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# Authors: Andreas Sandberg
from m5.params import *
from m5.proxy import *
from m5.util.fdthelper import *
from m5.SimObject import SimObject
from m5.objects.Device import PioDevice, BasicPioDevice
from m5.objects.Platform import Platform
class BaseGic(PioDevice):
type = 'BaseGic'
abstract = True
cxx_header = "dev/arm/base_gic.hh"
# Used for DTB autogeneration
_state = FdtState(addr_cells=0, interrupt_cells=3)
platform = Param.Platform(Parent.any, "Platform this device is part of.")
gicd_iidr = Param.UInt32(0,
"Distributor Implementer Identification Register")
gicd_pidr = Param.UInt32(0,
"Peripheral Identification Register")
gicc_iidr = Param.UInt32(0,
"CPU Interface Identification Register")
gicv_iidr = Param.UInt32(0,
"VM CPU Interface Identification Register")
def interruptCells(self, int_type, int_num, int_flag):
"""
Interupt cells generation helper:
Following specifications described in
Documentation/devicetree/bindings/interrupt-controller/arm,gic.txt
"""
assert self._state.interrupt_cells == 3
return [ int_type, int_num, int_flag ]
class ArmInterruptPin(SimObject):
type = 'ArmInterruptPin'
cxx_header = "dev/arm/base_gic.hh"
cxx_class = "ArmInterruptPinGen"
abstract = True
platform = Param.Platform(Parent.any, "Platform with interrupt controller")
num = Param.UInt32("Interrupt number in GIC")
class ArmSPI(ArmInterruptPin):
type = 'ArmSPI'
cxx_header = "dev/arm/base_gic.hh"
cxx_class = "ArmSPIGen"
class ArmPPI(ArmInterruptPin):
type = 'ArmPPI'
cxx_header = "dev/arm/base_gic.hh"
cxx_class = "ArmPPIGen"
class GicV2(BaseGic):
type = 'GicV2'
cxx_header = "dev/arm/gic_v2.hh"
dist_addr = Param.Addr("Address for distributor")
cpu_addr = Param.Addr("Address for cpu")
cpu_size = Param.Addr(0x2000, "Size of cpu register bank")
dist_pio_delay = Param.Latency('10ns', "Delay for PIO r/w to distributor")
cpu_pio_delay = Param.Latency('10ns', "Delay for PIO r/w to cpu interface")
int_latency = Param.Latency('10ns', "Delay for interrupt to get to CPU")
it_lines = Param.UInt32(128, "Number of interrupt lines supported (max = 1020)")
gem5_extensions = Param.Bool(False, "Enable gem5 extensions")
class Gic400(GicV2):
"""
As defined in:
"ARM Generic Interrupt Controller Architecture" version 2.0
"CoreLink GIC-400 Generic Interrupt Controller" revision r0p1
"""
gicd_pidr = 0x002bb490
gicd_iidr = 0x0200143B
gicc_iidr = 0x0202143B
# gicv_iidr same as gicc_idr
gicv_iidr = gicc_iidr
class Gicv2mFrame(SimObject):
type = 'Gicv2mFrame'
cxx_header = "dev/arm/gic_v2m.hh"
spi_base = Param.UInt32(0x0, "Frame SPI base number");
spi_len = Param.UInt32(0x0, "Frame SPI total number");
addr = Param.Addr("Address for frame PIO")
class Gicv2m(PioDevice):
type = 'Gicv2m'
cxx_header = "dev/arm/gic_v2m.hh"
pio_delay = Param.Latency('10ns', "Delay for PIO r/w")
gic = Param.BaseGic(Parent.any, "Gic on which to trigger interrupts")
frames = VectorParam.Gicv2mFrame([], "Power of two number of frames")
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.
maint_int = Param.UInt32("HV maintenance interrupt number")
# gicv_iidr same as gicc_idr
gicv_iidr = Param.UInt32(Self.gic.gicc_iidr,
"VM CPU Interface Identification Register")
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(gic._state.interruptCellsProperty())
node.append(gic._state.addrCellsProperty())
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.maint_int)-16, 0xf04]))
node.appendPhandle(gic)
yield node
class Gicv3Its(BasicPioDevice):
type = 'Gicv3Its'
cxx_header = "dev/arm/gic_v3_its.hh"
dma = MasterPort("DMA port")
pio_size = Param.Unsigned(0x20000, "Gicv3Its pio size")
# CIL [36] = 0: ITS supports 16-bit CollectionID
# Devbits [17:13] = 0b100011: ITS supports 23 DeviceID bits
# ID_bits [12:8] = 0b11111: ITS supports 31 EventID bits
gits_typer = Param.UInt64(0x30023F01, "GITS_TYPER RO value")
def generateDeviceTree(self, state):
node = self.generateBasicPioDeviceNode(state, "gic-its", self.pio_addr,
self.pio_size)
node.appendCompatible(["arm,gic-v3-its"])
node.append(FdtProperty("msi-controller"))
node.append(FdtPropertyWords("#msi-cells", [1]))
return node
class Gicv3(BaseGic):
type = 'Gicv3'
cxx_header = "dev/arm/gic_v3.hh"
# Used for DTB autogeneration
_state = FdtState(addr_cells=2, size_cells=2, interrupt_cells=3)
its = Param.Gicv3Its(NULL, "GICv3 Interrupt Translation Service")
dist_addr = Param.Addr("Address for distributor")
dist_pio_delay = Param.Latency('10ns', "Delay for PIO r/w to distributor")
redist_addr = Param.Addr("Address for redistributors")
redist_pio_delay = Param.Latency('10ns',
"Delay for PIO r/w to redistributors")
it_lines = Param.UInt32(1020,
"Number of interrupt lines supported (max = 1020)")
maint_int = Param.ArmInterruptPin(
"HV maintenance interrupt."
"ARM strongly recommends that maintenance interrupts "
"are configured to use INTID 25 (PPI Interrupt).")
cpu_max = Param.Unsigned(256,
"Maximum number of PE. This is affecting the maximum number of "
"redistributors")
gicv4 = Param.Bool(True, "GICv4 extension available")
def interruptCells(self, int_type, int_num, int_flag):
"""
Interupt cells generation helper:
Following specifications described in
Documentation/devicetree/bindings/interrupt-controller/arm,gic-v3.txt
"""
prop = self._state.interruptCells(0)
assert len(prop) >= 3
prop[0] = int_type
prop[1] = int_num
prop[2] = int_flag
return prop
def generateDeviceTree(self, state):
node = FdtNode("interrupt-controller")
node.appendCompatible(["arm,gic-v3"])
node.append(self._state.interruptCellsProperty())
node.append(self._state.addrCellsProperty())
node.append(self._state.sizeCellsProperty())
node.append(FdtProperty("ranges"))
node.append(FdtProperty("interrupt-controller"))
redist_stride = 0x40000 if self.gicv4 else 0x20000
node.append(FdtPropertyWords("redistributor-stride",
state.sizeCells(redist_stride)))
regs = (
state.addrCells(self.dist_addr) +
state.sizeCells(0x10000) +
state.addrCells(self.redist_addr) +
state.sizeCells(0x2000000) )
node.append(FdtPropertyWords("reg", regs))
node.append(FdtPropertyWords("interrupts",
self.interruptCells(1, int(self.maint_int.num)-16, 0xf04)))
node.appendPhandle(self)
# Generate the ITS device tree if instantiated
if self.its != NULL:
node.append(self.its.generateDeviceTree(self._state))
yield node