237 lines
7.4 KiB
C
237 lines
7.4 KiB
C
/*
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* Copyright (c) 2010-2012, 2014-2015 Wind River Systems, Inc.
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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/**
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* @file
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* @brief Architecture-independent private kernel APIs
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*
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* This file contains private kernel APIs that are not architecture-specific.
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*/
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#ifndef ZEPHYR_KERNEL_INCLUDE_KERNEL_INTERNAL_H_
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#define ZEPHYR_KERNEL_INCLUDE_KERNEL_INTERNAL_H_
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#include <kernel.h>
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#include <stdbool.h>
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#ifndef _ASMLANGUAGE
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#ifdef __cplusplus
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extern "C" {
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#endif
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/* Early boot functions */
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void _bss_zero(void);
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#ifdef CONFIG_XIP
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void _data_copy(void);
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#else
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static inline void _data_copy(void)
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{
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/* Do nothing */
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}
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#endif
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FUNC_NORETURN void _Cstart(void);
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extern FUNC_NORETURN void _thread_entry(k_thread_entry_t entry,
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void *p1, void *p2, void *p3);
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/* Implemented by architectures. Only called from _setup_new_thread. */
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extern void _new_thread(struct k_thread *thread, k_thread_stack_t *pStack,
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size_t stackSize, k_thread_entry_t entry,
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void *p1, void *p2, void *p3,
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int prio, unsigned int options);
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extern void _setup_new_thread(struct k_thread *new_thread,
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k_thread_stack_t *stack, size_t stack_size,
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k_thread_entry_t entry,
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void *p1, void *p2, void *p3,
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int prio, u32_t options, const char *name);
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#ifdef CONFIG_USERSPACE
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/**
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* @brief Get the maximum number of partitions for a memory domain
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*
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* A memory domain is a container data structure containing some number of
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* memory partitions, where each partition represents a memory range with
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* access policies.
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*
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* MMU-based systems don't have a limit here, but MPU-based systems will
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* have an upper bound on how many different regions they can manage
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* simultaneously.
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*
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* @return Max number of free regions, or -1 if there is no limit
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*/
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extern int _arch_mem_domain_max_partitions_get(void);
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/**
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* @brief Configure the memory domain of the thread.
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*
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* A memory domain is a container data structure containing some number of
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* memory partitions, where each partition represents a memory range with
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* access policies. This api will configure the appropriate hardware
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* registers to make it work.
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*
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* @param thread Thread which needs to be configured.
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*/
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extern void _arch_mem_domain_configure(struct k_thread *thread);
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/**
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* @brief Remove a partition from the memory domain
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*
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* A memory domain contains multiple partitions and this API provides the
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* freedom to remove a particular partition while keeping others intact.
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* This API will handle any arch/HW specific changes that needs to be done.
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*
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* @param domain The memory domain structure
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* @param partition_id The partition that needs to be deleted
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*/
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extern void _arch_mem_domain_partition_remove(struct k_mem_domain *domain,
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u32_t partition_id);
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/**
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* @brief Remove the memory domain
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*
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* A memory domain contains multiple partitions and this API will traverse
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* all these to reset them back to default setting.
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* This API will handle any arch/HW specific changes that needs to be done.
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*
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* @param domain The memory domain structure which needs to be deleted.
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*/
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extern void _arch_mem_domain_destroy(struct k_mem_domain *domain);
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#endif
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#ifdef CONFIG_USERSPACE
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/**
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* @brief Check memory region permissions
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*
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* Given a memory region, return whether the current memory management hardware
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* configuration would allow a user thread to read/write that region. Used by
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* system calls to validate buffers coming in from userspace.
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*
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* @param addr start address of the buffer
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* @param size the size of the buffer
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* @param write If nonzero, additionally check if the area is writable.
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* Otherwise, just check if the memory can be read.
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*
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* @return nonzero if the permissions don't match.
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*/
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extern int _arch_buffer_validate(void *addr, size_t size, int write);
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/**
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* Perform a one-way transition from supervisor to kernel mode.
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*
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* Implementations of this function must do the following:
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* - Reset the thread's stack pointer to a suitable initial value. We do not
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* need any prior context since this is a one-way operation.
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* - Set up any kernel stack region for the CPU to use during privilege
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* elevation
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* - Put the CPU in whatever its equivalent of user mode is
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* - Transfer execution to _new_thread() passing along all the supplied
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* arguments, in user mode.
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*
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* @param Entry point to start executing as a user thread
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* @param p1 1st parameter to user thread
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* @param p2 2nd parameter to user thread
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* @param p3 3rd parameter to user thread
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*/
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extern FUNC_NORETURN
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void _arch_user_mode_enter(k_thread_entry_t user_entry, void *p1, void *p2,
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void *p3);
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/**
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* @brief Induce a kernel oops that appears to come from a specific location
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*
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* Normally, k_oops() generates an exception that appears to come from the
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* call site of the k_oops() itself.
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*
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* However, when validating arguments to a system call, if there are problems
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* we want the oops to appear to come from where the system call was invoked
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* and not inside the validation function.
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*
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* @param ssf System call stack frame pointer. This gets passed as an argument
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* to _k_syscall_handler_t functions and its contents are completely
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* architecture specific.
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*/
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extern FUNC_NORETURN void _arch_syscall_oops(void *ssf);
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/**
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* @brief Safely take the length of a potentially bad string
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*
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* This must not fault, instead the err parameter must have -1 written to it.
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* This function otherwise should work exactly like libc strnlen(). On success
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* *err should be set to 0.
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*
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* @param s String to measure
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* @param maxlen Max length of the string
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* @param err Error value to write
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* @return Length of the string, not counting NULL byte, up to maxsize
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*/
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extern size_t z_arch_user_string_nlen(const char *s, size_t maxsize, int *err);
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#endif /* CONFIG_USERSPACE */
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/**
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* @brief Allocate some memory from the current thread's resource pool
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*
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* Threads may be assigned a resource pool, which will be used to allocate
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* memory on behalf of certain kernel and driver APIs. Memory reserved
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* in this way should be freed with k_free().
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*
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* @param size Memory allocation size
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* @return A pointer to the allocated memory, or NULL if there is insufficient
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* RAM in the pool or the thread has no resource pool assigned
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*/
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void *z_thread_malloc(size_t size);
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/* set and clear essential thread flag */
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extern void _thread_essential_set(void);
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extern void _thread_essential_clear(void);
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/* clean up when a thread is aborted */
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#if defined(CONFIG_THREAD_MONITOR)
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extern void _thread_monitor_exit(struct k_thread *thread);
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#else
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#define _thread_monitor_exit(thread) \
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do {/* nothing */ \
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} while (false)
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#endif /* CONFIG_THREAD_MONITOR */
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extern void smp_init(void);
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extern void smp_timer_init(void);
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#ifdef CONFIG_NEWLIB_LIBC
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/**
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* @brief Fetch dimentions of newlib heap area for _sbrk()
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*
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* This memory region is used for heap allocations by the newlib C library.
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* If user threads need to have access to this, the results returned can be
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* used to program memory protection hardware appropriately.
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*
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* @param base Pointer to void pointer, filled in with the heap starting
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* address
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* @param size Pointer to a size_y, filled in with the maximum heap size
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*/
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extern void z_newlib_get_heap_bounds(void **base, size_t *size);
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#endif
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extern u32_t z_early_boot_rand32_get(void);
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#if CONFIG_STACK_POINTER_RANDOM
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extern int z_stack_adjust_initialized;
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#endif
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#ifdef __cplusplus
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}
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#endif
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#endif /* _ASMLANGUAGE */
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#endif /* ZEPHYR_KERNEL_INCLUDE_KERNEL_INTERNAL_H_ */
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