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5ee121a393
Andrew Jones <ajones@ventanamicro.com> says:
Zawrs provides two instructions (wrs.nto and wrs.sto), where both are
meant to allow the hart to enter a low-power state while waiting on a
store to a memory location. The instructions also both wait an
implementation-defined "short" duration (unless the implementation
terminates the stall for another reason). The difference is that while
wrs.sto will terminate when the duration elapses, wrs.nto, depending on
configuration, will either just keep waiting or an ILL exception will be
raised. Linux will use wrs.nto, so if platforms have an implementation
which falls in the "just keep waiting" category (which is not expected),
then it should _not_ advertise Zawrs in the hardware description.
Like wfi (and with the same {m,h}status bits to configure it), when
wrs.nto is configured to raise exceptions it's expected that the higher
privilege level will see the instruction was a wait instruction, do
something, and then resume execution following the instruction. For
example, KVM does configure exceptions for wfi (hstatus.VTW=1) and
therefore also for wrs.nto. KVM does this for wfi since it's better to
allow other tasks to be scheduled while a VCPU waits for an interrupt.
For waits such as those where wrs.nto/sto would be used, which are
typically locks, it is also a good idea for KVM to be involved, as it
can attempt to schedule the lock holding VCPU.
This series starts with Christoph's addition of the riscv
smp_cond_load_relaxed function which applies wrs.sto when available.
That patch has been reworked to use wrs.nto and to use the same approach
as Arm for the wait loop, since we can't have arbitrary C code between
the load-reserved and the wrs. Then, hwprobe support is added (since the
instructions are also usable from usermode), and finally KVM is
taught about wrs.nto, allowing guests to see and use the Zawrs
extension.
We still don't have test results from hardware, and it's not possible to
prove that using Zawrs is a win when testing on QEMU, not even when
oversubscribing VCPUs to guests. However, it is possible to use KVM
selftests to force a scenario where we can prove Zawrs does its job and
does it well. [4] is a test which does this and, on my machine, without
Zawrs it takes 16 seconds to complete and with Zawrs it takes 0.25
seconds.
This series is also available here [1]. In order to use QEMU for testing
a build with [2] is needed. In order to enable guests to use Zawrs with
KVM using kvmtool, the branch at [3] may be used.
[1] https://github.com/jones-drew/linux/commits/riscv/zawrs-v3/
[2] https://lore.kernel.org/all/20240312152901.512001-2-ajones@ventanamicro.com/
[3] https://github.com/jones-drew/kvmtool/commits/riscv/zawrs/
[4] cb2beccebc
Link: https://lore.kernel.org/r/20240426100820.14762-8-ajones@ventanamicro.com
* b4-shazam-merge:
KVM: riscv: selftests: Add Zawrs extension to get-reg-list test
KVM: riscv: Support guest wrs.nto
riscv: hwprobe: export Zawrs ISA extension
riscv: Add Zawrs support for spinlocks
dt-bindings: riscv: Add Zawrs ISA extension description
riscv: Provide a definition for 'pause'
Signed-off-by: Palmer Dabbelt <palmer@rivosinc.com>
236 lines
7.9 KiB
Makefile
236 lines
7.9 KiB
Makefile
# This file is included by the global makefile so that you can add your own
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# architecture-specific flags and dependencies.
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#
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# This file is subject to the terms and conditions of the GNU General Public
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# License. See the file "COPYING" in the main directory of this archive
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# for more details.
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#
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LDFLAGS_vmlinux := -z norelro
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ifeq ($(CONFIG_RELOCATABLE),y)
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LDFLAGS_vmlinux += -shared -Bsymbolic -z notext --emit-relocs
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KBUILD_CFLAGS += -fPIE
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endif
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ifeq ($(CONFIG_DYNAMIC_FTRACE),y)
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LDFLAGS_vmlinux += --no-relax
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KBUILD_CPPFLAGS += -DCC_USING_PATCHABLE_FUNCTION_ENTRY
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ifeq ($(CONFIG_RISCV_ISA_C),y)
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CC_FLAGS_FTRACE := -fpatchable-function-entry=4
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else
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CC_FLAGS_FTRACE := -fpatchable-function-entry=2
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endif
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endif
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ifeq ($(CONFIG_CMODEL_MEDLOW),y)
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KBUILD_CFLAGS_MODULE += -mcmodel=medany
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endif
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export BITS
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ifeq ($(CONFIG_ARCH_RV64I),y)
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BITS := 64
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UTS_MACHINE := riscv64
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KBUILD_CFLAGS += -mabi=lp64
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KBUILD_AFLAGS += -mabi=lp64
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KBUILD_LDFLAGS += -melf64lriscv
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KBUILD_RUSTFLAGS += -Ctarget-cpu=generic-rv64 --target=riscv64imac-unknown-none-elf \
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-Cno-redzone
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else
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BITS := 32
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UTS_MACHINE := riscv32
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KBUILD_CFLAGS += -mabi=ilp32
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KBUILD_AFLAGS += -mabi=ilp32
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KBUILD_LDFLAGS += -melf32lriscv
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endif
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ifndef CONFIG_RISCV_USE_LINKER_RELAXATION
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KBUILD_CFLAGS += -mno-relax
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KBUILD_AFLAGS += -mno-relax
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ifndef CONFIG_AS_IS_LLVM
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KBUILD_CFLAGS += -Wa,-mno-relax
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KBUILD_AFLAGS += -Wa,-mno-relax
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endif
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# LLVM has an issue with target-features and LTO: https://github.com/llvm/llvm-project/issues/59350
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# Ensure it is aware of linker relaxation with LTO, otherwise relocations may
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# be incorrect: https://github.com/llvm/llvm-project/issues/65090
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else ifeq ($(CONFIG_LTO_CLANG),y)
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KBUILD_LDFLAGS += -mllvm -mattr=+c -mllvm -mattr=+relax
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endif
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ifeq ($(CONFIG_SHADOW_CALL_STACK),y)
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KBUILD_LDFLAGS += --no-relax-gp
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endif
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# ISA string setting
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riscv-march-$(CONFIG_ARCH_RV32I) := rv32ima
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riscv-march-$(CONFIG_ARCH_RV64I) := rv64ima
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riscv-march-$(CONFIG_FPU) := $(riscv-march-y)fd
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riscv-march-$(CONFIG_RISCV_ISA_C) := $(riscv-march-y)c
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riscv-march-$(CONFIG_RISCV_ISA_V) := $(riscv-march-y)v
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ifneq ($(CONFIG_RISCV_ISA_C),y)
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KBUILD_RUSTFLAGS += -Ctarget-feature=-c
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endif
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ifdef CONFIG_TOOLCHAIN_NEEDS_OLD_ISA_SPEC
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KBUILD_CFLAGS += -Wa,-misa-spec=2.2
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KBUILD_AFLAGS += -Wa,-misa-spec=2.2
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else
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riscv-march-$(CONFIG_TOOLCHAIN_NEEDS_EXPLICIT_ZICSR_ZIFENCEI) := $(riscv-march-y)_zicsr_zifencei
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endif
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# Remove F,D,V from isa string for all. Keep extensions between "fd" and "v" by
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# matching non-v and non-multi-letter extensions out with the filter ([^v_]*)
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KBUILD_CFLAGS += -march=$(shell echo $(riscv-march-y) | sed -E 's/(rv32ima|rv64ima)fd([^v_]*)v?/\1\2/')
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KBUILD_AFLAGS += -march=$(riscv-march-y)
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# For C code built with floating-point support, exclude V but keep F and D.
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CC_FLAGS_FPU := -march=$(shell echo $(riscv-march-y) | sed -E 's/(rv32ima|rv64ima)([^v_]*)v?/\1\2/')
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KBUILD_CFLAGS += -mno-save-restore
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KBUILD_CFLAGS += -DCONFIG_PAGE_OFFSET=$(CONFIG_PAGE_OFFSET)
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ifeq ($(CONFIG_CMODEL_MEDLOW),y)
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KBUILD_CFLAGS += -mcmodel=medlow
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endif
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ifeq ($(CONFIG_CMODEL_MEDANY),y)
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KBUILD_CFLAGS += -mcmodel=medany
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endif
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# Avoid generating .eh_frame sections.
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KBUILD_CFLAGS += -fno-asynchronous-unwind-tables -fno-unwind-tables
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# The RISC-V attributes frequently cause compatibility issues and provide no
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# information, so just turn them off.
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KBUILD_CFLAGS += $(call cc-option,-mno-riscv-attribute)
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KBUILD_AFLAGS += $(call cc-option,-mno-riscv-attribute)
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KBUILD_CFLAGS += $(call as-option,-Wa$(comma)-mno-arch-attr)
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KBUILD_AFLAGS += $(call as-option,-Wa$(comma)-mno-arch-attr)
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KBUILD_CFLAGS_MODULE += $(call cc-option,-mno-relax)
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KBUILD_AFLAGS_MODULE += $(call as-option,-Wa$(comma)-mno-relax)
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# GCC versions that support the "-mstrict-align" option default to allowing
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# unaligned accesses. While unaligned accesses are explicitly allowed in the
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# RISC-V ISA, they're emulated by machine mode traps on all extant
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# architectures. It's faster to have GCC emit only aligned accesses.
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ifneq ($(CONFIG_HAVE_EFFICIENT_UNALIGNED_ACCESS),y)
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KBUILD_CFLAGS += $(call cc-option,-mstrict-align)
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endif
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ifeq ($(CONFIG_STACKPROTECTOR_PER_TASK),y)
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prepare: stack_protector_prepare
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stack_protector_prepare: prepare0
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$(eval KBUILD_CFLAGS += -mstack-protector-guard=tls \
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-mstack-protector-guard-reg=tp \
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-mstack-protector-guard-offset=$(shell \
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awk '{if ($$2 == "TSK_STACK_CANARY") print $$3;}' \
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include/generated/asm-offsets.h))
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endif
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# arch specific predefines for sparse
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CHECKFLAGS += -D__riscv -D__riscv_xlen=$(BITS)
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# Default target when executing plain make
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boot := arch/riscv/boot
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ifeq ($(CONFIG_XIP_KERNEL),y)
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KBUILD_IMAGE := $(boot)/xipImage
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else
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ifeq ($(CONFIG_RISCV_M_MODE)$(CONFIG_SOC_CANAAN_K210),yy)
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KBUILD_IMAGE := $(boot)/loader.bin
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else
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ifeq ($(CONFIG_EFI_ZBOOT),)
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KBUILD_IMAGE := $(boot)/Image.gz
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else
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KBUILD_IMAGE := $(boot)/vmlinuz.efi
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endif
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endif
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endif
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boot := arch/riscv/boot
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boot-image-y := Image
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boot-image-$(CONFIG_KERNEL_BZIP2) := Image.bz2
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boot-image-$(CONFIG_KERNEL_GZIP) := Image.gz
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boot-image-$(CONFIG_KERNEL_LZ4) := Image.lz4
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boot-image-$(CONFIG_KERNEL_LZMA) := Image.lzma
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boot-image-$(CONFIG_KERNEL_LZO) := Image.lzo
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boot-image-$(CONFIG_KERNEL_ZSTD) := Image.zst
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ifdef CONFIG_RISCV_M_MODE
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boot-image-$(CONFIG_ARCH_CANAAN) := loader.bin
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endif
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boot-image-$(CONFIG_EFI_ZBOOT) := vmlinuz.efi
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boot-image-$(CONFIG_XIP_KERNEL) := xipImage
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KBUILD_IMAGE := $(boot)/$(boot-image-y)
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libs-y += arch/riscv/lib/
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libs-$(CONFIG_EFI_STUB) += $(objtree)/drivers/firmware/efi/libstub/lib.a
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ifeq ($(KBUILD_EXTMOD),)
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ifeq ($(CONFIG_MMU),y)
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prepare: vdso_prepare
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vdso_prepare: prepare0
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$(Q)$(MAKE) $(build)=arch/riscv/kernel/vdso include/generated/vdso-offsets.h
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$(if $(CONFIG_COMPAT),$(Q)$(MAKE) \
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$(build)=arch/riscv/kernel/compat_vdso include/generated/compat_vdso-offsets.h)
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endif
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endif
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vdso-install-y += arch/riscv/kernel/vdso/vdso.so.dbg
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vdso-install-$(CONFIG_COMPAT) += arch/riscv/kernel/compat_vdso/compat_vdso.so.dbg
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BOOT_TARGETS := Image Image.gz Image.bz2 Image.lz4 Image.lzma Image.lzo Image.zst loader loader.bin xipImage vmlinuz.efi
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all: $(notdir $(KBUILD_IMAGE))
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loader.bin: loader
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Image.gz Image.bz2 Image.lz4 Image.lzma Image.lzo Image.zst loader xipImage vmlinuz.efi: Image
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$(BOOT_TARGETS): vmlinux
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$(Q)$(MAKE) $(build)=$(boot) $(boot)/$@
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@$(kecho) ' Kernel: $(boot)/$@ is ready'
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# the install target always installs KBUILD_IMAGE (which may be compressed)
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# but keep the zinstall target for compatibility with older releases
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install zinstall:
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$(call cmd,install)
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PHONY += rv32_randconfig
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rv32_randconfig:
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$(Q)$(MAKE) KCONFIG_ALLCONFIG=$(srctree)/arch/riscv/configs/32-bit.config \
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-f $(srctree)/Makefile randconfig
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PHONY += rv64_randconfig
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rv64_randconfig:
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$(Q)$(MAKE) KCONFIG_ALLCONFIG=$(srctree)/arch/riscv/configs/64-bit.config \
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-f $(srctree)/Makefile randconfig
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PHONY += rv32_defconfig
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rv32_defconfig:
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$(Q)$(MAKE) -f $(srctree)/Makefile defconfig 32-bit.config
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PHONY += rv32_nommu_virt_defconfig
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rv32_nommu_virt_defconfig:
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$(Q)$(MAKE) -f $(srctree)/Makefile nommu_virt_defconfig 32-bit.config
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define archhelp
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echo ' Image - Uncompressed kernel image (arch/riscv/boot/Image)'
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echo ' Image.gz - Compressed kernel image (arch/riscv/boot/Image.gz)'
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echo ' Image.bz2 - Compressed kernel image (arch/riscv/boot/Image.bz2)'
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echo ' Image.lz4 - Compressed kernel image (arch/riscv/boot/Image.lz4)'
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echo ' Image.lzma - Compressed kernel image (arch/riscv/boot/Image.lzma)'
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echo ' Image.lzo - Compressed kernel image (arch/riscv/boot/Image.lzo)'
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echo ' Image.zst - Compressed kernel image (arch/riscv/boot/Image.zst)'
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echo ' vmlinuz.efi - Compressed EFI kernel image (arch/riscv/boot/vmlinuz.efi)'
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echo ' Default when CONFIG_EFI_ZBOOT=y'
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echo ' xipImage - Execute-in-place kernel image (arch/riscv/boot/xipImage)'
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echo ' Default when CONFIG_XIP_KERNEL=y'
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echo ' install - Install kernel using (your) ~/bin/$(INSTALLKERNEL) or'
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echo ' (distribution) /sbin/$(INSTALLKERNEL) or install to '
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echo ' $$(INSTALL_PATH)'
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endef
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