInt8("Position in device stack")
dcc = Param.UInt8("Daughterboard Configuration Controller")
device = Param.UInt8("Device ID")
freq = Param.Clock("Default frequency")
def generateDeviceTree(self, state):
phandle = state.phandle(self)
node = FdtNode("osc@" + format(long(phandle), 'x'))
node.appendCompatible("arm,vexpress-osc")
node.append(FdtPropertyWords("arm,vexpress-sysreg,func",
[0x1, int(self.device)]))
node.append(FdtPropertyWords("#clock-cells", [0]))
freq = int(1.0/self.freq.value) # Values are stored as a clock period
node.append(FdtPropertyWords("freq-range", [freq, freq]))
node.append(FdtPropertyStrings("clock-output-names",
["oscclk" + str(phandle)]))
node.appendPhandle(self)
yield node
class RealViewTemperatureSensor(SimObject):
type = 'RealViewTemperatureSensor'
cxx_header = "dev/arm/rv_ctrl.hh"
parent = Param.RealViewCtrl(Parent.any, "RealView controller")
system = Param.System(Parent.any, "system")
# See ARM DUI 0447J (ARM Motherboard Express uATX -- V2M-P1) and
# the individual core/logic tile reference manuals for details
# about the site/position/dcc/device allocation.
site = Param.UInt8("Board Site")
position = Param.UInt8("Position in device stack")
dcc = Param.UInt8("Daughterboard Configuration Controller")
device = Param.UInt8("Device ID")
class VExpressMCC(SubSystem):
"""ARM V2M-P1 Motherboard Configuration Controller
This subsystem describes a subset of the devices that sit behind the
motherboard configuration controller on the the ARM Motherboard
Express (V2M-P1) motherboard. See ARM DUI 0447J for details.
"""
class Osc(RealViewOsc):
site, position, dcc = (0, 0, 0)
class Temperature(RealViewTemperatureSensor):
site, position, dcc = (0, 0, 0)
osc_mcc = Osc(device=0, freq="50MHz")
osc_clcd = Osc(device=1, freq="23.75MHz")
osc_peripheral = Osc(device=2, freq="24MHz")
osc_system_bus = Osc(device=4, freq="24MHz")
# See Table 4.19 in ARM DUI 0447J (Motherboard Express uATX TRM).
temp_crtl = Temperature(device=0)
def generateDeviceTree(self, state):
node = FdtNode("mcc")
node.appendCompatible("arm,vexpress,config-bus")
node.append(FdtPropertyWords("arm,vexpress,site", [0]))
for obj in self._children.values():
if issubclass(type(obj), SimObject):
node.append(obj.generateDeviceTree(state))
io_phandle = state.phandle(self.osc_mcc.parent.unproxy(self))
node.append(FdtPropertyWords("arm,vexpress,config-bridge", io_phandle))
yield node
class CoreTile2A15DCC(SubSystem):
"""ARM CoreTile Express A15x2 Daughterboard Configuration Controller
This subsystem describes a subset of the devices that sit behind the
daughterboard configuration controller on a CoreTile Express A15x2. See
ARM DUI 0604E for details.
"""
class Osc(RealViewOsc):
site, position, dcc = (1, 0, 0)
# See Table 2.8 in ARM DUI 0604E (CoreTile Express A15x2 TRM)
osc_cpu = Osc(device=0, freq="60MHz")
osc_hsbm = Osc(device=4, freq="40MHz")
osc_pxl = Osc(device=5, freq="23.75MHz")
osc_smb = Osc(device=6, freq="50MHz")
osc_sys = Osc(device=7, freq="60MHz")
osc_ddr = Osc(device=8, freq="40MHz")
def generateDeviceTree(self, state):
node = FdtNode("dcc")
node.appendCompatible("arm,vexpress,config-bus")
for obj in self._children.values():
if isinstance(obj, SimObject):
node.append(obj.generateDeviceTree(state))
io_phandle = state.phandle(self.osc_cpu.parent.unproxy(self))
node.append(FdtPropertyWords("arm,vexpress,config-bridge", io_phandle))
yield node
class VGic(PioDevice):
type = 'VGic'
cxx_header = "dev/arm/vgic.hh"
gic = Param.BaseGic(Parent.any, "Gic to use for interrupting")
platform = Param.Platform(Parent.any, "Platform this device is part of.")
vcpu_addr = Param.Addr(0, "Address for vcpu interfaces")
hv_addr = Param.Addr(0, "Address for hv control")
pio_delay = Param.Latency('10ns', "Delay for PIO r/w")
# The number of list registers is not currently configurable at runtime.
ppint = Param.UInt32("HV maintenance interrupt number")
def generateDeviceTree(self, state):
gic = self.gic.unproxy(self)
node = FdtNode("interrupt-controller")
node.appendCompatible(["gem5,gic", "arm,cortex-a15-gic",
"arm,cortex-a9-gic"])
node.append(FdtPropertyWords("#interrupt-cells", [3]))
node.append(FdtPropertyWords("#address-cells", [0]))
node.append(FdtProperty("interrupt-controller"))
regs = (
state.addrCells(gic.dist_addr) +
state.sizeCells(0x1000) +
state.addrCells(gic.cpu_addr) +
state.sizeCells(0x1000) +
state.addrCells(self.hv_addr) +
state.sizeCells(0x2000) +
state.addrCells(self.vcpu_addr) +
state.sizeCells(0x2000) )
node.append(FdtPropertyWords("reg", regs))
node.append(FdtPropertyWords("interrupts",
[1, int(self.ppint)-16, 0xf04]))
node.appendPhandle(gic)
yield node
class AmbaFake(AmbaPioDevice):
type = 'AmbaFake'
cxx_header = "dev/arm/amba_fake.hh"
ignore_access = Param.Bool(False, "Ignore reads/writes to this device, (e.g. IsaFake + AMBA)")
amba_id = 0;
class Pl011(Uart):
type = 'Pl011'
cxx_header = "dev/arm/pl011.hh"
gic = Param.BaseGic(Parent.any, "Gic to use for interrupting")
int_num = Param.UInt32("Interrupt number that connects to GIC")
end_on_eot = Param.Bool(False, "End the simulation when a EOT is received on the UART")
int_delay = Param.Latency("100ns", "Time between action and interrupt generation by UART")
def generateDeviceTree(self, state):
node = self.generateBasicPioDeviceNode(state, 'uart', self.pio_addr,
0x1000, [int(self.int_num)])
node.appendCompatible(["arm,pl011", "arm,primecell"])
# Hardcoded reference to the realview platform clocks, because the
# clk_domain can only store one clock (i.e. it is not a VectorParam)
realview = self._parent.unproxy(self)
node.append(FdtPropertyWords("clocks",
[state.phandle(realview.mcc.osc_peripheral),
state.phandle(realview.dcc.osc_smb)]))
node.append(FdtPropertyStrings("clock-names", ["uartclk", "apb_pclk"]))
yield node
class Sp804(AmbaPioDevice):
type = 'Sp804'
cxx_header = "dev/arm/timer_sp804.hh"
gic = Param.BaseGic(Parent.any, "Gic to use for interrupting")
int_num0 = Param.UInt32("Interrupt number that connects to GIC")
clock0 = Param.Clock('1MHz', "Clock speed of the input")
int_num1 = Param.UInt32("Interrupt number that connects to GIC")
clock1 = Param.Clock('1MHz', "Clock speed of the input")
amba_id = 0x00141804
class A9GlobalTimer(BasicPioDevice):
type = 'A9GlobalTimer'
cxx_header = "dev/arm/timer_a9global.hh"
gic = Param.BaseGic(Parent.any, "Gic to use for interrupting")
int_num = Param.UInt32("Interrrupt number that connects to GIC")
class CpuLocalTimer(BasicPioDevice):
type = 'CpuLocalTimer'
cxx_header = "dev/arm/timer_cpulocal.hh"
gic = Param.BaseGic(Parent.any, "Gic to use for interrupting")
int_num_timer = Param.UInt32("Interrrupt number used per-cpu to GIC")
int_num_watchdog = Param.UInt32("Interrupt number for per-cpu watchdog to GIC")
class GenericTimer(ClockedObject):
type = 'GenericTimer'
cxx_header = "dev/arm/generic_timer.hh"
system = Param.ArmSystem(Parent.any, "system")
int_phys_s = Param.ArmPPI("Physical (S) timer interrupt")
int_phys_ns = Param.ArmPPI("Physical (NS) timer interrupt")
int_virt = Param.ArmPPI("Virtual timer interrupt")
int_hyp = Param.ArmPPI("Hypervisor timer interrupt")
def generateDeviceTree(self, state):
node = FdtNode("timer")
node.appendCompatible(["arm,cortex-a15-timer",
"arm,armv7-timer",
"arm,armv8-timer"])
node.append(FdtPropertyWords("interrupts", [
1, int(self.int_phys_s.num) - 16, 0xf08,
1, int(self.int_phys_ns.num) - 16, 0xf08,
1, int(self.int_virt.num) - 16, 0xf08,
1, int(self.int_hyp.num) - 16, 0xf08,
]))
clock = state.phandle(self.clk_domain.unproxy(self))
node.append(FdtPropertyWords("clocks", clock))
yield node
class GenericTimerMem(PioDevice):
type = 'GenericTimerMem'
cxx_header = "dev/arm/generic_timer.hh"
base = Param.Addr(0, "Base address")
int_phys = Param.ArmSPI("Physical Interrupt")
int_virt = Param.ArmSPI("Virtual Interrupt")
class PL031(AmbaIntDevice):
type = 'PL031'
cxx_header = "dev/arm/rtc_pl031.hh"
time = Param.Time('01/01/2009', "System time to use ('Now' for actual time)")
amba_id = 0x00341031
def generateDeviceTree(self, state):
node = self.generateBasicPioDeviceNode(state, 'rtc', self.pio_addr,
0x1000, [int(self.int_num)])
node.appendCompatible(["arm,pl031", "arm,primecell"])
clock = state.phandle(self.clk_domain.unproxy(self))
node.append(FdtPropertyWords("clocks", clock))
yield node
class Pl050(AmbaIntDevice):
type = 'Pl050'
cxx_header = "dev/arm/kmi.hh"
amba_id = 0x00141050
ps2 = Param.PS2Device("PS/2 device")
def generateDeviceTree(self, state):
node = self.generateBasicPioDeviceNode(state, 'kmi', self.pio_addr,
0x1000, [int(self.int_num)])
node.appendCompatible(["arm,pl050", "arm,primecell"])
clock = state.phandle(self.clk_domain.unproxy(self))
node.append(FdtPropertyWords("clocks", clock))
yield node
class Pl111(AmbaDmaDevice):
type = 'Pl111'
cxx_header = "dev/arm/pl111.hh"
pixel_clock = Param.Clock('24MHz', "Pixel clock")
vnc = Param.VncInput(Parent.any, "Vnc server for remote frame buffer display")
amba_id = 0x00141111
enable_capture = Param.Bool(True, "capture frame to system.framebuffer.bmp")
class HDLcd(AmbaDmaDevice):
type = 'HDLcd'
cxx_header = "dev/arm/hdlcd.hh"
vnc = Param.VncInput(Parent.any, "Vnc server for remote frame buffer "
"display")
amba_id = 0x00141000
workaround_swap_rb = Param.Bool(False, "Workaround incorrect color "
"selector order in some kernels")
workaround_dma_line_count = Param.Bool(True, "Workaround incorrect "
"DMA line count (off by 1)")
enable_capture = Param.Bool(True, "capture frame to "
"system.framebuffer.{extension}")
frame_format = Param.ImageFormat("Auto",
"image format of the captured frame")
pixel_buffer_size = Param.MemorySize32("2kB", "Size of address range")
pxl_clk = Param.ClockDomain("Pixel clock source")
pixel_chunk = Param.Unsigned(32, "Number of pixels to handle in one batch")
virt_refresh_rate = Param.Frequency("20Hz", "Frame refresh rate "
"in KVM mode")
def generateDeviceTree(self, state):
# Interrupt number is hardcoded; it is not a property of this class
node = self.generateBasicPioDeviceNode(state, 'hdlcd',
self.pio_addr, 0x1000, [63])
node.appendCompatible(["arm,hdlcd"])
node.append(FdtPropertyWords("clocks", state.phandle(self.pxl_clk)))
node.append(FdtPropertyStrings("clock-names", ["pxlclk"]))
# This driver is disabled by default since the required DT nodes
# haven't been standardized yet. To use it, override this status to
# "ok" and add the display configuration nodes required by the driver.
# See the driver for more information.
node.append(FdtPropertyStrings("status", ["disabled"]))
yield node
class RealView(Platform):
type = 'RealView'
cxx_header = "dev/arm/realview.hh"
system = Param.System(Parent.any, "system")
_mem_regions = [(Addr(0), Addr('256MB'))]
def _on_chip_devices(self):
return []
def _off_chip_devices(self):
return []
_off_chip_ranges = []
def _attach_device(self, device, bus, dma_ports=None):
if hasattr(device, "pio"):
device.pio = bus.master
if hasattr(device, "dma"):
if dma_ports is None:
device.dma = bus.slave
else:
dma_ports.append(device.dma)
def _attach_io(self, devices, *args, **kwargs):
for d in devices:
self._attach_device(d, *args, **kwargs)
def _attach_clk(self, devices, clkdomain):
for d in devices:
if hasattr(d, "clk_domain"):
d.clk_domain = clkdomain
def attachPciDevices(self):
pass
def enableMSIX(self):
pass
def onChipIOClkDomain(self, clkdomain):
self._attach_clk(self._on_chip_devices(), clkdomain)
def offChipIOClkDomain(self, clkdomain):
self._attach_clk(self._off_chip_devices(), clkdomain)
def attachOnChipIO(self, bus, bridge=None, *args, **kwargs):
self._attach_io(self._on_chip_devices(), bus, *args, **kwargs)
if bridge:
bridge.ranges = self._off_chip_ranges
def attachIO(self, *args, **kwargs):
self._attach_io(self._off_chip_devices(), *args, **kwargs)
def setupBootLoader(self, mem_bus, cur_sys, loc):
cur_sys.bootmem = SimpleMemory(
range = AddrRange('2GB', size = '64MB'),
conf_table_reported = False)
if mem_bus is not None:
cur_sys.bootmem.port = mem_bus.master
cur_sys.boot_loader = loc('boot.arm')
cur_sys.atags_addr = 0x100
cur_sys.load_offset = 0
def generateDeviceTree(self, state):
node = FdtNode("/") # Things in this module need to end up in the root
node.append(FdtPropertyWords("interrupt-parent",
state.phandle(self.gic)))
for subnode in self.recurseDeviceTree(state):
node.append(subnode)
yield node
def annotateCpuDeviceNode(self, cpu, state):
cpu.append(FdtPropertyStrings("enable-method", "spin-table"))
cpu.append(FdtPropertyWords("cpu-release-addr", \
state.addrCells(0x8000fff8)))
# Reference for memory map and interrupt number
# RealView Platform Baseboard Explore for Cortex-A9 User Guide(ARM DUI 0440A)
# Chapter 4: Programmer's Reference
class RealViewPBX(RealView):
uart = Pl011(pio_addr=0x10009000, int_num=44)
realview_io = RealViewCtrl(pio_addr=0x10000000)
mcc = VExpressMCC()
dcc = CoreTile2A15DCC()
gic = Pl390()
pci_host = GenericPciHost(
conf_base=0x30000000, conf_size='256MB', conf_device_bits=16,
pci_pio_base=0)
timer0 = Sp804(int_num0=36, int_num1=36, pio_addr=0x10011000)
timer1 = Sp804(int_num0=37, int_num1=37, pio_addr=0x10012000)
global_timer = A9GlobalTimer(int_num=27, pio_addr=0x1f000200)
local_cpu_timer = CpuLocalTimer(int_num_timer=29, int_num_watchdog=30,
pio_addr=0x1f000600)
clcd = Pl111(pio_addr=0x10020000, int_num=55)
kmi0 = Pl050(pio_addr=0x10006000, int_num=52, ps2=PS2Keyboard())
kmi1 = Pl050(pio_addr=0x10007000, int_num=53, ps2=PS2TouchKit())
a9scu = A9SCU(pio_addr=0x1f000000)
cf_ctrl = IdeController(disks=[], pci_func=0, pci_dev=7, pci_bus=2,
io_shift = 1, ctrl_offset = 2, Command = 0x1,
BAR0 = 0x18000000, BAR0Size = '16B',
BAR1 = 0x18000100, BAR1Size = '1B',
BAR0LegacyIO = True, BAR1LegacyIO = True)
l2x0_fake = IsaFake(pio_addr=0x1f002000, pio_size=0xfff)
flash_fake = IsaFake(pio_addr=0x40000000, pio_size=0x20000000,
fake_mem=True)
dmac_fake = AmbaFake(pio_addr=0x10030000)
uart1_fake = AmbaFake(pio_addr=0x1000a000)
uart2_fake = AmbaFake(pio_addr=0x1000b000)
uart3_fake = AmbaFake(pio_addr=0x1000c000)
smc_fake = AmbaFake(pio_addr=0x100e1000)
sp810_fake = AmbaFake(pio_addr=0x10001000, ignore_access=True)
watchdog_fake = AmbaFake(pio_addr=0x10010000)
gpio0_fake = AmbaFake(pio_addr=0x10013000)
gpio1_fake = AmbaFake(pio_addr=0x10014000)
gpio2_fake = AmbaFake(pio_addr=0x10015000)
ssp_fake = AmbaFake(pio_addr=0x1000d000)
sci_fake = AmbaFake(pio_addr=0x1000e000)
aaci_fake = AmbaFake(pio_addr=0x10004000)
mmc_fake = AmbaFake(pio_addr=0x10005000)
rtc = PL031(pio_addr=0x10017000, int_num=42)
energy_ctrl = EnergyCtrl(pio_addr=0x1000f000)
# Attach I/O devices that are on chip and also set the appropriate
# ranges for the bridge
def attachOnChipIO(self, bus, bridge):
self.gic.pio = bus.master
self.l2x0_fake.pio = bus.master
self.a9scu.pio = bus.master
self.global_timer.pio = bus.master
self.local_cpu_timer.pio = bus.master
# Bridge ranges based on excluding what is part of on-chip I/O
# (gic, l2x0, a9scu, local_cpu_timer)
bridge.ranges = [AddrRange(self.realview_io.pio_addr,
self.a9scu.pio_addr - 1),
AddrRange(self.flash_fake.pio_addr,
self.flash_fake.pio_addr + \
self.flash_fake.pio_size - 1)]
# Set the clock domain for IO objects that are considered
# to be "close" to the cores.
def onChipIOClkDomain(self, clkdomain):
self.gic.clk_domain = clkdomain
self.l2x0_fake.clk_domain = clkdomain
self.a9scu.clkdomain = clkdomain
self.local_cpu_timer.clk_domain = clkdomain
# Attach I/O devices to specified bus object. Can't do this
# earlier, since the bus object itself is typically defined at the
# System level.
def attachIO(self, bus):
self.uart.pio = bus.master
self.realview_io.pio = bus.master
self.pci_host.pio = bus.master
self.timer0.pio = bus.master
self.timer1.pio = bus.master
self.clcd.pio = bus.master
self.clcd.dma = bus.slave
self.kmi0.pio = bus.master
self.kmi1.pio = bus.master
self.cf_ctrl.pio = bus.master
self.cf_ctrl.dma = bus.slave
self.dmac_fake.pio = bus.master
self.uart1_fake.pio = bus.master
self.uart2_fake.pio = bus.master
self.uart3_fake.pio = bus.master
self.smc_fake.pio = bus.master
self.sp810_fake.pio = bus.master
self.watchdog_fake.pio = bus.master
self.gpio0_fake.pio = bus.master
self.gpio1_fake.pio = bus.master
self.gpio2_fake.pio = bus.master
self.ssp_fake.pio = bus.master
self.sci_fake.pio = bus.master
self.aaci_fake.pio = bus.master
self.mmc_fake.pio = bus.master
self.rtc.pio = bus.master
self.flash_fake.pio = bus.master
self.energy_ctrl.pio = bus.master
# Set the clock domain for IO objects that are considered
# to be "far" away from the cores.
def offChipIOClkDomain(self, clkdomain):
self.uart.clk_domain = clkdomain
self.realview_io.clk_domain = clkdomain
self.timer0.clk_domain = clkdomain
self.timer1.clk_domain = clkdomain
self.clcd.clk_domain = clkdomain
self.kmi0.clk_domain = clkdomain
self.kmi1.clk_domain = clkdomain
self.cf_ctrl.clk_domain = clkdomain
self.dmac_fake.clk_domain = clkdomain
self.uart1_fake.clk_domain = clkdomain
self.uart2_fake.clk_domain = clkdomain
self.uart3_fake.clk_domain = clkdomain
self.smc_fake.clk_domain = clkdomain
self.sp810_fake.clk_domain = clkdomain
self.watchdog_fake.clk_domain = clkdomain
self.gpio0_fake.clk_domain = clkdomain
self.gpio1_fake.clk_domain = clkdomain
self.gpio2_fake.clk_domain = clkdomain
self.ssp_fake.clk_domain = clkdomain
self.sci_fake.clk_domain = clkdomain
self.aaci_fake.clk_domain = clkdomain
self.mmc_fake.clk_domain = clkdomain
self.rtc.clk_domain = clkdomain
self.flash_fake.clk_domain = clkdomain
self.energy_ctrl.clk_domain = clkdomain
# Reference for memory map and interrupt number
# RealView Emulation Baseboard User Guide (ARM DUI 0143B)
# Chapter 4: Programmer's Reference
class RealViewEB(RealView):
uart = Pl011(pio_addr=0x10009000, int_num=44)
realview_io = RealViewCtrl(pio_addr=0x10000000, idreg=0x01400500)
mcc = VExpressMCC()
dcc = CoreTile2A15DCC()
gic = Pl390(dist_addr=0x10041000, cpu_addr=0x10040000)
timer0 = Sp804(int_num0=36, int_num1=36, pio_addr=0x10011000)
timer1 = Sp804(int_num0=37, int_num1=37, pio_addr=0x10012000)
clcd = Pl111(pio_addr=0x10020000, int_num=23)
kmi0 = Pl050(pio_addr=0x10006000, int_num=20, ps2=PS2Keyboard())
kmi1 = Pl050(pio_addr=0x10007000, int_num=21, ps2=PS2TouchKit())
l2x0_fake = IsaFake(pio_addr=0x1f002000, pio_size=0xfff, warn_access="1")
flash_fake = IsaFake(pio_addr=0x40000000, pio_size=0x20000000-1,
fake_mem=True)
dmac_fake = AmbaFake(pio_addr=0x10030000)
uart1_fake = AmbaFake(pio_addr=0x1000a000)
uart2_fake = AmbaFake(pio_addr=0x1000b000)
uart3_fake = AmbaFake(pio_addr=0x1000c000)
smcreg_fake = IsaFake(pio_addr=0x10080000, pio_size=0x10000-1)
smc_fake = AmbaFake(pio_addr=0x100e1000)
sp810_fake = AmbaFake(pio_addr=0x10001000, ignore_access=True)
watchdog_fake = AmbaFake(pio_addr=0x10010000)
gpio0_fake = AmbaFake(pio_addr=0x10013000)
gpio1_fake = AmbaFake(pio_addr=0x10014000)
gpio2_fake = AmbaFake(pio_addr=0x10015000)
ssp_fake = AmbaFake(pio_addr=0x1000d000)
sci_fake = AmbaFake(pio_addr=0x1000e000)
aaci_fake = AmbaFake(pio_addr=0x10004000)
mmc_fake = AmbaFake(pio_addr=0x10005000)
rtc_fake = AmbaFake(pio_addr=0x10017000, amba_id=0x41031)
energy_ctrl = EnergyCtrl(pio_addr=0x1000f000)
# Attach I/O devices that are on chip and also set the appropriate
# ranges for the bridge
def attachOnChipIO(self, bus, bridge):
self.gic.pio = bus.master
self.l2x0_fake.pio = bus.master
# Bridge ranges based on excluding what is part of on-chip I/O
# (gic, l2x0)
bridge.ranges = [AddrRange(self.realview_io.pio_addr,
self.gic.cpu_addr - 1),
AddrRange(self.flash_fake.pio_addr, Addr.max)]
# Set the clock domain for IO objects that are considered
# to be "close" to the cores.
def onChipIOClkDomain(self, clkdomain):
self.gic.clk_domain = clkdomain
self.l2x0_fake.clk_domain = clkdomain
# Attach I/O devices to specified bus object. Can't do this
# earlier, since the bus object itself is typically defined at the
# System level.
def attachIO(self, bus):
self.uart.pio = bus.master
self.realview_io.pio = bus.master
self.pci_host.pio = bus.master
self.timer0.pio = bus.master
self.timer1.pio = bus.master
self.clcd.pio = bus.master
self.clcd.dma = bus.slave
self.kmi0.pio = bus.master
self.kmi1.pio = bus.master
self.dmac_fake.pio = bus.master
self.uart1_fake.pio = bus.master
self.uart2_fake.pio = bus.master
self.uart3_fake.pio = bus.master
self.smc_fake.pio = bus.master
self.sp810_fake.pio = bus.master
self.watchdog_fake.pio = bus.master
self.gpio0_fake.pio = bus.master
self.gpio1_fake.pio = bus.master
self.gpio2_fake.pio = bus.master
self.ssp_fake.pio = bus.master
self.sci_fake.pio = bus.master
self.aaci_fake.pio = bus.master
self.mmc_fake.pio = bus.master
self.rtc_fake.pio = bus.master
self.flash_fake.pio = bus.master
self.smcreg_fake.pio = bus.master
self.energy_ctrl.pio = bus.master
# Set the clock domain for IO objects that are considered
# to be "far" away from the cores.
def offChipIOClkDomain(self, clkdomain):
self.uart.clk_domain = clkdomain
self.realview_io.clk_domain = clkdomain
self.timer0.clk_domain = clkdomain
self.timer1.clk_domain = clkdomain
self.clcd.clk_domain = clkdomain
self.kmi0.clk_domain = clkdomain
self.kmi1.clk_domain = clkdomain
self.dmac_fake.clk_domain = clkdomain
self.uart1_fake.clk_domain = clkdomain
self.uart2_fake.clk_domain = clkdomain
self.uart3_fake.clk_domain = clkdomain
self.smc_fake.clk_domain = clkdomain
self.sp810_fake.clk_domain = clkdomain
self.watchdog_fake.clk_domain = clkdomain
self.gpio0_fake.clk_domain = clkdomain
self.gpio1_fake.clk_domain = clkdomain
self.gpio2_fake.clk_domain = clkdomain
self.ssp_fake.clk_domain = clkdomain
self.sci_fake.clk_domain = clkdomain
self.aaci_fake.clk_domain = clkdomain
self.mmc_fake.clk_domain = clkdomain
self.rtc.clk_domain = clkdomain
self.flash_fake.clk_domain = clkdomain
self.smcreg_fake.clk_domain = clkdomain
self.energy_ctrl.clk_domain = clkdomain
class VExpress_EMM(RealView):
_mem_regions = [(Addr('2GB'), Addr('2GB'))]
# Ranges based on excluding what is part of on-chip I/O (gic,
# a9scu)
_off_chip_ranges = [AddrRange(0x2F000000, size='16MB'),
AddrRange(0x30000000, size='256MB'),
AddrRange(0x40000000, size='512MB'),
AddrRange(0x18000000, size='64MB'),
AddrRange(0x1C000000, size='64MB')]
# Platform control device (off-chip)
realview_io = RealViewCtrl(proc_id0=0x14000000, proc_id1=0x14000000,
idreg=0x02250000, pio_addr=0x1C010000)
mcc = VExpressMCC()
dcc = CoreTile2A15DCC()
### On-chip devices ###
gic = Pl390(dist_addr=0x2C001000, cpu_addr=0x2C002000)
vgic = VGic(vcpu_addr=0x2c006000, hv_addr=0x2c004000, ppint=25)
local_cpu_timer = CpuLocalTimer(int_num_timer=29, int_num_watchdog=30,
pio_addr=0x2C080000)
hdlcd = HDLcd(pxl_clk=dcc.osc_pxl,
pio_addr=0x2b000000, int_num=117,
workaround_swap_rb=True)
def _on_chip_devices(self):
devices = [
self.gic, self.vgic,
self.local_cpu_timer
]
if hasattr(self, "gicv2m"):
devices.append(self.gicv2m)
devices.append(self.hdlcd)
return devices
### Off-chip devices ###
uart = Pl011(pio_addr=0x1c090000, int_num=37)
pci_host = GenericPciHost(
conf_base=0x30000000, conf_size='256MB', conf_device_bits=16,
pci_pio_base=0)
generic_timer = GenericTimer(int_phys_s=ArmPPI(num=29),
int_phys_ns=ArmPPI(num=30),
int_virt=ArmPPI(num=27),
int_hyp=ArmPPI(num=26))
timer0 = Sp804(int_num0=34, int_num1=34, pio_addr=0x1C110000, clock0='1MHz', clock1='1MHz')
timer1 = Sp804(int_num0=35, int_num1=35, pio_addr=0x1C120000, clock0='1MHz', clock1='1MHz')
clcd = Pl111(pio_addr=0x1c1f0000, int_num=46)
kmi0 = Pl050(pio_addr=0x1c060000, int_num=44, ps2=PS2Keyboard())
kmi1 = Pl050(pio_addr=0x1c070000, int_num=45, ps2=PS2TouchKit())
cf_ctrl = IdeController(disks=[], pci_func=0, pci_dev=0, pci_bus=2,
io_shift = 2, ctrl_offset = 2, Command = 0x1,
BAR0 = 0x1C1A0000, BAR0Size = '256B',
BAR1 = 0x1C1A0100, BAR1Size = '4096B',
BAR0LegacyIO = True, BAR1LegacyIO = True)
vram = SimpleMemory(range = AddrRange(0x18000000, size='32MB'),
conf_table_reported = False)
rtc = PL031(pio_addr=0x1C170000, int_num=36)
l2x0_fake = IsaFake(pio_addr=0x2C100000, pio_size=0xfff)
uart1_fake = AmbaFake(pio_addr=0x1C0A0000)
uart2_fake = AmbaFake(pio_addr=0x1C0B0000)
uart3_fake = AmbaFake(pio_addr=0x1C0C0000)
sp810_fake = AmbaFake(pio_addr=0x1C020000, ignore_access=True)
watchdog_fake = AmbaFake(pio_addr=0x1C0F0000)
aaci_fake = AmbaFake(pio_addr=0x1C040000)
lan_fake = IsaFake(pio_addr=0x1A000000, pio_size=0xffff)
usb_fake = IsaFake(pio_addr=0x1B000000, pio_size=0x1ffff)
mmc_fake = AmbaFake(pio_addr=0x1c050000)
energy_ctrl = EnergyCtrl(pio_addr=0x1c080000)
def _off_chip_devices(self):
devices = [
self.uart,
self.realview_io,
self.pci_host,
self.timer0,
self.timer1,
self.clcd,
self.kmi0,
self.kmi1,
self.cf_ctrl,
self.rtc,
self.vram,
self.l2x0_fake,
self.uart1_fake,
self.uart2_fake,
self.uart3_fake,
self.sp810_fake,
self.watchdog_fake,
self.aaci_fake,
self.lan_fake,
self.usb_fake,
self.mmc_fake,
self.energy_ctrl,
]
# Try to attach the I/O if it exists
if hasattr(self, "ide"):
devices.append(self.ide)
if hasattr(self, "ethernet"):
devices.append(self.ethernet)
return devices
# Attach any PCI devices that are supported
def attachPciDevices(self):
self.ethernet = IGbE_e1000(pci_bus=0, pci_dev=0, pci_func=0,
InterruptLine=1, InterruptPin=1)
self.ide = IdeController(disks = [], pci_bus=0, pci_dev=1, pci_func=0,
InterruptLine=2, InterruptPin=2)
def enableMSIX(self):
self.gic = Pl390(dist_addr=0x2C001000, cpu_addr=0x2C002000, it_lines=512)
self.gicv2m = Gicv2m()
self.gicv2m.frames = [Gicv2mFrame(spi_base=256, spi_len=64, addr=0x2C1C0000)]
def setupBootLoader(self, mem_bus, cur_sys, loc):
cur_sys.bootmem = SimpleMemory(range = AddrRange('64MB'),
conf_table_reported = False)
if mem_bus is not None:
cur_sys.bootmem.port = mem_bus.master
if not cur_sys.boot_loader:
cur_sys.boot_loader = loc('boot_emm.arm')
cur_sys.atags_addr = 0x8000000
cur_sys.load_offset = 0x80000000
class VExpress_EMM64(VExpress_EMM):
# Three memory regions are specified totalling 512GB
_mem_regions = [(Addr('2GB'), Addr('2GB')), (Addr('34GB'), Addr('30GB')),
(Addr('512GB'), Addr('480GB'))]
pci_host = GenericPciHost(
conf_base=0x30000000, conf_size='256MB', conf_device_bits=12,
pci_pio_base=0x2f000000)
def setupBootLoader(self, mem_bus, cur_sys, loc):
cur_sys.bootmem = SimpleMemory(range=AddrRange(0, size='64MB'),
conf_table_reported=False)
if mem_bus is not None:
cur_sys.bootmem.port = mem_bus.master
if not cur_sys.boot_loader:
cur_sys.boot_loader = loc('boot_emm.arm64')
cur_sys.atags_addr = 0x8000000
cur_sys.load_offset = 0x80000000
class VExpress_GEM5_V1_Base(RealView):
"""
The VExpress gem5 memory map is loosely based on a modified
Versatile Express RS1 memory map.
The gem5 platform has been designed to implement a subset of the
original Versatile Express RS1 memory map. Off-chip peripherals should,
when possible, adhere to the Versatile Express memory map. Non-PCI
off-chip devices that are gem5-specific should live in the CS5 memory
space to avoid conflicts with existing devices that we might want to
model in the future. Such devices should normally have interrupts in
the gem5-specific SPI range.
On-chip peripherals are loosely modeled after the ARM CoreTile Express
A15x2 A7x3 memory and interrupt map. In particular, the GIC and
Generic Timer have the same interrupt lines and base addresses. Other
on-chip devices are gem5 specific.
Unlike the original Versatile Express RS2 extended platform, gem5 implements a
large contigious DRAM space, without aliases or holes, starting at the
2GiB boundary. This means that PCI memory is limited to 1GiB.
Memory map:
0x00000000-0x03ffffff: Boot memory (CS0)
0x04000000-0x07ffffff: Reserved
0x08000000-0x0bffffff: Reserved (CS0 alias)
0x0c000000-0x0fffffff: Reserved (Off-chip, CS4)
0x10000000-0x13ffffff: gem5-specific peripherals (Off-chip, CS5)
0x10000000-0x1000ffff: gem5 energy controller
0x10010000-0x1001ffff: gem5 pseudo-ops
0x14000000-0x17ffffff: Reserved (Off-chip, PSRAM, CS1)
0x18000000-0x1bffffff: Reserved (Off-chip, Peripherals, CS2)
0x1c000000-0x1fffffff: Peripheral block 1 (Off-chip, CS3):
0x1c010000-0x1c01ffff: realview_io (VE system control regs.)
0x1c060000-0x1c06ffff: KMI0 (keyboard)
0x1c070000-0x1c07ffff: KMI1 (mouse)
0x1c090000-0x1c09ffff: UART0
0x1c0a0000-0x1c0affff: UART1 (reserved)
0x1c0b0000-0x1c0bffff: UART2 (reserved)
0x1c0c0000-0x1c0cffff: UART3 (reserved)
0x1c130000-0x1c13ffff: VirtIO (gem5/FM extension)
0x1c140000-0x1c14ffff: VirtIO (gem5/FM extension)
0x1c170000-0x1c17ffff: RTC
0x20000000-0x3fffffff: On-chip peripherals:
0x2b000000-0x2b00ffff: HDLCD
0x2c001000-0x2c001fff: GIC (distributor)
0x2c002000-0x2c003fff: GIC (CPU interface)
0x2c004000-0x2c005fff: vGIC (HV)
0x2c006000-0x2c007fff: vGIC (VCPU)
0x2c1c0000-0x2c1cffff: GICv2m MSI frame 0
0x2d000000-0x2d00ffff: GPU (reserved)
0x2f000000-0x2fffffff: PCI IO space
0x30000000-0x3fffffff: PCI config space
0x40000000-0x7fffffff: Ext. AXI: Used as PCI memory
0x80000000-X: DRAM
Interrupts:
0- 15: Software generated interrupts (SGIs)
16- 31: On-chip private peripherals (PPIs)
25 : vgic
26 : generic_timer (hyp)
27 : generic_timer (virt)
28 : Reserved (Legacy FIQ)
29 : generic_timer (phys, sec)
30 : generic_timer (phys, non-sec)
31 : Reserved (Legacy IRQ)
32- 95: Mother board peripherals (SPIs)
32 : Reserved (SP805)
33 : Reserved (IOFPGA SW int)
34-35: Reserved (SP804)
36 : RTC
37-40: uart0-uart3
41-42: Reserved (PL180)
43 : Reserved (AACI)
44-45: kmi0-kmi1
46 : Reserved (CLCD)
47 : Reserved (Ethernet)
48 : Reserved (USB)
95-255: On-chip interrupt sources (we use these for
gem5-specific devices, SPIs)
74 : VirtIO (gem5/FM extension)
75 : VirtIO (gem5/FM extension)
95 : HDLCD
96- 98: GPU (reserved)
100-103: PCI
256-319: MSI frame 0 (gem5-specific, SPIs)
320-511: Unused
"""
# Everything above 2GiB is memory
_mem_regions = [(Addr('2GB'), Addr('510GB'))]
_off_chip_ranges = [
# CS1-CS5
AddrRange(0x0c000000, 0x1fffffff),
# External AXI interface (PCI)
AddrRange(0x2f000000, 0x7fffffff),
]
# Platform control device (off-chip)
realview_io = RealViewCtrl(proc_id0=0x14000000, proc_id1=0x14000000,
idreg=0x02250000, pio_addr=0x1c010000)
mcc = VExpressMCC()
dcc = CoreTile2A15DCC()
### On-chip devices ###
gic = kvm_gicv2_class(dist_addr=0x2c001000, cpu_addr=0x2c002000,
it_lines=512)
vgic = VGic(vcpu_addr=0x2c006000, hv_addr=0x2c004000, ppint=25)
gicv2m = Gicv2m()
gicv2m.frames = [
Gicv2mFrame(spi_base=256, spi_len=64, addr=0x2c1c0000),
]
generic_timer = GenericTimer(int_phys_s=ArmPPI(num=29),
int_phys_ns=ArmPPI(num=30),
int_virt=ArmPPI(num=27),
int_hyp=ArmPPI(num=26))
def _on_chip_devices(self):
return [
self.gic, self.vgic, self.gicv2m,
self.generic_timer,
]
### Off-chip devices ###
clock24MHz = SrcClockDomain(clock="24MHz",
voltage_domain=VoltageDomain(voltage="3.3V"))
uart0 = Pl011(pio_addr=0x1c090000, int_num=37)
kmi0 = Pl050(pio_addr=0x1c060000, int_num=44, ps2=PS2Keyboard())
kmi1 = Pl050(pio_addr=0x1c070000, int_num=45, ps2=PS2TouchKit())
rtc = PL031(pio_addr=0x1c170000, int_num=36)
### gem5-specific off-chip devices ###
pci_host = GenericArmPciHost(
conf_base=0x30000000, conf_size='256MB', conf_device_bits=12,
pci_pio_base=0x2f000000,
int_policy="ARM_PCI_INT_DEV", int_base=100, int_count=4)
energy_ctrl = EnergyCtrl(pio_addr=0x10000000)
vio = [
MmioVirtIO(pio_addr=0x1c130000, pio_size=0x1000,
interrupt=ArmSPI(num=74)),
MmioVirtIO(pio_addr=0x1c140000, pio_size=0x1000,
interrupt=ArmSPI(num=75)),
]
def _off_chip_devices(self):
return [
self.realview_io,
self.uart0,
self.kmi0,
self.kmi1,
self.rtc,
self.pci_host,
self.energy_ctrl,
self.clock24MHz,
self.vio[0],
self.vio[1],
]
def attachPciDevice(self, device, *args, **kwargs):
device.host = self.pci_host
self._attach_device(device, *args, **kwargs)
def setupBootLoader(self, mem_bus, cur_sys, loc):
cur_sys.bootmem = SimpleMemory(range=AddrRange(0, size='64MB'),
conf_table_reported=False)
if mem_bus is not None:
cur_sys.bootmem.port = mem_bus.master
if not cur_sys.boot_loader:
cur_sys.boot_loader = [ loc('boot_emm.arm64'), loc('boot_emm.arm') ]
cur_sys.atags_addr = 0x8000000
cur_sys.load_offset = 0x80000000
# Setup m5ops. It's technically not a part of the boot
# loader, but this is the only place we can configure the
# system.
cur_sys.m5ops_base = 0x10010000
def generateDeviceTree(self, state):
# Generate using standard RealView function
dt = list(super(VExpress_GEM5_V1_Base, self).generateDeviceTree(state))
if len(dt) > 1:
raise Exception("System returned too many DT nodes")
node = dt[0]
node.appendCompatible(["arm,vexpress"])
node.append(FdtPropertyStrings("model", ["V2P-CA15"]))
node.append(FdtPropertyWords("arm,hbi", [0x0]))
node.append(FdtPropertyWords("arm,vexpress,site", [0xf]))
yield node
class VExpress_GEM5_V1(VExpress_GEM5_V1_Base):
hdlcd = HDLcd(pxl_clk=VExpress_GEM5_V1_Base.dcc.osc_pxl,
pio_addr=0x2b000000, int_num=95)
def _on_chip_devices(self):
return super(VExpress_GEM5_V1,self)._on_chip_devices() + [
self.hdlcd,
]
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