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# Copyright (c) 2012-2013, 2017-2020 ARM Limited
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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
from m5.objects.IntPin import IntSourcePin
class BaseGic(PioDevice):
type = "BaseGic"
abstract = True
cxx_header = "dev/arm/base_gic.hh"
cxx_class = "gem5::BaseGic"
# 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_trigger, partition=None):
"""
Interupt cells generation helper:
Following specifications described in
Documentation/devicetree/bindings/interrupt-controller/arm,gic.txt
"""
assert self._state.interrupt_cells == 3
# Check for affinity in case of PPI. If there is no PPI
# partitioning, set the affinity to target all CPUs
# (affinity = 0xf00)
if partition is None and int_type == ArmPPI._LINUX_ID:
affinity = 0xF00
else:
affinity = 0
return [int_type, int_num, affinity | int_trigger]
class ArmInterruptType(ScopedEnum):
"""
The values of the scoped enum are matching Linux macroes
defined in include/linux/irq.h. They are mainly meant
to be used for DTB autogen
"""
map = {
"IRQ_TYPE_EDGE_RISING": 0x1,
"IRQ_TYPE_EDGE_FALLING": 0x2,
"IRQ_TYPE_LEVEL_HIGH": 0x4,
"IRQ_TYPE_LEVEL_LOW": 0x8,
}
class ArmInterruptPin(SimObject):
type = "ArmInterruptPin"
cxx_header = "dev/arm/base_gic.hh"
cxx_class = "gem5::ArmInterruptPinGen"
abstract = True
platform = Param.Platform(Parent.any, "Platform with interrupt controller")
num = Param.UInt32("Interrupt number in GIC")
int_type = Param.ArmInterruptType(
"IRQ_TYPE_LEVEL_HIGH", "Interrupt type (level/edge triggered)"
)
class ArmSPI(ArmInterruptPin):
type = "ArmSPI"
cxx_header = "dev/arm/base_gic.hh"
cxx_class = "gem5::ArmSPIGen"
_LINUX_ID = 0
def generateFdtProperty(self, gic):
"""
Return a list used as an entry for an interrupt FdtProperty
Subtracting 32 because Linux assumes that SPIs start at 0, while
gem5 uses the internal GIC numbering (SPIs start at 32)
"""
return gic.interruptCells(
self._LINUX_ID, self.num - 32, int(self.int_type.getValue())
)
class ArmPPI(ArmInterruptPin):
type = "ArmPPI"
cxx_header = "dev/arm/base_gic.hh"
cxx_class = "gem5::ArmPPIGen"
_LINUX_ID = 1
def generateFdtProperty(self, gic):
"""
Return a list used as an entry for an interrupt FdtProperty
Subtracting 16 because Linux assumes that PPIs start at 0, while
gem5 uses the internal GIC numbering (PPIs start at 16)
"""
return gic.interruptCells(
self._LINUX_ID, self.num - 16, int(self.int_type.getValue())
)
class ArmSigInterruptPin(ArmInterruptPin):
type = "ArmSigInterruptPin"
cxx_header = "dev/arm/base_gic.hh"
cxx_class = "gem5::ArmSigInterruptPinGen"
irq = IntSourcePin("Interrupt pin")
class GicV2(BaseGic):
type = "GicV2"
cxx_header = "dev/arm/gic_v2.hh"
cxx_class = "gem5::GicV2"
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"
cxx_class = "gem5::Gicv2mFrame"
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"
cxx_class = "gem5::Gicv2m"
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"
cxx_class = "gem5::VGic"
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"
cxx_class = "gem5::Gicv3Its"
dma = RequestPort("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"
cxx_class = "gem5::Gicv3"
# 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(False, "GIC is GICv4 compatible")
def interruptCells(self, int_type, int_num, int_trigger, partition=None):
"""
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_trigger
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, 0x4),
)
)
node.appendPhandle(self)
# Generate the ITS device tree if instantiated
if self.its != NULL:
node.append(self.its.generateDeviceTree(self._state))
yield node