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zephyr/kernel/init.c
Inaky Perez-Gonzalez c51f73f77f boot: add CONFIG_BOOT_DELAY option 
Introduce a configurable boot delay option (defaulting to none) that
happens right after printing a boot delay banner, #before calling
main() in kernel/init.c:_main(), before taking timestamps for _main()
and once all the infrastructure is in place. Move also the boot banner
to happen after this delay.

The rationale for this is some boards will boot really fast and print
out some test case output in the serial port before the system that is
monitoring the serial port is able to read from the serial port.

This happens in MCUs whose serial port is embedded in a USB connection
which also is used to power the MCU board. When powering it on by
powering the USB port, there is a time it takes the host system to
detect the USB connection, enumerate the serial port, configure it and
load, start and read from the serial port. At this time, it might have
printed the output of the serial port.

While manually it is possible to press a reset button, on automation
setups this adds a lot of overhead and cabling or modifications to the
MCU that are easier (and cheaper) to overcome with this delay. Other
options (like using a separate serial line) might not be possible or
add a lot of cabling and cost, plus it'd also add extra build
configuration.

Change-Id: I2f4d1ba356de6cefa19b4ef5c9f19f87885d4dfd
Signed-off-by: Inaky Perez-Gonzalez <inaky.perez-gonzalez@intel.com>
2017-07-18 08:31:45 +03:00

390 lines
10 KiB
C
Raw Blame History

/*
* Copyright (c) 2010-2014 Wind River Systems, Inc.
*
* SPDX-License-Identifier: Apache-2.0
*/
/**
* @file
* @brief Kernel initialization module
*
* This module contains routines that are used to initialize the kernel.
*/
#include <zephyr.h>
#include <offsets_short.h>
#include <kernel.h>
#include <misc/printk.h>
#include <misc/stack.h>
#include <drivers/rand32.h>
#include <linker/sections.h>
#include <toolchain.h>
#include <kernel_structs.h>
#include <device.h>
#include <init.h>
#include <linker/linker-defs.h>
#include <ksched.h>
#include <version.h>
#include <string.h>
/* kernel build timestamp items */
#define BUILD_TIMESTAMP "BUILD: " __DATE__ " " __TIME__
#ifdef CONFIG_BUILD_TIMESTAMP
const char * const build_timestamp = BUILD_TIMESTAMP;
#endif
/* boot banner items */
static const unsigned int boot_delay;
#if defined(CONFIG_BOOT_DELAY) && CONFIG_BOOT_DELAY > 0
#define BOOT_DELAY_BANNER " (delayed boot " \
STRINGIFY(CONFIG_BOOT_DELAY) "ms)"
static const unsigned int boot_delay = CONFIG_BOOT_DELAY;
#else
#define BOOT_DELAY_BANNER ""
static const unsigned int boot_delay;
#endif
#define BOOT_BANNER "BOOTING ZEPHYR OS v" \
KERNEL_VERSION_STRING BOOT_DELAY_BANNER
#if !defined(CONFIG_BOOT_BANNER)
#define PRINT_BOOT_BANNER() do { } while (0)
#elif !defined(CONFIG_BUILD_TIMESTAMP)
#define PRINT_BOOT_BANNER() printk("***** " BOOT_BANNER " *****\n")
#else
#define PRINT_BOOT_BANNER() \
printk("***** " BOOT_BANNER " - %s *****\n", build_timestamp)
#endif
/* boot time measurement items */
#ifdef CONFIG_BOOT_TIME_MEASUREMENT
u64_t __noinit __start_time_stamp; /* timestamp when kernel starts */
u64_t __noinit __main_time_stamp; /* timestamp when main task starts */
u64_t __noinit __idle_time_stamp; /* timestamp when CPU goes idle */
#endif
#ifdef CONFIG_EXECUTION_BENCHMARKING
u64_t __noinit __start_swap_tsc;
u64_t __noinit __end_swap_tsc;
u64_t __noinit __start_intr_tsc;
u64_t __noinit __end_intr_tsc;
u64_t __noinit __start_tick_tsc;
u64_t __noinit __end_tick_tsc;
#endif
/* init/main and idle threads */
#define IDLE_STACK_SIZE CONFIG_IDLE_STACK_SIZE
#if CONFIG_MAIN_STACK_SIZE & (STACK_ALIGN - 1)
#error "MAIN_STACK_SIZE must be a multiple of the stack alignment"
#endif
#if IDLE_STACK_SIZE & (STACK_ALIGN - 1)
#error "IDLE_STACK_SIZE must be a multiple of the stack alignment"
#endif
#define MAIN_STACK_SIZE CONFIG_MAIN_STACK_SIZE
K_THREAD_STACK_DEFINE(_main_stack, MAIN_STACK_SIZE);
K_THREAD_STACK_DEFINE(_idle_stack, IDLE_STACK_SIZE);
static struct k_thread _main_thread_s;
static struct k_thread _idle_thread_s;
k_tid_t const _main_thread = (k_tid_t)&_main_thread_s;
k_tid_t const _idle_thread = (k_tid_t)&_idle_thread_s;
/*
* storage space for the interrupt stack
*
* Note: This area is used as the system stack during kernel initialization,
* since the kernel hasn't yet set up its own stack areas. The dual purposing
* of this area is safe since interrupts are disabled until the kernel context
* switches to the init thread.
*/
#if CONFIG_ISR_STACK_SIZE & (STACK_ALIGN - 1)
#error "ISR_STACK_SIZE must be a multiple of the stack alignment"
#endif
K_THREAD_STACK_DEFINE(_interrupt_stack, CONFIG_ISR_STACK_SIZE);
#ifdef CONFIG_SYS_CLOCK_EXISTS
#include <misc/dlist.h>
#define initialize_timeouts() do { \
sys_dlist_init(&_timeout_q); \
} while ((0))
#else
#define initialize_timeouts() do { } while ((0))
#endif
extern void idle(void *unused1, void *unused2, void *unused3);
void k_call_stacks_analyze(void)
{
#if defined(CONFIG_INIT_STACKS) && defined(CONFIG_PRINTK)
extern char sys_work_q_stack[CONFIG_SYSTEM_WORKQUEUE_STACK_SIZE];
#if defined(CONFIG_ARC) && CONFIG_RGF_NUM_BANKS != 1
extern char _firq_stack[CONFIG_FIRQ_STACK_SIZE];
#endif /* CONFIG_ARC */
printk("Kernel stacks:\n");
STACK_ANALYZE("main ", _main_stack);
STACK_ANALYZE("idle ", _idle_stack);
#if defined(CONFIG_ARC) && CONFIG_RGF_NUM_BANKS != 1
STACK_ANALYZE("firq ", _firq_stack);
#endif /* CONFIG_ARC */
STACK_ANALYZE("interrupt", _interrupt_stack);
STACK_ANALYZE("workqueue", sys_work_q_stack);
#endif /* CONFIG_INIT_STACKS && CONFIG_PRINTK */
}
/**
*
* @brief Clear BSS
*
* This routine clears the BSS region, so all bytes are 0.
*
* @return N/A
*/
void _bss_zero(void)
{
memset(&__bss_start, 0,
((u32_t) &__bss_end - (u32_t) &__bss_start));
#ifdef CONFIG_APPLICATION_MEMORY
memset(&__app_bss_start, 0,
((u32_t) &__app_bss_end - (u32_t) &__app_bss_start));
#endif
}
#ifdef CONFIG_XIP
/**
*
* @brief Copy the data section from ROM to RAM
*
* This routine copies the data section from ROM to RAM.
*
* @return N/A
*/
void _data_copy(void)
{
memcpy(&__data_ram_start, &__data_rom_start,
((u32_t) &__data_ram_end - (u32_t) &__data_ram_start));
#ifdef CONFIG_APPLICATION_MEMORY
memcpy(&__app_data_ram_start, &__app_data_rom_start,
((u32_t) &__app_data_ram_end - (u32_t) &__app_data_ram_start));
#endif
}
#endif
/**
*
* @brief Mainline for kernel's background task
*
* This routine completes kernel initialization by invoking the remaining
* init functions, then invokes application's main() routine.
*
* @return N/A
*/
static void _main(void *unused1, void *unused2, void *unused3)
{
ARG_UNUSED(unused1);
ARG_UNUSED(unused2);
ARG_UNUSED(unused3);
_sys_device_do_config_level(_SYS_INIT_LEVEL_POST_KERNEL);
/* Final init level before app starts */
_sys_device_do_config_level(_SYS_INIT_LEVEL_APPLICATION);
#ifdef CONFIG_CPLUSPLUS
/* Process the .ctors and .init_array sections */
extern void __do_global_ctors_aux(void);
extern void __do_init_array_aux(void);
__do_global_ctors_aux();
__do_init_array_aux();
#endif
_init_static_threads();
if (boot_delay > 0) {
printk("***** delaying boot " STRINGIFY(CONFIG_BOOT_DELAY)
"ms (per build configuration) *****\n");
k_sleep(CONFIG_BOOT_DELAY);
}
PRINT_BOOT_BANNER();
#ifdef CONFIG_BOOT_TIME_MEASUREMENT
/* record timestamp for kernel's _main() function */
extern u64_t __main_time_stamp;
__main_time_stamp = (u64_t)k_cycle_get_32();
#endif
extern void main(void);
main();
/* Terminate thread normally since it has no more work to do */
_main_thread->base.user_options &= ~K_ESSENTIAL;
}
void __weak main(void)
{
/* NOP default main() if the application does not provide one. */
}
/**
*
* @brief Initializes kernel data structures
*
* This routine initializes various kernel data structures, including
* the init and idle threads and any architecture-specific initialization.
*
* Note that all fields of "_kernel" are set to zero on entry, which may
* be all the initialization many of them require.
*
* @return N/A
*/
static void prepare_multithreading(struct k_thread *dummy_thread)
{
#ifdef CONFIG_ARCH_HAS_CUSTOM_SWAP_TO_MAIN
ARG_UNUSED(dummy_thread);
#else
/*
* Initialize the current execution thread to permit a level of
* debugging output if an exception should happen during kernel
* initialization. However, don't waste effort initializing the
* fields of the dummy thread beyond those needed to identify it as a
* dummy thread.
*/
_current = dummy_thread;
dummy_thread->base.user_options = K_ESSENTIAL;
dummy_thread->base.thread_state = _THREAD_DUMMY;
#endif
/* _kernel.ready_q is all zeroes */
/*
* The interrupt library needs to be initialized early since a series
* of handlers are installed into the interrupt table to catch
* spurious interrupts. This must be performed before other kernel
* subsystems install bonafide handlers, or before hardware device
* drivers are initialized.
*/
_IntLibInit();
/* ready the init/main and idle threads */
for (int ii = 0; ii < K_NUM_PRIORITIES; ii++) {
sys_dlist_init(&_ready_q.q[ii]);
}
/*
* prime the cache with the main thread since:
*
* - the cache can never be NULL
* - the main thread will be the one to run first
* - no other thread is initialized yet and thus their priority fields
* contain garbage, which would prevent the cache loading algorithm
* to work as intended
*/
_ready_q.cache = _main_thread;
_new_thread(_main_thread, _main_stack,
MAIN_STACK_SIZE, _main, NULL, NULL, NULL,
CONFIG_MAIN_THREAD_PRIORITY, K_ESSENTIAL);
_mark_thread_as_started(_main_thread);
_add_thread_to_ready_q(_main_thread);
#ifdef CONFIG_MULTITHREADING
_new_thread(_idle_thread, _idle_stack,
IDLE_STACK_SIZE, idle, NULL, NULL, NULL,
K_LOWEST_THREAD_PRIO, K_ESSENTIAL);
_mark_thread_as_started(_idle_thread);
_add_thread_to_ready_q(_idle_thread);
#endif
initialize_timeouts();
/* perform any architecture-specific initialization */
kernel_arch_init();
}
static void switch_to_main_thread(void)
{
#ifdef CONFIG_ARCH_HAS_CUSTOM_SWAP_TO_MAIN
_arch_switch_to_main_thread(_main_thread, _main_stack, MAIN_STACK_SIZE,
_main);
#else
/*
* Context switch to main task (entry function is _main()): the
* current fake thread is not on a wait queue or ready queue, so it
* will never be rescheduled in.
*/
_Swap(irq_lock());
#endif
}
#ifdef CONFIG_STACK_CANARIES
extern void *__stack_chk_guard;
#endif
/**
*
* @brief Initialize kernel
*
* This routine is invoked when the system is ready to run C code. The
* processor must be running in 32-bit mode, and the BSS must have been
* cleared/zeroed.
*
* @return Does not return
*/
FUNC_NORETURN void _Cstart(void)
{
#ifdef CONFIG_ARCH_HAS_CUSTOM_SWAP_TO_MAIN
struct k_thread *dummy_thread = NULL;
#else
struct k_thread dummy_thread_memory;
struct k_thread *dummy_thread = &dummy_thread_memory;
#endif
/*
* Initialize kernel data structures. This step includes
* initializing the interrupt subsystem, which must be performed
* before the hardware initialization phase.
*/
prepare_multithreading(dummy_thread);
/* perform basic hardware initialization */
_sys_device_do_config_level(_SYS_INIT_LEVEL_PRE_KERNEL_1);
_sys_device_do_config_level(_SYS_INIT_LEVEL_PRE_KERNEL_2);
/* initialize stack canaries */
#ifdef CONFIG_STACK_CANARIES
__stack_chk_guard = (void *)sys_rand32_get();
#endif
/* display boot banner */
switch_to_main_thread();
/*
* Compiler can't tell that the above routines won't return and issues
* a warning unless we explicitly tell it that control never gets this
* far.
*/
CODE_UNREACHABLE;
}
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