358 lines
9.2 KiB
C
358 lines
9.2 KiB
C
/*
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* Copyright (c) 2010-2014 Wind River Systems, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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/**
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* @file
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* @brief Nanokernel initialization module
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*
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* This module contains routines that are used to initialize the nanokernel.
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*/
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#include <offsets.h>
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#include <nanokernel.h>
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#include <misc/printk.h>
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#include <drivers/rand32.h>
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#include <sections.h>
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#include <toolchain.h>
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#include <nano_private.h>
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#include <device.h>
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#include <init.h>
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#include <linker-defs.h>
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/* kernel build timestamp items */
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#define BUILD_TIMESTAMP "BUILD: " __DATE__ " " __TIME__
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#ifdef CONFIG_BUILD_TIMESTAMP
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const char * const build_timestamp = BUILD_TIMESTAMP;
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#endif
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/* boot banner items */
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#define BOOT_BANNER "BOOTING ZEPHYR OS"
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#if !defined(CONFIG_BOOT_BANNER)
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#define PRINT_BOOT_BANNER() do { } while (0)
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#elif !defined(CONFIG_BUILD_TIMESTAMP)
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#define PRINT_BOOT_BANNER() printk("***** " BOOT_BANNER " *****\n")
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#else
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#define PRINT_BOOT_BANNER() printk("***** " BOOT_BANNER " - %s *****\n", build_timestamp)
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#endif
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/* boot time measurement items */
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#ifdef CONFIG_BOOT_TIME_MEASUREMENT
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uint64_t __noinit __start_tsc; /* timestamp when kernel starts */
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uint64_t __noinit __main_tsc; /* timestamp when main task starts */
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uint64_t __noinit __idle_tsc; /* timestamp when CPU goes idle */
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#endif
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/* random number generator items */
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#if defined(CONFIG_TEST_RANDOM_GENERATOR) || \
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defined(CONFIG_CUSTOM_RANDOM_GENERATOR)
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#define RAND32_INIT() sys_rand32_init()
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#else
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#define RAND32_INIT()
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#endif
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/* stack space for the background (or idle) task */
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#if CONFIG_MAIN_STACK_SIZE & (STACK_ALIGN - 1)
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#error "MAIN_STACK_SIZE must be a multiple of the stack alignment"
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#endif
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char __noinit __stack main_task_stack[CONFIG_MAIN_STACK_SIZE];
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/*
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* storage space for the interrupt stack
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*
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* Note: This area is used as the system stack during nanokernel initialization,
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* since the nanokernel hasn't yet set up its own stack areas. The dual
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* purposing of this area is safe since interrupts are disabled until the
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* nanokernel context switches to the background (or idle) task.
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*/
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#if CONFIG_ISR_STACK_SIZE & (STACK_ALIGN - 1)
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#error "ISR_STACK_SIZE must be a multiple of the stack alignment"
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#endif
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char __noinit __stack _interrupt_stack[CONFIG_ISR_STACK_SIZE];
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#if defined(CONFIG_NANO_TIMEOUTS) || defined(CONFIG_NANO_TIMERS)
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#include <misc/dlist.h>
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#define initialize_nano_timeouts() do { \
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sys_dlist_init(&_nanokernel.timeout_q); \
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_nanokernel.task_timeout = TICKS_UNLIMITED; \
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} while ((0))
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#else
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#define initialize_nano_timeouts() do { } while ((0))
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#endif
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#ifdef CONFIG_NANOKERNEL
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#define MICROKERNEL_IDLE_TASK_PTR (NULL)
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/**
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*
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* @brief Mainline for nanokernel's background task
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*
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* This routine completes kernel initialization by invoking the remaining
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* init functions, then invokes application's main() routine.
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*
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* @return N/A
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*/
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static void _main(void)
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{
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_sys_device_do_config_level(_SYS_INIT_LEVEL_SECONDARY);
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_sys_device_do_config_level(_SYS_INIT_LEVEL_NANOKERNEL);
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_sys_device_do_config_level(_SYS_INIT_LEVEL_APPLICATION);
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#ifdef CONFIG_CPLUSPLUS
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/* Process the .ctors and .init_array sections */
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extern void __do_global_ctors_aux(void);
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extern void __do_init_array_aux(void);
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__do_global_ctors_aux();
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__do_init_array_aux();
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#endif
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extern void main(void);
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main();
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}
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#else
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typedef int32_t ktask_t; /* Must match definition in base_api.h */
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extern ktask_t _k_task_ptr_idle _GENERIC_SECTION(_k_task_list);
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#define MICROKERNEL_IDLE_TASK_PTR ((void *) _k_task_ptr_idle)
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/* microkernel has its own implementation of _main() */
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extern void _main(void);
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#endif
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/**
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*
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* @brief Clear BSS
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*
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* This routine clears the BSS region, so all bytes are 0.
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*
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* @return N/A
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*/
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void _bss_zero(void)
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{
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uint32_t *pos = (uint32_t *)&__bss_start;
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for ( ; pos < (uint32_t *)&__bss_end; pos++) {
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*pos = 0;
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}
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}
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#ifdef CONFIG_XIP
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/**
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*
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* @brief Copy the data section from ROM to RAM
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*
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* This routine copies the data section from ROM to RAM.
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*
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* @return N/A
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*/
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void _data_copy(void)
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{
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uint32_t *pROM, *pRAM;
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pROM = (uint32_t *)&__data_rom_start;
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pRAM = (uint32_t *)&__data_ram_start;
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for ( ; pRAM < (uint32_t *)&__data_ram_end; pROM++, pRAM++) {
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*pRAM = *pROM;
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}
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}
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#endif
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/**
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*
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* @brief Initializes nanokernel data structures
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*
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* This routine initializes various nanokernel data structures, including
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* the background (or idle) task and any architecture-specific initialization.
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*
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* Note that all fields of "_nanokernel" are set to zero on entry, which may
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* be all the initialization many of them require.
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*
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* @return N/A
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*/
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static void nano_init(struct tcs *dummyOutContext)
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{
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/*
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* Initialize the current execution thread to permit a level of
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* debugging output if an exception should happen during nanokernel
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* initialization.
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* However, don't waste effort initializing the fields of the dummy
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* thread beyond those needed to identify it as a dummy thread.
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*/
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_nanokernel.current = dummyOutContext;
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/*
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* Do not insert dummy execution context in the list of fibers, so that
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* it does not get scheduled back in once context-switched out.
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*/
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dummyOutContext->link = (struct tcs *)NULL;
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dummyOutContext->flags = FIBER | ESSENTIAL;
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dummyOutContext->prio = 0;
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/*
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* The interrupt library needs to be initialized early since a series of
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* handlers are installed into the interrupt table to catch spurious
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* interrupts. This must be performed before other nanokernel subsystems
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* install bonafide handlers, or before hardware device drivers are
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* initialized.
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*/
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_IntLibInit();
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/*
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* Initialize the thread control block (TCS) for the main task (either
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* background or idle task). The entry point for this thread is '_main'.
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*/
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_nanokernel.task = (struct tcs *) main_task_stack;
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_new_thread(main_task_stack, /* pStackMem */
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CONFIG_MAIN_STACK_SIZE, /* stackSize */
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MICROKERNEL_IDLE_TASK_PTR, /* ptr to idle task */
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(_thread_entry_t)_main, /* pEntry */
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(_thread_arg_t)0, /* parameter1 */
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(_thread_arg_t)0, /* parameter2 */
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(_thread_arg_t)0, /* parameter3 */
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-1, /* priority */
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0 /* options */
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);
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/* indicate that failure of this task may be fatal to the entire
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* system
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*
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* Warning: _thread_essential_set() doesn't do the same thing. That
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* operates on _nanokernel.current, not _nanokernel.task ...
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*/
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_nanokernel.task->flags |= ESSENTIAL;
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initialize_nano_timeouts();
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/* perform any architecture-specific initialization */
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nanoArchInit();
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}
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#ifdef CONFIG_STACK_CANARIES
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/**
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*
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* @brief Initialize the kernel's stack canary
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*
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* This macro initializes the kernel's stack canary global variable,
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* __stack_chk_guard, with a random value.
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*
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* INTERNAL
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* Depending upon the compiler, modifying __stack_chk_guard directly at runtime
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* may generate a build error. In-line assembly is used as a workaround.
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*/
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extern void *__stack_chk_guard;
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#if defined(CONFIG_X86)
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#define _MOVE_INSTR "movl "
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#elif defined(CONFIG_ARM)
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#define _MOVE_INSTR "str "
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#elif defined(CONFIG_ARC)
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#define _MOVE_INSTR "st "
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#else
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#error "Unknown Architecture type"
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#endif /* CONFIG_X86 */
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#define STACK_CANARY_INIT() \
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do { \
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register void *tmp; \
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tmp = (void *)sys_rand32_get(); \
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__asm__ volatile(_MOVE_INSTR "%1, %0;\n\t" \
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: "=m"(__stack_chk_guard) \
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: "r"(tmp)); \
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} while (0)
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#else /* !CONFIG_STACK_CANARIES */
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#define STACK_CANARY_INIT()
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#endif /* CONFIG_STACK_CANARIES */
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/**
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*
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* @brief Initialize nanokernel
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*
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* This routine is invoked when the system is ready to run C code. The
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* processor must be running in 32-bit mode, and the BSS must have been
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* cleared/zeroed.
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*
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* @return Does not return
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*/
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FUNC_NORETURN void _Cstart(void)
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{
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/* floating point operations are NOT performed during nanokernel init */
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char dummyTCS[__tTCS_NOFLOAT_SIZEOF];
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/*
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* Initialize nanokernel data structures. This step includes
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* initializing the interrupt subsystem, which must be performed
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* before the hardware initialization phase.
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*/
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nano_init((struct tcs *)&dummyTCS);
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/* perform basic hardware initialization */
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_sys_device_do_config_level(_SYS_INIT_LEVEL_PRIMARY);
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/*
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* Initialize random number generator
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* As a platform may implement it in hardware, it has to be
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* initialized after rest of hardware initialization and
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* before stack canaries that use it
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*/
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RAND32_INIT();
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/* initialize stack canaries */
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STACK_CANARY_INIT();
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/* display boot banner */
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PRINT_BOOT_BANNER();
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/* context switch to main task (entry function is _main()) */
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_nano_fiber_swap();
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/*
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* Compiler can't tell that the above routines won't return and issues
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* a warning unless we explicitly tell it that control never gets this
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* far.
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*/
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CODE_UNREACHABLE;
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}
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