RealView.py revision 14283
1# Copyright (c) 2009-2019 ARM Limited 2# All rights reserved. 3# 4# The license below extends only to copyright in the software and shall 5# not be construed as granting a license to any other intellectual 6# property including but not limited to intellectual property relating 7# to a hardware implementation of the functionality of the software 8# licensed hereunder. You may use the software subject to the license 9# terms below provided that you ensure that this notice is replicated 10# unmodified and in its entirety in all distributions of the software, 11# modified or unmodified, in source code or in binary form. 12# 13# Copyright (c) 2006-2007 The Regents of The University of Michigan 14# All rights reserved. 15# 16# Redistribution and use in source and binary forms, with or without 17# modification, are permitted provided that the following conditions are 18# met: redistributions of source code must retain the above copyright 19# notice, this list of conditions and the following disclaimer; 20# redistributions in binary form must reproduce the above copyright 21# notice, this list of conditions and the following disclaimer in the 22# documentation and/or other materials provided with the distribution; 23# neither the name of the copyright holders nor the names of its 24# contributors may be used to endorse or promote products derived from 25# this software without specific prior written permission. 26# 27# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 28# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 29# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 30# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 31# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 32# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 33# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 34# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 35# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 36# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 37# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 38# 39# Authors: Ali Saidi 40# Gabe Black 41# William Wang 42# Glenn Bergmans 43 44from m5.defines import buildEnv 45from m5.params import * 46from m5.proxy import * 47from m5.util.fdthelper import * 48from m5.objects.ClockDomain import ClockDomain 49from m5.objects.VoltageDomain import VoltageDomain 50from m5.objects.Device import \ 51 BasicPioDevice, PioDevice, IsaFake, BadAddr, DmaDevice 52from m5.objects.PciHost import * 53from m5.objects.Ethernet import NSGigE, IGbE_igb, IGbE_e1000 54from m5.objects.Ide import * 55from m5.objects.Platform import Platform 56from m5.objects.Terminal import Terminal 57from m5.objects.Uart import Uart 58from m5.objects.SimpleMemory import SimpleMemory 59from m5.objects.Gic import * 60from m5.objects.EnergyCtrl import EnergyCtrl 61from m5.objects.ClockedObject import ClockedObject 62from m5.objects.ClockDomain import SrcClockDomain 63from m5.objects.SubSystem import SubSystem 64from m5.objects.Graphics import ImageFormat 65from m5.objects.ClockedObject import ClockedObject 66from m5.objects.PS2 import * 67from m5.objects.VirtIOMMIO import MmioVirtIO 68from m5.objects.Display import Display, Display1080p 69 70# Platforms with KVM support should generally use in-kernel GIC 71# emulation. Use a GIC model that automatically switches between 72# gem5's GIC model and KVM's GIC model if KVM is available. 73try: 74 from m5.objects.KvmGic import MuxingKvmGic 75 kvm_gicv2_class = MuxingKvmGic 76except ImportError: 77 # KVM support wasn't compiled into gem5. Fallback to a 78 # software-only GIC. 79 kvm_gicv2_class = Gic400 80 pass 81 82class AmbaPioDevice(BasicPioDevice): 83 type = 'AmbaPioDevice' 84 abstract = True 85 cxx_header = "dev/arm/amba_device.hh" 86 amba_id = Param.UInt32("ID of AMBA device for kernel detection") 87 88class AmbaIntDevice(AmbaPioDevice): 89 type = 'AmbaIntDevice' 90 abstract = True 91 cxx_header = "dev/arm/amba_device.hh" 92 gic = Param.BaseGic(Parent.any, "Gic to use for interrupting") 93 int_num = Param.UInt32("Interrupt number that connects to GIC") 94 int_delay = Param.Latency("100ns", 95 "Time between action and interrupt generation by device") 96 97class AmbaDmaDevice(DmaDevice): 98 type = 'AmbaDmaDevice' 99 abstract = True 100 cxx_header = "dev/arm/amba_device.hh" 101 pio_addr = Param.Addr("Address for AMBA slave interface") 102 pio_latency = Param.Latency("10ns", "Time between action and write/read result by AMBA DMA Device") 103 gic = Param.BaseGic(Parent.any, "Gic to use for interrupting") 104 int_num = Param.UInt32("Interrupt number that connects to GIC") 105 amba_id = Param.UInt32("ID of AMBA device for kernel detection") 106 107class A9SCU(BasicPioDevice): 108 type = 'A9SCU' 109 cxx_header = "dev/arm/a9scu.hh" 110 111class ArmPciIntRouting(Enum): vals = [ 112 'ARM_PCI_INT_STATIC', 113 'ARM_PCI_INT_DEV', 114 'ARM_PCI_INT_PIN', 115 ] 116 117class GenericArmPciHost(GenericPciHost): 118 type = 'GenericArmPciHost' 119 cxx_header = "dev/arm/pci_host.hh" 120 121 int_policy = Param.ArmPciIntRouting("PCI interrupt routing policy") 122 int_base = Param.Unsigned("PCI interrupt base") 123 int_count = Param.Unsigned("Maximum number of interrupts used by this host") 124 125 # This python parameter can be used in configuration scripts to turn 126 # on/off the fdt dma-coherent flag when doing dtb autogeneration 127 _dma_coherent = True 128 129 def generateDeviceTree(self, state): 130 local_state = FdtState( 131 addr_cells=3, size_cells=2, 132 cpu_cells=1, interrupt_cells=1) 133 134 node = FdtNode("pci") 135 136 if int(self.conf_device_bits) == 8: 137 node.appendCompatible("pci-host-cam-generic") 138 elif int(self.conf_device_bits) == 12: 139 node.appendCompatible("pci-host-ecam-generic") 140 else: 141 m5.fatal("No compatibility string for the set conf_device_width") 142 143 node.append(FdtPropertyStrings("device_type", ["pci"])) 144 145 # Cell sizes of child nodes/peripherals 146 node.append(local_state.addrCellsProperty()) 147 node.append(local_state.sizeCellsProperty()) 148 node.append(local_state.interruptCellsProperty()) 149 # PCI address for CPU 150 node.append(FdtPropertyWords("reg", 151 state.addrCells(self.conf_base) + 152 state.sizeCells(self.conf_size) )) 153 154 # Ranges mapping 155 # For now some of this is hard coded, because the PCI module does not 156 # have a proper full understanding of the memory map, but adapting the 157 # PCI module is beyond the scope of what I'm trying to do here. 158 # Values are taken from the VExpress_GEM5_V1 platform. 159 ranges = [] 160 # Pio address range 161 ranges += self.pciFdtAddr(space=1, addr=0) 162 ranges += state.addrCells(self.pci_pio_base) 163 ranges += local_state.sizeCells(0x10000) # Fixed size 164 165 # AXI memory address range 166 ranges += self.pciFdtAddr(space=2, addr=0) 167 ranges += state.addrCells(0x40000000) # Fixed offset 168 ranges += local_state.sizeCells(0x40000000) # Fixed size 169 node.append(FdtPropertyWords("ranges", ranges)) 170 171 if str(self.int_policy) == 'ARM_PCI_INT_DEV': 172 gic = self._parent.unproxy(self).gic 173 int_phandle = state.phandle(gic) 174 # Interrupt mapping 175 interrupts = [] 176 177 # child interrupt specifier 178 child_interrupt = local_state.interruptCells(0x0) 179 180 # parent unit address 181 parent_addr = gic._state.addrCells(0x0) 182 183 for i in range(int(self.int_count)): 184 parent_interrupt = gic.interruptCells(0, 185 int(self.int_base) - 32 + i, 1) 186 187 interrupts += self.pciFdtAddr(device=i, addr=0) + \ 188 child_interrupt + [int_phandle] + parent_addr + \ 189 parent_interrupt 190 191 node.append(FdtPropertyWords("interrupt-map", interrupts)) 192 193 int_count = int(self.int_count) 194 if int_count & (int_count - 1): 195 fatal("PCI interrupt count should be power of 2") 196 197 intmask = self.pciFdtAddr(device=int_count - 1, addr=0) + [0x0] 198 node.append(FdtPropertyWords("interrupt-map-mask", intmask)) 199 else: 200 m5.fatal("Unsupported PCI interrupt policy " + 201 "for Device Tree generation") 202 203 if self._dma_coherent: 204 node.append(FdtProperty("dma-coherent")) 205 206 yield node 207 208class RealViewCtrl(BasicPioDevice): 209 type = 'RealViewCtrl' 210 cxx_header = "dev/arm/rv_ctrl.hh" 211 proc_id0 = Param.UInt32(0x0C000000, "Processor ID, SYS_PROCID") 212 proc_id1 = Param.UInt32(0x0C000222, "Processor ID, SYS_PROCID1") 213 idreg = Param.UInt32(0x00000000, "ID Register, SYS_ID") 214 215 def generateDeviceTree(self, state): 216 node = FdtNode("sysreg@%x" % long(self.pio_addr)) 217 node.appendCompatible("arm,vexpress-sysreg") 218 node.append(FdtPropertyWords("reg", 219 state.addrCells(self.pio_addr) + 220 state.sizeCells(0x1000) )) 221 node.append(FdtProperty("gpio-controller")) 222 node.append(FdtPropertyWords("#gpio-cells", [2])) 223 node.appendPhandle(self) 224 225 yield node 226 227class RealViewOsc(ClockDomain): 228 type = 'RealViewOsc' 229 cxx_header = "dev/arm/rv_ctrl.hh" 230 231 parent = Param.RealViewCtrl(Parent.any, "RealView controller") 232 233 # TODO: We currently don't have the notion of a clock source, 234 # which means we have to associate oscillators with a voltage 235 # source. 236 voltage_domain = Param.VoltageDomain(Parent.voltage_domain, 237 "Voltage domain") 238 239 # See ARM DUI 0447J (ARM Motherboard Express uATX -- V2M-P1) and 240 # the individual core/logic tile reference manuals for details 241 # about the site/position/dcc/device allocation. 242 site = Param.UInt8("Board Site") 243 position = Param.UInt8("Position in device stack") 244 dcc = Param.UInt8("Daughterboard Configuration Controller") 245 device = Param.UInt8("Device ID") 246 247 freq = Param.Clock("Default frequency") 248 249 def generateDeviceTree(self, state): 250 phandle = state.phandle(self) 251 node = FdtNode("osc@" + format(long(phandle), 'x')) 252 node.appendCompatible("arm,vexpress-osc") 253 node.append(FdtPropertyWords("arm,vexpress-sysreg,func", 254 [0x1, int(self.device)])) 255 node.append(FdtPropertyWords("#clock-cells", [0])) 256 freq = int(1.0/self.freq.value) # Values are stored as a clock period 257 node.append(FdtPropertyWords("freq-range", [freq, freq])) 258 node.append(FdtPropertyStrings("clock-output-names", 259 ["oscclk" + str(phandle)])) 260 node.appendPhandle(self) 261 yield node 262 263class RealViewTemperatureSensor(SimObject): 264 type = 'RealViewTemperatureSensor' 265 cxx_header = "dev/arm/rv_ctrl.hh" 266 267 parent = Param.RealViewCtrl(Parent.any, "RealView controller") 268 269 system = Param.System(Parent.any, "system") 270 271 # See ARM DUI 0447J (ARM Motherboard Express uATX -- V2M-P1) and 272 # the individual core/logic tile reference manuals for details 273 # about the site/position/dcc/device allocation. 274 site = Param.UInt8("Board Site") 275 position = Param.UInt8("Position in device stack") 276 dcc = Param.UInt8("Daughterboard Configuration Controller") 277 device = Param.UInt8("Device ID") 278 279class VExpressMCC(SubSystem): 280 """ARM V2M-P1 Motherboard Configuration Controller 281 282This subsystem describes a subset of the devices that sit behind the 283motherboard configuration controller on the the ARM Motherboard 284Express (V2M-P1) motherboard. See ARM DUI 0447J for details. 285 """ 286 287 class Osc(RealViewOsc): 288 site, position, dcc = (0, 0, 0) 289 290 class Temperature(RealViewTemperatureSensor): 291 site, position, dcc = (0, 0, 0) 292 293 osc_mcc = Osc(device=0, freq="50MHz") 294 osc_clcd = Osc(device=1, freq="23.75MHz") 295 osc_peripheral = Osc(device=2, freq="24MHz") 296 osc_system_bus = Osc(device=4, freq="24MHz") 297 298 # See Table 4.19 in ARM DUI 0447J (Motherboard Express uATX TRM). 299 temp_crtl = Temperature(device=0) 300 301 def generateDeviceTree(self, state): 302 node = FdtNode("mcc") 303 node.appendCompatible("arm,vexpress,config-bus") 304 node.append(FdtPropertyWords("arm,vexpress,site", [0])) 305 306 for obj in self._children.values(): 307 if issubclass(type(obj), SimObject): 308 node.append(obj.generateDeviceTree(state)) 309 310 io_phandle = state.phandle(self.osc_mcc.parent.unproxy(self)) 311 node.append(FdtPropertyWords("arm,vexpress,config-bridge", io_phandle)) 312 313 yield node 314 315class CoreTile2A15DCC(SubSystem): 316 """ARM CoreTile Express A15x2 Daughterboard Configuration Controller 317 318This subsystem describes a subset of the devices that sit behind the 319daughterboard configuration controller on a CoreTile Express A15x2. See 320ARM DUI 0604E for details. 321 """ 322 323 class Osc(RealViewOsc): 324 site, position, dcc = (1, 0, 0) 325 326 # See Table 2.8 in ARM DUI 0604E (CoreTile Express A15x2 TRM) 327 osc_cpu = Osc(device=0, freq="60MHz") 328 osc_hsbm = Osc(device=4, freq="40MHz") 329 osc_pxl = Osc(device=5, freq="23.75MHz") 330 osc_smb = Osc(device=6, freq="50MHz") 331 osc_sys = Osc(device=7, freq="60MHz") 332 osc_ddr = Osc(device=8, freq="40MHz") 333 334 def generateDeviceTree(self, state): 335 node = FdtNode("dcc") 336 node.appendCompatible("arm,vexpress,config-bus") 337 338 for obj in self._children.values(): 339 if isinstance(obj, SimObject): 340 node.append(obj.generateDeviceTree(state)) 341 342 io_phandle = state.phandle(self.osc_cpu.parent.unproxy(self)) 343 node.append(FdtPropertyWords("arm,vexpress,config-bridge", io_phandle)) 344 345 yield node 346 347class AmbaFake(AmbaPioDevice): 348 type = 'AmbaFake' 349 cxx_header = "dev/arm/amba_fake.hh" 350 ignore_access = Param.Bool(False, "Ignore reads/writes to this device, (e.g. IsaFake + AMBA)") 351 amba_id = 0; 352 353class Pl011(Uart): 354 type = 'Pl011' 355 cxx_header = "dev/arm/pl011.hh" 356 gic = Param.BaseGic(Parent.any, "Gic to use for interrupting") 357 int_num = Param.UInt32("Interrupt number that connects to GIC") 358 end_on_eot = Param.Bool(False, "End the simulation when a EOT is received on the UART") 359 int_delay = Param.Latency("100ns", "Time between action and interrupt generation by UART") 360 361 def generateDeviceTree(self, state): 362 node = self.generateBasicPioDeviceNode(state, 'uart', self.pio_addr, 363 0x1000, [int(self.int_num)]) 364 node.appendCompatible(["arm,pl011", "arm,primecell"]) 365 366 # Hardcoded reference to the realview platform clocks, because the 367 # clk_domain can only store one clock (i.e. it is not a VectorParam) 368 realview = self._parent.unproxy(self) 369 node.append(FdtPropertyWords("clocks", 370 [state.phandle(realview.mcc.osc_peripheral), 371 state.phandle(realview.dcc.osc_smb)])) 372 node.append(FdtPropertyStrings("clock-names", ["uartclk", "apb_pclk"])) 373 yield node 374 375class Sp804(AmbaPioDevice): 376 type = 'Sp804' 377 cxx_header = "dev/arm/timer_sp804.hh" 378 gic = Param.BaseGic(Parent.any, "Gic to use for interrupting") 379 int_num0 = Param.UInt32("Interrupt number that connects to GIC") 380 clock0 = Param.Clock('1MHz', "Clock speed of the input") 381 int_num1 = Param.UInt32("Interrupt number that connects to GIC") 382 clock1 = Param.Clock('1MHz', "Clock speed of the input") 383 amba_id = 0x00141804 384 385class A9GlobalTimer(BasicPioDevice): 386 type = 'A9GlobalTimer' 387 cxx_header = "dev/arm/timer_a9global.hh" 388 gic = Param.BaseGic(Parent.any, "Gic to use for interrupting") 389 int_num = Param.UInt32("Interrrupt number that connects to GIC") 390 391class CpuLocalTimer(BasicPioDevice): 392 type = 'CpuLocalTimer' 393 cxx_header = "dev/arm/timer_cpulocal.hh" 394 int_timer = Param.ArmPPI("Interrrupt used per-cpu to GIC") 395 int_watchdog = Param.ArmPPI("Interrupt for per-cpu watchdog to GIC") 396 397class GenericTimer(ClockedObject): 398 type = 'GenericTimer' 399 cxx_header = "dev/arm/generic_timer.hh" 400 system = Param.ArmSystem(Parent.any, "system") 401 int_phys_s = Param.ArmPPI("Physical (S) timer interrupt") 402 int_phys_ns = Param.ArmPPI("Physical (NS) timer interrupt") 403 int_virt = Param.ArmPPI("Virtual timer interrupt") 404 int_hyp = Param.ArmPPI("Hypervisor timer interrupt") 405 406 def generateDeviceTree(self, state): 407 node = FdtNode("timer") 408 409 node.appendCompatible(["arm,cortex-a15-timer", 410 "arm,armv7-timer", 411 "arm,armv8-timer"]) 412 node.append(FdtPropertyWords("interrupts", [ 413 1, int(self.int_phys_s.num) - 16, 0xf08, 414 1, int(self.int_phys_ns.num) - 16, 0xf08, 415 1, int(self.int_virt.num) - 16, 0xf08, 416 1, int(self.int_hyp.num) - 16, 0xf08, 417 ])) 418 clock = state.phandle(self.clk_domain.unproxy(self)) 419 node.append(FdtPropertyWords("clocks", clock)) 420 421 yield node 422 423class GenericTimerMem(PioDevice): 424 type = 'GenericTimerMem' 425 cxx_header = "dev/arm/generic_timer.hh" 426 427 base = Param.Addr(0, "Base address") 428 429 int_phys = Param.ArmSPI("Physical Interrupt") 430 int_virt = Param.ArmSPI("Virtual Interrupt") 431 432class PL031(AmbaIntDevice): 433 type = 'PL031' 434 cxx_header = "dev/arm/rtc_pl031.hh" 435 time = Param.Time('01/01/2009', "System time to use ('Now' for actual time)") 436 amba_id = 0x00341031 437 438 def generateDeviceTree(self, state): 439 node = self.generateBasicPioDeviceNode(state, 'rtc', self.pio_addr, 440 0x1000, [int(self.int_num)]) 441 442 node.appendCompatible(["arm,pl031", "arm,primecell"]) 443 clock = state.phandle(self.clk_domain.unproxy(self)) 444 node.append(FdtPropertyWords("clocks", clock)) 445 446 yield node 447 448class Pl050(AmbaIntDevice): 449 type = 'Pl050' 450 cxx_header = "dev/arm/kmi.hh" 451 amba_id = 0x00141050 452 453 ps2 = Param.PS2Device("PS/2 device") 454 455 def generateDeviceTree(self, state): 456 node = self.generateBasicPioDeviceNode(state, 'kmi', self.pio_addr, 457 0x1000, [int(self.int_num)]) 458 459 node.appendCompatible(["arm,pl050", "arm,primecell"]) 460 clock = state.phandle(self.clk_domain.unproxy(self)) 461 node.append(FdtPropertyWords("clocks", clock)) 462 463 yield node 464 465class Pl111(AmbaDmaDevice): 466 type = 'Pl111' 467 cxx_header = "dev/arm/pl111.hh" 468 pixel_clock = Param.Clock('24MHz', "Pixel clock") 469 vnc = Param.VncInput(Parent.any, "Vnc server for remote frame buffer display") 470 amba_id = 0x00141111 471 enable_capture = Param.Bool(True, "capture frame to system.framebuffer.bmp") 472 473class HDLcd(AmbaDmaDevice): 474 type = 'HDLcd' 475 cxx_header = "dev/arm/hdlcd.hh" 476 vnc = Param.VncInput(Parent.any, "Vnc server for remote frame buffer " 477 "display") 478 amba_id = 0x00141000 479 workaround_swap_rb = Param.Bool(False, "Workaround incorrect color " 480 "selector order in some kernels") 481 workaround_dma_line_count = Param.Bool(True, "Workaround incorrect " 482 "DMA line count (off by 1)") 483 enable_capture = Param.Bool(True, "capture frame to " 484 "system.framebuffer.{extension}") 485 frame_format = Param.ImageFormat("Auto", 486 "image format of the captured frame") 487 488 pixel_buffer_size = Param.MemorySize32("2kB", "Size of address range") 489 490 pxl_clk = Param.ClockDomain("Pixel clock source") 491 pixel_chunk = Param.Unsigned(32, "Number of pixels to handle in one batch") 492 virt_refresh_rate = Param.Frequency("20Hz", "Frame refresh rate " 493 "in KVM mode") 494 495 encoder = Param.Display(Display1080p(), "Display encoder") 496 497 def endpointPhandle(self): 498 return "hdlcd_endpoint" 499 500 def generateDeviceTree(self, state): 501 endpoint_node = FdtNode("endpoint") 502 endpoint_node.appendPhandle(self.endpointPhandle()) 503 504 for encoder_node in self.encoder.generateDeviceTree(state): 505 encoder_endpoint = self.encoder.endpointNode() 506 507 # Endpoint subnode 508 endpoint_node.append(FdtPropertyWords("remote-endpoint", 509 [ state.phandle(self.encoder.endpointPhandle()) ])) 510 encoder_endpoint.append(FdtPropertyWords("remote-endpoint", 511 [ state.phandle(self.endpointPhandle()) ])) 512 513 yield encoder_node 514 515 port_node = FdtNode("port") 516 port_node.append(endpoint_node) 517 518 # Interrupt number is hardcoded; it is not a property of this class 519 node = self.generateBasicPioDeviceNode(state, 'hdlcd', 520 self.pio_addr, 0x1000, [63]) 521 522 node.appendCompatible(["arm,hdlcd"]) 523 node.append(FdtPropertyWords("clocks", state.phandle(self.pxl_clk))) 524 node.append(FdtPropertyStrings("clock-names", ["pxlclk"])) 525 526 # This driver is disabled by default since the required DT nodes 527 # haven't been standardized yet. To use it, override this status to 528 # "ok" and add the display configuration nodes required by the driver. 529 # See the driver for more information. 530 node.append(FdtPropertyStrings("status", ["disabled"])) 531 532 self.addIommuProperty(state, node) 533 534 node.append(port_node) 535 536 yield node 537 538class RealView(Platform): 539 type = 'RealView' 540 cxx_header = "dev/arm/realview.hh" 541 system = Param.System(Parent.any, "system") 542 _mem_regions = [ AddrRange(0, size='256MB') ] 543 544 def _on_chip_devices(self): 545 return [] 546 547 def _off_chip_devices(self): 548 return [] 549 550 _off_chip_ranges = [] 551 552 def _attach_device(self, device, bus, dma_ports=None): 553 if hasattr(device, "pio"): 554 device.pio = bus.master 555 if hasattr(device, "dma"): 556 if dma_ports is None: 557 device.dma = bus.slave 558 else: 559 dma_ports.append(device.dma) 560 561 def _attach_io(self, devices, *args, **kwargs): 562 for d in devices: 563 self._attach_device(d, *args, **kwargs) 564 565 def _attach_clk(self, devices, clkdomain): 566 for d in devices: 567 if hasattr(d, "clk_domain"): 568 d.clk_domain = clkdomain 569 570 def attachPciDevices(self): 571 pass 572 573 def enableMSIX(self): 574 pass 575 576 def onChipIOClkDomain(self, clkdomain): 577 self._attach_clk(self._on_chip_devices(), clkdomain) 578 579 def offChipIOClkDomain(self, clkdomain): 580 self._attach_clk(self._off_chip_devices(), clkdomain) 581 582 def attachOnChipIO(self, bus, bridge=None, *args, **kwargs): 583 self._attach_io(self._on_chip_devices(), bus, *args, **kwargs) 584 if bridge: 585 bridge.ranges = self._off_chip_ranges 586 587 def attachIO(self, *args, **kwargs): 588 self._attach_io(self._off_chip_devices(), *args, **kwargs) 589 590 def setupBootLoader(self, mem_bus, cur_sys, loc): 591 cur_sys.bootmem = SimpleMemory( 592 range = AddrRange('2GB', size = '64MB'), 593 conf_table_reported = False) 594 if mem_bus is not None: 595 cur_sys.bootmem.port = mem_bus.master 596 cur_sys.boot_loader = loc('boot.arm') 597 cur_sys.atags_addr = 0x100 598 cur_sys.load_offset = 0 599 600 def generateDeviceTree(self, state): 601 node = FdtNode("/") # Things in this module need to end up in the root 602 node.append(FdtPropertyWords("interrupt-parent", 603 state.phandle(self.gic))) 604 605 for subnode in self.recurseDeviceTree(state): 606 node.append(subnode) 607 608 yield node 609 610 def annotateCpuDeviceNode(self, cpu, state): 611 cpu.append(FdtPropertyStrings("enable-method", "spin-table")) 612 cpu.append(FdtPropertyWords("cpu-release-addr", \ 613 state.addrCells(0x8000fff8))) 614 615# Reference for memory map and interrupt number 616# RealView Platform Baseboard Explore for Cortex-A9 User Guide(ARM DUI 0440A) 617# Chapter 4: Programmer's Reference 618class RealViewPBX(RealView): 619 uart = Pl011(pio_addr=0x10009000, int_num=44) 620 realview_io = RealViewCtrl(pio_addr=0x10000000) 621 mcc = VExpressMCC() 622 dcc = CoreTile2A15DCC() 623 gic = Gic400(cpu_addr=0x1f000100, dist_addr=0x1f001000, cpu_size=0x100) 624 pci_host = GenericPciHost( 625 conf_base=0x30000000, conf_size='256MB', conf_device_bits=16, 626 pci_pio_base=0) 627 timer0 = Sp804(int_num0=36, int_num1=36, pio_addr=0x10011000) 628 timer1 = Sp804(int_num0=37, int_num1=37, pio_addr=0x10012000) 629 global_timer = A9GlobalTimer(int_num=27, pio_addr=0x1f000200) 630 local_cpu_timer = CpuLocalTimer(int_timer=ArmPPI(num=29), 631 int_watchdog=ArmPPI(num=30), 632 pio_addr=0x1f000600) 633 clcd = Pl111(pio_addr=0x10020000, int_num=55) 634 kmi0 = Pl050(pio_addr=0x10006000, int_num=52, ps2=PS2Keyboard()) 635 kmi1 = Pl050(pio_addr=0x10007000, int_num=53, ps2=PS2TouchKit()) 636 a9scu = A9SCU(pio_addr=0x1f000000) 637 cf_ctrl = IdeController(disks=[], pci_func=0, pci_dev=7, pci_bus=2, 638 io_shift = 1, ctrl_offset = 2, Command = 0x1, 639 BAR0 = 0x18000000, BAR0Size = '16B', 640 BAR1 = 0x18000100, BAR1Size = '1B', 641 BAR0LegacyIO = True, BAR1LegacyIO = True) 642 643 644 l2x0_fake = IsaFake(pio_addr=0x1f002000, pio_size=0xfff) 645 flash_fake = IsaFake(pio_addr=0x40000000, pio_size=0x20000000, 646 fake_mem=True) 647 dmac_fake = AmbaFake(pio_addr=0x10030000) 648 uart1_fake = AmbaFake(pio_addr=0x1000a000) 649 uart2_fake = AmbaFake(pio_addr=0x1000b000) 650 uart3_fake = AmbaFake(pio_addr=0x1000c000) 651 smc_fake = AmbaFake(pio_addr=0x100e1000) 652 sp810_fake = AmbaFake(pio_addr=0x10001000, ignore_access=True) 653 watchdog_fake = AmbaFake(pio_addr=0x10010000) 654 gpio0_fake = AmbaFake(pio_addr=0x10013000) 655 gpio1_fake = AmbaFake(pio_addr=0x10014000) 656 gpio2_fake = AmbaFake(pio_addr=0x10015000) 657 ssp_fake = AmbaFake(pio_addr=0x1000d000) 658 sci_fake = AmbaFake(pio_addr=0x1000e000) 659 aaci_fake = AmbaFake(pio_addr=0x10004000) 660 mmc_fake = AmbaFake(pio_addr=0x10005000) 661 rtc = PL031(pio_addr=0x10017000, int_num=42) 662 energy_ctrl = EnergyCtrl(pio_addr=0x1000f000) 663 664 665 # Attach I/O devices that are on chip and also set the appropriate 666 # ranges for the bridge 667 def attachOnChipIO(self, bus, bridge): 668 self.gic.pio = bus.master 669 self.l2x0_fake.pio = bus.master 670 self.a9scu.pio = bus.master 671 self.global_timer.pio = bus.master 672 self.local_cpu_timer.pio = bus.master 673 # Bridge ranges based on excluding what is part of on-chip I/O 674 # (gic, l2x0, a9scu, local_cpu_timer) 675 bridge.ranges = [AddrRange(self.realview_io.pio_addr, 676 self.a9scu.pio_addr - 1), 677 AddrRange(self.flash_fake.pio_addr, 678 self.flash_fake.pio_addr + \ 679 self.flash_fake.pio_size - 1)] 680 681 # Set the clock domain for IO objects that are considered 682 # to be "close" to the cores. 683 def onChipIOClkDomain(self, clkdomain): 684 self.gic.clk_domain = clkdomain 685 self.l2x0_fake.clk_domain = clkdomain 686 self.a9scu.clkdomain = clkdomain 687 self.local_cpu_timer.clk_domain = clkdomain 688 689 # Attach I/O devices to specified bus object. Can't do this 690 # earlier, since the bus object itself is typically defined at the 691 # System level. 692 def attachIO(self, bus): 693 self.uart.pio = bus.master 694 self.realview_io.pio = bus.master 695 self.pci_host.pio = bus.master 696 self.timer0.pio = bus.master 697 self.timer1.pio = bus.master 698 self.clcd.pio = bus.master 699 self.clcd.dma = bus.slave 700 self.kmi0.pio = bus.master 701 self.kmi1.pio = bus.master 702 self.cf_ctrl.pio = bus.master 703 self.cf_ctrl.dma = bus.slave 704 self.dmac_fake.pio = bus.master 705 self.uart1_fake.pio = bus.master 706 self.uart2_fake.pio = bus.master 707 self.uart3_fake.pio = bus.master 708 self.smc_fake.pio = bus.master 709 self.sp810_fake.pio = bus.master 710 self.watchdog_fake.pio = bus.master 711 self.gpio0_fake.pio = bus.master 712 self.gpio1_fake.pio = bus.master 713 self.gpio2_fake.pio = bus.master 714 self.ssp_fake.pio = bus.master 715 self.sci_fake.pio = bus.master 716 self.aaci_fake.pio = bus.master 717 self.mmc_fake.pio = bus.master 718 self.rtc.pio = bus.master 719 self.flash_fake.pio = bus.master 720 self.energy_ctrl.pio = bus.master 721 722 # Set the clock domain for IO objects that are considered 723 # to be "far" away from the cores. 724 def offChipIOClkDomain(self, clkdomain): 725 self.uart.clk_domain = clkdomain 726 self.realview_io.clk_domain = clkdomain 727 self.timer0.clk_domain = clkdomain 728 self.timer1.clk_domain = clkdomain 729 self.clcd.clk_domain = clkdomain 730 self.kmi0.clk_domain = clkdomain 731 self.kmi1.clk_domain = clkdomain 732 self.cf_ctrl.clk_domain = clkdomain 733 self.dmac_fake.clk_domain = clkdomain 734 self.uart1_fake.clk_domain = clkdomain 735 self.uart2_fake.clk_domain = clkdomain 736 self.uart3_fake.clk_domain = clkdomain 737 self.smc_fake.clk_domain = clkdomain 738 self.sp810_fake.clk_domain = clkdomain 739 self.watchdog_fake.clk_domain = clkdomain 740 self.gpio0_fake.clk_domain = clkdomain 741 self.gpio1_fake.clk_domain = clkdomain 742 self.gpio2_fake.clk_domain = clkdomain 743 self.ssp_fake.clk_domain = clkdomain 744 self.sci_fake.clk_domain = clkdomain 745 self.aaci_fake.clk_domain = clkdomain 746 self.mmc_fake.clk_domain = clkdomain 747 self.rtc.clk_domain = clkdomain 748 self.flash_fake.clk_domain = clkdomain 749 self.energy_ctrl.clk_domain = clkdomain 750 751class VExpress_EMM(RealView): 752 _mem_regions = [ AddrRange('2GB', size='2GB') ] 753 754 # Ranges based on excluding what is part of on-chip I/O (gic, 755 # a9scu) 756 _off_chip_ranges = [AddrRange(0x2F000000, size='16MB'), 757 AddrRange(0x30000000, size='256MB'), 758 AddrRange(0x40000000, size='512MB'), 759 AddrRange(0x18000000, size='64MB'), 760 AddrRange(0x1C000000, size='64MB')] 761 762 # Platform control device (off-chip) 763 realview_io = RealViewCtrl(proc_id0=0x14000000, proc_id1=0x14000000, 764 idreg=0x02250000, pio_addr=0x1C010000) 765 766 mcc = VExpressMCC() 767 dcc = CoreTile2A15DCC() 768 769 ### On-chip devices ### 770 gic = Gic400(dist_addr=0x2C001000, cpu_addr=0x2C002000) 771 vgic = VGic(vcpu_addr=0x2c006000, hv_addr=0x2c004000, maint_int=25) 772 773 local_cpu_timer = CpuLocalTimer(int_timer=ArmPPI(num=29), 774 int_watchdog=ArmPPI(num=30), 775 pio_addr=0x2C080000) 776 777 hdlcd = HDLcd(pxl_clk=dcc.osc_pxl, 778 pio_addr=0x2b000000, int_num=117, 779 workaround_swap_rb=True) 780 781 def _on_chip_devices(self): 782 devices = [ 783 self.gic, self.vgic, 784 self.local_cpu_timer 785 ] 786 if hasattr(self, "gicv2m"): 787 devices.append(self.gicv2m) 788 devices.append(self.hdlcd) 789 return devices 790 791 ### Off-chip devices ### 792 uart = Pl011(pio_addr=0x1c090000, int_num=37) 793 pci_host = GenericPciHost( 794 conf_base=0x30000000, conf_size='256MB', conf_device_bits=16, 795 pci_pio_base=0) 796 797 generic_timer = GenericTimer(int_phys_s=ArmPPI(num=29), 798 int_phys_ns=ArmPPI(num=30), 799 int_virt=ArmPPI(num=27), 800 int_hyp=ArmPPI(num=26)) 801 802 timer0 = Sp804(int_num0=34, int_num1=34, pio_addr=0x1C110000, clock0='1MHz', clock1='1MHz') 803 timer1 = Sp804(int_num0=35, int_num1=35, pio_addr=0x1C120000, clock0='1MHz', clock1='1MHz') 804 clcd = Pl111(pio_addr=0x1c1f0000, int_num=46) 805 kmi0 = Pl050(pio_addr=0x1c060000, int_num=44, ps2=PS2Keyboard()) 806 kmi1 = Pl050(pio_addr=0x1c070000, int_num=45, ps2=PS2TouchKit()) 807 cf_ctrl = IdeController(disks=[], pci_func=0, pci_dev=0, pci_bus=2, 808 io_shift = 2, ctrl_offset = 2, Command = 0x1, 809 BAR0 = 0x1C1A0000, BAR0Size = '256B', 810 BAR1 = 0x1C1A0100, BAR1Size = '4096B', 811 BAR0LegacyIO = True, BAR1LegacyIO = True) 812 813 vram = SimpleMemory(range = AddrRange(0x18000000, size='32MB'), 814 conf_table_reported = False) 815 rtc = PL031(pio_addr=0x1C170000, int_num=36) 816 817 l2x0_fake = IsaFake(pio_addr=0x2C100000, pio_size=0xfff) 818 uart1_fake = AmbaFake(pio_addr=0x1C0A0000) 819 uart2_fake = AmbaFake(pio_addr=0x1C0B0000) 820 uart3_fake = AmbaFake(pio_addr=0x1C0C0000) 821 sp810_fake = AmbaFake(pio_addr=0x1C020000, ignore_access=True) 822 watchdog_fake = AmbaFake(pio_addr=0x1C0F0000) 823 aaci_fake = AmbaFake(pio_addr=0x1C040000) 824 lan_fake = IsaFake(pio_addr=0x1A000000, pio_size=0xffff) 825 usb_fake = IsaFake(pio_addr=0x1B000000, pio_size=0x1ffff) 826 mmc_fake = AmbaFake(pio_addr=0x1c050000) 827 energy_ctrl = EnergyCtrl(pio_addr=0x1c080000) 828 829 def _off_chip_devices(self): 830 devices = [ 831 self.uart, 832 self.realview_io, 833 self.pci_host, 834 self.timer0, 835 self.timer1, 836 self.clcd, 837 self.kmi0, 838 self.kmi1, 839 self.cf_ctrl, 840 self.rtc, 841 self.vram, 842 self.l2x0_fake, 843 self.uart1_fake, 844 self.uart2_fake, 845 self.uart3_fake, 846 self.sp810_fake, 847 self.watchdog_fake, 848 self.aaci_fake, 849 self.lan_fake, 850 self.usb_fake, 851 self.mmc_fake, 852 self.energy_ctrl, 853 ] 854 # Try to attach the I/O if it exists 855 if hasattr(self, "ide"): 856 devices.append(self.ide) 857 if hasattr(self, "ethernet"): 858 devices.append(self.ethernet) 859 return devices 860 861 # Attach any PCI devices that are supported 862 def attachPciDevices(self): 863 self.ethernet = IGbE_e1000(pci_bus=0, pci_dev=0, pci_func=0, 864 InterruptLine=1, InterruptPin=1) 865 self.ide = IdeController(disks = [], pci_bus=0, pci_dev=1, pci_func=0, 866 InterruptLine=2, InterruptPin=2) 867 868 def enableMSIX(self): 869 self.gic = Gic400(dist_addr=0x2C001000, cpu_addr=0x2C002000, 870 it_lines=512) 871 self.gicv2m = Gicv2m() 872 self.gicv2m.frames = [Gicv2mFrame(spi_base=256, spi_len=64, addr=0x2C1C0000)] 873 874 def setupBootLoader(self, mem_bus, cur_sys, loc): 875 cur_sys.bootmem = SimpleMemory(range = AddrRange('64MB'), 876 conf_table_reported = False) 877 if mem_bus is not None: 878 cur_sys.bootmem.port = mem_bus.master 879 if not cur_sys.boot_loader: 880 cur_sys.boot_loader = loc('boot_emm.arm') 881 cur_sys.atags_addr = 0x8000000 882 cur_sys.load_offset = 0x80000000 883 884class VExpress_EMM64(VExpress_EMM): 885 # Three memory regions are specified totalling 512GB 886 _mem_regions = [ AddrRange('2GB', size='2GB'), 887 AddrRange('34GB', size='30GB'), 888 AddrRange('512GB', size='480GB') ] 889 pci_host = GenericPciHost( 890 conf_base=0x30000000, conf_size='256MB', conf_device_bits=12, 891 pci_pio_base=0x2f000000) 892 893 def setupBootLoader(self, mem_bus, cur_sys, loc): 894 cur_sys.bootmem = SimpleMemory(range=AddrRange(0, size='64MB'), 895 conf_table_reported=False) 896 if mem_bus is not None: 897 cur_sys.bootmem.port = mem_bus.master 898 if not cur_sys.boot_loader: 899 cur_sys.boot_loader = loc('boot_emm.arm64') 900 cur_sys.atags_addr = 0x8000000 901 cur_sys.load_offset = 0x80000000 902 903class VExpress_GEM5_Base(RealView): 904 """ 905The VExpress gem5 memory map is loosely based on a modified 906Versatile Express RS1 memory map. 907 908The gem5 platform has been designed to implement a subset of the 909original Versatile Express RS1 memory map. Off-chip peripherals should, 910when possible, adhere to the Versatile Express memory map. Non-PCI 911off-chip devices that are gem5-specific should live in the CS5 memory 912space to avoid conflicts with existing devices that we might want to 913model in the future. Such devices should normally have interrupts in 914the gem5-specific SPI range. 915 916On-chip peripherals are loosely modeled after the ARM CoreTile Express 917A15x2 A7x3 memory and interrupt map. In particular, the GIC and 918Generic Timer have the same interrupt lines and base addresses. Other 919on-chip devices are gem5 specific. 920 921Unlike the original Versatile Express RS2 extended platform, gem5 implements a 922large contigious DRAM space, without aliases or holes, starting at the 9232GiB boundary. This means that PCI memory is limited to 1GiB. 924 925Memory map: 926 0x00000000-0x03ffffff: Boot memory (CS0) 927 0x04000000-0x07ffffff: Reserved 928 0x08000000-0x0bffffff: Reserved (CS0 alias) 929 0x0c000000-0x0fffffff: Reserved (Off-chip, CS4) 930 0x10000000-0x13ffffff: gem5-specific peripherals (Off-chip, CS5) 931 0x10000000-0x1000ffff: gem5 energy controller 932 0x10010000-0x1001ffff: gem5 pseudo-ops 933 934 0x14000000-0x17ffffff: Reserved (Off-chip, PSRAM, CS1) 935 0x18000000-0x1bffffff: Reserved (Off-chip, Peripherals, CS2) 936 0x1c000000-0x1fffffff: Peripheral block 1 (Off-chip, CS3): 937 0x1c010000-0x1c01ffff: realview_io (VE system control regs.) 938 0x1c060000-0x1c06ffff: KMI0 (keyboard) 939 0x1c070000-0x1c07ffff: KMI1 (mouse) 940 0x1c090000-0x1c09ffff: UART0 941 0x1c0a0000-0x1c0affff: UART1 (reserved) 942 0x1c0b0000-0x1c0bffff: UART2 (reserved) 943 0x1c0c0000-0x1c0cffff: UART3 (reserved) 944 0x1c130000-0x1c13ffff: VirtIO (gem5/FM extension) 945 0x1c140000-0x1c14ffff: VirtIO (gem5/FM extension) 946 0x1c170000-0x1c17ffff: RTC 947 948 0x20000000-0x3fffffff: On-chip peripherals: 949 0x2b000000-0x2b00ffff: HDLCD 950 951 0x2c001000-0x2c001fff: GIC (distributor) 952 0x2c002000-0x2c003fff: GIC (CPU interface) 953 0x2c004000-0x2c005fff: vGIC (HV) 954 0x2c006000-0x2c007fff: vGIC (VCPU) 955 0x2c1c0000-0x2c1cffff: GICv2m MSI frame 0 956 957 0x2d000000-0x2d00ffff: GPU (reserved) 958 959 0x2f000000-0x2fffffff: PCI IO space 960 0x30000000-0x3fffffff: PCI config space 961 962 0x40000000-0x7fffffff: Ext. AXI: Used as PCI memory 963 964 0x80000000-X: DRAM 965 966Interrupts: 967 0- 15: Software generated interrupts (SGIs) 968 16- 31: On-chip private peripherals (PPIs) 969 25 : vgic 970 26 : generic_timer (hyp) 971 27 : generic_timer (virt) 972 28 : Reserved (Legacy FIQ) 973 29 : generic_timer (phys, sec) 974 30 : generic_timer (phys, non-sec) 975 31 : Reserved (Legacy IRQ) 976 32- 95: Mother board peripherals (SPIs) 977 32 : Reserved (SP805) 978 33 : Reserved (IOFPGA SW int) 979 34-35: Reserved (SP804) 980 36 : RTC 981 37-40: uart0-uart3 982 41-42: Reserved (PL180) 983 43 : Reserved (AACI) 984 44-45: kmi0-kmi1 985 46 : Reserved (CLCD) 986 47 : Reserved (Ethernet) 987 48 : Reserved (USB) 988 95-255: On-chip interrupt sources (we use these for 989 gem5-specific devices, SPIs) 990 74 : VirtIO (gem5/FM extension) 991 75 : VirtIO (gem5/FM extension) 992 95 : HDLCD 993 96- 98: GPU (reserved) 994 100-103: PCI 995 256-319: MSI frame 0 (gem5-specific, SPIs) 996 320-511: Unused 997 998 """ 999 1000 # Everything above 2GiB is memory 1001 _mem_regions = [ AddrRange('2GB', size='510GB') ] 1002 1003 _off_chip_ranges = [ 1004 # CS1-CS5 1005 AddrRange(0x0c000000, 0x1fffffff), 1006 # External AXI interface (PCI) 1007 AddrRange(0x2f000000, 0x7fffffff), 1008 ] 1009 1010 # Platform control device (off-chip) 1011 realview_io = RealViewCtrl(proc_id0=0x14000000, proc_id1=0x14000000, 1012 idreg=0x02250000, pio_addr=0x1c010000) 1013 mcc = VExpressMCC() 1014 dcc = CoreTile2A15DCC() 1015 1016 ### On-chip devices ### 1017 generic_timer = GenericTimer(int_phys_s=ArmPPI(num=29), 1018 int_phys_ns=ArmPPI(num=30), 1019 int_virt=ArmPPI(num=27), 1020 int_hyp=ArmPPI(num=26)) 1021 1022 def _on_chip_devices(self): 1023 return [ 1024 self.generic_timer, 1025 ] 1026 1027 ### Off-chip devices ### 1028 clock24MHz = SrcClockDomain(clock="24MHz", 1029 voltage_domain=VoltageDomain(voltage="3.3V")) 1030 1031 uart = [ 1032 Pl011(pio_addr=0x1c090000, int_num=37), 1033 ] 1034 1035 kmi0 = Pl050(pio_addr=0x1c060000, int_num=44, ps2=PS2Keyboard()) 1036 kmi1 = Pl050(pio_addr=0x1c070000, int_num=45, ps2=PS2TouchKit()) 1037 1038 rtc = PL031(pio_addr=0x1c170000, int_num=36) 1039 1040 ### gem5-specific off-chip devices ### 1041 pci_host = GenericArmPciHost( 1042 conf_base=0x30000000, conf_size='256MB', conf_device_bits=12, 1043 pci_pio_base=0x2f000000, 1044 int_policy="ARM_PCI_INT_DEV", int_base=100, int_count=4) 1045 1046 energy_ctrl = EnergyCtrl(pio_addr=0x10000000) 1047 1048 vio = [ 1049 MmioVirtIO(pio_addr=0x1c130000, pio_size=0x1000, 1050 interrupt=ArmSPI(num=74)), 1051 MmioVirtIO(pio_addr=0x1c140000, pio_size=0x1000, 1052 interrupt=ArmSPI(num=75)), 1053 ] 1054 1055 def _off_chip_devices(self): 1056 return [ 1057 self.realview_io, 1058 self.uart[0], 1059 self.kmi0, 1060 self.kmi1, 1061 self.rtc, 1062 self.pci_host, 1063 self.energy_ctrl, 1064 self.clock24MHz, 1065 self.vio[0], 1066 self.vio[1], 1067 ] 1068 1069 def attachPciDevice(self, device, *args, **kwargs): 1070 device.host = self.pci_host 1071 self._attach_device(device, *args, **kwargs) 1072 1073 def setupBootLoader(self, mem_bus, cur_sys, loc): 1074 cur_sys.bootmem = SimpleMemory(range=AddrRange(0, size='64MB'), 1075 conf_table_reported=False) 1076 if mem_bus is not None: 1077 cur_sys.bootmem.port = mem_bus.master 1078 if not cur_sys.boot_loader: 1079 cur_sys.boot_loader = [ loc('boot_emm.arm64'), loc('boot_emm.arm') ] 1080 cur_sys.atags_addr = 0x8000000 1081 cur_sys.load_offset = 0x80000000 1082 1083 # Setup m5ops. It's technically not a part of the boot 1084 # loader, but this is the only place we can configure the 1085 # system. 1086 cur_sys.m5ops_base = 0x10010000 1087 1088 def generateDeviceTree(self, state): 1089 # Generate using standard RealView function 1090 dt = list(super(VExpress_GEM5_Base, self).generateDeviceTree(state)) 1091 if len(dt) > 1: 1092 raise Exception("System returned too many DT nodes") 1093 node = dt[0] 1094 1095 node.appendCompatible(["arm,vexpress"]) 1096 node.append(FdtPropertyStrings("model", ["V2P-CA15"])) 1097 node.append(FdtPropertyWords("arm,hbi", [0x0])) 1098 node.append(FdtPropertyWords("arm,vexpress,site", [0xf])) 1099 1100 yield node 1101 1102class VExpress_GEM5_V1_Base(VExpress_GEM5_Base): 1103 gic = kvm_gicv2_class(dist_addr=0x2c001000, cpu_addr=0x2c002000, 1104 it_lines=512) 1105 vgic = VGic(vcpu_addr=0x2c006000, hv_addr=0x2c004000, maint_int=25) 1106 gicv2m = Gicv2m() 1107 gicv2m.frames = [ 1108 Gicv2mFrame(spi_base=256, spi_len=64, addr=0x2c1c0000), 1109 ] 1110 1111 def _on_chip_devices(self): 1112 return super(VExpress_GEM5_V1_Base,self)._on_chip_devices() + [ 1113 self.gic, self.vgic, self.gicv2m, 1114 ] 1115 1116class VExpress_GEM5_V1(VExpress_GEM5_V1_Base): 1117 hdlcd = HDLcd(pxl_clk=VExpress_GEM5_V1_Base.dcc.osc_pxl, 1118 pio_addr=0x2b000000, int_num=95) 1119 1120 def _on_chip_devices(self): 1121 return super(VExpress_GEM5_V1,self)._on_chip_devices() + [ 1122 self.hdlcd, 1123 ] 1124 1125class VExpress_GEM5_V2_Base(VExpress_GEM5_Base): 1126 gic = Gicv3(dist_addr=0x2c000000, redist_addr=0x2c010000, 1127 maint_int=ArmPPI(num=25), 1128 its=Gicv3Its(pio_addr=0x2e010000)) 1129 1130 # Limiting to 128 since it will otherwise overlap with PCI space 1131 gic.cpu_max = 128 1132 1133 def _on_chip_devices(self): 1134 return super(VExpress_GEM5_V2_Base,self)._on_chip_devices() + [ 1135 self.gic, self.gic.its 1136 ] 1137 1138 def setupBootLoader(self, mem_bus, cur_sys, loc): 1139 cur_sys.boot_loader = [ loc('boot_emm_v2.arm64') ] 1140 super(VExpress_GEM5_V2_Base,self).setupBootLoader(mem_bus, 1141 cur_sys, loc) 1142 1143class VExpress_GEM5_V2(VExpress_GEM5_V2_Base): 1144 hdlcd = HDLcd(pxl_clk=VExpress_GEM5_V2_Base.dcc.osc_pxl, 1145 pio_addr=0x2b000000, int_num=95) 1146 1147 def _on_chip_devices(self): 1148 return super(VExpress_GEM5_V2,self)._on_chip_devices() + [ 1149 self.hdlcd, 1150 ] 1151