boards/kernel_cmdline/BUILD.gn - fuchsia - Git at Google

 # Copyright 2020 The Fuchsia Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import("//build/zbi/kernel_cmdline.gni")

 # This serves as an anchor point. By expressing a dependency on
 # //boards/kernel_cmdline, build arguments declared in this file
 # (e.g. pmm_checker_from_board) are brought into scope.
 group("kernel_cmdline") {
 }

 kernel_cmdline("serial-legacy") {
   args = [ "kernel.serial=legacy" ]
   deps = [ "//build/validate:non_production_tag" ]
 }

 kernel_cmdline("disable-blobfs-compression") {
   args = [ "blobfs.write-compression-algorithm=UNCOMPRESSED" ]
   deps = [ "//build/validate:non_production_tag" ]
 }

 kernel_cmdline("pmm-checker") {
   args = [
     # Enable PMM checker to detect certain kinds of buffer overrun and
     # use-after-free bugs.
     "kernel.pmm-checker.enable=true",

     # Use a small fill size to minimize performance impact.  In practice,
     # corruption tends to happen at the start of a page so filling/checking only
     # the first 16 bytes provides decent coverage without sacrificing
     # performance.
     "kernel.pmm-checker.fill-size=16",
   ]
 }

 declare_args() {
   # Used to control whether board definitions include PMM checker options.
   pmm_checker_from_board = true
 }

 group("pmm-checker-from-board") {
   if (pmm_checker_from_board) {
     deps = [ ":pmm-checker" ]
   }
 }

 kernel_cmdline("toulouse") {
   args = [
     # Fuchsia does not have a deterministic ordering for bringing up PCI devices, so the
     # /dev/class/ethernet/xxx paths have no well-defined mapping to the ports on the front of the
     # device.
     # In order for netbooting and loglistener to work, we need to let netsvc know which path corresponds
     # to the left-most ethernet port.
     "kernel.serial=legacy",
     "netsvc.interface=/dev/sys/platform/pci/00:1f.6/e1000/ethernet",
   ]
 }

 # This collects settings not specific to any particular machine that are
 # recommended to minimize unintended effects on timing data.  Note that this
 # does not (as yet) include settings that may reduce overall performance, which
 # x64-reduced-perf-variation (below) does (see x64-reduced-perf-variation.gni).
 group("reduced-perf-variation") {
   deps = [
     ":disable-page-scanner",
     ":quiet-early-boot",
   ]
 }

 # This collects settings not specific to any particular machine that are
 # recommended to make the system's performance highly representative of a
 # production setup.
 group("perf-realistic") {
   deps = [ ":quiet-early-boot" ]
 }

 kernel_cmdline("quiet-early-boot") {
   args = [
     # Disable serial console printing during early boot, a phase during which
     # UART communication is single-threaded and synchronous. In production,
     # the serial console will be disabled, and so early boot benchmarks that
     # include this work is sensibly avoided.
     "kernel.phys.verbose=false",
   ]
 }

 kernel_cmdline("disable-page-scanner") {
   args = [
     # Disable page scanning in all its forms. Page scanning is intended to
     # provide a memory benefit to final systems, but the operation of the
     # scanner and its unpredictable de-duplication or eviction of memory in use
     # by benchmarks could cause noticeable variation.
     "kernel.page-scanner.start-at-boot=false",
     "kernel.page-scanner.zero-page-scans-per-second=0",
     "kernel.page-scanner.enable-eviction=false",
   ]
 }

 kernel_cmdline("x64-reduced-perf-variation") {
   deps = [ ":reduced-perf-variation" ]
   args = [
     # Disable Intel Turbo Boost. Turbo Boost provides a significant speed-up to
     # many workloads, but — because CPU frequencies vary based on previous work,
     # work in other cores, system temperature, etc — makes performance of systems
     # less predictable. We prefer stability in our performance comparison
     # benchmarks.
     "kernel.x86.turbo=false",

     # Set the Intel HWP performance profile to be "stable", trying to keep the
     # CPU clock rate stable. With turbo boost disabled, this has only a small
     # effect, but helps ensure that wake ups from idle are fixed.
     "kernel.x86.hwp_policy=stable-performance",

     # Disable hyper-threading. Hyper-threading reduces predictability of
     # benchmarks, because the performance of a thread is significantly affected
     # by other threads on the core.
     "kernel.smp.ht=false",

     # Disable spectre mitigations. Spectre mitigations have significant
     # performance impact, but are currently only carried out on a subset of the
     # NUC fleet. This means that different devices have significantly different
     # performance characteristics, meaning that benchmark results vary
     # significantly based on the device running it.
     #
     # TODO(fxbug.dev/33161): Ideally, we should load microcode during Zircon boot,
     # which should bring all devices to the same patch level, removing the
     # performance differences when spectre mitigations are in place.
     "kernel.x86.disable_spec_mitigations=true",
   ]
 }

 kernel_cmdline("gce") {
   args = [ "kernel.serial=legacy" ]
 }

 kernel_cmdline("as370") {
   args = [ "kernel.bypass-debuglog=true" ]
 }

 kernel_cmdline("vim3") {
   deps = [ ":pmm-checker-from-board" ]
   args = [
     # Prefer using the built-in NIC to the CDC-ether interface.
     "netsvc.interface=/dev/dwmac/dwmac/Designware-MAC/ethernet",
   ]
 }

 kernel_cmdline("chromebook-x64") {
   deps = [ ":pmm-checker-from-board" ]
   args = [
     # Depthcharge will fill this in.
     "zvb.boot-partition-uuid=%U",
   ]
 }

 # Copy from vim3
 kernel_cmdline("av400") {
   deps = [ ":pmm-checker-from-board" ]
   args = [
     # Prefer using the built-in NIC to the CDC-ether interface.
     "netsvc.interface=/dev/dwmac/dwmac/Designware-MAC/ethernet",
   ]
 }
	# Copyright 2020 The Fuchsia Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import("//build/zbi/kernel_cmdline.gni")

	# This serves as an anchor point. By expressing a dependency on
	# //boards/kernel_cmdline, build arguments declared in this file
	# (e.g. pmm_checker_from_board) are brought into scope.
	group("kernel_cmdline") {
	}

	kernel_cmdline("serial-legacy") {
	args = [ "kernel.serial=legacy" ]
	deps = [ "//build/validate:non_production_tag" ]
	}

	kernel_cmdline("disable-blobfs-compression") {
	args = [ "blobfs.write-compression-algorithm=UNCOMPRESSED" ]
	deps = [ "//build/validate:non_production_tag" ]
	}

	kernel_cmdline("pmm-checker") {
	args = [
	# Enable PMM checker to detect certain kinds of buffer overrun and
	# use-after-free bugs.
	"kernel.pmm-checker.enable=true",

	# Use a small fill size to minimize performance impact. In practice,
	# corruption tends to happen at the start of a page so filling/checking only
	# the first 16 bytes provides decent coverage without sacrificing
	# performance.
	"kernel.pmm-checker.fill-size=16",
	]
	}

	declare_args() {
	# Used to control whether board definitions include PMM checker options.
	pmm_checker_from_board = true
	}

	group("pmm-checker-from-board") {
	if (pmm_checker_from_board) {
	deps = [ ":pmm-checker" ]
	}
	}

	kernel_cmdline("toulouse") {
	args = [
	# Fuchsia does not have a deterministic ordering for bringing up PCI devices, so the
	# /dev/class/ethernet/xxx paths have no well-defined mapping to the ports on the front of the
	# device.
	# In order for netbooting and loglistener to work, we need to let netsvc know which path corresponds
	# to the left-most ethernet port.
	"kernel.serial=legacy",
	"netsvc.interface=/dev/sys/platform/pci/00:1f.6/e1000/ethernet",
	]
	}

	# This collects settings not specific to any particular machine that are
	# recommended to minimize unintended effects on timing data. Note that this
	# does not (as yet) include settings that may reduce overall performance, which
	# x64-reduced-perf-variation (below) does (see x64-reduced-perf-variation.gni).
	group("reduced-perf-variation") {
	deps = [
	":disable-page-scanner",
	":quiet-early-boot",
	]
	}

	# This collects settings not specific to any particular machine that are
	# recommended to make the system's performance highly representative of a
	# production setup.
	group("perf-realistic") {
	deps = [ ":quiet-early-boot" ]
	}

	kernel_cmdline("quiet-early-boot") {
	args = [
	# Disable serial console printing during early boot, a phase during which
	# UART communication is single-threaded and synchronous. In production,
	# the serial console will be disabled, and so early boot benchmarks that
	# include this work is sensibly avoided.
	"kernel.phys.verbose=false",
	]
	}

	kernel_cmdline("disable-page-scanner") {
	args = [
	# Disable page scanning in all its forms. Page scanning is intended to
	# provide a memory benefit to final systems, but the operation of the
	# scanner and its unpredictable de-duplication or eviction of memory in use
	# by benchmarks could cause noticeable variation.
	"kernel.page-scanner.start-at-boot=false",
	"kernel.page-scanner.zero-page-scans-per-second=0",
	"kernel.page-scanner.enable-eviction=false",
	]
	}

	kernel_cmdline("x64-reduced-perf-variation") {
	deps = [ ":reduced-perf-variation" ]
	args = [
	# Disable Intel Turbo Boost. Turbo Boost provides a significant speed-up to
	# many workloads, but — because CPU frequencies vary based on previous work,
	# work in other cores, system temperature, etc — makes performance of systems
	# less predictable. We prefer stability in our performance comparison
	# benchmarks.
	"kernel.x86.turbo=false",

	# Set the Intel HWP performance profile to be "stable", trying to keep the
	# CPU clock rate stable. With turbo boost disabled, this has only a small
	# effect, but helps ensure that wake ups from idle are fixed.
	"kernel.x86.hwp_policy=stable-performance",

	# Disable hyper-threading. Hyper-threading reduces predictability of
	# benchmarks, because the performance of a thread is significantly affected
	# by other threads on the core.
	"kernel.smp.ht=false",

	# Disable spectre mitigations. Spectre mitigations have significant
	# performance impact, but are currently only carried out on a subset of the
	# NUC fleet. This means that different devices have significantly different
	# performance characteristics, meaning that benchmark results vary
	# significantly based on the device running it.
	#
	# TODO(fxbug.dev/33161): Ideally, we should load microcode during Zircon boot,
	# which should bring all devices to the same patch level, removing the
	# performance differences when spectre mitigations are in place.
	"kernel.x86.disable_spec_mitigations=true",
	]
	}

	kernel_cmdline("gce") {
	args = [ "kernel.serial=legacy" ]
	}

	kernel_cmdline("as370") {
	args = [ "kernel.bypass-debuglog=true" ]
	}

	kernel_cmdline("vim3") {
	deps = [ ":pmm-checker-from-board" ]
	args = [
	# Prefer using the built-in NIC to the CDC-ether interface.
	"netsvc.interface=/dev/dwmac/dwmac/Designware-MAC/ethernet",
	]
	}

	kernel_cmdline("chromebook-x64") {
	deps = [ ":pmm-checker-from-board" ]
	args = [
	# Depthcharge will fill this in.
	"zvb.boot-partition-uuid=%U",
	]
	}

	# Copy from vim3
	kernel_cmdline("av400") {
	deps = [ ":pmm-checker-from-board" ]
	args = [
	# Prefer using the built-in NIC to the CDC-ether interface.
	"netsvc.interface=/dev/dwmac/dwmac/Designware-MAC/ethernet",
	]
	}