include/event.h - u-boot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0+ */
 /*
  * Events provide a general-purpose way to react to / subscribe to changes
  * within U-Boot
  *
  * Copyright 2021 Google LLC
  * Written by Simon Glass <sjg@chromium.org>
  */

 #ifndef __event_h
 #define __event_h

 #include <dm/ofnode_decl.h>
 #include <linux/types.h>

 /**
  * enum event_t - Types of events supported by U-Boot
  *
  * @EVT_DM_PRE_PROBE: Device is about to be probed
  */
 enum event_t {
 	/**
 	 * @EVT_NONE: This zero value is not used for events.
 	 */
 	EVT_NONE = 0,

 	/**
 	 * @EVT_TEST: This event is used in unit tests.
 	 */
 	EVT_TEST,

 	/**
 	 * @EVT_DM_POST_INIT_F:
 	 * This event is triggered after pre-relocation initialization of the
 	 * driver model. Its parameter is NULL.
 	 * A non-zero return code from the event handler let's the boot process
 	 * fail.
 	 */
 	EVT_DM_POST_INIT_F,

 	/**
 	 * @EVT_DM_POST_INIT_R:
 	 * This event is triggered after post-relocation initialization of the
 	 * driver model. Its parameter is NULL.
 	 * A non-zero return code from the event handler let's the boot process
 	 * fail.
 	 */
 	EVT_DM_POST_INIT_R,

 	/**
 	 * @EVT_DM_PRE_PROBE:
 	 * This event is triggered before probing a device. Its parameter is the
 	 * device to be probed.
 	 * A non-zero return code from the event handler lets the device not
 	 * being probed.
 	 */
 	EVT_DM_PRE_PROBE,

 	/**
 	 * @EVT_DM_POST_PROBE:
 	 * This event is triggered after probing a device. Its parameter is the
 	 * device that was probed.
 	 * A non-zero return code from the event handler leaves the device in
 	 * the unprobed state and therefore not usable.
 	 */
 	EVT_DM_POST_PROBE,

 	/**
 	 * @EVT_DM_PRE_REMOVE:
 	 * This event is triggered after removing a device. Its parameter is
 	 * the device to be removed.
 	 * A non-zero return code from the event handler stops the removal of
 	 * the device before any changes.
 	 */
 	EVT_DM_PRE_REMOVE,

 	/**
 	 * @EVT_DM_POST_REMOVE:
 	 * This event is triggered before removing a device. Its parameter is
 	 * the device that was removed.
 	 * A non-zero return code stops from the event handler the removal of
 	 * the device after all removal changes. The previous state is not
 	 * restored. All children will be gone and the device may not be
 	 * functional.
 	 */
 	EVT_DM_POST_REMOVE,

 	/**
 	 * @EVT_MISC_INIT_F:
 	 * This event is triggered during the initialization sequence before
 	 * relocation. Its parameter is NULL.
 	 * A non-zero return code from the event handler let's the boot process
 	 * fail.
 	 */
 	EVT_MISC_INIT_F,

 	/**
 	 * @EVT_FSP_INIT_F:
 	 * This event is triggered before relocation to set up Firmware Support
 	 * Package.
 	 * Where U-Boot relies on binary blobs to handle part of the system
 	 * init, this event can be used to set up the blobs. This is used on
 	 * some Intel platforms
 	 */
 	EVT_FSP_INIT_F,

 	/**
 	 * @EVT_SETTINGS_R:
 	 * This event is triggered post-relocation and before console init.
 	 * This gives an option to perform any platform-dependent setup, which
 	 * needs to take place before show_board_info() (e.g. readout of EEPROM
 	 * stored settings).
 	 */
 	EVT_SETTINGS_R,

 	/**
 	 * @EVT_LAST_STAGE_INIT:
 	 * This event is triggered just before jumping to the main loop.
 	 * Some boards need to perform initialisation immediately before control
 	 * is passed to the command-line interpreter (e.g. for init that depend
 	 * on later phases in the init sequence).
 	 *
 	 * Some parts can be only initialized if all others (like Interrupts)
 	 * are up and running (e.g. the PC-style ISA keyboard).
 	 */
 	EVT_LAST_STAGE_INIT,

 	/**
 	 * @EVT_FPGA_LOAD:
 	 * The FPGA load hook is called after loading an FPGA with a new binary.
 	 * Its parameter is of type struct event_fpga_load and contains
 	 * information about the loaded image.
 	 */
 	EVT_FPGA_LOAD,

 	/**
 	 * @EVT_FT_FIXUP:
 	 * This event is triggered during device-tree fix up after all
 	 * other device-tree fixups have been executed.
 	 * Its parameter is of type struct event_ft_fixup which contains
 	 * the address of the device-tree to fix up and the list of images to be
 	 * booted.
 	 * A non-zero return code from the event handler let's booting the
 	 * images fail.
 	 */
 	EVT_FT_FIXUP,

 	/**
 	 * @EVT_MAIN_LOOP:
 	 * This event is triggered immediately before calling main_loop() which
 	 * is the entry point of the command line. Its parameter is NULL.
 	 * A non-zero return value causes the boot to fail.
 	 */
 	EVT_MAIN_LOOP,

 	/**
 	 * @EVT_COUNT:
 	 * This constants holds the maximum event number + 1 and is used when
 	 * looping over all event classes.
 	 */
 	EVT_COUNT
 };

 union event_data {
 	/**
 	 * struct event_data_test  - test data
 	 *
 	 * @signal: A value to update the state with
 	 */
 	struct event_data_test {
 		int signal;
 	} test;

 	/**
 	 * struct event_dm - driver model event
 	 *
 	 * @dev: Device this event relates to
 	 */
 	struct event_dm {
 		struct udevice *dev;
 	} dm;

 	/**
 	 * struct event_fpga_load - fpga load event
 	 *
 	 * @buf: The buffer that was loaded into the fpga
 	 * @bsize: The size of the buffer that was loaded into the fpga
 	 * @result: Result of the load operation
 	 */
 	struct event_fpga_load {
 		const void *buf;
 		size_t bsize;
 		int result;
 	} fpga_load;

 	/**
 	 * struct event_ft_fixup - FDT fixup before booting
 	 *
 	 * @tree: tree to update
 	 * @images: images which are being booted
 	 */
 	struct event_ft_fixup {
 		oftree tree;
 		struct bootm_headers *images;
 	} ft_fixup;
 };

 /**
  * struct event - an event that can be sent and received
  *
  * @type: Event type
  * @data: Data for this particular event
  */
 struct event {
 	enum event_t type;
 	union event_data data;
 };

 /* Flags for event spy */
 enum evspy_flags {
 	EVSPYF_SIMPLE	= 1 << 0,
 };

 /** Function type for event handlers */
 typedef int (*event_handler_t)(void *ctx, struct event *event);

 /** Function type for simple event handlers */
 typedef int (*event_handler_simple_t)(void);

 /**
  * struct evspy_info - information about an event spy
  *
  * @func: Function to call when the event is activated (must be first)
  * @type: Event type
  * @flags: Flags for this spy
  * @id: Event id string
  */
 struct evspy_info {
 	event_handler_t func;
 	u8 type;
 	u8 flags;
 #if CONFIG_IS_ENABLED(EVENT_DEBUG)
 	const char *id;
 #endif
 };

 /**
  * struct evspy_info_simple - information about an event spy
  *
  * THis is the 'simple' record, the only difference being the handler function
  *
  * @func: Function to call when the event is activated (must be first)
  * @type: Event type
  * @flags: Flags for this spy
  * @id: Event id string
  */
 struct evspy_info_simple {
 	event_handler_simple_t func;
 	u8 type;
 	u8 flags;
 #if CONFIG_IS_ENABLED(EVENT_DEBUG)
 	const char *id;
 #endif
 };

 /* Declare a new event spy */
 #if CONFIG_IS_ENABLED(EVENT_DEBUG)
 #define _ESPY_REC(_type, _func)   { _func, _type, 0, #_func, }
 #define _ESPY_REC_SIMPLE(_type, _func)  { _func, _type, EVSPYF_SIMPLE, #_func, }
 #else
 #define _ESPY_REC(_type, _func)   { _func, _type, }
 #define _ESPY_REC_SIMPLE(_type, _func)  { _func, _type, EVSPYF_SIMPLE }
 #endif

 static inline const char *event_spy_id(struct evspy_info *spy)
 {
 #if CONFIG_IS_ENABLED(EVENT_DEBUG)
 	return spy->id;
 #else
 	return "?";
 #endif
 }

 /*
  * It seems that LTO will drop list entries if it decides they are not used,
  * although the conditions that cause this are unclear.
  *
  * The example found is the following:
  *
  * static int sandbox_misc_init_f(void *ctx, struct event *event)
  * {
  *    return sandbox_early_getopt_check();
  * }
  * EVENT_SPY_FULL(EVT_MISC_INIT_F, sandbox_misc_init_f);
  *
  * where EVENT_SPY_FULL uses ll_entry_declare()
  *
  * In this case, LTO decides to drop the sandbox_misc_init_f() function
  * (which is fine) but then drops the linker-list entry too. This means
  * that the code no longer works, in this case sandbox no-longer checks its
  * command-line arguments properly.
  *
  * Without LTO, the KEEP() command in the .lds file is enough to keep the
  * entry around. But with LTO it seems that the entry has already been
  * dropped before the link script is considered.
  *
  * The only solution I can think of is to mark linker-list entries as 'used'
  * using an attribute. This should be safe, since we don't actually want to drop
  * any of these. However this does slightly limit LTO's optimisation choices.
  *
  * Another issue has come up, only with clang: using 'static' makes it throw
  * away the linker-list entry sometimes, e.g. with the EVT_FT_FIXUP entry in
  * vbe_simple.c - so for now, make it global.
  */
 #define EVENT_SPY_FULL(_type, _func) \
 	__used ll_entry_declare(struct evspy_info, _type ## _3_ ## _func, \
 		evspy_info) = _ESPY_REC(_type, _func)

 /* Simple spy with no function arguments */
 #define EVENT_SPY_SIMPLE(_type, _func) \
 	__used ll_entry_declare(struct evspy_info_simple, \
 		_type ## _3_ ## _func, \
 		evspy_info) = _ESPY_REC_SIMPLE(_type, _func)

 /**
  * event_register - register a new spy
  *
  * @id: Spy ID
  * @type: Event type to subscribe to
  * @func: Function to call when the event is sent
  * @ctx: Context to pass to the function
  * @return 0 if OK, -ve on error
  */
 int event_register(const char *id, enum event_t type, event_handler_t func,
 		   void *ctx);

 /** event_show_spy_list( - Show a list of event spies */
 void event_show_spy_list(void);

 /**
  * event_type_name() - Get the name of an event type
  *
  * @type: Type to check
  * Return: Name of event, or "(unknown)" if not known
  */
 const char *event_type_name(enum event_t type);

 /**
  * event_notify() - notify spies about an event
  *
  * It is possible to pass in union event_data here but that may not be
  * convenient if the data is elsewhere, or is one of the members of the union.
  * So this uses a void * for @data, with a separate @size.
  *
  * @type: Event type
  * @data: Event data to be sent (e.g. union_event_data)
  * @size: Size of data in bytes
  * @return 0 if OK, -ve on error
  */
 int event_notify(enum event_t type, void *data, int size);

 #if CONFIG_IS_ENABLED(EVENT)
 /**
  * event_notify_null() - notify spies about an event
  *
  * Data is NULL and the size is 0
  *
  * @type: Event type
  * @return 0 if OK, -ve on error
  */
 int event_notify_null(enum event_t type);
 #else
 static inline int event_notify_null(enum event_t type)
 {
 	return 0;
 }
 #endif

 #if CONFIG_IS_ENABLED(EVENT_DYNAMIC)
 /**
  * event_uninit() - Clean up dynamic events
  *
  * This removes all dynamic event handlers
  */
 int event_uninit(void);

 /**
  * event_uninit() - Set up dynamic events
  *
  * Init a list of dynamic event handlers, so that these can be added as
  * needed
  */
 int event_init(void);
 #else
 static inline int event_uninit(void)
 {
 	return 0;
 }

 static inline int event_init(void)
 {
 	return 0;
 }
 #endif

 #endif
	/* SPDX-License-Identifier: GPL-2.0+ */
	/*
	* Events provide a general-purpose way to react to / subscribe to changes
	* within U-Boot
	*
	* Copyright 2021 Google LLC
	* Written by Simon Glass <sjg@chromium.org>
	*/

	#ifndef __event_h
	#define __event_h

	#include <dm/ofnode_decl.h>
	#include <linux/types.h>

	/**
	* enum event_t - Types of events supported by U-Boot
	*
	* @EVT_DM_PRE_PROBE: Device is about to be probed
	*/
	enum event_t {
	/**
	* @EVT_NONE: This zero value is not used for events.
	*/
	EVT_NONE = 0,

	/**
	* @EVT_TEST: This event is used in unit tests.
	*/
	EVT_TEST,

	/**
	* @EVT_DM_POST_INIT_F:
	* This event is triggered after pre-relocation initialization of the
	* driver model. Its parameter is NULL.
	* A non-zero return code from the event handler let's the boot process
	* fail.
	*/
	EVT_DM_POST_INIT_F,

	/**
	* @EVT_DM_POST_INIT_R:
	* This event is triggered after post-relocation initialization of the
	* driver model. Its parameter is NULL.
	* A non-zero return code from the event handler let's the boot process
	* fail.
	*/
	EVT_DM_POST_INIT_R,

	/**
	* @EVT_DM_PRE_PROBE:
	* This event is triggered before probing a device. Its parameter is the
	* device to be probed.
	* A non-zero return code from the event handler lets the device not
	* being probed.
	*/
	EVT_DM_PRE_PROBE,

	/**
	* @EVT_DM_POST_PROBE:
	* This event is triggered after probing a device. Its parameter is the
	* device that was probed.
	* A non-zero return code from the event handler leaves the device in
	* the unprobed state and therefore not usable.
	*/
	EVT_DM_POST_PROBE,

	/**
	* @EVT_DM_PRE_REMOVE:
	* This event is triggered after removing a device. Its parameter is
	* the device to be removed.
	* A non-zero return code from the event handler stops the removal of
	* the device before any changes.
	*/
	EVT_DM_PRE_REMOVE,

	/**
	* @EVT_DM_POST_REMOVE:
	* This event is triggered before removing a device. Its parameter is
	* the device that was removed.
	* A non-zero return code stops from the event handler the removal of
	* the device after all removal changes. The previous state is not
	* restored. All children will be gone and the device may not be
	* functional.
	*/
	EVT_DM_POST_REMOVE,

	/**
	* @EVT_MISC_INIT_F:
	* This event is triggered during the initialization sequence before
	* relocation. Its parameter is NULL.
	* A non-zero return code from the event handler let's the boot process
	* fail.
	*/
	EVT_MISC_INIT_F,

	/**
	* @EVT_FSP_INIT_F:
	* This event is triggered before relocation to set up Firmware Support
	* Package.
	* Where U-Boot relies on binary blobs to handle part of the system
	* init, this event can be used to set up the blobs. This is used on
	* some Intel platforms
	*/
	EVT_FSP_INIT_F,

	/**
	* @EVT_SETTINGS_R:
	* This event is triggered post-relocation and before console init.
	* This gives an option to perform any platform-dependent setup, which
	* needs to take place before show_board_info() (e.g. readout of EEPROM
	* stored settings).
	*/
	EVT_SETTINGS_R,

	/**
	* @EVT_LAST_STAGE_INIT:
	* This event is triggered just before jumping to the main loop.
	* Some boards need to perform initialisation immediately before control
	* is passed to the command-line interpreter (e.g. for init that depend
	* on later phases in the init sequence).
	*
	* Some parts can be only initialized if all others (like Interrupts)
	* are up and running (e.g. the PC-style ISA keyboard).
	*/
	EVT_LAST_STAGE_INIT,

	/**
	* @EVT_FPGA_LOAD:
	* The FPGA load hook is called after loading an FPGA with a new binary.
	* Its parameter is of type struct event_fpga_load and contains
	* information about the loaded image.
	*/
	EVT_FPGA_LOAD,

	/**
	* @EVT_FT_FIXUP:
	* This event is triggered during device-tree fix up after all
	* other device-tree fixups have been executed.
	* Its parameter is of type struct event_ft_fixup which contains
	* the address of the device-tree to fix up and the list of images to be
	* booted.
	* A non-zero return code from the event handler let's booting the
	* images fail.
	*/
	EVT_FT_FIXUP,

	/**
	* @EVT_MAIN_LOOP:
	* This event is triggered immediately before calling main_loop() which
	* is the entry point of the command line. Its parameter is NULL.
	* A non-zero return value causes the boot to fail.
	*/
	EVT_MAIN_LOOP,

	/**
	* @EVT_COUNT:
	* This constants holds the maximum event number + 1 and is used when
	* looping over all event classes.
	*/
	EVT_COUNT
	};

	union event_data {
	/**
	* struct event_data_test - test data
	*
	* @signal: A value to update the state with
	*/
	struct event_data_test {
	int signal;
	} test;

	/**
	* struct event_dm - driver model event
	*
	* @dev: Device this event relates to
	*/
	struct event_dm {
	struct udevice *dev;
	} dm;

	/**
	* struct event_fpga_load - fpga load event
	*
	* @buf: The buffer that was loaded into the fpga
	* @bsize: The size of the buffer that was loaded into the fpga
	* @result: Result of the load operation
	*/
	struct event_fpga_load {
	const void *buf;
	size_t bsize;
	int result;
	} fpga_load;

	/**
	* struct event_ft_fixup - FDT fixup before booting
	*
	* @tree: tree to update
	* @images: images which are being booted
	*/
	struct event_ft_fixup {
	oftree tree;
	struct bootm_headers *images;
	} ft_fixup;
	};

	/**
	* struct event - an event that can be sent and received
	*
	* @type: Event type
	* @data: Data for this particular event
	*/
	struct event {
	enum event_t type;
	union event_data data;
	};

	/* Flags for event spy */
	enum evspy_flags {
	EVSPYF_SIMPLE = 1 << 0,
	};

	/** Function type for event handlers */
	typedef int (event_handler_t)(void ctx, struct event *event);

	/** Function type for simple event handlers */
	typedef int (*event_handler_simple_t)(void);

	/**
	* struct evspy_info - information about an event spy
	*
	* @func: Function to call when the event is activated (must be first)
	* @type: Event type
	* @flags: Flags for this spy
	* @id: Event id string
	*/
	struct evspy_info {
	event_handler_t func;
	u8 type;
	u8 flags;
	#if CONFIG_IS_ENABLED(EVENT_DEBUG)
	const char *id;
	#endif
	};

	/**
	* struct evspy_info_simple - information about an event spy
	*
	* THis is the 'simple' record, the only difference being the handler function
	*
	* @func: Function to call when the event is activated (must be first)
	* @type: Event type
	* @flags: Flags for this spy
	* @id: Event id string
	*/
	struct evspy_info_simple {
	event_handler_simple_t func;
	u8 type;
	u8 flags;
	#if CONFIG_IS_ENABLED(EVENT_DEBUG)
	const char *id;
	#endif
	};

	/* Declare a new event spy */
	#if CONFIG_IS_ENABLED(EVENT_DEBUG)
	#define _ESPY_REC(_type, _func) { _func, _type, 0, #_func, }
	#define _ESPY_REC_SIMPLE(_type, _func) { _func, _type, EVSPYF_SIMPLE, #_func, }
	#else
	#define _ESPY_REC(_type, _func) { _func, _type, }
	#define _ESPY_REC_SIMPLE(_type, _func) { _func, _type, EVSPYF_SIMPLE }
	#endif

	static inline const char event_spy_id(struct evspy_info spy)
	{
	#if CONFIG_IS_ENABLED(EVENT_DEBUG)
	return spy->id;
	#else
	return "?";
	#endif
	}

	/*
	* It seems that LTO will drop list entries if it decides they are not used,
	* although the conditions that cause this are unclear.
	*
	* The example found is the following:
	*
	* static int sandbox_misc_init_f(void ctx, struct event event)
	* {
	* return sandbox_early_getopt_check();
	* }
	* EVENT_SPY_FULL(EVT_MISC_INIT_F, sandbox_misc_init_f);
	*
	* where EVENT_SPY_FULL uses ll_entry_declare()
	*
	* In this case, LTO decides to drop the sandbox_misc_init_f() function
	* (which is fine) but then drops the linker-list entry too. This means
	* that the code no longer works, in this case sandbox no-longer checks its
	* command-line arguments properly.
	*
	* Without LTO, the KEEP() command in the .lds file is enough to keep the
	* entry around. But with LTO it seems that the entry has already been
	* dropped before the link script is considered.
	*
	* The only solution I can think of is to mark linker-list entries as 'used'
	* using an attribute. This should be safe, since we don't actually want to drop
	* any of these. However this does slightly limit LTO's optimisation choices.
	*
	* Another issue has come up, only with clang: using 'static' makes it throw
	* away the linker-list entry sometimes, e.g. with the EVT_FT_FIXUP entry in
	* vbe_simple.c - so for now, make it global.
	*/
	#define EVENT_SPY_FULL(_type, _func) \
	__used ll_entry_declare(struct evspy_info, _type ## _3_ ## _func, \
	evspy_info) = _ESPY_REC(_type, _func)

	/* Simple spy with no function arguments */
	#define EVENT_SPY_SIMPLE(_type, _func) \
	__used ll_entry_declare(struct evspy_info_simple, \
	_type ## _3_ ## _func, \
	evspy_info) = _ESPY_REC_SIMPLE(_type, _func)

	/**
	* event_register - register a new spy
	*
	* @id: Spy ID
	* @type: Event type to subscribe to
	* @func: Function to call when the event is sent
	* @ctx: Context to pass to the function
	* @return 0 if OK, -ve on error
	*/
	int event_register(const char *id, enum event_t type, event_handler_t func,
	void *ctx);

	/** event_show_spy_list( - Show a list of event spies */
	void event_show_spy_list(void);

	/**
	* event_type_name() - Get the name of an event type
	*
	* @type: Type to check
	* Return: Name of event, or "(unknown)" if not known
	*/
	const char *event_type_name(enum event_t type);

	/**
	* event_notify() - notify spies about an event
	*
	* It is possible to pass in union event_data here but that may not be
	* convenient if the data is elsewhere, or is one of the members of the union.
	* So this uses a void * for @data, with a separate @size.
	*
	* @type: Event type
	* @data: Event data to be sent (e.g. union_event_data)
	* @size: Size of data in bytes
	* @return 0 if OK, -ve on error
	*/
	int event_notify(enum event_t type, void *data, int size);

	#if CONFIG_IS_ENABLED(EVENT)
	/**
	* event_notify_null() - notify spies about an event
	*
	* Data is NULL and the size is 0
	*
	* @type: Event type
	* @return 0 if OK, -ve on error
	*/
	int event_notify_null(enum event_t type);
	#else
	static inline int event_notify_null(enum event_t type)
	{
	return 0;
	}
	#endif

	#if CONFIG_IS_ENABLED(EVENT_DYNAMIC)
	/**
	* event_uninit() - Clean up dynamic events
	*
	* This removes all dynamic event handlers
	*/
	int event_uninit(void);

	/**
	* event_uninit() - Set up dynamic events
	*
	* Init a list of dynamic event handlers, so that these can be added as
	* needed
	*/
	int event_init(void);
	#else
	static inline int event_uninit(void)
	{
	return 0;
	}

	static inline int event_init(void)
	{
	return 0;
	}
	#endif

	#endif