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# ARC options
# Copyright (c) 2014, 2019 Wind River Systems, Inc.
# SPDX-License-Identifier: Apache-2.0
menu "ARC Options"
depends on ARC
config ARCH
default "arc"
config CPU_ARCEM
bool
select ATOMIC_OPERATIONS_C
help
This option signifies the use of an ARC EM CPU
config CPU_ARCHS
bool
select ATOMIC_OPERATIONS_BUILTIN
help
This option signifies the use of an ARC HS CPU
choice
prompt "ARC Instruction Set"
default ISA_ARCV2
config ISA_ARCV2
bool "ARC ISA v2"
select ARCH_HAS_STACK_PROTECTION if ARC_HAS_STACK_CHECKING || (ARC_MPU && ARC_MPU_VER !=2)
select ARCH_HAS_USERSPACE if ARC_MPU
select ARCH_HAS_SINGLE_THREAD_SUPPORT if !SMP
select USE_SWITCH
select USE_SWITCH_SUPPORTED
help
v2 ISA for the ARC-HS & ARC-EM cores
config ISA_ARCV3
bool "ARC ISA v3"
select ARCH_HAS_SINGLE_THREAD_SUPPORT if !SMP
select USE_SWITCH
select USE_SWITCH_SUPPORTED
endchoice
if ISA_ARCV2
config CPU_EM4
bool
select CPU_ARCEM
help
If y, the SoC uses an ARC EM4 CPU
config CPU_EM4_DMIPS
bool
select CPU_ARCEM
help
If y, the SoC uses an ARC EM4 DMIPS CPU
config CPU_EM4_FPUS
bool
select CPU_ARCEM
help
If y, the SoC uses an ARC EM4 DMIPS CPU with the single-precision
floating-point extension
config CPU_EM4_FPUDA
bool
select CPU_ARCEM
help
If y, the SoC uses an ARC EM4 DMIPS CPU with single-precision
floating-point and double assist instructions
config CPU_EM6
bool
select CPU_ARCEM
select CPU_HAS_DCACHE
select CPU_HAS_ICACHE
help
If y, the SoC uses an ARC EM6 CPU
config CPU_HS3X
bool
select CPU_ARCHS
select CPU_HAS_DCACHE
select CPU_HAS_ICACHE
help
If y, the SoC uses an ARC HS3x or HS4x CPU
endif #ISA_ARCV2
if ISA_ARCV3
config CPU_HS5X
bool
select CPU_ARCHS
select CPU_HAS_DCACHE
select CPU_HAS_ICACHE
help
If y, the SoC uses an ARC HS6x CPU
config CPU_HS6X
bool
select CPU_ARCHS
select 64BIT
select CPU_HAS_DCACHE
select CPU_HAS_ICACHE
help
If y, the SoC uses an ARC HS6x CPU
endif #ISA_ARCV3
config FP_FPU_DA
bool
menu "ARC CPU Options"
config ARC_HAS_ZOL
bool
depends on ISA_ARCV2
default y
help
ARCv2 CPUs have ZOL hardware loop mechanism which the ARCv3 ISA drops.
Architecturally ZOL provides
- LPcc instruction
- LP_COUNT core reg
- LP_START, LP_END aux regs
Disabling this option removes usage of ZOL regs from code
config NUM_IRQ_PRIO_LEVELS
int "Number of supported interrupt priority levels"
range 1 16
help
Interrupt priorities available will be 0 to NUM_IRQ_PRIO_LEVELS-1.
The minimum value is 1.
The BSP must provide a valid default for proper operation.
config NUM_IRQS
int "Upper limit of interrupt numbers/IDs used"
range 17 256
help
Interrupts available will be 0 to NUM_IRQS-1.
The minimum value is 17 as the first 16 entries in the vector
table are for CPU exceptions.
The BSP must provide a valid default. This drives the size of the
vector table.
config RGF_NUM_BANKS
int "Number of General Purpose Register Banks"
depends on ARC_FIRQ
depends on NUM_IRQ_PRIO_LEVELS > 1
range 1 2
default 2
help
The ARC CPU can be configured to have more than one register
bank. If fast interrupts are supported (FIRQ), the 2nd
register bank, in the set, will be used by FIRQ interrupts.
If fast interrupts are supported but there is only 1
register bank, the fast interrupt handler must save
and restore general purpose registers.
NOTE: it's required to have more than one interrupt priority level
to use second register bank - otherwise all interrupts will use
same register bank. Such configuration isn't supported in software
and it is not beneficial from the performance point of view.
config ARC_FIRQ
bool "FIRQ enable"
depends on ISA_ARCV2
depends on NUM_IRQ_PRIO_LEVELS > 1
depends on !ARC_HAS_SECURE
default y
help
Fast interrupts are supported (FIRQ). If FIRQ enabled, for interrupts
with highest priority, status32 and pc will be saved in aux regs,
other regs will be saved according to the number of register bank;
If FIRQ is disabled, the handle of interrupts with highest priority
will be same with other interrupts.
NOTE: we don't allow the configuration with FIRQ enabled and only one
interrupt priority level (so all interrupts are FIRQ). Such
configuration isn't supported in software and it is not beneficial
from the performance point of view.
config ARC_FIRQ_STACK
bool "Separate firq stack"
depends on ARC_FIRQ && RGF_NUM_BANKS > 1
help
Use separate stack for FIRQ handing. When the fast irq is also a direct
irq, this will get the minimal interrupt latency.
config ARC_FIRQ_STACK_SIZE
int "FIRQ stack size"
depends on ARC_FIRQ_STACK
default 1024
help
The size of firq stack.
config ARC_HAS_STACK_CHECKING
bool "ARC has STACK_CHECKING"
depends on ISA_ARCV2
default y
help
ARC is configured with STACK_CHECKING which is a mechanism for
checking stack accesses and raising an exception when a stack
overflow or underflow is detected.
config ARC_CONNECT
bool "ARC has ARC connect"
select SCHED_IPI_SUPPORTED
help
ARC is configured with ARC CONNECT which is a hardware for connecting
multi cores.
config ARC_STACK_CHECKING
bool
select NO_UNUSED_STACK_INSPECTION
help
Use ARC STACK_CHECKING to do stack protection
config ARC_STACK_PROTECTION
bool
default y if HW_STACK_PROTECTION
select ARC_STACK_CHECKING if ARC_HAS_STACK_CHECKING
select MPU_STACK_GUARD if (!ARC_STACK_CHECKING && ARC_MPU && ARC_MPU_VER !=2)
select THREAD_STACK_INFO
help
This option enables either:
- The ARC stack checking, or
- the MPU-based stack guard
to cause a system fatal error
if the bounds of the current process stack are overflowed.
The two stack guard options are mutually exclusive. The
selection of the ARC stack checking is
prioritized over the MPU-based stack guard.
config ARC_USE_UNALIGNED_MEM_ACCESS
bool "Unaligned access in HW"
default y if CPU_ARCHS
depends on (CPU_ARCEM && !ARC_HAS_SECURE) || CPU_ARCHS
help
ARC EM cores w/o secure shield 2+2 mode support might be configured
to support unaligned memory access which is then disabled by default.
Enable unaligned access in hardware and make software to use it.
config FAULT_DUMP
int "Fault dump level"
default 2
range 0 2
help
Different levels for display information when a fault occurs.
2: The default. Display specific and verbose information. Consumes
the most memory (long strings).
1: Display general and short information. Consumes less memory
(short strings).
0: Off.
config GEN_ISR_TABLES
default y
config GEN_IRQ_START_VECTOR
default 16
config HARVARD
bool "Harvard Architecture"
help
The ARC CPU can be configured to have two busses;
one for instruction fetching and another that serves as a data bus.
config CODE_DENSITY
bool "Code Density Option"
help
Enable code density option to get better code density
config ARC_HAS_ACCL_REGS
bool "Reg Pair ACCL:ACCH (FPU and/or MPY > 6)"
default y if CPU_HS3X || CPU_HS5X || CPU_HS6X
help
Depending on the configuration, CPU can contain accumulator reg-pair
(also referred to as r58:r59). These can also be used by gcc as GPR so
kernel needs to save/restore per process
config ARC_HAS_SECURE
bool "ARC has SecureShield"
depends on ISA_ARCV2
select CPU_HAS_TEE
select ARCH_HAS_TRUSTED_EXECUTION
help
This option is enabled when ARC core supports secure mode
config SJLI_TABLE_SIZE
int "SJLI table size"
depends on ARC_SECURE_FIRMWARE
default 8
help
The size of sjli (Secure Jump and Link Indexed) table. The
code in normal mode call secure services in secure mode through
sjli instruction.
config ARC_SECURE_FIRMWARE
bool "Generate Secure Firmware"
depends on ARC_HAS_SECURE
default y if TRUSTED_EXECUTION_SECURE
help
This option indicates that we are building a Zephyr image that
is intended to execute in secure mode. The option is only
applicable to ARC processors that implement the SecureShield.
This option enables Zephyr to include code that executes in
secure mode, as well as to exclude code that is designed to
execute only in normal mode.
Code executing in secure mode has access to both the secure
and normal resources of the ARC processors.
config ARC_NORMAL_FIRMWARE
bool "Generate Normal Firmware"
depends on !ARC_SECURE_FIRMWARE
depends on ARC_HAS_SECURE
default y if TRUSTED_EXECUTION_NONSECURE
help
This option indicates that we are building a Zephyr image that
is intended to execute in normal mode. Execution of this
image is triggered by secure firmware that executes in secure
mode. The option is only applicable to ARC processors that
implement the SecureShield.
This option enables Zephyr to include code that executes in
normal mode only, as well as to exclude code that is
designed to execute only in secure mode.
Code executing in normal mode has no access to secure
resources of the ARC processors, and, therefore, it shall avoid
accessing them.
menu "ARC MPU Options"
depends on CPU_HAS_MPU
config ARC_MPU_ENABLE
bool "Memory Protection Unit (MPU)"
select ARC_MPU
help
Enable MPU
source "arch/arc/core/mpu/Kconfig"
endmenu
config DCACHE_LINE_SIZE
default 32
config ARC_EXCEPTION_STACK_SIZE
int "ARC exception handling stack size"
default 768 if !64BIT
default 2048 if 64BIT
help
Size in bytes of exception handling stack which is at the top of
interrupt stack to get smaller memory footprint because exception
is not frequent. To reduce the impact on interrupt handling,
especially nested interrupt, it cannot be too large.
endmenu
config ARC_EXCEPTION_DEBUG
bool "Unhandled exception debugging information"
default n
depends on PRINTK || LOG
help
Print human-readable information about exception vectors, cause codes,
and parameters, at a cost of code/data size for the human-readable
strings.
endmenu
config MAIN_STACK_SIZE
default 4096 if 64BIT
config ISR_STACK_SIZE
default 4096 if 64BIT
config SYSTEM_WORKQUEUE_STACK_SIZE
default 4096 if 64BIT
config IDLE_STACK_SIZE
default 1024 if 64BIT
config IPM_CONSOLE_STACK_SIZE
default 2048 if 64BIT
config TEST_EXTRA_STACK_SIZE
default 2048 if 64BIT
config CMSIS_THREAD_MAX_STACK_SIZE
default 2048 if 64BIT
config CMSIS_V2_THREAD_MAX_STACK_SIZE
default 2048 if 64BIT
config CMSIS_V2_THREAD_DYNAMIC_STACK_SIZE
default 2048 if 64BIT