include/init.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google


 /*
  * Copyright (c) 2015 Intel Corporation.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef _INIT_H_
 #define _INIT_H_

 #include <device.h>
 #include <toolchain.h>

 #define PRE_KERNEL_CORE		0
 #define PRE_KERNEL_EARLY	1
 #define PRE_KERNEL_LATE		2
 #define NANO_EARLY		3
 #define NANO_LATE		4
 #define MICRO_EARLY		5
 #define MICRO_LATE		6
 #define APP_EARLY		7
 #define APP_LATE		8

 /** @def __define_initconfig
  *
  *  @brief Define an init object
  *
  *  @details This macro declares an init object to be placed in a
  *  given init level section in the image. This macro should not be used
  *  directly.
  *
  *  @param cfg_name Name of the config object created with
  *  DECLARE_DEVICE_INIT_CONFIG() macro that will be referenced by
  *  init object.
  *
  *  @param id The init level id where the init object will be placed
  *  in the image.
  *
  *  @param data The pointer to the driver data for the driver instance.
  *  @sa DECLARE_DEVICE_INIT_CONFIG()
  */
 #define __define_initconfig(cfg_name, id, data)			    \
 	 static struct device (__initconfig_##cfg_name##id) __used  \
 	__attribute__((__section__(".initconfig" #id ".init"))) = { \
 		 .config = &(config_##cfg_name),\
 		 .driver_data = data}
 /*
  * There are four distinct init levels, pre_kernel, nano, micro
  * and app. Each init level a unique set of restrictions placed on the
  * component being initialized within the level.
  *   pre_kernel:
  *     At this level no kernel objects or services are available to
  *     the component. pre_kernel has three phases, core, early and
  *     late. The core phase is intended for components that rely
  *     solely on hardware present in the processor/SOC and do *not*
  *     rely on services from any other component in the system. The
  *     early phase can be used by components that do *not* need kernel
  *     services and may rely on components from the core phase. The
  *     late phase can be used by components that do *not* need kernel
  *     services and may rely on components from the core and early
  *     phases.
  *  nano:
  *     At this level nano kernel services are available to the
  *     component. All services provided by the components initialized
  *     in the pre_kernel are also available. The nano level has an
  *     early and late phase.  Components in the early phase may rely
  *     on the nano kernel and pre_kernel services.  Components in the
  *     late phase may rely on, nano kernel, pre_kernel services and
  *     nano_early services
  *  micro:
  *     At this level micro kernel, nano kernel and pre_kernel services
  *     are available to the component. The micor level has an
  *     early and late phase.  Components in the early phase may rely
  *     on micro kernel, nano kernel and pre_kernel services.
  *     Components in the late phase may rely on, micro kernel, nano
  *     kernel, pre_kernel services and  micro_early services
  *  app:
  *    The app level is not intended for core kernel components but for
  *    the application developer to add any components that they wish to
  *    have initialized automatically during kernel initialization.  The
  *    app level is executed as the final init stage in both nanokernel
  *    and microkernel configurations. The application component may
  *    rely any component configured into the system.
 */

 /* Run on pre_kernel stack; no {micro,nano} kernel objects available */
 #define pre_kernel_core_init(cfg, data)	 __define_initconfig(cfg, 0, data)
 #define pre_kernel_early_init(cfg, data) __define_initconfig(cfg, 1, data)
 #define pre_kernel_late_init(cfg, data)	 __define_initconfig(cfg, 2, data)

 /* Run from nano kernel idle task; no micro kernel objects available */
 #define nano_early_init(cfg, data)	__define_initconfig(cfg, 3, data)
 #define nano_late_init(cfg, data)	__define_initconfig(cfg, 4, data)

 /* Run from micro kernel idle task. */
 #define micro_early_init(cfg, data)	__define_initconfig(cfg, 5, data)
 #define micro_late_init(cfg, data)	__define_initconfig(cfg, 6, data)

 /* Run in the idle task; In a nano kernel only system run after
  * nano_late_init(). In a micro kernel system after micro_late_init()
  */
 #define app_early_init(cfg, data)	__define_initconfig(cfg, 7, data)
 #define app_late_init(cfg, data)	__define_initconfig(cfg, 8, data)


 #endif /* _INIT_H_ */

	/*
	* Copyright (c) 2015 Intel Corporation.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef _INIT_H_
	#define _INIT_H_

	#include <device.h>
	#include <toolchain.h>

	#define PRE_KERNEL_CORE 0
	#define PRE_KERNEL_EARLY 1
	#define PRE_KERNEL_LATE 2
	#define NANO_EARLY 3
	#define NANO_LATE 4
	#define MICRO_EARLY 5
	#define MICRO_LATE 6
	#define APP_EARLY 7
	#define APP_LATE 8

	/** @def __define_initconfig
	*
	* @brief Define an init object
	*
	* @details This macro declares an init object to be placed in a
	* given init level section in the image. This macro should not be used
	* directly.
	*
	* @param cfg_name Name of the config object created with
	* DECLARE_DEVICE_INIT_CONFIG() macro that will be referenced by
	* init object.
	*
	* @param id The init level id where the init object will be placed
	* in the image.
	*
	* @param data The pointer to the driver data for the driver instance.
	* @sa DECLARE_DEVICE_INIT_CONFIG()
	*/
	#define __define_initconfig(cfg_name, id, data) \
	static struct device (__initconfig_##cfg_name##id) __used \
	__attribute__((__section__(".initconfig" #id ".init"))) = { \
	.config = &(config_##cfg_name),\
	.driver_data = data}
	/*
	* There are four distinct init levels, pre_kernel, nano, micro
	* and app. Each init level a unique set of restrictions placed on the
	* component being initialized within the level.
	* pre_kernel:
	* At this level no kernel objects or services are available to
	* the component. pre_kernel has three phases, core, early and
	* late. The core phase is intended for components that rely
	* solely on hardware present in the processor/SOC and do not
	* rely on services from any other component in the system. The
	* early phase can be used by components that do not need kernel
	* services and may rely on components from the core phase. The
	* late phase can be used by components that do not need kernel
	* services and may rely on components from the core and early
	* phases.
	* nano:
	* At this level nano kernel services are available to the
	* component. All services provided by the components initialized
	* in the pre_kernel are also available. The nano level has an
	* early and late phase. Components in the early phase may rely
	* on the nano kernel and pre_kernel services. Components in the
	* late phase may rely on, nano kernel, pre_kernel services and
	* nano_early services
	* micro:
	* At this level micro kernel, nano kernel and pre_kernel services
	* are available to the component. The micor level has an
	* early and late phase. Components in the early phase may rely
	* on micro kernel, nano kernel and pre_kernel services.
	* Components in the late phase may rely on, micro kernel, nano
	* kernel, pre_kernel services and micro_early services
	* app:
	* The app level is not intended for core kernel components but for
	* the application developer to add any components that they wish to
	* have initialized automatically during kernel initialization. The
	* app level is executed as the final init stage in both nanokernel
	* and microkernel configurations. The application component may
	* rely any component configured into the system.
	*/

	/* Run on pre_kernel stack; no {micro,nano} kernel objects available */
	#define pre_kernel_core_init(cfg, data) __define_initconfig(cfg, 0, data)
	#define pre_kernel_early_init(cfg, data) __define_initconfig(cfg, 1, data)
	#define pre_kernel_late_init(cfg, data) __define_initconfig(cfg, 2, data)

	/* Run from nano kernel idle task; no micro kernel objects available */
	#define nano_early_init(cfg, data) __define_initconfig(cfg, 3, data)
	#define nano_late_init(cfg, data) __define_initconfig(cfg, 4, data)

	/* Run from micro kernel idle task. */
	#define micro_early_init(cfg, data) __define_initconfig(cfg, 5, data)
	#define micro_late_init(cfg, data) __define_initconfig(cfg, 6, data)

	/* Run in the idle task; In a nano kernel only system run after
	* nano_late_init(). In a micro kernel system after micro_late_init()
	*/
	#define app_early_init(cfg, data) __define_initconfig(cfg, 7, data)
	#define app_late_init(cfg, data) __define_initconfig(cfg, 8, data)


	#endif /* _INIT_H_ */